Agilent E5250A
Low Leakage Switch
Mainframe
User’s Guide
Agilent Technologies
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•
Herstellerbescheinigung
GEÄUSCHEMISSION
Lpa < 70 dB
am Arbeitsplatz
normaler Betrieb
nach DIN 45635 T. 19
Manufacturer’s Declaration
ACOUSTIC NOISE EMISSION
Lpa < 70 dB
•
operator position
normal operation
per ISO 7779
NOTE
This ISM device complies with Canadian ICES-001.
Cet appareil ISM est conforme ?Hla norme NMB-001 du Canada.
This product complies with the WEEE Directive (2002/96/EC) marking
requirements. The affixed label indicates that you must not discard this electrical/
electronic product in domestic household waste.
Product Category: With reference to the equipment types in the WEEE Directive
Annex I, this product is classed as a “Monitoring and Control instrumentation”
product.
Do not dispose in domestic household waste.
To return unwanted products, contact your local Agilent office, or see
www.agilent.com/environment/product/ for more information.
Microsoft, Windows, Windows NT, Visual C++, and Visual Basic are registered trademarks of Microsoft
Corporation. Borland C++ Builder is registered trademark of International, Inc. LabWindows and
LabVIEW are registered trademarks of National Instruments Corporation.
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Safety Summary
The following general safety precautions must be observed during all phases of
operation, service, and repair of this instrument. Failure to comply with these
precautions or with specific warnings elsewhere in this manual may impair the
protections provided by the equipment. In addition, it violates safety standards of
design, manufacture, and intended use of the instrument. Agilent Technologies, Inc.
assumes no liability for customer’s failure to comply with these requirements.
NOTE
Agilent E5250A complies with INSTALLATION CATEGORY II for mains input
and INSTALLATION CATEGORY I for measurement input terminals, and
POLLUTION DEGREE 2 defined in IEC 1010-1.
Agilent E5250A is INDOOR USE products.
•
GROUND THE INSTRUMENT
This is Safety Class I instrument. To minimize shock hazard, the instrument
chassis and cabinet must be connected to an electrical ground. The power
terminal and the power cable must meet International Electrotechnical
Commission (IEC) safety standards.
•
•
DO NOT OPERATE IN AN EXPLOSIVE ATMOSPHERE
Do not operate the instrument in the presence of flammable gases or fumes.
Operation of any electrical instrument in such an environment constitutes a
definite safety hazard.
KEEP AWAY FROM LIVE CIRCUITS
Operation personnel must not remove instrument covers. Component
replacement and internal adjustments must be made by qualified maintenance
personnel. Do not replace components with power cable connected. Under
certain conditions, dangerous voltages may exist even with the power cable
removed. To avoid injuries, always disconnect power and discharge circuits
before touching them.
•
DO NOT SERVICE OR ADJUST ALONE
Do not attempt internal service or adjustment unless another person, capable of
rendering first aid and resuscitation, is present.
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•
•
DO NOT SUBSTITUTE PARTS OR MODIFY INSTRUMENT
Because of the danger of introducing additional hazards, do not install substitute
parts or perform any unauthorized modification to the instrument. Return the
instrument to a Agilent Technologies Sales and Service Office for services and
repair to ensure that safety features are maintained.
DANGEROUS PROCEDURE WARNINGS
Warnings, such as example below, precede potentially dangerous procedures
throughout this manual. Instructions contained in the warnings must be
followed.
WARNING
Dangerous Voltage, capable of causing death, are present in this instrument.
Use extreme caution when handling, testing, and adjusting.
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Safety Symbols
The general definitions of safety symbols used on equipment or in manuals are
listed below.
Instruction manual symbol: the product will be marked with this symbol when it is
necessary for the user to refer to the instruction manual in order to protect against
damage to the instrument.
Indicates dangerous voltage and potential for electrical shock. Do not touch
terminals that have this symbol when insrument is on.
Affixed to product containing static sensitive devices--use anti-static handling
procedures to prevent electrostatic discharge damage to component.
Protective conductor terminal. For protection against electrical shock in case of a
fault. Used with field wiring terminals to indicate the terminal which must be
connected to ground before operating equipment.
Frame or chassis terminal. A connection to the frame (chassis) of the equipment
which normally includes all exposed metal structures.
Indicates earth (ground) terminal.
Alternating current.
Direct current.
ON (Supply).
OFF (Supply).
STANDBY (Supply).
Means INSTALLATION CATEGORY I. Measurement terminals on the rear panel
comply with INSTALLATION CATEGORY I.
CAT 1
WARNING
CAUTION
The warning sign denotes a hazard. It calls attention to a procedure, practice,
condition or the like, which, if not correctly performed or adhered to, could result in
injury or death to personal.
The caution sign denotes a hazard. It calls attention to an operating procedure,
practice, condition or the like, which, if not correctly performed or adhered to, could
result in damage to or destruction of part or all of the product.
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In This Manual
This manual is a user’s guide for Agilent E5250A, and consists of the following
chapters:
•
Introduction
Provides an overview of the E5250A Low Leakage Switch Mainframe, E5252A
10×12 Matrix Switch, and E5255A 24 (8×3) Channel Multiplexer.
•
•
Installation
Describes requirements to install the E5250A and tasks for installation.
Executing Self-Test and Leak Test
Describes how to execute the three Self-Test items (Controller Test, Front Panel
Interface Test, and Relay Test) and the Leak Test.
•
•
Setting up Measurement Environment
Explains how to connect your instruments to the E5250A input, and how to
connect the E5250A output to your wafer prober or test fixture.
Controlling the E5250A
Introduces several methods for controlling the E5250A, gives basic information
for controlling the relay switches on the plug-in cards, and describes how to use
Virtual Front Panel (VFP) utility furnished with the E5250A.
•
•
Programming the E5250A
Describes how to create programs that contain SCPI commands to control the
E5250A.
Command Reference
Describes the SCPI commands available to operate the E5250A via GPIB
interface and the status reporting structure.
•
•
VXI plug&play Driver
Introduces the VXI plug&play driver available for the E5250A.
Executing Sample Programs
Explains how to execute and modify the sample programs stored in the program
disk that is furnished with the E5250A.
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•
Specifications
Lists specifications, typical data, supplemental data, and reference data for the
E5250A, E5252A, and E5255A.
•
•
Error Messages
Lists and describes the error messages for the E5250A.
SCPI Command Summary
This is a quick reference for the SCPI subsystem commands available for the
E5250A.
Text Conventions
The following text conventions are used in this manual:
Screen Text
Represents text that appears on screen of the controller.
Refers to a related document, or is used for emphasis.
Italic
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Contents
Agilent E5250A Product Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
Front Panel Tour . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4
Rear Panel Tour . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4
Agilent E5252A Product Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6
Agilent E5255A Product Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-8
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-11
Options and Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-12
2. Installation
Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4
Power Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4
Operating Environment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6
Installing the E5250A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-7
To Install Blank Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-9
To Configure E5255A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-10
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-11
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-12
E5255A Configuration Examples. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-13
To Set GPIB Address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-17
To Connect GPIB Cable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-17
Agilent E5250A User’s Guide, Edition 8
Contents - 1
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Contents
Performance Verification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-18
Cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-18
3. Executing Self-Test and Leak Test
To Execute Self-Test (Standalone) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4
Using the Self-Test Utility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-10
Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-10
To Start the Self-Test Utility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-11
To Execute Self-Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-12
To Execute Leak Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-15
4. Setting up Measurement Environment
Connector Plates for the E5252A. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-3
Connector Plates for E5255A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-3
Connecting 8-Channel Shielded Coaxial Cable . . . . . . . . . . . . . . . . . . . . . . . . . . 4-5
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-5
Mounting Connectors Directly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-6
To Connect Connectors to DUT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-13
Connecting the E5250A Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-15
To Connect Instruments to Input Connectors . . . . . . . . . . . . . . . . . . . . . . . . . 4-15
To Connect Bias Source to the E5255A Bias Input . . . . . . . . . . . . . . . . . . . . 4-18
To Connect GNDU to the E5250A Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-18
Connecting the E5250A Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-20
Contents - 2
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Contents
To Connect the E5252A Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-20
To Connect the E5255A Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-22
Measurement Cable Length . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-23
5. Controlling the E5250A
Methods for Controlling the E5250A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-3
Creating Your Own Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-3
Modifying a Sample Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-4
Using the Virtual Front Panel (VFP) Utility . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-4
Channel List and Channel Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-6
Connection Rule . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-9
Connection Sequence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-10
Bias Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-11
Couple Port . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-13
E5252A Channel List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-15
E5255A Channel List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-19
Using Virtual Front Panel Utility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-25
Functions of Virtual Front Panel Utility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-26
Starting the Virtual Front Panel Utility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-27
Confirming the E5250A Card Configurations . . . . . . . . . . . . . . . . . . . . . . . . 5-28
Saving/Loading the Setup Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-42
6. Programming the E5250A
SCPI Programming Basics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-3
SCPI Command Hierarchy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-4
Agilent E5250A User’s Guide, Edition 8
Contents - 3
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Contents
Creating a Control Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-6
Defining Connection Rule . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-8
Using Couple Port (for E5252A only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-11
Controlling Relay Switching . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-12
Programming Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-13
Channel Creation Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-14
Bias Mode Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-16
Couple Port Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-19
Using the VFP Data Upload Library . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-22
Programming Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-25
Before Executing Your Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-26
Error Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-27
Capacitance Compensation Routine . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-29
Required Conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-30
Programming Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-32
Before Executing Your Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-32
Error Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-32
Common Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-4
:DIAGnostic Subsystem . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-15
:ROUTe Subsystem . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-20
:SYSTem Subsystem . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-42
Contents - 4
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Contents
Status Reporting Structure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-48
Status Byte Register . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-50
Standard Event Status Register . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-53
Standard Event Status Enable Register . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-54
Output Queue . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-55
8. VXI plug&play Driver
System Requirements. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-3
Installing VXIplug&play Driver . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-4
Driver Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-5
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-3
Executing the Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-9
Modifying the Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-11
HCI Measurement Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-17
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-17
Setting up the Measurement Environment . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-24
Executing the Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-27
Modifying the Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9-35
10. Specifications
11. Error Messages
Agilent E5250A User’s Guide, Edition 8
Contents - 5
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Contents
12. SCPI Command Summary
Contents - 6
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Introduction
•
•
•
•
“Agilent E5250A Product Description”
“Agilent E5252A Product Description”
“Agilent E5255A Product Description”
“Options and Accessories”
1-2
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Introduction
Agilent E5250A Product Description
Agilent E5250A Product Description
Agilent E5250A Low Leakage Switch Mainframe is a computer-controlled
switching matrix mainframe designed for semiconductor dc characteristics
measurement applications. The E5250A has four slots for installing the modules
(plug-in cards) listed in Table 1-1.
These cards can be used in various switching matrix configurations in the E5250A.
For example, using four E5252As, you can configure a maximum 10-input
48-output switching matrix, or using four E5255As, you can configure a maximum
2-input × 96-output multiplexer.
Table 1-1
Available Plug-in Cards for E5250A
Model No.
Description
E5252A
E5255A
10×12 Matrix Switch
24 (8×3) Channel Multiplexer
Figure 1-1
E5250A Front Panel
Agilent E5250A User’s Guide, Edition 8
1-3
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Introduction
Front Panel Tour
The E5250A has 2 hard keys and 4 LED indicators on the front panel as shown in
Figure 1-1.
LINE key
Line LED
Used to turn the E5250A on or off.
Turns on when the E5250A is turned on.
Local/Self Test key If "Remote" LED is on, pressing this key releases the
E5250A from remote GPIB control by an external controller.
If "Remote" LED is off, pressing this key executes the Relay
Test. Before pressing this key, make sure the Relay Test
Adapter is connected. For details of Relay Test, refer to
Chapter 3. During Relay Test execution, the LED in this key
is ON.
Remote LED
Turns on when the E5250A is in the GPIB remote status.
System Fail LED
Turns on if system error occurs in the E5250A. Contact your
nearest Agilent Technologies Service Center.
Fail LED
Turns on if the E5250A fails Self-test (including Relay Test).
If this LED turns on after executing Relay Test, a plug-in
the E5250A on again, the E5250A is defective. If so, contact
your nearest Agilent Technologies Service Center.
Rear Panel Tour
Rear panel of the E5250A is shown in Figure 1-2. The E5250A has 4 slots for
installing plug-in cards, and 10 input connectors for connecting measurement cables
from instruments.
SMU INPUT
SMU INPUT connectors are for semiconductor dc
characteristics measurements.
The E5250A has six SMU INPUT ports, which are triaxial type
connectors. The connectors can also be used for a maximum
three Kelvin connection inputs by coupling two ports as
follows:
•
•
•
SMU INPUT 1 and 2
SMU INPUT 3 and 4
SMU INPUT 5 and 6
1-4
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Introduction
Agilent E5250A Product Description
AUX INPUT
AUX INPUT connectors are for C-V measurements, pulse
input, and so on.
The E5250A has 4 AUX INPUT ports: HF1, HF2, CV1, CV2.
These are BNC type connectors.
The AUX INPUT connectors are used only with the E5252A
and are not used with the E5255A.
CAUTION
The maximum measurement voltage that can be applied to any input terminal is
±200 Vdc. The maximum measurement current is 1 Adc at ±200 Vdc. The
maximum voltage that can be applied between input terminals is 300 Vdc. Do not
apply an input signal over these limits to the E5250A inputs. If you do, the E5250A
will be damaged.
If you use a bias source that has current limit capability, set the bias source current
limit to less than 1 Adc.
Figure 1-2
E5250A Rear Panel
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Introduction
Agilent E5252A Product Description
Agilent E5252A Product Description
The E5252A 10×12 Matrix Switch is a 10-input to 12-output switching matrix card
for the E5250A. The E5252A is designed for semiconductor dc parametric
measurement applications that need to switch some instruments connected to
Device Under Test (DUT), or need to scan instrument input/output for many DUTs,
automatically.
The E5250A can be installed with maximum four E5252As. And the input terminals
of the E5252As are connected together inside the E5250A. So, the E5250A can
configure a 10×24 matrix (two E5252As), 10×36 matrix (three E5252As), and
10×48 matrix (four E5252As). The E5252A block diagram and output connectors
are shown in Figure 1-3 and Figure 1-4.
Figure 1-3
E5252A Block Diagram
OUTPUT
12
5
9
10
6
8
2
4
7
1
3
11
INPUT
SMU1
SMU2
SMU3
SMU4
SMU5
HF1
CV1
SMU6
HF2
CV2
1-6
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Introduction
Agilent E5252A Product Description
Input Ports
The E5252A has 10 input ports via the E5250A.
Input paths for SMU1 and SMU2 are designed for low current
measurement.
There are actually only six input paths, so two of the input paths
are shared by three ports each as follows:
•
•
SMU5, HF1, and CV1 ports share same input path
SMU6, HF2, and CV2 ports share same input path
So, for these two input paths, you can only use one input port at
a time. For example, you cannot use HF1 and CV1 input ports
at the same time.
Output Ports
The E5252A has 12 output ports. Two ports can be coupled for
Kelvin connection output for a maximum of six Kelvin outputs:
•
•
•
•
•
•
OUTPUT1 and OUTPUT2
OUTPUT3 and OUTPUT4
OUTPUT5 and OUTPUT6
OUTPUT7 and OUTPUT8
OUTPUT9 and OUTPUT10
OUTPUT11 and OUTPUT12
The output ports are triaxial connectors.
Figure 1-4
E5252A Output Ports
WARNING
Do not touch the force and guard terminals of the output connectors while the
E5250A is turned on. Dangerous voltages up to the maximum input voltage
may be present at the output connectors.
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Introduction
Agilent E5255A Product Description
Agilent E5255A Product Description
The E5255A 24 (8×3) Channel Multiplexer is a 2-input to 24-output multiplexer
card for the E5250A. The E5255A consists of 3 blocks (three 2×8 multiplexers). So,
one E5255A can be configured as a 2×8 multiplexer, 2×16 multiplexer, or 2×24
multiplexer. "2-input" means one BIAS input and one IV input.
The E5255A is designed for semiconductor device reliability testing which needs to
automatically scan instrument input/output for many DUTs.
A maximum of four E5255As can be installed in the E5250A, which can use the
multiplexers in several configurations. For example, the E5250A can configure
twelve 8-output multiplexers, six 16-output multiplexers, four 24-output
multiplexers, three 32-output multiplexers, two 48-output multiplexers, or one
96-output multiplexer.
The E5255A block diagram is shown in Figure 1-5.
BIAS Input
The BIAS INPUT ports are used to apply ac or dc bias to DUT.
BIAS INPUT ports are BNC connectors. Each BIAS INPUT
port is assigned to a 2×8 multiplexer block as shown in Table
1-2. And you can make internal connections to connect a BIAS
INPUT port to multiple blocks. Refer to Chapter 2.
IV Input
IV input is used for measuring/forcing dc current/voltage. You
can connect the IV input to desired SMU INPUT connector
(SMU1 to SMU6) of the E5250A by making an internal
connection. Refer to Chapter 2. The E5250A AUX INPUT
connectors are not used with the E5255A.
OUTPUT
Connectors
The E5255A has three 8-channel coaxial output connectors as
shown in Figure 1-6. Each output connector is assigned to a 2×8
multiplexer as shown in Table 1-2.
1-8
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Introduction
Agilent E5255A Product Description
Resistors
Resistors connected between BIAS path and IV path are for
protecting DUT from electrical damage. When shipped from
factory, 0 Ω resistance is used in the E5255A. You can easily
replace with desired resistors. Refer to Chapter 2. The
following resistors are furnished with the E5255A:
•
•
•
0 Ω resistors (3 sets with 10 resistors in each set)
1.2 kΩ resistors (3 sets with 10 resistors in each set)
22 kΩ resistors (3 sets with 10 resistors in each set)
If you replace initial 0 Ω resistors with other resistors, you must
cut the initial resistors. Then, if you need 0 Ω resistors again,
use the ones listed above.
WARNING
Be careful about the following when selecting protective resistors:
•
•
•
If only one E5255A is installed in the mainframe, total power consumption
by resistors must be less than 16W.
If multiple E5255As are installed in the mainframe, total power
consumption by resistors must be less than 32W.
Consider the current flows to resistor when DUT shorts, and make sure the
power consumption by resistor will be within specification of resistor.
Do not use resistors that have specifications inadequate for your
applications, which will result in resistors heating up, burning, or smoking.
Be careful about the heating of the rear panel of mainframe or plug-in card,
which may be heated by resistors, even if you follow this warning.
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Introduction
Agilent E5255A Product Description
Figure 1-5
E5255A Block Diagram
BLOCK 1
BIAS Input 1
Resistor
IV Input 1
Output
1
2
3
4
5
6
7
8
BLOCK 2
BIAS Input 2
Resistor
IV Input 2
Output
9
10
11
12
13
14
15
16
BLOCK 3
BIAS Input 3
Resistor
IV Input 3
Output
17
18
19
20
21
22
23
24
1-10
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Introduction
Agilent E5255A Product Description
Table 1-2
E5255A Input/Output Connectors
OUTPUT
Connector
(Location)
2×8 multiplexer
BIAS INPUT
(Port No.)
Output Port No.
Block No.
Block1
Block2
Block3
BIAS1 (51)
BIAS2 (52)
BIAS3 (53)
Output 1 to 8
Output 9 to 16
Output 17 to 24
Left
Center
Right
Figure 1-6
E5255A BIAS INPUT Connectors and OUTPUT Connectors
WARNING
CAUTION
Do not touch the force and guard terminals of the OUTPUT connectors while
the E5250A is turned on. Dangerous voltages up to the maximum input voltage
may be present at the OUTPUT connectors.
The maximum voltage that can be applied to any input terminal is ±200 Vdc. The
maximum current is 1 Adc at ±200 Vdc. The maximum voltage that can be applied
between input terminals is 300 Vdc. Do not apply an input signal over these limits to
the E5255A inputs. If you do, the E5255A will be damaged.
If you use a bias source that has current limit capability, set the bias source current
limit to less than 1 Adc.
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Introduction
Options and Accessories
Options and Accessories
This section lists the options and accessories available for the E5250A.
Table 1-3 lists the options available for the E5250A.
Options
Table 1-3
Model
Number
Option Item
Description
E5250A
Low Leakage Switch Mainframe
Relay Test Adapter
E5250A-301
E5250A-A6J
E5250A-UK6
ANSI Z540 compliant calibration
Commercial cal. certificate w/ test data
1-12
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Introduction
Options and Accessories
Table 1-4 lists accessories furnished with the E5250A, E5252A, and E5255A.
Table 1-4
Furnished Accessories
Model
Number
Part Number
Description
Qty.
E5250A
E5250-90000 Agilent E5250A User's Guide
1
1
E5250A VXI Plug&Play Driver Disk a
E5250-17001
E5250-17003 Agilent E5250A Program Disk. See next
page. (LIF formatted, 3.5in diskette)
1
04155-60007 Module Extractor
1
1
1
1
1
1
3
1
8710-2151
Wrench (for removing plug-in card)
Power Cable
−
E5252A
E5255A
E5252-90000 Agilent E5252A Installation Guide
8710-2151 Wrench (for removing plug-in card)
E5255-90000 Agilent E5255A Installation Guide
1250-0929 BNC Short Cap
E5255-65000 BIAS Input Modification Kit
(BNC Open Cap × 2, wire × 2)
E5255-65001 0 Ω Resistor Set (10 resistors)
E5255-65002 1.2 kΩ Resistor Set (10 resistors)
E5255-65003 22 kΩ Resistor Set (10 resistors)
3
3
3
1
8710-2151
Wrench (for removing plug-in card)
a. The Agilent E5250A VXIplug&play driver supports Windows XP Pro-
fessional, Windows 2000, Windows NT 4.0, Windows 98, and Windows
95.
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Introduction
Options and Accessories
Contents of the E5250A Program Disk:
Virtual Front
Panel Utility
Interactive control program for the E5250A. Runs on Agilent
4155/4156's built-in IBASIC controller. Refer to Chapter 5.
VFP Data Upload
Library
Subprogram library used for uploading the E5250A control data
(made by Virtual Front Panel Utility) to your program. Runs on
HP BASIC. Refer to Chapter 6.
Capacitance
Compensation
Routine
Subprogram to compensate for capacitance error caused by the
E5250A and E5252A. Runs on HP BASIC. This subprogram is
used to compensate the capacitance data measured by Agilent
4284A Precision LCR Meter. Refer to Chapter 6.
Sample Programs Three sample programs: one for Vth and C measurement using
the E5252A, and two for HCI test and analysis using the
E5255A. Runs on HP BASIC. Refer to Chapter 9.
Self-test Utility
Self-test and relay test program for the E5250A. Runs on the
4155/4156's built-in IBASIC controller. Refer to Chapter 3.
1-14
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Options and Accessories
Table 1-5 lists accessories available for the E5250A.
Table 1-5
Available Accessories
Model
Number
Option
Item
Description
10×12 Matrix Switch
E5252A
E5255A
16494A
24 (8×3) Channel Multiplexer
Triaxial Cable
16494A-001 1.5 m length
16494A-002 3 m length
16494A-003 80 cm length
16494B
Kelvin Triaxial Cable (4156 kelvin to E5250 kelvin)
16494B-001 1.5 m length
16494B-002 3 m length
16494B-003 80 cm length
16494C
16494D
16494E
Kelvin Triaxial Cable (4142 kelvin to E5250 kelvin)
16494C-001 1.5 m length
16494C-002 3 m length
8 Channel Shielded Coaxial Cable
16494D-001 1.5 m length
16494D-002 3 m length
Wide Temperature 8 Channel Shielded Coaxial Cable
16494E-001 3m length
Connector plate with 6 connectors for 16494D
16495C
16495D
16495E
16495F
Connector plate with 12 connectors for 16494D
Blank plate
Connector plate with 12×triaxial, intlk, GNDU
16495F-001 Bulkhead feedthrough connectors (female to female)
16495F-002 Connectors to contacts for soldering
Connector plate with 24×triaxial, intlk, GNDU
16495G-001 Bulkhead feedthrough connectors (female to female)
16495G-002 Connectors to contacts for soldering
16495G
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Options and Accessories
1-16
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Installation
This chapter describes requirements to install Agilent E5250A and the tasks for
installation, and is organized into the following three sections:
•
“To Inspect the E5250A and Accessories” describes how to inspect the E5250A
when you receive it.
•
“Requirements” explains the information required for operating, storing, and
shipping the E5250A.
•
•
“Installing the E5250A” describes how to install the E5250A.
“Maintenance” describes about performance verification and cleaning.
WARNING
The maximum input voltage of the E5250A is ±200 V. And dangerous voltages
may be present at the E5250A output terminals. To prevent electric shock, you
must observe the following safety precautions when using the E5250A.
• Use a three-conductor ac power cable to connect cabinet (if used) and the
E5250A to an electric ground (safety ground).
• If you need to touch the force and guard terminals of the output connector,
turn off the E5250A and discharge any capacitors whenever possible.
• Warn workers around the E5250A about dangerous conditions.
2-2
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Installation
To Inspect the E5250A and Accessories
To Inspect the E5250A and Accessories
When you receive and open the box that contains the E5250A, check the following:
•
Before unpacking any components, inspect all boxes for any signs of damage
that might have occurred during shipment such as:
•
•
•
•
Dents
Scratches
Cuts
Water marks
•
•
When you open the boxes that contain the E5250A, check the components
against the contents lists that are attached to the boxes.
After installing the E5250A, check the E5250A operation by executing self-test
shown in Chapter 3.
If anything is wrong, notify your local Agilent Technologies sales office.
When shipping the E5250A
When you unpack the E5250A, retain all packing materials for future use. If it
becomes necessary to reship the E5250A, repack it in the original packing materials
and shipping carton.
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Installation
Requirements
Requirements
•
•
•
•
“Power Requirements”
“Power Cable”
“Operating Environment”
“Storage and Shipping Environment”
Power Requirements
CAUTION
Before applying ac line power to the E5250A, ensure that the correct power cable is
used.
The E5250A can operate from any single-phase ac power source supplying 100 to
240 V ±10 % in the frequency range from 47 to 63 Hz. The maximum power
consumption is 100 VA. For details, refer to Chapter 10, “Specifications.”
Power Cable
In accordance with international safety standards, this instrument is equipped with a
three-wire power cable. When connected to an appropriate ac power outlet, this
cable grounds the instrument frame. The type of power cable shipped with each
instrument depends on the country of destination. Refer to the following table for
the part numbers of the power cables available.
If the plug on the cable does not fit the power outlet, or the cable is to be attached to
a terminal block, cut the cable at the plug end and re-wire it. This work should be
performed by a qualified electrician all local electrical codes being strictly observed.
The color coding used in the cable will depend on the cable supplied. If a new plug
is to be connected, it must meet local safety requirements and include the following
features:
•
•
•
Adequate load-carrying capacity. (refer to Chapter 10, “Specifications.”)
Ground connection.
Cable clamp.
2-4
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Installation
Requirements
•
•
Plug: CEE 7 Standard
Sheet VII, 250 V, 10 A
Cable: 8120-1689
•
•
Plug: AS 3112, 250 V,
10 A
Cable: 8120-1369
•
•
Plug: BS 1363/A,
250 V, 10 A
Cable: 8120-1351
•
•
Plug: SEV Type 12,
250 V, 10 A
Cable: 8120-2104
•
•
Plug: NEMA 5-15P,
125 V, 10 A
Cable: 8120-1378
•
•
Plug: NEMA 6-15P,
250 V, 6 A
Cable: 8120-0698
•
•
Plug: JIS C 8303,
125 V, 12 A
Cable: 8120-4753
•
•
Plug: SR 107-2-D,
250 V, 10 A
Cable: 8120-2956
•
•
Plug: IEC 83-B1,
250 V, 10 A
Cable: 8120-4211
•
•
Plug: CEI 23-16, 250 V,
10 A
Cable: 8120-6978
•
•
Plug: Argentine
Resolution 63, Annex
IV, 250 V, 10 A
•
•
Plug: GB 1002, 250 V,
10 A
Cable: 8120-8376
Cable: 8120-6870
WARNING
For protection from electrical shock, the power cable ground must not be
defeated.
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Installation
Requirements
Operating Environment
The E5250A must be operated within the following environmental conditions:
•
•
•
Temperature: 5 °C to 40 °C (41 °F to 104 °F)
Humidity: 5 % to 80 % RH at 40 °C (104 °F), non-condensing
Altitude: 0 m to 2000 m
Storage and Shipping Environment
The E5250A should be stored or shipped in environments within the following
limits:
•
•
•
Temperature: −40 °C to 70 °C (−40 °F to 158 °F).
Humidity: 5 % to 90 % RH at 65 °C (149 °F).
Altitude: 0 m to 15,240 m
Protect the E5250A from temperature extremes to prevent condensation from
forming inside the E5250A.
2-6
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Installation
Installing the E5250A
This section describes how to install the E5250A.
•
•
•
•
•
•
“To Install Plug-in Card”
“To Install Blank Panel”
“To Configure E5255A”
“E5255A Configuration Examples”
“To Set GPIB Address”
“To Connect GPIB Cable”
WARNING
CAUTION
To prevent electrical shock, turn off the mainframe and remove the power
cable before starting the instruction.
Be careful about the module pins used for internal connection to the mainframe. The
pins can be damaged easily.
Use clean handling and anti-static procedures when removing, configuring, and
installing the modules. The modules contain components that can be damaged by
static electricity.
NOTE
Plug-in module is shipped from the factory after the specifications are confirmed.
Agilent can guarantee that the modules will function and that the module
performance is designed to meet its specifications. However, if you have any
trouble, contact your nearest Agilent Technologies service center.
If you require that the modules be guaranteed to their specifications (for ISO
compliance, etc.), then you must perform a calibration on the instrument (modules
and mainframe together). For calibration, contact your nearest Agilent Technologies
service center.
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Installing the E5250A
To Install Plug-in Card
The E5252As and E5255As are plug-in cards (modules). You install these cards in
card slots 1 to 4 of the E5250A. The following procedure explains the card
installation and removal:
1. Turn off the E5250A, then wait at least 10 seconds before you remove or install
a card.
2. Remove a blank panel or a card attached to the slot you want to install a new
card, as follows.
To remove blank panel, do as follows:
a. Loosen the screws on both the left and right edges of the blank panel by
b. Remove the blank panel.
To remove a card, do as follows:
a. Screw the Module Extractor into the screw hole for the extractor. See Figure
2-1. Module Extractor is furnished with the E5250A.
b. Loosen the screws on left and right edges of the card by using the wrench
furnished with the E5250A.
c. Gently pull the Module Extractor to extract the card from the card slot.
3. Install the card as follows:
a. Align the card with the left and right slot guide rails. The component side
should be facing up.
b. Push the card into the slot until you feel it seat firmly into the connector at
the back of the card slot.
c. Screw in the screws on the left and right edges of the card by using the
wrench furnished with the E5250A.
4. Execute the Relay Test and Leak Test:
After installing the cards, perform the Relay Test and Leak Test described in
Chapter 3 to check the operation and leak current of the E5250A with installed
cards.
CAUTION
If you want to confirm that the E5250A with installed cards meets its specifications,
return the E5250A with installed cards to your nearest Agilent Technologies Service
Center to do the Performance Verification.
2-8
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Installation
Installing the E5250A
Figure 2-1
Module Extractor and Location of the Screw Hole
Agilent E5252A
Screw Hole
for Module Extractor
Module Extractor
Agilent E5255A
To Install Blank Panel
CAUTION
To prevent thermal damage to the E5250A cards, be sure that blank panels (Agilent
part number E5250-60003) are installed in all unused slots.
If the blank panel is not installed to cover an unused slot, install the blank panel as
follows:
1. Align the blank panel over the unused slot.
2. Screw in the screws on the left and right edges of the blank panel by using the
wrench furnished with the E5250A.
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Installation
Installing the E5250A
To Configure E5255A
The Agilent E5255A has three 2-input 8-output multiplexers. You can configure
several multiplexers by modifying some internal connections. Component locations
on the E5255A are shown in Figure 2-2, and the relationship of the multiplexer
blocks and the components is shown in Table 2-1. Table 2-2 shows the initial setting
of the E5255A internal connections. The setting does not depend on the slot in
which the module is installed.
Table 2-1
Multiplexer
Multiplexer Blocks and Components
Resistor
holder
IVin
cable
IVout
connector
BIASin
BIASout
DIP SW
block
Block 1
Block 2
Block 3
holder 1
holder 2
holder 3
-
BIASout1
BIASout2
-
IVin1
IVin2
IVin3
IVout1
IVout2
IVout3
DIP SW1
DIP SW2
DIP SW3
BIASin2
BIASin3
Table 2-2
Agilent E5255A Initial Setup
Block number
IVin cable connection
BIASin/BIASout
Protective resistor
1
2
3
SMU1
SMU2
SMU3
BIAS INPUT 51
BIAS INPUT 52
BIAS INPUT 53
0 Ω
0 Ω
0 Ω
To Modify IV Input
IV input connection is defined by the connection of IVin cable and the setting of
DIP switch shown in Figure 2-2. For actual examples of modifications, see
“E5255A Configuration Examples”.
Each DIP switch has four bit switches. Bits 1 to 3 are used to specify which SMU
input connector is connected to the IV input. Bit 4 of DIP switch is used to specify
whether the protective resistors are 0 Ω or not. The DIP switches must be set
properly after you complete the internal connection. Make sure you set the DIP
switches correctly. If not, dangerous voltages may be applied to unexpected output
connectors.
2-10
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Installation
Installing the E5250A
Figure 2-2
Agilent E5255A Component Locations
Module pins
SMU input connectors
DIP SW3
DIP SW2
0: OFF
1: ON
DIP SW1
IVin cable
DIP SW setting
connection BIT1 BIT2 BIT3
IVout1
IVout2
connector
IVout3
connector
SMU1
SMU2
SMU3
SMU4
SMU5
SMU6
1
0
1
0
1
0
0
1
1
0
0
1
0
0
0
1
1
1
connector
IVin1
cable
IVin2
cable
IVin3
cable
Block 1
Block 2
Block 3
Resistors
BIT4
Resistor holder 3
Resistor holder 1
Resistor holder 2
0 ohm
other
0
1
Screws
(Total 48)
BIASin2
terminal
BIASin3
terminal
Resistors
(Total 24)
BIASout2
terminal
BIASout1
terminal
To B IAS INPUT 53
To BIAS INPUT 51
To BIAS INPUT 52
To Modify BIAS Input
Each multiplexer block has an independent BIAS input. You can change the BIAS
input internally using the BIASin/BIASout terminals shown in Figure 2-2, or
externally using the BIAS INPUT connectors. For actual examples of modifications,
see “E5255A Configuration Examples”.
To Use Multiplexer Blocks on another E5255A
When a module is installed in a mainframe slot, six module pins are connected to
the mainframe internal bus. So, if multiplexers on different E5255As use the same
module pin, the IV inputs are connected together via the internal bus.
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Installation
Installing the E5250A
For example, if a mainframe installs four E5255As which the IVin1 cable is
connected to the SMU1 input connector and the IVin2 and IVin3 cables are not
connected, the E5250A configures a 32-output multiplexer that uses the SMU
INPUT 1 connector as the IV input.
To Mount Protective Resistors
To protect the device (DUT) from electrical damage, you can mount resistors
between the IV input and BIAS input of multiplexer. The following procedure
shows how to mount the resistors. See Figure 2-2 for the component locations.
When shipped from the factory, 0 Ω resistors are mounted, and bit 4 of all DIP
switches is set to OFF (0).
1. Cut the original resistors (0 Ω) off.
2. Loosen the screws from both sides of the resistor holder.
3. Put resistors in holder, and tighten screws. And confirm that the resistors are
held properly. Resistors should be mounted on each multiplexer block that you
will use (8 resistors/block).
4. Set bit 4 to ON (1) for the DIP switch of the related block. For example, if you
mount resistors for Block 1 and 2 multiplexers, set bit 4 to ON for DIP SW1 and
SW2.
To Select Protective Resistors
Be careful about the following when selecting protective resistors. Also, be careful
about the heating of the rear panel of mainframe or plug-in module, which may be
heated by resistors, even if you follow this warning.
•
•
•
If only one E5255A is installed in the mainframe:
Total power consumption by resistors must be less than 16W.
If multiple E5255As are installed in the mainframe:
Total power consumption by resistors must be less than 32W.
Consider the current flows to resistor when DUT shorts, and make sure the
power consumption by resistor will be within specification of resistor. Do not
use resistors that have specifications inadequate for your applications, which
will result in resistors heating up, burning, or smoking.
2-12
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Installation
The following example configurations are described:
•
•
•
“24-output multiplexer (3-BIAS inputs, 1-IV input, 1 module)”
“24-output multiplexer (1-BIAS input, 1-IV input, 1 module)”
“96-output multiplexer (1-BIAS input, 1-IV input, 4 modules)”
24-output multiplexer (3-BIAS inputs, 1-IV input, 1 module)
To make this multiplexer, you need a E5255A. See Figure 2-3 for example setup.
The example uses the SMU INPUT 1 connector as the IV input, and uses 0 Ω
resistors.
Figure 2-3
24-output multiplexer (3-BIAS inputs, 1-IV input, 1 module)
1. Connect the IVin1 cable to the SMU1 input connector on the E5255A.
2. Connect the IVin2 cable to the IVout1 connector.
3. Connect the IVin3 cable to the IVout2 connector.
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Installation
Installing the E5250A
4. Set bit 1 to ON (1) and bit 2 thru 4 to OFF (0) for DIP SW1 to SW3.
“To Install Plug-in Card” on page 2-8.
24-output multiplexer (1-BIAS input, 1-IV input, 1 module)
To make this multiplexer, you need a E5255A, two wires (furnished), and two BNC
open caps (furnished). See Figure 2-4 for example setup. The example uses the
SMU INPUT 1 connector as the IV input, and uses 0 Ω resistors.
Figure 2-4
24-output multiplexer (1-BIAS input, 1-IV input, 1 module)
1. Connect the IVin1 cable to the SMU1 input connector on the E5255A.
2. Connect the IVin2 cable to the IVout1 connector.
3. Connect the IVin3 cable to the IVout2 connector.
4. Set bit 1 to ON (1) and bit 2 thru 4 to OFF (0) for DIP SW1 to SW3.
2-14
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Installation
Installing the E5250A
5. Connect wires between BIASout1 and BIASin2, also between BIASout2 and
BIASin3.
6. Install the module into the slot 1 of the mainframe. For installing module, see
“To Install Plug-in Card” on page 2-8.
7. Connect BNC open caps to BIAS INPUT 52 and 53 connectors. So, the BIAS
INPUT 51 connector will be the BIAS input.
This example internally connects all BIAS INPUT connectors together. So, when
bias is applied to a BIAS INPUT connector, the bias will also be applied to all the
other BIAS INPUT connectors.
Do not forget to connect the BNC open caps to the unused BIAS INPUT connectors.
DO NOT connect the BNC short cap to the connectors. If you do, the E5255A and
the Bias Source will be destroyed when the bias is applied.
To connect BIAS inputs externally.
You can use the BIAS INPUT connectors instead of the BIASin/out internal
connections shown above. See Figure 2-5. This example uses three BNC cables and
two BNC-T type (f-m-f) adapters. Recommended parts for the BNC-T type adapters
are listed below.
•
•
Agilent part number 1250-0781: female(side)-male(center)-female(side)
Agilent part number 1250-2405: male(side)-female(center)-female(side)
Figure 2-5
Interconnection of BIAS INPUT Connectors
Agilent E5255A
BNC T-adapter
To Bias Source
BNC cable
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Installing the E5250A
96-output multiplexer (1-BIAS input, 1-IV input, 4 modules)
To make this multiplexer, you need four E5255As, eight wires (furnished), five
BNC open caps (furnished), and three BNC cables. The example uses the SMU
1. See “24-output multiplexer (1-BIAS input, 1-IV input, 1 module)” and make
four 24-output multiplexers. Then the IVin1 cable on all modules must be
connected to the SMU1 input connector.
2. Install the modules into the mainframe. For installing module, see “To Install
Plug-in Card” on page 2-8.
3. Connect BNC open caps to the BIAS INPUT 51 connector of the module in the
slot 1 and all BIAS INPUT 52 connectors.
4. Connect BNC cables between the following connectors:
•
•
•
BIAS INPUT 51 (slot 4) and BIAS INPUT 53 (slot 3)
BIAS INPUT 51 (slot 3) and BIAS INPUT 53 (slot 2)
BIAS INPUT 51 (slot 2) and BIAS INPUT 53 (slot 1)
So, the BIAS INPUT 53 connector of the module in the slot 4 will be the BIAS
input.
Figure 2-6
96-output multiplexer (1-BIAS input, 1-IV input, 4 modules)
Do not forget to connect the BNC open caps to the unused BIAS INPUT connectors.
Otherwise, you will be shocked if you touch the connectors while bias is applied.
DO NOT connect the BNC short cap to the connectors. If you do, the E5255A and
the Bias Source will be destroyed when the bias is applied.
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Installation
Installing the E5250A
To Set GPIB Address
Every device on the GPIB bus must have a unique address.
If you need to change the GPIB address of the E5250A, make sure the E5250A is
turned off. With a small flatblade screwdriver, set the GPIB ADDRESS switch on
the rear panel to the new address (0 to 30).
The new GPIB address is recognized only at power on. The E5250A leaves the
factory with the GPIB address set to 22.
To Connect GPIB Cable
To connect the E5250A with a computer or peripheral device via GPIB (IEEE Std.
488), connect an GPIB cable between the GPIB connector on the E5250A rear panel
and the GPIB connector on the peripheral device.
Including the controller, a total of 15 GPIB interfaces can be connected on the same
GPIB bus. The following are rules for connecting GPIB interfaces:
•
•
If total number of interfaces ≤ 10:
Max. total cable length = number of interfaces × 2 m.
If total number of interfaces > 10:
Max. total cable length = 20 m.
•
•
Maximum cable length between interfaces is 4 m.
Star connection and cascade connection are allowed. Loop connection is not
allowed.
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Installation
Maintenance
Maintenance
Maintenance should be performed periodically to keep the E5250A in good
condition.
Performance Verification
Performance verification must be performed periodically so that the instruments
satisfy the specifications, and keep a good condition. It is recommended to perform
the performance verification once a year at least. For the performance verification,
contact your nearest Agilent Technologies Service Center. Trained service personnel
will perform the performance verification.
Cleaning
Before performing cleaning, turn off the instrument, and disconnect power cable
from the rear panel. Use a dry cloth to clean the external case parts.
To prevent electrical shock, do not perform cleaning when the instrument is turned
on, and do not use a wet cloth.
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Executing Self-Test and Leak Test
This chapter describes how to execute the Self-Test and the Leak Test.
The Self-Test consists of three tests that check the operation of Agilent E5250A
firmware, LEDs, and key that are on the E5250A front panel, and the relays on the
cards installed in the E5250A.
Self-Test should be executed every day as an operation check before using the
E5250A.
The Leak Test checks leakage current of cards installed in the E5250A.
Leak Test can be executed by using Agilent 4155/4156 Semiconductor Parameter
Analyzer with the Self-Test Utility program that is on the E5250A Program Disk
furnished with the E5250A.
NOTE
Performance Verification
The Self-Test and the Leak Test cannot be used to verify the specifications of the
E5250A, E5252A, and E5255A.
To verify the specifications, return the E5250A with the cards installed to your
nearest Agilent Technologies Service Center. The performance verification should
performed once a year.
•
•
“Executing Self-Test” introduces the test items of the Self-Test and describes
how to execute the Self-Test.
“Using the Self-Test Utility” describes how to execute the Self-Test and the
Leak Test interactively from Agilent 4155/4156 semiconductor parameter
analyzer.
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Executing Self-Test and Leak Test
Executing Self-Test
Executing Self-Test
The Self-Test of the E5250A consists of the following three tests:
Table 3-1
E5250A Self-Test Items
Test Item
Description
Executed by
Refer to
Controller Checks the operation of Turning on the E5250A.
page 3-4
Test
the E5250A firmware.
Entering SCPI Command. page 3-6
Using Self-Test Utility.
page 3-10
page 3-6
page 3-10
Front
Checks the operation of Entering SCPI Command
the LEDs and key that
Panel
Interface
Test
Using Self-Test Utility.
are on the E5250A front
panel.
Relay Test Checks the operation of Pressing the Local/
page 3-4
the relays on the cards
installed in the E5250A.
Self Test key.
Entering SCPI Command. page 3-6
Using Self-Test Utility. page 3-10
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Executing Self-Test and Leak Test
Executing Self-Test
To Execute Self-Test (Standalone)
Controller Test is executed automatically when you turn on the E5250A. You
execute the Relay Test by pressing the Local/Self Test key on the E5250A front
panel.
Executing the Controller Test
1. Turn on the E5250A.
2. Wait until the LED in the Local/Self Test key turns off.
If System Fail LED or Fail LED stays on after executing the Controller Test, contact
your nearest Agilent Technologies Service Center.
Executing the Relay Test
Requirements:
•
•
Relay Test Adapter (E5250A-301)
BNC Short Caps (3 caps are furnished with each E5255A)
Procedure:
1. Disconnect all cables from the E5250A input connectors.
2. Open all outputs of the plug-in cards as follows: If cable is connected to output
connector of plug-in card, open output at DUT end of cable. If end of cable is
Kelvin connection, disconnect the cable or make non-Kelvin connection at end
of cable.
3. Attach the Relay Test Adapter to the E5250A input connectors as shown in
Figure 3-1.
4. Set switch on the Relay Test Adapter to Relay Testposition.
5. For each E5255A card installed in the E5250A:
a. Disconnect any cables from the BIAS INPUT connectors of the E5255A.
b. Connect a BNC Short Cap to each E5255A BIAS INPUT connector.
6. (If Remote LED is on, press the Local/Self Test key to return to Local control.
The Remote LED should turn off.)
7. Press the Local/Self Test key. The Relay Test executes.
8. Wait until the LED in Local/Self Test key turns off.
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Executing Self-Test and Leak Test
Executing Self-Test
NOTE
If Fail LED is ON after Relay Test
After executing the relay test, if the Fail LED turns on, the cause is one of the
following:
• The Relay Test Adapter is not connected or a cable is still connected to input
connector.
• Output is not open. See step 2 of previous procedure.
• You did not properly install the E5255A. See “To Configure E5255A” on page
2-10.
• A plug-in card may be defective. Contact your nearest Agilent Technologies
Service Center.
Figure 3-1
Relay Test Adapter Connection
Relay Test Adapter
NOTE
Settings after Relay Test
After Relay Test, the E5250A settings are changed to same as after :SYST:CPON
command execution.
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Executing Self-Test and Leak Test
Executing Self-Test
To Execute Self-Test using External Controller
You can execute Self-Test from an external controller by using SCPI commands in a
program.
This section describes the requirements, SCPI commands, and a sample program for
Self-Test execution from an external controller. For details about the SCPI
commands, refer to Chapter 7.
Requirements
•
•
•
•
Controller
GPIB Cable
Relay Test Adapter
BNC Short Caps (3 caps are furnished with each E5255A)
SCPI Commands for Self-Test
Table 3-2 shows the SCPI commands used to execute Self-Test. Keyword of the
SCPI command first level is :DIAG.
The :DIAG commands ignore the E5250A channel configuration mode (NORMAL
or AUTO).
For :DIAG commands that require a card number, you specify 1, 2, 3, 4, or ALL.
be defective. Contact your nearest Agilent Technologies Service Center.
NOTE
Before executing Relay Test, be careful about following:
• Attach the Relay Test Adapter to the E5250A input connectors. Refer to Figure
3-1. Then set the switch on the adapter to the Relay Testposition.
• Open all outputs of the plug-in cards as follows: If cable is connected to output
connector of plug-in card, open output at DUT end of cable. If end of cable is
Kelvin connection, disconnect the cable or make non-Kelvin connection at end
of cable.
• For each E5255A installed in the E5250A, connect a BNC short cap to each
E5255A BIAS INPUT connector.
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Executing Self-Test and Leak Test
Executing Self-Test
Table 3-2
SCPI Commands for Self-Test
Test Item
Description
SCPI Command
Controller
Test
Executes Controller Test, :DIAG:TEST:FRAM:EXEC? CONT
then returns test result.
Returns test result.
Clears test result.
:DIAG:TEST:FRAM:STAT? CONT
:DIAG:TEST:FRAM:CLE CONT
:DIAG:TEST:FRAM:EXEC? FPAN
FrontPanel Executes I/F Test, then
Interface
(I/F) Test
returns test result.
Returns test result.
Clears test result.
:DIAG:TEST:FRAM:STAT? FPAN
:DIAG:TEST:FRAM:CLE FPAN
Relay Test
Executes Relay Test, then :DIAG:TEST:CARD:EXEC? ALL
returns test result.
or Card No. (1, 2, 3, or 4)
Returns test result.
:DIAG:TEST:CARD:STAT? ALL
or Card No. (1, 2, 3, or 4)
Clears test result.
:DIAG:TEST:CARD:CLE ALLor
Card No. (1, 2, 3, or 4)
NOTE
Front Panel Interface Test
After the :DIAG:TEST:FRAM:EXEC? FPAN command is executed, the Remote,
System Fail, Fail, and Local/Self Test LEDs on the E5250A front panel blink for
about 10 seconds. If an LED does not blink, the LED is defective.
Confirm that the four LEDs are blinking, then press the Local/Self Test key on the
E5250A front panel within 10 seconds. The LEDs should stop blinking.
If you do not press the Local/Self Test key within 10 seconds, the E5250A returns a
fail result for the Front Panel Interface Test, which turns on the Fail LED.
If you pressed Local/Self Test key within 10 seconds, and the Fail LED still turns on,
it means the Local/Self Test key is defective.
If you find any problem, contact your nearest Agilent Technologies Service Center.
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Executing Self-Test and Leak Test
Executing Self-Test
Self-Test Programming Example
This sample program is effective for an E5250A that has four cards installed. If your
E5250A does not have four cards installed, delete the Relay Test program lines for
the empty card slots. The program runs on HP BASIC.
10 ! Self-Test by External Controller
20 !
30
40
50
60
70
80
90
REAL A
ASSIGN @Hp5250 TO 722
OUTPUT @Hp5250;":DIAG:TEST:FRAM:CLE CONT"
OUTPUT @Hp5250;":DIAG:TEST:FRAM:CLE FPAN"
OUTPUT @Hp5250;":DIAG:TEST:CARD:CLE ALL"
DISP "Press Continue to go to Controller Test."
PAUSE
100 ! Controller Test
110
120
130
140
150
160
170
OUTPUT @Hp5250;":DIAG:TEST:FRAM:EXEC? CONT"
ENTER @Hp5250;A
IF A=0 THEN GOTO 160
DISP "Failed. Press Continue to go to I/F Test."
GOTO 170
DISP "Passed. Press Continue to go to I/F Test."
PAUSE
180 ! Front Panel I/F Test
190
200
210
220
230
240
250
260
OUTPUT @Hp5250;":DIAG:TEST:FRAM:EXEC? FPAN"
DISP "Press Local/Self Test Key within 10 sec."
ENTER @Hp5250;A
IF A=0 THEN GOTO 250
DISP "Failed. Press Continue to go to Relay Test."
GOTO 260
DISP "Passed. Press Continue to go to Relay Test."
PAUSE
270 ! Relay Test
280
290
300
310
320
330
340
350
360
370
380
390
400
410
420
OUTPUT @Hp5250;":DIAG:TEST:CARD:EXEC? 1"
ENTER @Hp5250;A
IF A=0 THEN GOTO 330
DISP "Card 1 failed. Press Continue to test Card 2"
GOTO 340
DISP "Card 1 passed. Press Continue to test Card 2"
PAUSE
OUTPUT @Hp5250;":DIAG:TEST:CARD:EXEC? 2"
ENTER @Hp5250;A
IF A=0 THEN GOTO 400
DISP "Card 2 failed. Press Continue to test Card 3"
GOTO 410
DISP "Card 2 passed. Press Continue to test Card 3"
PAUSE
OUTPUT @Hp5250;":DIAG:TEST:CARD:EXEC? 3"
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Executing Self-Test and Leak Test
Executing Self-Test
430
440
450
460
470
480
490
500
510
520
530
540
550
ENTER @Hp5250;A
IF A=0 THEN GOTO 470
DISP "Card 3 failed. Press Continue to test Card 4"
GOTO 480
DISP "Card 3 passed. Press Continue to test Card 4"
PAUSE
OUTPUT @Hp5250;":DIAG:TEST:CARD:EXEC? 4"
ENTER @Hp5250;A
IF A=0 THEN GOTO 540
DISP "Card 4 failed."
GOTO 550
DISP "Card 4 passed."
END
Line Number
30 to 90
Description
Clears all previous test results.
100 to 170
180 to 260
Executes the Controller Test, then returns test result.
Executes the Front Panel Interface Test, then returns the test
result.
270 to 340
350 to 410
420 to 480
490 to 550
Executes the Relay Test for the card installed in slot 1 of the
E5250A, then returns test result.
Executes the Relay Test for the card installed in slot 2 of the
E5250A, then returns test result.
Executes the Relay Test for the card installed in slot 3 of the
E5250A, then returns test result.
Executes the Relay Test for the card installed in slot 4 of the
E5250A, then returns test result.
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Executing Self-Test and Leak Test
Using the Self-Test Utility
Using the Self-Test Utility
The Self-Test Utility is a Self-Test program for the E5250A, and runs on the Agilent
4155/4156's built-in IBASIC controller.
execute the Leak Test, which checks leakage current of the E5250A with installed
from the 4155/4156.
•
•
•
•
“Requirements”
“To Start the Self-Test Utility”
“To Execute Self-Test”
“To Execute Leak Test”
Requirements
The following equipment is required to execute the Self-Test Utility:
Table 3-3
Required Equipment
Agilent
Model/PartNo.
Description
Qty.
Usage
4155 or 4156
Semiconductor
Parameter Analyzer
1
Executing
Self-Test
Utility
10833A/B/C
E5250-17003
GPIB Cable
1
1
E5250A Program
Disk (furnished)
E5250A-301
Relay Test Adapter
1
Relay Test
(E5250-60002)
1250-0929
BNC Short Cap
3 for each E5255A
(furnished with the
E5255A)
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Executing Self-Test and Leak Test
Using the Self-Test Utility
To Start the Self-Test Utility
1. Before turning on the 4155/4156 and E5250A, connect the GPIB cable between
the E5250A and the 4155/4156.
2. Turn on the 4155/4156 and E5250A.
3. Set the 4155/4156 to "SYSTEM CONTROLLER" mode on SYSTEM:
MISCELLANEOUS page.
4. Insert the E5250A Program Disk into the 4155/4156 disk drive.
5. Press the Display key twice to display the "All IBASIC" screen. This key is
located in the IBASIC area on the 4155/4156 front panel.
6. Select GET softkey on the 4155/4156 screen. The following is displayed:
GET "_"
7. Type SELFTEST between the double quotations of GET statement. Then press
Enter key. Wait until the 4155/4156 finishes getting the file.
8. Press Run key, which is in the IBASIC area on the 4155/4156 front panel. The
following message is displayed:
Input Agilent E5250A GPIB Address (default 722):?
9. To use default GPIB address 722, just press the Enter key. If not, type the GPIB
address of your E5250A, then press Enter key. MAIN MENU of the E5250A
Self-Test Utility and following softkeys are displayed on the 4155/4156:
Softkey
Description
SELF TEST
LEAK TEST
QUIT
Displays the SELF TEST MENU.
Displays the LEAK TEST MENU.
Quits the Self-Test Utility.
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Executing Self-Test and Leak Test
Using the Self-Test Utility
To Execute Self-Test
On the MAIN MENU of the E5250A Self-Test Utility, select the SELF TEST
softkey to display the E5250A SELF TEST MENU and following softkeys:
Softkey
Description
CARD1 RELAY
CARD2 RELAY
CARD3 RELAY
CARD4 RELAY
CONTROLLER
FRONT PANEL
MAIN MENU
For executing Relay Test for Card1.
For executing Relay Test for Card2.
For executing Relay Test for Card3.
For executing Relay Test for Card4.
Executes Controller Test immediately.
Executes Front Panel I/F Test immediately.
Returns to MAIN MENU of Self-Test Utility
immediately.
Also, the most recent Self-Test result (P/F/N) is displayed on the 4155/4156 screen.
Figure 3-2
Example of SELF TEST MENU
Agilent E5250A Test Utility
** SELF TEST MENU **
CARD1 RELAY ... Start Slot1 E5255A Relay Test
CARD2 RELAY ... Start Slot2 E5255A Relay Test
CARD3 RELAY ... Start Slot3 E5255A Relay Test
CARD4 RELAY ... Start Slot4 E5255A Relay Test
CONTROLLER ... Start E5250A Controller Test
[N]
[N]
[N]
[N]
[P]
FRONT PANEL ... Start E5250A Front Panel UIF Test [N]
MAIN MENU ... Return to MAIN MENU
[P] indicates test was passed.
[F] indicates test was failed.
[N] indicates test was not executed.
Prepare the relay test adapters
before you select "CARDn RELAY" key.
Select desired softkey.
_
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Executing Self-Test and Leak Test
Using the Self-Test Utility
Executing the Controller Test
To execute the controller test, press the CONTROLLER softkey.
If [F]result is displayed after the test, the E5250A is defective. Contact your
nearest Agilent Technologies Service Center.
Executing the Front Panel Interface Test
To execute the front panel interface test, do the following:
1. Press the FRONT PANEL softkey.
2. Confirm that the following four LEDs on the E5250A front panel are blinking.
And press the Local/Self Test key on the E5250A front panel within 10 seconds.
•
•
•
•
Remote LED
System Fail LED
Fail LED
Local/Self Test LED
NOTE
Fail Condition for Front Panel Interface Test
If an LED does not blink after selecting the FRONT PANEL softkey, the LED is
defective.
If you do not press the Local/Self Test key within 10 seconds, the Fail LED turns on.
If you pressed Local/Self Test key within 10 seconds, and the Fail LED still turns on,
it means the Local/Self Test key is defective.
Contact your nearest Agilent Technologies Service Center.
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Executing Self-Test and Leak Test
Using the Self-Test Utility
Executing the Relay Test
To execute the Relay Test, do the following:
1. Press the CARDn RELAY softkey (n=1 to 4). The following message is
displayed on the 4155/4156 screen depending on card:
•
•
Message for the E5252A:
Attach the relay test adapter on input terminal and
open all output of slot n.
Message for the E5255A:
Attach the relay test adapter and the BNC short cap to
E5250A/E5255A input. And open all output of slot n.
Where, n=1 to 4.
And the following softkeys are displayed.
Softkey
Description
CONTINUE
CANCEL
Executes the Relay Test for the card immediately.
Cancels the Relay Test execution.
2. Disconnect all cables from the E5250A input terminals. And attach the Relay
Test Adapter to the E5250A input terminals. For each E5255A card, connect a
BNC short cap to each E5255A BIAS INPUT port.
3. Open all outputs of the plug-in cards as follows:
If cable is connected to output connector of plug-in card, open output at DUT
end of cable. If end of cable is Kelvin connection, disconnect the cable or make
non-Kelvin connection at end of cable.
4. Press the CONTINUE softkey to execute the Relay Test.
Or press the CANCEL softkey to cancel test execution.
5. Repeat steps 1 to 4 for the each card you want to test.
If [F]result is displayed after executing the Relay Test, the card is defective.
Contact your nearest Agilent Technologies Service Center.
3-14
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Executing Self-Test and Leak Test
Using the Self-Test Utility
To Execute Leak Test
NOTE
Leak Test is for checking leakage current of the E5250A with plug-in cards
installed. If leak test result is too large for your application, contact nearest Agilent
Technologies Service Center. Leak test does not verify specifications of the E5250A
and installed cards.
The Leak Test applies 10 Vdc to the specified input port of the E5250A, and
measures the leakage current. The test limits are shown in Table 3-4.
You specify an input port of the E5250A, and specify the 4155/4156 SMU to use.
The Leak Test automatically connects the specified input port to each output port
consecutively, and uses the 4155/4156 SMU to measure the leakage current for each
channel.
You need to execute this test for each input port.
Table 3-4
Test Limits of Leak Test
Card
Instrument
Connection
Input Port
IV1, IV2
Test Limit
E5252A
4155
non-Kelvin
±4.12 pA
IV3, IV4, IV5, IV6 ±1.01 nA
IV1, IV2 ±1.14 pA
IV3, IV4, IV5, IV6 ±1.01 nA
IV1, IV2 ±2.24 pA
IV3, IV4, IV5, IV6 ±2.02 nA
4156
non-Kelvin
Kelvin
E5255A
4155
4156
non-Kelvin
non-Kelvin
IV1 to IV6
IV1 to IV6
±4.12 pA
±1.14 pA
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Executing Self-Test and Leak Test
Using the Self-Test Utility
To execute the Leak Test, do the following:
1. On MAIN MENU of the E5250A Self-Test Utility, select LEAK TEST softkey.
The following message is displayed:
Input Agilent 4155/4156 GPIB address (default 817):?
2. To use default GPIB address 817 for the 4155/4156, just press Enter key.
If not, type GPIB address of the 4155/4156, then press Enter key.
The LEAK TEST MENU with the following softkeys are displayed:
Softkey
Description
START TEST
For defining the Leak Test connection. Need to define the
E5250A input port and 4155/4156 SMU port.
MAIN MENU Returns to MAIN MENU of the Self-Test Utility.
3. Select START TEST softkey. Following message/softkeys are displayed:
Select IV Port of Leak Test by softkey.
Softkey
Description
IVn (n=1 to 6) For specifying the E5250A SMU INPUTn port for which
you want to perform the leak measurement. If only the
E5255As are installed, only IVn softkeys displayed are for
SMU INPUTn internally connected to the E5255A IV input.
CANCEL
Cancels the Leak Test execution.
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Executing Self-Test and Leak Test
Using the Self-Test Utility
4. Select desired IVn softkey (n=1 to 6) for input port you want to test.
If the E5252A is installed in your E5250A, and the 4156 is used for the Relay
Test, then when you press IV1, IV3, or IV5 softkey, the following message and
softkeys are displayed:
Is IVn Port a Kelvin connection?
Where n=1, 3, or 5.
Softkey
YES
Description
Declares that the port specified by the IVn softkey is used
for the Kelvin connection.
NO
Declares that the port specified by the IVn softkey is used
for the non-Kelvin connection.
CANCEL
Cancels the Leak Test execution.
Select the YES or NO softkey.
The following message and the softkeys are displayed:
Select SMU channel for IVn leak measurement by softkey.
Where n=1 to 6.
Softkey
SMUm
Description
Declares that you will connect the 4155/4156 SMUm to the
E5250A port specified by the IVn softkey. SMU5 and
SMU6 are displayed only if 5th and 6th SMU are installed
in the 41501 expander of the 4155/4156.
(m= 1 to 6)
CANCEL
Cancels the Leak Test execution.
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Executing Self-Test and Leak Test
Using the Self-Test Utility
5. Select the desired SMUm softkey (m=1 to 6). Following message is displayed
depending on the connection type:
•
Message for Kelvin connection:
Disconnect Kelvin cable from IVn terminal.
And disconnect all cables from output terminals.
•
Message for non-Kelvin connection:
Disconnect cable from IVn terminal.
And disconnect all cables from output terminals.
Where n=1 to 6. And the following softkeys are displayed.
Softkey
Description
CONTINUE
CANCEL
To continue setting up the Leak Test.
Cancels the Leak Test execution.
6. Disconnect all cables from the E5250A input/output terminals. Then connect
triaxial cable or Kelvin triaxial cable to the 4155/4156 SMU terminal you
specified in step 5 because the next step executes the zero offset cancel.
7. Select the CONTINUE softkey. The following message is displayed depending
on the connection type:
•
Message for Kelvin connection:
Connect SMUm to IVn by Kelvin cable.
•
Message for non-Kelvin connection:
Connect SMUm to IVn by cable.
Where m=1 to 6 (specified by SMUm softkey) and n=1 to 6 (specified by IVn
softkey).
And the following softkeys are displayed.
Softkey
Description
CONTINUE
Executes the Leak Test. Consecutively connects input port
specified by IVn softkey to each output port and makes
leak measurement.
CANCEL
Cancels the Leak Test execution.
3-18
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Executing Self-Test and Leak Test
Using the Self-Test Utility
8. Connect the cable from the 4155/4156 SMU port specified by the SMUm
softkey (m=1 to 6) in step 5 to the E5250A input port specified by the IVn
softkey (n=1 to 6) in step 4.
•
•
Use Kelvin triaxial cable for Kelvin connection
Use triaxial cable for non-Kelvin connection
9. Press the CONTINUE softkey to execute the Leak Test.
After the Leak Test is completed for the input port specified by the IVn softkey,
the test result (PASS or FAIL) is displayed on the 4155/4156 screen. And the
following softkeys are displayed:
Softkey
Description
REPORT CRT Displays the Leak Test results on the 4155/4156 screen.
LEAK TEST Returns to the LEAK TEST MENU.
To display the leak current measurement data on the 4155/4156 screen, press the
REPORT CRT softkey.
10. To return to the LEAK TEST MENU, select the LEAK TEST softkey. And to
perform the Leak Test for another input port, repeat steps 3 to 9.
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Using the Self-Test Utility
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Setting up Measurement Environment
This chapter explains how to connect your instruments to Agilent E5250A input,
and how to connect the E5250A output to your wafer prober or test fixture.
You can connect the E5250A output (E5252A or E5255A) to your prober or fixture
in the following three ways:
•
•
•
Via the available connector plates.
Via connectors that you mount directly on your own connector plate or test
fixture.
This chapter explains how to do this in the following sections:
•
•
•
“Connector Plates” introduces connector plates available for the plug-in card.
refer to Agilent 16495 Installation Guide.
“Connecting 8-Channel Shielded Coaxial Cable” explains how to use the
the DUT, DUT socket, or any fixture you want without using a connector plate.
mounting connectors directly on your own connector plate or test fixture, and
describes the information to connecting the connectors to prober, socket or DUT.
•
•
E5250A input.
“Connecting the E5250A Output” describes the information to connect the
plug-in card output to a connector plate, connectors on your own shielding box
and so on.
•
“Measurement Cable Length” is a reference for deciding total cable length at
your site by calculating the total guard capacitance according to the cable length
from instrument to Device Under Test (DUT).
4-2
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Connector Plates
Connector Plates
A connector plate is the interface to connect the E5250A to your prober or test
fixture. The following connector plates are available for the E5250A. To install the
connector plate, refer to Agilent 16495 Installation Guide.
Connector Plates for the E5252A
16495F
Half size connector plate for E5252A
16495F-001 has 12 triaxial through connectors (female to
female), an Intlk connector, and a GNDU connector (triaxial
through, female to female). The back of the Intlk connector is
designed for soldering.
16495F-002 has 12 triaxial connectors, an Intlk connector, and
a GNDU connector. The back of each connector is designed for
soldering.
16495G
Full size connector plate for E5252A
16495G-001 has 24 triaxial through connectors (female to
female), an Intlk connector, and a GNDU connector (triaxial
through, female to female). The back of the Intlk connector is
designed for soldering.
16495G-002 has 24 triaxial connectors, an Intlk connector, and
a GNDU connector. The back of each connector is designed for
soldering.
Connector Plates for E5255A
16495C
Half size connector plate for E5255A
The 16495C has six 8-channel shielded coaxial connectors, an
Intlk connector, and a GNDU connector. The back of each
connector is designed for soldering.
16495D
Full size connector plate for E5255A
The 16495D has twelve 8-channel shielded coaxial connectors,
an Intlk connector, and a GNDU connector. The back of each
connector is designed for soldering.
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Setting up Measurement Environment
Connector Plates
Blank Plate
16495E
Half size blank plate.
This plate is used to cover openings when you made too big
openings for mounting the connector plate. You will use this
plate to cover openings if you mount the half size connector
plate in openings made for the full size connector plate.
4-4
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Setting up Measurement Environment
Connecting 8-Channel Shielded Coaxial Cable
Connecting 8-Channel Shielded Coaxial Cable
This section introduces Agilent 16494E wide temperature 8-channel shielded
coaxial cable, and explains how to connect the 16494E to the Device Under Test
(DUT).
WARNING
Do not connect the 16494E cable to the E5255A or any instrument until
connecting to the DUT as described below. If you ignore this warning, you
maybe exposed to dangerous voltage.
The 16494E coaxial cable is used to connect the E5255A output directly to the DUT,
DUT socket, or any fixture you want without using the connector plate. One 16494E
is used for one 8-channel output connector of the E5255A. To use 24 output
Instrument Side
DUT Side
The instrument side of the 16494E cable can be connected directly to the E5255A
output.
Solder the open side of the 16494E directly to DUT, DUT socket, or your test fixture
as shown in Figure 4-1.
Figure 4-1
Example of DUT Connection
SHI ELDI NG
GUARD ( SMU Out put )
or
GND ( AUX Out put )
Signal (FORCE)
DUT
Tot al 8ea .
NOTE
For highly accurate current forcing and measurements with minimized leakage,
extend the guard to surround the signal lines as close as possible to the DUT.
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Setting up Measurement Environment
Mounting Connectors Directly
Mounting Connectors Directly
Previous sections described the information to use the available accessories, also the
16495 Installation Guide provides the information how to install connector plates
own connector plate or test fixture.
In this case, you need to make connector holes and directly mount the connectors
yourself. This section has dimension information about the holes you need to make.
Do the following:
1. Select the appropriate parts for your situation. Refer to Table 4-1.
2. Make holes and mount the connectors. Refer to Table 4-2.
For kelvin connection, use the 16494B Kelvin cable. Kelvin cable requires the
kelvin triaxial connector which has two connector holes and three screw holes.
3. Make interlock circuit as shown in “To Make Interlock Circuit” on page 4-8.
4. Make cable connection between connector and DUT (device under test). Refer
to “To Connect Connectors to DUT” on page 4-13.
Table 4-1 lists the parts required to mount connectors on your shielding box. From
this table, select the parts that you need to mount. Quantity of parts depends on your
site.
4-6
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Setting up Measurement Environment
Mounting Connectors Directly
Table 4-1
Recommended Parts
Agilent Part
No.
Usage
Description
Making interlock
circuit
1252-1419C
Interlock Connector (6 pin, female)
3101-0302 or
3101-3241
Switch
1450-0641
LED (VF ≅ 2.1 V @ IF = 10 mA)
8150-5680
1250-2457
8121-1191
1251-2367
1251-0179
0380-3070
2260-0002
2190-0913
8121-1191
Wire
Connecting
E5252A output
Triaxial Connector (female)
Low Noise Coaxial Cable
Connecting
E5255A output
Connector Frame (female)
Coaxial Connector (female) (8ea. required for one frame.)
Screw (2ea. required for one frame.)
Nut (2ea. required for one frame.)
Washer (2ea. required for one frame.)
Low Noise Coaxial Cable
Table 4-2
Dimensions of Connector Holes
Kelvin Triaxial Connector (in mm)
Triaxial Connector (in mm)
∅11.3
14
11
11
14
2.8
10.3
2 − ∅11.3
∅3.2
2 − M3 x 0.5
8 Channel Shielded Coaxial Connector (in mm) Interlock Connector (in mm)
63.5
1.8
59
8.2
6
12
− ∅
2
3
o
−
4
R1.5
10
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Setting up Measurement Environment
Mounting Connectors Directly
To Make Interlock Circuit
The interlock circuit is to prevent electric shock when touching measurement
terminals.
You must install an interlock circuit on shielding box to prevent dangerous voltages
when door of the shielding box is open.
Figure 4-2 shows the pin assignments of the interlock connector mounted on your
own connector plate or test fixture.
Figure 4-2
Interlock Connector Pin Assignments
WARNING
Dangerous voltages of up to the maximum voltage of SMUs may be present at
force, guard, and sense terminals when the interlock terminals are shorted.
To Install Interlock Circuit
Install the interlock circuit as follows.
1. Mount two mechanical switches on your shielding box, so that the switches
close when the door of the shielding box is closed, and open when the door is
opened. For the dimensions of the switch, refer to Figure 4-3 and Figure 4-4.
2. Use wire to connect the two switches in series between pin number 1 and 2 (or
3) of the interlock connector. See Figure 4-2.
For example, Agilent 4155/4156 is connected to the interlock circuit, it cannot force
more than ±40 V when the door is open. When door is closed, it can force more than
±40 V.
4-8
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Mounting Connectors Directly
Figure 4-3
Dimensions of Interlock Switch (Agilent part number 3101-0302)
Figure 4-4
Dimensions of Interlock Switch (Agilent part number 3101-3241)
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Setting up Measurement Environment
Mounting Connectors Directly
To Install LED Circuit
The 4155/4156 semiconductor parameter analyzer's Intlk connector provides the
interlock signal and a LED drive signal.
LED lights to indicate high voltage output when more than ±40 V is forced from an
SMU in the 4155/4156.
To install LED circuit on your shielding box, do following:
1. Mount LED on your shielding box. For the dimensions of the LED, refer to
Figure 4-5.
2. Use wire to connect the LED between pin 4 and pin 5 (or 6) of the interlock
connector. Refer to Figure 4-2.
Figure 4-5
Dimensions of LED (Agilent part number 1450-0641)
4-10
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Mounting Connectors Directly
To Connect Interlock Circuit to Instrument
Before beginning the measurement, connect the interlock circuit to the interlock
connector of the instrument as follows.
•
For Agilent 4155/4156 semiconductor parameter analyzer:
Connect Intlk connector of the 4155/4156 to the interlock connector by using
Agilent 16493J Interlock cable that is furnished with the 4155/4156. You can
connect it directly without using any adapter.
•
For the instruments which has a BNC-Type interlock connector:
If you use an instrument that has a BNC-type interlock connector (such as
Agilent 4142B), connect interlock connectors of instrument and the interlock
circuit as follows:
Required Parts:
Agilent
Model No.
Quantity
Description
16435A
16493J
1
1
Interlock Cable Adapter
Interlock Cable
Procedure:
1. Connect interlock connector of instrument to the BNC connector of the
16435A (interlock cable adapter) by using the BNC cable that is furnished
with the adapter.
2. Connect the 16435A adapter to the interlock connector by using the 16493J
Interlock cable.
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Setting up Measurement Environment
Mounting Connectors Directly
NOTE
To Check Interlock Circuit
If you use the 4155/4156, you can easily check the interlock circuit as follows:
1. Connect the Intlk connector of the 4155/4156 to your interlock circuit.
2. Press System front-panel key, then select CALIB/DIAG primary softkey to
display the SYSTEM: SELF-CALIBRATION/DIAGNOSTICS page.
3. In the CALIB/DIAG field, select DIAG secondary softkey.
4. In the CATEGORY field, select I/O PERIPH secondary softkey.
5. Move pointer to the 403 (INT.) Interlock LEDfield.
6. Select EXECUTE secondary softkey.
7. Confirm the following:
•
•
LED turns on within 1 sec from when interlock circuit is shorted.
LED turns off within 1 sec from when interlock circuit is open.
To stop the interlock test, select STOP secondary softkey.
4-12
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Setting up Measurement Environment
Mounting Connectors Directly
To Connect Connectors to DUT
Following figure shows a connection example from the connector to DUT. Use
low-noise coaxial cable (Agilent part number: 8121-1191).
Kelvin connections
This connection is available only for the
non-Kelvin connections
Following connection is for the Kelvin
Kelvin connectors. This connection can cancel connectors. For the triaxial connectors or the
effects of cable resistance by connect sense 8 ch shielded connectors, ignore SENSE
line and force line as close as possible to DUT terminal, and make connection only for
terminal.
FORCE terminal. Measurement results
include residual resistance from the
connection cable.
Common
Common
Guard
Guard
Force
Force
to
DUT
to
DUT
Triaxial
connector
Triaxial
connector
Coaxial cable
Coaxial cable
Common
Guard
Common
Guard
Sense
Sense
Wire
Insulator
Plate
Insulator
Plate
CAUTION
Never connect the guard terminal to any output, including circuit common, chassis
ground, or the guard terminal of any other unit. Doing so may result in an
emergency condition.
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Mounting Connectors Directly
For highly accurate current forcing and measurements while minimizing leakage,
surround all force and sense lines from SMU by a guard as far as possible, and make
cables stable by taping.
For reducing capacitance measurement error, tape the cables to any grounded
materials such as shielding box. If you use probe card, grounding the probe card also
reduces capacitance measurement error.
NOTE
Low-Noise Coaxial Cable
When you make a SMU output connection by using low-noise coaxial cable
(Agilent part number: 8121-1191), shave the Conductive layer and the Insulator
(clear) by knife so that the Center Conductor is insulated from the Conductive layer.
Refer to following figure.
Cover here using sleeve
Insulator (black)
min 2 mm
Center conductor
(for Force/Sense signal)
approx. 10 to 15 mm
Insulator (clear)
Conductive layer (black)
Outer conductor
(for Guard signal)
4-14
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Setting up Measurement Environment
Connecting the E5250A Input
This section explains how to connect instruments to the E5250A.
•
•
•
“To Connect Instruments to Input Connectors”
“To Connect Bias Source to the E5255A Bias Input”
“To Connect GNDU to the E5250A Input”
WARNING
Turn off all instruments that will be connected to the E5250A. And do not turn
them on until the connection described in this section is completed. If you
ignore this warning, you may be exposed to dangerous voltage.
To Connect Instruments to Input Connectors
The E5250A input connector has six SMU input connectors and four AUX input
connectors.
Table 4-3 shows cables required to connect the instrument for typical applications
using the E5250A.
You can make Kelvin connections when using the 4156 HRSMU, 41501 HPSMU,
4142B SMU, E5270 SMU. Use cables as follows:
•
•
•
4156/41501: Agilent 16494B-003 Kelvin triaxial cable
4142B: Agilent 16494C-001 Kelvin triaxial cable
E5270: Agilent 16494B-001 Kelvin triaxial cable
To connect Kelvin triaxial cable to the E5250A input, use pairs (couple ports) of
SMU INPUT connectors (1&2, 3&4, or 5&6) of the E5250A.
The input signal for each Kelvin input is as follows:
•
•
Odd input port number: FORCE
Even input port number: SENSE
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Connecting the E5250A Input
Table 4-3
E5250A Input Connections
Instrument
E5250A
Application
Input
Connector
Cable Required
Agilent
Model No. Connector
Output
DC
Measurement
4155
MPSMU
VSU
SMU1 to 6 16494A-003 Triaxial cable
AUX1 to 4 BNC cable
VMU
Intlk
AUX1 to 4 BNC cable
−
16493J Interlock cable
(for direct connection to Connector Plate)
4156
HRSMU
SMU1 to 6 16494B-003 Kelvin Triaxial cable or
16494A-003 Triaxial cable
VSU
VMU
Intlk
AUX1 to 4 BNC cable
AUX1 to 4 BNC cable
−
16493J Interlock cable
(for direct connection to Connector Plate)
41501
HPSMU
SMU1 to 6 16494B-003 Kelvin Triaxial cable or
16494A-003 Triaxial cable
MPSMU
PGU
SMU1 to 6 16494A-003 Triaxial cable
HF1 or 2
BNC cable
GNDU
SMU1 to 6 16493H GNDU cable
and E5250-60004 Adapter
−
16493H GNDU cable
(for direct connection to Connector Plate)
4142B
SMU
SMU1 to 6 16494C-001 Kelvin Triaxial cable or
16494A-001 Triaxial cable
VSU
VMU
GNDU
AUX1 to 4 BNC cable
AUX1 to 4 BNC cable
SMU1 to 6 16493H GNDU cable
and E5250-60044 Adapter
−
16493H GNDU cable
(for direct connection to Connector Plate)
Intlk
−
16435A Interlock cable adapter
and 16493J Interlock cable
(for direct connection to Connector Plate)
4-16
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Setting up Measurement Environment
Connecting the E5250A Input
Instrument
Agilent Output
E5250A
Input
Connector
Application
Cable Required
Model No. Connector
C
C Meter
High, Low CV1 and 2 BNC cable
Measurement
Pulse Input
Pulse
Generator
OUTPUT
OUTPUT
HF1 or 2
BNC cable
Bias Input
Power
AUX1 to 4 BNC cable
Supply
In the table above,
•
•
AUX means CV1, CV2, HF1, or HF2 connector.
The E5250A does not have input connectors for the interlock. Connect directly
from instrument to the connector plate which has an interlock connector.
•
•
Can't use Agilent 41422A/41423A (HCU/HVU) of the 4142B with the E5250A.
To connect instrument output that uses banana plug to AUX connector, use Dual
Banana plug to BNC Adapter (Agilent part number 1251-2277).
Figure 4-6 shows an example of connecting the E5250A to the 4156.
Figure 4-6
Connection Example with Agilent 4156
Agilent E5250A
Kelvin Triaxial Cable
Triaxial Cable
BNC Cable
Agilent 4156
SMU
AUX
GNDU
INTLK
INTLK Cable
Connector Plate
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Setting up Measurement Environment
Connecting the E5250A Input
To Connect Bias Source to the E5255A Bias Input
The E5255A BIAS INPUT connector is a BNC-type connector.
Use BNC cable to connect the bias source to the BIAS INPUT of the E5255A.
If output terminal of the bias source is a banana plug, use a Dual Banana Plug to
BNC Adapter (Agilent part number 1251-2277).
To Connect GNDU to the E5250A Input
Ground Unit (GNDU) of Agilent 4142B Modular DC Source/Monitor or Agilent
41501 Expander (for Agilent 4155/4156) is usually connected to GNDU connector
on the connector plate by using Agilent 16493H GNDU cable. This connection
allows current over 1A.
If you want to connect the GNDU through the E5250A to connector plate, test
fixture or DUT, connect the GNDU to the E5250A input as shown below.
CAUTION
Make sure current to GNDU is less than 1 A if you connect GNDU to the E5250A.
The maximum input current of the E5250A is 1A.
Required Parts:
Agilent
Model/Part No.
Quantity
Description
16493H
1
1
GNDU Cable
Triaxial to Dual Triaxial Adapter
E5250-60044
Procedure:
1. Connect the adapter to the E5250A SMU INPUT connector (1&2, 3&4 or 5&6)
as shown in Figure 4-7.
2. Connect the GNDU cable between the instrument GNDU connector and the
triaxial connector on the adapter.
4-18
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Setting up Measurement Environment
Connecting the E5250A Input
Figure 4-7
Connection of Triax-Dual Triax Adapter
Agilent E5250A
To
GNDU
To
SMU INPUT
SMU INPUT
AUX
TRIAX-DUAL TRIAX
Adapter
1
3
4
5
6
2
To
SMU
From
GND
Agilent 16493H Cable
By this connection, input signal for SMU INPUT connectors is as follows:
SMU INPUT Port Number
Input Signal
1, 3, or 5
2, 4, or 6
Force
Sense
If you make non-Kelvin connection for the E5250A outputs, use the odd input port
only. Because non-Kelvin connection uses only Force signal for measurement.
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Setting up Measurement Environment
Connecting the E5250A Output
This section describes how to connect the E5252A and E5255A output to connector
plate, your test fixture, and so on.
•
•
“To Connect the E5252A Output”
“To Connect the E5255A Output”
WARNING
Turn off the E5250A and all instruments connected to the E5250A. And do not
ignore this warning, you may be exposed to dangerous voltage.
To Connect the E5252A Output
The E5252A output connector is shown in Figure 4-8. The E5250A input (SMU
input and AUX input) appears at the E5252A output connector as shown in Figure
4-8 when input-output switching path is made. Figure 4-8 shows signals appear on
the E5252A output connectors with non-Kelvin connection. If you make Kelvin
connection, the signal of the even output connectors is Sense, not Force.
Figure 4-8
E5252A Output Connector and Output Signal
Signal (force)
Signal (force)
GND
GUARD
GND
(b) When AUX is connected
(a) When SMU is connected
You can easily connect the E5252A output connector to the connector plate or your
test fixture by using cables shown in Table 4-4.
4-20
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Setting up Measurement Environment
Connecting the E5250A Output
Table 4-4
E5252A Output Cable
Agilent Model No.
Description
16494A-001
16494A-002
16494B-001
16494B-002
Triaxial cable, 1.5m (for non-Kelvin connection)
Triaxial cable, 3m (for non-Kelvin connection)
Kelvin Triaxial cable, 1.5m (for Kelvin connection)
Kelvin Triaxial cable, 3m (for Kelvin connection)
For Kelvin connection, use Kelvin triaxial cable listed in Table 4-4. To make a
Kelvin output port (1, 3, 5, 7, 9 and 11), couple two E5252A output ports as follows:
Kelvin Output Port
Output Port Number
1
3
1 (Force) and 2 (Sense)
3 (Force) and 4 (Sense)
5 (Force) and 6 (Sense)
7 (Force) and 8 (Sense)
9 (Force) and 10 (Sense)
11 (Force) and 12 (Sense)
5
7
9
11
Figure 4-9 shows the 16494B Kelvin triaxial cable for the E5252A.
Figure 4-9
16494B Kelvin Triaxial Cable for E5252A
E5252A Side
Connector Plate Side
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Setting up Measurement Environment
Connecting the E5250A Output
To Connect the E5255A Output
The E5255A output connector is shown in Figure 4-10. The E5250A SMU INPUT
signal or the E5255A BIAS INPUT signal appear at the E5255A output connectors
as shown in Figure 4-10 when input-output switching path is made. The Kelvin
connection is not available for the E5255A.
Figure 4-10
E5255A Output Connector and Output Signal
GND
GND
GUARD
Signal (force)
Signal (force)
(b) When BIAS is connected
(a) When SMU is connected
You can easily connect the E5255A output to the connector plate or your test fixture
by using the cable shown in Table 4-5 and Figure 4-11. The cable can be connected
to the E5255A output ports labeled as 1−8, 1−8 (9−16), or 1−8 (17−24).
Table 4-5
E5255A Output Cable
Agilent Model No.
Description
16494D-001
16494D-002
8-Ch Shielded Coaxial cable, 1.5m
8-Ch Shielded Coaxial cable, 3m
Figure 4-11
16494D 8-Channel Shielded Coaxial Cable for E5255A
MALE
FEMALE
To
E5255A
To
Connector Plate
4-22
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Setting up Measurement Environment
Measurement Cable Length
Measurement Cable Length
This section describes how to calculate the total guard capacitance when using a
Source Monitor Unit (SMU), such as in Agilent 4155/4156 Semiconductor
Series of Parametric Measurement Solution, and so on.
When using an SMU, the length of measurement cables is limited by the guard
capacitance of the cables. Guard capacitance means the capacitance between the
signal line (FORCE or SENSE) and the GUARD line.
Table 4-6 lists the guard capacitance for each element of the E5250A measurement
environment.
When using the 4155/4156/4142B/E5270, the maximum limit of the guard
capacitance is approximately 900 pF. So, you add the following and total must be
less than 900 pF:
•
•
•
•
•
Guard capacitance of cable from SMU to E5250A SMU INPUT.
Guard capacitance of E5250A and installed plug-in cards.
Guard capacitance of cable from plug-in card output to connector plate.
Guard capacitance of cable from connector plate to DUT.
Other capacitances, such as for probe card.
The following is an example to calculate the guard capacitance of a measurement
environment:
Installed Plug-in cards: Four E5252A cards (145 pF + 8 pF × 3)
Input Cable:
16494A-003 (75 pF)
16494A-001 (125 pF)
Output Cable:
Cable from Connector
Plate to DUT:
8121-1191, 2 m (130 pF × 2)
Probe Card:
Guard Capacitance approximately 10 pF (example)
In this environment, the total guard capacitance (Cg-total) is as follows.
Cg-total = 145+(8×3)+75+125+(130×2)+10 pF = 639 pF < 900 pF
Even if you use other instruments, you can use the table for reference about the
measurement cable length and capacitance.
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Setting up Measurement Environment
Measurement Cable Length
Table 4-6
Guard Capacitances of E5250A Measurement Environment (Typical)
Cable
Length
Guard
Capacitance
Connection
Agilent Model/Part No.
from SMU to 16494A-003 (for non-Kelvin)
80 cm
80 cm
1.5 m
−
75 pF
90 pF
E5250A
16494B-003 (for Kelvin)
16494C-001 (for 4142B)
140 pF
E5250A and
Plug-in Card
E5252A (only 1 card is installed)
E5252A (more 1 card)
E5255A (only 1 card is installed)
E5255A(more 1 card)
16494A-001 (for non-Kelvin)
16494A-002 (for non-Kelvin)
16494B-001 (for Kelvin)
16494B-002 (for Kelvin)
16494C-001 (for 4142B)
16494C-002 (for 4142B)
16494D-001
145 pF
−
8 pF/extra card
180 pF
−
−
60 pF/extra card
125 pF
from Card
Output to
Connector
Plate
1.5 m
3 m
1.5 m
3 m
1.5 m
3 m
1.5 m
3 m
3 m
X m
240 pF
140 pF
260 pF
140 pF
260 pF
125 pF
16494D-002
240 pF
16494E-003
240 pF
from
Agilent Part No. 8121-1191
130 pF per m
Connector
Plate to DUT
4-24
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Controlling the E5250A
This chapter explains how to control Agilent E5250A.
•
•
•
“Methods for Controlling the E5250A” introduces several methods for
controlling the E5250A.
“Switch Control Basics” introduces basic information for controlling the relay
switches on the E5252A and E5255A plug-in cards.
“Using Virtual Front Panel Utility” describes how to use Virtual Front Panel
(VFP) utility furnished with the E5250A. The VFP is for Agilent 4155/4156
users.
5-2
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Controlling the E5250A
Methods for Controlling the E5250A
Methods for Controlling the E5250A
This section introduces several methods for controlling the E5250A. Table 5-1 lists
the E5250A control methods, and the operating systems on which each control
method can be used.
Table 5-1
Summary of Control Methods
Operating System (Controller)
Control
Method
BASIC for
Windows
(PC)
Refer to
HP BASIC
(workstation)
RMB/UX
(workstation)
IBASIC
(4155/4156)
Creating Your
Program
Yes
Yes
Yes
No
Yes
No
Yes
No
Chapter 6
and 7
Modifying
Sample
Chapter 6,
7, and 8
Program
Using VFP
No
No
No
Yes
page 5-25
Creating Your Own Program
You can create a control program using the SCPI Commands described in Chapter 7
on all the operating systems listed in Table 5-1. Refer to Chapter 6 for how to create
the program.
In an control program (which runs on HP BASIC operating system), you can use the
Capacitance Compensation Routine and the VFP Data Upload Library furnished
with the E5250A.
Capacitance Compensation Routine
This routine is an subprogram runs on HP BASIC, and is used to compensate for the
capacitance measurement error caused by the E5250A when the E5252A is
installed. This subprogram is used with Agilent 4284A Precision LCR Meter. You
enter the capacitance data measured by the 4284A, and this subprogram returns the
compensated value.
To use this subprogram, link it to your program. For details, refer to Chapter 6.
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Controlling the E5250A
Methods for Controlling the E5250A
VFP Data Upload Library
This subprogram library is used to convert the control data created by the Virtual
Front Panel (VFP) Utility to data that can be used with your program runs on HP
BASIC. To use this library, link it to your program. For details, refer to Chapter 6.
CAUTION
Open or close the relay without allowing the output voltage to affect the relay by
using the following procedure.
1. Disable the output voltage of bias source
2. Connect the relay
3. Enable the output voltage of bias source
4. Make measurements
5. Disable the output voltage of bias source
6. Disconnect the relay
If the relay is opened and output voltage reaches the relay, the relay may be
damaged or its service life reduced.
Modifying a Sample Program
The sample programs furnished with the E5250A are useful for creating your
program on HP BASIC. You can create your desired program easily by modifying a
sample program. To understand the sample programs and how to modify, refer to
Chapter 9.
Also, you can use the Capacitance Compensation Routine and the VFP Data Upload
Library introduced in “Creating Your Own Program” on page 5-3.
Using the Virtual Front Panel (VFP) Utility
The Virtual Front Panel (VFP) Utility is used to control the E5250A by using
Agilent 4155/4156 Semiconductor Parameter Analyzer's built-in Instrument BASIC
(IBASIC) controller. You can control the E5250A interactively without the control
program.
Refer to “Using Virtual Front Panel Utility” on page 5-25.
5-4
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Controlling the E5250A
Switch Control Basics
E5252A and the E5255A.
•
•
•
•
•
•
•
“Connection Rule”
“Connection Sequence”
“Bias Mode”
“Couple Port”
“E5252A Channel List”
“E5255A Channel List”
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Controlling the E5250A
Switch Control Basics
Channel List and Channel Configuration
Some SCPI commands require the channel_list parameter, which determines the
relays to close/open in the E5252A or the E5255A to connect/disconnect the desired
channels. The following figure shows the basic syntax of the channel_list parameter.
Figure 5-1
Syntax of channel_list Parameter
,
Card No.
(1digit)
Channel No.
(4 digits)
Card No.
(1digit)
Channel No.
(4 digits)
(
@
)
:
The channel_list depends on Channel Configuration mode as described later. In the
channel_list, you can specify one or more channels.
Each specified channel consists of five digits as follows:
Card Number:
One digit decimal number: 0 to 4.
Specifies the slot number of the card that you want to control.
Depends on Channel Configuration mode. Refer to Table 5-2.
Channel Number: Four digit decimal number:
First two digits: specifies input port.
Last two digits: specifies output port.
Depends on type of card and Channel Configuration mode.
Refer to “E5252A Channel List” on page 5-15 and “E5255A
Channel List” on page 5-19.
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Switch Control Basics
Table 5-2
Card Number
Channel Configuration
Slot No. Card is Installed
Card No.
you specified
Normal Configuration
1
1
2
3
4
0
2
3
4
Auto Configuration
1 to 4
In the channel_list, you can specify multiple channels by using comma (,) or colon
(:) as follows:
Comma: use between each specified channel as in following examples:
• (@10101,10102,10103)means 10101, 10102 and 10103.
• (@10112,10202)means 10112 and 10202.
• (@11010,20102)means 11010 and 20102.
Colon: use to specify a range of channels as in following examples:
• (@10101:10103)means 10101, 10102, and 10103.
• (@10112:10202)means 10112, 10201, and 10202.
• (@11012:20102)means 11012, 20101, and 20102.
As shown in last two examples, you can specify a range across input ports and card
slots.
NOTE
In the Auto Configuration mode, you can omit any zeros at beginning of channel.
For example, channel 00101 can be expressed by 101.
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Controlling the E5250A
Switch Control Basics
Channel Configuration
The E5250A allows the following two channel configuration modes. The way to
specify the channel_list depends on the channel configuration mode. You can set the
channel configuration by using the [:ROUT]:FUNC command described in Chapter
7.
Normal
Configuration
Default mode at Power On or *RST command.
Each card is considered independently. For each channel in
channel_list, you specify actual card number and channel
number (input port number and output port number).
Auto
Configuration
To use this mode, the same type of card must be installed in the
E5250A slots from slot number 1 continuously (slots 1,2; or
slots 1,2,3; or slots 1,2,3,4).
The installed cards are treated as one card for the output ports.
specify output ports 1 to 36.
For each channel in channel_list, card number is always 0. For
channel number, you specify the input port number and output
port number depending on the type of card.
For more information, refer to “E5252A Channel List” on page 5-15 and “E5255A
Channel List” on page 5-19.
5-8
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Controlling the E5250A
Switch Control Basics
Connection Rule
Connection rule is used to specify if an input or output port can have multiple
connections, and it is specified by the [:ROUTe]:CONNection:RULE command
described in Chapter 7. For each card installed in the E5250A (for auto
configuration mode, installed cards are treated as one card), you can specify one of
the following connection rules:
Single Route:
Each input port can be connected to only one output port, and
each output port can be connected to only one input port. So,
existing connection to a port must be disconnected when a new
connection is made.
If normal configuration mode is set to the E5250A with
multiple cards, an input/output path is effective for each card.
For example, if normal configuration mode is set to the E5250A
with two E5252As, and single route is set to both cards, the
following connection is possible.
1
2
3
E5250A
INPUT
10
Close
2
3
2
3
1
1
12
12
Open
E5252A Card 1 Output
E5252A Card 2 Output
Free:
Each input port can be connected to multiple output ports, and
each output port can be connected to multiple input ports.
CAUTION
If the Free connection rule has been specified, ensure multiple input ports are not
connected to the same output port. Such configurations can cause damage.
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Controlling the E5250A
Connection Sequence
NOTE
This is only for cards that are set to the Single Route connection rule. Refer to
“Connection Rule” on page 5-9.
Connection sequence specifies the open/close sequence of the relays when changing
from an existing connection to a new connection. You can specify the connection
sequence by using the [:ROUTe]:CONNection:SEQuence command described in
Chapter 7.
You can select one of the three connection sequences shown in Table 5-3 for each
card installed in the E5250A.
When an existing connection is changed to a new connection, the relays are
opened/closed as follows:
Table 5-3
Connection Sequence
Connection
Relay Operation
Sequence
Break Before Make 1. Disconnect previous route.
2. Wait for relays to open.
3. Connect new route.
Make Before Break 1. Connect new route.
2. Wait for relays to close.
3. Disconnect previous route.
No Sequence
1. Disconnect previous route.
2. Connect new route.
5-10
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Controlling the E5250A
Switch Control Basics
Bias Mode
NOTE
Connection rule cannot be specified for the input Bias Port, which can always be
connected to multiple output ports.
Connection sequence (to connect input Bias Port to output ports) is always
Break-Before-Make.
Bias Port and Couple Port cannot be set to the same port number.
Bias Mode is effective for the input Bias Port:
•
•
For the E5255A, input Bias Port is the dedicated BIAS port on the E5255A
For the E5252A, input Bias Port is the input port (1 to 10) that you select.
When Bias Mode is ON, the input Bias Port is connected to all bias enabled output
ports that are not connected to any other input ports. You cannot directly control
which output ports are connected to the input Bias Port:
•
If another input port is disconnected (:ROUT:OPENcommand) from a bias
enabled output port, the output port is automatically connected to the input Bias
Port.
•
If another input port is connected (:ROUT:CLOScommand) to a bias enabled
output port, the output port is automatically disconnected from the input Bias
Port.
Bias disabled output ports are never connected to the input Bias Port when Bias
Mode is ON.
When Bias Mode is OFF, the input Bias Port is the same as the other input ports, so
relays can be controlled directly to connect to output ports.
You can independently control the Bias Mode for each card installed in the E5250A.
Refer to [:ROUTe]:BIAS[:STATe] in Chapter 7.
For a programming example, refer to Chapter 6.
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Switch Control Basics
Figure 5-2
Example of Bias Mode
Input 01
Bias Port
Input 02
Input 03
Input 10
Output Port
Open
Close
Connect to Bias port
Connect to Input 3
Connect to Input 1
Figure 5-2 shows an example. Input port 2 is the input Bias Port. When the Bias
Mode is turned ON, all bias enabled output ports (that are not connected to other
input ports) are connected to the input Bias Port. So, the output ports that are
connected to input port 1 and 3 are not connected to the input Bias Port.
5-12
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Controlling the E5250A
Switch Control Basics
Couple Port
NOTE
This function is available only for the E5252A.
Bias Port and Couple Port cannot be set to the same port number.
This function is used for making Kelvin connections. Couple port allows
synchronized connection of two adjacent input ports to two adjacent output ports.
You set up the Couple Port by using the [:ROUTe]:COUPle:PORT command
described in Chapter 7.
To turn Couple Port mode ON/OFF, refer to [:ROUTe]:COUPle[:STATe] command
in Chapter 7.
For a programming example, refer to Chapter 6.
The input ports 1 and 2, 3 and 4, 5 and 6, 7 and 8, or 9 and 10 can be coupled
together. See Table 5-4. For example, if you specify input port number 1 in the
[:ROUTe]:COUPle:PORT command, input ports 1 and 2 are coupled together.
Table 5-4
Couple Port Number and Output Port Number
Couple
Port No.
Input Ports
Available Output Port No.
01
SMU1, SMU2
01 to 12 (for Normal Config.)
01 to 48 (for Auto Config.)
03
05
07
09
SMU3, SMU4
SMU5, SMU6
HF1, HF2
01 to 12 (for Normal Config.)
01 to 48 (for Auto Config.)
01 to 12 (for Normal Config.)
01 to 48 (for Auto Config.)
01 to 12 (for Normal Config.)
01 to 48 (for Auto Config.)
CV1, CV2
01 to 12 (for Normal Config.)
01 to 48 (for Auto Config.)
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Switch Control Basics
The two output ports are determined by the channel_list parameter of the
:ROUT:CLOScommand, and the lower output port number is always odd.
So, when you execute :ROUT:CLOSor :ROUT:OPENcommand for the couple
port, four relays operate synchronously as shown in Figure 5-3.
For example, assume that input ports 1 and 2 are coupled, and that the Couple Port
mode is ON:
1. If :ROUT:CLOScommand specifies to connect channel 0105, relays are closed
to realize two channels (0105 and 0206).
2. If :ROUT:OPENcommand specifies to disconnect channel 0105, all four relays
between the two input ports and two output ports are opened.
Figure 5-3
Couple Port Relay Connections
2XN-1
2XN
2XN-1
2XN
INPUT
INPUT
2XM
2XM-1
2XM-1
2XM
OUTPUT
2. Disconnect condition
OUTPUT
1. Connect condition
N=1 to 5
M=1 to 6 for Normal Config.
M=1 to 24 (max) for Auto Config.
Close
Open
NOTE
For each E5252A installed in the E5250A, you can independently specify the same
or different couple ports.
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Controlling the E5250A
E5252A Channel List
For the basic syntax of the channel_list, see “Channel List and Channel
Configuration” on page 5-6.
Normal Configuration Mode
To specify a channel, you use five digits as shown in Table 5-5.
Specifying E5252A Channels in Normal Config. Mode
Table 5-5
One Channel: 5 digits
Slot No.
Channel Number: 4 digits
(E5252A is
Card Number
installed)
(first 1 digit)
Input Port No.
(next 2 digits)
Output Port No.
(last 2 digits)
1
2
3
4
1
2
3
4
01 to 10
01 to 10
01 to 10
01 to 10
01 to 12
01 to 12
01 to 12
01 to 12
Card Number:
One digit: 1 to 4. E5250A slot number in which card is
installed.
Channel Number: Four digits: XXYY.
•
•
XX: input port number (01 to 10).
YY: output port number (01 to 12).
Channel Number assignment is shown in Figure 5-4.
NOTE
For the following two cases, three ports share one input path. Do not specify two of
the input ports at same time.
•
•
SMU5, HF1, and CV1 (Input Port No. 05, 07, and 09)
SMU6, HF2, and CV2 (Input Port No. 06, 08, and 10)
For example, if you specify input port 05, then you cannot specify input ports 07 and
09. You can specify 05 and 06 at the same time.
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Switch Control Basics
Figure 5-4
E5252A Channel Number in Normal Config. Mode
SMU1 01
0101 0102 0103 0104 0105 0106 0107 0108 0109 0110 0111 0112
0201 0202 0203 0204 0205 0206 0207 0208 0209 0210 0211 0212
0301 0302 0303 0304 0305 0306 0307 0308 0309 0310 0311 0312
0401 0402 0403 0404 0405 0406 0407 0408 0409 0410 0411 0412
SMU2
SMU3
SMU4
02
03
04
05
06
07
08
09
SMU5
SMU6
HF1
0501 0502 0503 0504 0505 0506 0507 0508 0509 0510 0511 0512
0601 0602 0603 0604 0605 0606 0607 0608 0609 0610 0611 0612
0701 0702 0703 0704 0705 0706 0707 0708 0709 0710 0711 0712
0801 0802 0803 0804 0805 0806 0807 0808 0809 0810 0811 0812
HF2
CV1
CV2
0901 0902 0903 0904 0905 0906 0907 0908 0909 0910 0911 0912
1001 1002 1003 1004 1005 1006 1007 1008 1009 1010 1011 1012
10
01
03
12
: Channel No.
04
05
06
10
02
11
07
08
09
Input Port
XXXX
Input Port No.
Output Port (Output Port No.)
5-16
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Controlling the E5250A
Switch Control Basics
Auto Configuration Mode
To use this mode, the E5252A must be installed in the E5250A slots continuously
from slot1 (slots 1,2; or slots 1,2,3; or slots 1,2,3,4).
To specify a channel, you use five digits as shown in Table 5-6.
Table 5-6
Specifying E5252A Channels in Auto Config. Mode
One Channel: 5 digits
Slot No.
(E5252A
is
installed)
Channel Number: 4 digits
Configuration
CardNumber
(first 1 digit)
Input Port No.
Output Port No.
(last 2 digits)
(next 2 digits)
1
10×12 Matrix
10×24 Matrix
10×36 Matrix
10×48 Matrix
0
0
0
0
01 to 10
01 to 10
01 to 10
01 to 10
01 to 12
01 to 24
01 to 36
01 to 48
1 and 2
1 to 3
1 to 4
Card Number:
One digit: always 0.
Channel Number: Four digits: XXYY.
•
•
XX: input port number (01 to 10).
YY: output port number (01 to 48).
Channel Number assignment is shown in Figure 5-5.
In the Auto Configuration mode, you can omit any zeros at beginning of channel.
For example, channel 00101 can be expressed by 101.
NOTE
For the following two cases, three ports share one input path. Do not specify two of
the input ports at same time.
•
•
SMU5, HF1, and CV1 (Input Port No. 05, 07, and 09)
SMU6, HF2, and CV2 (Input Port No. 06, 08, and 10)
For example, if you specify input port 05, then you cannot specify input ports 07 and
09. You can specify 05 and 06 at the same time:
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Controlling the E5250A
Switch Control Basics
Figure 5-5
E5252A Channel Number in Auto Config. Mode (example for 10×48 matrix)
0145
0146 0147 0148
SMU1 01
0101 0102 0103 0104 0105 0106
0201 0202 0203 0204 0205 0206
0301 0302 0303 0304 0305 0306
0401 0402 0403 0404 0405 0406
SMU2
SMU3
SMU4
0245 0246 0247 0248
0345 0346 0347 0348
0445 0446 0447 0448
02
03
04
05
06
07
08
09
SMU5
SMU6
HF1
0501 0502 0503 0504 0505 0506
0601 0602 0603 0604 0605 0606
0701 0702 0703 0704 0705 0706
0545 0546 0547 0548
0645 0646 0647 0648
0745 0746 0747 0748
0801 0802 0803 0804 0805 0806
0845 0846 0847 0848
HF2
CV1
CV2
0901 0902 0903 0904 0905 0906
1001 1002 1003 1004 1005 1006
0945 0946 0947 0948
1045 1046 1047 1048
10
01
03
48
: Channel No.
04
05
06
46
02
47
45
Input Port
XXXX
Input Port No.
Output Port (Output Port No.)
5-18
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Controlling the E5250A
E5255A Channel List
For the basic syntax of channel_list parameter, see “Channel List and Channel
Configuration” on page 5-6.
Normal Configuration Mode
To specify a channel, you use five digits as shown in Table 5-7.
Specifying E5255A Channels in Normal Config. Mode
Table 5-7
One Channel: 5 digits
Slot No.
(E5255A
is
installed)
Block No.
ofE5255A
Channel Number: 4 digits
CardNumber
(first 1 digit)
Input Port No.
Output Port No.
(last 2 digits)
(next 2 digits)
1
2
3
4
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
4
IV Input: 01
BIAS Input: 51
01 to 08
01 to 08
01 to 08
01 to 08
IV Input: 02
BIAS Input: 52
IV Input: 03
BIAS Input: 53
IV Input: 01
BIAS Input: 51
IV Input: 02
BIAS Input: 52
IV Input: 03
BIAS Input: 53
IV Input: 01
BIAS Input: 51
IV Input: 02
BIAS Input: 52
IV Input: 03
BIAS Input: 53
IV Input: 01
BIAS Input: 51
IV Input: 02
BIAS Input: 52
IV Input: 03
BIAS Input: 53
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Controlling the E5250A
Switch Control Basics
Card Number:
One digit: 1 to 4. E5250A slot number in which card is
installed.
Channel Number: Four digits: XXYY.
•
XX: input port number (depends on the block number).
01, 02, or 03 for IV Input Port Number.
51, 52, or 53 for BIAS Input Port Number.
The input port number depends only on the block number,
and does not depend on which the E5250A SMU Input is
connected to the IV Input.
•
YY: output port number (01 to 08).
Channel Number assignment is shown in Figure 5-6.
E5255A Channel Number in Normal Config. Mode
Figure 5-6
Block 1
BIAS Input
(51)
5102
0102
5101
0101
5103 5104 5105 5106 5107 5108
0103 0104 0105 0106 0107 0108
IV Input
Output
1
2
4
5
8
3
6
7
Block 2
BIAS Input
(52)
5202
0202
5201
0201
5203 5204 5205 5206 5207 5208
0203 0204 0205 0206 0207 0208
IV Input
Output
1
2
4
5
8
3
6
7
Block 3
BIAS Input
(53)
5302
0302
5301
0301
5303 5304 5305 5306 5307 5308
0303 0304 0305 0306 0307 0308
IV Input
Output
XXXX
: Channel No.
1
2
4
5
8
3
6
7
5-20
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Controlling the E5250A
Switch Control Basics
Auto Configuration Mode
To use this mode, the E5255A must be installed in the E5250A slots continuously
from slot1 (slots 1,2; or slots 1,2,3; or slots 1,2,3,4). To specify a channel, use five
digits as shown in Table 5-8,
Table 5-8
Specifying E5255A Channels in Auto Config. Mode
One Channel: 5 digits
IV Port Input
Connection
(SMU Input
Port No.)
Channel Number: 4 digits
Card Number
(first 1 digit)
Input Port No.
Output Port No.
(last 2 digits)
(next 2 digits)
to SMU1 (1)
to SMU2 (2)
to SMU3 (3)
to SMU4 (4)
to SMU5 (5)
to SMU6 (6)
0
0
0
0
0
0
IV Input: 01
BIAS Input: 11
01 to 96
01 to 96
01 to 96
01 to 96
01 to 96
01 to 96
IV Input: 02
BIAS Input: 12
IV Input: 03
BIAS Input: 13
IV Input: 04
BIAS Input: 14
IV Input: 05
BIAS Input: 15
IV Input: 06
BIAS Input: 16
Card Number:
One digit: always 0.
Channel Number: Four digits: XXYY.
•
XX: input port number.
01, 02, 03, 04, 05, or 06 for IV Input Port.
11, 12, 13, 14, 15, or 16 for BIAS Input Port.
YY: output port number.
•
Minimum output port number is 01.Maximum output port
number is the total number of output ports for the E5255A
blocks connected to the same input port.
For each configured multiplexer, output port number 01 is
assigned to first output port of smallest block number on
card in the lowest slot number.
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Switch Control Basics
In the Auto Configuration mode, you can omit any zeros at beginning of channel.
For example, channel 00101 can be expressed by 101.
Figure 5-7, Table 5-9 and Figure 5-8 show examples of the Channel Number. In this
example, four E5255As are installed in the E5250A. And the E5255As are
configured to make the following multiplexers:
•
Slot1 and Slot2:
all six blocks are used together to make a 2×48 multiplexer.
IV input port is internally connected to SMU1 input port.
Slot3 and Slot4:
•
•
•
•
•
Both Block1 used together to make 2×16 multiplexer-1.
IV input port is internally connected to SMU2 input port.
Both Block2 used together to make 2×16 multiplexer-2.
IV input port is internally connected to SMU3 input port.
Block3 of Slot3 makes 2×8 multiplexer-1.
IV input port is internally connected to SMU4 input port.
Block3 of Slot4 makes 2×8 multiplexer-2.
IV input port is internally connected to SMU5 input port.
For the internal connections of the E5255A, see Chapter 2.
Figure 5-7
Example Setup of E5255A
2x48 Multiplexer
2x8 Multiplexer-1
slot 1
slot 2
slot 3
slot 4
2x8 Multiplexer-2
2x16 Multiplexer-2
2x16 Multiplexer-1
5-22
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Controlling the E5250A
Switch Control Basics
Table 5-9
Example IV Input Connection and Channel Number
One Channel: 5 digits
IV
Input
to
Slot
No.
Block
No.
Channel Number: 4 digits
Input Port No. Output Port No.
Configuration
CardNumber
(first 1 digit)
(next 2 digits)
(last 2 digits)
1
2
3
1 to 3
1 to 3
1
SMU1
SMU1
SMU2
0
0
0
IV Input: 01
BIAS Input: 11
01 to 24
2×48MUX
with slot 2 card
IV Input: 01
BIAS Input: 11
25 to 48
01 to 08
2×48MUX
with slot 1 card
IV Input: 02
BIAS Input: 12
2×16MUX-1
with block1 in
slot 4 card
2
SMU3
0
IV Input: 03
BIAS Input: 13
01 to 08
2×16MUX-2
with block2 in
slot 4 card
3
1
SMU4
SMU2
0
0
IV Input: 04
BIAS Input: 14
01 to 08
09 to 16
2×8MUX-1
4
IV Input: 02
BIAS Input: 12
2×16MUX-1
with block1 in
slot 3 card
2
3
SMU3
SMU5
0
0
IV Input: 03
BIAS Input: 13
09 to 16
01 to 08
2×16MUX-2
with block2 in
slot 3 card
IV Input: 05
2×8MUX-2
BIAS Input: 15
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Controlling the E5250A
Switch Control Basics
Figure 5-8
Example for E5255A Channel Number in Auto Config. Mode
BIAS Input
(11)
BIAS Input
(14)
1103
0103
1102
0102
1148
1101
0101
1147
1403
0403
1402
0402
1408
1401
0401
1407
IV Input
SMU1 (01)
IV Input
SMU4 (04)
0147 0148
0407 0408
Output
1
2
3
48
47
7
8
Output
1
2
3
Made from Cards in Slot #1 and #2.
Made from Block #3 of Card in Slot #3.
Block #1 to 3 of each card should be connected in series.
BIAS Input
(12)
BIAS Input
(15)
1203
0203
1215
1202
0202
1216
1201
0201
1503
0503
1502
0502
1508
1501
0501
1507
IV Input
SMU2 (02)
IV Input
SMU5 (05)
0215 0216
0507 0508
15
16
Output
1
2
3
7
8
Output
1
2
3
Made from Block #1 of Cards in Slot #3 and #4.
Made from Block #3 of Card in Slot #4.
Block #1 of each card should be connected in series.
BIAS Input
(13)
1303
0303
1302
0302
1315 1316
0315 0316
1301
0301
IV Input
SMU3 (03)
SMU6 is not used.
15
16
XXXX
Output
1
: Channel Number
2
3
Made from Block #2 of Cards in Slot #3 and #4.
Block #2 of each card should be connected in series.
5-24
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Controlling the E5250A
Using Virtual Front Panel Utility
Using Virtual Front Panel Utility
VFP utility runs on Agilent 4155/4156 Semiconductor Parameter Analyzer's built-in
by using the VFP utility.
This section describes how to use the VFP utility:
•
•
•
•
•
•
•
•
“Requirements”
“Starting the Virtual Front Panel Utility”
“Changing the VFP Setup Mode”
“Defining Labels for the E5250A Input Ports”
“Making Connections and Changing the Setup Data”
“Saving/Loading the Setup Data”
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Controlling the E5250A
Using Virtual Front Panel Utility
Functions of Virtual Front Panel Utility
The Virtual Front Panel (VFP) utility is used to create the E5250A setup data and
interactively (from the 4155/4156) make channel connections on the E5250A
plug-in cards. The VFP utility can perform the following:
•
•
•
•
•
•
•
Display the E5250A card configurations.
Change the channel configuration mode, bias port, and bias mode.
Define labels for the E5250A input terminals.
Create setup data (connection data).
Create channels on cards according to the connection data.
Use 24 different setup memories for one setup data.
Save/load the setup data to/from a file.
The setup data has 24 setup memories. One setup memory is used for one
measurement setup, and is the minimum unit of the E5250A setup data. For
example, one setup memory is used for MOSFET Vth measurement, another setup
memory is used for Capacitance measurement, and so on. One setup memory is used
for the connection data of all installed cards.
The data created by the VFP can be saved to diskette by using the built-in flexible
disk drive of the 4155/4156. And VFP data on diskette can be loaded into VFP.
Also, the VFP data on diskette can be loaded into your program by using the VFP
Data Upload Library. Refer to Chapter 6.
In the VFP, the following are always used and cannot be changed:
•
•
•
Connection Rule: FREE
Connection Sequence: Break Before Make
Couple Port function is not available in the VFP.
5-26
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Controlling the E5250A
Using Virtual Front Panel Utility
Requirements
The following are required to execute the Virtual Front Panel (VFP) Utility.
Model/Part No.
Description
Qty.
4155 or 4156
10833A/B/C
E5250-17003
Semiconductor Parameter Analyzer
GPIB Cable
1
1
1
E5250A Program Disk (furnished)
Starting the Virtual Front Panel Utility
1. Before turning on the E5250A and the 4155/4156 Semiconductor Parameter
Analyzer, connect the GPIB cable between the instruments, and make a
measurement connection. See Chapter 4.
2. Turn on the 4155/4156 and the E5250A.
3. Set the 4155/4156 to "SYSTEM CONTROLLER" mode on SYSTEM:
MISCELLANEOUS page.
4. Insert the E5250A Program Disk into the 4155/4156 disk drive.
5. Press the Display key twice to change to "All IBASIC" screen. This key is
located in the IBASIC area on the 4155/4156 front panel.
6. Select the GET softkey. This softkey is displayed on right side of the 4155/4156
screen. The following statement is displayed on the 4155/4156.
GET "_"
7. Type VFP between the double quotations of the GET statement. Then press
Enter key. Wait until the 4155/4156 finishes getting the file.
8. Press the Run key, which in the IBASIC area on the 4155/4156 front panel. The
following message is displayed:
Input Agilent E5250A GPIB Address (default 722) : ?
9. To use default GPIB address 722, just press the Enter key.
If not, type the GPIB address of your E5250A, then press Enter key.
The main menu of VFP is displayed on the 4155/4156 screen. And the E5250A
is initially set to settings of setup memory 1.
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Controlling the E5250A
Using Virtual Front Panel Utility
The following softkeys are displayed on right side of the 4155/4156 screen.
Softkey
Description
SHOW
For confirming which cards are installed in each E5250A slot.
CONFIG
SETUP
MODE
For changing the VFP setup mode (Channel Configuration mode,
Bias Port, and Bias Mode state). When the setup mode is changed,
all setup data is cleared (that is, connection data is set so that all
relays are open).
DEFINE
LABEL
For defining labels for the E5250A input ports to be used in
MEMORY SETUP PANEL.
SETUP
For creating connection channels in the E5250A cards. When you
MEMORY modify any setting of the setup memory, the E5250A connection
channels are changed in real time.
SAVE/
LOAD
For saving/loading the setup data to/from diskette.
QUIT
Quits the VFP utility.
Confirming the E5250A Card Configurations
Select SHOW CONFIG softkey. SHOW CONFIGURATION MENU is displayed
on the 4155/4156 to show which card is installed in each E5250A slot.
If card is the E5252A, the following comment is displayed:
E5252A 10x12 Matrix Switch
If card is the E5255A, a comment similar to following example is displayed:
E5255A 24 (8x3) Channel Multiplexer
Block 1 : Input 1, No Resistance
Block 2 : Input 2, No Resistance
Block 3 : Input 3, No Resistance
For InputN, the N can be 1 to 6, and indicates which E5250A SMU input port is
connected to the IV input of each multiplexer block. The next parameter indicates if
resistor is used between input Bias Port and IV Input ports as follows:
• No Resistance: no resistor used.
• With Resistance: resistor is used.
5-28
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Controlling the E5250A
Using Virtual Front Panel Utility
Changing the VFP Setup Mode
Select the SETUP MODE softkey. The display shows the present setup conditions:
Channel Configuration mode:
Model Number of each card:
Bias Mode state of each card:
NORMAL or AUTO
E5252A or E5255A
ON or OFF
Bias Port number of each card: E5252A: 1 to 10 E5255A: not applicable
The card numbers are 1 to 4 in NORMAL configuration mode, and 0 (zero) in
AUTO configuration mode.
The following softkeys are available.
Softkey
Description
CHANGE For changing the channel configuration mode. See next page.
CONFIG
CARDn
For selecting which card to change the Bias Port and Bias Mode
(n=1 to 4) state. CARDn softkeys are displayed only in NORMAL
configuration mode. Displays the BIAS STATE, BIAS PORT and
RETURN softkeys.
Select RETURN softkey to display CARDn softkey again, so you
can select another card to change the Bias Port and Bias Mode state.
BIAS
STATE
For toggling the Bias Mode ON/OFF. This softkey is displayed in
AUTO configuration mode, or by selecting the CARDn softkey in
NORMAL configuration mode. See next page.
BIAS
PORT
Only for the E5252A card. For selecting the Bias Port. This softkey
is displayed in AUTO configuration mode, or by selecting the
CARDn softkey in NORMAL configuration mode. See next page.
MAIN
For returning to VFP main menu. See next page.
MENU
CAUTION
If you change the VFP Setup Mode, all data is cleared from the setup memories
when you return to the VFP main menu.
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Controlling the E5250A
Using Virtual Front Panel Utility
Figure 5-9
Example of SETUP MODE MENU
Agilent E5250A Virtual Front Panel Utility
** SETUP MODE MENU **
CONFIG MODE : NORMAL
BIAS STATE
OFF
BIAS PORT
CARD1 [E5252]
CARD2 [E5252]
CARD3 [E5255]
CARD4 [E5255]
10
10
--
--
OFF
OFF
OFF
!! CAUTION !!
If any setting parameter of this menu is changed,
all setup memory will be cleared.
Select desired softkey.
To change the channel configuration mode
Select the CHANGE CONFIG softkey. This softkey toggles the configuration mode
between AUTO and NORMAL.
To change the Bias Port (for the E5252A only)
Select the BIAS PORT softkey. The following message is displayed:
Input Bias Port Number.
Type input port number (1 to 10 is available) to use as bias port, then press Enter
key. To cancel operation, press Enter key without typing a number.
To change the Bias Mode state
Select BIAS STATE softkey. This softkey toggles the state OFF/ON.
To enter/cancel the changes and return to the VFP main menu
Select MAIN MENU softkey. If you did not make changes, Main Menu is
displayed. If you made changes, following message/softkeys are displayed:
Changing mode will clear all setup memory. OK?
Softkey
Description
CHANGE
MODE
Enters the changes you made, and returns to the VFP main menu.
All the previous setup memory data is cleared.
CANCEL
Cancels the changes you made, and returns to the VFP main
menu. Setup memory data is not cleared.
5-30
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Controlling the E5250A
Using Virtual Front Panel Utility
Defining Labels for the E5250A Input Ports
You can define labels to use for the input ports of each row in the MEMORY
SETUP PANEL.
Select the DEFINE LABEL softkey. The DEFINE LABEL MENU and following
softkeys are displayed:
Softkey
Description
E5250A
INPUT
For displaying softkeys to select the desired input ports. See below.
CARDn
INPUT
For selecting the E5255A. You can define a label for the input Bias
Port of selected E5255A. This softkey is displayed only for card
(n=1 to 4) slots that have the E5255A installed. See next page.
MAIN
For returning to VFP main menu.
MENU
To define labels for the E5250A input ports
Select the E5250A INPUT softkey. The following softkeys are displayed.
Softkey
Description
INPUTn
LABEL
For selecting the E5250A input port. You can define a label for the
selected input port. See below.
(n=1 to 10)
MORE
For displaying more softkeys to select the input port. This softkey
toggles between the INPUTn LABEL softkeys n=1 to 5 and n=6 to
10.
RETURN
For returning to the DEFINE LABEL MENU.
Select the INPUTn LABEL softkey (n=1 to 10). The following message is
displayed:
Input Label Name. (Max 5 char string)
Type desired label (maximum 5 characters), then press the Enter key.
If you press the Enter key without typing any characters, the label is cleared.
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Controlling the E5250A
Using Virtual Front Panel Utility
To define labels for the E5255A bias input ports
Select the CARDn INPUT softkey (n=1 to 4). The following softkeys are displayed:
Softkey
Description
BIASn
LABEL
(n=1 to 3)
For selecting input Bias Port on the E5255A that was selected by
the CARDn INPUT softkey. See below.
RETURN For returning to the DEFINE LABEL MENU.
Select the BIASn LABEL softkey (n=1 to 3). The following message is displayed:
Input Label Name. (Max 5 char string)
Type desired label (maximum 5 characters), then press the Enter key.
If you press the Enter key without typing any characters, the label is cleared.
Figure 5-10
Example of DEFINE LABEL MENU
Agilent E5250A Virtual Front Panel Utility
** DEFINE LABEL MENU **
E5250A INPUT1 : " IV1 "
INPUT2 : " IV2 "
INPUT3 : " IV3 "
INPUT4 : " IV4 "
INPUT5 : " IV5 "
INPUT6 : " IV6 "
INPUT7 : " HF1 "
INPUT8 : " HF2 "
INPUT9 : " CV1 "
INPUT10 : " CV2 "
CARD1 E5252A
CARD2 E5252A
No Bias Input Port
No Bias Input Port
CARD3 E5255A BIAS1:"C3B1 " BIAS2:"C3B2 " BIAS3:"C3B3"
CARD4 E5255A BIAS1:"C4B1 " BIAS2:"C4B2 " BIAS3:"C4B3"
Select desired softkey.
5-32
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Controlling the E5250A
Using Virtual Front Panel Utility
Making Connections and Changing the Setup Data
Select SETUP MEMORY softkey. The E5250A is initially set to connections of
setup memory 1, then SETUP MEMORY MENU and following softkeys are
displayed. Current Setup Memory indicates setup memory that currently sets
E5250A.
Softkey
Description
NEXT SETUP
Changes Current Setup Memory to next setup memory
number. Increases number of Current Setup Memory by 1.
And changes the E5250A to new settings.
PREV SETUP
GOTO SETUP
Changes Current Setup Memory to previous setup memory
number. Decreases number of Current Setup Memory by 1.
And changes the E5250A to new settings.
Changes the E5250A to settings of specified setup memory.
See later. Changes Current Setup Memory to specified
setup memory number.
MODIFY SETUP For modifying settings in Current Setup Memory. See later.
MORE
Displays more softkeys. See below table.
Returns to the VFP main menu.
MAIN MENU
Softkey
Description
CLEAR SETUP
For clearing settings of specified setup memory. See later.
The setup memory is changed to "Open All" (no
connection) setup.
COPY SETUP
For copying a setup memory to another setup memory. See
later.
DELETE SETUP
For deleting the specified setup memory. The higher setup
memories are shifted down, and setup memory 24 is set to
"Open All" (no connection). See later.
INSERT SETUP
CLEAR ALL
For inserting setup memory ("Open All"− no connection) at
specified setup memory number. Specified setup and higher
memories are shifted up, and setup memory 24 is deleted.
See later.
For clearing all setup memories. All setup memories are
changed to "Open All" (no connection) setup. See later.
MORE
Displays more softkeys. See above table.
Returns to the VFP main menu.
MAIN MENU
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Controlling the E5250A
Using Virtual Front Panel Utility
Figure 5-11
Example of SETUP MEMORY MENU
Agilent E5250A Virtual Front Panel Utility
** SETUP MEMORY MENU **
Current Setup Memory : 1
Setup: Comment
1 : Open All
2 : MOSFET 1
3 : MOSFET 2
4 : MOSFET 3
5 : MOS CAP 1
6 : MOS CAP 2
7 : MOS CAP 3
8 : Open All
9 : Open All
10 : Open All
11 : Open All
12 : Open All
Setup: Comment
13 : Open All
14 : Open All
15 : Open All
16 : Open All
17 : Open All
18 : Open All
19 : Open All
20 : Open All
21 : Open All
22 : Open All
23 : Open All
24 : Open All
Select desired softkey.
To change the E5250A setup to specified setup memory
Select the GOTO SETUP softkey. The following message is displayed:
Input setup memory number to be connected?
Type the desired setup memory number, then press the Enter key. Current Setup
Memory changes to the specified setup memory, and the E5250A changes to the new
settings.
If you press Enter key without typing a number, the operation is canceled.
To copy a setup memory
Select the COPY SETUP softkey. The following message is displayed:
Input copy src & dest setup memory number: src,dest
Type the desired setup memory number, then press the Enter key. This operation
overwrites the setup memory data. For example, to copy setup memory No.1 to
No.5, type as follows:
1,5
If you press Enter key without typing numbers, operation is canceled.
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Controlling the E5250A
Using Virtual Front Panel Utility
To delete a setup memory
Select the DELETE SETUP softkey. The following message is displayed.
Input setup memory number to be deleted? ENTER to cancel.
Type the setup memory number to delete, then press the Enter key.
For example, if you type 12, setup memory 12 is deleted, setup memories 13 to 24
are shifted down by one, and setup memory 24 is set to "Open All".
If you press Enter key without typing a number, operation is canceled.
To insert a setup memory
Select the INSERT SETUP softkey. The following message is displayed.
Input setup memory number to be inserted? ENTER to cancel.
Type the setup memory number where you want to insert a new setup memory, then
press the Enter key.
For example, if you specify 12, setup memory 24 is deleted, setup memories 12 to
23 are shifted up by one, and new setup memory 12 is set to "Open All".
If you press Enter key without typing a number, operation is canceled.
To clear setup memory
To clear a setup memory, select the CLEAR SETUP softkey. The following message
is displayed:
Input setup memory number to be cleared? ENTER to cancel.
Type the setup memory number to clear, then press the Enter key. The setup memory
is set to "Open All".
To clear all setup memories, select the CLEAR ALL softkey. The following
message and softkeys are displayed:
Clear all setup memory. OK?
Softkey
Description
CLEAR ALL
CANCEL
Clears all setup memories.
Cancels the clear operation.
Select the CLEAR ALL softkey to clear all setup memories.
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Controlling the E5250A
Using Virtual Front Panel Utility
To modify the settings in Current Setup Memory
Select MODIFY SETUP softkey. MEMORY SETUP PANEL appears as shown in
examples in Figure 5-12 to Figure 5-14, and softkeys shown after Figure 5-14
appear.
One setup memory is used for connection data of all installed cards. For Auto
Config mode, settings for all cards are on one MEMORY SETUP PANEL. For
Normal Config mode, each card uses a different MEMORY SETUP PANEL.
Figure 5-12
Memory Setup Panel for the E5252A in Auto Config.
Agilent E5250A Virtual Front Panel Utility
** MEMORY SETUP PANEL **
Current Setup Memory : 1
Comment
Card Number
: MOSFET Vth
: 0
111111111122222222223333333333444444444
Input
IV1
IV2
IV3
IV4
IV5
IV6
HF1
HF2
CV1
CV2
123456789012345678901234567890123456789012345678
@...............................................
.@..............................................
..@.............................................
...@............................................
................................................
................................................
................................................
................................................
................................................
................................................
Use softkeys to move cursor and to change status.
5-36
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Controlling the E5250A
Using Virtual Front Panel Utility
Figure 5-13
Memory Setup Panel for the E5255A in Normal Config. (2 X 24 multiplexer)
Agilent E5250A Virtual Front Panel Utility
** MEMORY SETUP PANEL **
Current Setup Memory : 1
Comment
Card Number
: MOS CAP
: 1
Input
IV1
12345678
@.......
BS1 * .@@@@@@@
IV1 ........
BS1 * @@@@@@@@
IV1 ........
BS1 * --------
Use softkeys to move cursor and to change status.
Figure 5-14
Memory Setup Panel for the E5255A in Auto Config. (2 X 24 multiplexer)
Agilent E5250A Virtual Front Panel Utility
** MEMORY SETUP PANEL **
Current Setup Memory : 1
Comment
Card Number
: MOS CAP
: 0
111111111122222
Input
IV1
123456789012345678901234
@.......................
BS1 * .@@@@@@@@@@@@@@@--------
Use softkeys to move cursor and to change status.
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Using Virtual Front Panel Utility
You can define labels to use for the input ports of each row in the MEMORY
SETUP PANEL. Refer to “Defining Labels for the E5250A Input Ports” on page
5-31.
The following softkeys are displayed for MEMORY SETUP PANEL:
Softkey
Description
CHANGE
CHAN
For changing the settings in the Current Setup Memory. See
later. Displays cursor for input-output crosspoints and some
softkeys.
COMMENT For entering a comment for the setup memory. See next page.
NEXT
CARD
(Displayed only for NORMAL Config mode, not AUTO Config
mode.) Displays MEMORY SETUP PANEL of next card for
changing settings.
SWITCH
PAGE
(Displayed only for AUTO Config mode, not NORMAL Config
mode.) Displays other page of MEMORY SETUP PANEL if
more than 48 output ports. This softkey is displayed if the
E5250A is configured for multiplexer that has more than 48
outputs (example, 2×96 multiplexer). This softkey toggles
between the MEMORY SETUP PANEL for outputs 1 to 48, and
for 49 to 96.
NEXT
SETUP
Changes the Current Setup Memory to next setup memory
number. Increases the Current Setup Memory number by 1. And
changes the E5250A to the new settings.
PREV
SETUP
Changes the Current Setup Memory to previous setup memory
number. Decreases the Current Setup Memory number by 1. And
changes the E5250A to the new settings.
GOTO
SETUP
For changing the E5250A to settings of specified setup memory.
See later. Changes Current Setup Memory to specified setup
memory number.
SETUP
Returns to the SETUP MEMORY MENU.
MEMORY
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Controlling the E5250A
Using Virtual Front Panel Utility
To enter a comment for the setup memory
Select the COMMENT softkey. The following message is displayed:
Input comment for this setup memory. (Max 20 char)
Type desired comment (maximum 20 characters), then press the Enter key. If you
press Enter key without typing a comment, comment line is cleared.
To change the E5250A setup to specified setup memory
Select the GOTO SETUP softkey. The following message is displayed:
Input setup memory number to be connected?
Type the desired setup memory number, then press the Enter key. Current Setup
Memory changes to the specified setup memory, and the E5250A changes to the new
settings.
To cancel this operation, press the Enter key without typing a number.
To change the settings in a setup memory
Select the CHANGE CHAN softkey. A cursor for selecting input-output crosspoints
is displayed. And the following softkeys are displayed for changing the settings of
the setup memory.
Change the setting of the setup memory by using these softkeys.
NOTE
Invalid Input Port
The following E5250A input port combinations cannot be used for making a setup
memory.
•
•
IV5 (INPUT 5) and HF1 (INPUT 7) and CV1 (INPUT 9)
IV6 (INPUT 6) and HF2 (INPUT 8) and CV2 (INPUT 10)
For example, when IV5 is used, HF1 and CV1 cannot be used.
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Controlling the E5250A
Using Virtual Front Panel Utility
Softkey Menu 1:
Softkey
Description
OPEN/
CLOSE
Changes the relay state (open or close) of crosspoint selected by the
cursor. The softkey toggles the state between open and close. The
E5250A settings are changed in real time.
If bias mode is ON and cursor is in the row of input bias port, this
softkey changes the relay state; open, close, and bias disabled.
. means open.
@ means close.
− means bias disabled.
When bias mode is ON, if you disconnect a bias enabled output port
from a non-bias input port, the output port is automatically
connected to the input bias port.
UP
Moves the cursor upward.
Moves the cursor to the left.
Moves the cursor to the right.
Moves the cursor downward.
LEFT
RIGHT
DOWN
MORE
Displays more softkeys. The displayed softkeys depend on whether
cursor selects input Bias Port and Bias Mode is ON. See Softkey
Menu 2 and Menu 3 on next pages.
RETURN Displays the previous level of the softkey menu, shown previously
in "To Modify the Settings in Current Setup Memory".
NOTE
Moving the Cursor
Move the cursor by using the UP, DOWN, RIGHT, LEFT softkeys. Do not use
arrow keys on the 4155/4156 front panel.
5-40
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Controlling the E5250A
Using Virtual Front Panel Utility
Softkey Menu 2:
For the following conditions, the following softkeys are displayed by selecting the
MORE softkey on Softkey Menu 1.
Cursor points to row of normal input port or to row of input Bias Port with Bias
Mode OFF.
Softkey
Description
OPEN
ALL
Opens all relays. If Bias Mode is ON, then closes relays to connect
bias enabled output ports to the input Bias Port.
OPEN
ROW
Opens all relays of row at cursor. If Bias Mode is ON, then closes
relays to connect bias enabled output ports (that are not connected
to other input ports) to the input Bias Port.
CLOSE
ROW
Closes all relays of row at cursor. And all output ports are
disconnected from the input Bias Port.
MORE
Displays softkey menu 1.
RETURN Displays the previous level of softkey menu.
Softkey Menu 3:
For the following conditions, the following softkeys are displayed by selecting the
MORE softkey on Softkey Menu 1:
Cursor points to row of input Bias Port and Bias Mode is ON.
Softkey
Description
OPEN
ALL
Opens all relays, then connects all bias enabled output ports to the
input Bias Port.
DISABLE Bias disables all output ports. So relays open to disconnect all
ROW
output ports from the input Bias Port.
ENABLE
ROW
Bias enables all output ports, then connects all output ports (that
are not connected to another input port) to the input Bias Port.
MORE
Displays softkey menu 1.
RETURN
Displays the previous level of softkey menu.
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Controlling the E5250A
Using Virtual Front Panel Utility
Saving/Loading the Setup Data
Select the SAVE/LOAD softkey. The following softkeys are displayed:
Softkey
Description
CATALOG
Lists the files of diskette that is in the 4155/4156 internal disk
drive.
SAVE FILE
LOAD FILE
RETURN
For saving setup data to the diskette that is in the 4155/4156
internal disk drive. See below.
For loading setup data from the diskette that is in the
4155/4156 internal disk drive. See below.
Returns to the VFP main menu.
To save setup data to diskette
Select the SAVE FILE softkey. The following message is displayed:
Input Save file name
Type the name (maximum 8 characters) of file to which you want to save the setup
data, then press the Enter key.
To cancel this operation, press the Enter key without typing the file name.
To load setup data from diskette
Select the LOAD FILE softkey. The following message is displayed:
Input Load file name
Type the file name of setup data you want to load, then press the Enter key. The VFP
setup data is loaded into the VFP.
To cancel this operation, press the Enter key without typing the file name.
After loading the file, the E5250A changes to the setting of setup memory 1.
5-42
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Programming the E5250A
Standard Commands for Programmable Instruments (SCPI) is a universal
programming language for electronic test and measurement instruments, and based
on IEEE 488.1 and IEEE488.2.
This chapter describes how to create programs that contain SCPI commands to
control the E5250A. These programs can be run from an external controller.
This chapter explains the following programming tasks along with programming
examples:
•
•
•
•
•
“SCPI Programming Basics” explains the basics of using an program that
contains SCPI commands to control the E5250A and runs on HP BASIC.
“Creating a Control Program” shows typical programming flow for controlling
the E5250A.
“Programming Examples” provides some examples of the E5250A
programming.
“Using the VFP Data Upload Library” explains how to use the VFP Data
Upload Library furnished with the E5250A.
“Using the Capacitance Compensation Routine” explains how to use the
Capacitance Compensation Routine furnished with the E5250A.
For the details about SCPI commands, refer to Chapter 7.
In addition to this chapter, refer to Chapter 9, which describes how to use and
modify the sample programs furnished with the E5250A, and helps to increase your
understanding about programming.
CAUTION
The VFP Data Upload Library and the Capacitance Compensation Routine can be
used only in an program runs on HP BASIC.
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Programming the E5250A
SCPI Programming Basics
This section describes the structure of SCPI commands, and the basics of using an
program that contains SCPI commands to control the E5250A and runs on HP
BASIC:
•
•
“SCPI Command Hierarchy”
“Controlling E5250A by Using HP BASIC”
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Programming the E5250A
SCPI Programming Basics
SCPI Command Hierarchy
The SCPI commands use a hierarchical structure for subsystem commands similar
to a file system. For example, in :ROUT:CONN:RULEcommand, the hierarchy is
as follows:
ROUT
CONN
RULE
root
sub-level 1
sub-level 2
The colon at the beginning of the command means root.
The colons between two command keywords means moving down to a lower level.
NOTE
Using a Semicolon to Reduce Typing
A semicolon enables two commands to be sent on the same line.
For example, :ROUT:CONN:RULE ALL,FREE;SEQ ALL,BBMis the same as
the following two commands:
:ROUT:CONN:RULE ALL,FREE
:ROUT:CONN:SEQ ALL,BBM
So, using a semicolon reduces typing and simplifies the program.
A command terminator (such as carriage return) resets the path to root.
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Programming the E5250A
SCPI Programming Basics
Controlling E5250A by Using HP BASIC
1. Assign I/O path for controlling the E5250A by using the ASSIGN command.
In the following example, the select code of the external computer is 7 and GPIB
address of the E5250A is 22.
10 ASSIGN @Hp5250 TO 722
2. Use OUTPUT command to send SCPI commands to control the E5250A.
3. Use ENTER command to get query response from the E5250A.
Example:
10 REAL Complete
20 !
30 ASSIGN @Hp5250 TO 722
40 !
50 OUTPUT @Hp5250;"*RST"
60 !
70 OUTPUT @Hp5250;":ROUT:FUNC NCON"
80 OUTPUT @Hp5250;":ROUT:CONN:RULE ALL,FREE"
90 OUTPUT @Hp5250;":ROUT:CONN:SEQ ALL,BBM"
100 OUTPUT @Hp5250;":ROUT:CLOS (@10101,10202)"
110 !
120 OUTPUT @Hp5250;"*OPC?"
130 ENTER @Hp5250;Complete
140 !
150 END
Line Number
Description
10
Declares "Complete" as a real number.
Assigns I/O path to control the E5250A.
Resets the E5250A.
30
50
70
Sets the E5250A to Normal channel configuration mode.
Sets all cards to free connection rule.
Sets all cards to break-before-make connection sequence.
Creates channels 10101 and 10202.
80
90
100
120 and 130
Waits until all operations are complete.
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Programming the E5250A
Creating a Control Program
•
•
•
•
•
•
“Defining Connection Rule”
“Using Bias Mode”
“Using Couple Port (for E5252A only)”
“Controlling Relay Switching”
Table 6-1 summarizes the commands for each part of the control program for the
E5250A. In the table, default setting means the instrument state by the *RST
command or power on.
CAUTION
The SCPI commands introduced in this section are ROUTe subsystem commands
for controlling the E5250A.
There are also other SCPI subsystem commands for the E5250A: DIAGnostic and
SYSTem subsystem commands. For details about all SCPI commands, refer to
Chapter 7.
6-6
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Programming the E5250A
Creating a Control Program
Table 6-1
Programming Summary
Description
Command
Default Setting
1
2
3
4
Defines Channel Configuration Mode
Defines Connection Rule
:ROUT:FUNC channel_config
NCON
:ROUT:CONN:RULE card_no, rule
ALL,FREE
Defines Connection Sequence
Using Bias Mode
:ROUT:CONN:SEQ card_no,sequence
ALL,BBM
Selects input Bias Port (for E5252A)
Bias enables all output ports
Bias enables specified output ports
Bias disables all output ports
Bias disables specified output ports
Sets Bias Mode ON/OFF
:ROUT:BIAS:PORT card_no, input_port_no
:ROUT:BIAS:CHAN:ENAB:CARD card_no
:ROUT:BIAS:CHAN:ENAB:LIST channel_list
:ROUT:BIAS:CHAN:DISA:CARD card_no
:ROUT:BIAS:CHAN:DISA:LIST channel_list
:ROUT:BIAS:STAT card_no, state
ALL,10
ALL
All enabled
All enabled
All enabled
ALL,OFF
5
6
Using Couple Port (for E5252A)
Sets up Couple Port
:ROUT:COUP:PORT card_no, 'input_port_no'
:ROUT:COUP:STAT card_no, state
:ROUT:CLOS channel_list
No couple ports
ALL,OFF
Sets Couple Port Mode ON/OFF
Controls Relays on Cards
All relays open
All relays open
ALL
:ROUT:OPEN channel_list
:ROUT:OPEN:CARD card_no
Parameter
Description
channel_config
rule
NCON or ACON.
FREE or SROU.
sequence
state
NSEQ, BBM or MBBR.
ON (1) or OFF (0).
channel_list
card_no
5 digit decimal number. See Chapter 5.
ALL or 0 or 1 to 4 are available.
input_port_no
1 to 10 are available for :ROUT:BIAS:PORT.
1, 3, 5, 7 or 9 are available for :ROUT:COUP:PORT.
For details about these parameters, refer to Chapter 5 and Chapter 7.
Bias Port and Couple Port cannot be set for the same input port number.
CAUTION
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Programming the E5250A
Creating a Control Program
Defining Channel Configuration Mode
Following commands are used to set the Channel Configuration mode. For details,
refer to “Channel List and Channel Configuration” on page 5-6.
Command
Description
:ROUT:FUNC NCON
:ROUT:FUNC ACON
Sets Normal Channel Configuration mode.
Sets Auto Channel Configuration mode.
Example:
100 OUTPUT @Hp5250;":ROUT:FUNC NCON"
110 ! Sets E5250A to Normal channel configuration mode.
Defining Connection Rule
Following commands are used to set the Connection Rule. For details, refer to
“Connection Rule” on page 5-9.
Command
Description
:ROUT:CONN:RULE card_no,FREE
Sets Free Connection rule.
:ROUT:CONN:RULE card_no,SROU Sets Single Connection rule.
Example:
100 OUTPUT @Hp5250;":ROUT:CONN:RULE ALL,FREE"
110 ! Sets all cards to Free Connection rule.
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Programming the E5250A
Creating a Control Program
Defining Connection Sequence
Following commands are used to specify the Connection Sequence. For details,
refer to “Connection Sequence” on page 5-10.
Command
Description
:ROUT:CONN:SEQ card_no,NSEQ
:ROUT:CONN:SEQ card_no,BBM
Connection sequence not specified.
Specifies Break-before-Make
connection sequence.
:ROUT:CONN:SEQ card_no,MBBR Specifies Make-before-Break
connection sequence.
Example:
100 OUTPUT @Hp5250;":ROUT:CONN:SEQ ALL,BBM"
110 ! Sets all cards to Break-before-Make connection
sequence.
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Programming the E5250A
Creating a Control Program
Using Bias Mode
If you use the Bias Mode, following commands are available. For details, refer to
“Bias Mode” on page 5-11.
•
Selects input port to be input Bias Port on specified card (for E5252A only).
Command
Description
:ROUT:BIAS:PORT card_no,input_port_no
input_port_no specifies which input port
(on specified card) to be the input Bias
Port.
•
Bias enables the output ports.
Command
Description
:ROUT:BIAS:CHAN:ENAB:CARD card_no
Bias enables all output ports on
specified card.
:ROUT:BIAS:CHAN:ENAB:LIST channel_list
Bias enables the specified output
ports.
•
•
Bias disables the output ports.
Command
Description
:ROUT:BIAS:CHAN:DISA:CARD card_no
Bias disables all output ports on
specified card.
:ROUT:BIAS:CHAN:DISA:LIST channel_list
Bias disables the specified output ports.
Turns the Bias Mode ON/OFF
Command
Description
:ROUT:BIAS:STAT card_no,ON
:ROUT:BIAS:STAT card_no,OFF
Turns on Bias Mode for card specified by card_no.
Turns off Bias Mode for card specified by
card_no.
Example:
100 OUTPUT @Hp5250;":ROUT:BIAS:PORT ALL,1"
110 ! Selects SMU1 input port to be input Bias Port for all
cards.
120 OUTPUT @Hp5250;":ROUT:BIAS:CHAN:ENAB:CARD ALL"
130 ! Bias enables all output ports on all cards.
140 OUTPUT @Hp5250;":ROUT:BIAS:STAT ALL,ON"
150 ! Turns on the Bias Mode for all cards.
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Programming the E5250A
Creating a Control Program
Using Couple Port (for E5252A only)
If you use Couple Port, the following commands are available. For details, refer to
“Couple Port” on page 5-13.
•
Sets up the couple ports for specified card. You can specify multiple
input_port_no to set up multiple couple ports.
Command
Description
:ROUT:COUP:PORT card_no,`input_port_no' Sets up couples ports
determined by input_port_no
on card specified by card_no.
•
Turns the Couple Port Mode ON or OFF
Command
Description
:ROUT:COUP:STAT card_no,ON
Turns on the couple port mode for card
specified by card_no.
:ROUT:COUP:STAT card_no,OFF Turns off the couple port mode for card
specified by card_no.
Example:
100 OUTPUT @Hp5250;":ROUT:COUP:PORT ALL,'1,3'"
110 ! Sets up two couple ports (1&2 and 3&4) on all cards.
120 OUTPUT @Hp5250;":ROUT:COUP:STAT ALL,ON"
130 ! Turns on the couple port mode for all cards.
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Programming the E5250A
Creating a Control Program
Controlling Relay Switching
Following commands are used to control relay switching. For details of
channel_list, see “Channel List and Channel Configuration” on page 5-6.
Command
Description
:ROUT:CLOS channel_list
:ROUT:OPEN channel_list
Close the relays specified by channel_list.
Open the relays specified by channel_list.
:ROUT:OPEN:CARD card_no Open all relays on card specified by card_no.
Example:
100 OUTPUT @Hp5250;":ROUT:CLOS (@10101,10202)"
110 ! Closes relays to create channels 10101 and 10202.
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Programming the E5250A
Programming Examples
Programming Examples
This section provides examples of control programs for the E5250A.
The programs are written in the HP BASIC language, and can be executed without
This section explains the following three examples:
•
•
•
“Channel Creation Example”
“Bias Mode Example”
“Couple Port Example”
For each example, the required conditions, program list, and program description
are given.
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Programming the E5250A
Programming Examples
Channel Creation Example
The following example is a typical control program for the E5250A with the
E5252A, which connects instrument output to DUT as shown in Figure 6-1. Bias
Mode and Couple Port are not used in this example.
Figure 6-1
MOSFET Connection Example
Required
This program assumes the following conditions.
Conditions:
E5250A Installed Cards:
•
•
Slot 1: E5252A
Slot 2 to 4: not used.
E5250A Input Ports:
•
•
•
SMU INPUT 1 to 4: should be connected to instrument.
SMU INPUT 5 to 6: not used.
AUX INPUTs: not used.
E5252A Output Ports:
Output 1 to 4 are used in the program, and should be connected as follows.
•
•
•
•
Output 1: Gate
Output 2: Drain
Output 3: Substrate
Output 4: Source
6-14
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Programming the E5250A
Programming Examples
Program List:
10 ! Example: Creating Connection Channels
20 !
30 INTEGER Complete
40 DIM Channel$[100]
50 ! (Gate, Drain, Substrate, Source)
60 Channel$="(@10101,10202,10303,10404)"
70 !
! Channels to Create
80 ! Put Instrument Initialization Routine here
90 !
100 ASSIGN @Hp5250 TO 722 ! Assigns E5250A GPIB address to 722
110 OUTPUT @Hp5250;"*RST"
120 OUTPUT @Hp5250;":ROUT:FUNC NCON" ! Sets Normal Config mode
130 OUTPUT @Hp5250;":ROUT:CONN:RULE ALL,SROU"! Sets Single rule
140 OUTPUT @Hp5250;":ROUT:CONN:SEQ ALL,BBM" ! Sets BBM sequence
150 !
160 OUTPUT @Hp5250;":ROUT:CLOS "&Channel$
170 OUTPUT @Hp5250;"*OPC?"
180 ENTER @Hp5250;Complete
190 !
! Creates channels
200 ! Put Measurement Routine here
210 !
220 OUTPUT @Hp5250;":ROUT:OPEN:CARD ALL"
230 OUTPUT @Hp5250;"*OPC?"
240 ENTER @Hp5250;Complete
250 !
! Opens all relays
260 OUTPUT @Hp5250;"*RST"
270 !
280 END
Line
Description
Number
40
Declares data size of Channel$, which is used as channel_list
parameter.
60
80
Defines the desired channel_list.
Here, insert the initialization routine for your measurement
instrument.
110
120
130
140
160
Resets the E5250A.
Sets the E5250A to Normal channel configuration mode.
Sets the connection rule to Single.
Sets the connection sequence to Break-Before-Make.
Closes relays to create the channels specified by Channel$.
170 to 180 Waits until the relay closing operation is completed.
200
Here, insert measurement routine for your measurement
instrument.
220 to 240 Opens all relays, and waits until open operation is completed.
260 Resets the E5250A.
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Programming the E5250A
Programming Examples
Bias Mode Example
The following example shows how to use Bias Mode for the E5255A.
Figure 6-2
Example of Bias Mode
Required
This program assumes the following conditions.
Conditions:
E5250A Installed Cards:
•
•
Slot 1: E5255A
Slot 2 to 4: not used.
E5250A Input Ports:
•
•
•
SMU INPUT 1: should be connected to instrument.
SMU INPUT 2 to 6: not used.
AUX INPUTs: not used.
E5255A Connection:
•
•
IV Input Connection: IVin1 should be connected to the E5250A SMU INPUT 1.
Bias Input Connection: BIAS INPUT 51 should be connected to bias source.
E5255A Output Ports:
•
•
Block 1: outputs 1 to 8 are used in the program.
Block 2 and 3: not used.
6-16
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Programming the E5250A
Programming Examples
Program List:
10 ! Example: Using Bias Mode
20 !
30 INTEGER Complete
40 DIM Channel$[100]
50 Channel$="(@10101:10108)"
60 !
70 ! Put Instrument Initialization Routine here.
80 !
90 ASSIGN @Hp5250 TO 722
100 OUTPUT @Hp5250;"*RST"
110 OUTPUT @Hp5250;":ROUT:FUNC NCON"
120 OUTPUT @Hp5250;":ROUT:CONN:RULE ALL,FREE"
130 !OUTPUT @Hp5250;":ROUT:BIAS:PORT 1,7"
140 OUTPUT @Hp5250;":ROUT:BIAS:CHAN:ENAB:CARD 1"
150 OUTPUT @Hp5250;":ROUT:BIAS:STAT 1,ON"
Line
Description
Number
40
Declares data size of Channel$, which is used as channel_list
parameter.
50
70
Defines the desired channel_list.
Here, insert the initialization routine for your measurement
instrument.
100
110
120
130
Resets the E5250A.
Sets the E5250A to Normal channel configuration mode.
Sets the connection rule to FREE.
This line is not used (commented) for the E5255A. If you use the
E5252A instead of the E5255A, use this line, which defines AUX
INPUT HF1 to be the input Bias Port.
140
150
Bias enables all output ports of card 1 for the Bias Mode.
Turns on the Bias Mode. All output ports of card 1 are connected to
the input Bias Port.
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Programming the E5250A
Programming Examples
160 !
170 ! Put Bias Source Control Routine here.
180 !
190 OUTPUT @Hp5250;":ROUT:CLOS "&Channel$
200 OUTPUT @Hp5250;"*OPC?"
210 ENTER @Hp5250;Complete
220 !
230 ! Put Measurement Routine here
240 !
250 OUTPUT @Hp5250;":ROUT:BIAS:STAT ALL,OFF"
260 OUTPUT @Hp5250;":ROUT:OPEN:CARD ALL"
270 OUTPUT @Hp5250;"*OPC?"
280 ENTER @Hp5250;Complete
290 !
300 OUTPUT @Hp5250;"*RST"
310 !
320 END
Line
Description
Number
170
190
Here, insert your bias source control routine.
Disconnects all output ports of block 1 from the input Bias Port,
then connects the output ports to the IV input port.
200 to 210 Waits until the channel connections are completed.
230
Here, insert measurement routine for your measurement
instrument.
250
Turns off the Bias Mode.
260 to 280 Opens all relays, then connects all output ports of block 1 to the
input Bias Port again, and waits until the connections are
completed.
300
Resets the E5250A.
6-18
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Programming the E5250A
Programming Examples
Couple Port Example
The following example shows how to use the Couple Port.
This function is available only for the E5252A.
Figure 6-3
Example of Couple Port
Required
This program assumes the following conditions.
Conditions:
E5250A Installed Cards:
•
•
Slot 1: E5252A must be installed.
Slot 2 to 4: not used.
E5250A Input Ports:
•
•
•
SMU INPUT 1 and 2: should be connected to instrument.
SMU INPUT 3 &4 and 5&6: should be connected to instrument. Couple port.
AUX INPUTs: not used.
The program couples SMU INPUT 3&4 and couples SMU INPUT 5&6. For each
Couple Port, use Kelvin triaxial cable for instrument connection.
E5252A Output Ports:
Output 1, 2, 3, 4, 5, 6 should be connected to :
Substrate, Gate, Drain, Drain, Source, Source, respectively.
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Programming the E5250A
Programming Examples
Program List:
10 ! Example: Using Couple Port
20 !
30 INTEGER Complete
40 DIM Channel$[100]
50 ! (Substrate,Gate,Drain,Source)
60 Channel$="(@101,202,303,505)"
70 !
80 ! Put Instrument Initialize Routine here
90 !
100 ASSIGN @Hp5250 TO 722
110 OUTPUT @Hp5250;"*RST"
120 OUTPUT @Hp5250;":ROUT:FUNC ACON"
130 OUTPUT @Hp5250;":ROUT:CONN:RULE ALL,SROU"
140 OUTPUT @Hp5250;":ROUT:CONN:SEQ ALL,BBM"
Line
Description
Number
40
Declares data size of Channel$, which is used as channel_list
parameter.
60
80
Defines the desired channel_list.
Here, insert the initialization routine for your measurement
instrument.
110
120
130
140
Resets the E5250A.
Sets the E5250A to Auto channel configuration mode.
Sets the connection rule to Single.
Sets the connection sequence to Break-Before-Make.
6-20
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Programming the E5250A
Programming Examples
150 OUTPUT @Hp5250;":ROUT:COUP:PORT ALL,'3,5'"
160 OUTPUT @Hp5250;":ROUT:COUP:STAT ALL,ON"
170 !
180 OUTPUT @Hp5250;":ROUT:CLOS "&Channel$
190 OUTPUT @Hp5250;"*OPC?"
200 ENTER @Hp5250;Complete
210 !
220 ! Put Measurement Routine here
230 !
240 OUTPUT @Hp5250;":ROUT:OPEN:CARD ALL"
250 OUTPUT @Hp5250;"*OPC?"
260 ENTER @Hp5250;Complete
270 !
280 OUTPUT @Hp5250;"*RST"
290 !
300 END
Line
Description
Number
150
160
180
Sets up SMU3&4 and SMU5&6 input ports as Couple Ports.
Turns on the Couple Port mode.
Closes relays to create channels specified by Channel$.
190 to 200 Waits until the relay close operation is completed.
220
Here, insert measurement routine for your measurement
instrument.
240 to 260 Opens all relays, and waits until open operation is completed.
280 Resets the E5250A.
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Programming the E5250A
Using the VFP Data Upload Library
Using the VFP Data Upload Library
•
•
•
•
“VFP Data Upload Library”
“Programming Example”
“Before Executing Your Program”
“Error Messages”
For information about using the VFP, refer to “Using Virtual Front Panel Utility” on
page 5-25.
CAUTION
The VFP Data Upload Library can be used only in an program runs on HP BASIC.
6-22
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Programming the E5250A
Using the VFP Data Upload Library
VFP Data Upload Library
VFP Data Upload Library is an subprogram library used for loading data (that was
made and saved by the Virtual Front Panel utility) to your program. The library
contains the following four subprograms. The library runs on HP BASIC.
Load_vfp_data subprogram
Loads data file (that was created and saved by Virtual Front Panel utility) to your
program. The file contains all data from the 24 Setup Memories, and setup mode
data for initializing the E5250A.
Syntax:
Load_vfp_data(Address_5250,"LOAD_FILE",Setup_data$)
Parameters:
Address_5250:
LOAD_FILE:
Setup_data$:
GPIB address of the E5250A.
File name of data you want to load.
Data string for internal use in the library. Must declare 14000
byte data size.
Example:
CALL Load_vfp_data(722,"MAT48_1",Mat48_data$)
Init_vfp_setup subprogram
Initializes the E5250A based on the setup mode data loaded by the Load_vfp_data
subprogram. This subprogram sets the following parameters:
•
•
•
•
•
Configuration Mode: Auto or Normal
Connection Rule: Free
Connection Sequence: Break Before Make
Bias State: Bias Mode (ON/OFF) for each card.
Input Bias Port for each card.
This subprogram must be entered before the Connect_vfp subprogram.
Syntax:
Init_vfp_setup(Setup_data$)
Parameter:
Setup_data$:
Data string for internal use in the library. Must declare 14000
byte data size.
Example:
CALL Init_vfp_setup(Mat48_data$)
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Programming the E5250A
Using the VFP Data Upload Library
Connect_vfp subprogram
Makes relay connections based on data from the specified Setup Memory. Data from
all 24 Setup Memories was loaded by the Load_vfp_data subprogram.
Syntax:
Connect_vfp(Setup_data$,Setup_num)
Parameters:
Setup_data$:
Setup_num:
Data string for internal use in the library. Must declare 14000
byte data size.
Setup Memory number: 1 to 24.
Example:
CALL Connect_vfp(Mat48_data$,1)
FNGet_vfp_comment$ subprogram
Returns comment from the specified Setup Memory. Comments for all 24 Setup
Memories were loaded by the Load_vfp_data subprogram.
Syntax:
FNGet_vfp_comment$(Setup_data$,Setup_num)
Parameters:
Setup_data$:
Setup_num:
Data string for internal use in the library. Must declare 14000
byte data size.
Setup Memory number from which to get comment: 1 to 24.
Example:
Comment$=FNGet_vfp_comment$(Mat48_data$,1)
DISP "Comment=";Comment$
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Programming the E5250A
Using the VFP Data Upload Library
Programming Example
The following program is an example for using the VFP Data Upload Library.
10 ! Example for using VFP Data Upload Library
20 !
30 COM /Vfp_com_data/ Mat48_data$[14000]
40 DIM Comment$[20]
50 Address_5250=722 ! E5250A GPIB Address: 722
60 Setup_num=1
70 !
! VFP Setup Memory Number: 1
80 OUTPUT Address_5250;"*RST"
90 !
100 CALL Load_vfp_data(Address_5250,"MAT48",Mat48_data$)
110 CALL Init_vfp_setup(Mat48_data$)
120 !
130 DISP "SETUP IN PROGRESS. SETUP NO.=";Setup_num
140 CALL Connect_vfp(Mat48_data$,Setup_num)
150 !
160 Comment$=FNGet_vfp_comment$(Mat48_data$,Setup_num)
170 !
180 DISP "SETUP WAS COMPLETED. SETUP COMMENT:",Comment$
190 !
200 END
Line
Description
Number
30
40
Declares data size of Mat48_data$, which is for internal use by the
library. Size must be 14000.
Declares data size of Comment$, which is for storing comment
from Setup Memory.
100
110
140
Loads the data file MAT48, which was made by VFP utility.
Initializes the E5250A based on the loaded data.
Connects relays based on data from specified Setup Memory.
160 to 180 Gets the comment from specified Setup Memory, and displays the
comment.
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Programming the E5250A
Using the VFP Data Upload Library
Before Executing Your Program
Before executing a program that uses subprograms from the VFP Data Upload
Library, do the following:
1. Link the library to your program:
Link the library as shown in the following example. The VFP Data Upload
Library is an ASCII file on the E5250A Program Disk.
a. GET the file UPLOAD from the E5250A Program Disk.
GET "UPLOAD"
b. RE-STORE the file.
RE-STORE "U_LIB"
c. LOAD your program.
d. Link the library to your program by using the LOADSUB statement:
LOADSUB ALL FROM "U_LIB"
2. Change the mass storage device
Before executing your program, you must set the mass storage device to the
device that has the file that will be loaded by Load_vfp_data subprogram.
For example, if the file is on the device ":CS80,701,1", you should change the
mass storage device by using the MSI statement:
MSI ":CS80,701,1"
Or you can specify the mass storage device as follows:
Load_vfp_data(Address_5250,"LOAD_FILE:CS80,701,1",Setup_data$)
6-26
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Programming the E5250A
Using the VFP Data Upload Library
Error Messages
If any error related to the VFP Data Upload Library occurs in your program, one of
following error messages is displayed, and the program is paused.
• Cannot configure for AUTO. Normal mode used.
Cannot use the data for Auto Config mode.
Normal Configuration mode is used.
• File name is wrong.
File name is not correct.
Enter the correct file name.
• Instrument at address XXX is not E5250A!
Instrument specified by GPIB address XXX is not E5250A.
Confirm GPIB address for the E5250A, and enter the correct value.
Note: XXX is the number you specified for the parameter Address_5250 in the
Load_vfp_data subprogram.
• File data is not VFP format, or is broken.
Cannot load the data because the data format is not for VFP or the data is
broken. Enter the correct file name.
• GPIB address, connection or firmware is bad.
Timeout occurred for connecting the E5250A.
Confirm the GPIB address of the E5250A, and the connection of the GPIB
cable. Or the E5250A firmware may be defective.
• Must execute Init_vfp_setup before Connect_vfp.
Init_vfp_setup must be called before calling Connect_vfp.
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Programming the E5250A
Using the Capacitance Compensation Routine
Routine.
•
•
•
•
•
“Required Conditions”
“Programming Example”
“Before Executing Your Program”
“Error Messages”
NOTE
Restrictions for Using the Routine
Capacitance Compensation Routine can be used only in an program runs on HP
BASIC. Corrected data by the routine is not guaranteed. But typical data
(supplemental data) is as follows:
Capacitance measurement accuracy: ±1 % ±0.5 pF
This typical data is for the following measurement conditions:
Frequency:
1 kHz to 1 MHz
Measurement Range:
Maximum 1000 pF
Measurement Terminal: At the end of the Agilent 16494A-001 (1.5 m triaxial
cable) connected to the E5252A output terminal.
The typical data does not apply to cable or anything extended from the 16494A
triaxial cable. Also the conditions specified in “Required Conditions” on page 6-30
must be satisfied.
6-28
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Programming the E5250A
Using the Capacitance Compensation Routine
Capacitance Compensation Routine
This routine is an subprogram used to compensate for capacitance measurement
error caused by the E5250A with the E5252A matrix card installed. The subprogram
is used with Agilent 4284A Precision LCR Meter. You enter capacitance and
conductance data measured by the 4284A as a parameter, and this subprogram
returns the compensated value. This routine runs on HP BASIC.
Syntax:
Ccompen_5250(Freq,L1,L2_h,L2_l,L3_h,L3_l,C_m,G_m,C_c,G_c)
Parameter:
Freq
L1
Measurement Frequency (Hz): 1000 Hz to 1000000 Hz (1 kHz to
1 MHz).
Length (in meters) of 16494A triaxial cable connected from E5252A
output to connector plate.
L2_h
Length (in meters) of triaxial cable connected from connector plate to
DUT (Highterminal of capacitor).
If you do not use triaxial cable, enter 0for this parameter.
L2_l
L3_h
L3_l
Length (in meters) of triaxial cable connected from connector plate to
DUT (Lowterminal of capacitor).
If you do not use triaxial cable, enter 0for this parameter.
Length (in meters) of coaxial cable connected from connector plate to
DUT (Highterminal of capacitor).
If you do not use coaxial cable, enter 0for this parameter.
Length (in meters) of coaxial cable connected from connector plate to
DUT (Lowterminal of capacitor).
If you do not use coaxial cable, enter 0for this parameter.
C_m
G_m
C_c
Capacitance data (in F) measured by 4284A.
Conductance data (in S) measured by 4284A.
Compensated capacitance value (in F) returned by Capacitance
Compensation Routine.
G_c
Compensated conductance value (in S) returned by Capacitance
Compensation Routine.
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Programming the E5250A
Using the Capacitance Compensation Routine
Required Conditions
This subprogram requires the following conditions:
•
Setting of the 4284A:
Option Required:
Frequency:
4284A-006
1 kHz to 1 MHz.
Cp-G.
Measurement Function:
Connection to E5250A:
Use Agilent 16048D/E Test Cable and BNC
T-type Adapter (Agilent part number:
1250-2405).
Calibration:
Must be done at the end of the 16048D/E.
•
•
E5250A Input port:
CV1 and CV2.
Connection of E5252A output:
To Connector Plate:
Use Agilent 16494A Triaxial Cable.
From Connector Plate to
DUT:
Use low noise coaxial cable (Agilent part
number: 8121-1191) for minimizing the
compensation error.
You can also use another type of coaxial cable,
triaxial cable, or combination of these. See
“Using Other than Recommended Cable”.
Using Other than Recommended Cable
If you do not use the low noise coaxial cable (Agilent part number: 8121-1191) for
the connection from Connector Plate to DUT, the Capacitance Compensation
Routine cannot return accurate results. To get more accurate compensation results,
do following:
6-30
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Programming the E5250A
Using the Capacitance Compensation Routine
1. Measure R, L, C of your cable using the 4284A. Measurement setup is as
follows:
GUARD (C)
GROUND (E)
GROUND (F)
GUARD (D)
Insulator
Triaxial Cable
FORCE or SENSE (A)
FORCE or SENSE (B)
Measurement
Terminals a
A and B
see note c
A and C
Measurement
Parameter
Measurement
Frequency
Measurement
Function
1 kHz to 1 MHz b
R
L
−
SERIES
C
PARALLEL
a. See figure above.
b. Select 1 point in the frequency range.
c. For triaxial cable, connect B to F directly, and measure L
between A and E.
For coaxial cable, connect B to D directly, and measure L
between A and C. Ignore E and F.
2. Overwrite the R, L, C data in the program lines listed below. The data must be in
per meter values.
Program Line No.
Defines R, L, C value of
1420
1430
1440
1450
Triaxial cable for C meter High terminal
Triaxial cable for C meter Low terminal
Coaxial cable for C meter High terminal
Coaxial cable for C meter Low terminal
Original program defines initial data by DATA statement in the "Rlc_data" block
as shown below:
1350 Rlc_data: !
1360
:
!
R [ohm]
:
L [H]
:
C [F]
:
1420
1430
1440
1450
:
DATA 100.70E-3, 400.00E-9, 80.00E-12 !User Triax Cbl H
DATA 100.70E-3, 400.00E-9, 80.00E-12 !User Triax Cbl L
DATA 114.00E-3, 544.00E-9, 130.00E-12 !User Coax Cbl H
DATA 114.00E-3, 544.00E-9, 130.00E-12 !User Coax Cbl L
:
:
:
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Programming the E5250A
Using the Capacitance Compensation Routine
Programming Example
The following program is an example for using the capacitance compensation
subprogram:
100 ! Example of Capacitance Compensation
110 !
120 Freq=1.E+6 ! MEASUREMENT FREQUENCY: 1MHz
130 L1=1.5 ! E5252A OUTPUT CABLE: 1.5m
140 L2_h=0 ! TRIAX CABLE High SIDE: none (0m)
150 L2_l=0 ! TRIAX CABLE Low SIDE: none (0m)
160 L3_h=2 ! COAX CABLE High SIDE: 2m
170 L3_l=2 ! COAX CABLE Low SIDE: 2m
180 !
190 OUTPUT @Hp4284;"FUNC:IMP CPG"
! SET Cp-G FUNCTION
200 OUTPUT @Hp4284;"FREQ "&VAL$(Freq) ! SET MEAS FREQ
210 OUTPUT @Hp4284;"CORR:LENG 2M"
220 OUTPUT @Hp4284;"*TRG"
230 ENTER @Hp4284;C_m,G_m,Stat
240 !
! SET 16048D LENGTH
250 Ccompen_5250(Freq,L1,L2_h,L2_l,L3_h,L3_l,C_m,G_m,C_c,G_c)
260 DISP "CORRECTED C DATA=";C_c
270 DISP "CORRECTED G DATA=";G_c
280 !
290 END
Before Executing Your Program
Before executing a program that uses the capacitance compensation subprogram,
you must link the subprogram to your program as follows. The subprogram is in an
ASCII file on the E5250A Program Disk.
1. GET the file C_COMPEN from the E5250A Program Disk.
GET "C_COMPEN"
2. RE-STORE the file.
RE-STORE "C_COM"
3. Load your program.
4. Link the subprogram to your program by using the LOADSUB statement.
LOADSUB ALL FROM "C_COM"
Error Messages
If error occurs, following error message is displayed, and program is paused:
Parameter Out of Range Improper parameter value. Confirm and enter the
available value.
6-32
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Command Reference
This chapter describes the following for Agilent E5250A:
•
SCPI commands available to control the E5250A via GPIB interface.
SCPI is a universal programming language for electronic test and measurement
instruments, and is based on IEEE 488.1 and IEEE 488.2.
SCPI commands are divided into two types: common commands and subsystem
commands.
Common commands are generally not measurement related, but are used to
manage status registers, data storage, and so on. Common commands are
defined by IEEE 488.2. All common commands begin with an asterisk, such as
*RST.
Subsystem commands are mostly measurement related and some are general
purpose. Subsystem commands have a hierarchical structure that uses a colon
between mnemonics (keywords), such as :DIAG:TEST:CARD:RES.
Commands for the following subsystems are available for the E5250A:
DIAGnostic
ROUTe
commands for performing self-test.
commands for signal routing.
SYSTem
commands for controlling other functions that are not related
to instrument performance.
Commands are listed in alphabetical order in this chapter.
Status reporting structure
•
These are IEEE 488.2 status structures (registers), which can be set or read by
the common commands.
the E5250A.”
For a quick reference list of all SCPI subsystem commands described in this chapter,
refer to Chapter 12, “SCPI Command Summary.”
For error messages related to the SCPI commands, refer to Chapter 11, “Error
Messages.”.
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Command Reference
Textual Notation for Subsystem Commands
CAPITAL
LETTERS
Capital letters are the minimally required letters of the
command header. Lowercase letters are the long form
(complete spelling), which you can omit if desired.
For example, for :SYSTem:CCONfig?, you only need to
specify :SYST:CCON?.
[ ]
Square brackets are used to enclose optional information not
required for execution of the command sequence.
For example, for the [:ROUTe]:BIAS:PORT command, you can
execute :ROUT:BIAS:PORT or :BIAS:PORT, which are
exactly the same.
italic font
Text you supply. For example, for card_number, you enter an
allowed card number. Also, used to represent response data.
|
Vertical bar can be read as "or" and is used to separate
alternative parameter options.
{ }
< >
Braces (curly brackets) are used to enclose one or more
parameters that may be included zero or more times.
Angular brackets indicate that the word or words enclosed
represent something other than themselves. For example,
<newline>.
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Command Reference
Common Commands for E5250A
Common Commands
This section describes common commands and queries, which are commands
defined by IEEE 488.2.
The following table shows some common commands that are supported for the
E5250A.
Common Commands for E5250A
Mnemonic
*CLS
Name
Clear Status
*ESE(?)
*ESR?
*IDN?
*OPC(?)
*RST
Standard Event Status Enable Command (Query)
Standard Event Status Register Query
Identification Query
Operation Complete Command (Query)
Reset Command
*SRE(?)
*STB?
*TST?
*WAI
Service Request Enable Command (Query)
Read Status Byte Query
Self-Test Query
Wait-to-Continue Command
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Command Reference
*CLS
*CLS
This command clears the Status Byte Register, the Standard Event Status Register,
and the Error Queue. This command does not clear the enable registers. Refer to
“Status Reporting Structure” on page 7-48.
Also, this command stops the monitoring of pending operations by the *OPC
command.
This command does not have query form.
*CLS
Syntax
Example
OUTPUT @Hp5250;"*CLS"
*ESE
This command sets the bits of the Standard Event Status "Enable" Register.
1enables, 0masks.
Syntax
*ESE enable_number
Parameter
Explanation
enable_number
decimal integer (that is the sum of the binary-weighted values
for the desired bits), hexadecimal, octal, or binary value
Query response
Semantics
enable_number <newline><^END>
enable_number is decimal integer value that is the sum of the binary-weighted
values of the “Enable” register bits.
The Standard Event Status "Enable" Register determines which bits of the Standard
Event Status Register are enabled. Enabled bits are ORed together, and the result is
reported to bit5 of the Status Byte Register.
The Standard Event Status "Enable" Register consists of 16 bits, but only the lower
8 bits are used, which correspond to the bits of the Standard Event Status Register.
For details, refer to “Standard Event Status Enable Register” on page 7-54
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Command Reference
*ESE
The following table shows the bits of the Standard Event Status Register and
binary-weighted decimal value of each bit.
binary-
weight
bit
description
0
1
OPC (Operation Complete)
not used
1
2
3
4
5
6
7
2
4
8
QYE (Query ERROR)
DDE (Device-Dependent ERROR)
16 EXE (Execution ERROR)
32 CME (Command ERROR)
64 not used
128 PON (Power on)
Example
The following four lines enable the same bit (CME bit):
OUTPUT @Hp5250;"*ESE 32"
using decimal numeric
OUTPUT @Hp5250;"*ESE #B100000" using binary numeric
OUTPUT @Hp5250;"*ESE #Q40"
OUTPUT @Hp5250;"*ESE #H20"
using octal numeric
using hexadecimal numeric
The following is example for query:
OUTPUT @Hp5250;"*ESE?"
ENTER @Hp5250;A
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Command Reference
*ESR?
*ESR?
This query command returns the present contents of the Standard Event Status
Register.
Syntax
*ESR?
Query response
register <newline><^END>
Parameter
Explanation
register
decimal integer value that is the sum of the binary-weighted values
for the set bits
Semantics
The following table shows the bits of the Standard Event Status Register, and the
binary-weighted decimal value of each bit.
binary-
weight
bit
description
OPC (Operation Complete)
0
1
1
2
3
4
5
6
7
2
4
8
not used. always 0.
QYE (Query ERROR)
DDE (Device-Dependent ERROR)
16 EXE (Execution ERROR)
32 CME (Command ERROR)
64 not used. always 0.
128 PON (Power on)
Example
OUTPUT @Hp5250;"*ESR?"
ENTER @Hp5250;A
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Command Reference
*IDN?
*IDN?
This query command returns the ID of your E5250A.
Syntax
*IDN?
Query response
HEWLETT-PACKARD,model,0,revision <newline><^END>
Response
Type
Explanation
model
character model number. E5250A
character revision number. A.01.00or later
revision
Example
DIM A$[50]
OUTPUT @Hp5250;"*IDN?"
ENTER @Hp5250;A$
PRINT A$
An example result of above program is:
HEWLETT-PACKARD,E5250A,0,A.01.00
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Command Reference
*OPC
*OPC
This command starts to monitor pending operations, and sets/clears the Operation
Complete (OPC) bit in the Standard Event Status Register as follows:
•
•
If there is no pending operation, sets the OPC bit to 1.
again when all pending operations are completed.
So, *OPC command is required to enable the OPC bit. To stop monitoring pending
operations (disable OPC bit), execute the *CLS command.
For details about the Standard Event Status Register, refer to “Standard Event Status
Register” on page 7-53. Also, see *WAI command.
Syntax
*OPC
Query response
1 <newline><^END>
*OPC?places ASCII character 1into the Output Queue when all pending
operations are completed. For details, refer to “Output Queue” on page 7-55.
Example
OUTPUT @Hp5250;"*OPC"
The following example is for query:
OUTPUT @Hp5250;"*OPC?"
ENTER @Hp5250;A
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Command Reference
*RST
*RST
This command performs an instrument reset. Status after *RST is shown below:
Channel Configuration: Normal Config Mode
Connection Rule:
Connection Sequence:
Bias Mode:
Free
Break Before Make
Off
Bias Port:
•
•
E5252A: 10
E5255A: None
Bias Enabled Channels: All channels (output ports) are bias enabled
Couple Port Mode:
Couple Port:
Off
No Couple Port
All relays open
No Change
Card Channel Status:
Self-Test Result:
Syntax
*RST
Example
OUTPUT @Hp5250;"*RST"
NOTE
This command does not change the self-test result.
For the power-on settings, see :SYSTEM:CPON.
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Command Reference
*SRE
*SRE
This command sets the Service Request "Enable" Register bits.
1enables, 0masks.
Syntax
*SREenable_number
Parameter
Explanation
enable_number decimal integer (that is the sum of the binary-weighted values
for the desired bits), hexadecimal, octal, or binary value
Query response
Semantics
enable_number <newline><^END>
The Service Request "Enable" Register consists of 8 bits: Bit0 to Bit7. Bit6 is not
defined, and is always 0. The Service Request "Enable" Register determines which
bits of the Status Byte Register are enabled.
The status of the enabled bits are ORed together, and the result of OR is output to
bit6 (Master Summary Status bit) of Status Byte Register. For details, refer to
“Status Reporting Structure” on page 7-48.
The following table shows the bits of the Status Byte Register, and the
binary-weighted decimal value of each bit.
binary-
weight
bit
description
0
1
not used
not used
not used
not used
1
2
3
4
5
6
7
2
4
8
16 MAV (Message Available summary-message)
32 ESB (Event Status Bit)
64 MSS (Master Summary Status)
128 not used
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Command Reference
*SRE
Example
The following four lines enable the same bits (bit 4 and 5):
OUTPUT @Hp5250;"*SRE 48"
using decimal numeric
OUTPUT @Hp5250;"*SRE #B110000" using binary numeric
OUTPUT @Hp5250;"*SRE #Q60"
OUTPUT @Hp5250;"*SRE #H30"
using octal numeric
using hexadecimal numeric
The following is example for query:
OUTPUT @Hp5250;"*SRE?"
ENTER @Hp5250;A
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Command Reference
*STB?
*STB?
This query command reads the Status Byte Register (reads Master Summary Status
bit, not Request for Service Message).
For bit6, this command reads MSS, not Request for Service (RQS). Refer to “Status
Reporting Structure” on page 7-48.
Syntax
*STB?
Query response
register <newline><^END>
Parameter
Explanation
register
decimal integer value that is the sum of the binary-weighted values
for the set bits
Semantics
The following table shows the bits of the Status Byte Register, and the
binary-weighted decimal value of each bit.
binary-
weight
bit
description
0
1
not used. always 0.
not used. always 0.
not used. always 0.
not used. always 0.
1
2
3
4
5
6
7
2
4
8
16 MAV (Message Available summary-message)
32 ESB (Event Status Bit)
64 MSS (Master Summary Status)
128 not used. always 0.
Example
OUTPUT @Hp5250;"*STB?"
ENTER @Hp5250;A
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Command Reference
*TST?
*TST?
This query command executes an internal self-test, then returns the result. After this
command execution, the E5250A becomes same status as after *RST command
execution.
Syntax
*TST?
Query response
test_result <newline><^END>
test_result
Explanation
0
1
pass
fail
Example
OUTPUT @Hp5250;"*TST?"
ENTER @Hp5250;A
*WAI
This command stops execution of any commands until the Operation Complete
(OPC) bit is set to 1, which means there is no pending operation. Refer to *OPC
command.
Syntax
*WAI
Example
OUTPUT @Hp5250;"*WAI"
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Command Reference
:DIAGnostic Command Tree
:DIAGnostic Subsystem
The :DIAGnostic subsystem has commands for executing the self-test function. For
more info, see Chapter 3.
NOTE
The :DIAGnostic subsystem commands ignore the E5250A channel configuration
mode. For :DIAG commands that require a card number, you specify 1, 2, 3, 4, or
ALL.
:DIAGnostic Command Tree
Command
Parameter
:DIAGnostic
:TEST
:CARD
:CLEar
card_number | ALL
[:EXECute]?
:STATe?
card_number | ALL
card_number
:FRAMe
:CLEar
CONTroller| FPANel
CONTroller| FPANel
CONTroller| FPANel
[:EXECute]?
:STATe?
Parameter values:
card_number:
1| 2| 3| 4
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Command Reference
:DIAGnostic:TEST:CARD:CLEar
:DIAGnostic:TEST:CARD:CLEar
This command clears the relay test result (pass/fail result) of the specified card.
Syntax
:DIAGnostic:TEST:CARD:CLEar card_number
Parameter
card_number
Explanation
card number: 1, 2, 3, 4, or ALL
Example
OUTPUT @Hp5250;":DIAG:TEST:CARD:CLE 1"
:DIAGnostic:TEST:CARD[:EXECute]?
This command executes the relay test for specified card, then returns the pass/fail
result. For more info, see Chapter 3.
NOTE
You must attach the relay test adapter before executing this command.
This command changes all settings of card to same state as after executing
:SYST:CPON command.
Syntax
:DIAGnostic:TEST:CARD[:EXECute]? card_number
Parameter
card_number
Explanation
card number: 1, 2, 3, 4, or ALL
Query response
Example
test_result <newline><^END>
1: Fail card exists
0: Pass
OUTPUT @Hp5250;":DIAG:TEST:CARD? ALL"
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Command Reference
:DIAGnostic:TEST:CARD:STATe?
:DIAGnostic:TEST:CARD:STATe?
This command returns the most recent relay test result for the specified card.
Syntax
:DIAGnostic:TEST:CARD:STATe? card_number
Parameter
card_number
Explanation
card number: 1, 2, 3, 4
Query response
Example
test_result <newline><^END>
1: Fail
0: Pass
-1: Not Tested
OUTPUT @Hp5250;":DIAG:TEST:CARD:STAT? 1"
ENTER @Hp5250;A
:DIAGnostic:TEST:FRAMe:CLEar
This command clears test result of the specified E5250A test.
Syntax
:DIAGnostic:TEST:FRAMe:CLEar CONTroller | FPANel
Parameter
Explanation
CONTroller
FPANel
Controller test
Front panel interface test
Example
OUTPUT @Hp5250;":DIAG:TEST:FRAM:CLE CONT"
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Command Reference
:DIAGnostic:TEST:FRAMe[:EXECute]?
:DIAGnostic:TEST:FRAMe[:EXECute]?
This command executes the specified E5250A test, then returns the test result. For
more info, see Chapter 3.
After :DIAG:TEST:FRAM:EXEC CONTexecution, the E5250A status becomes
same as after *RST command execution.
After :DIAG:TEST:FRAM:EXEC FPANexecution, the E5250A status is not
changed.
NOTE
The :DIAG:TEST:FRAM:EXEC FPANcommand requires key input from the
front panel. If key is not pressed within 10 seconds, this test result will be fail.
Syntax
:DIAGnostic:TEST:FRAMe[:EXECute]? CONTroller | FPANel
Parameter
Explanation
CONTroller
FPANel
Controller test
Front panel interface test
Query response
Example
test_result <newline><^END>
1: Fail
0: Pass
OUTPUT @Hp5250;":DIAG:TEST:FRAM? CONT"
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Command Reference
:DIAGnostic:TEST:FRAMe:STATe?
:DIAGnostic:TEST:FRAMe:STATe?
This command returns the most recent test result (pass/fail) of the specified E5250A
test.
Syntax
:DIAGnostic:TEST:FRAMe:STATe? CONTroller | FPANel
Parameter
Explanation
CONTroller
FPANel
Controller test
Front panel interface test
Query response
Example
test_result <newline><^END>
1: Fail
0: Pass
-1: Not Tested
OUTPUT @Hp5250;":DIAG:TEST:FRAM:STAT? CONT"
ENTER @Hp5250;A
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Command Reference
:ROUTe Command Tree
:ROUTe Subsystem
The :ROUTe subsystem has commands for controlling the signal routing.
"Open a channel": opens relays to disconnect the channel (that is, disconnects input
port from output port).
"Close a channel": closes relays to connect the channel (that is, connects input port
to output port).
:ROUTe Command Tree
Command
Parameter
[:ROUTe]
:BIAS
:CHANnel
:DISAble
:CARD
card_number | ALL
[:LIST]
(@channel_list)
(@channel_list)
[:LIST]?
:ENABle
:CARD
card_number | ALL
(@channel_list)
[:LIST]
[:LIST]?
(@channel_list)
:PORT
card_number | ALL,bias_port
card_number
:PORT?
[:STATe]
[:STATe]?
card_number | ALL,state
card_number
:CLOSe
:CARD?
card_number
[:LIST]
[:LIST]?
(@channel_list)
(@channel_list)
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Command Reference
:ROUTe Command Tree
Command
Parameter
[:ROUTe]
:CONNection
:RULE
card_number | ALL,rule
:RULE?
card_number
:SEQuence
:SEQuence?
card_number | ALL,sequence
card_number
:COUPle
:PORT
card_number | ALL,'couple_port'
card_number
:PORT?
[:STATe]
[:STATe]?
card_number | ALL,state
card_number
:FUNCtion
:FUNCtion?
:OPEN
channel_config
:CARD
card_number | ALL
(@channel_list)
(@channel_list)
[:LIST]
[:LIST]?
Parameter values:
card_number:
Auto Config Mode: 0
Normal Config Mode: 1| 2| 3| 4
Refer to Chapter 5.
ON| OFF| 0| 1
channel_list:
state:
rule:
FREE| SROU
channel_config: ACON| NCON
sequence:
NSEQ| BBM| MBBR
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Command Reference
[:ROUTe]:BIAS:CHANnel:DISable:CARD
[:ROUTe]:BIAS:CHANnel:DISable:CARD
This command bias disables all output ports of the specified card.
When Bias Mode is ON, this command opens relays to disconnect the input Bias
Port from all output ports. Refer to "ROUTe:BIAS:STATe".
At *RST, all output ports are bias enabled.
Syntax
[:ROUTe]:BIAS:CHANnel:DISable:CARD card_number
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
Example
OUTPUT @Hp5250;":ROUT:BIAS:CHAN:DIS:CARD ALL"
[:ROUTe]:BIAS:CHANnel:DISable[:LIST]
This command bias disables the output ports specified by the channel_list.
When Bias Mode is ON, this command opens relays to disconnect the input Bias
Port from the output ports specified by channel_list. Refer to
"ROUTe:BIAS:STATe".
At *RST, all output ports are bias enabled.
Syntax
[:ROUTe]:BIAS:CHANnel:DISable[:LIST] (@channel_list)
Parameter
channel_list
Explanation
Channels to bias disable.
For details about channel_list, refer to Chapter 5.
The input ports specified by the channel_list are ignored. The input port is always
the input Bias Port. So, in the channel_list, only the card numbers and output ports
have meaning. But you cannot omit the input port in the channel_list.
Example
OUTPUT @Hp5250;":ROUT:BIAS:CHAN:DIS (@10301,10402)"
In above example, the input Bias Port on card 1 is disabled for output ports 1 and 2.
Specified input ports 3 and 4 are ignored because the input port is always the input
Bias Port.
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Command Reference
[:ROUTe]:BIAS:CHANnel:DISable[:LIST]?
[:ROUTe]:BIAS:CHANnel:DISable[:LIST]?
This query command returns 0or 1for each channel specified by channel_list, in
same order as specified by channel_list.
1: channel is bias disabled, 0: channel is bias enabled.
Syntax
[:ROUTe]:BIAS:CHANnel:DISable[:LIST]? (@channel_list)
Parameter
channel_list
Explanation
Channels to check.
For details about channel_list, refer to Chapter 5.
The input ports specified by the channel_list are ignored. The input port is always
the input Bias Port. So, in the channel_list, only the card numbers and output ports
have meaning. But you cannot omit the input port in the channel_list.
Query response
Example
disable_status{,disable_status} <newline><^END>
1 : disabled
0 : enabled
OUTPUT @Hp5250;":ROUT:BIAS:CHAN:ENAB:CARD ALL"
OUTPUT @Hp5250;":ROUT:BIAS:CHAN:DIS (@10101)"
OUTPUT @Hp5250;":ROUT:BIAS:CHAN:DIS? (@10101,10102,10201)"
ENTER @Hp5250;A$
In above example, A$will be as follows:
1,0,1
10101and 10201have the same meaning because the specified input port is
ignored.
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Command Reference
[:ROUTe]:BIAS:CHANnel:ENABle:CARD
[:ROUTe]:BIAS:CHANnel:ENABle:CARD
This command bias enables all output ports of the specified card.
When Bias Mode is ON, this command closes relays to connect the input Bias Port
to all output ports that are not already connected (by :ROUT:CLOS command) to
other input ports.
Refer to "ROUTe:BIAS:STATe".
At *RST, all output ports are bias enabled.
Syntax
[:ROUTe]:BIAS:CHANnel:ENABle:CARD card_number
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
Example
OUTPUT @Hp5250;":ROUT:BIAS:CHAN:ENAB:CARD ALL"
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Command Reference
[:ROUTe]:BIAS:CHANnel:ENABle[:LIST]
[:ROUTe]:BIAS:CHANnel:ENABle[:LIST]
This command bias enables the output ports specified by channel_list.
When Bias Mode is ON, this command closes relays to connect the input Bias Port
to the output ports specified by channel_list.
Refer to "ROUTe:BIAS:STATe". Output ports that are already connected to another
input port cannot be connected to the input Bias Port.
At *RST, all output ports are bias enabled.
Syntax
[:ROUTe]:BIAS:CHANnel:ENABle[:LIST] (@channel_list)
Parameter
channel_list
Explanation
Channels to bias enable.
For details about channel_list, refer to Chapter 5.
The input ports specified by the channel_list are ignored. The input port is always
the input Bias Port. So, in the channel_list, only the card numbers and output ports
have meaning. But you cannot omit the input port in the channel_list.
Example
OUTPUT @Hp5250;":ROUT:BIAS:CHAN:ENAB (@10401,10502)"
In above example, the input Bias Port on card 1 is enabled for output ports 1 and 2.
Specified input ports 4 and 5 are ignored because input port is always the input Bias
Port.
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Command Reference
[:ROUTe]:BIAS:CHANnel:ENABle[:LIST]?
[:ROUTe]:BIAS:CHANnel:ENABle[:LIST]?
This query command returns 0or 1for each channel specified by channel_list, in
same order as specified by channel_list.
0: channel is bias disabled, 1: channel is bias enabled.
Syntax
[:ROUTe]:BIAS:CHANnel:ENABle[:LIST]? (@channel_list)
Parameter
channel_list
Explanation
Channels to check.
For details about channel_list, refer to Chapter 5.
The input ports specified by the channel_list are ignored. The input port is always
the input Bias Port. So, in the channel_list, only the card numbers and output ports
have meaning. But you cannot omit the input port in the channel_list.
Query response
Example
enable_status{,enable_status} <newline><^END>
1: enabled
0: disabled
OUTPUT @Hp5250;":ROUT:BIAS:CHAN:DIS:CARD ALL"
OUTPUT @Hp5250;":ROUT:BIAS:CHAN:ENAB (@10101)"
OUTPUT @Hp5250;":ROUT:BIAS:CHAN:ENAB? (@10101,10102,10201)"
ENTER @Hp5250;A$
In above example, A$will be as follows:
1,0,1
10101and 10201have the same meaning because the specified input port is
ignored.
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Command Reference
[:ROUTe]:BIAS:PORT
[:ROUTe]:BIAS:PORT
NOTE
This command applies only to the E5252A card.
For the E5255A card, the input Bias Port cannot be selected, and is always the
built-in Bias Port.
The Bias Port and Couple Port cannot be set to same port number.
This command selects which input port is the Bias Port on the specified card. For
each card, you can specify the same or different Bias Port. For details, refer to "Bias
Mode" in Chapter 5.
At *RST, Bias Port is set to 10 for the E5252A.
Syntax
[:ROUTe]:BIAS:PORT card_number,bias_port
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
bias_port
Input port number: 1to 10.
Example
OUTPUT @Hp5250;":ROUT:BIAS:PORT ALL,6"
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Command Reference
[:ROUTe]:BIAS:PORT?
[:ROUTe]:BIAS:PORT?
NOTE
This command applies only to the E5252A card.
For the E5255A card, the input Bias Port cannot be selected, and is always the
built-in Bias Port.
This query command returns the input Bias Port number for the specified card.
Syntax
[:ROUTe]:BIAS:PORT? card_number
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, or 4
Query response
Example
port_number <newline><^END>
port_number = 1 to 10
OUTPUT @Hp5250;":ROUT:BIAS:PORT ALL,4"
OUTPUT @Hp5250;":ROUT:BIAS:PORT? 1"
ENTER @Hp5250;A
For above example, Awill be as follows:
4
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Command Reference
[:ROUTe]:BIAS[:STATe]
[:ROUTe]:BIAS[:STATe]
This command controls the Bias Mode for the specified card. For details, refer to
"Bias Mode" in Chapter 5.
When Bias Mode is ON, the input Bias Port is connected to all bias enabled output
ports that are not connected to any other input ports. To bias enable the desired
output ports, refer to :ROUT:BIAS:CHAN:ENAB:CARDor
:ROUT:BIAS:CHAN:ENAB:LIST.
To select the input Bias Port, refer to :ROUT:BIAS:PORT.
When Bias Mode is ON, you cannot directly specify Bias Port connections by
:ROUT:OPENor :ROUT:CLOSE. Refer to those commands for details.
Bias disabled output ports are never connected to the input Bias Port when Bias
Mode is ON.
When Bias Mode is OFF, the input Bias Port is the same as the other input ports, so
relays can be controlled directly to connect to output ports.
At *RST, the value of this parameter is OFF.
Syntax
[:ROUTe]:BIAS[:STATe] card_number,state
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
state
ONor 1: turn ON the Bias Mode
OFFor 0: turn OFF the Bias Mode
Example
OUTPUT @Hp5250;":ROUT:BIAS:STAT ALL,ON"
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Command Reference
[:ROUTe]:BIAS[:STATe]?
[:ROUTe]:BIAS[:STATe]?
This query command returns the Bias Mode of the specified card.
Syntax
[:ROUTe]:BIAS[:STATe]? card_number
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, or 4
Query response
Example
0 or 1 <newline><^END>
0: Bias Mode is OFF
1: Bias Mode is ON
OUTPUT @Hp5250;":ROUT:BIAS:STAT ALL,ON"
OUTPUT @Hp5250;":ROUT:BIAS:STAT? 4"
ENTER @Hp5250;A
In above example, Awill be 1.
[:ROUTe]:CLOSe:CARD?
This query command returns channel_list of all closed (connected) channels for the
specified card.
Syntax
[:ROUTe]:CLOSe:CARD? card_number
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, or 4
Query response
Example
channel_list <newline><^END>
OUTPUT @Hp5250;":ROUT:OPEN:CARD ALL"
OUTPUT @Hp5250;":ROUT:CLOS (@10101,10202)"
OUTPUT @Hp5250;":ROUT:CLOS:CARD? 1"
ENTER @Hp5250;A$
A$will be @10101,10202. For the meaning of channel_list, refer to Chapter 5.
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Command Reference
[:ROUTe]:CLOSe[:LIST]
[:ROUTe]:CLOSe[:LIST]
This command connects the input ports to the output ports as specified in
channel_list.
For some modes (such as Single Route Mode, Couple Port Mode, and Bias Mode),
more complex connections may occur. For details, refer to Chapter 5.
For example, if Bias Mode is ON, you cannot directly specify the input Bias port.
But if channel_list specifies an output port that is connected to the input Bias Port,
the output port is automatically disconnected from the Bias Port and connected to
specified input port. Refer to ":ROUTe:BIAS:STATe".
Syntax
[:ROUTe]:CLOSe[:LIST] (@channel_list)
Parameter
channel_list
Explanation
Channels to close.
For details about channel_list, refer to Chapter 5.
Example
OUTPUT @Hp5250;":ROUT:CLOS (@10101,10202)"
[:ROUTe]:CLOSe[:LIST]?
This query command returns 0or 1for each channel specified by channel_list, in
same order as specified by channel_list.
0: channel is opened (not connected), 1: channel is closed (connected).
[:ROUTe]:CLOSe[:LIST]? (@channel_list)
Syntax
Parameter
channel_list
Explanation
Channels to check.
For details about channel_list, refer to Chapter 5.
Query response
Example
close_status{,close_status} <newline><^END>
1: closed, or 0: opened
OUTPUT @Hp5250;":ROUT:CLOS (@10101,10202)"
OUTPUT @Hp5250;":ROUT:CLOS? (@10101,10102,10201,10202)"
ENTER @Hp5250;A$
In above example, A$will be 1,0,0,1.
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Command Reference
[:ROUTe]:CONNection:RULE
[:ROUTe]:CONNection:RULE
This command sets the connection rule (Free or Single Route) for the specified card.
For details, refer to "Connection Rule" in Chapter 5.
At *RST, all cards are set to FREE.
Syntax
[:ROUTe]:CONNection:RULE card_number,rule
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
rule
FREE: free route
SROUte: single route
Example
Syntax
OUTPUT @Hp5250;":ROUT:CONN:RULE ALL,SROU"
[:ROUTe]:CONNection:RULE?
This query command returns the connection rule of the specified card. For details,
refer to "Connection Rule" in Chapter 5.
[:ROUTe]:CONNection:RULE? card_number
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, or 4
Query response
Example
FREE or SROU <newline><^END>
OUTPUT @Hp5250;":ROUT:CONN:RULE ALL,SROU"
OUTPUT @Hp5250;":ROUT:CONN:RULE? 1"
ENTER @Hp5250;A$
In above example, A$will be SROU.
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Command Reference
[:ROUTe]:CONNection:SEQuence
[:ROUTe]:CONNection:SEQuence
This command specifies the connection sequence mode, which is the open/close
sequence of the relays when connection route is changed from an existing
connection to a new connection. For details, refer to "Connection Sequence" in
Chapter 5.
The connection sequence is used only for cards that have been set to SROUte
connection rule. Refer to "ROUTe:CONNection:RULE".
At *RST, BBMake is selected.
Syntax
[:ROUTe]:CONNection:SEQuence card_number,sequence
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
sequence
NSEQ: No-Sequence mode
BBM: Break-Before-Make mode
MBBR: Make-Before-Break mode
Example
OUTPUT @Hp5250;":ROUT:CONN:SEQ ALL,MBBR"
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Command Reference
[:ROUTe]:CONNection:SEQuence?
[:ROUTe]:CONNection:SEQuence?
This query command returns the connection sequence mode of the specified card.
For details, refer to "Connection Sequence" in Chapter 5.
Syntax
[:ROUTe]:CONNection:SEQuence? card_number
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, or 4
Query response
Example
NSEQ or BBM or MBBR <newline><^END>
OUTPUT @Hp5250;":ROUT:CONN:SEQ ALL,MBBR"
OUTPUT @Hp5250;":ROUT:CONN:SEQ? 0"
ENTER @Hp5250;A$
In above example, A$will be as follows:
MBBR
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Command Reference
[:ROUTe]:COUPle:PORT
[:ROUTe]:COUPle:PORT
NOTE
This command applies only to the E5252A card.
The Couple Port function is not available for the E5255A card.
The Bias Port and Couple Port cannot be set to same port number.
This command is used to set up couple ports, which are used for making Kelvin
connections. For details, refer to "Couple Ports" in Chapter 5.
Each specified input port number will be coupled with the next input port and two
output ports. The two output ports are determined by the :ROUT:CLOScommand,
and the lower output port number is always odd. See example below.
To turn Couple Port Mode ON/OFF, refer to :ROUT:COUP:STAT.
For each card, you can set up the same or different couple ports.
This command overwrites the previous couple port setting for the card.
At *RST, no input ports are coupled.
Syntax
[:ROUTe]:COUPle:PORT card_number,'couple_port'
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
couple_port
One or more input port numbers: 1, 3, 5, 7, or 9.
Enclose by single quotation marks. Separate multiple
input port numbers by comma. For example: '1,5'
Example
OUTPUT @Hp5250;":ROUT:COUP:PORT ALL,'1'"
OUTPUT @Hp5250;":ROUT:CLOS (@10103)"
This example connects input port 1 to output port 3, and connects input port 2 to
output port 4.
The lower output port of the couple port is always the odd number port, even if you
specify an even output port in the :ROUT:CLOS command. For example, if you
used :ROUT:CLOS (@10104), the connections would be the same as above.
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Command Reference
[:ROUTe]:COUPle:PORT?
[:ROUTe]:COUPle:PORT?
NOTE
This command applies only to the E5252A card.
This query command returns the lower input port number of each coupled pair. For
details, refer to "Couple Ports" in Chapter 5.
Syntax
[:ROUTe]:COUPle:PORT? card_number
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, or 4
Query response
Example
port_number{,port_number} <newline><^END>
port_number = 1or 3or 5or 7or 9
OUTPUT @Hp5250;":ROUT:COUP:PORT ALL,'1,3'"
OUTPUT @Hp5250;":ROUT:COUP:PORT? 1"
ENTER @Hp5250;A$
In above example, A$will be as follows:
1,3
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Command Reference
[:ROUTe]:COUPle[:STATe]
[:ROUTe]:COUPle[:STATe]
NOTE
This command applies only to the E5252A card.
The Couple Port function is not available for the E5255A card.
This command controls the Couple Port Mode for the specified card. For details,
refer to "Couple Ports" in Chapter 5.
To set up the couple ports, refer to :ROUT:COUP:PORT.
At *RST, the value of this parameter is OFF.
Syntax
[:ROUTe]:COUPle[:STATe] card_number,state
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
state
ONor 1: turn ON the Couple Port Mode
OFFor 0: turn OFF the Couple Port Mode
Example
OUTPUT @Hp5250;":ROUT:COUP:STAT ALL,ON"
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Command Reference
[:ROUTe]:COUPle[:STATe]?
[:ROUTe]:COUPle[:STATe]?
NOTE
This command applies only to the E5252A card.
The Couple Port function is not available for the E5255A card.
This query command returns the Couple Port Mode of the specified card. For
details, refer to "Couple Ports" in Chapter 5.
Syntax
[:ROUTe]:COUPle[:STATe]? card_number
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, or 4
Query response
Example
0 or 1 <newline><^END>
0 : Couple Port Mode is OFF
1 : Couple Port Mode is ON.
OUTPUT @Hp5250;":ROUT:COUP:STAT ALL,ON"
OUTPUT @Hp5250;":ROUT:COUP:STAT? 2"
ENTER @Hp5250;A
For above example, Awill be as follows:
1
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Command Reference
[:ROUTe]:FUNCtion
[:ROUTe]:FUNCtion
This command sets the channel configuration, which determines how you specify
the channel_list or card_number in other commands. For details, refer to "Channel
List and Channel Configuration" in Chapter 5.
When configuration is changed by :ROUT:FUNC, all channels are opened
(disconnected) and become same status as after SYSTem:CPON ALL command
execution.
At *RST, this parameter is set to NCONfig.
[:ROUTe]:FUNCtion channel_config
Syntax
Parameter
Explanation
channel_config
ACONfig: Auto Config Mode
NCONfig: Normal Config Mode
Example
OUTPUT @Hp5250;":ROUT:FUNC ACON"
[:ROUTe]:FUNCtion?
This query command returns the present channel configuration.
For details, refer to "Channel List and Channel Configuration" in Chapter 5.
Syntax
[:ROUTe]:FUNCtion?
Query response
Example
ACON or NCON <newline><^END>
OUTPUT @Hp5250;":ROUT:FUNC ACON"
OUTPUT @Hp5250;":ROUT:FUNC?"
ENTER @Hp5250;A$
In above example, A$will be as follows:
ACON
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Command Reference
[:ROUTe]:OPEN:CARD
[:ROUTe]:OPEN:CARD
This command disconnects all input ports from all output ports for the specified
card. Then, if Bias Mode is ON, connects the input Bias Port to all bias enabled
output ports.
For details about the Bias Mode, refer to ":ROUTe:BIAS:STATe" in this chapter and
refer to Chapter 5.
Syntax
[:ROUTe]:OPEN:CARD card_number
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
Example
OUTPUT @Hp5250;":ROUT:OPEN:CARD ALL"
[:ROUTe]:OPEN[:LIST]
This command disconnects the input ports from output ports as specified in
channel_list.
For some modes (such as Single Route Mode, Couple Port Mode, and Bias Mode),
more complex disconnections may occur. For details, refer to Chapter 5.
For example, if Bias Mode is ON, you cannot directly specify the input Bias port.
But if you use :ROUT:OPENto disconnect a bias enabled output port from another
input port, the output port is automatically connected to the input Bias Port.
Syntax
[:ROUTe]:OPEN[:LIST] (@channel_list)
Parameter
channel_list
Explanation
Channels to open (disconnect).
For details about channel_list, refer to Chapter 5.
Example
OUTPUT @Hp5250;":ROUT:OPEN (@10101,10202)"
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Command Reference
[:ROUTe]:OPEN[:LIST]?
[:ROUTe]:OPEN[:LIST]?
This query command returns 0or 1for each channel specified by channel_list, in
same order as specified by channel_list.
0: channel is closed (connected), 1: channel is opened (not connected).
[:ROUTe]:OPEN[:LIST]? (@channel_list)
Syntax
Parameter
channel_list
Explanation
Channels to check. For details about channel_list,
refer to Chapter 5.
Query response
Example
open_status{,open_status} <newline><^END>
1: opened
0: closed
OUTPUT @Hp5250;":ROUT:OPEN:CARD ALL"
OUTPUT @Hp5250;":ROUT:CLOS (@10101,10202)"
OUTPUT @Hp5250;":ROUT:OPEN? (@10101,10102,10201,10202)"
ENTER @Hp5250;A$
In above example, A$will be as follows:
0,1,1,0
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Command Reference
:SYSTem Command Tree
:SYSTem Subsystem
The :SYSTem subsystem is a collection of functions that are not related to
instrument performance.
:SYSTem Command Tree
Command
Parameter
:SYSTem
:CCONfig?
:CDEScription?
:CPON
card_number
card_number
card_number | ALL
card_number
:CTYPe?
:ERRor?
:VERSion?
Parameter values:
card_number:
Auto Config Mode: 0
Normal Config Mode: 1| 2| 3| 4
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Command Reference
:SYSTem:CCONfig?
:SYSTem:CCONfig?
This query command returns the card configuration information. This command has
query form only.
Syntax
:SYSTem:CCONfig? card_number
Parameter
card_number
card_configuration <newline><^END>
Explanation
card number: 1, 2, 3, or 4
Query response
For the E5252A: no response. Always returns #10.
For the E5255A: definite length block response data, #16ABCDEF, where each
letter is 8-bit binary data as follows:
A: indicates input port (1to 6) that is connected to block 1.
B: indicates if resistance is set for block 1 Bias Port: 1: resistance set, 0: not set
C: indicates input port (1to 6) that is connected to block 2.
D: indicates if resistance is set for block 2 Bias Port: 1: resistance set, 0: not set
E: indicates input port (1to 6) that is connected to block 3.
F: indicates if resistance is set for block 3 Bias Port: 1: resistance set, 0: not set
Example
OUTPUT @Hp5250;":SYST:CCON? 1"
ENTER @Hp5250;A$
ENTER A$ USING "3X,6A";B$
FOR I=1 TO 6
C=NUM(B$[I;1])
PRINT "BYTE No. ";I;"= ";C
NEXT I
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Command Reference
:SYSTem:CDEScription?
:SYSTem:CDEScription?
This query command returns a description of the specified card.
This command has query form only.
Syntax
:SYSTem:CDEScription? card_number
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, or 4
Query response
NOTE
"card_description" <newline><^END>
If designated card is not installed or initialize failed, this command returns
"No Card".
•
For E5252A in Auto Config mode, "card_description"response is one of
following:
• "E5252A 10x12 Matrix Switch"
• "E5252A 10x24 Matrix Switch"
• "E5252A 10x36 Matrix Switch"
• "E5252A 10x48 Matrix Switch"
For E5252A in Normal Config mode:
•
•
"E5252A 10x12 Matrix Switch"
For E5255A in Auto Config mode:
"E5255A I1,I2,I3,I4,I5,I6 Channel Multiplexer"
Where In is the number (two characters) of output ports for each input port n.
For example:
"E5255A 24,24, 0,16,16,16 Channel Multiplexer"
For E5255A in Normal Config mode:
•
"E5255A 24 (8x3) Channel Multiplexer"
Example
OUTPUT @Hp5250;":SYST:CDES? 1"
ENTER @Hp5250;A$
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Command Reference
:SYSTem:CPON
:SYSTem:CPON
This command resets the specified card to the power-on state. If the parameter is
ALL, all addressable cards are reset to the power-on state. Status after this command
is shown below:
Channel Configuration: No Change
Connection Rule:
Connection Sequence:
Bias Mode:
Free
Break Before Make
Off
Bias Port:
•
•
E5252A : 10
E5255A : None
Bias Enabled Channels: All channels (output ports) are bias enabled
Couple Port Mode:
Couple Port:
Off
No Couple Ports
Card Channel Status:
Self-Test Result:
All relays open in present channel configuration mode
No Change
For the device reset state, see *RST.
:SYSTem:CPON card_number
Parameter
Syntax
Explanation
card_number
card number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
Example
OUTPUT @Hp5250;":SYST:CPON ALL"
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Command Reference
:SYSTem:CTYPe?
:SYSTem:CTYPe?
This query command returns the ID of the specified card.
This command has query form only.
Syntax
:SYSTem:CTYPe? card_number
Parameter
card_number
Explanation
card number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, or 4
Query response
HEWLETT-PACKARD,model,0,revision <newline><^END>
model = E5252Aor E5255A
revision = A.01.00or later version
NOTE
If designated card is not installed or initialize failed, this command returns
NONE,NONE,0,0
Example
OUTPUT @Hp5250;":SYST:CTYPE? 1"
ENTER @Hp5250;A$
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Command Reference
:SYSTem:ERRor?
:SYSTem:ERRor?
This command reads the error from the head of the error queue and removes that
error from the queue.
This command has query form only.
Syntax
:SYSTem:ERRor?
Query response
err_no,"message" <newline><^END>
err_no is numeric response data, and message is string response data.
If there has been no error (error queue is empty), the response to this query is as
follows:
0,"No error"
Example
OUTPUT @Hp5250;":SYST:ERR?"
ENTER @Hp5250;A,B$
:SYSTem:VERSion?
This command returns the SCPI version number for which the E5250A complies.
This command has query form only.
Syntax
:SYSTem:VERSion?
Query response
YYYY.V <newline><^END>
YYYY is the year (for example, 1995).
V is the approved revision number for that year.
Example
OUTPUT @Hp5250;":SYST:VERS?"
ENTER @Hp5250;A$
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Command Reference
Status Reporting Structure
Status Reporting Structure
This section describes the status reporting structure used in the E5250A. These are
IEEE 488.2 status structures that can be set and read by the SCPI Common
Commands as described in “Common Commands” on page 7-4.
Status Reporting Structure
The status reporting structure consists of the following:
•
•
•
•
•
Status Byte Register
Service Request "Enable" Register
Standard Event Status Register
Standard Event Status "Enable" Register
Output Queue
In general, the status reporting structure is used to request service via Service
Request (SRQ) or to indicate a specific condition, such as operation complete.
Refer to the following figures for a model of the E5250A status reporting structure.
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Command Reference
Status Reporting Structure
Figure 7-1
Status Reporting Structure of E5250A
The above figure shows Service Request Generation. When a condition occurs that
requires service, the instrument sets Request Service bit (RQS − bit6) of Status
Byte, and sends a Service Request (SRQ) via GPIB bus to the controller. So, the
controller can execute an interrupt service routine (must be in the program) that uses
a Serial Poll to read Status Byte of each instrument to determine which instrument
requested service. See “Status Byte Register” on page 7-50.
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Command Reference
Status Byte Register
Status Byte Register
The E5250A Status Byte Register contains bits (ESB and MAV) for status summary
messages from other registers. The status of these bits depends on the condition of
the Standard Event Status Register and the Output Queue. If service request occurs,
Bit6 (RQS) of Status Byte Register is set.
Refer to Figure 7-2 and Table 7-1 for the E5250A Status Byte Register.
Figure 7-2
Status Byte Register of E5250A
The Status Byte Register can be read with either a serial poll or the *STB? common
query command (refer to “Common Commands” on page 7-4).
Serial poll is a low-level GPIB command that can be executed by SPOLLin HP
BASIC, such as the following:
Status=SPOLL(@Hp5250)
Both serial poll and STB? read the Status Byte Register identically, but have
following difference:
• SPOLLreturns RQS for bit6
•
*STB? returns MSS for bit6
RQS and MSS are always the same value, so returned Status Byte value is always
the same for these two methods.
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Command Reference
Status Byte Register
In general, use serial polling (not *STB?) inside interrupt service routines. Use
*STB? in other cases (not in interrupt service routine) when you want to know the
value of Status Byte.
Table 7-1
Status Byte Register of E5250A
Bit
Definition
Not Used.
Explanation
0
Always zero.
Always zero.
Always zero.
Always zero.
1
2
3
4
Not Used.
Not Used.
Not Used.
Message Available
Indicates whether Output Queue is empty. If
(MAV) Queue Summary unread message exists, this bit is set to 1.
Message
Otherwise, this bit is set to 0. Refer to
“Output Queue” on page 7-55.
5
6
Standard Event Status
Bit (ESB) Summary
Message
Indicates whether one or more of the enabled
Standard Events Status Register bits is set.
Request Service (RQS)
Message
Indicates whether a SRQ (Service Request)
has occurred. Read by Serial Poll.
Master Summary Status
(MSS) Summary
Message
Indicates that the instrument has at least one
reason for requesting service. Read by
*STB?.
7
Not Used.
Always zero.
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Command Reference
Service Request Enable Register
Service Request Enable Register
The Service Request Enable Register is an 8-bit register that can be used by the
programmer to select which summary messages in the Status Byte Register may
cause service requests. Refer to Figure 7-3.
Figure 7-3
Service Request Enable Register of E5250A
7-52
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Command Reference
Standard Event Status Register
Standard Event Status Register
The Standard Event Status Register has specific events assigned to specific bits.
Refer to Figure 7-4 and Table 7-2.
Figure 7-4
Standard Event Status Register of E5250A
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Command Reference
Standard Event Status Enable Register
Table 7-2
Standard Event Status Register of E5250A
Bit
Definition
Explanation
0
Operation Complete
(OPC)
This event bit has meaning only if a request
to monitor is set by the *OPC command.
Refer to “*OPC” on page 7-9. This bit is set
to 1if there are no pending operations.
1
2
Not Used
Always 0.
Query Error (QYE)
•
An attempt is being made to read data
from the Output Queue when no data is
present or pending.
•
Data in the Output Queue has been lost.
3
4
5
Device Dependent
Error (DDE)
This event bit indicates that an error has
occurred which is not a Command Error, a
Query Error, or an Execution Error.
Execution Error (EXE) Syntax of command is correct, but cannot be
executed due to some condition of the
E5250A.
Command Error
(CME)
A command syntax error has been detected.
6
7
Not Used
Always 0.
Power On (PON)
This event bit indicates that an off-to-on
transition has occurred in instrument's
power supply.
8 to 15 Not used
Always 0.
Standard Event Status Enable Register
The Standard Event Status "Enable" Register is an 8-bit register that can be used by
the programmer to select which bits of Standard Event Status Register are enabled.
The status of the enabled bits are ORed together, and result of OR will be reported to
the ESB bit (Bit5) of the Status Byte Register.
The 8 bits of this register correspond to the 8 bits of the Standard Event Status
Register. Refer to Figure 7-4.
7-54
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Command Reference
Output Queue
Output Queue
The Output Queue stores response messages until they are read. If an unread
message exists, Bit4 (Message Available − MAV) of the Status Byte Register is set
to 1. So, Bit4 is used to synchronize information exchange with the controller. Refer
to Figure 7-5.
Figure 7-5
Output Queue of E5250A
The Response Formatter places Data Byte Messages and END messages into the
Output Queue in response to query commands. These messages are removed from
the Output Queue as they are read by the controller. As long as the Output Queue
contains an unread message, MAV is 1.
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Command Reference
Output Queue
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VXI plug&play Driver
and consists of the following sections:
•
•
•
“System Requirements”
“Installing VXIplug&play Driver”
“Driver Functions”
8-2
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System Requirements
System Requirements
The following system environments are required.
•
Operating System
Microsoft Windows XP Professional, Windows 2000, Windows NT 4.0,
Windows 98, or Windows 95. It must be supported by the application
development environment and VISA I/O library.
•
Application Development Environment (or programming environment)
Microsoft Visual Basic, Microsoft Visual C++, Borland C++Builder, National
Instruments LabWindows or LabVIEW, or Agilent VEE. It must be supported
by the VISA I/O library.
•
•
GPIB (IEEE 488) Interface and 32-bit VISA I/O Library
Agilent GPIB interface with Agilent IO Libraries or equivalent.
Computer and peripherals
Required specifications depend on the application development environment.
See manual of the application development environment. The flexible disk drive
is required to install the VXIplug&play driver. The CD-ROM drive is required
to install the software needed to use driver.
•
Minimum disk space
2 MB for 4155/4156 driver
1 MB for E5250A driver
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VXI plug&play Driver
Installing VXIplug&play Driver
Installing VXIplug&play Driver
The installation flow is shown below. If you have already installed the GPIB
interface card, VISA I/O library, and programming software on your PC, skip steps
1 through 4.
1. Install the GPIB interface card into your PC.
See the interface card manual. Note the model number of the interface card, as
you may need it to configure the interface (in step 3).
2. Install VISA I/O library.
Follow the instructions in the I/O library’s setup program.
3. Configure and check the GPIB interface.
See the I/O library manual.
4. Install the programming software.
Follow the setup program instructions.
5. Install the VXIplug&play driver as shown below.
a. Insert the E5250A Plug&Play Driver Disk into the flexible disk drive
connected to your PC.
b. Execute the SETUP.EXE program stored on the diskette. The program
automatically installs the following files in \Vxipnp\Winnt\Hpe5250a or
\Vxipnp\Win95\Hpe5250a depending on the OS.
•
•
•
•
•
•
•
•
•
hpe5250a.bas
hpe5250a.c
hpe5250a.def
hpe5250a.fp
hpe5250a.GID
hpe5250a.h
hpe5250a.hlp
readme.txt
DelsL1.isu
8-4
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VXI plug&play Driver
Driver Functions
Driver Functions
Table 8-1 lists all the functions for the E5250A. You will see a brief description of
the functions in the table.
For the description, syntax and parameters of the function, refer to the reference
section following this table. The driver functions in the reference section will appear
in the alphabetical order.
Table 8-1
Category
E5250A Driver Function Lists
Function
hpe5250a_init
Description
Initializes the E5250A.
Miscellaneous
hpe5250a_close
Closes the connection with the E5250A.
Executes the E5250A reset.
hpe5250a_reset
hpe5250a_self_test
Executes the E5250A self-test.
Queries for the E5250A error code/message.
Queries for the driver error.
hpe5250a_error_query
hpe5250a_error_message
hpe5250a_revision_query
hpe5250a_timeOut
Queries for the E5250A firmware/driver revisions.
Sets the timeout.
hpe5250a_timeOut_Q
hpe5250a_errorQueryDetect
Queries for the timeout setting.
Sets the automatic error checking.
hpe5250a_errorQueryDetect_Q Queries for the automatic error checking setting.
hpe5250a_dcl
Sends the Device Clear.
hpe5250a_esr_Q
Queries for the ESR status.
hpe5250a_readStatusByte_Q
hpe5250a_opc_Q
Reads the E5250A status byte.
Checks the E5250A operation completion status.
Sets the configuration mode.
Sets the connection rule/sequence.
Selects the input bias port.
Mode Control
Bias Mode
hpe5250a_func
hpe5250a_connRuleSeq
hpe5250a_biasPort
hpe5250_biasChanCard
hpe5250_biasChanList
hpe5250a_biasState
hpe5250a_biasChanList_Q
hpe5250a_couplePort
hpe5250a_coupleState
Selects the card for bias mode.
Selects the channel list for bias mode.
Sets the bias port state.
Queries for the bias channel list.
Selects the couple port.
Couple Port
Sets the couple port state.
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Driver Functions
Category
Function
Description
Closes the channel list.
Route Control
hpe5250a_closeList
hpe5250a_openList
Opens the channel list.
hpe5250a_openCard
Opens all output on the card.
Queries for the channel list status.
hpe5250a_closeList_Q
hpe5250a_openList_Q
hpe5250a_closeCard_Q
hpe5250a_CompenC
hpe5250a_selectCompenFile
hpe5250a_testExec_Q
hpe5250a_testClear
Queries for the closed channel list on the card.
Executes the C/G compensation.
C/G
Compensation
Selects the compensation data file.
Diagnostics
Executes the relay/front-panel/controller test.
Clears the test result.
Passthrough
Functions
hpe5250a_cmd
Sends a command.
hpe5250a_cmdInt
Sends a command with an integer parameter.
Sends a command with a real parameter.
Sends a command to read any data.
hpe5250a_cmdReal
hpe5250a_cmdData_Q
hpe5250a_cmdString_Q
hpe5250a_cmdInt16_Q
hpe5250a_cmdInt16Arr_Q
hpe5250a_cmdInt32_Q
hpe5250a_cmdInt32Arr_Q
hpe5250a_cmdReal64_Q
hpe5250a_cmdReal64Arr_Q
Sends a command to read string response.
Sends a command to read 16 bit integer response.
Sends a command to read 16 bit integer array response.
Sends a command to read 32 bit integer response.
Sends a command to read 32 bit integer array response.
Sends a command to read 64 bit real response.
Sends a command to read 64 bit real array response.
8-6
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Driver Functions
hpe5250a_biasChanCard
This function will enable or disable bias on all the output ports of the specified card.
Syntax
ViStatus _VI_FUNC hpe5250a_biasChanCard(ViSession vi,
ViInt16 disable_enable, ViInt16 bias_cardno);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Bias status.
disable_enable
0 : sets bias enabled card.
1 : sets bias disabled card.
bias_cardno
Card number. 1 (card 1), 2 (card 2), 3 (card 3), 4 (card 4), or 5
(all card) in the normal configuration mode, or 0 (all card in the
automatic configuration mode). For the configuration mode, see
hpe5250a_func.
hpe5250a_biasChanList
This function will enable or disable bias on all the output ports specified by the
biaschan_list.
The parameter ’biaschan_list’ is an array of integers with each integer representing
one channel. The last number of the ’biaschan_list’ should be "0" (numeric zero) to
identify the end of the list. The maximum number of channels that can be specified
by the list is 100.
Syntax
ViStatus _VI_FUNC hpe5250a_biasChanList(ViSession vi,
ViInt16 biaschan_disen, ViInt32 _VI_FAR biaschan_list[ ] );
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Bias status.
biaschan_disen
0 : sets bias enabled port.
1 : sets bias disabled port.
biaschan_list[ ]
Channel numbers. 5 digits integer. ABCDE. where A: card
number, BC: input port number, DE: output port number.
Top zero(s) can be ignored. For example, if A=0, BC=01, and
DE=01, channel number should be 101 instead of 00101.
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Driver Functions
hpe5250a_biasChanList_Q
This function will query the instrument for the bias status for the channels given in
the list.
The parameter ’biaschan_list’ is an array of integers with each integer representing
one channel. The last number of the ’biaschan_list’ should be "0" (numeric zero) to
identify the end of the list. The maximum number of channels that can be specified
by the list is 100.
The ’bias_status’ parameter is an array of integers containing the return values of
the query. The ’bias_status’ array returned will correspond one to one with
’biaschan_list’ parameter.
Syntax
ViStatus _VI_FUNC hpe5250a_biasChanList_Q(ViSession vi, ViInt16 bias_disen,
ViInt32 _VI_FAR biaschan_list[ ], ViInt32 _VI_FAR bias_status[ ] );
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Bias status for the query.
bias_disen
0 : confirms if the port is the bias enabled.
1 : confirms if the port is the bias disabled.
biaschan_list[ ]
bias_status[ ]
Channel numbers to know the bias status. 5 digits integer.
ABCDE. where A: card number, BC: input port number, DE:
output port number. Top zero(s) can be ignored. For example, if
A=0, BC=01, and DE=01, channel number should be 101
instead of 00101.
Bias status of the channels given in the biaschan_list. Returned
value depends on the setting of bias_disen as shown below:
when bias_disen=0, 0 means bias disabled, 1 means enabled.
when bias_disen=1, 0 means bias enabled, 1 means disabled.
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Driver Functions
hpe5250a_biasPort
This function will select which input port is the bias port on the specified card. For
each card, you can specify the same or different Bias Port. This function applies
only to the E5252A card.
Syntax
ViStatus _VI_FUNC hpe5250a_biasPort(ViSession vi, ViInt16 biasport_cardno,
ViInt16 bias_port);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
biasport_cardno Card number. 1 (card 1), 2 (card 2), 3 (card 3), 4 (card 4), or 5
(all card) in the normal configuration mode, or 0 (all card in the
automatic configuration mode). For the configuration mode, see
hpe5250a_func.
bias_port
Input port number to be set to the bias port. 1 to 10 (input port 1
to input port 10).
hpe5250a_biasState
This function controls the bias mode for the specified card. When Bias Mode is ON,
the input Bias Port is connected to all bias enabled output ports that are not
connected to any other input ports. Bias disabled output ports are never connected to
the input Bias Port when Bias Mode is ON.
Syntax
ViStatus _VI_FUNC hpe5250a_biasState(ViSession vi, ViInt16 biasstate_cardno,
ViInt16 state);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
biasstate_cardno Card number. 1 (card 1), 2 (card 2), 3 (card 3), 4 (card 4), or 5
(all card) in the normal configuration mode, or 0 (all card in the
automatic configuration mode). For the configuration mode, see
hpe5250a_func.
state
Bias mode. 0 (OFF) or 1 (ON).
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VXI plug&play Driver
Driver Functions
hpe5250a_close
This function terminates the software connection to the instrument and deallocates
system resources. It is generally a good programming habit to close the instrument
handle when the program is done using the instrument.
Syntax
ViStatus _VI_FUNC hpe5250a_close(ViSession vi);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
hpe5250a_closeCard_Q
This function will query the card for the channels closed of the specified card.
The parameter ’closechan_list’ contains the channel numbers returned by the
instrument. This will be an array of integers terminated by ’zero’ to identify the end
of the list. Array of enough length should be passed to the function.
Syntax
ViStatus _VI_FUNC hpe5250a_closeCard_Q(ViSession vi, ViInt16 close_card,
ViInt32 _VI_FAR closechan_list[ ] );
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
close_card
Card number. 1 (card 1), 2 (card 2), 3 (card 3), or 4 (card 4) in
the normal configuration mode, or 0 (all card in the automatic
configuration mode). For the configuration mode, see
hpe5250a_func.
closechan_list[ ] Channels closed of the specified card.
8-10
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Driver Functions
hpe5250a_closeList
This function will connect the input ports to the output ports specified by the
channel list.
The parameter ’closechan_list’ is an array of integers with each integer representing
one channel. The last number of the ’closechan_list’ should be "0" (numeric zero)
to identify the end of the list. The maximum number of channels that can be
specified by the list is 100.
Syntax
ViStatus _VI_FUNC hpe5250a_closeList(ViSession vi,
ViInt32_VI_FAR closechan_list[ ] );
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
closechan_list[ ] Channel numbers to connect. 5 digits integer. ABCDE. where
A: card number, BC: input port number, DE: output port
number. Top zero(s) can be ignored. For example, if A=0,
BC=01, and DE=01, channel number should be 101 instead of
00101.
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Driver Functions
hpe5250a_closeList_Q
This function will query the instrument for the channels closed given in the
’closechan_list’.
The parameter ’closechan_list’ is an array of integers with each integer representing
one channel. The last number of the ’closechan_list’ should be "0" (numeric zero)
to identify the end of the list. The maximum number of channels that can be
specified by the list is 100.
The ’close_status’ parameter is an array of integers containing the return values of
the query. The ’close_status’ array returned will correspond one to one with
’closechan_list’ parameter.
Syntax
ViStatus _VI_FUNC hpe5250a_closeList_Q(ViSession vi,
ViInt32_VI_FAR closechan_list[ ], ViInt32 _VI_FAR close_status[ ] );
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
closechan_list[ ] Channel numbers to know the close status. 5 digits integer.
ABCDE. where A: card number, BC: input port number, DE:
output port number. Top zero(s) can be ignored. For example, if
A=0, BC=01, and DE=01, channel number should be 101
instead of 00101.
close_status[ ]
Status of the channels given in the closechan_list.
0 (opened) or 1 (closed).
hpe5250a_cmd
This function passes the cmd_str string to the instrument. Must be a NULL
terminated C string.
Syntax
ViStatus _VI_FUNC hpe5250a_cmd(ViSession vi, ViString cmd_str);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
cmd_str
Instrument command (cannot exceed 256 bytes in length).
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Driver Functions
hpe5250a_cmdData_Q
This function passes the cmd_str string to the instrument. This entry point will wait
for a response which may be any data. You specify the cmd_str and size parameters,
and get result[ ].
Syntax
ViStatus _VI_FUNC hpe5250a_cmdData_Q(ViSession vi, ViString cmd_str,
ViInt32 size, ViChar _VI_FAR result[ ] );
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Instrument command (cannot exceed 256 bytes in length).
Length of result in bytes. 2 to 32767.
cmd_str
size
result[ ]
Response from instrument.
hpe5250a_cmdInt
This function passes the cmd_str string to the instrument. This entry point passes
the string in cmd_str followed by a space and then the integer in value. Note that
either an Int16 or 32 can be passed as the Int16 will be promoted.
Syntax
ViStatus _VI_FUNC hpe5250a_cmdInt(ViSession vi, ViString cmd_str,
ViInt32 value);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Instrument command (cannot exceed 256 bytes in length).
Parameter for command. -2147483647 to 2147483647.
cmd_str
value
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Driver Functions
hpe5250a_cmdInt16Arr_Q
This function passes the cmd_str string to the instrument. This command expects a
response that is a definite arbitrary block of 16 bit integers. You specify the cmd_str
and size parameters, and get result[ ] and count.
Syntax
ViStatus _VI_FUNC hpe5250a_cmdInt16Arr_Q(ViSession vi, ViString cmd_str,
ViInt32 size, ViInt16 _VI_FAR result[ ], ViPInt32 count);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
cmd_str
size
Instrument command (cannot exceed 256 bytes in length).
Size of result[ ] (number of items in the array).
1 to 2147483647.
result[ ]
count
Response from instrument.
Count of valid items in result[ ].
hpe5250a_cmdInt16_Q
This function passes the cmd_str string to the instrument. This command expects a
response that can be returned as a 16 bit integer.
Syntax
ViStatus _VI_FUNC hpe5250a_cmdInt16_Q(ViSession vi, ViString cmd_str,
ViPInt16 result);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Instrument command (cannot exceed 256 bytes in length).
Response from instrument.
cmd_str
result
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Driver Functions
hpe5250a_cmdInt32Arr_Q
This function passes the cmd_str string to the instrument. This command expects a
response that is a definite arbitrary block of 32 bit integers. You specify the cmd_str
and size parameters, and get result[ ] and count.
Syntax
ViStatus _VI_FUNC hpe5250a_cmdInt32Arr_Q(ViSession vi, ViString cmd_str,
ViInt32 size, ViInt32 _VI_FAR result[ ], ViPInt32 count);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
cmd_str
size
Instrument command (cannot exceed 256 bytes in length).
Size of result[ ] (number of items in the array).
1 to 2147483647.
result[ ]
count
Response from instrument.
Count of valid items in result[ ].
hpe5250a_cmdInt32_Q
This function passes the cmd_str string to the instrument. This command expects a
response that can be returned as a 32 bit integer.
Syntax
ViStatus _VI_FUNC hpe5250a_cmdInt32_Q(ViSession vi, ViString cmd_str,
ViPInt32 result);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Instrument command (cannot exceed 256 bytes in length).
Response from instrument.
cmd_str
result
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Driver Functions
hpe5250a_cmdReal
This function passes the cmd_str string to the instrument. This entry point passes
the string in cmd_str followed by a space and then the real in value. Note that either
an Real32 or 64 can be passed as the Real32 will be promoted.
Syntax
ViStatus _VI_FUNC hpe5250a_cmdReal(ViSession vi, ViString cmd_str,
ViReal64 value);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Instrument command (cannot exceed 256 bytes in length).
Parameter for command. -1E+300 to 1E+300.
cmd_str
value
hpe5250a_cmdReal64Arr_Q
This function passes the cmd_str string to the instrument. This command expects a
response that is a definite arbitrary block of 64 bit reals. You specify the cmd_str
and size parameters, and get result[ ] and count.
Syntax
ViStatus _VI_FUNC hpe5250a_cmdReal64Arr_Q(ViSession vi, ViString cmd_str,
ViInt32 size, ViReal64 _VI_FAR result[ ], ViPInt32 count);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
cmd_str
size
Instrument command (cannot exceed 256 bytes in length).
Size of result[ ] (number of items in the array).
1 to 2147483647.
result[ ]
count
Response from instrument.
Count of valid items in result[ ].
8-16
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Driver Functions
hpe5250a_cmdReal64_Q
This function passes the cmd_str string to the instrument. This command expects a
response that can be returned as a 64 bit real.
Syntax
ViStatus _VI_FUNC hpe5250a_cmdReal64_Q(ViSession vi, ViString cmd_str,
ViPReal64 result);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Instrument command (cannot exceed 256 bytes in length).
Response from instrument.
cmd_str
result
hpe5250a_cmdString_Q
This function passes the cmd_str string to the instrument. This entry point will wait
for a response which must be a string (character data). You specify the cmd_str and
size parameters, and get result[ ].
Syntax
ViStatus _VI_FUNC hpe5250a_cmdString_Q(ViSession vi, ViString cmd_str,
ViInt32 size, ViChar _VI_FAR result[ ] );
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Instrument command (cannot exceed 256 bytes in length).
Length of result in bytes. 2 to 32767.
cmd_str
size
result[ ]
Response from instrument.
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Driver Functions
hpe5250a_compenC
This function compensates capacitance/conductance data measured by using Agi-
lent 4284A C meter, and returns compensation results. If you change the compensa-
tion data, create the compensation data file, and specify the data file using
hpe5250a_selectCompenFile function before executing this function.
Syntax
ViStatus _VI_FUNC hpe5250a_compenC(ViSession vi,ViReal64 frequency,
ViReal64 len_hptrx, ViReal64 len_usrtrx_h, ViReal64 len_usrtrx_l,
ViReal64 len_usrcoax_h, ViReal64 len_usrcoax_l, ViReal64 raw_c,
ViReal64 raw_g, ViPReal64 compen_c, ViPReal64 compen_g);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Measurement frequency. 1E3 to 1E6 Hz.
frequency
len_hptrx
len_usrtrx_h
Agilent 16494A triaxial cable. 1.5 or 3.0 m.
Triaxial cable length (in m) between connector plate and DUT
high terminal. If you do not use triaxial cable, enter 0 (zero).
len_usrtrx_l
Triaxial cable length (in m) between connector plate and DUT
low terminal. If you do not use triaxial cable, enter 0 (zero).
len_usrcoax_h
len_usrcoax_l
Coaxial cable length (in m) between connector plate and DUT
high terminal. If you do not use coaxial cable, enter 0 (zero).
Coaxial cable length (in m) between connector plate and DUT
low terminal. If you do not use coaxial cable, enter 0 (zero).
raw_c
Capacitance value (in F) measured by the 4284A.
Conductance value (in S) measured by the 4284A.
Capacitance compensation result (in F).
raw_g
compen_c
compen_g
Conductance compensation result (in S).
8-18
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Driver Functions
hpe5250a_connRuleSeq
The function sets connection rule and connection sequence for the specified card.
Syntax
ViStatus _VI_FUNC hpe5250a_connRuleSeq(ViSession vi,
ViInt16 cardno_ruleseq, ViInt16 rule, ViInt16 sequence);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
cardno_ruleseq
Card number. 1 (card 1), 2 (card 2), 3 (card 3), 4 (card 4), or 5
(all card) in the normal configuration mode, or 0 (all card in the
automatic configuration mode). For the configuration mode, see
hpe5250a_func.
rule
Connection rule. 0 (free route) or 1 (single route).
Connection sequence. 0, 1, or 2. See below.
0 (no sequence)
sequence
1 (break before make)
2 (make before break)
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Driver Functions
hpe5250a_couplePort
This function sets the couple ports which are used for making kelvin connections on
the specified card. The specified input port number will be coupled with the next
input port and two output ports. For each card, you may setup the same or different
couple ports. This command overwrites the previous couple port setting for the card.
This command applies only to the E5252A card.
The couple port mode is controlled by the hpe5250a_coupleState function.
Syntax
ViStatus _VI_FUNC hpe5250a_couplePort(ViSession vi,
ViInt16 coupleport_cardno, ViInt16 port1, ViInt16 port3, ViInt16 port5,
ViInt16 port7, ViInt16 port9);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
coupleport_cardn
o
Card number. 1 (card 1), 2 (card 2), 3 (card 3), 4 (card 4), or 5
(all card) in the normal configuration mode, or 0 (all card in the
automatic configuration mode). For the configuration mode, see
hpe5250a_func.
port1
port3
port5
port7
port9
Couple port by the input ports 1 and 2.
0 (disable) or 1 (enable).
Couple port by the input ports 3 and 4.
0 (disable) or 1 (enable).
Couple port by the input ports 5 and 6.
0 (disable) or 1 (enable).
Couple port by the input ports 7 and 8.
0 (disable) or 1 (enable).
Couple port by the input ports 9 and 10.
0 (disable) or 1 (enable).
8-20
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Driver Functions
hpe5250a_coupleState
This function controls the couple port mode for the specified card. This function
applies only to the E5252A card.
Syntax
ViStatus _VI_FUNC hpe5250a_coupleState(ViSession vi,
ViInt16 couplestate_cardno, ViInt16 couple_state);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
couplestate_cardn
o
Card number. 1 (card 1), 2 (card 2), 3 (card 3), 4 (card 4), or 5
(all card) in the normal configuration mode, or 0 (all card in the
automatic configuration mode). For the configuration mode, see
hpe5250a_func.
couple_state
Couple port mode. 0 (OFF) or 1 (ON).
hpe5250a_dcl
This function sends a device clear (DCL) to the instrument.
A device clear will abort the present operation and enable the instrument to accept a
new command or query.
This is particularly useful in situations where it is not possible to determine the
instrument state. In this case, it is customary to send a device clear before issuing a
new instrument driver function. The device clear ensures that the instrument will be
able to begin processing the new commands.
Syntax
ViStatus _VI_FUNC hpe5250a_dcl(ViSession vi);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
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Driver Functions
hpe5250a_error_message
This function translates the error return value from an instrument driver function to
a readable string.
Syntax
ViStatus _VI_FUNC hpe5250a_error_message(ViSession vi, ViStatus
error_number, ViChar _VI_FAR message[ ] );
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Error return value from the driver function.
error_number
message[ ]
Error message string. This is limited to 256 characters.
hpe5250a_error_query
This function returns the error numbers and corresponding error messages in the
error queue of a instrument. See Chapter 11 for a listing of the instrument error
numbers and messages.
Instrument errors may occur when you places the instrument in a bad state such as
sending an invalid sequence of coupled commands. Instrument errors can be
detected by polling. Automatic polling can be accomplished by using the
hpe5250a_errorQueryDetect function.
Syntax
ViStatus _VI_FUNC hpe5250a_error_query(ViSession vi, ViPInt32 error_number,
ViChar _VI_FAR error_message[ ] );
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Instrument’s error code.
error_number
error_message[ ] Instrument’s error message. This is limited to 256 characters.
8-22
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Driver Functions
hpe5250a_errorQueryDetect
This function enables or disables automatic instrument error checking.
If automatic error checking is enabled then the driver will query the instrument for
an error at the end of each function call.
Syntax
ViStatus _VI_FUNC hpe5250a_errorQueryDetect(ViSession vi,
ViBoolean errorQueryDetect);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
errorQueryDetect Error checking enable (VI_TRUE) or disable (VI_FALSE).
hpe5250a_errorQueryDetect_Q
This function indicates if automatic instrument error detection is enabled or
disabled.
Syntax
ViStatus _VI_FUNC hpe5250a_errorQueryDetect_Q(ViSession vi,
ViPBoolean pErrDetect);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
pErrDetect
Error checking enable (VI_TRUE) or disable (VI_FALSE).
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Driver Functions
hpe5250a_esr_Q
This function returns the contents of the ESR register. The driver returns the
equivalent messages (see Parameters).
Syntax
ViStatus _VI_FUNC hpe5250a_esr_Q(ViSession vi, ViChar _VI_FAR errstr[ ] );
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Response from instrument.
errstr[ ]
Bit Value
Message
1
“ESR_OPC”
2
“ESR_RQL”
4
“ESR_QYE_ERROR”
“ESR_DEVICE_DEPENDENT_ERROR”
“ESR_EXECUTION_ERROR”
“ESR_COMMAND_ERROR”
“ESR_URQ”
8
16
32
64
128
OTHERS
“ESR_PON”
“ESR_MULTI_EVENT”
hpe5250a_func
This function is used to set the channel configuration to the auto configuration mode
or the normal configuration mode.
Syntax
ViStatus _VI_FUNC hpe5250a_func(ViSession vi, ViInt16 channel_config);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Configuration mode. 0 (auto) or 1 (normal).
channel_config
8-24
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Driver Functions
hpe5250a_init
This function initializes the software connection to the instrument and optionally
verifies that instrument is in the system. In addition, it may perform any necessary
actions to place the instrument in its reset state.
If the hpe5250a_init function encounters an error, then the value of the vi output
parameter will be VI_NULL.
Syntax
ViStatus _VI_FUNC hpe5250a_init(ViRsrc InstrDesc, ViBoolean id_query,
ViBoolean do_reset, ViPSession vi);
Parameters
InstrDesc
id_query
Instrument description. Examples; GPIB0::1::INSTR.
VI_TRUE (to perform In-System Verification), or
VI_FALSE (do not perform In-System Verification).
do_reset
vi
VI_TRUE (to perform reset operation), or
VI_FALSE (do not perform reset operation).
Instrument handle. This is VI_NULL if an error occurred
during the init.
hpe5250a_opc_Q
This function does the *OPC? common command.
Syntax
ViStatus _VI_FUNC hpe5250a_opc_Q(ViSession vi, ViPBoolean result);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
result
VI_TRUE (Operation complete), or
VI_FALSE (Operation is pending).
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Driver Functions
hpe5250a_openCard
This function will disconnect all input ports from all output ports for the specified
card. Then if bias mode is ON, connects the input bias port to all bias enabled output
ports.
Syntax
ViStatus _VI_FUNC hpe5250a_openCard(ViSession vi, ViInt16 open_cardno);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
open_cardno
Card number. 1 (card 1), 2 (card 2), 3 (card 3), 4 (card 4), or 5
(all card) in the normal configuration mode, or 0 (all card in the
automatic configuration mode). For the configuration mode, see
hpe5250a_func.
hpe5250a_openList
This function will disconnect the input ports from the output ports specified by the
channel list.
The parameter ’openchan_list’ is an array of integers with each integer representing
one channel. The last number of the ’openchan_list’ should be "0" (numeric zero)
to identify the end of the list. The maximum number of channels that can be
specified by the list is 100.
Syntax
ViStatus _VI_FUNC hpe5250a_openList(ViSession vi,
ViInt32_VI_FAR openchan_list[ ] );
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
openchan_list[ ] Channel numbers to disconnect. 5 digits integer. ABCDE.
where A: card number, BC: input port number, DE: output port
number. Top zero(s) can be ignored. For example, if A=0,
BC=01, and DE=01, channel number should be 101 instead of
00101.
8-26
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Driver Functions
hpe5250a_openList_Q
This function will query the instrument for the channels open given in the
’openchan_list’.
The parameter ’openchan_list’ is an array of integers with each integer representing
one channel. The last number of the ’openchan_list’ should be "0" (numeric zero)
to identify the end of the list. The maximum number of channels that can be
specified by the list is 100.
The ’open_status’ parameter is an array of integers containing the return values of
the query. The ’open_status’ array returned will correspond one to one with
’openchan_list’ parameter.
Syntax
ViStatus _VI_FUNC hpe5250a_openList_Q(ViSession vi,
ViInt32_VI_FAR openchan_list[ ], ViInt32 _VI_FAR open_status[ ] );
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
openchan_list[ ] Channel numbers to know the open status. 5 digits integer.
ABCDE. where A: card number, BC: input port number, DE:
output port number. Top zero(s) can be ignored. For example, if
A=0, BC=01, and DE=01, channel number should be 101
instead of 00101.
open_status[ ]
Status of the channels given in the openchan_list.
1 (opened) or 0 (closed).
hpe5250a_readStatusByte_Q
This function returns the contents of the status byte register.
Syntax
ViStatus _VI_FUNC hpe5250a_readStatusByte_Q(ViSession vi,
ViPInt16 statusByte);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
statusByte
The contents of the status byte are returned in this parameter.
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Driver Functions
hpe5250a_reset
This function places the instrument in a default state. Before issuing this function, it
may be necessary to send a device clear to ensure that the instrument can execute a
reset. A device clear can be issued by invoking hpe5250a_dcl function.
Syntax
ViStatus _VI_FUNC hpe5250a_reset(ViSession vi);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
hpe5250a_revision_query
This function returns the driver revision and the instrument firmware revision.
Syntax
ViStatus _VI_FUNC hpe5250a_revision_query(ViSession vi,
ViChar_VI_FAR driver_rev[ ] , ViChar _VI_FAR instr_rev[ ] );
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
driver_rev[ ]
instr_rev[ ]
Instrument driver revision. This is limited to 256 characters.
Instrument firmware revision. This is limited to 256 characters.
8-28
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Driver Functions
hpe5250a_selectCompenFile
This function specifies capacitance/conductance compensation data file used to
compensate C/G by using hpe5250a_compenC.
Syntax
ViStatus _VI_FUNC hpe5250a_selectCompenFile(ViSession vi,
ViString file_name);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
file_name
Compensation data file name. Use absolute path. If the value is
NULL string, the default data is used.
Remarks
If you change the compensation data, copy the default data shown below, and
modify the data for your measurement cable. You will need to change the data for
DATA05 and 06, and/or DATA07 and 08 corresponding to your cables. To measure
and change the compensation data, refer to Chapter 6. To get the R, L, and C value,
measure R, L, and C of the cable using the 4284A, and divide them by cable length
(in m). Compensation data must be the value for 1 m length. Do not change the data
format in the file.
# E5250A C Compensation coefficient data table
#
#
#
#
CAUTION : Do not add or delete "REVISION" line and "DATAxx" line.
Change the value for R,L,C of DATA05,06,07 or 08.
REVISION
#
A.03.00
R [ohm]
L [H]
C [F]
DATA00
DATA01
DATA02
DATA03
DATA04
DATA05
DATA06
DATA07
DATA08
DATA09
# END of Data
74.65E-3
75.41E-3
231.41E-3
177.56E-3
100.70E-3
100.70E-3
100.70E-3
114.00E-3
114.00E-3
0.00E-3
140.00E-9
90.00E-9
450.00E-9
390.00E-9
400.00E-9
400.00E-9
400.00E-9
544.00E-9
544.00E-9
0.00E-9
58.44E-12
67.13E-12
178.85E-12
135.45E-12
80.00E-12
80.00E-12
80.00E-12
130.00E-12
130.00E-12
1.20E-12
# Frame Path 1
# Frame Path 2
# Card Path High
# Card Path Low
# Triax Cable
# User Triax Cbl H [/m]
# User Triax Cbl L [/m]
# User Coax Cbl H [/m]
# User Coax Cbl L [/m]
# Stray Capacitance
[/m]
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Driver Functions
hpe5250a_self_test
This function causes the instrument to perform a self-test and returns the result of
that self-test. This is used to verify that an instrument is operating properly. A failure
may indicate a potential hardware problem.
Syntax
ViStatus _VI_FUNC hpe5250a_self_test(ViSession vi, ViPInt16 test_result,
ViChar_VI_FAR test_message[ ] );
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
Numeric result from self-test operation. 0: No error.
Self-test status message. This is limited to 256 characters.
test_result
test_message[ ]
hpe5250a_testClear
This function clears the test result for the specified relay card or the front panel or
the controller.
Syntax
ViStatus _VI_FUNC hpe5250a_testClear(ViSession vi, ViInt16 framecard_clear);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
framecard_clear Test result to be cleared. 0, 1, 2, 3, 4, 5, 6, or 7. See below.
0 (test result of all test)
1 (card 1 relay test result)
2 (card 2 relay test result)
3 (card 3 relay test result)
4 (card 4 relay test result)
5 (relay test result of all card)
6 (front panel test result)
7 (controller test result)
8-30
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hpe5250a_testExec_Q
This function executes the controller test, the front panel test, or the relay test for the
specified card. You must attach the relay test adapter before executing the relay test.
The Front Panel test requires the key to be pressed within 10 seconds else the test
will fail.
Syntax
ViStatus _VI_FUNC hpe5250a_testExec_Q(ViSession vi, ViInt16 framecard_exec,
ViPInt16 exec_result);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
framecard_exec Test to be executed. 1 (card 1 relay test) to 4 (card 4 relay test),
5 (relay test for all card), 6 (front panel test), or 7 (controller
test).
exec_result
Test result. 0: No error.
hpe5250a_timeOut
This function sets a minimum timeout value for driver I/O transactions in
milliseconds. The default timeout period is 2 seconds.
Syntax
ViStatus_VI_FUNC hpe5250a_timeOut(ViSession vi, ViInt32 timeOut);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
timeOut
I/O timeout value for all functions in the driver. in milliseconds.
0 to 2147483647.
hpe5250a_timeOut_Q
This function returns the timeout value for driver I/O transactions in milliseconds.
Syntax
ViStatus_VI_FUNC hpe5250a_timeOut_Q(ViSession vi, ViPInt32 pTimeOut);
Parameters
vi
Instrument handle returned from hpe5250a_init( ).
pTimeOut
Minimum timeout period that the driver can be set to, in
milliseconds.
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Executing Sample Programs
This chapter explains how to use the following sample programs:
•
•
“Vth and Capacitance Measurement Program”
“HCI Measurement Program”
The sample programs are saved in the E5250A Program Disk (LIF formatted,
3.5-inch diskette) that is furnished with Agilent E5250A. This disk includes the
setup files for controlling Agilent 4155/4156 Semiconductor Parameter Analyzer
used in the program with Agilent E5250A.
NOTE
The sample programs are HP BASIC language programs, so you need an HP BASIC
workstation to execute the programs.
The Vth and Capacitance Measurement Program uses the Agilent 4155/4156,
Agilent 4284A Precision LCR Meter, and the E5250A with the E5252A card.
The HCI Measurement Program uses the 4155/4156, Bias Sources, and the E5250A
with the E5255A cards.
CAUTION
NOTE
These are sample programs, so you may need to modify these programs and the
4155/4156 setup files for your application before executing the programs.
If the sample programs damage your device, Agilent Technologies is NOT LIABLE
for the damage.
To Keep Original Program Disk
Copy the E5250A Program Disk, and keep the original disk for your backup. Also,
for storing a program after you modify it, use a file name that is different from the
original program name.
9-2
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Executing Sample Programs
Vth and Capacitance Measurement Program
•
•
•
•
“Introduction”
“Setting up the Measurement Environment”
“Executing the Program”
“Modifying the Program”
Introduction
This program measures the parameters of the devices shown in Table 9-1 by using
the Agilent 4155/4156 Semiconductor Parameter Analyzer, the Agilent 4284A
Precision LCR Meter, and the Agilent E5250A with the E5252A card.
The program flow is shown in Table 9-2. In this program, the 4155/4156 is set up by
loading the 4155/4156 setup file E5252.MES, which is saved on the E5250A
Program Disk. So, the program disk must be in the 4155/4156's disk drive when you
execute the program.
Table 9-1
Devices and Parameters Measured
No. of
Devices
Measured
Measurement
Parameter
Instrument
Used
Device
N-channel MOSFET
Capacitor
1
1
Threshold Voltage (Vth)
Capacitance
4155/4156
4284A
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Executing Sample Programs
Vth and Capacitance Measurement Program
Table 9-2
Vth and Capacitance Measurement Flow
Step
Description
1
Initializes the Instruments:
1. Resets the 4155/4156.
2. Resets the 4284A.
3. Resets and initializes the E5250A.
Configuration Mode: NORMAL
Bias Mode: OFF
Connection Rule: Single
Connection Sequence: BBM
2
Measures Vth of MOSFET:
1. Loads the 4155/4156 setup file for Vth measurement. And sets up the
4155/4156 measurement conditions.
2. Creates connection channels in the E5250A for Vth measurement.
3. Measures Vth of MOSFET.
4. Disconnects the connection channels in the E5250A.
5. Judges pass or fail.
6. Displays result and measurement data on computer's screen.
7. Resets instrument.
3
Measures Capacitance:
1. Sets up the 4284A measurement conditions.
2. Creates connection channels in the E5250A for C measurement.
3. Measures capacitance.
4. Disconnects the connection channels in the E5250A.
5. Compensates the measurement data.
6. Judges pass or fail.
7. Displays result and measurement data on computer's screen.
8. Resets instrument.
4
Resets all instruments.
9-4
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Executing Sample Programs
Vth and Capacitance Measurement Program
Vth Measurement Setup
Measurement setup of the E5250A and 4155/4156 for this program is as follows:
•
E5250A/E5252A Setup:
Slot No
Channels
1
2
3
4
10101, 10202, 10303, and 10404
not used.
not used.
not used.
•
4155/4156 Setup:
Below is summary of measurement setup saved in E5252.MESfile. For details
of the setup data, GET the E5252.MESfile using the 4155/4156 and refer to
the setup displayed on the 4155/4156 screen.
Channel/Source Setup:
SMU
SMU1
SMU2
SMU3
SMU4
VNAME
Vd
I NAME
MODE
FUNCTION
CONST
VAR1
Source Setup
5V
Id
Ig
V
Vg
V
COMMON
V
0 to 5V, 50mV step
Common
Vs
Is
CONST
CONST
Vsb
Isb
0V
User Function Setup:
NAME
UNIT
DEFINITION
SQRTId
GRAD
VTH
SQRT(Id)
DIFF(SQRTId,Vg)
@L1X
V
BETA
@L1G^2
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Executing Sample Programs
Vth and Capacitance Measurement Program
Display Setup:
Xaxis
Y1axis
Y2axis
NAME
SCALE
MIN
Vg
LINEAR
0 V
SQRTId
LINEAR
0
GRAD
LINEAR
0
MAX
5 V
200 m
80 m
Also the DATA VARIAVLES fields set VTH and BETA.
Auto Analysis Setup:
*LINE1: [ TANGENT ] line on [ Y1 ] at a point where
[ GRAD ] = [ MAX(GRAD)
]
-----------------------------------------------------------
*LINE2: [
]
-----------------------------------------------------------
*MARKER: At a point where
[ GRAD ] = [ MAX(GRAD)
]
[
]
---------------------
*Interpolate: [OFF]
Capacitance Measurement Setup
Measurement setup of the E5250A and 4284A for this program is as follows:
•
E5250A/E5252A Setup:
Slot No
Channels
10905 and 11006
1
2
3
4
not used.
not used.
not used.
•
4284A Setup:
Measurement Frequency
Signal Level
100 kHz
0.03 V
Cp-G
Measurement Function
9-6
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Executing Sample Programs
Vth and Capacitance Measurement Program
Setting up the Measurement Environment
Before executing the program, you need to set up the measurement environment.
Table 9-3 lists the required equipment.
Connect the E5250A output to Device Under Test (DUT). For details, refer to
“Setting up Measurement Environment” on page 4-1.
And connect all equipment as shown in Figure 9-1 and Table 9-4. The E5252A must
be installed in slot1 of the E5250A.
Table 9-3
Required Equipments
Agilent Model/Part No.
Description
Qty.
E5250A
Low Leakage Switch Mainframe
10×12 Matrix Switch
Semiconductor Parameter Analyzer
Triaxial Cable (80 cm)
Triaxial Cable (1.5 m or 3 m)
Connector Plate
1
1
1
4
6
1
1
1
2
3
E5252A
4155/4156
16494A-003
16494A-001 or -002
16495F
4284A with 4284A-006
16048D/E
Precision LCR Meter
Test Lead
1250-2405
BNC T-type Adapter
GPIB Cable
10833A/B/C
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Executing Sample Programs
Vth and Capacitance Measurement Program
Figure 9-1
Vth and C Measurement Setup and DUT Connection
Table 9-4
Instrument and DUT Connection
Instrument
E5250A
Input Port
DUT Terminal (via
Connector Plate)
Measurement
ModelNo.
Output Port
Port
4155/4156
SMU 1
SMU 2
SMU 3
SMU 4
Hp, Hc
Lp, Lc
SMU INPUT 1
SMU INPUT 2
SMU INPUT 3
SMU INPUT 4
AUX INPUT CV1
AUX INPUT CV2
OUTPUT 1
OUTPUT 2
OUTPUT 3
OUTPUT 4
OUTPUT 5
OUTPUT 6
MOSFET Drain
MOSFET Gate
MOSFET Source
MOSFET Substrate
Capacitance (H)
Capacitance (L)
4284A
9-8
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Executing Sample Programs
Vth and Capacitance Measurement Program
Executing the Program
Before executing the program, do the following:
1. Set the GPIB address for each instrument as follows:
•
•
•
4155/4156: 717
4284A: 724
E5250A: 722
2. Turn on all instruments and the computer.
3. Boot up HP BASIC operating system.
4. Set the 4155/4156 to "NOT SYSTEM CONTROLLER" on the SYSTEM:
MISCELLANEOUS page.
5. Insert the program disk into the disk drive that is connected to the computer.
6. Specify the mass storage device where the program disk is inserted by using the
MSI statement.
For example, if the device is ":CS80,702,1", enter the following command:
MSI ":CS80,702,1"
7. GET the Vth and C measurement program (SP_MAT), and RE-STORE the
program. In following example, the file is stored as program file P_MAT.
GET "SP_MAT"
RE-STORE "P_MAT"
program. In following example, the file is stored as program file C_COM.
GET "C_COMPEN"
RE-STORE "C_COM"
For details of Capacitance Compensation Routine, refer to “Using the
Capacitance Compensation Routine” on page 6-28.
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Executing Sample Programs
Vth and Capacitance Measurement Program
Execute the program as follows:
1. LOAD the Vth and C measurement program as following example.
LOAD "P_MAT"
2. Link the Capacitance Compensation Routine by using the LOADSUB ALL
statement as in following example.
LOADSUB ALL FROM "C_COM"
3. Eject the E5250A Program Disk from the disk drive connected to the computer.
E5252.MESis stored on the disk and is used to set up 4155/4156 for the Vth
measurement.
5. RUN the program.
6. After the measurement, measurement results are displayed on the computer as
shown in example in Figure 9-2.
Figure 9-2
Example of Vth and C Measurement Results
Comment
Test Time : 30 Sep 1995 10:29:27
# P/F Min. Meas.
: Vth & C Meas. Sample Program
Max.
Comment
1 P 10.000E-002 18.255E-001 20.000E-001 MOSFET Vth Measurement
2 F 8.000E-12
2.164E-11
2.000E-11
Capacitance Measurement
9-10
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Executing Sample Programs
Vth and Capacitance Measurement Program
Modifying the Program
•
•
•
•
•
•
•
•
“To save the 4155/4156 measurement data”
“To change the Vth measurement setup”
“To change the capacitance measurement setup”
“To use the VFP data upload library”
To change the GPIB Address
You can EDIT the program to change the following parameters in the
Init_settingsubprogram.
Parameter
Description
GPIB select code
Default
Hpib_sc
Ad415x
Ad4284
Ad5250
7
GPIB address for the 4155/4156
GPIB address for the 4284A
17
24
22
To change the header of the measurement result report
You can EDIT to change the following parameters in the Init_setting
subprogram. This is for header of report displayed on the computer. For the display
example, refer to Figure 9-2.
Parameter
Description
Default
Usercomm$
Test_num
Header comment (title) of the report. "Vth C Meas. Sample Program"
Initial number for numbering the test
item. If value is 0, the first test item
will be number 1.
0
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Executing Sample Programs
Vth and Capacitance Measurement Program
To output the measurement report to printer
You can EDIT to change the following parameters in the Init_setting
subprogram. Printer must be connected to computer by using GPIB cable. The
report as shown in example in Figure 9-2 will be printed automatically.
Parameter
Description
Default
Ad_prn
GPIB address for printer
1
0
Prn_enab
Enable/disables print out function.
(1: Enable, 0: Disable)
To execute the 4155/4156 calibration
Remove the exclamation marks from program lines shown below, and enter the
lines. These lines are in Init_instrumentsubprogram. The calibration will be
done automatically before measurement.
! CALL Cal415x
! DISP "Agilent 4155/4156 Calibration Completed"
To save the 4155/4156 measurement data
To save the Vth measurement data to a diskette in the 4155/4156's disk drive,
remove the exclamation marks from the program lines shown below, and enter the
lines. These lines are in the "Save Measurement Data" block of the Meas_vth
subprogram.
! OUTPUT @Hp415x;":MMEM:STOR:TRAC DEF,'VTH.DAT','DISK'"
! OUTPUT @Hp415x;"*OPC?"
! ENTER @Hp415x;A
The measurement data will be saved to the VTH.DATfile after the measurement. If
desired, you can use another file name instead of VTH.DAT.
9-12
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Executing Sample Programs
Vth and Capacitance Measurement Program
To change the Vth measurement setup
You can EDIT the program to change the following parameters in the "Constant
Definition" block of the Meas_vthsubprogram.
Parameter
Description
Default
Test_comm$ Comment for the measurement. "MOSFET Vth Measurement"
Param_file$
Vth_max
Vth_min
4155/4156 setup file to use.
The maximum Vth limit in V.
The minimum Vth limit in V.
E5250A channel_list to use.
"E5252.MES"
2.0
0.1
Channel$
"(@10101,10202,10303,10404)"
To change the E5250A input port/output port connections, change the Channel$
parameter. And if you want to change the E5250A connection functions (Channel
Configuration mode, etc.), modify the Set5250initsubprogram.
To change the 4155/4156 measurement setup, change the Param_file$
parameter to the name of your desired setup file.
To change the name of parameter Vthentered from the 4155/4156, change VTHand
Vthto the desired name on the 3 lines shown below. Where VTHis the parameter
defined by the E5252.MES setup file.
• Meas_vthsubprogram, "Measurement" block:
OUTPUT @Hp415x;":TRAC? 'VTH'"
ENTER @Hp415x;Vth
• Meas_vthsubprogram, "Test measurement data" block:
IF Vth<Vth_min OR Vth>Vth_max THEN
• Meas_vthsubprogram, "Reset Instrument" block:
OUTPUT Out_str$ USING Img1;Test_num,Result$,Vth_min,V
th,Vth_max,Test_comm$
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Executing Sample Programs
Vth and Capacitance Measurement Program
To change the capacitance measurement setup
You can EDIT the program to change the following parameters in the "Constant
Definition" block of the Meas_csubprogram.
Parameter
Description
Default
Test_comm$
Comment for the measurement.
"Capacitance
Measurement"
Capa_max
Capa_min
Sig_volt
The maximum capacitance limit in F.
The minimum capacitance limit in F.
Signal level for C measurement in V.
Frequency for C measurement in Hz.
Length (in meters) of 16048D/E cable.
2.0E-11
8.0E-12
0.03
Meas_freq
Cable_len
Clen_hptriax
1.0E+5
1
Length (in meters) of 16494A cable
connected from E5252A output to
connector plate.
1.5
Clen_usrtriax_h Length (in meters) of triaxial cable
connected from connector plate to
0
DUT (Highterminal of capacitor).
Clen_usrtriax_l
Length (in meters) of triaxial cable
connected from connector plate to
DUT (Lowterminal of capacitor).
0
Clen_usrcoax_h Length (in meters) of coaxial cable
connected from connector plate to
1.0
DUT (Highterminal of capacitor).
Clen_usrcoax_l
Channel$
Length (in meters) of coaxial cable
connected from connector plate to
DUT (Lowterminal of capacitor).
1.0
E5250A channel_list to use.
"(@10905,11006)"
To change the E5250A input port/output port connections, change the Channel$
parameter. And if you want to change the E5250A connection functions (Channel
Configuration mode, etc.), modify the Set5250initsubprogram.
9-14
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Executing Sample Programs
Vth and Capacitance Measurement Program
If you want to use your VFP data in the program, change the program as follows.
Before executing the program, you need to create the VFP data and save it to a file
on diskette. And you must link the VFP Data Upload Library to the program. For
details, refer to “Using the Virtual Front Panel (VFP) Utility” on page 5-4 and
“Using the VFP Data Upload Library” on page 6-22.
1. Insert an exclamation mark (!) at the beginning of each program line shown in
the following table, and enter the lines.
Subprogram
Meas_vth
Program Line
Test_comm$="MOSFET Vth Measurement"
Channel$="(@10101,10202,10303,10404)"
"Constant Definition" block
OUTPUT @Hp5250;":ROUT:CLOS "&Channel$
OUTPUT @Hp5250;"*OPC?"
ENTER @Hp5250;A
Meas_vth
"Connect to DUT" block
OUTPUT @Hp5250;":ROUT:OPEN:CARD ALL"
OUTPUT @Hp5250;"*OPC?"
ENTER @Hp5250;A
Meas_vth
"Connection All Open" block
Test_comm$="Capacitance Measurement"
Channel$="(@10905,11006)"
Meas_c
"Constant Definition" block
OUTPUT @Hp5250;":ROUT:CLOS "&Channel$
OUTPUT @Hp5250;"*OPC?"
ENTER @Hp5250;A
Meas_c
"Connect to DUT" block
OUTPUT @Hp5250;":ROUT:OPEN:CARD ALL"
OUTPUT @Hp5250;"*OPC?"
ENTER @Hp5250;A
Meas_c
"Connection All Open" block
OUTPUT @Hp5250;":ROUT:FUNC NCON"
OUTPUT @Hp5250;":ROUT:BIAS:STAT ALL,OFF"
OUTPUT @Hp5250;":ROUT:CONN:RULE ALL,SROU"
OUTPUT @Hp5250;":ROUT:CONN:SEQ ALL,BBM"
OUTPUT @Hp5250;":ROUT:OPEN:CARD ALL"
OUTPUT @Hp5250;"*OPC?"
Set5250init
ENTER @Hp5250;A
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Executing Sample Programs
Vth and Capacitance Measurement Program
2. Remove the exclamation marks from program lines shown in the following
table, and enter the lines.
Subprogram
Meas_vth
Meas_vth
Program Line
! COM /Vfp_com_data/ Setup_data$[14000]
! Test_comm$=FNGet_vfp_comment$(Setup_data$,Setup_num)
"Constant Definition"
block
a
See Note .
! Connect_vfp(Setup_data$,Setup_num)
Meas_vth
"Connect to DUT" block
a
See Note .
! Connect_vfp(Setup_data$,Setup_num)
Meas_vth
"Connection All Open"
block
b
See Note .
! COM /Vfp_com_data/ Setup_data$[14000]
Meas_c
! Test_comm$=FNGet_vfp_comment$(Setup_data$,Setup_num)
Meas_c
"Constant Definition"
block
c
See Note .
! Connect_vfp(Setup_data$,Setup_num)
Meas_c
"Connect to DUT" block
c
See Note .
! Connect_vfp(Setup_data$,Setup_num)
Meas_c
"Connection All Open"
block
b
See Note .
! COM /Vfp_com_data/ Setup_data$[14000]
! Adrs=Adrs5250
Set5250init
! CALL Load_vfp_data(Adrs,"VFP_FILE",Setup_data$)
! CALL Init_vfp_setup(Setup_data$)
d
See Note .
a. You must replace the Setup_num parameter with number of the VFP setup memory to use
for Vth measurement.
b. You must replace the Setup_num parameter with number of the VFP setup memory that sets
"Open All" (no connection) condition.
c. You must replace the Setup_num parameter with number of the VFP setup memory to use
for C measurement.
d. In Load_vfp_data subprogram, enter your VFP data file name instead of "VFP_FILE". Your
VFP data file must contain data for at least 3 Setup Memories: for Vth measurement, C mea-
surement, and "Open All" condition.
9-16
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Executing Sample Programs
HCI Measurement Program
HCI Measurement Program
•
•
•
•
•
“Introduction”
“Adding the Bias Source Control Routine”
“Setting up the Measurement Environment”
“Executing the Program”
“Modifying the Program”
Introduction
The Hot-Carrier-Induced (HCI) degradation of MOSFET parameters is measured by
using Agilent 4155/4156 Semiconductor Parameter Analyzer, bias sources, and the
E5250A with the E5255A card.
Two HP BASIC language programs are used to perform the HCI measurement:
•
•
the JEDEC proceeding titled "A PROCEDURE FOR MEASURING HCI"
(29-JULY-93).
Analysis Program (SP_MUX_A) determines the lifetime of MOSFET from the
data measured by HCI test program.
The SP_MUX_Mprogram flow is shown in Table 9-5.
Table 9-5 also lists the files that are used to set up the 4155/4156 for each part of the
SP_MUX_Mprogram. These setup files are stored on the E5250A Program Disk. So,
the program disk must be in the 4155/4156's disk drive when you execute the
program.
For details about a 4155/4156 setup file, GET the setup file and refer to the setup by
using the 4155/4156.
NOTE
To Add the Bias Source Control Routine
The HCI measurement sample program (SP_MUX_M) requires bias sources. You
must modify or add a control routine for your bias sources to the program. Refer to
“Adding the Bias Source Control Routine” on page 9-23.
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Executing Sample Programs
HCI Measurement Program
Table 9-5
HCI Degradation Measurement Flow
4155/4156
setup file
step
Description
Initializes the Instruments:
1
1. Resets the 4155/4156.
2. Resets and initializes the E5250A.
Configuration Mode: AUTO
Bias Mode: OFF
Connection Rule: FREE
Channel Status: All Relays Open
2
3
Determines Stress Condition. See later.
IBVG.MES
Selects devices valid for the HCI test. See later.
IGLEAK.MES
IDLEAK.MES
4
5
Characterizes the initial parameters. See later.
PARAM.MES
PARAM.MES
Applies stress and characterizes the parameters.
See later.
Step 2. Determines Stress Condition
This step determines the gate stress voltage (Vgstr) from the Ib-Vgs measurement
test result. This Vgstrvalue will be used in step 5.
NOTE
Test Device for Defining Stress Conditions
The test device used to determine the stress conditions (step 2) should not be used
for Hot-Carrier stress testing (steps 3 to 5).
9-18
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HCI Measurement Program
Step 3. Selects devices valid for the HCI test
This step judges whether each device is valid according to the current leak test
result. The IGLEAK.MESand IDLEAK.MESfiles are used to set up the 4155/4156
for this step.
As shown below, 24 devices are connected to the E5250A, and measured
individually by switching. For devices that fail this step, no further testing is
performed, and "0.0" is recorded.
Device
Terminal
Device 1
Device2
Device 3
. . . .
Device24
Gate
1
25
2
26
3
27
. . . .
. . . .
24
48
Drain
Sub
49
50
51
. . . .
72
Source
GNDU
GNDU
GNDU
GNDU
GNDU
Step 4. Characterizes the initial parameters
This step initially (before stress) measures parameters for the devices that were
determined to be valid by the previous step.
The PARAM.MESfile sets up the 4155/4156.
A summary of the measurement setup saved in PARAM.MESis shown below. For
details of the setup data, GET the PARAM.MESfile using the 4155/4156, and refer
to the setup displayed on the 4155/4156.
Channel/Source Setup:
SMU
SMU1
SMU3
SMU4
GNDU
V NAME
VG
I NAME
MODE
FUNCTION
VAR1
Source Setup
IG
ID
IB
IS
V
0 to 5V, 20mV step
VD
V
V
CONST
CONST
CONST
0.1V
VB
0V
VS
COMMON
Common
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Executing Sample Programs
HCI Measurement Program
User Function Setup:
NAME
UNIT
DEFINITION
DIFF(ID,VG)
Gm
S
V
S
V
A
Vtext
Gmmax
Vtci
@MX-(@MY1/@MY2)-AT(VD,1)/2
MAX(Gm)
@L2X
Idlin
@L1Y1
Display Setup:
Xaxis
Y1axis
Y2axis
NAME
SCALE
MIN
VG
LINEAR
0 V
ID
LINEAR
0 A
Gm
LINEAR
0 S
MAX
5 V
2 mA
1.5 mS
Also the DATA VARIAVLES fields set Vtext and Idlin.
Auto Analysis Function:
*LINE1: [ GRAD
] line on [ Y1 ] at a point where
[ VG
] = [ 5
]
]
[
]
Gradient:
[ 0
-----------------------------------------------------------
*LINE2: [ NORMAL
] line on [ Y1 ] at a point where
[ ID
[
] = [ 10u
]
]
]
and a point
[WHERE]
[ ID
] = [ 10u
-----------------------------------------------------------
*MARKER: At a point where
[ Gm
[
] = [ MAX(Gm)
]
]
---------------------
*Interpolate: [ON ]
PARAM.MES setup file extracts Idlin and Vtci by using the 4155/4156 User
Function and Auto Analysis Function. These parameters are extracted with the
following conditions:
Idlin:
Gate voltage VG=5 V
Substrate voltage VB=0V
Vtci:
W/L Ratio (Gate width/Gate length ratio) =10 µm/1 µm
For changing the conditions, refer to “Modifying the Program” on page 9-35.
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HCI Measurement Program
Step 5. Applies stress and characterizes the parameters
This step performs the following:
1. Applies the stress, Vdstrand Vgstr, to the valid devices.
Before running the SP_MUX_Mprogram, you must determine the Vdstr(drain
stress voltage) by Id-Vds measurement (using setup file IDVD.MES), then edit
the SP_MUX_Mprogram to input value of Vdstr. Refer to “Executing the
Program” on page 9-27.
2. Performs the interim characterization. This sets up the 4155/4156 by using the
PARAM.MESsetup file, then measures the parameters (Idlin, Gmmax, Vtext
and Vtci) for each device.
3. Judges whether to terminate the stress/interim characterization cycle. This cycle
is terminated when total stress time reaches 100,000 sec or when there is no
device satisfies all of the following conditions:
• Idlinvalue is within ±10 % of initial value.
• Gmmaxvalue is within ±10 % of initial value.
• Vtcivalue is within ±20 mV of initial value.
If none of these termination conditions has occurred, stress time (duration) is
increased, and these 3 steps are repeated. The default cumulative stress times are
defined in the program as follows. To change these cumulative stress times, refer
to “Modifying the Program” on page 9-35.
Stress
cycle
Cumulative
stress time
Stress
cycle
Cumulative
stress time
Stress time
Stress time
1
10 sec
10 sec
30 sec
50 sec
100 sec
300 sec
500 sec
10 sec
8
1000 sec
3000 sec
5000 sec
10000 sec
30000 sec
50000 sec
2000 sec
2
3
4
5
6
7
20 sec
9
5000 sec
50 sec
10
11
12
13
10000 sec
20000 sec
50000 sec
100000 sec
100 sec
200 sec
500 sec
1000 sec
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Executing Sample Programs
HCI Measurement Program
The measurement data is saved to the diskette in disk drive connected to the
computer with the following file names.
• IDXX: Percent change data for Idlin
• GMXX: Percent change data for Gmmax
• VTEXX: Relative shift data for Vtext
• VTIXX: Relative shift data for Vtci
where XX means the test device number.
Required Equipments
Prepare the equipment shown in Table 9-6, which lists the required equipment to
execute the program:
Table 9-6
Required Equipment
Agilent Model/Part No.
Description
Qty.
E5250A
Low Leakage Switch Mainframe
24 (8×3) Channel Multiplexer
Semiconductor Parameter Analyzer
SMU/PGU expander (for GNDU)
Triaxial Cable (1.5 m or 3 m)
Triaxial Cable (80 cm)
1
3
1
1
1
3
9
1
5
1
3
3
1
E5255A
4155/4156
41501
16494A-001 or -002
16494A-003
16494D-001 or -002
16495D
8 Channel Shielded Coaxial Cable (1.5 m or 3 m)
Connector Plate
10833A/B/C
E5250-17002
−
GPIB Cable
E5250A Program Disk (furnished)
Bias Source
−
BNC - BNC cable (for Bias Source)
−
3.5 inch diskette (for storing measurement data
and modified program)
9-22
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HCI Measurement Program
Adding the Bias Source Control Routine
This sample program requires bias sources to apply stress to DUT. So, you must
modify the following bias source control subprograms to match your bias sources or
create new subprograms. The following subprogram is for bias sources that support
SCPI commands:
1. Get the HCI test program (SP_MUX_M) from the E5250A Program Disk by
using the computer:
GET "SP_MUX_M"
2. Delete the exclamation marks (!) from beginning of the following two program
lines. You can easily find these lines by using FIND statement.
! CALL Bias_source_on
:
:
! CALL Bias_source_off
3. Delete the exclamation mark (!) from the beginning of the following lines in the
"Bias_source_on" and "Bias_source_off" subprograms.
Then modify the "OUTPUT" statements to match your Bias Sources. The
"SOUR XXX" SCPI command is used to control the output voltage of the Bias
Sources.
!Bias_source_on:SUB Bias_source_on
! !===========================================================
! ! Bias Source On
! !-----------------------------------------------------------
! COM /Meas_info5/ REAL Vdstr,Vgstr,Vdd,Vbb,Gate_length,Gate_w
idth
! !-----------------------------------------------------------
! OUTPUT 701;"SOUR "&VAL$(Vgstr) ! Set Gate Stress Voltage
! OUTPUT 702;"SOUR "&VAL$(Vdstr) ! Set Drain Stress Voltage
! OUTPUT 703;"SOUR 0.0" ! Set Substrate Stress Voltage
!SUBEND
! !===========================================================
!Bias_source_off:SUB Bias_source_off
! !===========================================================
! ! Bias Source Off
! !-----------------------------------------------------------
! COM /Meas_info5/ REAL Vdstr,Vgstr,Vdd,Vbb,Gate_length,Gate_w
idth
! !-----------------------------------------------------------
! OUTPUT 701;"SOUR 0.0" ! Set Gate Voltage to 0.0V
! OUTPUT 702;"SOUR 0.0" ! Set Drain Voltage to 0.0V
! OUTPUT 703;"SOUR 0.0" ! Set Substrate Voltage to 0.0V
!SUBEND
4. Save modified file to an empty formatted diskette as in following example. This
diskette is used for executing program. And the data measured and analyzed will
be saved to this diskette automatically during program execution.
RE-STORE "SP_MUX"
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Executing Sample Programs
HCI Measurement Program
Setting up the Measurement Environment
follows:
1. Prepare the equipment shown in Table 9-6, which lists the required equipment to
execute the program.
Figure 9-3.
Three E5255As are used, which are installed in Slot1, Slot2, and Slot3 of the
E5250A. The internal connections of the three E5255As are almost the same,
except for the following:
• IVin1internal connection (1 in Figure 9-3) for each E5255A:
for Slot1: IVin1to SMU1
for Slot2: IVin1to SMU3
for Slot3: IVin1to SMU4
•
DIP SW settings in each slot are different as shown in Figure 9-3. But within
each E5255A, SW1/SW2/SW3 settings are the same.
3. Connect all equipment and devices as shown in Figure 9-4 and Table 9-7. Refer
to Chapter 4 for the details of the connection from the E5250A output to Device
Under Test (DUT).
9-24
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Executing Sample Programs
HCI Measurement Program
Figure 9-3
Internal Connections and DIP SW Settings for E5255As
2
3
IVin2 cable
IVin3 cable
SW3
SW1
SW2
1
IVout1
IVout2
IVin1 cable
For E5255A in Slot 1: Connect IVin1 to SMU1, and
set SW1/SW2/SW3 to
For E5255A in Slot 2: Connect IVin1 to SMU3, and
set SW1/SW2/SW3 to
For E5255A in Slot 3: Connect IVin1 to SMU4, and
set SW1/SW2/SW3 to
4
5
9 10 11 12 13 14 15 16
17 18 19 20 21 22 23 24
1 2 3 4 5 6 7 8
Table 9-7
E5250A Input/Output Connection
4155/4156
E5250A Input
Measurement
Port
E5255A Output Port
DUT
Port
SMU 1
SMU 3
SMU 4
GNDU
SMU INPUT 1
SMU INPUT 3
SMU INPUT 4
Output 1 to 24 (SLOT 1)
Output 25 to 48 (SLOT 2)
Output 49 to 72 (SLOT 3)
Gate
Drain
Sub
(directly connected to Connector Plate)
Source
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Executing Sample Programs
HCI Measurement Program
Figure 9-4
DC HCI Degradation Test Equipment Connections
BNC Cable (3ea.)
Shielding Box
16494D-001 or 002 ( 9 ea.)
SLOT1
Output
1--24
Bias Input
BIAS SOURCE 1
BIAS SOURCE 2
BIAS SOURCE 3
1
24
48
to
to
SLOT2
Bias Input
25--48
49--72
25
SLOT3
Bias Input
E5250A
to
49
72
SMU
GPIB Cable
GNDU
16495D
16494A-003 (3ea.)
Drain
4155/4156
Sub
Source
Gate
GNDU
41501
HP BASIC
CONTROLLER
16494A-001 or 002
1
2
24
48
25
49
26
GNDU
50
72
Device1
Device24
Device2
(Total 24ea.)
NOTE
Device used to Determine Stress Conditions
HCI test program (SP_MUX_M) uses Device1 above to determine stress voltages
(Vdstrand Vgstr). So, during the program, you are prompted to replace Device1
after these voltages are determined.
9-26
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Executing Sample Programs
HCI Measurement Program
Executing the Program
You should have already added the bias source control routine and set up the
measurement environment as described previously.
Before running the program, do following:
1. Set the GPIB address of instruments as follows:
•
•
•
4155/4156: 717
E5250A: 722
Bias Source: Set the GPIB addresses to match your control routine
2. Turn on all instruments and the computer.
3. Boot up HP BASIC operating system.
4. Insert a diskette into the computer's disk drive. The diskette must contain the
HCI test program (SP_MUX in this example) you modified in “Adding the Bias
Source Control Routine” on page 9-23.
5. Specify the computer's mass storage device (disk drive) the diskette is inserted
by using MSI statement. For example, if the device is ":CS80,702,1", enter the
following command:
MSI ":CS80,702,1"
6. Load your HCI test program. The following example loads and displays
SP_MUX program, in this example.
LOAD "SP_MUX"
EDIT
7. Insert the E5250A Program Disk into the 4155/4156's disk drive, then get the
8. Enter the following command from the command line of the computer:
OUTPUT 722;":ROUT:CLOS (@10101,20101,30101)"
9. Press Single key on the 4155/4156's front panel. The Id-Vds measurement is
performed and the Id-Vds measurement result is displayed as shown in Figure
9-5.
10. Determine the drain stress voltage (Vdstr) from the above curve.
Recommended maximum value is about 0.5 V below actual breakdown. Then,
edit the HCI test program (SP_MUX in this example) , and define the Vdstr
value. The value should be defined in the following program line.
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9-27
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Executing Sample Programs
HCI Measurement Program
!-- Drain stress voltage should be determined by Id-Vd charact
eristics
Vdstr=5
! Drain stress voltage
After defining the value, re-store the program.
Figure 9-5
Id-Vds Measurement Example
9-28
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Executing Sample Programs
HCI Measurement Program
To Execute HCI Test Program
1. Load the HCI test program (SP_MUX in this example), and press RUN function
key. Then the following message is displayed on the computer screen.
Enter directory name for saving data. (default: test_data)
2. Type the name of directory for saving HCI test data, and press ENTER key. After
executing the program, test data is saved to the directory in the diskette. If you
press ENTER key with no input, the test data will be saved in "test_data"
directory.
After this operation, the Ib-Vgs measurement is automatically executed, and the
measurement results are displayed on the 4155/4156, as shown in Figure 9-6.
Also the program automatically extracts the gate stress voltage (Vgstr), which
will be used later for stress testing.
3. Remove the device used to determine Vdstrand Vgstrafter the following
message is displayed.
"Connect HCI degradation test devices"
This device must be Device1, which was connected to the E5255A output port
numbers 1, 25, 49, and GNDU as shown in Figure 9-4.
4. Connect a new device in place of device removed by previous step. Then press
Continue function key to continue the program.
The program executes the leakage current tests, which determine the valid
devices to use for stress testing.
If the measured leakage currents are within the limit, following message is
displayed:
"Device No. = XX can be used"
If the measured leakage currents are not within the limit, following message is
displayed:
"Device No. = XX shall not be used"
Then, the initial characterization (before stress) is performed for all valid
devices.
Then, stress/interim characterization cycle is executed until stress termination
conditions are met as described previously. In each interim characterization,
Idlin, Gmmax, Vtext, and Vtciare determined. An example measurement
is shown in Figure 9-7.
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HCI Measurement Program
After each interim characterization, the fractional change in a parameter versus
the stress time is displayed on GRAPHICS page of the 4155/4156 as shown in
Figure 9-8.
After testing, the test result data is saved to the diskette in the computer's disk
drive, and the following message is displayed.
"HCI Degradation Test is Completed!!"
Figure 9-6
Example of Ib-Vgs Measurement Results
9-30
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Executing Sample Programs
HCI Measurement Program
To Execute Analysis Program
Before running the program, do the following:
1. Insert the E5250A Program Disk into the computer's disk drive.
2. Specify the mass storage device (disk drive) the program disk is inserted by
using MSI statement. For example, if the device is ":CS80,702,1", enter the
following command:
MSI ":CS80,702,1"
3. Get the SP_MUX_Aprogram from the program disk.
GET "SP_MUX_A"
4. Eject the program disk.
5. Insert the diskette which saves test result data into the computer's disk drive.
6. Specify the directory which stores the test result data files. For example, if the
directory is /test_data, enter MSI "/test_data".
Execute the SP_MUX_Aprogram as follows:
1. Press the RUN function key on the computer. The following message is
displayed.
"Enter number of devices (default:24)"
2. Enter the number of devices to be analyzed. Default number is 24.
Then the following softkeys are displayed.
Softkey
Idlin
description
Extract Tdcfrom the Idlin data for all valid devices
Extract Tdcfrom the Gmmax data for all valid devices
Extract Tdcfrom the Vtext data for all valid devices
Extract Tdcfrom the Vtci data for all valid devices
Extract Tdcfor all these parameters for all valid devices
Quit the program
Gmmax
Vtext
Vtci
All
End
Tdcis the "time to target". The SP_MUX_Aprogram extracts Tdcfrom the
measurement data that was saved by SP_MUXprogram. Tdcis the time when
the device parameter reached its termination condition.
9-32
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Executing Sample Programs
HCI Measurement Program
3. Select softkey for parameter for which you want to extract Tdc.
Analysis result and Tdcwill be displayed on the 4155/4156 screen as shown in
Figure 9-9. Then program pauses. During pause, you can save these results to a
4155/4156’s DAT type file.
4. Select Continue function key to continue the program after each graph is
displayed.
If you select the ALL softkey in step 3, the 4155/4156 screen displays the graph
for the next parameter of the same device number. And then program pauses.
If you select the softkey to specify parameter in step 3, the 4155/4156 screen
displays the graph for the next device for the parameter. And program pauses.
This step is repeated according to entered number of devices and selected
softkey.
Figure 9-9
HCI Degradation Test Data Analysis Example
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Executing Sample Programs
HCI Measurement Program
NOTE
If you don't want program to pause, change the parameter in SP_MUX_Aprogram to
Pause_to_save=0before you run the SP_MUX_Aprogram. The program
automatically extracts Tdc, saves result data, and stops.
5. All calculated data is saved to ANAHCIfile on computer's disk drive, which is
an ASCII file. The data is also listed on the 4155/4156's screen. After analyzing,
saving, and listing the data, the 4155/4156 is initialized.
For example, in the case that you selected Idlin softkey in step 3, the following is
saved to the file:
•
•
Number of devices
Vdstr, Vgstr, Gate length, Gate width
• Idlin
• Device ,Validity ,Tdc_idlin
First device number, 0or 1, Extracted Tdc for the device
:
:
:
Last device number, 0or 1, Extracted Tdc for the device
• Averaged Tdc_idlin
Calculated average Tdc
For the above, 0means valid and 1means invalid.
Following is an actual example for this case:
4
5, 1.95, 1.E-6, 1.E-5
Idlin
Device Validity Tdc_idlin
1, 0, 835.5786
2, 0, 3401.432
3, 0, 6269.047
4, 0, 24366.79
Averaged Tdc_idlin
8718.2119
9-34
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Executing Sample Programs
HCI Measurement Program
Modifying the Program
•
•
•
•
•
•
•
•
•
“To change the stress times”
“To change the test limits”
“To specify the data displayed on the 4155/4156 screen”
“To change the timing for saving the test data”
To change the GPIB address
To change the GPIB address of the instruments, change the following parameters in
the "GPIB Setup" block.
Parameter
Description
Default
Hpib_sc
4155/4156 GPIB select code
4155/4156 GPIB address
E5250A GPIB select code
E5250A GPIB address
7
17
7
Hpib_addr
Swm_sc
Swm_addr
22
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Executing Sample Programs
HCI Measurement Program
To change the 4155/4156 setup file used
To change the 4155/4156's setup file used for the HCI test program, modify the
setting of the setup file and save it as a new setup file. Then change the following
parameter in the "Definition of measurement and stress setup files" block of the
program.
Parameter
Description
Default
Ibvg_file$
Setup file for extracting Vgstr.
"IBVG.MES"
Igleak_file$ Setup file for Gate leakage current
measurement.
"IGLEAK.MES"
Idleak_file$ Setup file for Drain leakage current
measurement.
"IDLEAK.MES"
"PARAM.MES"
Param_file$ Setup file for parameter measurement.
To change Vtci extraction condition
To change W/L ratio (Gate width/Gate length ratio) required for Vtci extraction, do
follows.
1. GET the PARAM.MES setup file by using the 4155/4156.
2. Change the setting of "ID" parameter in "LINE2" on the ANALYSIS SETUP
screen. The value of "ID" can be calculated by the following expression.
ID=1 µA × W/L
where, W means Gate width in m, and L means Gate length in m.
3. Change the following parameters in the "Device geometries" block of program.
Parameter
Description
Default
Gate_length
Gate_width
Gate length in m.
Gate width in m.
1.E-6
1.E-5
9-36
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Executing Sample Programs
HCI Measurement Program
To change Idlin and Gmmax extraction condition
To change Gate voltage and Substrate voltage required for Idlin and Gmmax
extraction, do follows.
1. GET the PARAM.MES setup file by using the 4155/4156.
2. Change the value of Substrate voltage "VB" on the SOURCE SETUP screen.
3. Change the setting of "VG" parameter in "LINE1" on the ANALYSIS SETUP
screen.
To change the number of devices
Change the setting of the No_of_devicesvariable in the "Input Parameters" block.
To test more than 25 devices, you must change the configuration of the E5250A. See
chapter 2.
To change the stress times
Change the data at the DATA statement in the "Stress duration setup" block. Each
data shows the cumulative stress data.
Example:
DATA
DATA
DATA
DATA
10,
100,
20,
200,
50
500
1000,
2000,
5000
10000, 20000, 50000
DATA 100000
If you change the number of the data defined in DATA statements, change the value
of the Meas_pointsvariable in the "Stress duration setup" block.
The value of Meas_pointsmust be the same number as the number of data defined
in the DATA statements.
In the above example, the number of data in DATA statements is 13. So the variable
for the above example must be set as follows.
Meas_points=13
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Executing Sample Programs
HCI Measurement Program
To change the test limits
Each test device is judged to be valid or not by measuring the gate and drain leakage
currents. Change the following parameters in "Limits for leakage tests" block.
Parameter
Description
Default
Igleak_max
Idleak_max
Maximum Gate leakage current in A.
Maximum Drain leakage current in A.
2.E-10
1.E-8
To specify the data displayed on the 4155/4156 screen
Change the following parameters in the "Setup for drawing / saving data in main
menu" block.
Parameter
Description
Default
Show_device
To display the data for the specified device number.
0: Displays the data for all devices.
0
n (integer): Displays the data for device No. n.
Show_param
To display the data for the specified parameter.
0: Displays the data for all parameters.
1: Displays Idlin data.
0
2: Displays Gmmax data.
3: Displays Vtext data.
4: Displays Vtci data.
-1: No data is displayed.
To change the timing for saving the test data
Change the following parameter in the "Setup for drawing / saving data in main
menu" block.
• Save_at_last=0: Saves the data after each parameter measurement.
• Save_at_last=1: Saves the data after HCI test is completely finished.
For this parameter, the default is 1.
9-38
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Specifications
This chapter lists specifications, typical data and supplemental data for the Agilent
E5250A Low Leakage Switch Mainframe with the Agilent E5252A 10×12 Matrix
Switch and the Agilent E5255A 24 (8×3) Channel Multiplexer. This chapter also
provides the supplemental data when used with the Agilent 4155/4156.
The specifications are the performance standards or limits against which these units
have been tested. The typical data and supplemental data are not warranted, but
provide useful information about functions and performance.
If not noted otherwise, the conditions for specifications and other data are as
follows:
Temperature: 23 °C ± 5 °C
Humidity: < 60 % RH
10-2
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Specifications
General Specifications
General Specifications
Temperature
Range:
Operating: 5 °C to 40 °C
Storage: −40 °C to 70 °C
Humidity Range:
Altitude:
Operating: 5 % to 80 % RH (non-condensing)
Storage: 5 % to 90 % RH at 65 °C
Operating: 0 to 2,000 m (6,500 ft)
Storage: 0 to 15,240 m (50,000 ft)
Power
Requirement:
100 to 240V ± 10 %, 47 to 63 Hz
Maximum VA:
Number of Slots:
Dimensions:
100 VA
4 slots for 30 mm height switch cards
E5250A: 230 mm H × 430 mm W × 600 mm D
E5252A: 30 mm H × 395 mm W × 424 mm D
E5255A: 30 mm H × 395 mm W × 424 mm D
Weight:
E5250A: 11.2 kg
E5252A: 2.0 kg
E5255A: 2.1 kg
E5252A Number of Low Leakage I-V Port: 2 ports
Input Ports:
General I-V Port: 4 ports
C-V Port: 2 ports
HF Port: 2 ports
E5255A Number of Low Leakage I-V Port: 1 port/multiplexer block
Input Ports:
Bias Port: 1 port/multiplexer block
Number of Output (depends on the number of cards)
Ports:
For each E5252A: 12
For each E5255A: 24 (8 ports × 3 multiplexer blocks)
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Specifications
Agilent E5252A 10x12 Matrix Switch
Agilent E5252A 10x12 Matrix Switch
Switch Specifications
These are specifications when the E5252A is installed in mainframe. In the table,
the conditions are as follows:
•
•
•
A: 23 °C ± 5 °C, 5 % to 60 % RH
B: 5 °C to 18 °C and 28 °C to 40 °C, 5 % to 60 % RH
C: 28 °C to 40 °C, 60 % to 80 % RH
A
B
C
Max. Current Rating (A)
Max. Voltage Rating (V)
Channel to Guard
1.0
1.0
1.0
200
300
200
300
200
300
Channel to Channel
Closed Channel Residual Resistance (Ω)
Low Leakage I-V Port
General I-V Port
0.6
1.0
1.0
0.6
1.0
1.0
0.6
1.0
1.0
C-V, HF Port
Channel Isolation Resistance (Ω)
Low Leakage I-V Port
1013
1012
109
5 × 1012
5 × 1011
5 × 108
2 × 1012
2 × 1011
2 × 108
General I-V Port
C-V, HF Port
10-4
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Specifications
Agilent E5252A 10x12 Matrix Switch
Typical Data
Offset Current
< 0.1 pA *1 (Low Leakage I-V Port)
< 1000 pA *1 (General I-V Port)
Channel Crosstalk Capacitance < 0.3 pF per channel
Offset Voltage (EMF) at 5 min*2 < 80 µV (Low Leakage I-V Port)
< 110 µV (General I-V Port)
< 110 µV (C-V, HF Port)
Guard Capacitance
< 145 pF *3 (Low Leakage I-V Port)
< 123 pF *3 (General I-V Port)
< ± 1 % ± 0.5 pF *4 (C-V Port)
C Measurement Error
*1
*2
The offset current when 0V is applied to all I/O channels.
EMF means Electro Motive Force, and these are offset voltages after
applying voltage and waiting 5 minutes.
*3
*4
This is guard capacitance for an I/O channel for following conditions.
Only one E5252A is installed in mainframe, and only one I/O channel
is connected.
When capacitance compensation routine is used for following
measurement conditions:
Frequency: 1 kHz to 1 MHz
Measurement Range: Maximum 1000 pF
Measurement Terminal: At the end of Agilent 16495A-001 (1.5 m
triaxial cable) connected to the E5252A output terminal.
See “Using the Capacitance Compensation Routine” on page 6-28.
Supplemental Data
Bandwidth (at -3dB)
Relay Contact Life
Settling Time
< 10 MHz (C-V, HF Port)
> 108 times (Dry Switching Mode)
< 3.5 sec to settle to within 400 fA of final value
when 10 V is applied (Low Leakage I-V Port)
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Specifications
Agilent E5255A 24 (8x3) Channel Multiplexer
Agilent E5255A 24 (8x3) Channel Multiplexer
Switch Specifications
These are specifications when the E5255A is installed in mainframe. In the table,
the conditions are as follows:
•
•
•
A: 23 °C ± 5 °C, 5 % to 60 % RH
B: 5 °C to 18 °C and 28 °C to 40 °C, 5 % to 60 % RH
C: 28 °C to 40 °C, 60 % to 80 % RH
A
B
C
Max. Current Rating (A)
Max. Voltage Rating (V)
Channel to Guard
1.0
1.0
1.0
200
300
200
300
200
300
Channel to Channel
Closed Channel Residual Resistance (Ω)
Low Leakage I-V Port
0.6
1.0
0.6
1.0
0.6
1.0
BIAS Port a
Channel Isolation Resistance (Ω)
Low Leakage I-V Port
1013
109
5 × 1012
5 × 108
2 × 1012
2 × 108
BIAS Port
a. When 0 Ω resistors are mounted on the card as the protective resis-
tor.
Typical Data
Offset Current:
< 0.1 pA *1 (Low Leakage I-V Port)
10-6
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Specifications
Agilent E5255A 24 (8x3) Channel Multiplexer
Channel Crosstalk Capacitance: < 0.4 pF/channel (Low Leakage I-V Port)
< 5 pF/channel (Bias Port)
Offset Voltage (EMF) at 5min*2: < 80 µV (Low Leakage I-V Port)
Guard Capacitance
(Low Leakage I-V Port):
< 180 pF *3
< 60 pF (when the port is open.)
*1
The offset current when 0 V is applied to all I/O channels.
*2
EMF means Electro Motive Force, and these are offset voltages after
applying voltage and waiting 5 minutes.
*3
This is guard capacitance for an I/O channel for following conditions.
Only one E5255A is installed in mainframe, and only one I/O channel
is connected.
Supplemental Data
Relay Contact Life:
Settling Time:
> 108 times (Dry Switching Mode)
< 3.5 sec to settle to within 400 fA of final value
when 10 V is applied (Low Leakage I-V Port)
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Specifications
Accessories
Accessories
The following specifications are applied for the accessories listed below.
Temperature
Range
Operating:
Storage:
5 °C to 40 °C
−40 °C to 70 °C
Humidity Range
Operating:
Storage:
5 % to 80 % RH (non-condensing)
5 % to 90 % RH at 65 °C
•
•
•
•
•
•
•
•
•
Agilent 16494A Triaxial Cable
Agilent 16494B Kelvin Triaxial Cable
Agilent 16494C Kelvin Triaxial Cable for Agilent 4142B
Agilent 16494D 8ch Shielded Coaxial Cable
Agilent 16495C Connector Plate with 6 8ch Shield,Intlk/GNDU
Agilent 16495D Connector Plate with 12 8ch Shield,Intlk/GNDU
Agilent 16495E Half size Blank Plate
Agilent 16495F Connector Plate with 12 Triax.,Intlk/GNDU
Agilent 16495G Connector Plate with 24 Triax.,Intlk/GNDU
The following specifications are applied for the Agilent 16494E Wide Temperature
8ch Shielded Coaxial Cable.
Temperature
Range
Operating:
Storage:
5 °C to 40 °C (for connector part)
−50 °C to 200 °C (for cable part)
−40 °C to 70 °C
Humidity Range
Operating:
Storage:
5 % to 80 % RH (non-condensing)
5 % to 90 % RH at 65 °C
10-8
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Specifications
Supplemental Data when used with Agilent 4155/4156
Supplemental Data when used with Agilent
4155/4156
The below data shows degradation of Agilent 4155/4156 when used with Low
Leakage I-V Port.
Iout is output current in A, and Vout is output voltage in V.
Supplemental Data when used with Agilent 4155
•
•
Voltage Range Offset Accuracy (with MPSMU)
Range
2 V
Setting
Measurement
960 µV + (0.5 × Iout) V
780 µV + (0.5 × Iout) V
Current Range Offset Accuracy (with MPSMU)
Range
1 nA
Setting
Measurement
3 pA + (0.2 × Vout) pA
7 pA + (0.2 × Vout) pA
50 pA + (0.4 × Vout) pA
3 pA + (0.2 × Vout) pA
5 pA + (0.2 × Vout) pA
30 pA + (0.4 × Vout) pA
10 nA
100 nA
Supplemental Data when used with Agilent 4156 (non-Kelvin connection)
•
Voltage Range Offset Accuracy (with HRSMU)
Range
2 V
Setting
Measurement
500 µV + (0.5 × Iout) V
280 µV + (0.5 × Iout) V
•
Current Range Offset Accuracy (with HRSMU)
Range
10 pA
Setting
Measurement
0.4 pA + (0.2 × Vout) pA
0.4 pA + (0.2 × Vout) pA
0.7 pA + (0.2 × Vout) pA
4 pA + (0.2 × Vout) pA
40 pA + (0.3 × Vout) pA
0.1 pA + (0.2 × Vout) pA
0.1 pA + (0.2 × Vout) pA
0.5 pA + (0.2 × Vout) pA
2 pA + (0.2 × Vout) pA
20 pA + (0.3 × Vout) pA
100 pA
1 nA
10 nA
100 nA
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Specifications
Supplemental Data when used with Agilent 4155/4156
10-10
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Error Messages
This chapter lists and describes the error messages for Agilent E5250A. An error
message consists of an error number and message.
There are two types of error messages:
•
Standard SCPI Error Messages
Negative error numbers (Command Error, Execution Error, Device-Dependent
Error, and Query Error) are standard SCPI errors.
•
E5250A Specific Error Messages
Positive error numbers are the E5250A specific errors.
Error messages are classified by error number as listed in the following table:
Error Range Error Category
0
No error
-100 to -199
-200 to -299
-300 to -399
-400 to -499
100 to 32767
Command Error
Execution Error
Device-Dependent Error
Query Error
E5250A Specific Error
When an error occurs, the corresponding bit is set in the Standard Event Status
Register (see Chapter 7):
Standard Event
Error Category
Status Register Bit
Command Error
bit5
bit4
bit3
bit2
bit3
Execution Error
Device-Dependent Error
Query Error
E5250A Specific Error
Also, the error number and message are placed in the error queue, which can be read
by the :SYSTem:ERRor?query command. The error queue is cleared by the
common command *CLS, and when power is turned on. For these commands, see
Chapter 7.
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Error Messages
Standard SCPI Error Messages
Standard SCPI Error Messages
Standard SCPI error messages have negative error numbers. The following are the
standard SCPI error messages for the E5250A:
Command Error
If syntax of SCPI command is not valid, a -1XX error occurs. The error number and
message are placed in the error queue, and bit5 of the Standard Event Status
Register is set.
A SCPI command consists of a command header and zero or more parameters.
The following are example SCPI commands:
•
Subsystem command: :ROUT:OPEN:CARD 1
:ROUT:OPEN:CARDis the command header, and 1is the parameter.
A subsystem command header consists of mnemonics (keywords) separated by
colons. Query commands have a question mark (?) at end of last mnemonic.
•
Common command: *SRE 48
*SREis the command header, and 48is the parameter.
A common command header consists of an asterisk (*) followed by 3
characters. Query commands have a question mark (?) at end of header.
Error
Error Message and Description
Number
-100
-101
Command error
Generic syntax error that cannot be determined more specifically.
Invalid character
A syntax element contains a character that is invalid for that type of
element; for example, a header containing an ampersand.
-102
Syntax error
An unrecognized command or data type was received; for example, a
string was received when the E5250A does not accept strings.
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Error Messages
Standard SCPI Error Messages
Error
Number
Error Message and Description
-103
Invalid separator
An illegal character was received when a separator was expected; for
example, the semicolon was omitted between multiple commands in
a program message.
-104
Data type error
An improper data type was received; for example, numeric data was
expected but string data was received.
-105
-108
-109
-110
GET not allowed
A group execute trigger was received within a program message.
Parameter not allowed
Too many parameters for the command were received.
Missing parameter
Fewer parameters were received than required for the command.
Command header error
An error was detected in the header. This error message is reported if
the E5250A cannot determine the more specific header errors -111
through -114.
-111
Header separator error
An illegal character for a header separator was received; for
example, no white space between the command header and
parameter.
-112
-113
Program mnemonic too long
A keyword in the command header contains more than twelve
characters.
Undefined header
An undefined command header was received; for example, *XYZor
:ROUT:OPEN:COOD.
11-4
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Error Messages
Standard SCPI Error Messages
Error
Number
Error Message and Description
Numeric data error
-120
An error was detected in a numeric parameter (including the
non-decimal numeric types). This error message is reported when the
E5250A cannot determine the more specific errors -121 through
-128.
-121
Invalid character in number
An invalid character for the parameter was received; for example, an
alphacharacter was received when the parameter type was decimal
numeric.
-123
-124
Exponent too large
The magnitude of the exponent for a numeric parameter was larger
than 32000.
Too many digits
The mantissa of a decimal numeric parameter contained more than
255 digits excluding leading zeros.
-128
-138
Numeric data not allowed
Numeric data is not allowed in this position for this command.
Suffix not allowed
A suffix was received after a numeric parameter. For the E5250A, no
parameters have suffix.
-140
Character data error
An error was detected in a character parameter. This error message is
reported if the E5250A cannot determine the more specific errors
-141 through -148.
-141
-144
Invalid character data
Either the character parameter contains an invalid character or the
particular element received is not valid for the command.
Character data too long
The character parameter contains more than 12 characters.
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Error Messages
Standard SCPI Error Messages
Error
Number
Error Message and Description
-148
Character data not allowed
A character parameter is not allowed for this position.
-150
-151
-158
-160
-161
String data error
An error was detected in a string parameter. This error is reported if
the E5250A cannot determine a more specific error -151 and -158.
Invalid string data
An invalid string parameter data was received; for example, an END
message was received before the terminal quote character.
String data not allowed
A string parameter data was received but was not allowed at this
point.
Block data error
An error was detected in a block data. This error is reported if the
E5250A cannot determine more specific errors -161 and -168.
Invalid block data
An invalid block data was received; for example, an END message
was received before the length was satisfied.
-168
-170
Block data not allowed
A legal block data was received but was not allowed at this point.
Expression error
An error was detected in an expression. This error is reported if the
E5250A cannot determine more specific errors -171 and -178.
-171
-178
Invalid expression
The expression was invalid; for example, unmatched parentheses or
an illegal character.
Expression data not allowed
An expression was received but was not allowed at this point.
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Error Messages
Standard SCPI Error Messages
Execution Error
If syntax of a SCPI command header and parameter is valid, but the command
cannot be executed due to some condition of the E5250A, a -2XX error occurs. The
error number and message are placed in the error queue, and bit4 of the Standard
Event Status Register is set.
Error
Error Message and Description
Number
-200
Execution error
Generic execution error that cannot be determined more
specifically.
-220
Parameter error
The parameter value is valid, but not executable due to some
condition of the E5250A. This error occurs if more specific errors
-221 through -224 cannot be determined.
-222
-223
Data out of range
A valid parameter setting could not be executed because interpreted
value was out of range as defined by the E5250A.
Too much data
A valid parameter setting (block, expression, or string type) could
not be executed because parameter contained more data than the
E5250A could handle due to insufficient memory or other
requirements.
-224
-260
Illegal parameter value
A valid parameter setting (where exact value from list of possibles
was expected) could not be executed due to present E5250A state.
Expression error
An expression related error occurred.
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Error Messages
Standard SCPI Error Messages
Device-Dependent Errors
-3XX errors indicate that an E5250A operation did not properly complete, possibly
due to an abnormal hardware or firmware condition. These negative codes are SCPI
defined. For the device-dependent positive error codes, see “E5250A Specific Error
Messages” on page 11-10. The positive codes are not SCPI defined.
For these errors, an error number and message are placed in the error queue, and bit3
of the Standard Event Status Register is set.
Error
Error Message and Description
Number
-300
Device-specific error
Generic device-dependent error for the E5250A that cannot be
determined more specifically.
-311
-350
Memory error
An error was detected in the E5250A's memory.
Queue overflow
If error queue is full, this code is entered into the error queue instead
of the code that caused the error. This code indicates that there was
no room in the error queue, so an error occurred but was not
recorded.
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Error Messages
Standard SCPI Error Messages
Query Errors
If the output queue control of the E5250A detects one of following problems, a
-4XX error occurs:.
•
An attempt was made to read data from the output queue when no output data is
present or pending.
•
Data in the output queue has been lost.
If this type of error occurs, the error number and message are placed in the error
queue, and bit2 of the Standard Event Status Register is set.
Error
Error Message and Description
Number
-400
Query error
Generic query error for the E5250A that cannot be determined more
specifically.
-410
Query INTERRUPTED
A condition causing an INTERRUPTED query error occurred; for
example, a query followed by DAB or GET before a response was
completely sent.
-420
-430
-440
Query UNTERMINATED
A condition causing an UNTERMINATED query error occurred; for
example, the E5250A was addressed to talk and an incomplete
program message was received.
Query DEADLOCKED
A condition causing a DEADLOCKED query error occurred; for
example, both input buffer and output buffer are full and the E5250A
cannot continue.
Query UNTERMINATED after indefinite response
A query was received in the same program message after a query
requesting an indefinite length response was executed.
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Error Messages
E5250A Specific Error Messages
E5250A Specific Error Messages
These are the E5250A-specific errors that are not defined by SCPI. These errors
indicate that an E5250A operation did not properly complete due to card, channel,
port, or mode errors.
For the SCPI defined device-dependent codes, see “Device-Dependent Errors” on
page 11-8.
For these errors, an error number and message are placed in the error queue, and bit3
of the Standard Event Status Register is set.
The E5250A specific error messages have positive error numbers.
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Error Messages
E5250A Specific Error Messages
E5250A Channel Related Errors
Error
Number
Error Message and Description
Invalid card number
2000
Wrong card number is specified in card number or channel list
parameter. Make sure card is properly installed in the correct
E5250A slot.
2001
Invalid channel number
Wrong channel number is specified in the channel list. Confirm the
channel number, the card configuration, and the configuration
mode of the E5250A.
2006
2009
Command not supported on this card
Command was used that is not supported by the card.
Too many channels in channel list
Too many channels are specified in the channel list. Maximum
number of channels:
•
•
E5252A: number of cards × 120
E5255A: number of cards × 48
2011
2012
Empty channel list
No channel list is specified.
Invalid channel range
Wrong channel list is defined. Confirm the syntax of the channel
list, the card configuration, and the configuration mode of the
E5250A.
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Error Messages
E5250A Specific Error Messages
E5250A Card/Mode/Port Related Errors
Error
Error Message and Description
Number
3000
Card0 initialization fail
The E5250A may be defective. Contact your nearest Agilent
Technologies service center.
3001
Card1 initialization fail
The E5250A or card installed in slot 1 of the E5250A may be
defective. Or if card is the E5255A, the internal cable connection or
the DIP switch setting may be wrong.
3002
3003
3004
Card2 initialization fail
The E5250A or card installed in slot 2 of the E5250A may be
defective. Or if card is the E5255A, the internal cable connection or
the DIP switch setting may be wrong.
Card3 initialization fail
The E5250A or card installed in slot 3 of the E5250A may be
defective. Or if card is the E5255A, the internal cable connection or
the DIP switch setting may be wrong.
Card4 initialization fail
The E5250A or card installed in slot 4 of the E5250A may be
defective. Or if card is the E5255A, the internal cable connection or
the DIP switch setting may be wrong.
3011
3012
Bad couple port number
For the Input Port No. for Couple Port, only 1, 3, 5, 7, or 9 are
allowed.
Bad bias port number
For Input Port No. for Bias Port, only 1 to 10 are allowed.
11-12
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Error Messages
E5250A Specific Error Messages
Error
Number
Error Message and Description
3013
Cannot connect multiple channels in SROUTe mode
Incorrect channel list for Single connection rule. For Single
connection rule, an input port cannot be connected to multiple output
ports, and an output port cannot be connected to multiple input ports.
Change channel list or change connection rule to Free.
3014
3015
Cannot directly specify Bias Port channel
Incorrect channel number when Bias Mode ON is specified in the
channel list. Cannot directly specify the channel number for the Bias
Port.
Bad channel number combination on E5252A card
Wrong input port combination is specified in the channel list for the
E5252A card. For input ports, can specify only one of input port
numbers 5, 7, and 9, and only one of input port numbers 6, 8, and 10.
For example, channel list cannot specify input ports 5 and 7.
3016
3017
3018
Config error. Re-install E5255A.
May be problem with the E5255A installation. Re-install the
E5255A.
Too many relays closed. Max 200.
Too many physical relays have been closed. To close new relays,
must open some relays. Maximum 200 relays can be closed.
Can't change to ACONfig mode. Check card config.
The present card configuration of the E5250A does not allow the
Auto Config mode. Change the E5250A card configuration to allow
Auto configuration mode.
3019
Cannot use same port for Couple and Bias
Same input port number is specified to be Couple Port and Bias Port.
Couple Port and Bias Port cannot be the same port.
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Error Messages
E5250A Specific Error Messages
11-14
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SCPI Command Summary
This chapter is a quick reference for the SCPI subsystem commands available for
Agilent E5250A. The commands are in alphabetical order.
For details about these commands, see Chapter 7.
For how to specify the channel_list parameter, see Chapter 5.
Textual Notation for Subsystem Commands
[ ]
Square brackets are used to enclose optional information not
required for execution of the command sequence. So, you can
omit the characters in brackets, and the command will still
execute correctly.
For example, for the [:ROUTe]:BIAS:PORT command, you can
execute :ROUT:BIAS:PORT or :BIAS:PORT, which are
exactly the same.
italic font
Text you supply. For example, for card_number, you enter an
allowed card number. Also, used to represent response data.
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SCPI Command Summary
Command
Description
:DIAG:TEST:CARD:CLE card_number
Clears relay test result (pass/fail) of specified card.
card_number: 1, 2, 3, 4, or ALL
:DIAG:TEST:CARD[:EXEC]? card_number
:DIAG:TEST:CARD:STAT? card_number
:DIAG:TEST:FRAM:CLE unit
Executes relay test, then returns result:
1: fail card exists, 0: pass
card_number: 1, 2, 3, 4, or ALL
Returns most recent relay test result:
1: fail, 0: pass, -1: not tested.
card_number: 1, 2, 3, 4
Clears specified test result.
unit: CONT (controller test), or FPAN (front panel
interface test)
:DIAG:TEST:FRAM[:EXEC]? unit
Executes specified test, then returns test result:
1: fail, 0: pass.
unit: CONT (controller test), or FPAN (front panel
interface test)
:DIAG:TEST:FRAM:STAT? unit
Returns most recent test result of specified test:
1: fail, 0: pass, -1: not tested.
unit: CONT: Controller test FPAN: Front panel
interface test
[:ROUT]:BIAS:CHAN:DIS:CARD card_number
[:ROUT]:BIAS:CHAN:DIS[:LIST] (@channel_list)
Bias disables all channels of specified card.
card_number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
Bias disables the specified channels.
channel_list: Channels to bias disable.
[:ROUT]:BIAS:CHAN:DIS[:LIST]? (@channel_list) Returns whether specified channels are bias
disabled. 1: disabled, 0: enabled.
channel_list: Channels to check.
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SCPI Command Summary
Command
Description
[:ROUT]:BIAS:CHAN:ENAB:CARD card_number
Bias enables all channels in the specified card.
card_number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
[:ROUT]:BIAS:CHAN:ENAB[:LIST] (@channel_list)
[:ROUT]:BIAS:CHAN:ENAB[:LIST]? (@channel_list)
Bias enables the specified channels.
channel_list: Channels to bias enable.
Returns whether specified channels are bias
enabled. 1: enabled, 0: disabled.
channel_list: Channels to check.
[:ROUT]:BIAS:PORT card_number,bias_port
Selects which input port is the Bias port on
specified card. Only for the E5252A card.
card_number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
bias_port: 1to 10
[:ROUT]:BIAS:PORT? card_number
Returns the input Bias Port number for the
specified card. Only for the E5252A card.
card_number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, 4
[:ROUT]:BIAS[:STAT] card_number,state
Turns Bias Mode ON or OFF for the specified card.
card_number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
state:
ONor 1: turn ON Bias Mode
OFFor 0: turn OFF Bias Mode
[:ROUT]:BIAS[:STAT]? card_number
Returns the Bias Mode for the specified card.
0: Bias Mode is OFF, 1: Bias Mode is ON.
card_number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, 4
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SCPI Command Summary
Command
Description
[:ROUT]:CLOS:CARD? card_number
Returns channel_list of all closed channels for the
specified card. "Closed channel" means an input
port connected to an output port.
card_number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, or 4
[:ROUT]:CLOS[:LIST] (@channel_list)
[:ROUT]:CLOS[:LIST]? (@channel_list)
Connects input ports to output ports as specified in
channel_list.
channel_list: Channels to close.
Returns whether specified channels are closed.
0: channel is open (not connected)
1: channel is closed (connected)
channel_list: Channels to check.
[:ROUT]:CONN:RULE card_number,rule
Sets the connection rule for the specified card.
card_number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
rule: FREE: free route, or SROUte: single route
[:ROUT]:CONN:RULE? card_number
Returns the connection rule of the specified card:
FREE: free route, SROU: single route
card_number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, 4
[:ROUT]:CONN:SEQ card_number,sequence
Specifies the connection sequence mode for the
specified card.
card_number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
sequence:
NSEQ: No-Sequence mode
BBM: Break-Before-Make mode
MBBR: Make-Before-Break mode
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SCPI Command Summary
Command
Description
[:ROUT]:CONN:SEQ? card_number
Returns the connections sequence mode of the
specified card:
NSEQ: No-Sequence mode
BBM: Break-Before-Make mode
MBBR: Make-Before-Break mode.
card_number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, 4
[:ROUT]:COUP:PORT card_number,'couple_port'
Sets up the couple ports for the specified card. Only
for the E5252A card.
card_number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
couple_port:
One or more input port numbers: 1, 3, 5, 7, or 9.
Enclose by single quotation marks. Separate
multiple input port numbers by comma. For
example: '1,5'
[:ROUT]:COUP:PORT? card_number
Returns the lower input port number of each couple
pair on the specified card. Only for the E5252A
card.
card_number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, 4
[:ROUT]:COUP[:STAT] card_number,state
Turns Couple Mode ON or OFF for the specified
card. Only for the E5252A card.
card_number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
state:
ONor 1: turn ON Couple Mode
OFFor 0: turn OFF Couple Mode
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SCPI Command Summary
Command
Description
[:ROUT]:COUP[:STAT]? card_number
Returns Couple Mode of specified card.
0: Couple Mode is OFF
1: Couple Mode is ON.
card_number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, 4
[:ROUT]:FUNC channel_config
Sets the channel configuration mode.
channel_config:
ACON: Auto Config Mode
NCON: Normal Config Mode
[:ROUT]:FUNC?
Returns present channel configuration:
ACON: Auto Config Mode
NCON: Normal Config Mode
[:ROUT]:OPEN:CARD card_number
Disconnects all input ports from all output ports for
specified card.
card_number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
[:ROUT]:OPEN[:LIST] (@channel_list)
[:ROUT]:OPEN[:LIST]? (@channel_list)
Disconnects the input ports from output ports as
specified in channel_list.
channel_list: Channels to open.
Returns whether specified channels are opened.
0: channel is closed (connected)
1: channel is opened (disconnected)
channel_list: Channels to check.
:SYST:CCON? card_number
Returns the card configuration information:
E5252A: no info returned.
E5255A: input port and resistance info for each
block.
card_number: 1, 2, 3, or 4
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SCPI Command Summary
Command
Description
:SYST:CDES? card_number
Returns a description of the specified card:
model number and input/output port info.
card_number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, or 4
:SYST:CPON card_number
:SYST:CTYP? card_number
Resets the specified card to the power-on state.
card_number:
For Auto Config mode: 0or ALL
For Normal Config mode: 1, 2, 3, 4, or ALL
Returns ID of specified card: model number and
revision.
card_number:
For Auto Config mode: 0
For Normal Config mode: 1, 2, 3, or 4
:SYST:ERR?
:SYST:VERS?
Reads error from head of error queue, and removes
that error from queue.
Returns SCPI version number for which the
E5250A complies.
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