Tektronix Digital Camera P6330 User Manual

Instruction Manual  
P6330  
3.5 GHz Differential Probe  
071-0757-04  
Warning  
The servicing instructions are for use by qualified  
personnel only. To avoid personal injury, do not  
perform any servicing unless you are qualified to  
do so. Refer to all safety summaries prior to  
performing service.  
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WARRANTY  
Tektronix warrants that the products that it manufactures and sells will be free from defects  
in materials and workmanship for a period of one (1) year from the date of shipment. If a  
product proves defective during this warranty period, Tektronix, at its option, either will  
repair the defective product without charge for parts and labor, or will provide a  
replacement in exchange for the defective product.  
In order to obtain service under this warranty, Customer must notify Tektronix of the  
defect before the expiration of the warranty period and make suitable arrangements for the  
performance of service. Customer shall be responsible for packaging and shipping the  
defective product to the service center designated by Tektronix, with shipping charges  
prepaid. Tektronix shall pay for the return of the product to Customer if the shipment is to  
a location within the country in which the Tektronix service center is located. Customer  
shall be responsible for paying all shipping charges, duties, taxes, and any other charges for  
products returned to any other locations.  
This warranty shall not apply to any defect, failure or damage caused by improper use or  
improper or inadequate maintenance and care. Tektronix shall not be obligated to furnish  
service under this warranty a) to repair damage resulting from attempts by personnel other  
than Tektronix representatives to install, repair or service the product; b) to repair damage  
resulting from improper use or connection to incompatible equipment; c) to repair any  
damage or malfunction caused by the use of non-Tektronix supplies; or d) to service a  
product that has been modified or integrated with other products when the effect of such  
modification or integration increases the time or difficulty of servicing the product.  
THIS WARRANTY IS GIVEN BY TEKTRONIX IN LIEU OF ANY OTHER  
WARRANTIES, EXPRESS OR IMPLIED. TEKTRONIX AND ITS VENDORS  
DISCLAIM ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR  
FITNESS FOR A PARTICULAR PURPOSE. TEKTRONIX’ RESPONSIBILITY  
TO REPAIR OR REPLACE DEFECTIVE PRODUCTS IS THE SOLE AND  
EXCLUSIVE REMEDY PROVIDED TO THE CUSTOMER FOR BREACH OF  
THIS WARRANTY. TEKTRONIX AND ITS VENDORS WILL NOT BE LIABLE  
FOR ANY INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL  
DAMAGES IRRESPECTIVE OF WHETHER TEKTRONIX OR THE VENDOR  
HAS ADVANCE NOTICE OF THE POSSIBILITY OF SUCH DAMAGES.  
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Table of Contents  
General Safety Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Service Safety Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Contacting Tektronix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
v
vii  
viii  
Product Features and Accessories . . . . . . . . . . . . . . . . . . . . .  
Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Features and Standard Accessories . . . . . . . . . . . . . . . . . . . . . .  
Optional Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
1
2
3
7
Operating Basics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Instruments with the TEKPROBE Interface (Tektronix TDS 400,  
500, 600, and 700 Series Oscilloscopes) . . . . . . . . . . . . . . .  
Instruments without the TEKPROBE Interface . . . . . . . . . . . .  
Input Voltage Limits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Maximum Input Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Common-Mode Signal Range . . . . . . . . . . . . . . . . . . . . . . . . . .  
Differential-Mode Signal Range . . . . . . . . . . . . . . . . . . . . . . . .  
Common-Mode Rejection . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Probing Techniques to Maximize CMRR . . . . . . . . . . . . . . . . .  
Electrical Effects of Accessories . . . . . . . . . . . . . . . . . . . . . . . .  
Input Impedance and Probe Loading . . . . . . . . . . . . . . . . . . . . .  
Probe Grounding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
9
9
10  
10  
10  
11  
11  
11  
11  
12  
13  
14  
15  
Functional Check . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
17  
Reference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Problems with Single-Ended Measurements . . . . . . . . . . . . . . .  
Differential Measurements . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Common-Mode Rejection Ratio . . . . . . . . . . . . . . . . . . . . . . . .  
Assessing CMRR Error . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Input Impedance Effects on CMRR . . . . . . . . . . . . . . . . . . . . .  
Extending the Input Leads . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Extending the Ground Lead . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Extending the Probe Output . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Terminating the Probe . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Effect of Extending the Output Cable . . . . . . . . . . . . . . . . . . . .  
Using the Probe with Other Instruments . . . . . . . . . . . . . . . . . .  
19  
19  
19  
20  
20  
21  
21  
22  
22  
22  
23  
23  
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Table of Contents  
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
25  
25  
26  
30  
Warranted Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Typical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Nominal Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Theory of Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Probe Head and Cable Assembly . . . . . . . . . . . . . . . . . . . . . . .  
Compensation Box . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Offset Amplifier . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Probe Identification EEPROM . . . . . . . . . . . . . . . . . . . . . . . . .  
TEKPROBE Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
33  
34  
34  
34  
34  
35  
Performance Verification . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Equipment Required . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Equipment Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Probe Calibration Fixture . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Using the Probe Calibration Fixture . . . . . . . . . . . . . . . . . . . . .  
Output Offset Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
DC Gain Accuracy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Rise Time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
37  
37  
38  
39  
39  
41  
41  
43  
Adjustments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Equipment Required . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Removing the Compensation Box Cover . . . . . . . . . . . . . . . . .  
Offset Zero and DC CMRR . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Offset Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Replacing the Compensation Box Cover . . . . . . . . . . . . . . . . .  
47  
47  
48  
50  
53  
54  
Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Replacing TEKPROBE Interface Pins . . . . . . . . . . . . . . . . . . .  
Removing and Replacing the TEKPROBE Interface Collar . .  
Inspection and Cleaning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Replacement Parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Preparation for Shipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
55  
55  
56  
57  
57  
57  
Replaceable Parts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Parts Ordering Information . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Using the Replaceable Parts List . . . . . . . . . . . . . . . . . . . . . . . .  
Item Names . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Indentation System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Abbreviations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
59  
59  
60  
60  
60  
60  
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Table of Contents  
List of Figures  
Figure 1: P6330 differential probe . . . . . . . . . . . . . . . . . . . . . .  
Figure 2: Input connector of TEKPROBE interface . . . . . . . . .  
1
10  
12  
12  
13  
14  
15  
17  
20  
22  
28  
28  
29  
33  
35  
39  
40  
41  
42  
43  
44  
Figure 3: Using the variable spacing adapter . . . . . . . . . . . . . .  
Figure 4: Using the TwinFoot adapter . . . . . . . . . . . . . . . . . . . .  
Figure 5: Typical effects on a signal using probe tip adapters .  
Figure 6: Typical probe input model . . . . . . . . . . . . . . . . . . . . .  
Figure 7: Probe ground input . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Figure 8: Probe functional check connections . . . . . . . . . . . . .  
Figure 9: Simplified model of a differential amplifier . . . . . . .  
Figure 10: Twisting the input leads . . . . . . . . . . . . . . . . . . . . . .  
Figure 11: Typical common-mode gain . . . . . . . . . . . . . . . . . . .  
Figure 12: Typical differential input impedance vs frequency .  
Figure 13: Probe head and compensation box dimensions . . . .  
Figure 14: Simplified schematic diagram . . . . . . . . . . . . . . . . .  
Figure 15: TEKPROBE interface . . . . . . . . . . . . . . . . . . . . . . .  
Figure 16: Probe Calibration Fixture . . . . . . . . . . . . . . . . . . . . .  
Figure 17: Probe Calibration Fixture test points . . . . . . . . . . . .  
Figure 18: Setup for the output offset voltage test . . . . . . . . . .  
Figure 19: DC Gain Accuracy setup . . . . . . . . . . . . . . . . . . . . .  
Figure 20: Test system rise time setup . . . . . . . . . . . . . . . . . . .  
Figure 21: Test system rise time setup with probe . . . . . . . . . .  
Figure 22: Verifying both probe pins are contacting the  
DM test points . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  
Figure 23: Removing the compensation box cover . . . . . . . . . .  
Figure 24: Adjustment and test point locations . . . . . . . . . . . . .  
Figure 25: Offset zero and DC CMRR setup . . . . . . . . . . . . . .  
Figure 26: P6330 offset range setup . . . . . . . . . . . . . . . . . . . . .  
Figure 27: Replacing the compensation box cover . . . . . . . . . .  
Figure 28: Replacing TEKPROBE interface pins . . . . . . . . . . .  
Figure 29: Replacing the TEKPROBE interface collar . . . . . .  
Figure 30: P6330 replaceable parts . . . . . . . . . . . . . . . . . . . . . .  
Figure 31: P6330 standard accessories . . . . . . . . . . . . . . . . . . .  
Figure 32: P6330 optional accessories . . . . . . . . . . . . . . . . . . .  
45  
48  
49  
51  
53  
54  
55  
56  
61  
63  
65  
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Table of Contents  
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General Safety Summary  
Review the following safety precautions to avoid injury and prevent  
damage to this product or any products connected to it. To avoid  
potential hazards, use this product only as specified.  
To Avoid Fire or Personal Injury  
Connect and Disconnect Properly. Connect the probe output to the  
measurement instrument before connecting the probe to the circuit  
under test. Disconnect the probe input and the probe ground from the  
circuit under test before disconnecting the probe from the measure-  
ment instrument.  
Observe All Terminal Ratings. To avoid fire or shock hazard, observe all  
ratings and markings on the product. Consult the product manual for  
further ratings information before making connections to the product.  
The common terminal is at ground potential. Do not connect the  
common terminal to elevated voltages.  
Do Not Operate Without Covers. Do not operate this product with  
covers or panels removed.  
Do Not Operate With Suspected Failures. If you suspect there is damage  
to this product, have it inspected by qualified service personnel.  
Do Not Operate in Wet/Damp Conditions.  
Do Not Operate in an Explosive Atmosphere.  
Keep Product Surfaces Clean and Dry.  
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General Safety Summary  
Safety Terms and Symbols  
Terms in This Manual. These terms may appear in this manual:  
WARNING. Warning statements identify conditions or practices that  
could result in injury or loss of life.  
CAUTION. Caution statements identify conditions or practices that  
could result in damage to this product or other property.  
Terms on the Product. These terms may appear on the product:  
DANGER indicates an injury hazard immediately accessible as you  
read the marking.  
WARNING indicates an injury hazard not immediately accessible as  
you read the marking.  
CAUTION indicates a hazard to property including the product.  
Symbols on the Product. These symbols may appear on the product:  
CAUTION  
Refer to Manual  
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Service Safety Summary  
Only qualified personnel should perform service procedures. Read  
this Service Safety Summary and the General Safety Summary before  
performing any service procedures.  
Do Not Service Alone. Do not perform internal service or adjustments  
of this product unless another person capable of rendering first aid  
and resuscitation is present.  
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Service Safety Summary  
Contacting Tektronix  
Phone  
1-800-833-9200*  
Address  
Tektronix, Inc.  
Department or name (if known)  
14200 SW Karl Braun Drive  
P.O. Box 500  
Beaverton, OR 97077  
USA  
Web site  
Sales  
support  
1-800-833-9200, select option 1*  
Service sup- 1-800-833-9200, select option 2*  
port  
Technical  
support  
1-800-833-9200, select option 3*  
6:00 a.m. - 5:00 p.m. Pacific time  
*
This phone number is toll free in North America. After office  
hours, please leave a voice mail message.  
Outside North America, contact a Tektronix sales office or  
distributor; see the Tektronix web site for a list of offices.  
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Product Features and Accessories  
The P6330 is a high-bandwidth (3.5 GHz) active differential probe  
with a miniaturized probe head design. The probe has low circuit  
loading, high common-mode rejection, and comes with a variety of  
accessories for connecting to surface-mount devices and other  
components.  
The P6330 probe uses the TEKPROBE interface, which provides  
power, selects the correct display scaling, and automatically sets the  
50 termination on the oscilloscope input. The TEKPROBE  
interface is standard on many Tektronix TDS series oscilloscopes.  
The Tektronix 1103 TEKPROBE Power Supply can be used for  
instruments without the TEKPROBE interface (refer to page 7).  
Figure 1: P6330 differential probe  
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Product Features and Accessories  
Options  
The following options are available when ordering the P6330 probe:  
H Option D1 - Calibration Data  
H Option C3 - 3 years Calibration Service  
H Option D3 - 3 years Calibration Data (requires Option C3)  
H Option R3 - 3 years Extended Warranty  
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Product Features and Accessories  
Features and Standard Accessories  
Table 1 shows the features and standard accessories of the P6330  
differential probe.  
Table 1: P6330 features and standard accessories  
Feature/Accessory  
Description  
TEKPROBE interface. The TEKPROBE interface supplies  
power to the probe, selects the correct display scaling, and  
automatically sets the 50 termination on the oscilloscope input.  
If your oscilloscope does not have the TEKPROBE interface, you  
can use the optional 1103 power supply (refer to page 7).  
Input connections. The plus and minus connections of the probe  
head accept the standard and optional probe accessories (some  
of which connect through the square pin adapter).  
+
WARNING: Skin penetration hazard. To prevent injury, install the  
probe tip cover when the probe is not in use. The probe tips are  
extremely sharp to ensure good contact and measurement  
integrity.  
Ground  
-
Probe tip cover. The probe tips are extremely sharp to ensure  
good contact and measurement integrity. When not using the  
probe, slide the probe tip cover over the probe head to prevent  
damage to the probe tips and to protect yourself from personal  
injury.  
Tektronix part number: 200-4236-00  
Three-inch ground lead (2 ea). Use the ground lead for  
connecting the probe ground to the circuit, if needed. The  
socketed end of the lead may be connected to accessories, or  
fitted onto 0.025-inch pins.  
Tektronix part number: 196-3469-00 (package of 2)  
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Product Features and Accessories  
Table 1: P6330 features and standard accessories (Cont.)  
Feature/Accessory  
Description  
Variable spacing adapter (4 ea). The variable spacing adapter  
fits over the probe tip. Push the adapter onto the probe tip until it  
seats against the probe head.  
Use the variable spacing adapter to probe any two adjacent leads  
or test points spaced between 0.020 and 0.180-inches apart.  
Adjust the articulated pins by gently rotating them using a pair of  
tweezers.  
NOTE: The articulated pins can be bent, but they are fragile. Use  
extreme care when bending the pins.  
The elastomeric contacts inside the adapter are rated for 50 -- 75  
insertion cycles with the probe tip. Replace the adapter after  
exceeding these limits to avoid unreliable operation.  
Seated  
against  
probe head  
Tektronix part number: 016-1885-00 (package of 4)  
Square pin adapter (4 ea). Push the square pin adapter onto the  
probe tip until it seats against the probe head. Use the square pin  
adapter to connect the probe to other accessories, such as the  
Y-lead adapter or TwinFoot adapter. The inputs on the adapter  
are spaced 0.100-inches apart.  
CAUTION: To avoid damaging the square pin connectors, do not  
insert anything larger than a 0.025-inch square pin into the inputs.  
The elastomeric contacts inside the adapter are rated for 50 -- 75  
insertion cycles with the probe tip. Replace the adapter after  
exceeding these limits to avoid unreliable operation.  
Seated  
against  
probe head  
Tektronix part number: 016-1884-00 (package of 4)  
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Product Features and Accessories  
Table 1: P6330 features and standard accessories (Cont.)  
Feature/Accessory  
Description  
TwinFoot adapter (4 ea). Use the TwinFoot adapter to probe two  
adjacent leads on a surface-mount integrated circuit. The  
TwinFoot adapter connects to the probe through the square pin  
adapter. Flexible fingers adapt to a range of lead spacings. See  
Figure 4 on page 12.  
Tektronix part number: 016-1785-00 (package of 4)  
Y-lead adapter (2 ea). The Y-lead adapter connects to the probe  
through the square pin adapter. The socketed ends of the leads  
may be connected to the probe tips and accessories, or fitted onto  
0.025-inch pins.  
Tektronix part number: 196-3468-00 (package of 2)  
X-lead adapter (2 ea). The X-lead adapter connects between  
accessories fitted with 0.025-inch pins, such as the SMT KlipChip  
and Micro KlipChip adapters.  
You can use the X-lead adapter with the adapters below to make  
connections between the probe tip and your circuit under test.  
Be aware of the electrical effects of the added lead length of the  
adapters, especially as circuit frequencies increase.  
Tektronix part number: 196-3473-XX (package of 1)  
SMT KlipChip adapter (2 ea). Use this accessory to probe the  
leads on dual-in-line packages (DIP). The 0.025-inch pins  
recessed in the adapter body may be connected to the X- and  
Y-lead adapters, and the 3-inch ground leads.  
Tektronix part number: 206-0364-XX (package of 1)  
Color marker bands  
Color marker bands (10 ea). Attach matching pairs of the color  
marker bands onto the cable at the head and compensation box  
of each probe. The marker bands enable quick verification of  
which probe is connected to which instrument channel.  
Tektronix part number: 016-1315-00 (package of 10)  
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Product Features and Accessories  
Table 1: P6330 features and standard accessories (Cont.)  
Feature/Accessory  
Description  
Plastic accessory box. Use the plastic box to store the probe  
accessories when not in use.  
Tektronix part number: 006-7164-00  
Instrument case. The instrument case protects the probe from  
harsh environments and provides room for storing optional  
accessories.  
Tektronix part number: 016-1879-XX  
Calibration certificate. A certificate of traceable calibration is  
provided with every instrument shipped.  
Instruction Manual. Provides instructions for operating the  
P6330 differential probe and procedures for verifying the  
performance, adjusting, and maintaining the probe.  
Tektronix part number: 071-0757-XX  
Accessory reorder sheet.  
The accessory reorder sheet provides photos and part numbers  
for identifying standard and optional accessories that are  
compatible with your probe.  
Tektronix part number 001-1362-XX  
Antistatic wrist strap. When using the probe, always work at an  
antistatic work station and wear the antistatic wrist strap.  
Tektronix part number: 006-3415-04  
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Product Features and Accessories  
Optional Accessories  
Table 2 shows the optional accessories that you can order for the  
P6330 differential probe.  
Table 2: Optional accessories  
Accessory  
Description  
Release tool. Use for opening the compensation box to access  
adjustments.  
Order Tektronix part number 003-1383-00  
Adjustment tool. Use for making internal adjustments to the  
probe.  
Order Tektronix part number 003-0675-01  
Probe calibration fixture. Use the probe calibration fixture to  
perform some of the calibration procedures. The calibration fixture  
connects to signal sources used to test the probe characteristics.  
Refer to page 39 for details on using the fixture.  
Order Tektronix part number 067-0419-XX  
1103 Power supply. Order the 1103 power supply for  
performance verification procedures, and for instruments that do  
not have the TEKPROBE Interface. Power cord options are  
available for the following countries or regions.  
Standard. North America and Japan  
Option A1. European  
Option A2. UK  
Option A3. Australia  
Option A5. Switzerland  
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Product Features and Accessories  
Table 2: Optional accessories (Cont.)  
Accessory  
Description  
50 termination. Terminates the output of the 1103 power  
supply to the required 50 if the oscilloscope does not have a  
50 input setting. Order Tektronix part number 011-0049-01.  
50 BNC cable. Connects to the 1103 output.  
Order Tektronix part number: 012-0076-00  
IEEE1394 Adapter. The IEEE1394 Adapter allows you to probe  
signals on the bus, external to system enclosures, without  
disturbing system operation. The adapter maintains a balanced  
55 signal path and can be used in both single-ended and  
differential modes.  
Order Tektronix part number: 679-5027-00  
Micro KlipChip adapters (2 ea). Use the adapters to probe the  
leads on integrated circuits that are surface-mounted. The  
0.025-inch pin at the back of the adapter may be connected to the  
X- and Y-lead adapters, and the 3-inch ground leads.  
Order Tektronix part number: SMK4 (package of 4)  
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Operating Basics  
This section discusses operating considerations and probing  
techniques. For more detailed information about differential  
measurements and common-mode rejection ratio (CMRR), see the  
Reference section on page 19.  
The P6330 probe design is optimized for high bandwidth, low  
capacitance applications; it is not a general purpose probe. The probe  
head and tips are miniaturized for electrical characteristics and  
access to dense circuitry, and must be handled carefully. Rough or  
careless use will likely damage the probe.  
To avoid damaging the probe tips, minimize your lateral pressure on  
the tips. Always probe as directly straight onto the circuit (perpendic-  
ular) as possible. The probe tips are extremely sharp to ensure good  
contact and measurement integrity.  
WARNING. Skin penetration hazard. Use care when handling the  
probe. To prevent injury and/or probe damage, install the protective  
cover over the probe tips when the probe is not in use.  
Installation  
Before you connect the output of the P6330 differential probe,  
determine whether or not your oscilloscope has a TEKPROBE  
interface. See Figure 2 on page 10.  
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Operating Basics  
Figure 2: Input connector of TEKPROBE interface  
Instruments with the TEKPROBE Interface (Tektronix TDS 400, 500, 600,  
and 700 Series Oscilloscopes)  
On instruments that have the TEKPROBE interface, simply connect  
the probe to the input. The TEKPROBE interface provides power,  
selects the correct display scaling, and automatically sets the 50 Ω  
termination on the oscilloscope input.  
NOTE. TDS 400 and TDS 400A series oscilloscopes do not interpret  
the scale factor coding of the P6330 differential probe. To correct for  
this problem, divide the measurement (or scale factor) by 5.  
Instruments without the TEKPROBE Interface  
On instruments that do not have the TEKPROBE interface, you must  
order the optional 1103 power supply (refer to page 7). Each 1103  
can supply power for two probes. The input of the oscilloscope must  
also terminate into 50 . Refer to page 22 for information on the  
effects of extending the output of the probe.  
Input Voltage Limits  
The P6330 differential probe is designed to probe low-voltage  
circuits. Before probing a voltage, take into account the limits for  
maximum input voltage, the common-mode signal range, and the  
differential-mode signal range. For specific limits, see Specifications  
on page 25.  
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Operating Basics  
Maximum Input Voltage  
The maximum input voltage is the maximum voltage to ground that  
the inputs can withstand without damaging the input circuitry of the  
probe.  
CAUTION. To avoid damaging the inputs of the P6330 differential  
probe, do not apply more than 15 V (DC + peak AC) between each  
input and ground.  
Common-Mode Signal Range  
The common-mode signal range is the maximum voltage that you  
can apply to each input, with respect to earth ground, without  
saturating the input circuitry of the probe. A common-mode voltage  
that exceeds the common-mode signal range may produce an  
erroneous output waveform even when the differential-mode  
specification is met. For Specifications, refer to page 25.  
Differential-Mode Signal Range  
The differential-mode signal range is the maximum voltage  
difference between the plus and minus inputs that the probe can  
accept without distorting the signal. The distortion from a voltage  
that is too large can result in a clipped or otherwise distorted and  
inaccurate measurement. For Specifications, refer to page 25.  
Common-Mode Rejection  
The common-mode rejection ratio (CMRR) is the ability of a probe  
to reject signals that are common to both inputs. More precisely,  
CMRR is the ratio of the differential gain to the common-mode gain.  
The higher the ratio, the greater the ability to reject common-mode  
signals.  
Common-mode rejection decreases as the input frequency increases.  
Figure 11 on page 28 is a plot of typical CMRR of the probe versus  
input frequency. For additional information about CMRR, see  
page 20.  
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Operating Basics  
Probing Techniques to Maximize CMRR  
The common-mode rejection of the probe is highest when the probe  
is applied directly to the circuit, without using adapters. However,  
some probing tasks are made easier using accessories included with  
the probe. The accessories shown in Figures 3 and 4 achieve a high  
CMRR by minimizing the distance between the probe head and the  
signal source.  
Figure 3: Using the variable spacing adapter  
IC leads being probed  
TwinFoot adapter  
Square pin adapter  
Conductive side  
of probe tip  
Probe  
Insulated side of probe tip  
Figure 4: Using the TwinFoot adapter  
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Operating Basics  
Electrical Effects of Accessories  
The probe tip accessories included with your probe help connect to  
different types of components. While these accessories make  
connections easier, be aware that the adapter you choose may affect  
the signal you are measuring, depending on a variety of factors,  
including signal frequency, source impedance, and lead length.  
Use the probe only (without adapters) to optimize step and frequency  
response. Using the probe tip adapters adds inductance and  
capacitance, which increases step response and aberrations, and leads  
to increased ripples in frequency response. These effects increase as  
the source impedance and the measured waveform risetimes  
decrease.  
The recommended method for hands-free probing is to use the probe  
only (without adapters), with a probe positioner such as a Tektronix  
PPM203B. If you need a tip space between 0.020 and 0.180 inches  
apart, use the variable spacing adapter and the probe positioner. Use  
the square pin adapter for test points or component leads spaced  
farther than 0.180 inches apart.  
Figure 5 illustrates the typical effects on a given signal using some of  
the adapters included with your probe.  
Square pin  
adapter  
Variable  
spacing  
adapter  
Probe only  
Figure 5: Typical effects on a signal using probe tip adapters  
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Operating Basics  
Input Impedance and Probe Loading  
When you connect the probe inputs to a circuit, you are introducing a  
new resistance, capacitance, and inductance into the circuit. Each  
input of the P6330 differential probe has a characteristic input  
impedance of 50 kto ground in parallel with less than 0.4 pF. See  
Figure 6.  
For signals with low source impedance and frequency, the 50 kΩ  
input impedance on each input is large enough to prevent the inputs  
from loading the signal sources. The greater the source impedances  
and the higher the signal frequencies, the more you must take these  
factors into account.  
+ Input  
0.4 pF  
50 k  
Ground  
0.4 pF  
0.1 pF  
50 kΩ  
Input  
-
Figure 6: Typical probe input model  
As the impedance of the signal source on an input increases, the  
more the probe loads the source and reduces the signal amplitude.  
The frequency of the signal also affects signal measurement. As the  
frequency of the signal increases, the input impedance of the probe  
decreases. The lower the impedance of the probe relative to that of  
the source, the more the probe loads the circuit under test and  
reduces the signal amplitude. For a graph of frequency versus input  
impedance, refer to Figure 12 on page 28.  
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Operating Basics  
Probe Grounding  
In addition to the plus and minus inputs on the probe head, there is  
also a ground (common) input. The ground lead slides into the notch  
on the side of the probe. See Figure 7.  
+
-
Ground  
Figure 7: Probe ground input  
CAUTION. To avoid damaging the circuitry under test, connect the  
probe ground (common), if used, to a ground-reference point only.  
In most applications, the common-mode impedance to ground is  
greater than the differential impedance. Adding the probe ground  
lead does not improve the high-frequency performance of the  
measurement. You can use the probe to take a differential measure-  
ment regardless of whether or not the ground (common) is con-  
nected.  
There are some applications that may require a ground reference  
connection to maintain measurement accuracy. Generally this is  
necessary when probing circuits which are fully isolated from  
ground, such as battery operated devices.  
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Operating Basics  
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Functional Check  
After installing the probe on the oscilloscope, a functional check  
may be performed using the PROBE COMPENSATION connections  
on the front panel of the oscilloscope. See Figure 8.  
Figure 8: Probe functional check connections  
1. Connect the probe to the oscilloscope.  
2. Set the oscilloscope to display the probe channel.  
3. Connect the square pin adapter to the probe tip, and connect the  
Y-lead adapter to the square pin adapter. Plug the SMT KlipChips  
into the Y-lead adapter.  
4. Connect the SMT KlipChips to the PROBE COMPENSATION  
connections on the oscilloscope.  
5. Adjust the oscilloscope to display a stable calibration waveform.  
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Functional Check  
NOTE. If your instrument supports probe calibration routines, now is  
a good time to perform them.  
6. Disconnect the probe from the PROBE COMPENSATION  
connector and connect the two KlipChips together.  
7. With the probe offset set to 0.0 V, the oscilloscope display should  
be at the ground reference.  
8. Set the oscilloscope volts/division to 500 mV.  
9. Adjust the probe offset. The displayed waveform should vary  
between approximately +1.0 V and -1.0 V.  
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Reference  
This section contains important reference information about  
differential measurements and how to increase the accuracy of your  
measurements.  
Problems with Single-Ended Measurements  
While suitable in many applications, single-ended measurements can  
present problems in the following situations:  
H When the signal is not referenced to earth ground  
H When the signal being measured is distorted or changed by  
connecting or disconnecting the probe ground reference lead  
Differential Measurements  
Devices designed to make differential measurements avoid the  
problems posed by single-ended systems. These devices include a  
variety of differential probes, differential amplifiers, and isolators.  
The differential amplifier (Figure 9) is at the heart of any device or  
system designed to make differential measurements. Ideally, the  
differential amplifier rejects any voltage that is common to the inputs  
and amplifies any difference between the inputs. Voltage that is  
common to both inputs is often referred to as the Common-Mode  
Voltage (VCM) and voltage that is different as the Differential-Mode  
Voltage (VDM).  
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Reference  
+
-
V
out  
+
+
Differential  
mode  
V
V
DM  
Common  
mode  
CM  
Figure 9: Simplified model of a differential amplifier  
Common-Mode Rejection Ratio  
In reality, differential amplifiers cannot reject all of the common-  
mode signal. The ability of a differential amplifier to reject the  
common-mode signal is expressed as the Common-Mode Rejection  
Ratio (CMRR). The CMRR is the differential-mode gain (ADM  
)
divided by the common-mode gain (ACM). It is expressed either as a  
ratio or in dB.  
ADM  
ACM  
ADM  
ACM  
dB = 20 log  
CMRR =  
CMRR generally is highest (best) at DC and degrades with  
increasing frequency.  
Assessing CMRR Error  
Figure 11 on page 28 shows the CMRR of the P6330 differential  
probe. This derating chart assumes a common-mode signal that is  
sinusoidal.  
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Reference  
A quick way to assess the magnitude of CMRR error when the  
common-mode signal is not sinusoidal is to connect both leads to the  
same point in the circuit. The oscilloscope will display only the  
common-mode component which is not fully rejected by the probe.  
While this technique may not give you entirely accurate measure-  
ments, it does allow you to determine if the magnitude of the  
common-mode error signal is significant.  
Input Impedance Effects on CMRR  
The lower the input impedance of the probe relative to the source  
impedance, the lower the CMRR. See Figure 12 on page 28.  
Significant differences in the source impedance driving the two  
inputs will also lower the CMRR.  
Extending the Input Leads  
At times it may be necessary to extend the probe inputs with wires or  
a probe tip adapter. When you do this, you should minimize the lead  
lengths to optimize common-mode rejection and twist the input leads  
together as shown in Figure 10.  
Twisting the input leads together does increase capacitance that may  
degrade high-frequency performance. You should take into account  
any effects caused by the extended leads when you take a measure-  
ment.  
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Reference  
Square pin  
adapter  
Figure 10: Twisting the input leads  
Extending the Ground Lead  
Extending the ground lead will have little, if any, affect on your  
measurements. In most circuits, the ground path from the differential  
source has sufficiently high impedance to damp out any ringing  
caused by lead inductance.  
Extending the Probe Output  
With the 1103 TEKPROBE power supply, it is possible to extend the  
output of the probe to connect the probe to other types of measure-  
ment instruments or to connect the probe to a signal source that is  
outside the reach of the probe.  
Terminating the Probe  
The probe must terminate into 50 at the input of the measurement  
instrument. Use the 1103 TEKPROBE power supply to adapt the  
differential probe and set the input impedance of the measurement  
instrument to 50 . If the measurement instrument does not support  
50 input termination, connect a 50 coaxial terminator on the  
input.  
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Reference  
Effect of Extending the Output Cable  
As the frequency of a signal increases, current flow concentrates at  
the outer edges of the conductor, effectively increasing the  
impedance. This effect is known as skin loss. The P6330 probe  
contains circuitry to compensate for skin loss.  
The compensation provides flat response with the probe cable.  
Extending the length of the output cable increases the amount of skin  
loss beyond the range of compensation correction. Minimizing the  
length of cable extension reduces the attenuation.  
In critical applications which require high amplitude accuracy, you  
should first characterize the response of the probe with the extension  
using a leveled sinewave generator and power meter. Then, you can  
factor the characterization results into the measurement.  
Using the Probe with Other Instruments  
You can use the P6330 differential probe with other types of  
measurement instruments, such as spectrum analyzers, time internal  
analyzers, and network analyzers.  
When using the differential probes with these instruments, you must  
use the 1103 TEKPROBE power supply, and normalize the probe  
with the instrument before making a measurement.  
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Reference  
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Specifications  
The specifications in Tables 3 through 6 apply to a P6330 probe  
installed on a TDS8000 oscilloscope. When the probe is used with  
another oscilloscope, the oscilloscope must have an input impedance  
of 50 . The probe must have a warm-up period of at least  
20 minutes and be in an environment that does not exceed the limits  
described in Table 3. Specifications for the P6330 differential probe  
fall into three categories: warranted, typical, and nominal character-  
istics.  
Warranted Characteristics  
Warranted characteristics (Table 3) describe guaranteed performance  
within tolerance limits or certain type-tested requirements.  
Warranted characteristics that have checks in the Performance  
Verification section are marked with the n symbol.  
Table 3: Warranted electrical characteristics  
Characteristic  
Description  
0.2 2%  
n DC gain  
n Output offset voltage  
10 mV (+ 20_ C to + 30_ C,  
+ 68_ F to + 86_ F)  
50 mV displayed on screen with  
TEKPROBE interface  
140 ps (130 ps typical)  
n Rise time (probe only)  
Maximum nondestructive input voltage  
15 V(DC + peak AC) between signal and  
common of the same channel.  
Delay variation (probe-to-probe)  
Temperature  
600 ps maximum  
Operating: 0 to + 40_ C  
(+ 32 to + 104_ F)  
Nonoperating: -- 55 to + 75_ C  
1
(--131 to + 167_ F)  
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Specifications  
Table 3: Warranted electrical characteristics (Cont.)  
Characteristic  
Description  
Humidity  
Operating: 0--90% RH, tested at  
+ 30 to + 40_ C (+ 68 to + 104_ F)  
Nonoperating: 0--90% RH, tested at  
+ 30 to + 60_ C (+ 68 to + 140_ F)  
1
See warning that follows.  
WARNING. To avoid a burn hazard at high ambient temperatures, do  
not touch the probe with bare hands at nonoperating temperatures  
above + 70_ C. Allow sufficient time for the probe to cool before  
handling.  
Typical Characteristics  
Typical characteristics (Tables 4 and 5) describe typical but not  
guaranteed performance.  
Table 4: Typical electrical characteristics  
Characteristic  
Description  
Bandwidth (probe only)  
Differential signal range  
Differential offset range  
Linearity  
DC to 3.5 GHz (-- 3dB)  
2.0 V  
1 V  
1% or less of dynamic range  
+ 5 V to --4 V  
Common-mode signal range  
Common-mode rejection ratio  
60 dB at DC  
55 dB at 1 MHz  
45 dB at 30 MHz  
25 dB at 1 GHz  
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Specifications  
Table 4: Typical electrical characteristics (Cont.)  
Characteristic  
Description  
Delay time  
5.4 ns  
Differential input resistance, DC coupled  
Differential input capacitance  
100 k2%  
< 0.3 pF at 100 MHz  
50 k2% (per side)  
Common-mode input resistance, DC  
coupled  
Common-mode input capacitance  
Input impedance  
< 0.45 pF at 100 MHz (per side)  
See Figure 12  
Noise, referred to input  
35 nV/Hz  
DC Offset Scale Accuracy  
(gain of offset signal path)  
2.0%  
DC Offset Drift  
150 V/°C or less at output of probe  
0.75 mV/°C or less displayed on screen with  
TEKPROBE interface  
DC Voltage Measurement Accuracy  
(referred to input)  
[2% of input + (2% of offset) + 50.0 mV +  
40.0 mV]  
gain error = 2% of input voltage  
offset gain error =2% of effective offset at  
probe tip  
output zero = 50 mV effective at probe tip  
linearity error = 1.0% of 4.0 V dynamic  
range (40.0 mV)  
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Specifications  
Figure 11 shows the typical common-mode gain of the probe. The  
CMRR can be approximated by subtracting the common-mode gain  
from the -14 dB reference level. For example, -80 dB CM gain  
equals +66 dB CMRR.  
- 4 4  
- 5 2  
- 6 0  
- 6 8  
- 7 6  
- 8 4  
1 MHz  
10 MHz  
100 MHz  
1 GHz  
Frequency  
Figure 11: Typical common-mode gain  
The graph in Figure 12 represents simulation results of a first order  
model of the probe input.  
Impedance ()  
100 k  
10 k  
1 k  
100  
10  
1 M  
10 M  
100 M  
Frequency (Hz)  
1 G  
Figure 12: Typical differential input impedance vs frequency  
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Specifications  
Table 5: Typical mechanical characteristics  
Dimensions, input connection  
2.5 mm (0.99 in) pins on  
2.54 mm (0.100 in) centers  
Dimensions, control box  
Dimensions, probe head  
82 mm × 28 mm × 23 mm  
(3.2 in × 1.1 in × 0.9 in)  
59 mm × 7.7 mm × 5.1 mm  
(2.3 in × 0.3 in × 0.2 in)  
Dimensions, output cable  
Unit weight (probe only)  
1.3 m (51 in)  
160 g (5.4 oz)  
1.1 in  
0.3 in  
2.3 in  
0.9 in  
0.2 in  
0.1 in  
3.2 in  
Figure 13: Probe head and compensation box dimensions  
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Specifications  
Nominal Characteristics  
Nominal characteristics (Table 6) describe guaranteed traits, but the  
traits do not have tolerance limits.  
Table 6: Nominal electrical characteristics  
Input configuration  
Differential (two inputs, + and -- ), with case  
ground  
Attenuation  
Input coupling  
Termination  
5X  
DC  
Terminate output into 50 Ω  
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WARNING  
The following servicing instructions are for use only by  
qualified personnel. To avoid injury, do not perform any  
servicing other than that stated in the operating instructions  
unless you are qualified to do so. Refer to all safety  
summaries before performing any service.  
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Theory of Operation  
There are no user replaceable parts within the probe or the  
compensation box; however, this theory of operation is provided to  
assist you in isolating failures to either the probe or the host  
oscilloscope. Refer to Figure 14 for a simplified schematic of the  
probe.  
Probe Head  
Compensation Box  
Oscilloscope  
Signal Out  
Probe Tip  
IN +  
Probe Tip  
Ampifier  
+ offset  
Probe ID Out  
Clock In  
EEPROM  
Offset Ampifier  
+
in  
-
1 V Offset  
Offset  
Zero  
- offset  
+7 V  
+
-
Probe Tip  
IN -  
Offset  
Gain  
Linear  
regulator  
+15 V  
+5 V  
- 5 V  
Ground  
Probe  
Cable  
TEKPROBE  
Interface  
Figure 14: Simplified schematic diagram  
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Theory of Operation  
Probe Head and Cable Assembly  
The probe head assembly contains an active amplifier circuit that  
buffers and amplifies the input signal. The amplifier receives power  
and an offset level from the compensation box assembly via the  
cable assembly.  
All signal amplification and buffering is performed in the probe head  
assembly. No further amplification takes place in the compensation  
box.  
Compensation Box  
The compensation box contains the following circuits:  
H Offset amplifier  
H Probe identification EEPROM  
H TEKPROBE interface  
H DC CMRR adjustment circuitry  
H VCC, +7 V linear regulator  
Offset Amplifier  
The offset amplifier is used to offset the DC component of the input  
signal so that it stays at the optimal point of the linear dynamic range  
of the probe.  
The offset amplifier receives offset information as a 1 VDC voltage  
from the oscilloscope. The amplifier then amplifies it to match the  
probe characteristics and applies it to the probe hybrid circuit.  
The offset amplifier has two adjustments: offset zero and offset gain.  
These adjustments rarely need attention; however, detailed  
adjustment instructions are in the Adjustments section on page 47.  
Probe Identification EEPROM  
The probe identification EEPROM is used to configure the  
oscilloscope to the probe. The EEPROM receives a clock input from  
the oscilloscope, and information about the probe is passed to the  
oscilloscope.  
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Theory of Operation  
TEKPROBE Interface  
The TEKPROBE interface provides a communication path between  
the probe and the oscilloscope. Contact pins provide power, signal,  
offset, and data transfer for the probe identification EEPROM.  
Figure 15 shows the TEKPROBE interface pin functions. Refer to  
the service documenation for your oscilloscope for more detailed  
specifications.  
-15 V  
- 5 V  
Offset  
Ground  
Signal  
Data  
Clock  
+5 V  
+15 V  
Figure 15: TEKPROBE interface  
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Theory of Operation  
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Performance Verification  
Use the following procedures to verify specifications of the P6330  
probe. Before beginning these procedures, refer to page 46 and  
photocopy the test record, and use it to record the performance test  
results. The recommended calibration interval is one year.  
These procedures test the following specifications:  
H Output offset voltage  
H DC gain accuracy  
H Rise time  
Equipment Required  
Refer to Table 7 for a list of the equipment required to verify the  
performance of your probe.  
Table 7: Equipment required for performance verification  
Item description  
Performance requirement Recommended example  
High Speed Sampling  
Oscilloscope  
10 GHz bandwidth  
Tektronix TDS8000 with  
80E04 module or 11800 with  
SD24 module  
Probe Calibration Fixture  
Probe Positioner  
Power Supply  
See page 39  
067-0419-00  
Tektronix PPM203B  
Tektronix 1103  
Tektronix PS280  
Fluke 87 or equivalent  
011-0129-00  
TEKPROBE interface  
5.0 VDC at 1 mA  
Power Supply  
DMM (2), with leads  
Feedthrough Termination  
Coaxial cables (2)  
Coaxial cable  
0.1 mV resolution  
BNC, 50 0.05 Ω  
Male-to-Male SMA, 20 in  
Male-to-Male BNC, 50 Ω  
174-1427-00  
012-1342-00  
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Performance Verification  
Table 7: Equipment required for performance verification (Cont.)  
Item description  
Performance requirement Recommended example  
Precision coaxial cable  
Male-to-Male SMA, 1 ns  
delay  
015-0562-00  
Adapter  
SMA Female-to-Female  
SMA Female-to-BNC Male  
SMA Male jack  
015-1012-00  
015-0572-00  
131-7128-00  
103-0090-00  
Adapters (2)  
Adapter  
Adapter  
BNC Female-to-Dual  
Banana  
Adapter  
Square pin adapter  
Y-lead adapter  
016-1884-00  
196-3434-00  
206-0364-00  
Adapter  
Adapters (2)  
KlipChip adapter  
Equipment Setup  
Use this procedure to set up the equipment to test the probe.  
1. Connect the probe to the 1103 power supply.  
2. Turn on 1103 power supply.  
3. Turn on the oscilloscope.  
4. Allow 20 minutes for the equipment to warm up.  
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Performance Verification  
Probe Calibration Fixture  
Some of the procedures in this manual use a probe calibration  
fixture, Tektronix part number 067-0419-00.  
The calibration fixture provides a means to test the probe for both  
common mode and differential mode measurements. SMA  
connectors allow stimulus signals to connect to the fixture and are  
located on the front and back of the fixture. The fixture is designed  
to be used with a probe positioner, such as a Tektronix PPM203B.  
Figure 16: Probe Calibration Fixture  
Using the Probe Calibration Fixture  
1. Connect the fixture to the test circuit using an SMA cable.  
2. Connect the 50 terminator included with the fixture to the  
unused SMA connector.  
3. Insert and secure the probe in a probe positioner.  
4. Position the probe over the fixture, using either the positioner  
coarse adjustment or otherwise manipulating the positioner arm  
in place.  
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Performance Verification  
5. Using the fine position and/or pressure adjust, maneuver the  
probe so that the pins contact the CM or DM test points,  
depending on which test you are performing. (See Figure 17.)  
Common mode  
Differential mode  
Figure 17: Probe Calibration Fixture test points  
6. Verify that contact is made on both pins. (You may need to  
readjust the fine position and/or pressure adjustment to make  
positive contact with the test points.)  
7. Proceed with the specific test instructions.  
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Performance Verification  
Output Offset Voltage  
1. Connect the probe as shown in Figure 18.  
Digital multimeter  
Female BNC-to-male  
banana adapter  
CH 1  
input  
CH 1  
output  
50 precision  
terminator  
1103  
50 BNC cable  
KlipChip  
adapters  
Y-lead  
adapter  
Square pin  
adapter  
Figure 18: Setup for the output offset voltage test  
2. Set the Var/0v button on the 1103 power supply to 0v (light off).  
3. Verify that the output voltage is 0 V, 10 mV.  
DC Gain Accuracy  
1. Connect the probe input to the DC source, as shown in Figure 19  
on page 42. Monitor the source voltage with the DMM.  
2. Set the input voltage on the DC source to approximately +0.5 V.  
Record the actual voltage as Vin1.  
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Performance Verification  
Digital multimeter  
Power supply  
--  
+
KlipChip  
adapters  
P6330  
Red (+)  
Black (-)  
CH 1  
output  
CH 1  
input  
Digital multimeter  
Square pin adapter  
Y-lead adapter  
1103  
Female BNC-to-male  
banana adapter  
50 precision  
terminator  
50 BNC cable  
Figure 19: DC Gain Accuracy setup  
3. Record the output voltage as Vout1.  
4. Set the input voltage on the DC source to approximately -0.5 V.  
Record the actual voltage as Vin2.  
5. Record the output voltage as Vout2.  
6. Calculate the gain as follows: (Vout1 - Vout2) ÷ (Vin1 - Vin2).  
7. Verify that the gain is 0.2, 2%.  
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Performance Verification  
Rise Time  
This procedure verifies that the probe meets rise time specifications.  
Two rise times are measured; the test system, and the test system  
with the probe included. The probe rise time is calculated using the  
two measurements.  
1. Connect the test equipment as shown in Figure 20.  
CH 1  
output  
CH 1  
input  
SD24/ 80E04  
BNC-to-SMA adapter  
015-0572-00  
Oscilloscope  
1103  
CH1  
CH2  
SMA cable 015-0562-00  
BNC-to-SMA adapter  
015-0572-00  
SMA cable 174-1427-00  
Figure 20: Test system rise time setup  
2. Adjust the oscilloscope vertical sensitivity to 50 mV/div.  
3. Turn on the TDR pulse on the SD-24 or TDS8000 (Ch 2).  
4. Adjust the oscilloscope vertical positioning to center the signal on  
screen.  
5. Adjust the oscilloscope horizontal sensitivity to 500 ps/div.  
6. Adjust the oscilloscope horizontal positioning to place the rising  
edge of the signal where it crosses the second vertical and center  
horizontal graticule lines.  
7. Use the oscilloscope measurement capability to display rise time.  
Rise time is determined from the 10% and 90% amplitude points  
on the waveform. Record the rise time as ts.  
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Performance Verification  
If the measurement reading is not stable, use Average mode  
(16 Averages) to improve stability.  
The system rise time (ts) that you measured in step 7 represents the  
rise time of the test system without the probe. The system rise time is  
used to calculate the probe rise time (tp) in step 16.  
The following steps instruct you to assemble the test setup that  
includes the probe, as shown in Figure 21. The system and probe rise  
time (ts+p) that you measure in step 15 is used to calculate the probe  
rise time (tp) in step 16.  
BNC-to-SMA  
adapter  
015-0572-00  
CH 1  
output  
CH 1  
input  
SD24/ 80E04  
Oscilloscope  
SMA cable  
015-0562-00  
1103  
CH1  
CH2  
Probe cal fixture  
067-0419-00  
SMA cable  
174-1427-00  
P6330  
Figure 21: Test system rise time setup with probe  
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Performance Verification  
8. Disconnect the BNC-SMA adapter from the CH 1 input of the  
1103 power supply and the SMA cable.  
9. Connect the SMA cable to one input of the probe cal fixture, and  
the terminator to the other input of the probe cal fixture.  
10. Connect the probe to the 1103 power supply channel 1 input.  
11. Turn off the offset control on channel 1 of the 1103 power supply.  
12. Using the probe positioner, probe the DM test points on the probe  
calibration fixture. Compare your display to Figure 22 to verify  
that you have a valid connection with both pins.  
500 ps/div  
20% Gain  
difference  
Both pins in contact  
(-) pin not making contact  
Figure 22: Verifying both probe pins are contacting the DM test points  
13. Adjust the oscilloscope vertical scale to 10 mV/div, averaging on.  
14. Adjust the oscilloscope horizontal positioning to place the rising  
edge of the signal so that it crosses the second vertical and center  
horizontal graticule lines.  
15. Use the oscilloscope measurement capability to display rise time.  
Rise time is determined from the 10% and 90% amplitude points  
on the waveform. Record the rise time as ts+p.  
16. Calculate the probe rise time using the following formula:  
2
tp = t(s+p)2 ts  
17. Record the calculated probe rise time on the test record.  
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Performance Verification  
Test record  
Probe Model:  
Serial Number:  
Certificate Number:  
Temperature:  
RH %:  
Date of Calibration:  
Technician:  
Performance test  
Minimum Incoming Outgoing Maximum  
-- 1 0 m V  
-- 2 %  
N/A  
________ ________ + 10 mV  
________ ________ + 2 %  
________ ________ 140 ps  
Output offset voltage  
DC gain accuracy  
Rise time  
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Adjustments  
The P6330 has 3 internal controls: offset zero, offset range, and  
DC CMRR. These controls should only be adjusted after a probe  
performance verification and functional check has been performed  
on the oscilloscope, and only if a check fails to meet its specifica-  
tion.  
To make adjustments to the probe, the compensation box cover must  
be removed and the equipment allowed to warm up for 20 minutes.  
Equipment Required  
In addition to the equipment required to perform the performance  
verification, the adjustment procedures require the equipment listed  
in Table 8.  
Table 8: Additional equipment required for adjustment  
Item description  
Release tool  
Recommended example  
003-1383-00  
Adjustment tool  
003-0675-01  
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Adjustments  
Removing the Compensation Box Cover  
Follow these steps to open the compensation box.  
1. Press the optional release tool pins into the compensation box  
cover catches and gently lift the cover off a small distance. Refer  
to Figure 23.  
2. Hold the open edge apart, and use the tool to open the other side  
of the compensation box.  
3. With both sides of the box open, gently separate the two halves of  
the compensation box.  
Release tool  
Cover  
catches  
Figure 23: Removing the compensation box cover  
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Adjustments  
Figure 24 shows the location of the adjustments and test points inside  
the compensation box. Refer to Figure 24 when performing the  
adjustment procedures in this section.  
Offset zero  
CMRR  
Connector  
test points  
NC  
NC  
Blk - CMRR  
Blu - Offset  
Wht - 5V  
NC  
Offset range  
Red + 7V  
Figure 24: Adjustment and test point locations  
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Adjustments  
Offset Zero and DC CMRR  
Use the following procedures to adjust the offset zero and DC CMRR  
characteristics of the probe. Due to the interaction of the two  
adjustments, it may be necessary to repeat the procedure to optimize  
the adjustments.  
NOTE. If your oscilloscope has a probe calibration routine, clear the  
probe calibration constants at this time.  
If the offset zero is adjusted, perform a functional check of the offset  
range before closing the compensation box.  
1. Connect the probe tips together using the square pin, Y-lead, and  
KlipChip adapters.  
2. Connect the probe as shown in Figure 18 on page 41.  
3. Set the Var/0v button on the 1103 power supply to 0v (light off).  
The output offset voltage is displayed on the DMM.  
4. Adjust Offset Zero for 0.00 V 3 mV, displayed on the DMM.  
Record the actual value.  
5. Connect the probe as shown in Figure 25 on page 51. Monitor the  
source voltage with the DMM.  
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Adjustments  
Digital multimeter  
Power supply  
--  
+
KlipChip  
adapters  
P6330  
Red (+)  
Black (-)  
Digital multimeter  
CH 1  
output  
CH 1  
input  
Square pin adapter  
Y-lead adapter  
1103  
Female BNC-to-male  
banana adapter  
50 precision  
terminator  
50 BNC cable  
Figure 25: Offset zero and DC CMRR setup  
6. Set the input voltage on the DC source to 3.0 V, 10 mV.  
7. Adjust the CMRR control in the probe for an output equal to the  
value measured in step 4 on page 50, 0.1 mV.  
8. Set the input voltage on the DC source to approximately +3.0 V.  
Record the actual voltage as Vin1.  
9. Record the output voltage as Vout1.  
10. Set the input voltage on the DC source to approximately -3.0 V.  
Record the actual voltage as Vin2.  
11. Record the output voltage as Vout2.  
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Adjustments  
12. Calculate the common-mode gain (ACM) as follows:  
(Vout1 - Vout2) ÷ (Vin1 - Vin2).  
13. Calculate the CMRR as follows: 20 log (0.2/|ACM|)  
14. Reverify that the offset is 0 V, 3.0 mV (repeat steps 1  
through 3). If the offset voltage magnitude is greater than 3.0 mV,  
or if the CMRR is less than 60 dB, disconnect the probe from the  
test circuit. Repeat the procedure, beginning with step 1 on  
page 50, to compensate for the adjustment interaction.  
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Adjustments  
Offset Range  
Use this procedure to adjust the offset range of the probe. The offset  
zero of the probe must be measured before making any adjustment to  
the offset range. The offset zero voltage that you measure in the Zero  
Offset procedure (step 4 on page 50), is the target value that you  
adjust the offset range to. The offset range of the probe is approxi-  
mately -1.0 to +1.0 volts. Take care not to disturb the power supply  
settings as you perform these procedures.  
1. Connect the equipment as shown in Figure 26.  
2. Power on the 1103 power supply and turn on the offset.  
3. Refer to Figure 24 on page 49 for the location of the offset  
voltage test point. Using a second DMM, probe the test point and  
adjust the 1103 offset voltage to exactly -0.750 V.  
4. Next, use the second DMM to set the DC power supply to exactly  
+0.750 V, measured at the output of the power supply.  
5. Observe the DC value on the DMM connected to the 1103 power  
supply.  
Digital multimeter  
1103  
Power supply  
Power supply  
--  
+
KlipChip  
adapters  
50 Precision  
terminator  
Square-pin adapter  
BNC-to-dual  
Banana adapter  
Y-lead adapter  
P6330 Probe  
Figure 26: P6330 offset range setup  
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Adjustments  
6. Adjust Offset Range for a DMM reading equal to the value set in  
the Zero Offset procedure (step 4 on page 50), 3 mV. Refer to  
Figure 24 on page 49 for the location of the offset range  
adjustment.  
This completes the adjustments to the probe. Replace the compensa-  
tion box cover and do a performance verification of the probe.  
Replacing the Compensation Box Cover  
To replace the cover, follow these steps:  
1. Align the TEKPROBE interface and the tab notches with the tabs  
on the cover. Refer to Figure 27.  
2. Press the cover catches in so that the cover can be lowered.  
3. Slide the tab into the notch.  
4. Firmly press the pieces together until the cover catches snap into  
place.  
Tab  
Figure 27: Replacing the compensation box cover  
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Maintenance  
This section details the maintenance and repair procedures for the  
P6330 differential probe.  
Replacing TEKPROBE Interface Pins  
TEKPROBE interface pins can stick and fail to make contact after  
time. Periodically check to see that each of the interface pins move  
freely and fully extends out of the interface. If any pin fails to move  
freely and fully extend, it should be replaced.  
To remove a TEKPROBE interface pin, firmly grasp the pointed tip  
with pliers and pull the pin out of the connector. See Figure 28.  
No tools are required to install a replacement pin. Insert a new pin  
into the connector socket as far as possible using finger pressure. If  
necessary, seat the pin into the connector by pressing the tip gently  
but firmly against a hard surface, such as a wood block or table top.  
Figure 28: Replacing TEKPROBE interface pins  
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Maintenance  
Removing and Replacing the TEKPROBE Interface Collar  
To remove the TEKPROBE interface collar, firmly grasp the  
compensation box body with one hand and the TEKPROBE interface  
collar with the other hand. Firmly pull the interface collar off.  
To replace the collar, first note the pin configuration on the  
compensation box and their holes in the interface collar. The group  
of three pins fit through the smaller of the two holes in the interface  
collar. See Figure 29.  
Align the tab to the slot, and gently press the two pieces together.  
See Figure 29.  
Once installed, the TEKPROBE collar should rotate freely to lock  
and unlock.  
Tab  
Slot  
Figure 29: Replacing the TEKPROBE interface collar  
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Maintenance  
Inspection and Cleaning  
To prevent damage to probe materials, avoid using chemicals that  
contain benzine, benzene, toluene, xylene, acetone, or similar  
solvents.  
Do not immerse the probe or use abrasive cleaners.  
Dirt may be removed with a soft cloth dampened with a mild  
detergent and water solution, or isopropyl alcohol.  
Replacement Parts  
Refer to the Replaceable Parts section for a list of customer  
replacement parts. Due to the sophisticated design of the P6330,  
there are no user replaceable parts within the probe.  
Preparation for Shipment  
If the original packaging is unfit for use or not available, use the  
following packaging guidelines:  
1. Use a corrugated cardboard shipping carton having inside  
dimensions at least one inch greater than the probe dimensions.  
The box should have a carton test strength of at least 200 pounds.  
2. Put the probe into an antistatic bag or wrap to protect it from  
dampness.  
3. Place the probe into the box and stabilize it with light packing  
material.  
4. Seal the carton with shipping tape.  
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Maintenance  
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Replaceable Parts  
This section contains a list of replaceable parts for the P6330  
differential probe. Use this list to identify and order replacement  
parts.  
Parts Ordering Information  
Replacement parts are available from or through your local  
Tektronix, Inc. service center or representative.  
Changes to Tektronix instruments are sometimes made to accommo-  
date improved components as they become available and to give you  
the benefit of the latest circuit improvements. Therefore, when  
ordering parts, it is important to include the following information in  
your order:  
H Part number  
H Instrument type or model number  
H Instrument serial number  
H Instrument modification number, if applicable  
If a part you order has been replaced with a different or improved  
part, your local Tektronix service center or representative will  
contact you concerning any change in the part number.  
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Replaceable Parts  
Using the Replaceable Parts List  
The tabular information in the Replaceable Parts List is arranged for  
quick retrieval. Understanding the structure and features of the list  
will help you find the information you need for ordering replacement  
parts.  
Item Names  
In the Replaceable Parts List, an Item Name is separated from the  
description by a colon (:). Because of space limitations, an Item  
Name may sometimes appear as incomplete. For further Item Name  
identification, U.S. Federal Cataloging Handbook H6-1 can be used  
where possible.  
Indentation System  
This parts list is indented to show the relationship between items.  
The following example is of the indentation system used in the  
Description column:  
1
2
3
4
5
Name & Description  
Assembly and/or Component  
Attaching parts for Assembly and/or Component  
(END ATTACHING PARTS)  
Detail Part of Assembly and/or Component  
Attaching parts for Detail Part  
(END ATTACHING PARTS)  
Parts of Detail Part  
Attaching parts for Parts of Detail Part  
(END ATTACHING PARTS)  
Attaching parts always appear at the same indentation as the item it  
mounts, while the detail parts are indented to the right. Indented  
items are part of, and included with, the next higher indentation.  
Attaching parts must be purchased separately, unless otherwise  
specified.  
Abbreviations  
Abbreviations conform to American National Standards Institute  
(ANSI) standard Y1.1  
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