National Instruments Network Card SCXI 1120 User Manual

SCXI-1120  
User Manual  
Eight-Channel Isolated Analog Input Module for Signal Conditioning  
August 1994 Edition  
Part Number 320425B-01  
© Copyright 1992, 1994 National Instruments Corporation.  
All Rights Reserved.  
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Limited Warranty  
The SCXI-1120 is warranted against defects in materials and workmanship for a period of one year from the date of  
shipment, as evidenced by receipts or other documentation. National Instruments will, at its option, repair or replace  
equipment that proves to be defective during the warranty period. This warranty includes parts and labor.  
A Return Material Authorization (RMA) number must be obtained from the factory and clearly marked on the  
outside of the package before any equipment will be accepted for warranty work. National Instruments will pay the  
shipping costs of returning to the owner parts which are covered by warranty.  
National Instruments believes that the information in this manual is accurate. The document has been carefully  
reviewed for technical accuracy. In the event that technical or typographical errors exist, National Instruments  
reserves the right to make changes to subsequent editions of this document without prior notice to holders of this  
edition. The reader should consult National Instruments if errors are suspected. In no event shall National  
Instruments be liable for any damages arising out of or related to this document or the information contained in it.  
EXCEPT AS SPECIFIED HEREIN, NATIONAL INSTRUMENTS MAKES NO WARRANTIES, EXPRESS OR IMPLIED,  
AND SPECIFICALLY DISCLAIMS ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR  
PURPOSE. CUSTOMER'S RIGHT TO RECOVER DAMAGES CAUSED BY FAULT OR NEGLIGENCE ON THE PART  
OF NATIONAL INSTRUMENTS SHALL BE LIMITED TO THE AMOUNT THERETOFORE PAID BY THE CUSTOMER.  
NATIONAL INSTRUMENTS WILL NOT BE LIABLE FOR DAMAGES RESULTING FROM LOSS OF DATA, PROFITS,  
USE OF PRODUCTS, OR INCIDENTAL OR CONSEQUENTIAL DAMAGES, EVEN IF ADVISED OF THE POSSIBILITY  
THEREOF. This limitation of the liability of National Instruments will apply regardless of the form of action,  
whether in contract or tort, including negligence. Any action against National Instruments must be brought within  
one year after the cause of action accrues. National Instruments shall not be liable for any delay in performance due  
to causes beyond its reasonable control. The warranty provided herein does not cover damages, defects,  
malfunctions, or service failures caused by owner's failure to follow the National Instruments installation, operation,  
or maintenance instructions; owner's modification of the product; owner's abuse, misuse, or negligent acts; and  
power failure or surges, fire, flood, accident, actions of third parties, or other events outside reasonable control.  
Copyright  
Under the copyright laws, this publication may not be reproduced or transmitted in any form, electronic or  
mechanical, including photocopying, recording, storing in an information retrieval system, or translating, in whole or  
in part, without the prior written consent of National Instruments Corporation.  
Trademarks  
®
®
®
LabVIEW , NI-DAQ , and RTSI are trademarks of National Instruments Corporation.  
Product and company names listed are trademarks or trade names of their respective companies.  
Warning Regarding Medical and Clinical Use  
of National Instruments Products  
National Instruments products are not designed with components and testing intended to ensure a level of reliability  
suitable for use in treatment and diagnosis of humans. Applications of National Instruments products involving  
medical or clinical treatment can create a potential for accidental injury caused by product failure, or by errors on the  
part of the user or application designer. Any use or application of National Instruments products for or involving  
medical or clinical treatment must be performed by properly trained and qualified medical personnel, and all  
traditional medical safeguards, equipment, and procedures that are appropriate in the particular situation to prevent  
serious injury or death should always continue to be used when National Instruments products are being used.  
National Instruments products are NOT intended to be a substitute for any form of established process, procedure, or  
equipment used to monitor or safeguard human health and safety in medical or clinical treatment.  
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Contents  
Customer Communication .............................................................................................xiii  
Introduction ..........................................................................................................................1-1  
What Your Kit Should Contain......................................................................................1-2  
Chapter 2  
Module Configuration....................................................................................................2-1  
Jumper W44 ...........................................................................................2-5  
Using Jumpers W42 and W43 ...............................................................2-5  
Analog Configuration ........................................................................................2-7  
Jumper W46 ...............................................................................2-7  
Direct Temperature Connection.............................................................2-8  
Hardware Installation.....................................................................................................2-11  
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Contents  
Timing Requirements and Communication Protocol.............................2-28  
Communication Signals .........................................................................2-28  
Chapter 3  
Functional Overview......................................................................................................3-1  
Analog Input Channels.......................................................................................3-8  
Calibration Equipment Requirements....................................................3-10  
Single-Module Parallel Scanning.......................................................................3-14  
Single-Module Multiplexed Scanning ...................................................3-14  
Single-Module Multiplexed Scanning (Direct)..........................3-14  
Single-Module Multiplexed Scanning (Indirect) .......................3-15  
Chapter 4  
Register Descriptions.........................................................................................................4-1  
Register Description Format ..............................................................................4-1  
SCXI-1120 Registers .........................................................................................4-1  
Programming........................................................................................................................5-1  
Programming Considerations.........................................................................................5-1  
Register Writes...................................................................................................5-1  
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Contents  
Single-Channel Measurements ..........................................................................5-3  
Parallel Output ...........................................................................5-3  
Indirect Measurements...........................................................................5-4  
Measurements from the SCXI-1120 via Another Module.........5-4  
Counter 1 and SCANDIV ..........................................................5-8  
Single-Module Parallel Scanning...............................................5-8  
Single-Module Multiplexed Scanning (Direct)..........................5-9  
Single-Module Multiplexed Scanning (Indirect) .......................5-9  
Channel Scanning from Other Modules.........................5-9  
Module ...........................................................................5-9  
Multiple-Module Multiplexed Scanning....................................5-9  
Multiple-Chassis Scanning ........................................................5-10  
4. Acquisition Enable, Triggering, and Servicing.................................5-12  
Example 1 ..........................................................................................................5-12  
Appendix A  
Analog Input ..................................................................................................................A-1  
Physical ..........................................................................................................................A-3  
Storage Environment......................................................................................................A-3  
Rear Signal Connector ......................................................................................................B-1  
SCXIbus Connector ...........................................................................................................C-1  
SCXI-1120 Front Connector...........................................................................................D-1  
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Contents  
Appendix E  
SCXI-1340 Cable Assembly..........................................................................................E-1  
Assembly........................................................................................................................E-3  
SCXI-1342 Installation ......................................................................................E-6  
SCXI-1180 Installation ......................................................................................E-6  
SCXI-1302 50-Pin Terminal Block ...............................................................................E-8  
SCXI-1351 Installation ......................................................................................E-10  
SCXI-1350 Installation ......................................................................................E-10  
SCXI-1343 Installation ......................................................................................E-11  
Appendix F  
Customer Communication..........................................................................................G-1  
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Contents  
Figures  
Figure 2-4. Ground-Referenced Signal Connection with High Common-Mode Voltage....2-14  
Figure 2-5. Floating Signal Connection Referenced to Chassis Ground for Better  
Figure 2-6. Floating AC-Coupled Signal Connection ..........................................................2-14  
Figure 3-8. Single-Module Multiplexed Scanning (Direct)..................................................3-15  
Figure 3-10. Multiple-Module Multiplexed Scanning............................................................3-16  
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Contents  
Tables  
Table 2-4. Gain Jumper Allocation .....................................................................................2-9  
Table 2-9. SCXIbus to SCXI-1120 Rear Signal Connector to Data Acquisition  
SCXI-1120 User Manual  
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About This Manual  
This manual describes the electrical and mechanical aspects of the SCXI-1120 and contains  
information concerning its operation and programming. The SCXI-1120 is a class I module that  
operates as eight isolated input channels. Refer to your chassis manual for a description of the  
different module classes. Each channel is isolated and independently configurable via jumpers.  
Refer to your chassis manual for a description of the different module classes. The SCXI-1120 is  
a member of the National Instruments Signal Conditioning eXtensions for Instrumentation  
(SCXI) Series for the National Instruments data acquisition plug-in boards. This board is  
designed for low-cost signal conditioning of thermocouples, volt sources, millivolt sources, and  
4 to 20 mA sources or 0 to 20 mA process-current sources where high common-mode voltages  
exist.  
This manual describes the installation, theory of operation, and basic programming  
considerations for the SCXI-1120.  
Organization of This Manual  
The SCXI-1120 User Manual is organized as follows:  
Chapter 1, Introduction, describes the SCXI-1120; lists the contents of your SCXI-1120 kit;  
describes the optional software, optional equipment, and custom cables; and explains how to  
unpack the SCXI-1120 kit.  
Chapter 2, Configuration and Installation, describes the SCXI-1120 jumper configurations,  
installation of the SCXI-1120 into the SCXI chassis, signal connections to the SCXI-1120,  
and cable wiring.  
Chapter 3, Theory of Operation, contains a functional overview of the SCXI-1120 module  
and explains the operation of each functional unit making up the SCXI-1120.  
Chapter 4, Register Descriptions, describes in detail the SCXI-1120 Module ID Register, the  
Configuration Register, the Slot 0 registers, and multiplexer addressing.  
Chapter 5, Programming, contains a functional programming description of the SCXI-1120  
and Slot 0.  
Appendix A, Specifications, lists the specifications for the SCXI-1120.  
Appendix B, Rear Signal Connector, describes the pinout and signal names for the  
SCXI-1120 50-pin rear signal connector, including a description of each connection.  
Appendix C, SCXIbus Connector, describes the pinout and signal names for the SCXI-1120  
96-pin SCXIbus connector, including a description of each connection.  
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About This Manual  
Appendix D, SCXI-1120 Front Connector, describes the pinout and signal names for the  
SCXI-1120 front connector, including a description of each connection.  
Appendix E, SCXI-1120 Cabling, describes how to use and install the hardware accessories  
for the SCXI-1120.  
Appendix F, Revision A and B Photo and Parts Locator Diagrams, contains a photograph of  
the Revision A and B SCXI-1120 signal conditioning module and the general and detailed  
parts locator diagrams.  
Appendix G, Customer Communication, contains forms you can use to request help from  
National Instruments or to comment on our products and manuals.  
The Glossary contains an alphabetical list and description of terms used in this manual,  
including abbreviations, acronyms, metric prefixes, mnemonics, symbols, and terms.  
The Index contains an alphabetical list of key terms and topics in this manual, including the  
page where you can find each one.  
Conventions Used in This Manual  
The following conventions are used in this manual.  
italic  
Italic text denotes emphasis, a cross reference, or an introduction to a key  
concept.  
Lab board  
Lab board refers to the Lab-LC, Lab-NB, Lab-PC, and Lab-PC+ boards,  
unless otherwise noted.  
MC  
MC refers to the Micro Channel series computers.  
MIO board  
MIO board refers to the AT-MIO-16, AT-MIO-16D, AT-MIO-16F-5,  
AT-MIO-16X, AT-MIO-64F-5, MC-MIO-16, NB-MIO-16, and  
NB-MIO-16X series of multichannel I/O data acquisition boards.  
monospace  
Lowercase text in this font denotes text or characters that are to be literally  
input from the keyboard, sections of code, programming examples, and  
syntax examples. This font is also used for the proper names of disk  
drives, paths, directories, programs, subprograms, subroutines, device  
names, functions, variables, filenames, and extensions, and for statements  
and comments taken from program code.  
NB  
NB refers to the NuBus series computers.  
PC  
PC refers to the IBM PC/XT, the IBM PC AT, and compatible computers.  
SCXIbus  
SCXIbus refers to the backplane in the chassis. A signal on the backplane  
is referred to as the SCXIbus <signal name> line (or signal). The  
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About This Manual  
SCXIbus descriptor may be omitted when the meaning is clear.  
Descriptions of all SCXIbus signals are given in Appendix C, SCXIbus  
Connector.  
Slot 0  
Slot 0 refers to the power supply and control circuitry in the SCXI chassis.  
Abbreviations, acronyms, metric prefixes, mnemonics, symbols, and terms are listed in the  
Glossary.  
Related Documentation  
The following documents contain information that you may find helpful as you read this manual:  
Your DAQ board user manual  
Your SCXI chassis user manual  
Customer Communication  
National Instruments wants to receive your comments on our products and manuals. We are  
interested in the applications you develop with our products, and we want to help if you have  
problems with them. To make it easy for you to contact us, this manual contains comment and  
configuration forms for you to complete. These forms are in Appendix G, Customer  
Communication, at the end of this manual.  
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Chapter 1  
Introduction  
This chapter describes the SCXI-1120; lists the contents of your SCXI-1120 kit; describes the  
optional software, optional equipment, and custom cables; and explains how to unpack the  
SCXI-1120 kit.  
The SCXI-1120 is a class I module consisting of eight isolated input channels. The SCXI-1120  
is a module for signal conditioning of thermocouples, volt sources, millivolt sources, 4 to 20 mA  
current sources, and 0 to 20 mA process-current sources. Refer to your chassis manual for a  
description of the different module classes. If external excitation is provided, thermistors, RTDs,  
and strain gauges can also be measured. The SCXI-1120 can operate in two output modes–in the  
Parallel-Output mode with all eight input channels connected in parallel to eight data acquisition  
board channels, or in the Multiplexed-Output mode with all eight channels multiplexed into a  
single data acquisition board channel.  
The SCXI-1120 operates with full functionality with the National Instruments MIO-16 boards.  
You can use the Lab-NB, the Lab-PC, the Lab-PC+, the Lab-LC, and the PC-LPM-16 boards  
with the SCXI-1120, but these boards cannot scan the module when it is configured in the  
Multiplexed-Output mode. These boards can perform only single-channel reads in this mode.  
You can also use the SCXI-1120 with other systems that comply with the specifications given in  
Chapter 2, Configuration and Installation. You can multiplex several SCXI-1120s into a single  
channel, thus greatly increasing the number of analog input signals that can be digitized.  
The addition of a shielded terminal block provides screw terminals for easy signal attachment to  
the SCXI-1120. In addition, a temperature sensor for cold-junction compensation of  
thermocouples is included on the terminal block. This cold-junction reference (CJR) is either  
multiplexed along with the eight channels or connected by jumpers to a different channel of the  
data acquisition board.  
With the SCXI-1120, the SCXI chassis can serve as a fast-scanning signal conditioner for  
laboratory testing, production testing, and industrial process monitoring.  
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Introduction  
Chapter 1  
What Your Kit Should Contain  
The contents of the SCXI-1120 kit (part number 776572-20) are listed as follows.  
Kit Component  
Part Number  
SCXI-1120 module  
SCXI-1120 User Manual  
181695-01  
320425-01  
If your kit is missing any of the components, contact National Instruments.  
Optional Software  
This manual contains complete instructions for directly programming the SCXI-1120. You can  
order separate software packages for controlling the SCXI-1120 from National Instruments.  
When you combine the PC, AT, and MC data acquisition boards with the SCXI-1120, you can  
use LabVIEW for Windows or LabWindows for DOS. LabVIEW and LabWindows are  
innovative program development software packages for data acquisition and control applications.  
LabVIEW uses graphical programming, whereas LabWindows enhances Microsoft C and  
QuickBASIC. Both packages include extensive libraries for data acquisition, instrument control,  
data analysis, and graphical data presentation.  
Your National Instruments data acquisition board is shipped with the NI-DAQ software.  
NI-DAQ has a library of functions that can be called from your application programming  
environment. These functions include routines for analog input (A/D conversion), buffered data  
acquisition (high speed A/D conversion), analog output (D/A conversion), waveform generation,  
digital I/O, counter/timer, SCXI, RTSI, and self-calibration. NI-DAQ maintains a consistent  
software interface among its different versions so you can switch between platforms with  
minimal modifications to your code.  
You can also use the SCXI-1120, together with the PC, AT, and MC data acquisition boards,  
with NI-DAQ software for DOS/Windows/LabWindows. NI-DAQ software for  
DOS/Windows/LabWindows comes with language interfaces for Professional BASIC, Turbo  
Pascal, Turbo C, Turbo C++, Borland C++, and Microsoft C for DOS; and Visual Basic, Turbo  
Pascal, Microsoft C with SDK, and Borland C++ for Windows. NI-DAQ software for  
DOS/Windows/LabWindows is on high-density 5.25 in. and 3.5 in. diskettes.  
You can use the SCXI-1120, together with the NB Series data acquisition boards, with  
LabVIEW, a software system that features interactive graphics, a state-of-the-art user interface,  
and a powerful graphical programming language. The LabVIEW Data Acquisition VI Library, a  
series of VIs for using LabVIEW with National Instruments boards, is included with LabVIEW.  
The LabVIEW Data Acquisition VI Library is functionally equivalent to the NI-DAQ software  
for Macintosh.  
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Chapter 1  
Introduction  
You can also use the SCXI-1120, combined with the NB Series data acquisition boards, with  
NI-DAQ software for Macintosh. NI-DAQ software for Macintosh, which is shipped with all  
National Instruments Macintosh data acquisition boards, comes with language interfaces for  
MPW C, THINK C, Pascal, and Microsoft QuickBASIC. Any language that uses Device  
Manager Toolbox calls can access NI-DAQ software for Macintosh.  
Optional Equipment  
Equipment  
Part Number  
SCXI-1320 front terminal block  
SCXI-1328 high-accuracy isothermal terminal block  
SCXI-1330 32-pin connector-and-shell assembly  
SCXI-1340 cable assembly  
SCXI-1341 Lab-NB/Lab-PC/Lab-PC+ cable assembly  
SCXI-1342 PC-LPM-16 cable assembly  
SCXI-1343 rear screw terminal adapter  
SCXI-1344 Lab-LC cable assembly  
SCXI-1346 shielded multichassis cable adapter  
SCXI-1347 SCXI shielded cable assembly  
with 1 m cable  
776573-20  
776573-28  
776573-30  
776574-40  
776574-41  
776574-42  
776574-43  
776574-44  
776574-46  
776574-471  
776574-472  
776574-475  
776574-470  
with 2 m cable  
with 5 m cable  
with 10 m cable  
SCXI-1349 SCXI shielded cable assembly  
with 1 m cable  
776574-491  
776574-492  
776574-495  
776574-490  
776575-50  
776582-01  
180524-05  
180524-10  
with 2 m cable  
with 5 m cable  
with 10 m cable  
SCXI-1350 multichassis adapter  
SCXI process-current resistor kit  
Standard ribbon cable  
0.5 m  
1.0 m  
NB6 cable  
0.5 m  
1.0 m  
181305-01  
181305-10  
Refer to the Signal Connections section in Chapter 2, Configuration and Installation, and to  
Appendix E, SCXI-1120 Cabling, for additional information on cabling, connectors, and  
adapters.  
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Introduction  
Chapter 1  
Custom Cables  
The SCXI-1120 rear signal connector is a 50-pin male ribbon-cable header. The manufacturer  
part number used by National Instruments for this header is as follows:  
AMP Inc. (part number 1-103310-0)  
The mating connector for the SCXI-1120 rear signal connector is a 50-position polarized  
ribbon-socket connector with strain relief. National Instruments uses a polarized or keyed  
connector to prevent inadvertent upside-down connection to the SCXI-1120. Recommended  
manufacturer part numbers for this mating connector are as follows:  
Electronic Products Division/3M (part number 3425-7650)  
T&B/Ansley Corporation (part number 609-5041CE)  
Standard 50-conductor, 28 AWG, stranded ribbon cables that can be used with these connectors  
are as follows:  
Electronic Products Division/3M (part number 3365/50)  
T&B/Ansley Corporation (part number 171-50)  
The SCXI-1120 front connector is a 32-pin DIN C male connector with columns A and C even  
pins only. The manufacturer part number used by National Instruments for this connector is as  
follows:  
Panduit Corporation (part number 100-932-023)  
The mating connector for the SCXI-1120 front connector is a 32-pin DIN C female connector.  
National Instruments uses a polarized connector to prevent inadvertent upside-down connection  
to the SCXI-1120. Recommended manufacturer part numbers for this mating connector are as  
follows:  
Panduit Corporation (part number 100-932-434; straight-solder eyelet pins)  
Panduit Corporation (part number 100-932-633; right-angle pins)  
These connectors were selected to meet UL 1950 and UL 1244 for 1,500 Vrms isolation.  
Unpacking  
Your SCXI-1120 module is shipped in an antistatic package to prevent electrostatic damage to  
the module. Several components on the module can be damaged by electrostatic discharge. To  
avoid such damage in handling the module, take the following precautions:  
Touch the antistatic package to a metal part of your SCXI chassis before removing the  
module from the package.  
Remove the module from the package and inspect the module for loose components or any  
other sign of damage. Notify National Instruments if the module appears damaged in any  
way. Do not install a damaged module into your SCXI chassis.  
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Chapter 2  
Configuration and Installation  
This chapter describes the SCXI-1120 jumper configurations, installation of the SCXI-1120 into  
the SCXI chassis, signal connections to the SCXI-1120, and cable wiring.  
Module Configuration  
The SCXI-1120 includes 46 jumpers that are shown in the parts locator diagrams in Figures 2-1  
and 2-2.  
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Configuration and Installation  
Chapter 2  
Figure 2-1. SCXI-1120 General Parts Locator Diagram  
SCXI-1120 User Manual  
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Chapter 2  
Configuration and Installation  
Figure 2-2 shows a detailed parts locator diagram of the SCXI-1120.  
Figure 2-2. Detailed Parts Locator Diagram  
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Configuration and Installation  
Chapter 2  
The jumpers are used as follows:  
Fixed jumpers  
-
-
-
On Revision A and B modules, jumper W42 is unused and should not be connected.  
Jumper W45 is reserved and should not be reconfigured.  
On Revision A and B modules, jumper W44 carries the SLOT0SEL* signal from the rear  
signal connector, after buffering, to the SCXIbus INTR* line and should be left in the  
factory-default position (position 1). On Revision C and later modules, jumper W44 does  
not exist.  
User-configurable jumpers  
-
-
-
-
-
-
-
-
Jumper W43 carries the SCXIbus MISO line, after buffering, to the SERDATOUT signal  
on the rear signal connector.  
On Revision C and later modules, jumper 42 connects a pullup resistor to the  
SERDATOUT signal on the rear signal connector.  
Jumper W46 configures the guard, the analog output ground, and enables the  
Pseudodifferential Reference mode.  
Jumpers W1 through W8 configure the first-stage gain of channels 0 through 7,  
respectively.  
Jumpers W9 through W16 configure the second-stage gain of channels 0 through 7,  
respectively.  
Jumpers W17 through W24 configure the first-stage filtering of input channels 0 through  
7, respectively.  
Jumpers W25 through W40 configure the second-stage filtering of input channels 0  
through 7, respectively.  
Jumper W41 directly connects the temperature sensor to the rear signal connector. To do  
so, set jumper W46 in the AB-R2 or AB-R0 position first.  
Further configuration of the board is software controlled and will be discussed later in this  
chapter.  
Digital Signal Connections  
The four digital signal connection jumpers have position 1 marked on the board. Position 3 is  
not explicitly marked on the board.  
The SCXI-1120 has three jumpers dedicated for communication between the data acquisition  
board and the SCXIbus. These jumpers are W42, W43, and W44.  
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Chapter 2  
Configuration and Installation  
Jumper W44  
On Revision A and B modules, position 1 connects, after buffering, SLOT0SEL* to the SCXIbus  
INTR* line. This is the factory-default setting and should not be changed. In this setting, the  
data acquisition board controls the SCXIbus INTR* line. See the Timing Requirements and  
Communication Protocol section later in this chapter, and Chapter 5, Programming, for  
information on the use of the INTR* line. See Appendix E, SCXI-1120 Cabling, for the pin  
equivalences of the SCXI-1120 rear signal connector and the data acquisition board I/O  
connector.  
Position 3 is reserved and should not be used.  
On Revision C and later modules, jumper W44 is not loaded. SLOT0SEL* is always buffered to  
the INTR* line.  
Jumper W43  
Position 1 connects, after buffering, the SCXIbus MISO line to the SERDATOUT pin of the rear  
signal connector. In this setting, along with the proper setting of jumper W42, the data  
acquisition board can read the Module ID Register of the SCXI-1120. This is the factory-default  
setting. See the Timing Requirements and Communication Protocol section later in this chapter,  
and Chapter 4, Register Descriptions, for information on reading the Module ID Register. See  
Appendix E, SCXI-1120 Cabling, for the pin equivalences of the SCXI-1120 rear signal  
connector and the data acquisition board I/O connector.  
Position 3 disconnects SERDATOUT from the SCXIbus MISO line.  
Jumper W42  
On Revision A and B modules, jumper W42 should not be connected. On Revision C and later  
modules, position 1 connects a 2.2 kpullup resistor to the SERDATOUT line. Position 3 does  
not connect the pullup resistor to the SERDATOUT line.  
Using Jumpers W42 and W43  
If the SCXI-1120 is not cabled to a data acquisition board, the positions of these jumpers do not  
matter, so leave them in their factory-default positions (both in position 1).  
If the SCXI-1120 is cabled to a data acquisition board, and the SCXI chassis that the SCXI-1120  
is in, is the only SCXI chassis cabled to that data acquisition board, leave the jumpers in their  
factory-default positions (both in position 1).  
If the SCXI-1120 is cabled to a data acquisition board, and there are multiple SCXI chassis  
cabled to that data acquisition board with shielded cables (you are using SCXI-1346 shielded  
cable multichassis adapters), leave the jumpers in their factory-default positions (both in  
position 1).  
If the SCXI-1120 is cabled to a data acquisition board, and there are multiple SCXI chassis  
cabled to that data acquisition board with ribbon cables (you are using SCXI-1350 multichassis  
adapters), leave jumper W43 in its factory-default position (position 1). On all but one of the  
SCXI-1120s that are cabled to the data acquisition board, move jumper W42 to position 3. It  
does not matter which of the SCXI-1120 modules that are cabled to the data acquisition board  
has jumper W42 set to position 1. If you have different types of modules cabled to the data  
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acquisition board, those different modules will have jumpers similar to W43 and W42 of the  
SCXI-1120. Set those jumpers on the different modules using the same method described here  
for the SCXI-1120.  
On Revision A and B SCXI-1120s, jumper W42 is not used. You set jumper W43 as explained  
in the cases above, except in the case of a multichassis ribbon cable system. In a multichassis  
ribbon cable system with Revision A and B SCXI-1120s cabled to the data acquisition board,  
you can access the MISO line in only one chassis. Pick one of the chassis that has the  
SCXI-1120 cabled to the DAQ board. Set jumper W43 on the SCXI-1120 to position 1. On the  
SCXI-1120s that are in the other chassis and cabled to the data acquisition board, set jumper  
W43 to position 3. Notice that you will only be able to access digital information from the  
chassis that has the SCXI-1120 with jumper W43 set to position 1.  
On Revision C and later modules, the SERDATOUT line is driven with an open-collector driver  
(a driver that actively drives low or goes to a high-impedance state, relying on a pullup resistor to  
make the signal line go high). When using a single chassis, leave W42 and W43 in position 1,  
the factory default, on the SCXI-1120 that is connected to the data acquisition board. In this  
setting, the module drives MISO to SERDATOUT and connects the necessary pullup resistor to  
the SERDATOUT line. When using multiple chassis, leave jumper W43 in position 1 on all of  
the SCXI-1120s that are cabled to the data acquisition board. Only one of the SCXI-1120s that  
are cabled to the data acquisition board should have jumper W42 in position 1. It does not matter  
which of the SCXI-1120s that are cabled to the data acquisition board has the pullup connected.  
All of the other SCXI-1120 modules that are cabled to the data acquisition board should have  
jumper W42 in position 3. The reason for this is that if too many pullup resistors are attached to  
the SERDATOUT line, the drivers cannot drive the line low. See Table 2-1 for the description  
and configuration of the jumper settings.  
Table 2-1. Digital Signal Connections, Jumper Settings  
Jumper  
Description  
Configuration  
W42  
Connects pullup to SERDATOUT  
(Revision C and later) factory-  
default setting.  
3
2
1
W42  
W43  
Parking position (not connected on  
Revision A and B)  
3
2
1
3
2
1
Connects MISO to SERDATOUT  
Factory-default setting.  
3
2
1
W43  
Parking position  
(continues)  
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Table 2-1. Digital Signal Connections, Jumper Settings (Continued)  
Jumper  
Description  
Factory default  
Configuration  
W45  
3
2
1
W44  
Factory default  
(Revision A and B modules only)  
3
2
1
Analog Configuration  
The SCXI-1120 has 42 analog configuration jumpers.  
Before starting, notice that the jumper configurations for each channel are similar; only the  
jumper reference designator number changes. When you learn how to configure one channel,  
you can configure the other channels as well.  
Grounding, Shielding, and Reference-Mode Selection  
Jumper W46  
Position B-R0R1 is the parked position and the factory-default setting.  
Position AB-R0 connects the analog reference to the analog output ground (pins 1 and 2 on the  
rear signal connector). Select this configuration when using an RSE data acquisition board. You  
should not use differential input data acquisition boards when jumper W46 is in the AB-R0  
position.  
Position AB-R1 connects the analog reference to the SCXIbus guard.  
Position AB-R2 enables the Pseudodifferential Reference mode and connects the analog  
reference to the OUTREF pin on the rear signal connector. Select this mode when the  
SCXI-1120 has to operate with data acquisition boards that have a nonreferenced single-ended  
input (NRSE). Do not use differential-input data acquisition boards when jumper W46 is in the  
AB-R2 position.  
Note: The SCXI-1120 will drive pins 4, 6, 8, 10, 12, 14, 16, and 18 on the rear signal connector,  
although the SCXI-1120 is in pseudodifferential mode.  
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Table 2-2. Jumper W46 Settings  
Jumper  
Description  
Configuration  
W46  
W46  
W46  
W46  
Factory setting in parking position  
B
A
R2 R1 R0  
Connects the analog reference to  
AOGND (pins 1 and 2 of the rear  
signal connector). Use this connection  
with RSE data acquisition boards.  
B
A
R
2
R1  
R0  
Connects SCXIbus guard to the analog  
reference  
B
A
R2 R1 R0  
Enables the Pseudodifferential  
Reference mode (pin 19 of the rear  
signal connector is connected to the  
analog reference)  
B
A
R2 R1 R0  
Direct Temperature Connection  
Jumper W41  
When your SCXI-1120 is operating with a data acquisition board configured in a differential  
mode, such as the MIO board, you can access the temperature sensor only in the Multiplexed-  
Output mode. Direct temperature connection is not permissible to the data acquisition board.  
This is the factory setting and is position 1 of the jumper block. Position 3 is not explicitly  
marked.  
If the temperature sensor needs to be accessed in parallel with the other eight outputs, or  
scanned–without software interference–along with the other channels, you need to place W41 in  
position 3 (this position is not explicitly marked on the module) and to configure your reference  
to pseudodifferential or single-ended operation (jumper W46) with your data acquisition board  
configured for the same reference scheme. In this position, the direct temperature sensor  
connection is made on pin 18 of the rear signal connector and corresponds to ACH15 of the MIO  
boards or the PC-LPM-16.  
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Table 2-3. Jumper W41 Settings  
Jumper  
Description  
Configuration  
W41  
Temperature sensor  
accessed in MTS mode  
(Factory setting)  
3
3
2
2
1
1
W41  
Temperature sensor  
accessed in DTS mode,  
data acquisition board  
configured for NRSE or  
RSE  
Gain Jumpers  
Each input channel has two gain stages. The first gain stage provides gains of 1, 10, 50, and 100,  
and the second stage provides gains of 1, 2, 5, 10, and 20. Tables 2-4 and 2-5 show how to set  
up the gain for each channel.  
Table 2-4. Gain Jumper Allocation  
Input Channel Number  
First Gain Jumper  
Second Gain Jumper  
0
1
2
3
4
5
6
7
W1  
W2  
W3  
W4  
W5  
W6  
W7  
W8  
W9  
W10  
W11  
W12  
W13  
W14  
W15  
W16  
The board is shipped with the first-stage gain set to 100 (position A), and a second-stage gain set  
to 10 (position D). To change the gain of your module, move the appropriate jumper on your  
module to the position indicated in Tables 2-3 and 2-4. Refer to Figure 2-1, SCXI-1120 General  
Parts Locator Diagram, and Figure 2-2, Detailed Parts Locator Diagram, for jumper locations  
on your module.  
To determine the overall gain of a given channel use the following formula:  
Overall gain = First-stage gain x second-stage gain.  
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Table 2-5. Gain Jumper Positions  
Gain  
Setting  
Jumper Position  
1
10  
D
C
First-stage  
50  
B
100  
A (Factory setting)  
1
2
5
A
B
C
Second-stage  
10  
20  
D (Factory setting)  
E
Filter Jumpers  
Two-stage filtering is also available on your SCXI-1120 module. The first stage is located in the  
isolated section of the input channel, whereas the second stage is located in the nonisolated  
section of your input channel. Two-stage filtering eliminates the noise generated by the isolation  
amplifier, producing a higher signal-to-noise ratio. Furthermore, two filter bandwidths are  
available, 10 kHz and 4 Hz.  
Table 2-6. Filter Jumper Allocation  
Input Channel  
Number  
First Filter Jumper  
Second Filter Jumper  
4 Hz  
10 kHz  
4 Hz  
10 kHz  
(Factory  
Setting)  
(Factory  
Setting)  
0
1
2
3
4
5
6
7
W17-A  
W18-A  
W19-A  
W20-A  
W21-A  
W22-A  
W23-A  
W24-A  
W17-B  
W18-B  
W19-B  
W20-B  
W21-B  
W22-B  
W23-B  
W24-B  
W25  
W27  
W29  
W31  
W33  
W35  
W37  
W39  
W26  
W28  
W30  
W32  
W34  
W36  
W38  
W40  
Your SCXI-1120 is shipped in the 4 Hz position. Remember to make sure that both stages are  
set to the same bandwidth to ensure that the required bandwidth is achieved. Notice that one  
jumper block is available for each filter stage.  
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Chapter 2  
Configuration and Installation  
Hardware Installation  
You can install the SCXI-1120 in any available SCXI chassis. After you have made any  
necessary changes and have verified and recorded the jumper settings on the form in  
Appendix G, Customer Communication, you are ready to install the SCXI-1120. The following  
are general installation instructions, but consult the user manual or technical reference manual of  
your SCXI chassis for specific instructions and warnings.  
1. Turn off the computer that contains the data acquisition board or disconnect it from your  
SCXI chassis.  
2. Turn off the SCXI chassis. Do not insert the SCXI-1120 into a chassis that is turned on.  
3. Insert the SCXI-1120 into the module guides. Gently guide the module into the back of the  
slot until the connectors make good contact. If a cable assembly has already been installed in  
the rear of the chassis, the module and cable assembly must be firmly engaged; however, do  
not force the module into place.  
4. Screw the front mounting panel of the SCXI-1120 to the top and bottom threaded strips of  
your SCXI chassis.  
5. If this module is to be connected to an MIO-16 data acquisition board, attach the connector at  
the metal end of the SCXI-1340 cable assembly to the rear signal connector on the  
SCXI-1120 module. Screw the rear panel to the rear threaded strip. Attach the loose end of  
the cable to the MIO-16 board.  
Note: For installation procedures with other SCXI accessories and data acquisition boards,  
consult Appendix E, SCXI-1120 Cabling.  
6. Check the installation.  
7. Turn on the SCXI chassis.  
8. Turn on the computer or reconnect it to your chassis.  
The SCXI-1120 board is installed and ready for operation.  
Signal Connections  
This section describes the input and output signal connections to the SCXI-1120 board via the  
SCXI-1120 front connector and rear signal connector, and includes specifications and connection  
instructions for the signals given on the SCXI-1120 connectors.  
Warning:  
Connections that exceed any of the maximum ratings of input or output signals on  
the SCXI-1120 can result in damage to the SCXI-1120 board and to the SCXIbus.  
Maximum input ratings for each signal are given in this chapter under the  
discussion of that signal. National Instruments is not liable for any damages  
resulting from such signal connections.  
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Front Connector  
Figure 2-3 shows the pin assignments for the SCXI-1120 front connector.  
Pin  
Number  
Signal  
Name  
Column  
B
Signal  
Name  
A
C
CH0-  
CH0+  
CH1+  
32  
31  
30  
29  
28  
27  
26  
25  
24  
23  
22  
21  
20  
19  
18  
17  
16  
15  
14  
13  
12  
11  
10  
9
CH1-  
CH2-  
CH3-  
CH2+  
CH3+  
CH4+  
CH5+  
CH4-  
CH5-  
CH6-  
CH7-  
CH6+  
CH7+  
8
RSVD  
7
RSVD  
RSVD  
+5 V  
6
5
MTEMP  
4
3
CHSGND  
DTEMP  
2
1
Figure 2-3. SCXI-1120 Front Connector Pin Assignment  
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Front Connector Signal Descriptions  
Pin  
A2  
C2  
Signal Name  
CHSGND  
DTEMP  
Description  
Chassis Ground – Tied to the SCXI chassis.  
Direct Temperature Sensor – Connects the  
temperature sensor to pin 18 of the rear signal  
connector MCH7- when the terminal block is  
configured for direct temperature connection and  
jumper W41 is in position 3.  
A4  
+5 V  
+5 VDC Source – Used to power the temperature  
sensor on the terminal block. 0.2 mA of source not  
protected.  
C4  
MTEMP  
RSVD  
Multiplexed Temperature Sensor – Connects the  
temperature sensor to the output multiplexer.  
A6, C6, C8  
Reserved – Reserved for future use. Do not connect  
any signals to these pins. TTL/CMOS output. They  
are not protected.  
A8, A10, C10, No Connect  
A16, C16,A22,  
Do not connect any signals to these pins.  
C22, A28, C28  
A12, A14, A18, CH7+ through CH0+  
A26, A20, A24,  
Positive Input Channels – The positive inputs to  
channels 7 through 0, respectively.  
A30, A32  
C12, C14, C18, CH7- through CH0-  
C20, C24, C26,  
Negative Input Channels – The negative inputs to  
channels 7 through 0, respectively.  
C30, C32  
The signals on the front connector are all analog with the exceptions of pins A6, C6, and C8.  
The analog signals can be divided into two groups–the analog input channels, and the  
temperature sensor.  
Analog Input Channels  
The positive input channels are located in column A. Their corresponding negative input  
channels are located in column C. Each input corresponds to a separate amplifier and is fully  
isolated from the other channels and from earth ground. The inputs are designed in a floating  
single-ended configuration, thus the measured signal can be referenced to a ground level with  
common-mode voltage up to 250 Vrms. For better noise immunity, connect the negative input  
channel to the signal reference. If the measured signals are floating, connect the negative input  
channel to chassis ground on the terminal block. Figure 2-4 shows how to connect a ground-  
referenced signal. Figure 2-5 shows how to connect a floating signal. Figures 2-6 and 2-7 show  
how to connect AC-coupled signals.  
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+
+
+
V
s
V
out  
-
-
+
High  
CMV  
I
V
cm  
-
Module  
Figure 2-4. Ground-Referenced Signal Connection with High Common-Mode Voltage  
+
+
+
V
out  
V
s
-
-
I
Module  
Figure 2-5. Floating Signal Connection Referenced to Chassis Ground for Better  
Signal-to-Noise Ratio  
+
+
V
out  
+
-
V
s
R
bias  
-
I
Module  
Figure 2-6. Floating AC-Coupled Signal Connection  
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+
+
+
V
out  
R
bias  
-
V
s
-
I
+
-
High  
CMV  
V
cm  
Module  
Figure 2-7. AC-Coupled Signal Connection with High Common-Mode Voltage  
For AC-coupled signals, an external resistor from the positive input channel to the signal  
reference should be connected. This is needed to provide the DC path for the positive input bias  
current. Typical resistor values range from 100 kto 1 M. This solution, although necessary  
in this case, lowers the input impedance of the input channel amplifier and introduces an  
additional offset voltage proportional to the input bias current and to the resistor value used. The  
typical input bias current of the amplifier consists of ±80 pA and a negligible offset drift current.  
When a 100 kresistor is used, this will result into ±8 µV of offset, which is insignificant in  
most applications. However, if larger valued bias resistors are used, significant input offset may  
result. To determine the maximum offset introduced by the biasing resistor, use the following  
equation:  
V
= I x R  
bias bias  
ofsbias  
The input signal range of an SCXI-1120 input channel is ±5 V/ G  
referenced to its negative  
is equal to the product of the first-stage and second-stage gains. In addition,  
total  
input, where G  
total  
the input channels are overvoltage protected to 240 Vrms with power on or off at a maximum of  
4.5 mArms sink or source.  
Warning: Exceeding the input signal range and the common-mode input range results in  
distorted signals. Exceeding the maximum input voltage rating (250 Vrms between  
terminals, and between any terminal and ground) can result in damage to the  
SCXI-1120, the SCXIbus, and the data acquisition board. National Instruments is  
not liable for any damages resulting from such signal connections.  
Temperature Sensor Connection  
Pins C2 and C4 are dedicated for connecting the temperature sensor to the SCXI-1120. The  
temperature sensor is not isolated and is referenced to the chassis ground. The connection is  
overvoltage protected to ±25 VDC with power on and ±15 VDC with power off.  
Warning: Exceeding the overvoltage protection on the temperature connections can result in  
damage to the SCXI-1120, the SCXIbus, and the data acquisition board. National  
Instruments is not liable for any damages resulting from such signal connections.  
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Chapter 2  
Connector-and-Shell Assembly  
Two types of signal connectors are available to connect the signals to the SCXI-1120 inputs.  
The first, the SCXI-1330 32-pin DIN C female connector-and-shell assembly, is available in a kit  
listed in the Optional Equipment section in Chapter 1, Introduction. The connector has eyelet  
ends for easy hook-and-solder wire connection. With this kit, you can build your own signal  
cable to connect to the SCXI-1120 inputs. After you have built the cable, the shell covers and  
protects the connector. Perform the following steps to assemble and mount the connector-and-  
shell assembly to your SCXI module:  
1. Refer to Figure 2-8, Assembling and Mounting the SCXI-1330 Connector-and-Shell  
Assembly, and the diagram included with your SCXI-1330 kit to build the connector-and-  
shell assembly.  
2. Turn off the computer that contains your data acquisition board or disconnect the board  
from your SCXI chassis.  
3. Turn off your SCXI chassis.  
4. Slide the selected module out of the SCXI chassis.  
5. Remove the module cover.  
6. Place one jack screw as indicated in Figure 2-8.  
7. While holding the jack screw in place, insert the lock washer and then the nut. Notice that  
you might need long-nose pliers to insert the washer and nut.  
8. Tighten the nut by holding it firmly and rotating the jack screw.  
9. Repeat steps 6 through 8 for the second jack screw.  
10. Replace the module cover and tighten the grounding screw.  
11. Slide the module back in place.  
12. Connect the SCXI-1330 to your module connector and secure it by tightening both  
mounting screws.  
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Shell Assembly  
Mounting Screw  
Connector  
Jack  
Screws  
SCXI-1120 Module  
Nut  
Lock Washers  
Nut  
Shell Assembly  
Grounding Screw  
Mounting Screw  
Figure 2-8. Assembling and Mounting the SCXI-1330 Connector-and-Shell Assembly  
SCXI-1320 and SCXI-1328 Terminal Blocks  
The second type of connector available to connect the signals to the SCXI-1120 inputs is a  
terminal block with an onboard temperature sensor and screw terminals for easy connection.  
One terminal block, the SCXI-1328 isothermal terminal block, has a high-accuracy onboard  
temperature sensor. The terminal block kits are listed in the Optional Equipment section in  
Chapter 1, Introduction.  
The SCXI-1320 terminal block and SCXI-1328 high-accuracy isothermal terminal block consist  
of a shielded board with supports for connection to the SCXI-1120 input connector. The  
terminal blocks have 18 screw terminals for easy connection. Eight pairs of screw terminals are  
for signal connection to the eight inputs of the SCXI-1120, and one pair of screw terminals  
connects to the chassis ground.  
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The following warnings contain important safety information concerning hazardous voltages and  
terminal blocks.  
Warnings: When using the terminal block with high common-mode voltages, you must  
insulate your signal wires appropriately. National Instruments is not liable for any  
damages or injuries resulting from inadequate signal wire insulation.  
If high voltages (42 Vrms) are present, you must connect the safety earth ground  
to the strain-relief tab. This complies with UL 1244 and protects against electric  
shock when the terminal block is not connected to the chassis. To connect the  
safety earth ground to the strain-relief tab, run an earth ground wire in the cable  
from the signal source to the terminal block. National Instruments is not liable for  
any damages or injuries resulting from inadequate safety earth ground  
connections.  
When connecting your signals to the SCXI-1320 terminal block for use with the SCXI-1120,  
follow the labeling on the SCXI-1320 indicated under the module type column for the  
SCXI-1120 as indicated in Figure 2-9.  
When connecting your signals to the SCXI-1328 high-accuracy isothermal terminal block for use  
with the SCXI-1120, follow the labeling on the SCXI-1328 indicated along the module type row  
for the SCXI-1120 as indicated in Figure 2-10.  
Terminal Block Temperature Sensor  
To accommodate thermocouples with the SCXI-1120, the terminal block has a temperature  
sensor for cold-junction compensation. You can connect the temperature sensor in two ways:  
You can connect the temperature sensor to the MTEMP pin (C4) on the module front  
connector and multiplex the sensor at the output multiplexer along with amplifier outputs.  
This is the Multiplexed Temperature Sensor (MTS) mode. Refer to the Configuration  
Register section in Chapter 4, Register Descriptions, for further details.  
You can connect the temperature sensor to a separate data acquisition channel via pin 18 on  
the module rear signal connector when you set SCXI-1120 jumper W41 to position 3. This is  
the Direct Temperature Sensor (DTS) mode.  
Note: Use an average of a large number of samples to obtain the most accurate reading.  
Noisy environments require more samples for greater accuracy.  
The SCXI-1320 temperature sensor outputs 10 mV/°C and has an accuracy of ±1° C over the  
0° to 55° C temperature range. To determine the temperature, use the following formulas:  
T (°C) = 100(VTEMPOUT  
)
T (°C) 9  
[
]
T (°F) =  
+32  
5
where VTEMPOUT is the temperature sensor output and T (°F) and T (°C) are the temperature  
readings in degrees Fahrenheit and degrees Celsius, respectively.  
The SCXI-1328 temperature sensor outputs 0.62 to 0.07 V from 0° to 55° C and has an accuracy  
of ±0.35° C over the 15° to 35° C range and ±0.65° C over the 0° to 15° and 35° to 55° C ranges.  
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To determine the temperature, use the following formulas:  
T (°C) = T = TK - 273.15  
where TK is the temperature in kelvin  
1
TK =  
3
a + b lnR +c lnR  
(
)
(
)
T
T
[
]
a = 1.288 x 10-3  
b = 2.356 x 10-4  
c = 9.556 x 10-8  
RT = resistance of the thermistor in Ω  
VTEMPOUT  
RT = 50,000  
2.5 VTEMPOUT  
VTEMPOUT = output voltage of the temperature sensor  
T (°C) 9  
[
]
T (°F) =  
+32  
5
where T (°F) and T (°C) are the temperature readings in degrees Fahrenheit and degrees Celsius,  
respectively.  
Terminal Block Jumper Configuration  
In addition to the screw terminals, the terminal block has one jumper for configuring the onboard  
temperature sensor. When you set jumper W1 on the terminal block to the MTEMP position, the  
jumper connects the temperature sensor to the SCXI-1120 output multiplexer. This is the factory  
setting. The DTEMP position connects the temperature sensor to SCXI-1120 jumper W41.  
In both MTS and DTS modes, the reference to the temperature sensor signal is the SCXI-1120  
analog ground that is connected to MCHO- in the MTS mode, or to OUTREF or AOGND (with  
SCXI-1120 jumper W46 set in positions AB-R2 and AB-R0, respectively) in the DTS mode.  
One jumper block comprises both positions; thus, you can use only one type of configuration at a  
time. The parking position for the jumper block is the MTEMP position (the temperature sensor  
is disabled until the RTEMP bit in the Configuration Register selects the sensor).  
Tables 2-7 and 2-8 show the jumper settings on the SCXI-1320 and SCXI-1328 terminal blocks.  
Table 2-7. Jumper Settings on the SCXI-1320 Terminal Block  
Jumper  
Position  
Description  
W1  
MTS mode selected; factory  
setting; parking position  
MTEMP  
DTEMP  
W1  
DTS mode selected  
MTEMP  
DTEMP  
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Configuration and Installation  
Chapter 2  
Table 2-8. Jumper Settings on the SCXI-1328 Terminal Block  
Position Description  
Jumper  
W1  
MTS mode selected; factory  
setting; parking position  
DTEMP  
DTEMP  
MTEMP  
MTEMP  
W1  
DTS mode selected  
Terminal Block Signal Connection  
Warnings: The chassis GND terminals on your terminal block are for grounding high  
impedance sources such as a floating source (1 mA maximum). Do not use these  
terminals as safety earth grounds.  
If high voltages (42 Vrms) are present, you must connect the safety earth ground  
to the strain-relief tab. This complies with UL 1244 and protects against electric  
shock when the terminal block is not connected to the chassis. To connect the  
safety earth ground to the strain-relief tab, run an earth ground wire in the cable  
from the signal source to the terminal block. National Instruments is not liable for  
any damages or injuries resulting from inadequate safety earth ground  
connections.  
Shock Hazard: This unit should only be opened by qualified personnel aware of  
the dangers involved. Disconnect all power before removing cover. Always  
install grounding screw.  
!
To connect the signal to the terminal block, use the following procedure:  
1. Remove the grounding screw of the top cover.  
2. Snap out the top cover of the shield by placing a screwdriver in the groove at the bottom of  
the terminal block.  
3. Slide the signal wires, one at a time, through the front panel strain-relief opening. You can  
add insulation or padding if necessary.  
4. Connect the wires to the screw terminals by wrapping the wires around the screws and  
tightening the screws without letting the wires slip out.  
5. Tighten the larger strain-relief screws.  
6. Snap the top cover back in place.  
7. Reinsert the grounding screw to ensure proper shielding.  
8. Connect the terminal block to the SCXI-1120 front connector as explained in the Terminal  
Block Installation section later in this chapter.  
Figure 2-9 shows a parts locator diagram for the SCXI-1320 terminal block. Figure 2-10 shows  
a parts locator diagram for the SCXI-1328 terminal block.  
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Chapter 2  
Configuration and Installation  
Figure 2-9. SCXI-1320 Parts Locator Diagram  
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Configuration and Installation  
Chapter 2  
Figure 2-10. SCXI-1328 Parts Locator Diagram  
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Chapter 2  
Configuration and Installation  
Terminal Block Installation  
To connect the terminal block to the SCXI-1120 front connector, perform the following steps:  
1. Connect the SCXI-1120 front connector to its mating connector on the terminal block.  
2. Make sure that the SCXI-1120 top and bottom thumbscrews do not obstruct the rear panel of  
the terminal block.  
3. Tighten the top and bottom screws on the back of the terminal block to hold it securely in  
place.  
Rear Signal Connector  
Note: If you will be using the SCXI-1120 with a National Instruments data acquisition board  
and cable assembly, you do not need to read the remainder of this chapter. If you will  
also be using the SCXI-1180 feedthrough panel, the SCXI-1343 rear screw terminal  
adapter, or the SCXI-1351 one-slot cable extender with the SCXI-1120, you should read  
this section.  
Figure 2-11 shows the pin assignments for the SCXI-1120 rear signal connector.  
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Chapter 2  
AOGND  
MCH0+  
MCH1+  
MCH2+  
MCH3+  
MCH4+  
MCH5+  
MCH6+  
MCH7+  
OUTREF  
AOGND  
MCH0-  
MCH1-  
MCH2-  
MCH3-  
MCH4-  
1
3
5
7
9
2
4
6
8
10  
11 12  
13 14  
15 16  
17 18  
19 20  
21 22  
23 24  
25 26  
27 28  
29 30  
31 32  
33 34  
35 36  
37 38  
39 40  
41 42  
43 44  
45 46  
47 48  
49 50  
MCH5-  
MCH6-  
MCH7-  
DIG GND  
SERDATIN  
DAQD*/A  
SERDATOUT  
SLOT0SEL*  
DIG GND  
SERCLK  
SCANCLK  
RSVD  
Figure 2-11. SCXI-1120 Rear Signal Connector Pin Assignment  
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Rear Signal Connector Signal Descriptions  
Pin  
Signal Name  
Description  
1-2  
AOGND  
Analog Output Ground – Connected to the analog  
reference when jumper W46 is in position AB-R0.  
3-18  
19  
MCH0± through MCH7± Analog Output Channels 0 through 7 – Connects to  
the data acquisition board differential analog input  
channels.  
OUTREF  
Output Reference – Serves as the reference node for  
the analog output channels and the temperature  
sensor–in the DTS mode–in the Pseudodifferential  
Reference mode. It should be connected to the  
analog input sense of the NRSE data acquisition  
board.  
24, 33  
DIG GND  
Digital Ground – Supply the reference for data  
acquisition board digital signals and are tied to the  
module digital ground.  
25  
26  
27  
SERDATIN  
SERDATOUT  
DAQD*/A  
Serial Data In – Taps into the SCXIbus MOSI line  
to provide serial input data to a module or Slot 0.  
Serial Data Out – Taps into the SCXIbus MISO line  
to accept serial output data from a module.  
Data Acquisition Board Data/Address Line – Taps  
into the SCXIbus D*/A line to indicate to the  
module whether the incoming serial stream is data  
or address information.  
29  
36  
37  
43  
SLOT0SEL*  
SCANCLK  
SERCLK  
RSVD  
Slot 0 Select – Taps into the SCXIbus INTR* line  
to indicate whether the information on MOSI is  
being sent to a module or Slot 0.  
Scan Clock – Indicates to the SCXI-1120 that a  
sample has been taken by the data acquisition board  
and causes the SCXI-1120 to change channels.  
Serial Clock – This signal taps into the SCXIbus  
SPICLK line to clock the data on the MOSI and  
MISO lines.  
Reserved.  
All other pins are not connected.  
See the Timing Requirements and Communication Protocol section later in this chapter for more  
detailed information on timing.  
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Configuration and Installation  
Chapter 2  
The signals on the rear signal connector can be classified as analog output signals, digital I/O  
signals, or timing I/O signals. Signal connection guidelines for each of these groups are given in  
the following section.  
Analog Output Signal Connections  
Pins 1 through 19 of the rear signal connector are analog output signal pins. Pins 1 and 2 are  
AOGND signal pins. AOGND is an analog output common signal that is routed through jumper  
W46 to the analog reference on the SCXI-1120. You can use these pins for a general analog  
power ground tie point to the SCXI-1120 if necessary. In particular, when using differential  
input data acquisition boards, such as the MIO-16 board, it is preferable to leave jumper W46 in  
its factory setting or in position AB-R1 to avoid ground loops. With data acquisition boards that  
are configured for referenced single-ended (RSE) measurements, jumper W46 should be in  
position AB-R0 to connect the SCXI-1120 analog ground reference to the data acquisition analog  
ground. Pin 19 is the OUTREF pin, and is connected internally to the analog reference when  
jumper W46 is in position AB-R2. Pins 3 through 18 are the analog output channels of the  
SCXI-1120. Pins 3 and 4, or MCH0±, are a multiplexed output of all eight channels and the  
temperature sensor output. Pins 5 through 18, or MCH1± through MCH7±, are a parallel  
connection of channels 1 through 7 to the rear signal connector. Pin 18 is a direct connection to  
the temperature sensor when jumper W41 is in position 3. Notice that the temperature sensor is  
located on the terminal block. For further details on configuring the temperature sensor output,  
refer to the SCXI-1320 and SCXI-1328 Terminal Blocks section earlier in this chapter.  
Warning: The SCXI-1120 analog outputs are not overvoltage protected. Applying external  
voltage to these outputs can result in damage to the SCXI-1120. National  
Instruments is not liable for any damages resulting from such signal connections.  
Note: The SCXI-1120 analog outputs are short-circuit protected.  
Digital I/O Signal Connections  
Pins 24 through 27, 29, 33, 36, 37, and 43 constitute the digital I/O lines of the rear signal  
connector. They are divided into three categories–the digital input signals, the digital output  
signals, and the digital timing signals.  
The digital input signals are pins 24, 25, 27, 29, 33, and 37. The data acquisition board uses  
these pins to configure the SCXI module that is under data acquisition board control. Each  
digital line emulates the SCXIbus communication signals as follows:  
Pin 25 is SERDATIN and is equivalent to the SCXIbus MOSI serial data input line.  
Pin 27 is DAQD*/A and is equivalent to the SCXIbus D*/A line. It indicates to the module  
whether the incoming serial stream on SERDATIN is data (DAQD*/A = 0) or address  
(DAQD*/A = 1) information.  
Pin 29 is SLOT0SEL* and is equivalent to the SCXIbus INTR* line. It indicates whether the  
data on the SERDATIN line is being sent to Slot 0 (SLOT0SEL* = 0) or to a module  
(SLOT0SEL* = 1).  
Pins 24 and 33 are the digital ground references for the data acquisition board digital signals  
and are tied to the module digital ground.  
Pin 37 is SERCLK and is equivalent to the SCXIbus SPICLK line and is used to clock the  
serial data on the SERDATIN line into the module registers.  
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The digital output signal is pin 26:  
Pin 26 is SERDATOUT and is equivalent to SCXIbus MISO when jumper W43 is in  
position 1.  
The digital I/O signals of the SCXI-1120 match the digital I/O lines of the MIO-16 board. When  
used with an SCXI-1341, SCXI-1342, or SCXI-1344 cable assembly, the SCXI-1120 signals  
match the digital lines of the Lab-NB/Lab-PC+/Lab-LC boards and the PC-LPM-16 board,  
respectively. Table 2-9 lists the equivalences. For more information, consult Appendix E,  
SCXI-1120 Cabling.  
Table 2-9. SCXIbus to SCXI-1120 Rear Signal Connector to  
Data Acquisition Board Pin Equivalences  
SCXIbus Line  
SCXI-1120  
Rear Signal  
Connector  
MIO-16 Board Lab-NB/Lab-PC/  
Lab-PC+/Lab-LC  
PC-LPM-16  
MOSI  
D*/A  
INTR*  
SPICLK  
MISO  
SERDATIN  
DAQD*/A  
SLOT0SEL*  
SERCLK  
ADIO0  
ADIO1  
ADIO2  
EXTSTROBE*  
BDIO0  
PB4  
PB5  
PB6  
PB7  
PC1  
DOUT4  
DOUT5  
DOUT6  
DOUT7  
DIN6  
SERDATOUT  
The digital timing signals are pins 36 and 43:  
Pin 36 is used as a clock by the SCXI-1120 to increment the MUXCOUNTER after each  
conversion by the data acquisition board during scanning. This signal is referred to as  
SCANCLK. See Chapter 3, Theory of Operation, for a description of MUXCOUNTER.  
Pin 43 is a reserved digital input.  
The following specifications and ratings apply to the digital I/O lines.  
Absolute maximum voltage  
input rating  
5.5 V with respect to DIG GND  
Digital input specifications (referenced to DIG GND):  
V
IH input logic high voltage  
2 V minimum  
VIL input logic low voltage  
0.8 V maximum  
II input current leakage  
±1 µA maximum  
Digital output specifications (referenced to DIG GND):  
V
OH output logic high voltage 3.7 V minimum at 4 mA maximum  
VOL output logic low voltage  
0.4 V maximum at 4 mA maximum  
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Configuration and Installation  
Chapter 2  
Timing Requirements and Communication Protocol  
Timing Signal  
The data acquisition timing signal is SCANCLK.  
SCANCLK is used to increment MUXCOUNTER on its rising edge. Figure 2-12 shows the  
timing requirements of the SCANCLK signal. These requirements will ensure that SCANCLK  
is properly transmitted over TRIG0.  
Thigh  
Tlow  
SCANCLK  
T
T
Time low before rising edge  
Time high before falling edge  
400 nsec minimum  
250 nsec minimum  
low  
high  
Figure 2-12. SCANCLK Timing Requirements  
For output selection time specifications, refer to Appendix A, Specifications.  
Communication Signals  
This section describes the methods for communicating on the Serial Peripheral Interface (SPI)  
bus and their timing requirements. The communication signals are SERDATIN, DAQD*/A,  
SLOT0SEL*, SERDATOUT, and SERCLK. Furthermore, SS* is produced by Slot 0 according  
to data acquisition board programming, and SS* timing relationships will also be discussed. For  
information on the Slot 0 Slot-Select Register, consult Chapter 4, Register Descriptions.  
The data acquisition board determines to which slot it will talk by writing a slot-select number to  
Slot 0. In the case of an SCXI-1001 chassis, this write also determines to which chassis the data  
acquisition board will talk. Writing a slot-select number is also used in programming the Slot 0  
hardscan circuitry. See Chapter 5, Programming, for information on programming the Slot 0  
hardscan circuitry.  
The following sections detail the procedure for selecting a slot in a particular chassis.  
Figure 2-13 illustrates the timing of this procedure with the example case of selecting Slot 11 in  
Chassis 9. Notice that the factory-default chassis address for the SCXI-1000 is address 0. For  
information on changing the address of your chassis, consult the SCXI-1000/1001 User Manual.  
An SCXI-1000 chassis will respond to any chassis number.  
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SLOT0SEL*  
Tss_dis  
SS*X  
Chassis Y  
SS*11  
Chassis 9  
Tclk_wait  
Tss_en  
SERCLK  
Tslot0sel*_wait  
SERDATIN  
0
1
0
0
1
1
0
1
1
Chassis ID = 9  
SLOT0SEL* low to SS* disabled  
SLOT0SEL* low to first rising edge on SERCLK  
Last rising edge on SERCLK to SLOT0SEL* high  
SLOT0SEL* high to SS* enabled  
Slot 11  
T
T
T
T
200 nsec maximum  
75 nsec minimum  
250 nsec minimum  
350 nsec maximum  
ss _ dis  
_ wait  
clk  
slot0sel* wait  
_
ss _ en  
Figure 2-13. Slot-Select Timing Diagram  
To write the 16-bit slot-select number to Slot 0, follow these steps:  
1. Initial conditions:  
SERDATIN = don't care.  
DAQD*/A = don't care.  
SLOT0SEL* = 1.  
SERCLK = 1.  
2. Clear SLOT0SEL* to 0. This will deassert all SS* lines to all modules in all chassis.  
3. For each bit, starting with the MSB, perform the following action:  
a. SERDATIN = bit to be sent. These bits are the data that are being written to the  
Slot-Select Register.  
b. SERCLK = 0.  
c. SERCLK = 1. This rising edge clocks the data.  
4. Set SLOT0SEL* to 1. This will assert the SS* line of the module whose slot number was  
written to Slot 0. If multiple chassis are being used, only the appropriate slot in the chassis  
whose address corresponds to the written chassis number will be selected. When no  
communication is taking place between the data acquisition board and any modules, you  
should write zero to the Slot-Select Register to ensure that no accidental writes occur.  
Figure 2-14 shows the timing requirements on the SERCLK and SERDATIN signals. You must  
observe these timing requirements for all communications. T  
SCXI-1120.  
is a specification of the  
delay  
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Configuration and Installation  
Chapter 2  
T
high  
T
low  
SERCLK  
SERDATIN  
T
setup  
T
hold  
T
delay  
SERDATOUT  
T
T
T
T
T
Minimum low time  
Minimum high time  
SERDATIN setup time  
SERDATIN hold time  
SERDATOUT delay  
65 nsec minimum  
low  
400 nsec minimum  
200 nsec minimum  
200 nsec minimum  
350 nsec maximum  
high  
setup  
hold  
delay  
Figure 2-14. Serial Data Timing Diagram  
After the Slot-Select line to an SCXI-1120 has been asserted, you can write to its Configuration  
Register and read from its Module ID Register using the following protocols. The contents of  
the Module ID Register are reinitialized by deasserting Slot-Select. After the 32 bits of data are  
read from the Module ID Register, further data will be zeros until reinitialization occurs.  
To write to the Configuration Register, follow these steps:  
1. Initial conditions:  
SS* asserted low.  
SERDATIN = don't care.  
DAQD*/A = 0 (indicates data will be written to Configuration Register).  
SLOT0SEL* = 1.  
SERCLK = 1 (and has not transitioned since SS* went low).  
2. For each bit to be written:  
Establish the desired SERDATIN level corresponding to this bit.  
SERCLK = 0.  
SERCLK = 1. Clock the data.  
3. Pull SLOT0SEL* low to deassert the SS* line and establish conditions for writing a new  
slot-select number to the Slot 0 Slot-Select Register.  
4. If you are not selecting another slot, you should write zero to the Slot 0 Slot-Select Register.  
Figure 2-15 illustrates a write to the SCXI-1120 Configuration Register of the binary pattern:  
10000011 00001111  
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SLOT0SEL*  
SS*  
SERCLK  
SERDATIN  
1 0 0 0 0 0 1 1 0 0 0 0 1 1 1 1  
Figure 2-15. Configuration Register Write Timing Diagram  
To read from the Module ID Register, follow these steps:  
1. Initial conditions:  
SS* asserted low.  
SERDATIN = don't care.  
DAQD*/A = 1. Make sure DAQD*/A does not go low or erroneous data will be written  
to the Configuration Register.  
SLOT0SEL* = 1.  
SERCLK = 1 (and has not changed since SS* went low).  
2. For each bit to be read:  
SERCLK = 0.  
SERCLK = 1. Clock the data.  
Read the level of the SERDATOUT line.  
3. Pull SLOT0SEL* low to deassert the SS* line and establish conditions for writing a new  
slot-select number to the Slot 0 Slot-Select Register.  
4. If you are not selecting another slot, you should write zero to the Slot 0 Slot-Select Register.  
Figure 2-16 illustrates a read of the SCXI-1120 Module ID Register.  
SLOT0SEL*  
SS*  
SERCLK  
Tdelay  
SERDATOUT  
0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0  
byte 0 = 4 byte 1 = 0 byte 2 = 0 byte 3 = 0  
SS* high to SERDATOUT high  
T
350 nsec maximum  
delay  
Figure 2-16. SCXI-1120 Module ID Register Timing Diagram  
For further details on programming these signals, refer to Chapter 5, Programming.  
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Chapter 3  
Theory of Operation  
This chapter contains a functional overview of the SCXI-1120 module and explains the operation  
of each functional unit making up the SCXI-1120.  
Functional Overview  
The block diagram in Figure 3-1 illustrates the key functional components of the SCXI-1120.  
Isolated Section  
SCXIbus  
Nonisolated  
Section  
Input Channel 0  
+
+
+
-
Digital  
Interface  
and  
Input Channel 1  
Input Channel 6  
+
Control  
-
Timing  
and  
Analog  
Output  
Stage  
+
+
+
-
Input Channel 7  
+
-
Temperature Sensor  
Figure 3-1. SCXI-1120 Block Diagram  
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Theory of Operation  
Chapter 3  
The major components of the SCXI-1120 are as follows:  
SCXIbus connector  
Digital interface  
Digital control circuitry  
Timing and analog circuitry  
The SCXI-1120 consists of eight isolated amplifier channels with gains of 1, 2, 5, 10, 20, 50,  
100, 200, 500, 1,000, and 2,000. The SCXI-1120 also has a digital section for automatic control  
of channel scanning, temperature selection, and MUXCOUNTER clock selection.  
The theory of operation of each of these components is explained in the rest of this chapter.  
SCXIbus Connector  
Figure 3-2 shows the pinout of the SCXIbus connector.  
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GUARD  
GUARD  
GUARD  
AB0+  
A1  
B1  
A2  
B2  
D1  
C1  
D2  
C2  
GUARD  
GUARD  
GUARD  
AB0-  
GUARD  
GUARD  
GUARD  
A3  
B3  
A4  
D3  
C3  
D4  
GUARD  
GUARD  
GUARD  
B4  
C4  
GUARD  
GUARD  
GUARD  
A5  
B5  
A6  
D5  
C5  
D6  
GUARD  
GUARD  
GUARD  
B6  
C6  
A7  
D7  
B7  
C7  
A8  
D8  
B8  
C8  
A9  
D9  
B9  
C9  
A10  
B10  
A11  
B11  
A12  
B12  
A13  
B13  
A14  
B14  
A15  
B15  
A16  
B16  
A17  
B17  
A18  
B18  
A19  
B19  
A20  
B20  
A21  
B21  
A22  
B22  
A23  
B23  
A24  
B24  
D10  
C10  
D11  
C11  
D12  
C12  
D13  
C13  
D14  
C14  
D15  
C15  
D16  
C16  
D17  
C17  
D18  
C18  
D19  
C19  
D20  
C20  
D21  
C21  
D22  
C22  
D23  
C23  
D24  
C24  
CHSGND  
CHSGND  
CHSGND  
CHSGND  
CHSGND  
RSVD  
INTR*  
D*/A  
V-  
RESET*  
MISO  
V-  
V-  
V-  
CHSGND  
CHSGND  
V+  
V+  
+5 V  
SPICLK  
TRIG0  
SS*  
CHSGND  
CHSGND  
V+  
V+  
+5 V  
MOSI  
SCANCON  
Figure 3-2. SCXIbus Connector Pin Assignment  
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Theory of Operation  
Chapter 3  
SCXIbus Connector Signal Descriptions  
Pin  
Signal Name  
Description  
A1, B1, C1, D1, GUARD  
A2, D2, A3, B3,  
C3, D3, A4, D4,  
A5, B5, C5, D5,  
A6, D6  
Guard – Shields and guards the analog bus lines  
from noise.  
B2  
AB0+  
Analog Bus 0+ – Positive analog bus 0 line. Used  
to multiplex several modules to one analog signal.  
C2  
AB0-  
Analog Bus 0- – Negative analog bus 0 line. Used  
to multiplex several modules to one analog signal.  
C13-C17, A21, CHSGND  
B21, C21, D21  
Chassis Ground – Digital and analog ground  
reference.  
C18  
A19  
RSVD  
Reserved.  
RESET*  
Reset – When pulled low, reinitializes the module to  
its power-up state. Totem pole. Input.  
B19  
C19  
MISO  
D*/A  
Master-In-Slave-Out – Transmits data from the  
module to the SCXIbus. Open collector. I/O.  
Data/Address – Indicates to the module whether  
address information or data information is being  
sent to the module on MOSI. Open collector. I/O.  
D19  
INTR*  
Interrupt – Active low. Causes data that is on  
MOSI to be written to the Slot-Select Register  
Slot 0. Open collector. Output.  
A20, B20, C20, V-  
D20  
Negative Analog Supply – -18.5 V to -25 V.  
Positive Analog Supply – +18.5 V to +25 V.  
+5 VDC Source – Digital power supply.  
A22, B22, C22, V+  
D22  
A23, D23  
B23  
+5 V  
SPICLK  
Serial Peripheral Interface (SPI) Clock – Clocks the  
serial data on the MOSI and MISO lines. Open  
collector. I/O.  
C23  
MOSI  
Master-Out-Slave-In – Transmits data from the  
SCXIbus to the module. Open collector. I/O.  
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Pin  
Signal Name  
Description (continued)  
A24  
TRIG0  
TRIG0 – General-purpose trigger line used by the  
SCXI-1120 to send SCANCLK to other modules or  
receive SCANCLK from other modules. Open  
collector. I/O.  
B24  
C24  
SS*  
Slot Select – When low, enables module  
communications over the SCXIbus. Totem pole.  
Input.  
SCANCON  
Scanning Control – Combination output enable and  
reload signal for scanning operations. Totem pole.  
Input.  
All other pins are not connected.  
MOSI, MISO, SPICLK, and SS* form a synchronous communication link that conforms with  
SPI using an idle-high clock and second-edge data latching. D*/A, INTR*, and RESET* are  
additional control signals.  
When the module is being used in an SCXI-1000 or SCXI-1001 chassis, the data acquisition  
board, via the module rear signal connector, must tap into the open-collector backplane signal  
lines as a master to write to the module. The signal connections from the rear signal connector to  
the backplane are shown in Table 3-1.  
Table 3-1. SCXIbus Equivalents for the Rear Signal Connector  
Rear Signal Connector  
Signal  
SCXIbus Equivalent  
SERDATIN  
DAQD*/A  
SLOT0SEL*  
MOSI  
D*/A  
INTR* Jumper W44 must be set to position 1  
(Revision A and B modules only)  
SPICLK  
SERCLK  
SERDATOUT  
MISO  
Jumper 43 must be set to position 1  
The SCXI-1120 module converts the data acquisition board signals to open-collector signals on  
the backplane of the SCXI chassis. In order for the data acquisition board to talk to a slot, the  
board must first assert the SS* for that slot. This is done by asserting INTR* low, writing a  
16-bit number over MOSI corresponding to the desired slot (and chassis if an SCXI-1001 chassis  
is being used), and then releasing INTR* high. At this point, the SS* of the desired slot is  
asserted low and the data acquisition board can communicate with the module in that slot  
according to the SPI protocol.  
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Chapter 3  
Digital Interface  
Figure 3-3 shows a diagram of the SCXI-1120 and SCXIbus digital interface circuitry.  
SCXIbus  
SERDATIN  
Buffered Serial  
Data  
DAQD*/A  
Digital  
Interface  
SLOT0SEL*  
Buffered Digital  
Signal Controls  
SERCLK  
SERDATOUT  
Figure 3-3. Digital Interface Circuitry Block Diagram  
The digital interface circuitry is divided into a data acquisition section and an SCXIbus section.  
The SCXI-1120 connects to the SCXIbus via a 4x24 metral receptacle and to the data acquisition  
board via a 50-pin ribbon-cable header. The digital interface circuitry buffers the digital signals  
from the data acquisition board and the SCXIbus and sends signals back and forth between the  
data acquisition board and the SCXIbus.  
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Digital Control Circuitry  
Figure 3-4 diagrams the SCXI-1120 digital control.  
Serial Data Out  
Module ID Register  
Buffered  
Serial Data In  
Input Channel  
Select  
Configuration  
Register  
Buffered Digital  
Control Signals  
Output  
SCANCLK  
Path  
Control  
Stage  
Control  
Hardware  
Scan  
Control  
Figure 3-4. SCXI-1120 Digital Control  
The digital control section consists of the Configuration Register and the Module ID Register.  
The Configuration Register is a two-byte, serial-in, parallel-out shift register. Data is received on  
the MOSI line from either Slot 0 or the data acquisition board when SS* is enabled and D*/A  
indicates data transfer (D*/A low). The Configuration Register provides channel selection and  
configures the SCXI-1120 for scanning options. All the control bits are fed into a latch before  
being routed to the rest of the module. The channel-select bits are taken directly from the shift  
register. Complete descriptions of the register bits are given in Chapter 4, Register Descriptions.  
Writes to the Configuration Register require the following steps:  
1. SS* goes low, enabling communication with the board.  
2. D*/A goes low, indicating that the information sent on the MOSI line is data.  
3. The serial data is available on MOSI and SPICLK clocks it into the register.  
4. SS* goes high and D*/A goes high, indicating an end of communication. This action latches  
the Configuration Register bits.  
When the SCXIbus is reset, all bits in the Configuration Register are cleared.  
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The Module ID Register connects to MISO on the SCXIbus. The Module ID Register is an 8-bit,  
parallel/serial-in, serial-out shift register and an SPI communication adapter. The contents of the  
Module ID Register are written onto MISO during the first four bytes of transfer after SS* has  
been asserted low. Zeros are written to MISO thereafter until SS* is released and reasserted.  
The SCXI-1120 module ID is hex 00000004.  
Analog and Timing Circuitry  
The SCXIbus provides analog power (±18.5 VDC) that is regulated on the SCXI-1120 to  
±15 VDC, a guard, an analog bus (AB0±), and a chassis ground (CHSGND). AB0± buses the  
SCXI-1120 output to other modules or receives outputs from other modules via the SCXIbus.  
The guard guards the analog bus and can be connected via jumper W46 to the analog ground  
reference or can be left floating (a connection can be made by another board).  
The data acquisition board analog input and timing is the interface between the SCXI-1120  
output and the data acquisition board. This is described in the following section.  
Analog Input Channels  
Figure 3-5 is a diagram of the analog input block.  
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Input Channel 0  
+
-
+
+
+
+
+
+
+
+
+
-
To Output  
LPF  
LPF  
LPF  
LPF  
LPF  
LPF  
LPF  
LPF  
LPF  
Stage  
I
I
I
I
I
I
I
I
Input Channel 1  
LPF  
+
-
+
-
To Output  
Stage  
Input Channel 2  
LPF  
+
-
+
-
To Output  
Stage  
Input Channel 3  
LPF  
+
-
+
-
To Output  
Stage  
Input Channel 4  
LPF  
+
-
+
-
To Output  
Stage  
Input Channel 5  
LPF  
+
-
+
-
To Output  
Stage  
Input Channel 6  
LPF  
+
-
+
-
To Output  
Stage  
Input Channel 7  
LPF  
+
-
+
-
To Output  
Stage  
MTEMP  
DTEMP  
Figure 3-5. Analog Input Block Diagram  
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Chapter 3  
The analog input consists of eight isolated single-ended noninverting amplifiers. In addition,  
lowpass filtering is available at the inputs. You can jumper select one of two bandwidths,  
10 kHz or 4 Hz. The amplifier gain is divided into two stages, a first stage providing gains of 1,  
10, 50, and 100, and a second stage providing gains of 1, 2, 5, 10, and 20. Each channel is  
configurable to a different bandwidth and gain.  
Use the following formula to determine the overall gain of a given amplifier input channel:  
G
= G x G  
1st 2nd  
total  
where G  
is the overall gain and G and G  
are the first- and second-stage gains. Here it is  
2nd  
total  
1st  
important to note that the choice of gain in each stage will affect the amplifier bandwidth. To  
determine the bandwidth of a given gain stage use the following formula:  
BW = GBWP/G  
where BW is a given amplifier stage bandwidth, GBWP is the gain bandwidth product (typically  
800 kHz), and G is the gain at this stage. This BW might be of concern at high first-stage gains  
such as 50 and 100. In this case, the first-stage amplifier has a BW equal to 16 kHz and 8 kHz,  
respectively. Due to this decrease in the amplifier bandwidth, you will notice a decrease in the  
channel overall bandwidth, but a better noise immunity. If this bandwidth limitation is  
unacceptable, you should spread the gains over both stages, thus increasing the BW of each  
amplifier stage. This will introduce, in most cases, a negligible effect on the channel bandwidth.  
For example, to achieve a gain of 100, use G = 10 and G  
= 10; for a gain of 1,000, use  
1st  
2nd  
G
= 50 and G  
= 20.  
1st  
2nd  
All the amplifier input channels are overvoltage protected to 240 Vrms with power on or off.  
The isolated amplifiers fulfill two purposes on the SCXI-1120 module. They convert a small  
signal riding on a high common-mode voltage into a single-ended signal with respect to the  
SCXI-1120 chassis ground. With this conversion, the input analog signal can be extracted from  
a high common-mode voltage or noise before being sampled and converted by the data  
acquisition board. The isolated amplifier also amplifies and conditions an input signal, which  
results in an increase in measurement resolution and accuracy.  
After isolation, further filtering is available to increase the noise immunity of the amplifier  
channel. It is important to note that the overall amplifier bandwidth is determined by both  
filtering stages, so to achieve the required bandwidth, both filtering sections should be set the  
same, as indicated in Chapter 2, Configuration and Installation.  
Calibration  
Calibration Equipment Requirements  
For best measurement results, calibrate the SCXI-1120 so that its offset is adjusted to 0 ± 3 mV  
RTO and 0 ± 6 µV RTI. No special equipment is needed other than a regular voltmeter with the  
following specifications.  
Range:  
± 30 mV to ±300 mV  
Resolution: 3 1/2 digits or greater  
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A multiranging 3 1/2-digit digital multimeter can provide you with the necessary function as  
described previously. We will refer to the measuring instrument as a digital multimeter (DMM).  
Each channel on the SCXI-1120 has two potentiometers dedicated for calibration. One  
potentiometer is used to null the output offset; the other is used to null the input offset.  
Offset Null Adjust  
To null the offset of the amplifier channels, complete the following steps:  
1. Set the DMM range to the smallest range that can measure ±3 mV.  
2. Short the inputs of the DMM together and then to chassis ground.  
3. Record the measurement indicated by the DMM display. This is the DMM inherent offset  
and it should be subtracted from subsequent measurements.  
4. Short the desired channel inputs together and then to chassis ground.  
5. Set the amplifier gain to 1.  
6. Connect the amplifier output to the DMM. Make sure that the DMM can achieve the  
accuracy and resolution you need.  
7. Adjust the output potentiometer of the desired channel until the output is 0 ± 3 mV.  
8. Set the DMM range to the smallest range that can measure ±6 mV.  
9. Set the amplifier gain to 1,000.  
10. Adjust the input potentiometer of the desired channel until the output is 0 ± 6 mV.  
11. Go to the next channel.  
To avoid erroneous results when nulling the amplifier, follow these steps in the order indicated.  
You may seal the potentiometers after calibration with antisabotage lacquer to avoid tampering  
with the calibration.  
Table 3-2 lists the potentiometer reference designators that correspond to each channel.  
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Table 3-2. Calibration Potentiometers Reference Designators  
Input Channel  
Number  
Amplifier Channel  
Input Null Output  
Null  
0
1
2
3
4
5
6
7
R8  
R24  
R25  
R26  
R27  
R28  
R29  
R30  
R31  
R10  
R12  
R14  
R16  
R18  
R20  
R21  
Analog Output Circuitry  
Figure 3-6 shows the SCXI-1120 analog output circuitry.  
SCXIbus  
Output  
Stage  
Control  
AB0  
Switch  
Channel 0  
Channel 7  
Output  
Mux  
MCH0+  
Buffer  
MCH0-  
MTEMP  
From MCH1+  
Channel 1  
MCH1-  
Output Stage and  
Hardware Scan  
Control  
From  
MCH6+  
Channel 6  
MCH6-  
Analog  
Reference  
From  
Channel 7  
MCH7+  
W41  
DTEMP  
>>  
MCH7-  
Figure 3-6. Analog Output Circuitry  
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Theory of Operation  
The SCXI-1120 output circuitry consists of a buffered-output multiplexer and channel-select  
hardware. The channel-select hardware consists of a three-bit counter, MUXCOUNTER. This  
counter is needed when the board is operating in the Multiplexed-Output mode. The counter  
output is sent to the output multiplexer address pins to determine which of the eight channels is  
to be connected to MCH0. In the Single-Channel Read mode, the MUXCOUNTER is loaded  
with the desired channel number. In the Scanning mode, the counter is loaded with the first  
channel to be read. During the scan, the counter is clocked by SCANCLK from the data  
acquisition board, or TRIG0 from the SCXIbus, depending on the state of the CLKSELECT bit  
in the Configuration Register. During scanning operations, the MUXCOUNTER is reloaded  
with the channel value stored in the Configuration Register when SCANCON is high (inactive),  
and will count upwards on each rising clock edge when SCANCON is low (active). In the  
Parallel-Output mode, the MUXCOUNTER is disabled and its output indicates binary 00; thus,  
amplifier Channel 0 is selected at the output multiplexer and is connected to MCH0. The seven  
other channels are hardwired to MCH1 through MCH7 on the rear signal connector.  
The output multiplexer multiplexes all eight amplifier outputs and the temperature-sensor  
reading provided on the MTEMP line. To read the temperature sensor when it is multiplexed  
with the other input channels, the RTEMP bit of the Configuration Register must be set high.  
This measurement is only software controlled. For hardware control of the temperature sensor  
reading, connect the temperature sensor to pin 18 on the rear signal connector as described in  
Chapter 2, Configuration and Installation. The multiplexer output connects to the MCH0± and  
is connected to the data acquisition board analog channel input. In the case of the MIO data  
acquisition boards, MCH0± on the rear signal connector corresponds to ACH0 and ACH8.  
Furthermore, the multiplexed output of the SCXI-1120 can be bused, via switches to AB0± on  
the SCXIbus, to other modules. When you use multiple modules, it is possible to bus the module  
output via AB0 to the module that connects to the data acquisition board. In this case, the AB0  
switches of all the modules are closed, whereas the output multiplexer of all the modules, except  
the one being read, are disabled. Refer to chapters 2 and 5 for further details on how to configure  
and program multiple modules.  
In addition to the Multiplexed-Output mode described in the previous paragraph, it is possible to  
operate the SCXI-1120 in the Parallel-Output mode. In this mode, you need no software–other  
than the software used with your data acquisition board–to control the scanning of the eight  
channels or to perform a single read. To access the temperature sensor in this mode, configure  
the temperature sensor in the DTS mode. At power up or reset, amplifier Channel 0 is selected  
on the output multiplexer, and thus connects to MCH0. The other seven amplifier channels are  
hardwired to the rear signal connector. Notice that when the Multiplexed-Output mode is  
selected, pins 5 through 18 on the rear signal connector are still driven by the SCXI-1120. The  
SCXI-1120 outputs on the rear signal connector are short-circuit protected.  
Refer to the following Scanning Modes section for further details on how to scan the SCXI-1120  
channels.  
Scanning Modes  
The SCXI-1120 has four basic types of scanning modes–single-module parallel scanning,  
single-module multiplexed scanning, multiple-module multiplexed scanning, and  
multiple-chassis scanning, which is possible only with the SCXI-1001 chassis. For additional  
information, consult Chapter 2, Configuration and Installation, Chapter 5, Programming, your  
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Theory of Operation  
Chapter 3  
data acquisition board user manual, or your SCXI chassis user manual. If you need more  
information, contact National Instruments.  
Single-Module Parallel Scanning  
Single-module parallel scanning is the simplest scanning mode. Directly cable the SCXI-1120 to  
the data acquisition board as shown in Figure 3-7. In this configuration, each analog signal has  
its own channel. Timing signals are not necessary for this type of scanning because the module  
provides all channels to the data acquisition board at all times. You can implement  
single-module parallel scanning with any data acquisition board that is appropriately cabled to  
the SCXI-1120.  
SCXI-1120  
Data Acquisition Board  
Cable Assembly  
CH0  
CH1  
CH2  
CH3  
CH4  
CH5  
CH6  
CH7  
MCH0  
MCH1  
MCH2  
MCH3  
MCH4  
MCH5  
MCH6  
MCH7  
Analog Input 0  
Analog Input 1  
Analog Input 2  
Analog Input 3  
Analog Input 4  
Analog Input 5  
Analog Input 6  
Analog Input 7  
Eight Isolated  
Floating  
Single-Ended  
Inputs  
Figure 3-7. Single-Module Parallel Scanning  
Multiplexed Scanning  
Only the MIO-16 data acquisition boards support multiplexed scanning on the SCXI-1120.  
During multiplexed scanning, a module sends the SCANCLK signal to Slot 0 over the TRIG0  
backplane line, and Slot 0 sends SCANCON signals to each module. Each module uses its  
SCANCON signal to reload MUXCOUNTER and to determine when the SCXI-1120 output is  
enabled. Slot 0 contains a module scan list first-in-first-out (FIFO) memory chip, similar to the  
Channel/Gain FIFO on an MIO-16 board, except that instead of having a channel number and  
gain setting for each entry, the Slot 0 FIFO contains a slot number and a sample count for each  
entry. The list in Slot 0 will determine which module is being accessed and for how many  
samples. It is important that you make sure that the lists on the data acquisition board and Slot 0  
are compatible so that the samples are acquired as intended. See your SCXI chassis manual for  
more information.  
Single-Module Multiplexed Scanning  
Single-Module Multiplexed Scanning (Direct)  
This is the simplest multiplexed-scanning mode. Directly cable the SCXI-1120 to the data  
acquisition board as shown in Figure 3-8. The module sends SCANCLK onto TRIG0, and Slot 0  
sends SCANCON back to the module. SCANCON will be low at all times during the scan  
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except during changes from one Slot 0 scan list entry to the next, when SCANCON pulses high  
to make the MUXCOUNTER reload its starting channel. Notice that although you are using  
only a single module, you can put many entries with different counts in the Slot 0 FIFO, so that  
some channels are read more often than others. You cannot change the start channel in the  
module Configuration Register during a scan.  
SCXI-1000 or SCXI-1001 Chassis  
SCANCON X  
TRIG0  
DataAcquisition Board  
Cable  
Assembly  
Eight Isolated  
SCANCLK  
Timing Output  
Analog Input  
Floating  
Single-Ended  
Inputs  
MCH0  
SLOT 0  
SCXI-1120  
SLOT X  
Figure 3-8. Single-Module Multiplexed Scanning (Direct)  
Single-Module Multiplexed Scanning (Indirect)  
In this mode, the SCXI-1120 is not directly cabled to the data acquisition board. Instead, you  
connect another module to the data acquisition board, and the analog output of the SCXI-1120 is  
sent over Analog Bus 0, through the intermediate module, and then to the data acquisition board.  
The SCXI-1120 receives its MUXCOUNTER clock from TRIG0, which is sent by the  
intermediate module, as shown in Figure 3-9. Slot 0 operation is the same for direct connection  
scanning.  
SCXI-1000 or SCXI-1001 Chassis  
SCANCON X  
TRIG0  
DataAcquisition Board  
Cable  
Assembly  
SCANCLK  
Timing Output  
MCH0  
Analog Input  
Other  
SLOT 0  
SCXI-1120  
Module  
SLOT X  
Analog Bus 0  
Figure 3-9. Single-Module Multiplexed Scanning (Indirect)  
Multiple-Module Multiplexed Scanning  
In this mode, all the modules tie into Analog Bus 0 and SCANCON enables the output of their  
amplifiers. The module that is directly cabled to the data acquisition board sends SCANCLK  
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Chapter 3  
onto TRIG0 for the other modules and Slot 0, as shown in Figure 3-10. The scan list in Slot 0 is  
programmed with the sequence of modules and the number of samples per entry.  
SCXI-1000 or SCXI-1001 Chassis  
SCANCON X  
DataAcquisition Board  
SCANCON B  
SCANCONA  
TRIG0  
SCANCLK  
MCH0  
SLOT 0  
CableAssembly  
SCXI Module  
SLOT B  
SCXI Module  
SCXI Module  
SLOT X  
Analog Bus 0  
SLOTA  
Figure 3-10. Multiple-Module Multiplexed Scanning  
Multiple-Chassis Scanning  
In this mode, you attach each SCXI-1001 chassis to a daisy chain of cable assemblies and  
multichassis adapter boards, as shown in Figure 3-11. You program each chassis separately, and  
each chassis occupies a dedicated channel of the data acquisition board. Within each chassis,  
scanning operations act as if the other chassis are not being used, with one exception–you must  
program the Slot 0 scan list in each chassis with dummy entries of Slot 13 to fill the samples  
when the data acquisition board will be sampling another chassis or data acquisition board  
channel. This will keep the chassis synchronized. Notice that you can only perform  
multiple-chassis scanning with the SCXI-1001 chassis and MIO-16 data acquisition boards. See  
Chapter 5, Programming, for more information on multiple-chassis scanning. See Appendix E,  
SCXI-1120 Cabling, for more information on the necessary cable accessories for multichassis  
scanning.  
Multichassis  
Adapter  
Multichassis  
Adapter  
Multichassis  
Adapter  
Data Acquisition Board  
Cable  
Assembly  
Cable  
Assembly  
Cable  
Assemblies  
Input Ch. N  
Input Ch. 1  
Input Ch. 0  
Timing Output  
Chassis 1  
Chassis 2  
Chassis  
Chassis N  
Figure 3-11. Multiple-Chassis Scanning  
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Chapter 4  
Register Descriptions  
This chapter describes in detail the SCXI-1120 Module ID Register, the Configuration Register,  
the Slot 0 registers, and multiplexer addressing.  
Note: If you plan to use a programming software package such as NI-DAQ, LabWindows, or  
LabVIEW with your SCXI-1120 board, you do not need to read this chapter.  
Register Description  
Register Description Format  
This register description chapter discusses each of the SCXI-1120 registers and the Slot 0  
registers. A detailed bit description of each register is given. The individual register description  
gives the type, word size, and bit map of the register, followed by a description of each bit.  
The register bit map shows a diagram of the register with the MSB shown on the left (bit 15 for a  
16-bit register, bit 7 for an 8-bit register), and the LSB shown on the right (bit 0). A rectangle is  
used to represent each bit. Each bit is labeled with a name inside its rectangle. An asterisk (*)  
after the bit name indicates that the bit is inverted (negative logic). The Module ID register has a  
unique format and is described in the Module ID Register section.  
In many of the registers, several bits are labeled with an X, indicating don't care bits. When you  
write to a register, you may set or clear these bits without effect.  
SCXI-1120 Registers  
The SCXI-1120 has two registers. The Module ID Register is a four-byte, read-only register that  
contains the Module ID number of the SCXI-1120. The Configuration Register is a 16-bit,  
write-only register that controls the functions and characteristics of the SCXI-1120.  
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Register Descriptions  
Chapter 4  
Module ID Register  
The Module ID Register contains the 4-byte module ID code for the SCXI-1120. This code  
number will be read as the first four bytes on the MISO line whenever the module is accessed.  
The bytes will appear least significant byte first. Within each byte, data is sent out MSB first.  
Additional data transfers will result in all zeros being sent on the MISO line. The Module ID  
Register is reinitialized to its original value each time the SCXI-1120 is deselected by the SS*  
signal on the backplane.  
Type:  
Read-only  
Word Size: 4-byte  
Bit Map:  
Byte 0  
7
0
6
0
5
0
4
0
3
0
2
1
1
0
0
0
Byte 1  
7
0
6
0
5
0
4
0
3
0
2
0
1
0
0
0
Byte 2  
7
0
6
0
5
0
4
0
3
0
2
0
1
0
0
0
Byte 3  
7
0
6
0
5
0
4
0
3
0
2
0
1
0
0
0
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Chapter 4  
Register Descriptions  
Configuration Register  
The Configuration Register contains 16 bits that control the functions of the SCXI-1120. When  
SS* is asserted (low) and D*/A indicates data (low), the register will shift in the data present on  
the MOSI line, bit 15 first, and then latch it when the SCXI-1120 is deselected by the SS* signal  
on the backplane. The Configuration Register initializes to all zeros when the SCXI chassis is  
reset or first turned on.  
Type:  
Write-only  
Word Size: 16-bit  
Bit Map:  
15  
CLKOUTEN  
14  
CLKSELECT  
13  
X
12  
X
11  
X
10  
CHAN2  
9
8
CHAN1  
CHAN0  
7
X
6
X
5
4
RSVD  
3
2
1
0
RTEMP  
SCANCLKEN SCANCONEN  
AB0EN  
FOUTEN*  
Bit  
Name  
Description  
15  
CLKOUTEN  
CLKSELECT  
Scan Clock Output Enable – This bit determines whether  
the SCANCLK signal from the rear signal connector is sent  
out, in inverted form, to the TRIG0 backplane signal. If  
CLKOUTEN is set to 1, SCANCLK* is transmitted on  
TRIG0. If CLKOUTEN is cleared to 0, SCANCLK* is not  
transmitted on TRIG0.  
14  
Scan Clock Select – This bit determines whether the  
SCXI-1120 uses SCANCLK or the inverted form of TRIG0  
to clock the MUXCOUNTER for the purposes of scanning  
through the analog channels. If CLKSELECT is cleared  
to 0, SCANCLK is used to clock MUXCOUNTER. If  
CLKSELECT is set to 1, TRIG0* is used as the source to  
clock MUXCOUNTER.  
13-11, 7-6  
10-8  
X
Don't care bits – Unused.  
CHAN<2..0>  
Channel Select – These bits determine the channel number  
(zero to seven) that is loaded into the MUXCOUNTER to  
determine the analog channel to be read during a single  
read, or the starting channel on the module for a scanned  
data acquisition. CHAN2 is the MSB.  
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Register Descriptions  
Chapter 4  
Bit  
Name  
Description (continued)  
5
RTEMP  
Read Temperature – This bit determines whether the  
selected channel output or the MTEMP signal is driven  
onto the MCH0± pins of the rear signal connector. If  
RTEMP is cleared to 0, the selected channel output is used  
as the module output. If RTEMP is set to 1, the MTEMP  
signal is used as the module output. The module output  
will only be driven when FOUTEN* is cleared to 0, or  
SCANCON is active (low) while SCANCONEN* is  
cleared.  
4
3
RSVD  
Reserved – This bit should always be written to 0.  
SCANCLKEN Scan Clock Enable – This bit determines whether  
MUXCOUNTER will increment on each clock signal (the  
clock source is determined by CLKSELECT), or keep its  
loaded value. If SCANCLKEN is set to 1,  
MUXCOUNTER will be clocked during scans. If  
SCANCLKEN is cleared to 0, MUXCOUNTER will not be  
clocked.  
2
1
SCANCONEN Scan Control Enable – This bit, when set to 1, enables the  
SCANCON signal.  
AB0EN  
Analog Bus 0 Enable – This bit determines whether Analog  
Bus 0 on the SCXIbus drives MCH0 on the rear signal  
connector. If AB0EN is cleared to 0, Analog Bus 0 doesnot  
drive MCH0. If AB0EN is set to 1, Analog Bus 0 + drives  
MCH0+ through a buffer and a Analog Bus 0 - is connected  
to MCH0-.  
0
FOUTEN*  
Forced Output Enable – This bit determines whether the  
module will drive the MCH0± pins on the rear signal  
connector with either the selected channel output or the  
MTEMP signal, depending on the state of RTEMP. If  
FOUTEN* is cleared to 0, the MCH0± pins will be driven  
through a buffer by the selected channel output or the  
MTEMP line. If FOUTEN* is set to 1, the MCH0± pins  
will not be driven by the selected channel output or  
MTEMP, unless SCANCON is active (low) and the  
SCANCONEN bit is cleared. If the selected channel output  
or MTEMP is driving the output buffer, it will drive Analog  
Bus 0 if AB0EN is set. If nothing is driving the output  
buffer, the SCXI-1120 output will saturate.  
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Chapter 4  
Register Descriptions  
Slot 0 Register Descriptions  
Slot 0 has three registers. The Slot-Select Register is a 16-bit, write-only register that determines  
with which slot the data acquisition board will speak when SLOT0SEL* is released high. In the  
case of the SCXI-1001 chassis, the Slot-Select Register also determines in which chassis the  
desired slot is. The FIFO Register is a 16-bit, write-only register used for storing the Slot 0 scan  
list that determines the chassis scan sequence. The Hardscan Control Register (HSCR) is an  
8-bit, write-only register used for setting up the timing circuitry in Slot 0. The Slot-Select  
Register is written to by using the SLOT0SEL* line. The HSCR and the FIFO Register are  
written to as if they were registers located on modules in Slots 13 and 14. You should maintain  
software copies of the Slot-Select Register, HSCRs, and all the Slot 0 scan lists that correspond  
to the writes to FIFO Registers.  
If you are using multiple chassis, it is important to understand the architectural differences of the  
Slot-Select Register as compared to the HSCR and the FIFO Register. Although each chassis  
has its own physical Slot-Select Register, all are written to at the same time. The jumper settings  
in Slot 0 of a chassis determine with which chassis number Slot 0 is identified. From the  
software perspective, only one Slot-Select Register exists in a system composed of multiple  
chassis. The HSCR and FIFO Register, on the other hand, are unique to each chassis and you  
must program them separately.  
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Register Descriptions  
Chapter 4  
Slot-Select Register  
The Slot-Select Register contains 16 bits that determine which module in which chassis will be  
enabled for communication when the SLOT0SEL* line is high. An SCXI-1000 chassis will  
select the appropriate module in its chassis, regardless of the chassis number written. The  
Slot-Select Register will shift in the data present on the MOSI line, bit 16 first, when  
SLOT0SEL* is low.  
Type:  
Write-only  
Word Size: 16-bit  
Bit Map:  
15  
X
14  
X
13  
X
12  
X
11  
X
10  
X
9
X
8
CHS4  
7
6
5
4
3
SL3  
2
SL2  
1
SL1  
0
SL0  
CHS3  
CHS2  
CHS1  
CHS0  
Bit  
Name  
X
Description  
15-9  
8-4  
Don't care bits – Unused.  
CHS<4..0>  
Chassis Bit 4 through 0 – These bits determine  
which chassis is selected. On the SCXI-1000  
chassis, these are don't care bits.  
3-0  
SL<3..0>  
Slot Bit 3 through 0 – These bits determine which  
slot in the selected chassis is selected.  
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Chapter 4  
Register Descriptions  
Hardscan Control Register (HSCR)  
The HSCR contains eight bits that control the setup and operation of the hardscan timing  
circuitry of Slot 0. To write to the HSCR, follow the procedure given in the Register Writes  
section in Chapter 5, Programming, using 13 as the slot number and writing eight bits to the  
HSCR. The register will shift in the data present on the MOSI line, bit 7 first, when Slot 13 is  
selected by the Slot-Select Register.  
Type:  
Write-only  
Word Size: 8-bit  
Bit Map:  
7
RSVD  
6
FRT  
5
RD  
4
ONCE  
3
2
1
0
HSRS*  
LOAD*  
SCANCONEN  
CLKEN  
Bit  
Name  
RSVD  
FRT  
Description  
7
6
Reserved.  
Forced Retransmit – This bit, when clear, causes the scan  
list in the FIFO to be reinitialized to the first entry, thus  
allowing the scan list to be reprogrammed in two steps  
instead of having to rewrite the entire list. When this bit is  
set, it has no effect.  
5
4
RD  
Read – This bit, when clear, prevents the FIFO from being  
read. When set, the FIFO is being read except at the end  
of a scan list entry during scanning, when reading is briefly  
disabled to advance to the next scan list entry.  
ONCE  
Once – When set, this bit will cause the Hardscan circuitry  
to shut down at the end of the scan list circuitry during a  
data acquisition. When clear, the circuitry will wrap  
around and continue seamlessly with the first scan list entry  
after the entry is finished.  
3
2
1
0
HSRS*  
LOAD*  
Hardscan Reset – When clear, this bit causes all the  
hardware scanning circuitry, including the FIFO, to be reset  
to the power up state. When set, this bit has no effect.  
Load – This bit, when clear, forces a loading of the Slot 0  
sample counter with the output of the FIFO. When set,  
this bit has no effect.  
SCANCONEN  
CLKEN  
Scan Control Enable – When set, this bit enables the  
SCANCON lines. When clear, all SCANCON lines are  
disabled (high).  
Clock Enable – When set, this bit enables TRIG0 as a  
clock for the hardscan circuitry. When clear, TRIG0 is  
disabled.  
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Register Descriptions  
Chapter 4  
FIFO Register  
The FIFO Register is used to add entries to the Slot 0 FIFO. The FIFO contains the Slot 0 scan  
list. Each entry contains a slot number to be accessed, and a count number to determine the  
number of samples to be taken from that slot. To write to the FIFO Register, follow the  
procedure given in the Register Writes section in Chapter 5, Programming, using 14 as the slot  
number, and writing 16 bits to the FIFO Register. The register will shift in the data present on  
the MOSI line, bit 7 first, when Slot 14 is selected by the Slot-Select Register. The Slot 0 scan  
list is created by consecutive writes to the FIFO Register. Each write creates a new entry at the  
end of the scan list. The maximum number of entries is 256. To clear the FIFO of all entries,  
clear the HSRS* bit in the HSCR.  
Type:  
Write-only  
Word Size: 16-bit  
Bit Map:  
15  
X
14  
X
13  
X
12  
X
11  
X
10  
MOD3  
9
8
MOD2  
MOD1  
7
6
5
4
3
2
1
0
MOD0  
CNT6  
CNT5  
CNT4  
CNT3  
CNT2  
CNT1  
CNT0  
Bit  
Name  
Description  
15-11  
10-7  
X
Don't care bits – Unused.  
MOD<3..0>  
Module Number – The value of these bits plus one  
determines the number of the slot to be accessed for  
this scan entry. For example, to access Slot 6,  
MOD<3..0> would be 0101.  
6-0  
CNT<6..0>  
Count – The value of these bits plus one determines  
how many samples will be taken before the next  
scan list entry becomes active. A value of zero  
corresponds to one sample and a value of 127  
corresponds to 128 samples.  
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Chapter 5  
Programming  
This chapter contains a functional programming description of the SCXI-1120 and Slot 0.  
Note: If you plan to use a programming software package such as NI-DAQ, LabWindows, or  
LabVIEW with your SCXI-1120 board, you do not need to read this chapter.  
Programming Considerations  
Programming the SCXI-1120 involves writing to the Configuration Register. Programming  
Slot 0 involves writing to the HSCR and FIFO Register. Programming the data acquisition  
boards involves writes to their registers. See your data acquisition board user manual for more  
information. The programming instructions list the sequence of steps to take. The instructions  
are language independent; that is, they instruct you to write a value to a given register without  
presenting the actual code.  
Notation  
For the bit patterns to be written, the following symbols are used:  
0
1
X
C
binary zero  
binary one  
don't care; either zero or one may be written  
one of three bits used to specify the channel to be loaded into the MUXCOUNTER. This  
value will either be the channel to be read for single reads, or a starting channel for  
scanned measurements.  
The 16-bit patterns are presented MSB first, left to right.  
Register Writes  
This section describes how to write to the Configuration Register, HSCR, and FIFO Register,  
including the procedure for writing to the Slot-Select Register to select the appropriate slot. For  
timing specifics, refer to the Timing Requirements and Communication Protocol section in  
Chapter 2, Configuration and Installation. The rear signal connector pin equivalences to the  
different National Instruments data acquisition boards are given in Table 5-1. Also see  
Appendix E, SCXI-1120 Cabling. The Configuration Register, the HSCR, and the FIFO Register  
are write-only registers.  
The different bits in these registers often control independent pieces of circuitry. There are times  
when you may want to set or clear a specific bit or bits without affecting the remaining bits.  
However, a write to one of these registers will affect all bits simultaneously. You cannot read  
the registers to determine which bits have been set or cleared in the past; therefore, you should  
maintain a software copy of these registers. You can then read the software copy to determine  
the status of the register. To change the state of a single bit without disturbing the remaining  
bits, set or clear the bit in the software copy and write the software copy to the register.  
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Programming  
Chapter 5  
Table 5-1. SCXI-1120 Rear Signal Connector Pin Equivalences  
SCXIbus Line SCXI-1120 Rear MIO-16 Board Lab-NB/Lab-PC/  
PC-LPM-16  
Signal Connector  
Lab-PC+/Lab-LC  
MOSI  
D*/A  
INTR*  
SPICLK  
MISO  
SERDATIN  
DAQD*/A  
SLOT0SEL*  
SERCLK  
ADIO0  
ADIO1  
ADIO2  
EXTSTROBE*  
BDIO0  
PB4  
PB5  
PB6  
PB7  
PC1  
DOUT4  
DOUT5  
DOUT6  
DOUT7  
DIN6  
SERDATOUT  
Register Selection and Write Procedure  
1. Select the slot of the module to be written to (or Slot 13 or 14). Initial conditions:  
SERDATIN = X.  
DAQD*/A = X.  
SLOT0SEL* = 1.  
SERCLK = 1.  
2. Clear SLOT0SEL* to 0. This will deassert all SS* lines to all modules in all chassis.  
3. For each bit, starting with the MSB (bit 15):  
a. SERDATIN = bit to be sent. These bits are the data that is being written to the  
Slot-Select Register.  
b. Clear SERCLK to 0.  
c. Set SERCLK to 1. This rising edge clocks the data. (If you are using an MIO-16 board,  
writing to the EXTSTROBE* register will pulse EXTSTROBE* low and then high,  
accomplishing steps 3b and 3c.)  
4. Set SLOT0SEL* to 1. This will assert the SS* line of the module whose slot number was  
written to Slot 0. If you are using multiple chassis, only the appropriate slot in the chassis  
whose address corresponds to the written chassis number will be selected automatically.  
When no communications are taking place between the data acquisition board and any  
modules, write zero to the Slot-Select Register to ensure that no accidental writes occur.  
5. If you are writing to a Configuration Register, clear DAQD*/A to 0 (this indicates data will  
be written to Configuration Register). If you are writing to the HSCR or FIFO Register,  
leave DAQD*/A high.  
6. For each bit to be written to the Configuration Register:  
a. Establish desired SERDATIN level corresponding to this bit.  
b. Clear SERCLK to 0.  
c. Set SERCLK to 1 (clock the data). (If you are using an MIO-16 board, writing to the  
EXTSTROBE* register will pulse EXTSTROBE* low and then high, accomplishing  
steps 6b and 6c.)  
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Chapter 5  
Programming  
7. Pull SLOT0SEL* low to deassert the SS* line, latch the data into the Configuration Register  
and establish conditions for writing a new slot-select number to the Slot 0 Slot-Select  
Register.  
8. If you are not selecting another slot, write zero to the Slot 0 Slot-Select Register. If you are  
selecting another slot, start at step 3.  
For a timing illustration of a Configuration Register write, see Figure 2-15, Configuration  
Register Write Timing Diagram, which shows the proper write to configure an SCXI-1120 that is  
directly cabled to an MIO-16 board for multiple-module multiplexed scanning with a start  
channel of 3.  
Initialization  
The SCXI-1120 powers up with its Configuration register cleared to all zeros. You can force this  
state by sending an active low signal on the RESET* pin of the SCXIbus connector. In the reset  
state, CH0 through CH3 are routed to MCH0 through MCH3 on the rear signal connector. The  
module is disconnected from Analog Bus 0 and disabled from scanning.  
Single-Channel Measurements  
This section describes how to program the SCXI-1120, either alone or in conjunction with other  
modules, to make single-channel, or nonscanned, measurements.  
Direct Measurements  
Parallel Output  
To perform a parallel output measurement, you must cable the SCXI-1120 rear signal connector  
to a data acquisition board with each output connected to a different data acquisition board  
channel. See Chapter 2, Configuration and Installation, for more information. For information  
on how to make the voltage measurement with your data acquisition board, consult your data  
acquisition board user manual. Remember to account for the gains of both the SCXI-1120 and  
the data acquisition board when calculating the actual voltage present at the input of the  
SCXI-1120.  
To measure one of the eight differential input channels to the SCXI-1120, or the DTEMP line if  
the module has been configured appropriately, perform the following steps:  
1. Write the binary pattern 00XXX000 XX000000to the SCXI-1120 Configuration Register.  
Notice that this can be the RESET state.  
2. Measure the voltage with the data acquisition board.  
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Programming  
Chapter 5  
Multiplexed Output  
To perform a direct multiplexed output measurement, you must cable the SCXI-1120 rear signal  
connector to a data acquisition board. See Chapter 2, Configuration and Installation, for more  
information. For information on how to make the voltage measurement with your data  
acquisition board, consult your data acquisition board user manual. Remember to account for the  
gains of both the SCXI-1120 and the data acquisition board when calculating the actual voltage  
present at the input of the SCXI-1120.  
To measure one of the eight differential input channels to the SCXI-1120, perform the following  
steps:  
1. Write the binary pattern 00XXXXCC XX000000 to the SCXI-1120 Configuration Register.  
2. Measure the voltage with the data acquisition board.  
To measure the voltage on the MTEMP line, perform the following steps:  
1. Write the binary pattern 00XXXXXX XX100000to the SCXI-1120 Configuration Register.  
2. Measure the voltage with the data acquisition board.  
Indirect Measurements  
Indirect measurements involve one module sending a signal to Analog Bus 0, where it is picked  
up by another module and transmitted to the data acquisition board.  
Measurements from Other Modules  
To perform measurements from other modules, you must cable the SCXI-1120 rear signal  
connector to a data acquisition board. See Chapter 2, Configuration and Installation, for more  
information. To make a measurement from another module, perform the following steps:  
1. Perform any necessary programming to ensure that no modules are driving Analog Bus 0.  
For an SCXI-1120, clearing AB0EN in the Configuration Register will ensure that its output  
is not driving AB0.  
2. Write the binary pattern 00XXXXXX XX100011to the SCXI-1120 Configuration Register.  
This step disables the SCXI-1120 from driving Analog Bus 0 and allows Analog Bus 0 to  
drive MCH0 through the output buffer.  
3. Program the other module to drive Analog Bus 0 with the signal to be measured.  
4. Measure the voltage with the data acquisition board.  
Measurements from the SCXI-1120 via Another Module  
To perform measurements via another module, you must cable the other module rear signal  
connector to a data acquisition board. The other module must be able to transfer Analog Bus 0 to  
the data acquisition board. See Chapter 2, Configuration and Installation, for more information.  
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Chapter 5  
Programming  
To measure one of the eight differential input channels to the SCXI-1120, perform the following  
steps:  
1. Perform any necessary programming to ensure that no modules are driving Analog Bus 0.  
For an SCXI-1120, clearing AB0EN in the Configuration Register will ensure that its output  
is not driving AB0.  
2. Program the other module not to drive Analog Bus 0, but to send Analog Bus 0 to the data  
acquisition board.  
3. Write the binary pattern 00XXXCCC XX000010to the SCXI-1120 Configuration Register.  
4. Measure the voltage with the data acquisition board.  
To measure the voltage on the MTEMP line, perform the following steps:  
1. Perform any necessary programming to ensure that no modules are driving Analog Bus 0.  
For an SCXI-1120, clearing AB0EN in the Configuration Register will ensure that its output  
is not driving AB0.  
2. Program the other module not to drive Analog Bus 0, but to send Analog Bus 0 to the data  
acquisition board.  
3. Write the binary pattern 00XXXXXX XX100010to the SCXI-1120 Configuration Register.  
4. Measure the voltage with the data acquisition board.  
Scanning Measurements  
Programming for scanned data acquisition involves programming your data acquisition board,  
modules, and Slot 0. In general, the steps to be taken are as follows:  
1. Perform all data acquisition board programming to the point of enabling the data  
acquisition.  
2. Perform all module programming.  
3. Program the Slot 0 hardscan circuitry.  
4. Enable the data acquisition, trigger it either through software or hardware, and service the  
data acquisition.  
The MIO boards can do all types of scanning. Lab-NB, Lab-PC, Lab-PC+, Lab-LC, and  
PC-LPM-16 boards support only single-module parallel scanning, and do not support any of the  
multiplexed scanning modes. Notice that single-module parallel scanning is typically done  
without any module or Slot 0 programming; only programming the data acquisition board is  
necessary.  
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Programming  
Chapter 5  
1. Data Acquisition Board Setup Programming  
The programming steps for your data acquisition board are given in your data acquisition board  
user manual. You should follow the instructions in the following sections:  
AT-MIO-16 User Manual  
-
-
Multiple A/D Conversions with Continuous Channel Scanning (Round Robin)  
Multiple A/D Conversions with Interval Channel Scanning (Pseudosimultaneous)  
AT-MIO-16D User Manual  
-
-
Multiple A/D Conversions with Continuous Channel Scanning (Round Robin)  
Multiple A/D Conversions with Interval Channel Scanning (Pseudosimultaneous)  
AT-MIO-16F-5 User Manual  
-
-
Posttrigger Data Acquisition with Continuous Channel Scanning  
Posttrigger Data Acquisition with Interval Channel Scanning  
AT-MIO-16X User Manual  
-
-
Continuous Channel Scanning Data Acquisition  
Interval Channel Scanning Data Acquisition  
AT-MIO-64F-5 User Manual  
-
-
Continuous Channel Scanning Data Acquisition  
Interval Channel Scanning Data Acquisition  
Lab-LC User Manual  
Programming Multiple A/D Conversions with Channel Scanning  
Lab-NB User Manual  
Programming Multiple A/D Conversions with Channel Scanning  
Lab-PC User Manual  
Programming Multiple A/D Conversions with Channel Scanning  
Lab-PC+ User Manual  
-
-
-
-
-
-
Programming Multiple A/D Conversions with Channel Scanning  
Programming Multiple A/D Conversions with Interval Scanning  
Programming Multiple A/D Conversions in Single-Channel Interval Acquisition Mode  
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Chapter 5  
Programming  
MC-MIO-16 User Manual  
-
-
Multiple A/D Conversions with Continuous Channel Scanning (Round Robin)  
Multiple A/D Conversions with Interval Channel Scanning (Pseudosimultaneous)  
NB-MIO-16 User Manual  
Programming Multiple A/D Conversions with Channel Scanning  
NB-MIO-16X User Manual  
-
-
-
Multiple A/D Conversions with Continuous Channel Scanning (Round Robin)  
Multiple A/D Conversions with Interval Channel Scanning (Pseudosimultaneous)  
PC-LPM-16 User Manual  
Programming Multiple A/D Conversions with Channel Scanning  
-
Follow the instructions in these sections through the part labeled as follows:  
Clear the A/D Circuitry and Reset the Mux Counter in the MIO board user manual (except for  
the AT-MIO-16X and AT-MIO-64F-5). Do not continue to the part called Enable the  
Scanning Data Acquisition Operation. You will do this after you have programmed the  
modules and Slot 0.  
Program the Sample Counter (if you are doing continuous channel scanning) or Program the  
Scan-Interval Counter (if you are doing interval channel scanning) in the AT-MIO-16X and  
AT-MIO-64F-5 user manuals. Do not continue to the part labeled Enable a Scanning Data  
Acquisition Operation or Enable an Interval Scanning Data Acquisition Operation. You will  
do this after you have programmed the modules and Slot 0.  
Note: For multiplexed scanning with an MIO board, it is important that you follow the  
instructions in the channel scanning sections, not the single-channel sections. Although  
you may be using only one MIO board channel, the channel scanning programming will  
ensure that the MIO board outputs SCANCLK, which is needed by the SCXI-1120 and  
Slot 0.  
Clear the A/D Circuitry in the Lab-LC User Manual. Do not continue to the part called  
Program the Sample-Interval Counter. You will do this after you have programmed the  
modules and Slot 0.  
Clear the A/D Circuitry in the Lab-PC User Manual, the Lab PC+ User Manual, and the  
PC-LPM-16 User Manual. Do not continue to the part called Start and Service the Data  
Acquisition Operation. You will do this after you have programmed the modules and Slot 0.  
Clear the A/D Circuitry in the Lab-NB User Manual. Do not continue to the part called  
Program the Sample-Interval Counter (Counter A0). You will do this after you have  
programmed the modules and Slot 0.  
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Programming  
Chapter 5  
Counter 1 and SCANDIV  
All MIO boards can operate their data acquisition board scan lists in two ways–they can acquire  
one sample per data acquisition board scan list entry; or they can acquire N samples per data  
acquisition board scan list entry, where N is a number from 2 to 65,535 that is programmed in  
Counter 1. This second method of operation is especially useful when the data acquisition board  
scan list length is limited to 16 entries, as it is on all MIO boards except the AT-MIO-16F-5,  
which can have up to 512 entries. Because you can multiplex many SCXI-1120s in one chassis  
to one MIO board channel, often the simplest way to program the MIO board is to use only one  
data acquisition board scan list entry, and make N the total number of samples to be taken on all  
modules in one scan. Check your MIO board user manual for limitations in the data acquisition  
board scan list format.  
To program the MIO board to take N samples per data acquisition board scan list entry, perform  
the following additional programming steps at the end of the Enable the Scanning Data  
Acquisition Operation section in the appropriate data acquisition board user manual:  
1. Write FF01 to the Am9513 Command Register to select Counter 1 Mode Register.  
2. Write 0325 (hex) to the Am9513 Data Register to store Counter 1 Mode Value for most MIO  
boards. For the AT-MIO-16F-5, and the AT-MIO-16X, and the AT-MIO-64F-5, write 1325  
(hex).  
3. Write FF09 to the Am9513 Command Register to select Counter 1 Load Register.  
4. Write the number of samples to be taken per scan list entry (2 to 65,535) to the Am9513  
Data Register to load Counter 1.  
5. Write FF41 to the Am9513 Command Register to load Counter 1.  
6. Write FFF1 to the Am9513 Command Register to step Counter 1.  
7. Write FF21 to the Am9513 Command Register to arm Counter 1.  
8. Set the SCANDIV bit in Command Register 1.  
2. Module Programming  
This section describes the programming steps for various scanning possibilities.  
Single-Module Parallel Scanning  
To perform single-module parallel scanning, you must cable the SCXI-1120 rear signal  
connector to a data acquisition board with each output connected to a different data acquisition  
board channel. See Chapter 2, Configuration and Installation, for more information.  
To program the SCXI-1120 for single-module parallel scanning, write the binary pattern  
00XXXX00 XX000000to the SCXI-1120 Configuration Register. Notice that this can be the  
RESET state.  
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Chapter 5  
Programming  
Single-Module Multiplexed Scanning (Direct)  
To perform simple channel scanning, you must cable the SCXI-1120 to a data acquisition board.  
See Chapter 2, Configuration and Installation, for more information.  
To program the module for scanned-channel measurements, write the binary pattern 10XXXCCC  
XX001101to the SCXI-1120 Configuration Register. CCCrepresents the starting channel  
number.  
Single-Module Multiplexed Scanning (Indirect)  
To indirectly scan a module, send the output of the scanned module onto Analog Bus 0, where it  
is picked up by another module and transmitted to the data acquisition board.  
Channel Scanning from Other Modules. To scan measurements from other modules, you must  
cable the SCXI-1120 to a data acquisition board. See Chapter 2, Configuration and Installation,  
for more information. The module programming steps are as follows:  
1. Perform any necessary programming to ensure that no modules are driving Analog Bus 0.  
For an SCXI-1120, clearing AB0EN in the Configuration Register will ensure that its output  
is not driving AB0.  
2. Write the binary pattern 10XXXXXX XX100011to the SCXI-1120 Configuration Register.  
This step disables the SCXI-1120 from driving Analog Bus 0 and allows Analog Bus 0 to  
drive MCH0 through the output buffer.  
3. Program the other module to be scanned.  
Channel Scanning from the SCXI-1120 via Another Module. To scan the SCXI-1120 via other  
modules, you must cable the other module to a data acquisition board, and the other module must  
be able to transfer Analog Bus 0 to the data acquisition board. The other module must also be  
able to send a SCANCLK*-compatible signal on TRIG0. See Chapter 2, Configuration and  
Installation, for more information. The module programming steps are as follows:  
1. Perform any necessary programming to ensure that no modules are driving Analog Bus 0.  
For an SCXI-1120, clearing AB0EN in the Configuration Register will ensure that its output  
is not driving AB0.  
2. Program the other module not to drive Analog Bus 0, but to send Analog Bus 0 to the data  
acquisition board. Also program the other module to send a SCANCLK*-compatible signal  
to TRIG0.  
3. Write the binary pattern 01XXXCCC XX001111to the SCXI-1120 Configuration Register,  
where CCCis the starting channel number.  
Multiple-Module Multiplexed Scanning  
To scan multiple modules, you must connect one module to the data acquisition board, and the  
module must be able to transfer Analog Bus 0 to the data acquisition board. This module must  
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Programming  
Chapter 5  
also be able to send a SCANCLK*-compatible signal on TRIG0. See Chapter 2, Configuration  
and Installation, for more information. The module programming steps are as follows:  
1. Perform any necessary programming to ensure that no modules are driving Analog Bus 0.  
For an SCXI-1120, clearing AB0EN in the Configuration Register will ensure that its output  
is not driving AB0.  
2. Program the module that is connected to the data acquisition board to connect Analog Bus 0  
to the data acquisition board but not drive Analog Bus 0 unless it is receiving an active low  
signal on SCANCON. Also program the module to send a SCANCLK*-compatible signal  
onto TRIG0. If this module is an SCXI-1120, this programming is accomplished by writing  
the binary pattern 10XXXCCC XX001111to its Configuration Register.  
Note: If this module is an SCXI-1120 and is not going to be scanned (it is just being used as  
an interface), write a 0 to bit 2 (SCANCONEN) in the Configuration Register. The  
start channel bits become don't care bits.  
3. Program the other modules to be used in the scan to connect their outputs to Analog Bus 0  
but not drive Analog Bus 0 unless receiving an active low signal on SCANCON. Also  
program the modules to use TRIG0 as their clock source. For SCXI-1120 modules, this  
programming is accomplished by writing the binary pattern 01XXXCCC XX001111to  
their Configuration Registers.  
Multiple-Chassis Scanning  
To scan modules on multiple chassis, you must use the SCXI-1001 chassis. The cable from the  
data acquisition board must bus the digital lines to one module on each chassis. Additionally, the  
cable must provide each chassis with its own analog channel. The data acquisition board must be  
able to take several readings at a time on a given channel before accessing a new channel. See  
the Counter 1 and SCANDIV subsection of the 1. Data Acquisition Board Setup Programming  
section earlier in this chapter. You can use the MIO-16 boards, in conjunction with the  
SCXI-1350 multichassis adapter, for multichassis scanning.  
For each chassis, program the modules according to the appropriate mode of operation,  
disregarding the fact that other chassis will be involved.  
For example, you want to scan thirteen modules. Twelve modules are in one chassis, and the  
thirteenth is in the second chassis and is to be scanned through a fourteenth module that is cabled  
to the data acquisition board but is not involved in the scan. Program the twelve modules in the  
first chassis according to the steps in the previous Multiple-Module Multiplexed Scanning  
section, and program the thirteenth and fourteenth modules according to Channel Scanning from  
the SCXI-1120 via Another Module earlier in this chapter.  
3. Programming the Slot 0 Hardscan Circuitry  
The following section describes how to program the Slot 0 circuitry for scanning operations. For  
a more detailed description of the Slot 0 scanning circuitry, consult the SCXI-1000/1001 User  
Manual. Descriptions of the Slot 0 registers are in the Slot 0 Register Descriptions section of  
Chapter 4, Register Descriptions. It is not necessary to read this section if you are performing  
single-module parallel scanning.  
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Chapter 5  
Programming  
To program the hardscan circuitry, perform the following steps:  
1. Write binary 0000 0000to the HSCR.  
2. Write binary 0000 1000to the HSCR.  
3. Write the Slot 0 scan list to the FIFO.  
4. Write binary 0010 1100to the HSCR.  
5. Write binary 101S 1100to the HSCR.  
6. Write binary 101S 1110to the HSCR.  
7. Write binary 101S 1111to the HSCR.  
To program the hardscan circuitry to use the current scan list, perform the following steps:  
1. Write binary 0000 1000to the HSCR.  
2. Write binary 0100 1000to the HSCR.  
3. Write binary 0000 1000to the HSCR.  
4. Write binary 0010 1100to the HSCR.  
5. Write binary 101S 1100to the HSCR.  
6. Write binary 101S 1110to the HSCR.  
7. Write binary 101S 1111to the HSCR.  
In the preceding steps:  
S= 0if you want the scanning to repeat when the end of the list is reached.  
S= 1if you want the circuitry to shut down after a single scan.  
When you are writing multiple entries to the same register, for example, repetitive writes to the  
HSCR or several FIFO entries, it is important that SS*13 or SS*14 go inactive (high) between  
each entry. Select another slot or toggle the SLOT0SEL* line to temporarily deassert the  
appropriate SS* line.  
If consecutive scan list entries access an SCXI-1120, the module will reload the  
MUXCOUNTER with the starting channel after each entry. Thus, two entries with counts of  
four for one module will yield different behavior than one entry with a count of eight.  
For multiple-chassis scanning, program each Slot 0 with dummy entries to fill the sample counts  
when the data acquisition board is accessing other chassis. Use Slot 13 as the dummy entry slot.  
See Example 3 at the end of this chapter.  
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Programming  
Chapter 5  
4. Acquisition Enable, Triggering, and Servicing  
At this point, you should now continue from where you left off in the 1. Data Acquisition Board  
Setup Programming section of this chapter. Perform the following steps given in your data  
acquisition board user manual.  
MIO board user manual  
-
-
-
Enable the scanning data acquisition operation.  
Apply a trigger.  
Service the data acquisition operation.  
Lab-PC User Manual, Lab-PC+ User Manual, and PC-LPM-16 User Manual  
Start and service the data acquisition operation.  
Lab-LC User Manual  
-
-
-
Program the sample-interval counter.  
Service the data acquisition operation.  
Lab-NB User Manual  
-
-
Program the sample-interval counter (Counter A0).  
Service the data acquisition operation.  
Scanning Examples  
The following examples are intended to aid your understanding of module and Slot 0  
programming. It will be helpful to refer to the bit descriptions for the Configuration Register and  
the FIFO Register in Chapter 4, Register Descriptions.  
Example 1  
You want to scan, in Multiplexed mode, channels 1 through 4 on an SCXI-1120 in Slot 1 of an  
SCXI-1000 chassis. The SCXI-1120 is directly cabled to a data acquisition board.  
The programming steps are as follows:  
1. Program your data acquisition board as described in the 1. Data Acquisition Board Setup  
Programming section of this chapter.  
2. Following the procedure given in the Register Writes section, write 10000100 00001101  
to the Configuration Register of the SCXI-1120 in Slot 1.  
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Chapter 5  
Programming  
3. Follow the steps outlined in the section earlier in this chapter, 3. Programming the Slot 0  
Hardscan Circuitry, where step 3, Write the Slot 0 scan list to the FIFO, consists of the  
following:  
Write 00000000 00000011to the FIFO Register. This corresponds to Slot 1 for four  
samples.  
4. Follow the procedure given in the 4. Acquisition Enable, Triggering, and Servicing section  
earlier in this chapter.  
Example 2  
An SCXI-1000 chassis has four SCXI-1120 modules in Slots 1, 2, 3, and 4. The SCXI-1120 in  
Slot 4 is cabled to the data acquisition board. You want to scan channels 3 through 7 on the  
SCXI-1120 in Slot 1, channels 0 through 6 on the SCXI-1120 in Slot 4, and channels 7 through 3  
on the SCXI-1120 in Slot 3.  
The programming steps are as follows:  
1. Program your data acquisition board as described in the 1. Data Acquisition Board Setup  
Programming section.  
2. Following the procedure given in the Register Writes section, write 00000000 00000000  
to the Configuration Register of the SCXI-1120 in Slot 2. This step resets the module,  
including the clearing of the AB0EN bit (bit 0). Notice that a complete reset of this module  
is not necessary, but is used for simplicity.  
3. Following the procedure given in the Register Writes section, write 10XXX000 00001111  
to the Configuration Register of the SCXI-1120 in Slot 4.  
4. Following the procedure given in the Register Writes section, write 01XXX011 00001111  
to the Configuration Register of the SCXI-1120 in Slot 1.  
5. Following the procedure given in the Register Writes section, write 01XXX111 00001111  
to the Configuration Register of the SCXI-1120 in Slot 3. Notice that after Channel 7, the  
SCXI-1120 will wrap around to Channel 0.  
6. Follow the steps given in the section earlier in this chapter, 3. Programming the Slot 0  
Hardscan Circuitry, where step 3, Write the Slot 0 scan list to the FIFO, consists of the  
following:  
a. Write 00000000 00000100to the FIFO Register. This corresponds to Slot 1 for five  
samples.  
b. Write 00000001 10000110to the FIFO Register. This corresponds to Slot 4 for  
seven samples.  
c. Write 00000001 00000100to the FIFO Register. This corresponds to Slot 3 for five  
samples.  
Make sure to toggle SLOT0SEL* or reselect the FIFO Register from scratch between steps  
6a, 6b, and 6c.  
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Programming  
Chapter 5  
7. Follow the procedure given in the 4. Acquisition Enable, Triggering, and Servicing section  
earlier in this chapter.  
Example 3  
You want to scan five channels on an SCXI-1120 in Slot 4 of Chassis 1, then seven channels of  
an SCXI-1120 in Slot 11 of Chassis 2, three channels of an SCXI-1120 in Slot 3 in Chassis 3,  
and one channel of an SCXI-1120 in Slot 8 of Chassis 3.  
Assuming that the modules are correctly cabled and programmed, the Slot 0 scan lists should be  
as follows:  
Chassis 1  
Chassis 2  
Chassis 3  
Entry  
Slot  
Number  
Count  
Entry  
Slot  
Number  
Count  
Entry  
Slot  
Number  
Count  
1
2
4
13  
5
11  
1
2
3
13  
11  
13  
5
7
4
1
2
3
13  
3
8
12  
3
1
Other solutions are possible.  
In the section earlier in this chapter, 3. Programming the Slot 0 Hardscan Circuitry, step 3, Write  
the Slot 0 scan list to the FIFO, consists of the following steps:  
1. Select Slot 14 in Chassis 1.  
2. Write XXXXX001 10000100over MOSI.  
3. Toggle SLOT0SEL*.  
4. Write XXXXX110 00001010over MOSI.  
5. Select Slot 14 in Chassis 2.  
6. Write XXXXX110 00000100over MOSI.  
7. Toggle SLOT0SEL*.  
8. Write XXXXX101 00000110over MOSI.  
9. Toggle SLOT0SEL*.  
10. Write XXXXX110 00000011over MOSI.  
11. Select Slot 14 in Chassis 3.  
12. Write XXXXX110 00001011over MOSI.  
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Chapter 5  
Programming  
13. Toggle SLOT0SEL*.  
14. Write XXXXX001 00000010over MOSI.  
15. Toggle SLOT0SEL*.  
16. Write XXXXX011 10000000over MOSI.  
17. Select Slot 0 in Chassis 0.  
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Appendix A  
Specifications  
This appendix lists the specifications for the SCXI-1120. These are typical at 25° C unless  
otherwise stated. The operating temperature range is 0° to 50° C.  
Analog Input  
Gain (jumper-selectable)  
1, 2, 5, 10, 20, 50, 100, 200, 500, 1,000, 2,000  
Output range  
±5 V  
Number of channels  
Gain accuracy  
8
0.15% of full scale  
Offset voltage  
Input  
±6 µV  
±3 mV  
Output  
Stability versus ambient temperature  
Input offset drift  
±0.2 µV/°C  
±200 µV/°C  
20 ppm/°C  
Output offset drift  
Gain drift  
Input bias current  
±80 pA  
Input resistance  
Normal  
40 MΩ  
50 kΩ  
50 kΩ  
Power off  
Overload  
Output resistance  
Multiplexed-Output mode  
Parallel-Output mode  
100 Ω  
330 Ω  
Filtering (jumper selectable)  
4 Hz (-10 dB) or 10 kHz (-3 dB), 3-pole RC  
Output selection time  
(with 5 V step, all gains)  
0.012% accuracy1  
5.2 µsec typical, 7 µsec maximum  
0.006% accuracy2  
10 µsec  
0.0015% accuracy2  
20 µsec  
1
2
Includes the combined effects of the SCXI-1120 and the AT-MIO-16F-5  
Includes the combined effects of the SCXI-1120 and the AT-MIO-16X  
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Specifications  
Appendix A  
Rise time  
4 Hz  
0.12 sec  
70 µsec  
10 kHz  
Slew rate  
0.15 V/µsec  
Noise (400 kHz bandwidth)1  
Input (gain = 1,000)  
4 Hz filter  
100 nVrms  
4 µVrms  
10 kHz filter  
Output (gain = 1)  
4 Hz  
150 µVrms  
1 mVrms  
10 kHz  
Operating common-mode voltage  
Channel to channel or  
Channel to earth  
50 or 60 Hz  
5
250 Vrms  
Common-mode rejection ratio,  
50 or 60 Hz  
1 kin input leads  
NMR (50 or 60 Hz)  
160 dB minimum at 4 Hz bandwidth  
60 dB at 4 Hz bandwidth  
Input protection (continuous)  
Output protection  
250 Vrms maximum  
Continuous short-to-ground  
7.5 W maximum  
Power dissipation  
3
Cold-Junction Sensor  
SCXI-1320  
Accuracy  
Output  
1.0° from 0° to 55° C  
10 mV/°C  
SCXI-1328  
Accuracy4  
0.35° from 15° to 35° C  
0.65° from 0° to 15° and 35° to 55° C  
1.91 to 0.58 V from 0° to 55° C  
Output  
1
Includes the combined effects of the SCXI-1120 and the AT-MIO-16F-5  
Includes the combined effects of the SCXI-1120 and the AT-MIO-16X  
Located on the SCXI-1320 and SCXI-1328 terminal blocks  
2
3
4
Includes the combined effects of the temperature sensor accuracy and the temperature difference between the  
temperature sensor and any screw terminal  
5
Module tested using the UL 1244 standard to twice the working voltage + 1,000 Vrms  
SCXI-1120 User Manual  
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Appendix A  
Specifications  
Note: You can find the temperature T (°C) as follows:  
T (°C) = TK - 273.15  
where TK is the temperature in kelvin  
1
TK =  
3
a +b lnR +c lnR  
(
)
(
)
T
T
[
]
a = 1.288 x 10-3  
b = 2.356 x 10-4  
c = 9.556 x 10-8  
RT = resistance of the thermistor in Ω  
VTEMPOUT  
RT =50,000  
2.5VTEMPOUT  
VTEMPOUT = output voltage of the temperature sensor  
Physical  
Dimensions  
1.2 by 6.8 by 8.0 in.  
Connectors  
50-pin male ribbon-cable rear connector  
32-pin DIN C male front connector  
(18-screw terminal adapter available)  
Operating Environment  
Temperature  
0° to 50° C  
Relative humidity  
5% to 90% at 35° C  
Storage Environment  
Temperature  
-55° to 150° C  
-55° to 125° C for the SCXI-1328  
Relative humidity  
5% to 90% noncondensing  
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Appendix B  
Rear Signal Connector  
This appendix describes the pinout and signal names for the SCXI-1120 50-pin rear signal  
connector, including a description of each connection.  
Figure B-1 shows the pin assignments for the SCXI-1120 rear signal connector.  
AOGND  
MCH0+  
MCH1+  
MCH2+  
MCH3+  
MCH4+  
MCH5+  
MCH6+  
MCH7+  
OUTREF  
AOGND  
MCH0-  
MCH1-  
MCH2-  
MCH3-  
MCH4-  
1
3
5
7
9
2
4
6
8
10  
11 12  
13 14  
15 16  
17 18  
19 20  
21 22  
23 24  
25 26  
27 28  
29 30  
31 32  
33 34  
35 36  
37 38  
39 40  
41 42  
43 44  
45 46  
47 48  
49 50  
MCH5-  
MCH6-  
MCH7-  
DIG GND  
SERDATIN  
DAQD*/A  
SERDATOUT  
SLOT0SEL*  
DIG GND  
SERCLK  
SCANCLK  
RSVD  
Figure B-1. SCXI-1120 Rear Signal Connector Pin Assignment  
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Rear Signal Connector  
Appendix B  
Rear Signal Connector Signal Descriptions  
Pin  
Signal Name  
Description  
1-2  
AOGND  
Analog Output Ground – Connected to the analog  
reference when jumper W46 is in position AB-R0.  
3-18  
19  
MCH0± through MCH7± Analog Output Channels 0 through 7 – Connects to  
the data acquisition board differential analog  
inputchannels.  
OUTREF  
Output Reference – Serves as the reference node for  
the analog output channels and the temperature  
sensor–in the DTS mode–in the Pseudodifferential  
Reference mode. It should be connected to the  
analog input sense of the NRSE data acquisition  
board.  
24, 33  
DIG GND  
Digital Ground – Supply the reference for data  
acquisition board digital signals and are tied to the  
module digital ground.  
25  
26  
27  
SERDATIN  
SERDATOUT  
DAQD*/A  
Serial Data In – Taps into the SCXIbus MOSI line  
to provide serial input data to a module or Slot 0.  
Serial Data Out – Taps into the SCXIbus MISO line  
to accept serial output data from a module.  
Data Acquisition Board Data/Address Line – Taps  
into the SCXIbus D*/A line to indicate to the  
module whether the incoming serial stream is data  
or address information.  
29  
36  
37  
43  
SLOT0SEL*  
SCANCLK  
SERCLK  
RSVD  
Slot 0 Select – Taps into the SCXIbus INTR* line  
to indicate whether the information on MOSI is  
being sent to a module or Slot 0.  
Scan Clock – Indicates to the SCXI-1120 that a  
sample has been taken by the data acquisition board  
and causes the SCXI-1120 to change channels.  
Serial Clock – This signal taps into the SCXIbus  
SPICLK line to clock the data on the MOSI and  
MISO lines.  
Reserved.  
All other pins are not connected.  
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Appendix B  
Rear Signal Connector  
See the Timing Requirements and Communication Protocol section in Chapter 2, Configuration  
and Installation, for more detailed information on timing. Detailed signal specifications are also  
included in Chapter 2.  
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B-3  
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Appendix C  
SCXIbus Connector  
This appendix describes the pinout and signal names for the SCXI-1120 96-pin SCXIbus  
connector, including a description of each connection.  
Figure C-1 shows the pinout of the SCXI-1120 SCXIbus connector.  
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SCXIbus Connector  
Appendix C  
GUARD  
GUARD  
GUARD  
AB0+  
A1  
B1  
A2  
B2  
D1  
C1  
D2  
C2  
GUARD  
GUARD  
GUARD  
AB0-  
GUARD  
GUARD  
GUARD  
A3  
B3  
A4  
D3  
C3  
D4  
GUARD  
GUARD  
GUARD  
B4  
C4  
GUARD  
GUARD  
GUARD  
A5  
B5  
A6  
D5  
C5  
D6  
GUARD  
GUARD  
GUARD  
B6  
C6  
A7  
D7  
B7  
C7  
A8  
D8  
B8  
C8  
A9  
D9  
B9  
C9  
A10  
B10  
A11  
B11  
A12  
B12  
A13  
B13  
A14  
B14  
A15  
B15  
A16  
B16  
A17  
B17  
A18  
B18  
A19  
B19  
A20  
B20  
A21  
B21  
A22  
B22  
A23  
B23  
A24  
B24  
D10  
C10  
D11  
C11  
D12  
C12  
D13  
C13  
D14  
C14  
D15  
C15  
D16  
C16  
D17  
C17  
D18  
C18  
D19  
C19  
D20  
C20  
D21  
C21  
D22  
C22  
D23  
C23  
D24  
C24  
CHSGND  
CHSGND  
CHSGND  
CHSGND  
CHSGND  
RSVD  
INTR*  
D*/A  
V-  
RESET*  
MISO  
V-  
V-  
V-  
CHSGND  
CHSGND  
V+  
V+  
+5 V  
SPICLK  
TRIG0  
SS*  
CHSGND  
CHSGND  
V+  
V+  
+5 V  
MOSI  
SCANCON  
Figure C-1. SCXIbus Connector Pin Assignment  
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Appendix C  
SCXIbus Connector  
SCXIbus Connector Signal Descriptions  
Pin  
Signal Name  
Description  
A1, B1, C1, D1, GUARD  
A2, D2, A3, B3,  
C3, D3, A4, D4,  
A5, B5, C5, D5,  
A6, D6  
Guard – Shields and guards the analog bus lines  
from noise.  
B2  
AB0+  
Analog Bus 0+ – Positive analog bus 0 line. Used  
to multiplex several modules to one analog signal.  
C2  
AB0-  
Analog Bus 0- – Negative analog bus 0 line. Used  
to multiplex several modules to one analog signal.  
C13-C17, A21, CHSGND  
B21, C21, D21  
Chassis Ground – Digital and analog ground  
reference.  
C18  
A19  
RSVD  
Reserved.  
RESET*  
Reset – When pulled low, reinitializes the module to  
its power-up state. Totem pole. Input.  
B19  
C19  
MISO  
D*/A  
Master-In-Slave-Out – Transmits data from the  
module to the SCXIbus. Open collector. I/O.  
Data/Address – Indicates to the module whether  
address information or data information is being  
sent to the module on MOSI. Open collector. I/O.  
D19  
INTR*  
Interrupt – Active low. Causes data that is on  
MOSI to be written to the Slot-Select Register  
Slot 0. Open collector. Output.  
A20, B20, C20, V-  
D20  
Negative Analog Supply – -18.5 V to -25 V.  
Positive Analog Supply – +18.5 V to +25 V.  
+5 VDC Source – Digital power supply.  
A22, B22, C22, V+  
D22  
A23, D23  
B23  
+5 V  
SPICLK  
MOSI  
Serial Peripheral Interface (SPI) Clock – Clocks the  
serial data on the MOSI and MISO lines. Open  
collector. I/O.  
C23  
Master-Out-Slave-In – Transmits data from the  
SCXIbus to the module. Open collector. I/O.  
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SCXIbus Connector  
Appendix C  
Pin  
Signal Name  
Description (continued)  
A24  
TRIG0  
TRIG0 – General-purpose trigger line used by the  
SCXI-1120 to send SCANCLK to other modules or  
receive SCANCLK from other modules. Open  
collector. I/O.  
B24  
C24  
SS*  
Slot Select – When low, enables module  
communications over the SCXIbus. Totem pole.  
Input.  
SCANCON  
Scanning Control – Combination output enable and  
reload signal for scanning operations. Totem pole.  
Input.  
All other pins are not connected.  
Further information is given in Chapter 3, Theory of Operation.  
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Appendix D  
SCXI-1120 Front Connector  
This appendix describes the pinout and signal names for the SCXI-1120 front connector,  
including a description of each connection.  
Figure D-1 shows the pin assignments for the SCXI-1120 front connector.  
Pin  
Number  
Column  
B
Signal  
Name  
Signal  
Name  
A
C
CH0-  
CH0+  
32  
31  
30  
29  
28  
27  
26  
25  
24  
23  
22  
21  
20  
19  
18  
17  
16  
15  
14  
13  
12  
11  
10  
9
CH1+  
CH1-  
CH2-  
CH3-  
CH2+  
CH3+  
CH4+  
CH5+  
CH4-  
CH5-  
CH6-  
CH7-  
CH6+  
CH7+  
8
RSVD  
7
RSVD  
RSVD  
+5 V  
6
5
4
MTEMP  
3
CHSGND  
DTEMP  
2
1
Figure D-1. SCXI-1120 Front Connector Pin Assignment  
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SCXI-1120 Front Connector  
Appendix D  
Front Connector Signal Descriptions  
Pin  
A2  
C2  
Signal Name  
CHSGND  
DTEMP  
Description  
Chassis Ground – Tied to the SCXI chassis.  
Direct Temperature Sensor – Connects the  
temperature sensor to pin 18 of the rear signal  
connector MCH7- when the terminal block is  
configured for direct temperature connection and  
jumper W41 is in position 3.  
A4  
+5 V  
+5 VDC Source – Used to power the temperature  
sensor on the terminal block. 0.2 mA of source not  
protected.  
C4  
MTEMP  
RSVD  
Multiplexed Temperature Sensor – Connects the  
temperature sensor to the output multiplexer.  
A6, C6, C8  
Reserved – Reserved for future use. Do not connect  
any signals to these pins. TTL/CMOS output. They  
are not protected.  
A8, A10, C10, No Connect  
A16, C16,A22,  
Do not connect any signals to these pins.  
C22, A28, C28  
A12, A14, A18, CH7+ through CH0+  
A26, A20, A24,  
Positive Input Channels – The positive inputs to  
channels 7 through 0, respectively.  
A30, A32  
C12, C14, C18, CH7- through CH0-  
C20, C24, C26,  
Negative Input Channels – The negative inputs to  
channels 7 through 0, respectively.  
C30, C32  
Further information is given in Chapter 2, Configuration and Installation.  
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Appendix E  
SCXI-1120 Cabling  
This appendix describes how to use and install the hardware accessories for the SCXI-1120:  
SCXI-1340 cable assembly  
SCXI-1341 Lab-NB, Lab-PC, and Lab-PC+ cable assembly  
SCXI-1342 PC-LPM-16 cable assembly  
SCXI-1344 Lab-LC cable assembly  
SCXI-1180 feedthrough panel  
SCXI-1302 50-pin terminal block  
SCXI-1351 one-slot cable extender  
SCXI-1350 multichassis adapter  
SCXI-1343 screw terminal adapter  
SCXI-1340 Cable Assembly  
The SCXI-1340 cable assembly connects an MIO-16 board to an SCXI-1120 module. The  
SCXI-1340 consists of a 50-conductor ribbon cable that has mounting bracket at one end and a  
50-pin female connector at the other end. The female connector connects to the I/O connector of  
the MIO-16 board. Attached to the mounting bracket is a 50-pin female mounting-bracket  
connector that connects to the module rear signal connector. To extend the signals of the  
MIO-16 board to an SCXI-1180 feedthrough panel or an SCXI-1181 breadboard module, you  
can use the male breakout connector that is near the mounting bracket on the ribbon cable. All  
50 pins from the MIO-16 board go straight through to the rear signal connector. You can use a  
standard 50-pin ribbon cable instead of the SCXI-1340 cable assembly. The SCXI-1340 has the  
following advantages over the ribbon cable:  
The SCXI-1340 has strain relief so that you cannot accidentally disconnect the cable.  
The SCXI-1340 includes a mounting bracket that mounts to the chassis so that you can  
remove and reinsert the module without explicitly removing the cable from the back of the  
chassis. This is especially useful when the SCXI chassis is rack mounted, making rear access  
difficult.  
The SCXI-1340 has an extra male breakout connector for use with the SCXI-1180  
feedthrough panel or additional modules or breadboards that need a direct connection to the  
MIO-16 board.  
The SCXI-1340 rear panel gives the module and the chassis both mechanical and electrical  
shielding.  
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SCXI-1120 Cabling  
Appendix E  
Table E-1 lists the pin equivalences of the MIO-16 board and the SCXI-1120.  
Table E-1. SCXI-1120 and MIO-16 Board Pinout Equivalences  
Pin  
SCXI-1120 Rear Signal Connector  
MIO-16 Board  
Equivalent  
1-2  
3
4
AOGND  
MCH0+  
MCH0-  
AIGND  
ACH0  
ACH8  
5
6
MCH1+  
MCH1-  
ACH1  
ACH9  
7
8
9
MCH2+  
MCH2-  
MCH3+  
MCH3-  
MCH4+  
MCH4-  
MCH5+  
MCH5-  
MCH6+  
MCH6-  
MCH7+  
MCH7-  
OUTREF  
DIG GND  
SERDATIN  
SERDATOUT  
DAQD*/A  
SLOT0SEL*  
SCANCLK  
SERCLK  
RSVD  
ACH2  
ACH10  
ACH3  
ACH11  
ACH4  
ACH12  
ACH5  
ACH13  
ACH6  
ACH14  
ACH7  
ACH15  
AISENSE  
DIG GND  
ADIO0  
BDIO0  
ADIO1  
ADIO2  
SCANCLK  
EXTSTROBE*  
OUT1  
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
24, 33  
25  
26  
27  
29  
36  
37  
43  
No other pins are connected on the SCXI-1120.  
SCXI-1340 Installation  
Follow these steps to install the SCXI-1340:  
1. Make sure that the computer and the SCXI chassis are turned off.  
2. Install the SCXI module in the chassis.  
3. Plug the mounting bracket connector onto the module rear signal connector (see Figure E-1).  
Make sure the alignment tab on the bracket enters the upper module guide of the chassis.  
4. Screw the mounting bracket to the threaded strips in the rear of the chassis.  
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Appendix E  
SCXI-1120 Cabling  
5. Connect the loose end of the cable assembly to the MIO-16 board rear signal connector.  
Check the installation.  
After step 1, the order of these steps is not critical; however, it is easier to locate the correct  
position for the mounting bracket with a module installed in the chassis. If you will attach a  
cable to the breakout connector, installation is easiest if you attach the second cable before  
installing the SCXI-1340.  
Rear Panel  
Mounting Bracket  
Connector  
Step 4  
Step 5  
50-Pin Female  
Connector to  
MIO-16 Board  
Step 3  
Male Breakout  
Connector  
Step 4  
SCXI-1120 Rear  
Signal Connector  
Mounting Bracket  
Figure E-1. SCXI-1340 Installation  
SCXI-1341 Lab-NB, Lab-PC, or Lab-PC+ and SCXI-1344  
Lab-LC Cable Assembly  
The SCXI-1341 Lab-NB, Lab-PC, or Lab-PC+ cable assembly connects a Lab-NB, Lab-PC, or  
Lab-PC+ board to an SCXI-1120 module. The SCXI-1344 Lab-LC cable assembly connects a  
Lab-LC board to an SCXI-1120 module. The SCXI-1341 and SCXI-1344 cable assemblies  
consist of two pieces–an adapter board and a 50-conductor ribbon cable that connects the Lab  
board to the rear connector of the adapter board. The adapter board converts the signals from the  
Lab board I/O connector to a format compatible with the SCXI-1120 rear signal connector pinout  
at the front connector of the SCXI-1341 or SCXI-1344. The adapter board also has an additional  
male breakout connector that makes the unmodified Lab board signals accessible to an  
SCXI-1180 feedthrough panel or an SCXI-1181 breadboard module. The adapter board gives the  
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SCXI-1120 Cabling  
Appendix E  
Lab boards full access to the digital control lines and analog signals (except DTEMP), but the Lab  
boards cannot scan channels in Multiplexed mode. Leave jumper W1 in position A on the  
SCXI-1341 and SCXI-1344. The SCXI-1120 does not use jumper W1. Table E-2 lists the  
SCXI-1341 and SCXI-1344 pin translations.  
Note: If you are using the Lab-PC+, configure the board for single-ended inputs.  
Table E-2. SCXI-1341 and SCXI-1344 Pin Translations  
Lab Board Pin  
Lab Board Signal  
SCXI-1120 Pin  
SCXI-1120 Signal  
1
2
3
4
5
6
7
8
ACH0  
ACH1  
ACH2  
ACH3  
ACH4  
ACH5  
ACH6  
ACH7  
AIGND  
DAC0OUT  
AOGND  
DAC1OUT  
DGND  
PB4  
3
5
7
9
MCH0+  
MCH1+  
MCH2+  
MCH3+  
MCH4+  
MCH5+  
MCH6+  
MCH7+  
11  
13  
15  
17  
1-2  
20  
23  
21  
24, 33  
25  
27  
29  
37  
26  
28  
36  
46  
34-35  
9
AOGND  
10  
11  
12  
13, 50  
26  
27  
28  
29  
31  
32  
40  
43  
49  
No Connect  
No Connect  
No Connect  
DIG GND  
SERDATIN  
DAQD*/A  
SLOT0SEL*  
SERCLK  
SERDATOUT  
No Connect  
SCANCLK  
No Connect  
No Connect  
PB5  
PB6  
PB7  
PC1  
PC2  
EXTCONV*  
OUTB1  
+5 V  
All other pins of the Lab board pinout are not sent to the SCXI-1120 rear signal connector.  
SCXI-1341 and SCXI-1344 Installation  
Follow these steps to install the SCXI-1341 or SCXI-1344:  
1. Make sure that the computer and the SCXI chassis are turned off.  
2. Install the SCXI module in the chassis.  
3. Connect one end of the ribbon cable to the adapter board rear connector. This is the 50-pin  
connector of the SCXI-1344 cable.  
4. Plug the adapter board front connector to the module rear signal connector. Make sure a  
corner of the adapter board enters the upper module guide of the chassis.  
5. Screw the rear panel to the threaded strips in the rear of the chassis.  
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Appendix E  
SCXI-1120 Cabling  
6. For an SCXI-1341, connect the loose end of the ribbon cable to the Lab-NB, Lab-PC, or  
Lab-PC+ I/O connector. For an SCXI-1344, connect the two 26-pin connectors to the  
Lab--LC according to the instructions given in the Installation section of Chapter 2,  
Configuration and Installation, of the Lab-LC User Manual.  
Check the installation.  
SCXI-1342 PC-LPM-16 Cable Assembly  
The SCXI-1342 PC-LPM-16 cable assembly connects a PC-LPM-16 board to an SCXI-1120  
module. The 1342 cable assembly consists of two pieces–an adapter board and a 50-conductor  
ribbon cable that connects the PC-LPM-16 board to the adapter board. The adapter board  
converts the signals from the PC-LPM-16 I/O connector to a format compatible with the  
SCXI-1120 rear signal connector pinout. The adapter board also has an additional male breakout  
connector that makes the unmodified PC-LPM-16 signals accessible to an SCXI-1180  
feedthrough panel or SCXI-1181 breadboard module. The adapter board gives the PC-LPM-16  
full access to the digital control lines and analog signals, but the PC-LPM-16 cannot scan  
channels in the Multiplexed mode. Leave jumper W1 in position A on the SCXI-1342. The  
SCXI-1120 does not use jumper W1. Table E-3 lists the SCXI-1342 pin translations.  
Table E-3. SCXI-1342 Pin Translations  
PC-LPM-16 Pin  
PC-LPM-16 Signal  
Rear Signal  
Connector Pin  
SCXI-1120 Use  
1-2  
3
4
5
6
7
8
9
10  
11  
12  
13  
14  
15  
16  
17  
18  
19, 50  
28  
29  
34  
35  
AIGND  
ACH0  
ACH8  
ACH1  
ACH9  
ACH2  
ACH10  
ACH3  
ACH11  
ACH4  
ACH12  
ACH5  
ACH13  
ACH6  
ACH14  
ACH7  
ACH15  
DGND  
DIN6  
1-2  
3
4
5
6
7
8
9
10  
11  
12  
13  
14  
15  
16  
17  
18  
24, 33  
26  
28  
25  
27  
AOGND  
MCH0+  
MCH0-  
MCH1+  
MCH1-  
MCH2+  
MCH2-  
MCH3+  
MCH3-  
MCH4+  
MCH4-  
MCH5+  
MCH5-  
MCH6+  
MCH6-  
MCH7+  
MCH7-  
DIG GND  
SERDATOUT  
No Connect  
SERDATIN  
DAQD*/A  
DIN7  
DOUT4  
DOUT5  
(continues)  
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SCXI-1120 Cabling  
Appendix E  
Table E-3. SCXI-1342 Pin Translations (Continued)  
PC-LPM-16 Pin  
PC-LPM-16 Signal  
Rear Signal  
Connector Pin  
SCXI-1120 Use  
36  
37  
46  
49  
DOUT6  
DOUT7  
OUT2  
+5 V  
29  
37  
46  
34-35  
SLOT0SEL*  
SERCLK  
No Connect  
No Connect  
All other pins of the PC-LPM-16 pinout are not sent to the SCXI-1120 rear signal connector.  
SCXI-1342 Installation  
Follow these steps to install the SCXI-1342:  
1. Make sure that the computer and the SCXI chassis are turned off.  
2. Install the SCXI module to which the SCXI-1342 will connect.  
3. Connect one end of the ribbon cable to the adapter board rear connector.  
4. Plug the adapter board front connector onto the module rear signal connector. Make sure a  
corner of the adapter board enters the upper module guide of the chassis.  
5. Screw the rear panel to the threaded strips in the rear of the chassis.  
6. Connect the loose end of the ribbon cable to the PC-LPM-16 I/O connector.  
Check the installation.  
SCXI-1180 Feedthrough Panel  
The SCXI-1180 feedthrough panel provides front-panel access to the signals of any data  
acquisition board that uses a 50-pin I/O connector. The SCXI-1180 consists of a front panel with  
a 50-pin male front panel connector that occupies one slot in the SCXI chassis, and a ribbon  
cable with a female rear connector and a male breakout connector. You can attach the rear  
connector to the male breakout connector of an SCXI-1340, SCXI-1341, SCXI-1342,  
SCXI-1344, or SCXI-1351 in the adjacent slot. The breakout connector further extends the  
cabling scheme. The front panel connector provides the feedthrough connection. You can attach  
an SCXI-1302 terminal block to the front panel connector for simple screw terminal connections.  
A rear filler panel that shields and protects the interior of the SCXI chassis is also included.  
SCXI-1180 Installation  
Install the SCXI-1180 to the right of a slot that has an SCXI-1340, SCXI-1341, SCXI-1342, or  
SCXI-1344 cable assembly or an SCXI-1351 slot extender in its rear connector space.  
Follow these steps to install the SCXI-1180:  
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Appendix E  
SCXI-1120 Cabling  
1. Make sure that the computer and the SCXI chassis are turned off.  
2. Remove the front filler panel of the slot where you will insert the SCXI-1180.  
3. Thread the rear connector through the front of the chassis to the rear of the chassis. Attach  
the rear connector to the breakout connector of the adjacent cable assembly or slot extender,  
as shown in Figure E-2.  
Step 4  
Threaded Strip in  
Rear of Chassis  
Step 3  
SCXI-1180  
Breakout Connector  
Rear  
Panel  
Breakout Connector  
from SCXI-1340  
Rear Connector  
Ribbon Cable to  
Front Panel  
Figure E-2. SCXI-1180 Rear Connections  
4. Screw in the rear panel to the threaded strip in the rear of the chassis.  
5. Screw the front panel into the front threaded strip, as shown in Figure E-3.  
Check the installation.  
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SCXI-1120 Cabling  
Appendix E  
Front Panel  
Connector  
Ribbon Cable to  
Rear and Breakout  
Connectors  
Step 5  
Front Panel  
Front Threaded Strip  
Figure E-3. SCXI-1180 Front Panel Installation  
SCXI-1302 50-Pin Terminal Block  
The SCXI-1302 terminal block has screw terminal connections for the 50-pin connector on the  
SCXI-1180 feedthrough panel.  
SCXI-1302 Wiring Procedure  
To wire the SCXI-1302 terminal block, you must remove the cover, connect all the wiring, and  
replace the cover. The procedure for this is as follows:  
1. Unscrew the rear grounding screw on the back of the terminal block, as shown in Figure E-4.  
2. With a flathead screwdriver, carefully pry the cover off the terminal block.  
3. Insert each wire through the terminal block strain-relief opening.  
4. Connect the wires to the screw terminals.  
5. Tighten the large strain-relief screws to secure the wires.  
6. Snap the cover back in place.  
7. Reinsert the rear grounding screw. The terminal block is now ready to be connected to the  
front panel connector.  
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Appendix E  
SCXI-1120 Cabling  
50-Pin  
Connector  
Grounding  
Screw  
Step 2  
Step 1  
Insert Screwdriver in  
Groove and Rotate to  
Pry Open  
Thumbscrew Cutout  
Figure E-4. Cover Removal  
SCXI-1302 Installation  
Follow these steps to install the SCXI-1302:  
1. Install an SCXI-1180 feedthrough panel as described in the SCXI-1180 Installation section.  
2. Wire the terminal block as previously described in the SCXI-1302 Wiring Procedure section.  
3. Connect the SCXI-1302 terminal block to the front panel connector on the SCXI-1180  
feedthrough panel. Be careful to fit the thumbscrews in the thumbscrew cutouts.  
4. Tighten the top and bottom captive screws on the back of the terminal block into the screw  
holes in the front panel. This will hold the SCXI-1302 securely in place.  
Check the installation.  
SCXI-1351 One-Slot Cable Extender  
The SCXI-1351 cable extender is a miniature SCXI-1340 cable assembly. Instead of connecting  
to an MIO board 1 m away, the SCXI-1351 female rear connector connects to the male breakout  
connector of a module that must be in the rear connector space of the slot to the left. The  
SCXI-1351 has a female mounting bracket connector that mates with the rear signal connector of  
a module, and also has a male breakout connector on the ribbon cable for connecting to a  
feedthrough panel or more cable extenders.  
© National Instruments Corporation  
E-9  
SCXI-1120 User Manual  
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SCXI-1120 Cabling  
Appendix E  
SCXI-1351 Installation  
Follow these steps to install the SCXI-1351:  
1. Make sure that the computer and the SCXI chassis are turned off.  
2. Install the SCXI module in the chassis.  
3. Connect the rear connector of the cable extender to the breakout connector in the adjacent  
slot. This attachment is similar to Step 3 in the SCXI-1180 Installation section, as shown in  
Figure E-2.  
4. Plug the mounting bracket connector to the module rear signal connector. Make sure the  
alignment tab on the bracket enters the upper module guide of the chassis.  
5. Screw the mounting bracket to the threaded strips in the rear of the chassis.  
Check the installation.  
SCXI-1350 Multichassis Adapter  
You use the SCXI-1350 multichassis adapter to connect an additional SCXI-1001 chassis to the  
MIO-16 board. Using several SCXI-1350s, you can connect up to eight chassis to a single MIO  
board. The SCXI-1350 consists of a multichassis adapter board. You will also need a ribbon  
cable for each chassis-to-chassis connection, and a ribbon cable for the connection from the MIO  
board to the first chassis.  
Note: Use 0.5 m ribbon cable when connecting multiple chassis together to minimize cable  
length and maintain signal integrity. You can use a 1 m cable from the MIO board to the  
first chassis.  
The adapter board has a male rear connector, a female front connector, and a male chassis  
extender connector. You can attach the rear connector to a ribbon cable from the MIO board or a  
preceding chassis. You connect the front connector with the module rear signal connector. You  
connect the chassis extender connector to a ribbon cable that goes to the subsequent chassis. The  
adapter takes Channel 0 from the front connector and sends it to Channel 0 of the rear connector.  
The adapter also takes channels 0 through 6 on the chassis extender connector and maps them to  
channels 1 through 7, respectively, on the rear connector.  
SCXI-1350 Installation  
Follow these steps to install the SCXI-1350:  
1. Make sure that the computer and all the SCXI chassis are turned off.  
2. Insert all the modules in all the chassis.  
3. Connect one end of a ribbon cable to the MIO board.  
4. Connect the other end of the ribbon cable to the rear connector of the first SCXI-1350.  
SCXI-1120 User Manual  
E-10  
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Appendix E  
SCXI-1120 Cabling  
5. Connect another ribbon cable or cable assembly to the chassis extender connector.  
6. Plug the adapter board front connector to the module rear signal connector. Make sure a  
corner of the adapter board enters the upper module guide of the chassis.  
7. Screw the rear panel to the threaded strips in the rear of the chassis.  
8. Connect the cable assembly to the desired module in the second chassis, or if you are using  
more than two chassis, connect the loose end of the ribbon cable to the rear connector of the  
second SCXI-1350, and install the adapter board.  
9. Continue until all chassis are connected. For N chassis, you will need N ribbon cables and N  
multichassis adapters.  
SCXI-1343 Rear Screw Terminal Adapter  
You use the SCXI-1343 universal adapter to adapt custom wiring to the SCXI-1120. The  
SCXI-1343 has screw terminals for the analog output connections and solder pads for the rest of  
the signals. A strain-relief clamp is on the outside of the rear panel.  
SCXI-1343 Installation  
1. Insert each wire through the adapter strain-relief opening.  
2. Make all solder connections first.  
3. Connect the other wires to the screw terminals.  
4. Tighten the strain-relief screws to secure the wires.  
5. Plug the adapter board front connector to the module rear signal connector. Make sure a  
corner of the adapter board enters the upper module guide of the chassis.  
6. Screw the rear panel to the threaded strips in the rear of the chassis.  
© National Instruments Corporation  
E-11  
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SCXI-1120 Cabling  
Appendix E  
Table E-4. SCXI-1343 Pin Connections  
Rear Signal Connector Pin  
SCXI-1120 Use  
Connection Type  
1
2
3
4
5
6
7
8
AOGND  
AOGND  
MCH0+  
MCH0-  
MCH1+  
MCH1-  
MCH2+  
MCH2-  
MCH3+  
MCH3-  
MCH4+  
MCH4-  
MCH5+  
MCH5-  
MCH6+  
MCH6-  
Solder pad  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Screw terminal  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
9
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24, 33  
26  
27  
28  
29  
30  
31  
32  
33  
34-35  
36  
37  
38  
39  
40  
41  
42  
43  
44  
45  
46  
47  
48  
49  
50  
MCH7+  
MCH7-  
OUTREF  
No Connect  
No Connect  
No Connect  
No Connect  
DIG GND  
SERDATOUT  
DAQD*/A  
No Connect  
SLOT0SEL*  
No Connect  
No Connect  
No Connect  
No Connect  
No Connect  
SCANCLK  
SERCLK  
No Connect  
No Connect  
No Connect  
No Connect  
No Connect  
RSVD  
No Connect  
No Connect  
No Connect  
No Connect  
No Connect  
No Connect  
No Connect  
Solder pad  
Solder pad  
Solder pad  
Solder pad  
SCXI-1120 User Manual  
E-12  
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Appendix F  
Revision A and B Photo and Parts Locator  
Diagrams  
This appendix contains a photograph of the Revision A and B SCXI-1120 signal conditioning  
module and the general and detailed parts locator diagrams.  
Figure F-1 shows the Revision A and B SCXI-1120 signal conditioning module. Figures F-2 and  
F-3 show the general and detailed parts locator diagrams.  
Figure F-1. Revision A and B SCXI-1120 Signal Conditioning Module  
© National Instruments Corporation  
F-1  
SCXI-1120 User Manual  
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Revision A and B Photo and Parts Locator Diagrams  
Appendix F  
Figure F-2. Revision A and B SCXI-1120 General Parts Locator Diagram  
SCXI-1120 User Manual  
F-2  
© National Instruments Corporation  
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Appendix F  
Revision A and B Photo and Parts Locator Diagrams  
Figure F-3. Revision A and B SCXI-1120 Detailed Parts Locator Diagram  
© National Instruments Corporation  
F-3  
SCXI-1120 User Manual  
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Appendix G  
Customer Communication  
For your convenience, this appendix contains forms to help you gather the information necessary  
to help us solve technical problems you might have as well as a form you can use to comment on  
the product documentation. Filling out a copy of the Technical Support Form before contacting  
National Instruments helps us help you better and faster.  
National Instruments provides comprehensive technical assistance around the world. In the U.S.  
and Canada, applications engineers are available Monday through Friday from 8:00 a.m. to  
6:00 p.m. (central time). In other countries, contact the nearest branch office. You may fax  
questions to us at any time.  
Corporate Headquarters  
(512) 795-8248  
Technical support fax: (800) 328-2203  
(512) 794-5678  
Branch Offices  
Australia  
Austria  
Belgium  
Denmark  
Finland  
France  
Germany  
Italy  
Phone Number  
(03) 879 9422  
(0662) 435986  
02/757.00.20  
45 76 26 00  
(90) 527 2321  
(1) 48 14 24 00  
089/741 31 30  
02/48301892  
(03) 3788-1921  
03480-33466  
32-848400  
Fax Number  
(03) 879 9179  
(0662) 437010-19  
02/757.03.11  
45 76 71 11  
(90) 502 2930  
(1) 48 14 24 14  
089/714 60 35  
02/48301915  
(03) 3788-1923  
03480-30673  
32-848600  
Japan  
Netherlands  
Norway  
Spain  
Sweden  
Switzerland  
U.K.  
(91) 640 0085  
08-730 49 70  
056/20 51 51  
0635 523545  
(91) 640 0533  
08-730 43 70  
056/20 51 55  
0635 523154  
© National Instruments Corporation  
G-1  
SCXI-1120 User Manual  
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Technical Support Form  
___________________________________________________  
Photocopy this form and update it each time you make changes to your software or hardware, and use the completed  
copy of this form as a reference for your current configuration. Completing this form accurately before contacting  
National Instruments for technical support helps our applications engineers answer your questions more efficiently.  
If you are using any National Instruments hardware or software products related to this problem, include the  
configuration forms from their user manuals. Include additional pages if necessary.  
Name  
Company  
Address  
Fax (  
Computer brand  
Operating system  
)
Phone (  
Model  
)
Processor  
Speed  
MHz  
RAM  
no  
MB  
Display adapter  
Mouse  
yes  
Other adapters installed  
Brand  
Hard disk capacity  
Instruments used  
MB  
National Instruments hardware product model  
Configuration  
Revision  
National Instruments software product  
Configuration  
Version  
The problem is  
List any error messages  
The following steps will reproduce the problem  
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SCXI-1120 Hardware Configuration Form  
Record the settings and revisions of your hardware and software on the line to the right of each item. Complete a  
new copy of this form each time you revise your software or hardware configuration, and use this form as a  
reference for your current configuration. Completing this form accurately before contacting National Instruments  
for technical support helps our applications engineers answer your questions more efficiently.  
SCXI-1120 Revision Letter  
Chassis Slot  
Chassis Type  
Grounding, Shielding, and Reference  
Mode Selection (Factory Setting:  
Parked, W46, B-R0R1)  
Input Channel Gain Configuration  
Input Channel  
First-Stage Gain  
Factory Setting User Setting  
Second-Stage Gain  
Factory Setting User Setting  
Total Gain  
Factory Setting, 1,000  
0
1
2
3
4
5
6
7
100, W1, A  
100, W2, A  
100, W3, A  
100, W4, A  
100, W5, A  
100, W6, A  
100, W7, A  
100, W8, A  
10, W9, D  
10, W10, D  
10, W11, D  
10, W12, D  
10, W13, D  
10, W14, D  
10, W15, D  
10, W16, D  
Input Channel Filter Configuration  
Input Channel  
Factory Setting  
User Setting  
0
1
2
3
4
5
6
7
W17, A, W25, ON, W26, OFF  
W18, A, W27, ON, W28, OFF  
W19, A, W29, ON, W30, OFF  
W20, A, W31, ON, W32, OFF  
W21, A, W33, ON, W34, OFF  
W22, A, W35, ON, W36, OFF  
W23, A, W37, ON, W38, OFF  
W24, A, W39, ON, W40, OFF  
Other Modules in System  
Data Acquisition Boards Installed  
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Documentation Comment Form  
National Instruments encourages you to comment on the documentation supplied with our products. This  
information helps us provide quality products to meet your needs.  
Title: SCXI-1120 User Manual  
Edition Date:  
Part Number:  
August 1994  
320425B-01  
Please comment on the completeness, clarity, and organization of the manual.  
If you find errors in the manual, please record the page numbers and describe the errors.  
Thank you for your help.  
Name  
Title  
Company  
Address  
Phone  
(
)
Mail to:  
Technical Publications  
Fax to:  
Technical Publications  
National Instruments Corporation  
MS 53-02  
National Instruments Corporation  
6504 Bridge Point Parkway, MS 53-02  
Austin, TX 78730-5039  
(512) 794-5678  
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Glossary  
Prefix  
Meaning  
Value  
p-  
n-  
µ-  
m-  
k-  
pico-  
10-12  
10-9  
10-6  
10-3  
103  
nano-  
micro-  
milli-  
kilo-  
M-  
mega-  
106  
Numbers/Symbols  
˚
degrees  
ohms  
+5 VDC Source signal  
+5 V (signal)  
A
A
amperes  
AB0+  
AB0-  
AB0EN  
ACH#  
A/D  
Positive Analog Bus 0 signal  
Negative Analog Bus 0 signal  
Analog Bus 0 Enable bit  
data acquisition board Analog Input Channel Number  
analog-to-digital  
AOGND  
Arms  
AWG  
Analog Output Ground signal  
amperes, root mean square  
American Wire Gauge  
B
BW  
bandwidth  
C
C
CH#+  
CH#-  
CHAN  
CHS  
Celsius  
Positive Input Channel Number signal  
Negative Input Channel Number signal  
Channel Select bit  
Chassis bit  
CHSGND  
CJR  
CLKEN  
CLKOUTEN  
CLKSELECT  
CNT  
Chassis Ground signal  
cold-junction reference  
Clock Enable bit  
Scan Clock Output Enable bit  
Scan Clock Select bit  
Count bit  
© National Instruments Corporation  
Glossary-1  
SCXI-1120 User Manual  
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Glossary  
D
D*/A  
D/A  
Data/Address signal  
digital-to-analog  
DAQD*/A  
dB  
DIG GND  
DIN  
DMM  
DTEMP  
DTS  
Data Acquisition Board Data/Address Line signal  
decibels  
Digital Ground signal  
Deutsche Industrie Norme  
digital multimeter  
Direct Temperature Sensor signal  
direct temperature sensor  
F
F
Fahrenheit  
first-in-first-out  
Forced Output Enable bit  
Forced Retransmit bit  
FIFO  
FOUTEN*  
FRT  
G
GBWP  
GUARD  
gain bandwidth product  
Guard signal  
H
hex  
hexadecimal  
HSCR  
HSRS*  
Hz  
Hardscan Control Register  
Hardscan Reset bit  
hertz  
I
II  
in.  
input current leakage  
inches  
INTR*  
I/O  
Interrupt signal  
input/output  
K
K
kelvin  
L
LOAD*  
LSB  
Load bit  
least significant bit  
SCXI-1120 User Manual  
Glossary-2  
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Glossary  
M
m
M
meters  
megabytes of memory  
MCH#+  
MCH#-  
MIO  
MISO  
MOD  
MOSI  
MSB  
MTEMP  
MTS  
Positive Analog Output Channel Number signal  
Negative Analog Output Channel Number signal  
multifunction I/O  
Master-In-Slave-Out signal  
Module Number bit  
Master-Out-Slave-In signal  
most significant bit  
Multiplexed Temperature Sensor signal  
multiplexed temperature sensor  
N
NRSE  
nonreferenced single-ended (input)  
O
ONCE  
OUTREF  
Once bit  
Output Reference signal  
P
ppm  
parts per million  
R
RAM  
RD  
RESET*  
rms  
random-access memory  
Read bit  
Reset signal  
root mean square  
RSE  
RSVD  
RTD  
RTEMP  
RTSI  
referenced single-ended (input)  
Reserved bit/signal  
resistance temperature detector  
Read Temperature bit  
Real-Time System Integration  
S
SCANCLK  
SCANCLKEN  
SCANCON  
SCANCONEN  
SCXI  
Scan Clock signal  
Scan Clock Enable bit  
Scanning Control signal  
Scan Control Enable bit  
Signal Conditioning eXtensions for Instrumentation (bus)  
Software Developer's Kit  
SDK  
© National Instruments Corporation  
Glossary-3  
SCXI-1120 User Manual  
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Glossary  
sec  
seconds  
SERCLK  
SERDATIN  
SERDATOUT  
SL  
Serial Clock signal  
Serial Data In signal  
Serial Data Out signal  
Slot bit  
SLOT0SEL*  
SPI  
SPICLK  
SS*  
Slot 0 Select signal  
Serial Peripheral Interface  
Serial Peripheral Interface Clock signal  
Slot Select signal  
T
tempco  
TRIG0  
temperature coefficient  
Trigger 0 signal  
U
UL  
Underwriters Laboratory  
V
V
V+  
V-  
VDC  
VIH  
VIL  
VOH  
VOL  
Vrms  
volts  
Positive Analog Supply signal  
Negative Analog Supply signal  
volts direct current  
input logic high voltage  
input logic low voltage  
output logic high voltage  
output logic low voltage  
volts, root mean square  
W
W
watts  
SCXI-1120 User Manual  
Glossary-4  
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Index  
AOGND signal  
Numbers/Symbols  
analog output signal connections, 2-26  
rear signal connector, 2-25, B-2  
+5 V signal  
front connector, 2-13, D-2  
SCXIbus connector, 3-4, C-3  
B
bit descriptions  
AB0EN, 4-4  
A
CHAN<2..0>, 4-3  
CHS<4..0>, 4-6  
CLKEN, 4-7  
AB0- signal, 3-4, C-3  
AB0+ signal, 3-4, C-3  
CLKOUTEN, 4-3  
CLKSELECT, 4-3  
CNT<6..0>, 4-8  
FOUTEN*, 4-4  
FRT, 4-7  
HSRS*, 4-7  
LOAD*, 4-7  
MOD<3..0>, 4-8  
ONCE, 4-7  
RD, 4-7  
RSVD, 4-4, 4-7  
RTEMP, 4-4  
AB0EN bit, 4-4  
AC-coupled signal connection with high  
common-mode voltage, 2-15  
analog configuration  
direct temperature connection  
(jumper W41), 2-8 to 2-9  
filter jumpers, 2-10  
gain jumpers, 2-9 to 2-10  
grounding, shielding, and reference-  
mode selection (jumper W46),  
2-7  
analog input channels  
SCANCLKEN, 4-4  
SCANCONEN, 4-4, 4-7  
SL<3..0>, 4-6  
analog input block diagram, 3-9  
calibration, 3-10 to 3-12  
equipment requirements,  
3-10 to 3-11  
offset null adjust, 3-11  
potentiometers reference  
designators, 3-12  
C
formula for determining overall  
gain, 3-10  
front connector, 2-12 to 2-13  
AC-coupled signal connection, 2-15  
floating AC-coupled signal  
connection, 2-14  
cabling  
custom cables, 1-4  
part numbers for custom cables, 1-4  
SCXI-1180 feedthrough panel  
cable assembly, E-6  
front panel installation, E-8  
installation, E-6 to E-8  
rear connections, E-7  
SCXI-1302 50-pin terminal block  
installation, E-9  
floating signal connection, 2-14  
ground-referenced signal  
connection, 2-14  
warning against exceeding input  
range, 2-15  
wiring procedure, E-8 to E-9  
SCXI-1340  
theory of operation, 3-8 to 3-10  
analog input specifications, A-1 to A-2  
analog output circuitry, 3-12 to 3-13  
analog output signal connections, 2-26  
cable assembly, E-1 to E-2  
installation, E-2 to E-3  
SCXI-1120 User Manual  
Index-1  
© National Instruments Corporation  
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Index  
serial data timing diagram, 2-30  
slot-select procedure, 2-28 to 2-29  
slot-select timing diagram, 2-29  
writing to Configuration Register, 2-30  
configuration. See also signal connections.  
analog configuration  
SCXI-1120 and MIO-16 board  
pinout equivalences, E-2  
SCXI-1341  
cable assembly, E-3 to E-4  
installation, E-4 to E-5  
SCXI-1342  
cable assembly, E-5 to E-6  
installation, E-6  
SCXI-1343 rear screw terminal adapter  
installation, E-11  
pin connections, E-12  
SCXI-1344  
direct temperature connection  
(jumper W41), 2-8 to 2-9  
filter jumpers, 2-10  
gain jumpers, 2-9 to 2-10  
grounding, shielding, and reference-  
mode selection (jumper W46),  
2-7 to 2-8  
cable assembly, E-3 to E-4  
installation, E-4 to E-5  
SCXI-1350 multichassis adapter  
cable assembly, E-10  
digital signal connections, 2-4 to 2-7  
jumper settings (table), 2-6 to 2-7  
jumper W42, 2-5  
jumper W43, 2-5  
jumper W44, 2-5  
using jumpers W42 and W43,  
2-5 to 2-6  
installation, E-10 to E-11  
SCXI-1351 one-slot cable extender  
cable assembly, E-9  
installation, E-10  
fixed jumpers, 2-4  
parts locator diagrams  
calibration, 3-10 to 3-12  
equipment requirements, 3-10 to 3-11  
offset null adjust, 3-11  
potentiometers reference  
designators, 3-12  
CH3 through CH0 signal, 5-3  
CH7- through CH0- signal, 2-13, D-2  
CH7+ through CH0+ signal, 2-13, D-2  
CHAN<2..0> bit, 4-3  
detailed diagram, 2-3  
general diagram, 2-2  
SCXI-1320 terminal block jumper  
configuration, 2-19  
SCXI-1328 terminal block jumper  
configuration, 2-18 to 2-19  
user-configurable jumpers, 2-4  
Configuration Register  
channel scanning  
description of, 4-3 to 4-4  
write procedure, 2-30 to 2-31, 3-7  
connector-and-shell assembly. See  
SCXI-1330 connector-and-shell  
assembly.  
from other modules, 5-9  
from SCXI-1120 via another  
module, 5-9  
CHS<4..0> bit, 4-6  
CHSGND signal  
front connector, 2-13, D-2  
SCXIbus connector, 3-4, C-3  
CLKEN bit, 4-7  
customer communication, xiii, G-1  
CLKOUTEN bit, 4-3  
CLKSELECT bit, 4-3  
CNT<6..0> bit, 4-8  
cold-junction sensor specifications,  
A-2 to A-3  
communication signals for SPI bus,  
2-28 to 2-31  
D
D*/A signal  
description of, 3-4, C-3  
digital control circuitry, 3-7  
and SPI bus, 3-5  
DAQD*/A signal  
Configuration Register write timing  
diagram, 2-31  
Module ID Register timing  
diagram, 2-31  
communicating on SPI bus, 2-28 to 2-31  
digital I/O signal connections,  
2-26 to 2-27  
rear signal connector, 2-25, B-2  
© National Instruments Corporation  
Index-2  
SCXI-1120 User Manual  
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Index  
register selection and write  
procedure, 5-2  
SCXI-1320 terminal block  
connecting, 2-17 to 2-18  
installation, 2-23  
jumper configuration, 2-19  
parts locator diagram, 2-21  
signal connection, 2-20  
temperature sensor, 2-18  
SCXI-1328 terminal block  
connecting, 2-17 to 2-18  
installation, 2-23  
DIG GND signal, 2-25, B-2  
digital control circuitry, 3-7 to 3-8  
digital I/O signal connections  
rear signal connector, 2-26 to 2-27  
SCXIbus pin equivalences with  
SCXI-1120 and data acquisition  
boards, 2-27  
specifications and ratings, 2-27  
digital interface circuitry, 3-6  
digital signal connections, 2-4 to 2-7  
jumper settings (table), 2-6 to 2-7  
jumper W42, 2-5  
jumper configuration, 2-19 to 2-20  
parts locator diagram, 2-22  
signal connection, 2-20  
temperature sensor, 2-18 to 2-19  
SCXI-1330 connector-and-shell  
assembly, 2-16 to 2-17  
jumper W43, 2-5  
jumper W44, 2-5  
using jumpers W42 and W43, 2-5 to 2-6  
direct temperature connection  
(jumper W41), 2-8 to 2-9  
documentation  
signal descriptions, 2-13, D-2  
temperature sensor connection, 2-15  
FRT bit, 4-7  
functional overview. See theory of  
conventions used, xii  
operation.  
organization of manual, xi-xii  
related documentation, xiii  
DTEMP signal, 2-13, D-2  
G
gain jumpers, 2-9 to 2-10  
E
ground-referenced signal connection with  
high common-mode voltage, 2-14  
grounding (jumper W46), 2-7  
GUARD signal, 3-4, C-3  
equipment, optional, 1-3 to 1-4  
F
H
fax technical support, G-1  
FIFO Register, 4-8  
hardscan circuitry, programming,  
5-10 to 5-11  
Hardscan Control Register (HSCR), 4-7  
hardware installation, 2-11  
HSRS* bit, 4-7  
filter jumpers, 2-10  
floating AC-coupled signal connection, 2-14  
floating signal connection referenced to  
chassis ground, 2-14  
FOUTEN* bit, 4-4  
front connector  
I
analog input channels, 2-13 to 2-15  
AC-coupled signal connection, 2-15  
floating AC-coupled signal  
connection, 2-14  
installation  
hardware installation, 2-11  
SCXI-1180 feedthrough panel,  
E-6 to E-8  
SCXI-1302 50-pin terminal block, E-9  
SCXI-1320 terminal block, 2-23  
floating signal connection, 2-14  
ground-referenced signal  
connection, 2-14  
pin assignments, 2-12, D-1  
SCXI-1120 User Manual  
Index-3  
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SCXI-1328 terminal block, 2-23  
M
SCXI-1340, E-2 to E-3  
SCXI-1341, E-4 to E-5  
SCXI-1342, E-6  
manual. See documentation.  
MCH0± through MCH7± signal  
analog output signal connections,  
2-26, 3-13  
rear signal connector, 2-25, B-2  
MISO signal  
SCXI-1343 rear screw terminal  
adapter, E-11  
SCXI-1344, E-4 to E-5  
SCXI-1350 multichassis adapter,  
E-10 to E-11  
SCXI-1351 one-slot cable  
extender, E-10  
unpacking the SCXI-1120, 1-4  
description of, 3-4, C-3  
digital control circuitry, 3-8  
jumper connection, 2-4, 2-5, 2-6  
and SPI bus, 3-5  
INTR* signal  
MOD<3..0> bit, 4-8  
module configuration. See configuration.  
Module ID Register  
description of, 3-4, C-3  
jumper connection, 2-4, 2-5  
and SPI bus, 3-5  
description of, 4-2  
theory of operation, 3-8  
timing diagram, 2-31  
module programming, 5-8 to 5-10  
channel scanning from other  
modules, 5-9  
J
jumpers  
digital signal connections  
channel scanning from SCXI-1120 via  
another module, 5-9  
multiple-chassis scanning, 5-10  
multiple-module multiplexed scanning,  
5-9 to 5-10  
single-module multiplexed scanning  
direct, 5-9  
jumper settings (table), 2-6 to 2-7  
W42, 2-5 to 2-6  
W43, 2-5 to 2-6  
W44, 2-5  
filter jumpers, 2-10  
fixed jumpers, 2-4  
gain jumpers, 2-9 to 2-10  
SCXI-1320 terminal block jumper  
configuration, 2-19  
SCXI-1328 terminal block jumper  
configuration, 2-19 to 2-20  
user-configurable jumpers, 2-4  
W41 (direct temperature connection),  
2-8 to 2-9  
indirect, 5-9  
single-module parallel scanning, 5-8  
MOSI signal  
description of, 3-4, C-3  
digital control circuitry, 3-7  
and SPI bus, 3-5  
MTEMP signal  
analog output, 3-13  
W46 (grounding, shielding, and  
reference-mode selection),  
2-7  
front connector, 2-13, D-2  
measurements via another module, 5-5  
multiplexed output, 5-4  
multiplexed scanning, 3-14 to 3-16  
multiple-chassis scanning, 3-16, 5-10  
multiple-module multiplexed scanning,  
3-15 to 3-16, 5-9 to 5-10  
single-module multiplexed scanning,  
3-14 to 3-15  
L
Lab-LC cable assembly. See SCXI-1344.  
Lab-NB cable assembly. See SCXI-1341.  
Lab-PC or Lab-PC+ cable assembly. See  
SCXI-1341.  
LabVIEW software, 1-2 to 1-3  
LOAD* bit, 4-7  
direct, 3-14, 5-9  
indirect, 3-15, 5-9  
MUXCOUNTER, 3-13, 3-14, 3-15, 5-11  
© National Instruments Corporation  
Index-4  
SCXI-1120 User Manual  
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Index  
acquisition enable, triggering, and  
N
servicing, 5-12  
data acquisition and board  
programming, 5-6 to 5-8  
Counter 1 and SCANDIV, 5-8  
module programming, 5-8 to 5-10  
channel scanning from other  
modules, 5-9  
NI-DAQ software, 1-2 to 1-3  
nulling the offset, 3-11  
O
ONCE bit, 4-7  
channel scanning from  
SCXI-1120 via another  
module, 5-9  
multiple-chassis scanning, 5-10  
multiple-module multiplexed  
scanning, 5-9 to 5-10  
operating environment specifications, A-3  
operation of SCXI-1120. See theory of  
operation.  
OUTREF signal  
analog output signal connections, 2-26  
jumper connection, 2-7 to 2-8  
rear signal connector, 2-25, B-2  
single-module multiplexed  
scanning (direct), 5-9  
single-module multiplexed  
scanning (indirect), 5-9  
single-module parallel  
scanning, 5-8  
P
parallel scanning, single-module, 3-14, 5-8  
PC-LPM-16 cable assembly. See  
SCXI-1342.  
Slot 0 hardscan circuitry,  
5-10 to 5-11  
single-channel measurements, 5-3 to 5-5  
direct measurements, 5-3 to 5-4  
indirect measurements, 5-4 to 5-5  
measurements from other  
modules, 5-4  
physical specifications, A-3  
pin assignments  
front connector, 2-12, D-1  
rear signal connector, 2-24, B-1  
SCXI-1343 rear screw terminal  
adapter, E-12  
measurements from SCXI-1120 via  
another module, 5-4 to 5-5  
multiplexed output, 5-4  
parallel output, 5-3  
SCXIbus connector, 3-3, C-2  
pin equivalences  
SCXI-1120 and MIO-16 board pinout  
equivalences, E-2  
SCXI-1341, E-4  
Pseudodifferential Reference mode,  
2-7  
SCXI-1342, E-5 to E-6  
SCXI-1344, E-4  
R
SCXIbus to rear signal connector, 3-5  
SCXIbus to rear signal connector and  
data acquisition boards, 2-27, 5-2  
programming. See also registers.  
notation for bit patterns, 5-1  
register writes, 5-1 to 5-3  
initialization, 5-3  
RD bit, 4-7  
rear signal connector  
analog output signal connections, 2-26  
communication signals, 2-28 to 2-31  
digital I/O signal connections,  
2-26 to 2-27  
pin assignments, 2-24, B-1  
pin equivalences with SCXIbus and data  
acquisition boards, 2-27, 5-2  
SCXIbus pin equivalences, 3-5  
signal descriptions, 2-25 to 2-26, B-2  
timing signal, 2-28  
rear signal connector pin  
equivalences, 5-2  
register selection and write  
procedure, 5-2 to 5-3  
scanning examples, 5-12 to 5-15  
scanning measurements, 5-5 to 5-12  
SCXI-1120 User Manual  
Index-5  
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Index  
reference-mode selection (jumper W46),  
2-7  
registers  
module programming, 5-8 to 5-10  
channel scanning from other  
modules, 5-9  
programming considerations, 5-1 to 5-3  
initialization, 5-3  
channel scanning from SCXI-1120  
via another module, 5-9  
multiple-chassis scanning, 5-10  
multiple-module multiplexed  
scanning, 5-9 to 5-10  
single-module multiplexed scanning  
(direct), 5-9  
rear signal connector pin  
equivalences, 5-2  
register selection and write  
procedure, 5-2 to 5-3  
SCXI-1120 registers, 4-1 to 4-4  
Configuration Register, 2-30 to 2-31,  
3-7, 4-3 to 4-4  
single-module multiplexed scanning  
(indirect), 5-9  
Module ID Register, 2-31, 3-8, 4-2  
Slot 0 registers, 4-5 to 4-8  
FIFO Register, 4-8  
single-module parallel scanning, 5-8  
programming, 5-5 to 5-12  
acquisition enable, triggering, and  
servicing, 5-12  
Hardscan Control Register  
(HSCR), 4-7  
Slot-Select Register, 4-6  
RESET* signal  
data acquisition and board  
programming, 5-6 to 5-8  
Counter 1 and SCANDIV, 5-8  
scanning examples, 5-12 to 5-15  
Slot 0 hardscan circuitry,  
5-10 to 5-11  
description of, 3-4, C-3  
initialization, 5-3  
and SPI bus, 3-5  
Revision A and B SCXI-1120 signal  
conditioning module  
scanning modes  
theory of operation, 3-13 to 3-16  
multiplexed scanning, 3-14 to 3-16  
multiple-chassis scanning, 3-16  
multiple-module multiplexed  
scanning, 3-15 to 3-16  
detailed parts locator diagram, F-3  
general parts locator diagram, F-2  
photograph, F-1  
RSVD bit, 4-4, 4-7  
RSVD signal  
single-module multiplexed  
scanning, 3-14 to 3-15  
single-module parallel  
front connector, 2-13, D-2  
rear signal connector, 2-25, B-2  
SCXIbus connector, 3-4, C-3  
RTEMP bit, 4-4  
scanning, 3-14  
SCXI-1120. See also configuration;  
installation.  
block diagram, 3-1  
contents of kit, 1-2  
custom cables, 1-4  
definition of, xi, 1-1  
optional equipment, 1-3 to 1-4  
optional software, 1-2 to 1-3  
overview, 1-1  
Revision A and B signal conditioning  
module  
S
SCANCLK signal  
analog output, 3-13  
module programming, 5-9  
multiplexed scanning, 3-14 to 3-15  
rear signal connector, 2-25, B-2  
timing requirements, 2-28  
SCANCLKEN bit, 4-4  
detailed parts locator diagram, F-3  
general parts locator diagram, F-2  
photograph, F-1  
SCANCON signal  
analog output, 3-13  
multiplexed scanning, 3-14 to 3-15  
SCXIbus connector, 3-5, C-4  
SCANCONEN bit, 4-4, 4-7  
scanning measurements  
unpacking, 1-4  
SCXI-1120 registers, 4-1 to 4-4  
© National Instruments Corporation  
Index-6  
SCXI-1120 User Manual  
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Index  
SCXI-1350 multichassis adapter  
cable assembly, E-10  
installation, E-10 to E-11  
SCXI-1351 one-slot cable extender  
cable assembly, E-9  
Configuration Register, 2-30 to 2-31,  
3-7, 4-3 to 4-4  
Module ID Register, 2-31, 3-8, 4-2  
SCXI-1180 feedthrough panel  
cable assembly, E-6  
installation, E-10  
SCXIbus connector  
front panel installation, E-8  
installation, E-6 to E-8  
rear connections, E-7  
pin assignments, 3-3, C-2  
pin equivalences  
SCXI-1302 50-pin terminal block  
installation, E-9  
with rear signal connector, 3-5  
with rear signal connector and data  
acquisition boards, 2-27, 5-2  
signal descriptions, 3-4 to 3-5,  
C-3 to C-4  
wiring procedure, E-8 to E-9  
SCXI-1320 terminal block  
definition of, 2-17  
installation, 2-23  
SERCLK signal  
jumper configuration, 2-19  
parts locator diagram, 2-21  
signal connection, 2-20  
temperature sensor, 2-18  
warnings, 2-18  
communicating on SPI bus, 2-28 to 2-31  
digital I/O signal connections, 2-26, 2-27  
rear signal connector, 2-25, B-2  
register selection and write procedure,  
5-2 to 5-3  
SCXI-1328 terminal block  
definition of, 2-17  
SERDATIN signal  
communicating on SPI bus, 2-28 to 2-31  
digital I/O signal connections,  
2-26 to 2-27  
rear signal connector, 2-25, B-2  
register selection and write procedure,  
5-2 to 5-3  
installation, 2-23  
jumper configuration, 2-19 to 2-20  
parts locator diagram, 2-22  
signal connection, 2-20  
temperature sensor, 2-18 to 2-19  
warnings, 2-18  
SERDATOUT signal  
SCXI-1330 connector-and-shell assembly,  
2-16 to 2-17  
SCXI-1340  
communicating on SPI bus, 2-28 to 2-31  
digital I/O signal connections,  
2-26 to 2-27  
cable assembly, E-1 to E-2  
installation, E-2 to E-3  
SCXI-1120 and MIO-16 board pinout  
equivalences, E-2  
jumper connection, 2-4, 2-5, 2-6  
rear signal connector, 2-25, B-2  
serial data timing diagram, 2-30  
Serial Peripheral Interface (SPI) bus  
communication signals. See  
communication signals for SPI bus.  
shielding (jumper W46), 2-7  
signal connections  
SCXI-1341  
cable assembly, E-3 to E-4  
installation, E-4 to E-5  
pin equivalences, E-4  
SCXI-1342  
front connector  
cable assembly, E-5  
installation, E-6  
pin equivalences, E-5 to E-6  
SCXI-1343 rear screw terminal adapter  
installation, E-11  
analog input channels, 2-13 to 2-15  
pin assignments, 2-12, D-1  
SCXI-1320 terminal block, 2-17 to  
2-21, 2-23  
SCXI-1328 terminal block, 2-17 to  
2-20, 2-22 to 2-23  
SCXI-1330 connector-and-shell  
assembly, 2-16 to 2-17  
pin connections, E-12  
SCXI-1344  
cable assembly, E-3 to E-4  
installation, E-4 to E-5  
pin equivalences, E-4  
signal descriptions, 2-13, D-2  
SCXI-1120 User Manual  
Index-7  
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Index  
register selection and write procedure,  
5-2 to 5-3  
slot-select timing diagram, 2-29  
writing 16-bit-slot select number, 2-29  
SLOT0SEL* signal  
temperature sensor connection, 2-15  
rear signal connector  
analog output signal  
connections, 2-26  
communication signals, 2-28 to 2-31  
digital I/O signal connections, 2-26  
to 2-27  
pin assignments, 2-24, B-1  
pin equivalences with SCXIbus and  
data acquisition boards,  
2-27, 5-2  
communicating on SPI bus, 2-28 to 2-31  
digital I/O signal connections,  
2-26 to 2-27  
jumper connection, 2-4, 2-5  
programming hardscan circuitry, 5-11  
rear signal connector, 2-25, B-2  
register selection and write procedure,  
5-2 to 5-3  
SCXIbus pin equivalences, 3-5  
signal descriptions, 2-25, B-2  
timing signal, 2-28  
software, optional, 1-2 to 1-3  
specifications  
SCXI-1320 terminal block, 2-20  
SCXI-1328 terminal block, 2-20  
SCXIbus connector  
analog input, A-1 to A-2  
cold-junction sensor, A-2 to A-3  
operating environment, A-3  
physical, A-3  
pin assignments, 3-3, C-2  
pin equivalences with rear signal  
connector, 3-5  
storage environment, A-3  
SPI bus. See communication signals for SPI  
bus.  
pin equivalences with rear signal  
connector and data acquisition  
boards, 2-27, 5-2  
signal descriptions, 3-4 to 3-5,  
C-3 to C-4  
SPICLK signal  
description of, 3-4, C-3  
digital control circuitry, 3-7  
and SPI bus, 3-5  
warning against exceeding maximum  
ratings, 2-11  
SS* signal  
single-channel measurements, 5-3 to 5-5  
direct measurements, 5-3 to 5-4  
indirect measurements, 5-4 to 5-5  
measurements from other modules, 5-4  
measurements from SCXI-1120 via  
another module, 5-4 to 5-5  
multiplexed output, 5-4  
description of, 3-5, C-4  
digital control circuitry, 3-7, 3-8  
programming Slot 0 hardscan  
circuitry, 5-11  
storage environment specifications, A-3  
parallel output, 5-3  
single-module multiplexed scanning  
direct, 5-9  
T
indirect, 5-9  
technical support, G-1  
temperature connection, direct  
(jumper W41), 2-8 to 2-9  
theory of operation, 3-14 to 3-15  
single-module parallel scanning, 3-14, 5-8  
SL<3..0> bit, 4-6  
Slot 0 hardscan circuitry, programming,  
5-10 to 5-11  
Slot 0 registers, 4-5 to 4-8  
FIFO Register, 4-8  
Hardscan Control Register (HSCR), 4-7  
Slot-Select Register, 4-6  
slot selection  
temperature sensor  
connection for analog input  
channels, 2-15  
SCXI-1320 terminal block, 2-18  
SCXI-1328 terminal block, 2-18 to 2-19  
terminal block. See SCXI-1302 50-pin  
terminal block; SCXI-1320 terminal  
block; SCXI-1328 terminal block.  
theory of operation  
© National Instruments Corporation  
Index-8  
SCXI-1120 User Manual  
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Index  
analog and timing circuitry, 3-8 to 3-13  
analog input block diagram, 3-9  
analog input channels, 3-9 to 3-10  
analog output circuitry, 3-12 to 3-13  
calibration, 3-10 to 3-12  
block diagram, 3-1  
digital control circuitry, 3-7 to 3-8  
digital interface circuitry, 3-6  
scanning modes, 3-13 to 3-16  
multiple-chassis scanning, 3-16  
multiple-module multiplexed  
scanning, 3-15 to 3-16  
single-module multiplexed scanning,  
3-14 to 3-15  
single-module parallel  
scanning, 3-14  
SCXIbus connector  
equivalents for rear signal  
connector, 3-5  
pin assignments, 3-3  
signal descriptions, 3-4 to 3-5  
timing signal (SCANCLK), 2-28  
TRIG0 signal, 3-5, C-4  
U
unpacking the SCXI-1120, 1-4  
V
V- signal, 3-4, C-3  
V+ signal, 3-4, C-3  
SCXI-1120 User Manual  
Index-9  
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