SCXI-1112 User Manual - National Instruments
Contents
1. 2 2 Figure 2 2 Removing the SCXI 1112 2 8 Figure 3 1 SCXI 1112 Module Front Connector Pin Assignments 3 2 Figure 3 2 SCXI 1112 Module Rear Signal Connector Pin Assignments 3 4 Figure 4 1 SCXI 1112 Module Block Diagram 4 1 Table Table 3 1 SCXIbus to SCXI 1112 Module Rear Signal Connector to DAQ Device Pin Equivalencies 3 6 National Instruments Corporation vii SCXI 1112 User Manual About This Manual This manual describes the electrical and mechanical aspects of the SCXI 1112 module and contains information concerning its installation and operation The SCXI 1112 module is a member of the National Instruments Signal Conditioning eXtensions for Instrumentation SCXI Series for the National Instruments data acquisition DAQ plug in devices This module is designed for conditioning thermocouple signals The SCXI 1112 module has eight differential analog input channels and eight cold junction sensor channels Conventions Used in This Manual The following conventions are used in this manual lt gt Angle brackets containing numbers separated by an ellipsis represent a range of values associated with a port bit or signal name for example ACH lt 0 7 gt stands for the signals ACH0 through ACH72. This icon to the left of bold italicized text denotes a note which alerts you to important information This icon to the left of bold italicized text denotes a caution which advises you of precautions to take to avoid injury data loss or a system crash bold italic Bold italic text denotes a note caution or warning italic Italic text denotes emphasis a cross reference or an introduction to a key concept MIO board Refers to the multichannel I O DAQ boards that have MIO in their names such as the AT MIO 16 and the NEC MIO 16E 4 monospace 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 PC Refers to the IBM PC XT the IBM PC AT and compatible computers About This Manual SCXI 1112 User Manual viii www natinst com SCXIbus Refers to the backplane in the chassis A signal on the backplane is referred to as the SCXIbus lt signal name gt line or signal The SCXIbus descriptor may be omitted when the meaning is clear Descriptions of some SCXIbus signals are in Chapter 3 Signal Connections Slot 0 Refers to the power supply and control circuitry in the SCXI chassis Abbreviations acronyms
3. N NC not connected signal NMR normal mode rejection R rms root mean square the square root of the average value of the square of the instantaneous signal amplitude a measure of signal amplitude RSVD reserved bit RTSI real time system integration S S samples s seconds SCANCLK scan clock signal SCXI Signal Conditioning eXtensions for Instrumentation the National Instruments product line for conditioning low level signals within an external chassis near sensors so only high level signals are sent to DAQ devices in the noisy PC environment SERCLK serial clock signal SERDATIN serial data input signal SERDATOUT serial data output signal signal conditioning the manipulation of signals to prepare them for digitizing SLOT0SEL Slot 0 select signal SPICLK serial peripheral interface clock Glossary SCXI 1112 User Manual G 6 www natinst com T TRIG0 trigger 0 TTL transistor transistor logic V V volts VI virtual instrument 1 a combination of hardware and or software elements typically used with a PC that has the functionality of a classic stand alone instrument 2 a LabVIEW software module VI which consists of a front panel user interface and a block diagram program VIH volts input high VIL volts input low Vin volts in VOH volts output high VOL volts output low National Instruments Corporation I 1 SCXI 1112 User Manual Index A
4. 2 1 Module Installation 2 1 Configuration and Self Test 2 3 Auto Detecting Modules 2 4 Manually Adding Modules 2 4 Configuring the SCXI 1112 2 5 Self Test Verification 2 6 Troubleshooting Self Test Verification 2 6 Removing the SCXI 1112 2 7 Removing the SCXI 1112 from an SCXI Chassis 2 7 Removing Modules from Software 2 8 Chapter 3 Signal Connections Front Connector 3 1 Analog Input Signal Connections 3 2 Cold Junction Sensors 3 3 Auto Zero Cal
5. 3 4 2 1 Chapter 2 SCXI 1112 Module Installation National Instruments Corporation 2 9 SCXI 1112 User Manual Note Deleting the SCXI chassis deletes all modules in the chassis All configuration information for these modules is also lost Your SCXI chassis and or module s are now removed from the Measurement amp Automation Explorer software National Instruments Corporation 3 1 SCXI 1112 User Manual 3 Signal Connections This chapter describes the input and output signal connections to the SCXI 1112 module via the module front and rear signal connectors This chapter also includes connection instructions for the signals on the SCXI 1112 module connectors Caution Static electricity is a major cause of component failure To prevent damage to the electrical components in the module take antistatic precautions whenever removing a module from the chassis or whenever handling a module Front Connector Figure 3 1 shows the thermocouple input assignments for the SCXI 1112 module front connector Chapter 3 Signal Connections SCXI 1112 User Manual 3 2 www natinst com Figure 3 1 SCXI 1112 Module Front Connector Pin Assignments Analog Input Signal Connections The differential input signal range of an SCXI 1112 module input channel is 0 1 V This differential input range is the maximum measurable voltage difference between the positive and negative channel inputs The common mode input signal range
6. 2 1 to 2 2 overview 1 1 removing from SCXI chassis 2 7 to 2 8 requirements for getting started 1 1 to 1 2 SCXIbus to SCXI 1112 module rear signal connector to DAQ device pin equivalencies table 3 6 software programming choices 1 2 to 1 3 SCXIbus connector and SCXIbus interface 4 2 SCXIbus to SCXI 1112 module rear signal connector to DAQ device pin equivalencies table 3 6 self test verification 2 6 troubleshooting 2 6 to 2 7 SERCLK signal table 3 5 3 6 SERDATIN signal table 3 5 3 6 SERDATOUT signal table 3 5 3 6 Index National Instruments Corporation I 3 SCXI 1112 User Manual signal connections 3 1 to 3 6 front connector 3 1 to 3 3 analog input signal connections 3 2 to 3 3 auto zero calibration switches 3 3 cold junction sensors 3 3 thermocouple input assignments figure 3 2 rear signal connector 3 4 to 3 6 digital I O signal connections 3 6 pin assignments figure 3 4 pin descriptions table 3 5 SLOT0SEL signal table 3 5 3 6 software programming choices 1 2 to 1 3 National Instruments application software 1 2 NI DAQ driver software 1 3 software related resources B 2 specifications A 1 to A 4 analog input amplifier characteristics A 1 to A 2 dynamic characteristics A 2 input characteristics A 1 transfer characteristics A 1 digital signals A 3 environment A 4 filters A 3 physical A 3 power requirements A 4 stability A 3 stability specifications A 3 T t
7. 7 0 7 0 9 K 0 9 0 7 0 7 0 7 1 0 1 2 N 1 1 0 8 0 7 0 7 1 0 E 0 9 0 7 0 7 0 7 T 1 0 0 7 0 8 0 8 400 C Appendix A Specifications National Instruments Corporation A 3 SCXI 1112 User Manual Digital Signals Absolute max voltage input rating 5 5 V with respect to DGND Digital input specifications referenced to DGND VIH input logic high voltage 2 V min VIL input logic low voltage 0 8 V max II input current leakage 1 A max Digital output specifications referenced to DGND VOH output logic high voltage 3 7 V min at 4 mA max VOL output logic low voltage 0 4 V max at 4 mA max Filters Cutoff frequency 3 dB 2 Hz NMR 60 Hz 40 dB Step response To 0 1 1 s To 0 01 10 s Stability Recommended warm up time 20 min Offset temperature coefficient 1 V C Gain temperature coefficient 10 ppm C Physical Dimensions 115 by 273 mm 4 54 by 10 75 in I O connector 50 pin male ribbon cable rear connector 96 pin male D
8. Data Acquisition VI Library is functionally equivalent to NI DAQ software LabWindows CVI features interactive graphics a state of the art user interface and uses the ANSI standard C programming language The LabWindows CVI Data Acquisition Library a series of functions for using LabWindows CVI with National Instruments DAQ hardware is included with the NI DAQ software kit The LabWindows CVI Data Acquisition Library is functionally equivalent to the NI DAQ software VirtualBench features virtual instruments that combine DAQ products software and your computer to create a stand alone instrument with the added benefit of the processing display and storage capabilities of your computer VirtualBench instruments load and save waveform data to disk in the same format that can be used in popular spreadsheet programs and word processors Using ComponentWorks LabVIEW LabWindows CVI or VirtualBench software will greatly reduce the development time for your data acquisition and control application Chapter 1 Introduction National Instruments Corporation 1 3 SCXI 1112 User Manual NI DAQ Driver Software The NI DAQ driver software is included at no charge with all National Instruments DAQ devices NI DAQ has an extensive library of functions that you can call from your application programming environment These functions include routines for analog input A D conversion buffered data acquisition high speed A D conversion analog
9. FIFOs are often used on DAQ devices to temporarily store incoming or outgoing data until that data can be retrieved or output For example an analog input FIFO stores the results of A D conversions until the data can be retrieved into system memory a process that requires the servicing of interrupts and often the programming of the DMA controller This process can take several milliseconds in some cases During this time data accumulates in the FIFO for future retrieval With a larger FIFO longer latencies can be tolerated In the case of analog output a FIFO permits faster update rates because the waveform data can be stored on the FIFO ahead of time This again reduces the effect of latencies associated with getting the data from system memory to the DAQ device FSR full scale reading Glossary SCXI 1112 User Manual G 4 www natinst com G G gain H hex hexadecimal Hz hertz the number of scans read or updates written per second I ID identifier in inches INTR Interrupt I O input output the transfer of data to from a computer system involving communications channels operator interface devices and or data acquisition and control interfaces L LED light emitting diode LSB least significant bit M MIO multifunction input output MISO master in slave out MOSI master out slave in MSB most significant bit Glossary National Instruments Corporation G 5 SCXI 1112 User Manual
10. metric prefixes mnemonics symbols and terms are listed in the Glossary National Instruments Documentation The SCXI 1112 User Manual is one piece of the documentation set for your data acquisition system You could have any of several manuals depending on the hardware and software in your system Use the manuals you have as follows Getting Started with SCXI This is the first manual you should read It gives an overview of the SCXI system and contains the most commonly needed information for the modules chassis and software Your SCXI module user manuals Read these manuals next for detailed information about signal connections and module configuration They also explain in greater detail how the module works and contain application hints Your DAQ hardware user manuals These manuals have detailed information about the DAQ hardware that plugs into or is connected to your computer Use these manuals for hardware installation and configuration instructions specification information about your DAQ hardware and application hints Software documentation Examples of software documentation you may have are the LabVIEW and LabWindows CVI manual sets and the NI DAQ documentation After you set up your hardware system use either the application software documentation or the NI DAQ documentation to help you write your application If you have a large and complicated system look through the software documentation
11. output D A conversion waveform generation digital I O counter timer operations SCXI RTSI self calibration messaging and acquiring data to extended memory NI DAQ also internally handles the complex communication between the computer and the plug in device such as programming interrupts and DMA controllers NI DAQ maintains a consistent software interface among its different versions so that you can change platforms with minimal modifications to your code Figure 1 1 illustrates the relationship between NI DAQ and your National Instruments application software Figure 1 1 The Relationship between the Programming Environment NI DAQ and Your Hardware ComponentWorks LabVIEW LabWindows CVI or VirtualBench Third Party Programming Environment NI DAQ Driver Software DAQ or SCXI Hardware National Instruments Corporation 2 1 SCXI 1112 User Manual 2 SCXI 1112 Module Installation This chapter explains how to unpack an SCXI 1112 module and install it into your SCXI chassis Unpacking Your SCXI 1112 module is shipped in an antistatic package to prevent electrostatic damage to the module Electrostatic discharge can damage several components on the module To avoid such damage while handling the module take the following precautions Ground yourself via a grounding strap or by holding a grounded object Touch the antistatic package to a metal part of your SCXI chassis before removing the module f
12. products The database is updated daily in response to new customer experiences and feedback Troubleshooting Wizards Step by step guides lead you through common problems and answer questions about our entire product line Wizards include screen shots that illustrate the steps being described and provide detailed information ranging from simple getting started instructions to advanced topics Product Manuals A comprehensive searchable library of the latest editions of National Instruments hardware and software product manuals Hardware Reference Database A searchable database containing brief hardware descriptions mechanical drawings and helpful images of jumper settings and connector pinouts Application Notes A library with more than 100 short papers addressing specific topics such as creating and calling DLLs developing your own instrument driver software and porting applications between platforms and operating systems Appendix B Technical Support Resources SCXI 1112 User Manual B 2 www natinst com Software Related Resources Instrument Driver Network A library with hundreds of instrument drivers for control of standalone instruments via GPIB VXI or serial interfaces You also can submit a request for a particular instrument driver if it does not already appear in the library Example Programs Database A database with numerous non shipping example programs for National Instrum
13. your SCXI module s follow these steps 1 Make sure the chassis power is turned on 2 Do the Configuration and Self Test section if you have not already done so 3 Select Yes under Auto Detect modules and click Next If your chassis is a remote SCXI chassis go to step 6 4 Select your communication path and click Next 5 If modules were detected select the module connected to your DAQ device as your communication path 6 Click Finish Your Measurement amp Automation Explorer software should now recognize your SCXI chassis and SCXI module s If the software did not recognize your modules check your cable connections and retry auto detecting or try installing the modules manually before taking troubleshooting measures If the software recognized any module as an SCXI custom module you may be using the wrong version of NI DAQ You must use NI DAQ 6 6 or later Manually Adding Modules If you did not auto detect your SCXI modules you must add each of your modules separately If you are still in the Chassis Configuration window select No under Auto Detect modules and click Finish Use the following steps to manually add modules 1 Click the next to the Devices and Interfaces icon 2 Locate your SCXI chassis in the displayed list Display the list of modules in the chassis by clicking the next to the Chassis icon 3 Right click on the appropriate installation slot and click Insert Chapter 2 SCXI
14. 1112 Module Installation National Instruments Corporation 2 5 SCXI 1112 User Manual 4 Select the module installed in that slot and click Next If the appropriate module name does not appear on the list you may be using the incorrect version of NI DAQ You must use NI DAQ 6 6 or later 5 When configuring your module if the selected module is connected to a National Instruments DAQ device select that device by using the Connected to control If it is not select none If you want this DAQ device to control the chassis confirm that there is a check in the checkbox labeled This device will control the chassis If you need to manually install more SCXI 1112 modules in your chassis repeat steps 3 through 5 to configure each module Your SCXI chassis and SCXI module s should now be configured properly If you need to make changes in your module configuration see the next section Configuring the SCXI 1112 later in this chapter If your configuration is complete test the system as described in Self Test Verification later in this chapter to ensure that your SCXI system is communicating with the DAQ device Configuring the SCXI 1112 To configure your SCXI 1112 after auto detection or to alter your original configuration selections you must use Measurement amp Automation Explorer Perform the following steps to configure your SCXI 1112 1 Double click the Measurement amp Automation Explorer icon on your desktop 2 Cl
15. 112 module Fasten the metal cable adapter to the rear threaded strip using the screws Attach the loose end of the cable to the MIO DAQ device Note Consult your cable assembly installation guide for more information 6 Make sure the cable assembly is securely fastened at both ends 7 Turn on the SCXI chassis 8 Turn on the computer or reconnect it to your chassis Figure 2 1 Installing the SCXI 1112 The SCXI 1112 module is installed You are now ready to configure your module using Measurement amp Automation Explorer 1 Cable 2 Thumbscrews 3 SCXI 1112 Module 4 Chassis MAINFRAME SCXI 3 4 2 1 Chapter 2 SCXI 1112 Module Installation National Instruments Corporation 2 3 SCXI 1112 User Manual Configuration and Self Test Run Measurement amp Automation Explorer to configure and test your SCXI 1112 If you need help during the configuration process open the Measurement amp Automation help file by selecting Help Topics from the Help menu Follow these steps to configure your SCXI system 1 Double click the Measurement amp Automation Explorer icon on your desktop If you have added new modules to an existing chassis go to step 4 If you inserted modules into an empty chassis go to step 2 2 Add a new chassis to the configured Devices and Interfaces by holding down the right mouse button on Devices and Interfaces and selecting Insert Select the appropriate chass
16. IN C front connector Appendix A Specifications SCXI 1112 User Manual A 4 www natinst com Environment Operating temperature 0 to 50 C Storage temperature 55 to 150 C Relative humidity 5 to 90 noncondensing Power Requirements 5 V supply 15 mA max 15 V supply regulated from 24 V supply 150 mA max National Instruments Corporation B 1 SCXI 1112 User Manual B Technical Support Resources This appendix describes the comprehensive resources available to you in the Technical Support section of the National Instruments Web site and provides technical support telephone numbers for you to use if you have trouble connecting to our Web site or if you do not have internet access NI Web Support To provide you with immediate answers and solutions 24 hours a day 365 days a year National Instruments maintains extensive online technical support resources They are available to you at no cost are updated daily and can be found in the Technical Support section of our Web site at www natinst com support Online Problem Solving and Diagnostic Resources KnowledgeBase A searchable database containing thousands of frequently asked questions FAQs and their corresponding answers or solutions including special sections devoted to our newest
17. SCXI SCXI 1112 User Manual 8 Channel Direct Connect Thermocouple Amplifier Module SCXI 1112 User Manual August 1999 Edition Part Number 322476A 01 Worldwide Technical Support and Product Information www natinst com National Instruments Corporate Headquarters 11500 North Mopac Expressway Austin Texas 78759 3504 USA Tel 512 794 0100 Worldwide Offices Australia 03 9879 5166 Austria 0662 45 79 90 0 Belgium 02 757 00 20 Brazil 011 284 5011 Canada Calgary 403 274 9391 Canada Ontario 905 785 0085 Canada Qu bec 514 694 8521 China 0755 3904939 Denmark 45 76 26 00 Finland 09 725 725 11 France 01 48 14 24 24 Germany 089 741 31 30 Greece 30 1 42 96 427 Hong Kong 2645 3186 India 91805275406 Israel 03 6120092 Italy 02 413091 Japan 03 5472 2970 Korea 02 596 7456 Mexico D F 5 280 7625 Mexico Monterrey 8 357 7695 Netherlands 0348 433466 Norway 32 27 73 00 Singapore 2265886 Spain Barcelona 93 582 0251 Spain Madrid 91 640 0085 Sweden 08 587 895 00 Switzerland 056 200 51 51 Taiwan 02 2377 1200 United Kingdom 01635 523545 For further support information see the Technical Support Resources appendix To comment on the documentation send e mail to techpubs natinst com Copyright 1999 National Instruments Corporation All rights reserved Important Information Warranty The SCXI 1112 is warranted against defects in materials and workmanship for a period of one year from the date of shipme
18. SR Offset error After calibration 20 V max Before calibration 100 V typ Gain error relative to calibration reference After calibration 0 005 of reading max Before calibration 0 1 of reading typ Amplifier Characteristics Input impedance Normal powered on gt 1 G Powered off 10 k Overload 10 k Appendix A Specifications SCXI 1112 User Manual A 2 www natinst com Input bias current 0 5 nA Input offset current 1 0 nA CMRR 50 to 60 Hz 110 dB DC 75 dB min Output range 10 V Output impedance 91 Dynamic Characteristics Bandwidth 2 Hz Scan interval per channel any gain 0 012 3 s 0 0061 10 s System noise referenced to input 5 Vrms Cold junction sensor accuracy 1 0 C Measurement accuracy TC Type Measurement Temperature C 100 0 250 500 1000 1300 1700 J 0 9 0 7 0
19. analog bus switch 4 3 analog circuitry 4 2 analog input channels 4 3 signal connections 3 2 to 3 3 specifications amplifier characteristics A 1 to A 2 dynamic characteristics A 2 input characteristics A 1 transfer characteristics A 1 auto detecting modules 2 4 auto zero calibration switches 3 3 B block diagram of SCXI 1112 4 1 C calibration auto zero 3 3 cold junction sensors 3 3 ComponentWorks software 1 2 configuration 2 2 to 2 7 auto detecting modules 2 4 manually adding modules 2 4 to 2 5 procedure for 2 5 removing modules from software 2 8 to 2 9 running Measurement amp Automation Explorer 2 3 self test verification 2 6 troubleshooting 2 6 to 2 7 connectors See front connector rear signal connector D DAQD A signal table 3 5 3 6 DGND signal table 3 5 diagnostic resources online B 1 digital control circuitry 4 2 digital I O signal connections 3 6 digital signal specifications A 3 documentation conventions used in manual vii viii National Instruments documentation viii E environment specifications A 4 F filter specifications A 3 front connector 3 1 to 3 3 analog input signal connections 3 2 to 3 3 auto zero calibration switches 3 3 cold junction sensors 3 3 thermocouple input assignments figure 3 2 functional overview See theory of operation I installation See also configuration procedure for module installation 2 1 to 2 2 removing SCXI 1112
20. apter 4 Theory of Operation SCXI 1112 User Manual 4 2 www natinst com The major components of the SCXI 1112 modules are as follows Rear signal connector SCXIbus connector SCXIbus interface Digital control circuitry Analog circuitry The SCXI 1112 modules consist of eight multiplexed input channels each with a fixed gain of 100 Each input channel has its own lowpass filter The SCXI 1112 modules also have a digital section for automatic control of channel scanning temperature sensor selection and calibration Rear Signal Connector SCXIbus Connector and SCXIbus Interface The SCXIbus controls the SCXI 1112 module The SCXIbus interface connects the rear signal connector to the SCXIbus allowing a DAQ device to control the SCXI 1112 module and the rest of the chassis Digital Control Circuitry The digital control circuitry consists of the Address Handler and the following registers Module ID Configuration EEPROM and Channel The Address Handler controls which register is being addressed The Module ID Register contains a code unique to the SCXI 1112 module The Module ID is 33 decimal The Configuration Register configures the SCXI 1112 modules for the desired scanning mode and connection to the rear signal connector The EEPROM Register is the address for interfacing with the module EEPROM which contains calibration information The Channel Register selects a channel for a single measureme
21. before you configure your hardware Accessory installation guides or manuals If you are using accessory products read the terminal block and cable assembly installation guides SCXI chassis manual Read your chassis manual for maintenance information and installation instructions National Instruments Corporation 1 1 SCXI 1112 User Manual 1 Introduction This chapter describes the SCXI 1112 module lists what you need to get started with your SCXI 1112 module and provides an overview of your software options About the SCXI 1112 Module This module amplifies and filters thermocouple signals The SCXI 1112 has eight differential analog input channels and eight cold junction sensor channels On each channel the SCXI 1112 has a 3 pole lowpass filter with a 2 Hz cutoff frequency to reject 60 Hz noise Each channel also has an amplifier with a fixed gain of 100 You can multiplex the SCXI 1112 inputs to a single output that drives a single DAQ device channel You can auto zero and calibrate the SCXI 1112 There is a voltage reference onboard that you can access to perform external calibration You can use the auto zeroing circuitry to remove offset voltages The SCXI 1112 modules are designed for use with National Instruments E Series MIO devices or SCXI 1200 modules You can multiplex several SCXI 1112 modules and other SCXI modules into a single channel on the DAQ device greatly increasing the number of analog inpu
22. d make sure the correct module is in the specified slot Delete the incorrect module and Chapter 2 SCXI 1112 Module Installation National Instruments Corporation 2 7 SCXI 1112 User Manual then add the correct module as described in the Manually Adding Modules section 4 If you get the warning message Failed to find followed by a module code and then the message Slot x is empty check to see if the configured module is installed in the specified slot If not install the module by referring to the section Module Installation If the module is installed in the correct slot turn off the chassis remove the module as specified in Removing the SCXI 1112 from an SCXI Chassis and verify that no connector pins are bent on the rear signal connector Reinstall the module as described in Module Installation ensuring the module is properly aligned in the slot 5 After checking the items that precede return to the Self Test Verification section and retest your SCXI chassis Removing the SCXI 1112 This section describes how to remove the SCXI 1112 from an SCXI chassis Removing the SCXI 1112 from an SCXI Chassis Only a qualified person who has read and understands all the safety information in this manual should remove an SCXI module You need the following items to complete this task SCXI chassis or PXI combination chassis with the SCXI 1112 module s installed 1 4 in flathead screwdriver Consult the documentati
23. e digital I O lines of E Series MIO DAQ devices Table 3 1 lists the equivalencies Table 3 1 SCXIbus to SCXI 1112 Module Rear Signal Connector to DAQ Device Pin Equivalencies SCXIbus Line SCXI 1112 Rear Signal Connector E Series MIO DAQ Device MOSI SERDATIN DIO0 D A DAQD A DIO1 INTR SLOT0SEL DIO2 SPICLK SERCLK EXTSTROBE MISO SERDATOUT DIO4 TRIG0 SCANCLK SCANCLK National Instruments Corporation 4 1 SCXI 1112 User Manual 4 Theory of Operation This chapter contains a functional overview of the SCXI 1112 module and explains the operation of each functional unit making up the SCXI 1112 module Functional Overview The block diagram in Figure 4 1 illustrates the key functional components of the SCXI 1112 module Figure 4 1 SCXI 1112 Module Block Diagram Lowpass Filter Open TC Detect Digital Control Calibration EEPROM MCH0 FIFO Autozero Control Switch Control SCXI Signal Connector Rear Signal Connector Switch MCH0 Switch Inst Amp Buffer Switch Switch Switch 8 to 1 Mux Buffer AB0 AB0 Input Protection Thermocouple Inputs Open TC Indicators Cold Junction Sensors 1 per Channel Autozero Calibration Switches Autozero Calibration Switches Lowpass Filter Open TC Detect Inst Amp Buffer Input Protection Drivers 8 to 1 Mux Thermistor Excitation SCXIbus Interface Ch
24. echnical support resources B 1 to B 2 theory of operation 4 1 to 4 3 analog bus switch 4 3 analog circuitry 4 2 analog input channels 4 3 block diagram 4 1 digital control circuitry 4 2 rear signal connector 4 2 SCXIbus connector and SCXIbus interface 4 2 troubleshooting the self test verification 2 6 to 2 7 U unpacking SCXI 1122 module 2 1 V VirtualBench software 1 2 W Web support from National Instruments B 1 to B 2 online problem solving and diagnostic resources B 1 software related resources B 2 Worldwide technical support B 2
25. ents programming environments You can use them to complement the example programs that are already included with National Instruments products Software Library A library with updates and patches to application software links to the latest versions of driver software for National Instruments hardware products and utility routines Worldwide Support National Instruments has offices located around the globe Many branch offices maintain a Web site to provide information on local services You can access these Web sites from www natinst com worldwide If you have trouble connecting to our Web site please contact your local National Instruments office or the source from which you purchased your National Instruments product s to obtain support For telephone support in the United States dial 512 795 8248 For telephone support outside the United States contact your local branch office Australia 03 9879 5166 Austria 0662 45 79 90 0 Belgium 02 757 00 20 Brazil 011 284 5011 Canada Calgary 403 274 9391 Canada Ontario 905 785 0085 Canada Qu bec 514 694 8521 China 0755 3904939 Denmark 45 76 26 00 Finland 09 725 725 11 France 01 48 14 24 24 Germany 089 741 31 30 Greece 30 1 42 96 427 Hong Kong 2645 3186 India 91805275406 Israel 03 6120092 Italy 02 413091 Japan 03 5472 2970 Korea 02 596 7456 Mexico D F 5 280 7625 Mexico Monterrey 8 357 7695 Netherlands 0348 433466 Norway 32 27 73 00 Singapore 2265886 S
26. from SCXI chassis 2 7 to 2 8 unpacking SCXI 1122 module 2 1 Index SCXI 1112 User Manual I 2 www natinst com L LabVIEW software 1 2 LabWindows CVI software 1 2 M manual See documentation manually adding modules 2 4 to 2 5 MCH0 signal table 3 5 MCH0 signal table 3 5 Measurement amp Automation Explorer auto detecting modules 2 4 configuration procedure 2 5 manually adding modules 2 4 to 2 5 overview of configuration procedure 2 3 removing modules 2 8 to 2 9 N National Instruments application software 1 2 National Instruments Web support B 1 to B 2 NI DAQ driver software 1 3 O online problem solving and diagnostic resources B 1 operation of SCXI 1112 See theory of operation P physical specifications A 3 power requirement specifications A 4 problem solving and diagnostic resources online B 1 R rear signal connector 3 4 to 3 6 digital I O signal connections 3 6 pin assignments figure 3 4 pin descriptions table 3 5 SCXIbus to SCXI 1112 module rear signal connector to DAQ device pin equivalencies table 3 6 registers in digital control circuitry 4 2 removing modules from Measurement amp Automation Explorer 2 8 to 2 9 SCXI 1112 from SCXI chassis 2 7 to 2 8 requirements for getting started 1 1 to 1 2 S SCANCLK signal table 3 5 3 6 SCXI 1112 module See also theory of operation block diagram 4 1 configuration and self test 2 2 to 2 7 installation
27. ibration Switches 3 3 Rear Signal Connector 3 4 Rear Signal Connector Pin Descriptions 3 5 Digital I O Signal Connections 3 6 Contents SCXI 1112 User Manual vi www natinst com Chapter 4 Theory of Operation Functional Overview 4 1 Rear Signal Connector SCXIbus Connector and SCXIbus Interface 4 2 Digital Control Circuitry 4 2 Analog Circuitry 4 2 Analog Input Channels 4 3 Analog Bus Switch 4 3 Appendix A Specifications Appendix B Technical Support Resources Glossary Index Figures Figure 1 1 The Relationship between the Programming Environment NI DAQ and Your Hardware 1 3 Figure 2 1 Installing the SCXI 1112
28. ick the next to the Devices and Interfaces icon 3 Locate the SCXI chassis in the list Display the list of modules in the chassis by clicking the next to the Chassis icon 4 Right click on the SCXI 1112 module you want to configure and select Properties Click on the General tab If the module you are configuring is connected to a National Instruments DAQ device select the cabled device by using the Connected to control If you want this DAQ device to control the chassis confirm that there is a check in the checkbox labeled This device will control the chassis If the module you are configuring is not connected to a National Instruments DAQ device select none Your SCXI chassis and SCXI module s should now be configured properly Read the Self Test Verification section to ensure that your SCXI system is communicating with the DAQ device Chapter 2 SCXI 1112 Module Installation SCXI 1112 User Manual 2 6 www natinst com Self Test Verification To test the successful configuration of your system follow the steps that follow after entering the Measurement amp Automation Explorer utility 1 Verify that the chassis power is on and that the chassis is correctly connected to a DAQ device 2 Click the next to the Devices and Interfaces icon 3 From the list that appears locate the chassis you want to test Right click on the chassis and select Test 4 If the communication test is successful a message The chass
29. is from the list box and click OK 3 Configure the chassis by selecting a Chassis ID This is an integer that uniquely identifies the chassis in a data acquisition application Select the Chassis Address This is needed to address the chassis in a multi chassis SCXI system Unless you are using multiple chassis with the same DAQ device select a Chassis Address of zero which is the factory default setting of all SCXI chassis If you are using multiple chassis refer to your SCXI chassis user manual for further information For remote SCXI chassis you also need to select the Baud Rate and COM Port After completing the chassis configuration click Next 4 You now have the choice of either automatically detecting which modules are installed in the chassis or manually adding them If you have just added the chassis to Devices and Interfaces and are using an MIO DAQ device you can automatically detect the modules If the chassis is already listed under Devices and Interfaces you must add new modules manually Go to the appropriate section that follows to continue the software configuration of your chassis Chapter 2 SCXI 1112 Module Installation SCXI 1112 User Manual 2 4 www natinst com Auto Detecting Modules If you selected auto detect you must have your chassis connected to your DAQ device except in the case of a remote chassis which you should connect to the computer using a serial port cable To auto detect
30. is has been verified appears Click OK Your SCXI system should now operate properly with your application software If the test did not complete successfully see the following section for troubleshooting steps Troubleshooting Self Test Verification If the configuration software does not verify your chassis configuration take the following steps to successfully complete your system configuration 1 If you get the warning message Unable to test chassis at this time you have not designated at least one module as connected to a DAQ device Return to the Configuring the SCXI 1112 section and change the configuration of the cabled module in your system from Connected to None to Connected to Device x 2 If you get the warning message Failed to find followed by the module codes and the message Unable to communicate with chassis take the following troubleshooting actions a Make sure that the SCXI chassis is powered on b Make sure the cable to the SCXI system is properly connected to a National Instruments DAQ device c Inspect the cable for any bent pins d Make sure you are using the correct National Instruments cable e Test your DAQ device to verify it is working properly See your DAQ device user manual for more information 3 If you get the warning message Failed to find followed by the module codes and then the message Instead found module with ID 0Xxx return to the Configuring the SCXI 1112 section an
31. l to program modules in all slots 26 SERDATOUT Output Serial Data Out A cabled module uses this signal to return data from any module to the DAQ device 27 DAQD A Input DAQ Device Data Address Line The DAQ device asserts this signal to indicate to the module whether the incoming serial stream is data or address information 29 SLOT0SEL Input Slot 0 Select The DAQ device asserts this signal low to indicate that the SERDATIN line information is going to the Slot 0 controller instead of a module 36 SCANCLK Input Scan Clock A rising edge indicates to the scanned SCXI module that the DAQ device has taken a sample and causes the module to advance channels 37 SERCLK Input Serial Clock This signal clocks the data on the SERDATIN and SERDATOUT lines 43 46 RSVD Input Reserved All other pins are not connected Chapter 3 Signal Connections SCXI 1112 User Manual 3 6 www natinst com Caution The SCXI 1112 module analog outputs are not overvoltage protected Applying external voltages to these outputs can damage the SCXI 1112 module National Instruments is not liable for any damages resulting from such signal connections Note The SCXI 1112 module analog outputs are short circuit protected Digital I O Signal Connections Pins 24 through 27 29 33 36 37 43 and 46 constitute the digital I O lines of the rear signal connector The SCXI 1112 module digital input and output signals correspond to th
32. le SCXI 1112 channel 2 Hz you can sample multiple channels on multiple SCXI modules without undersampling one of the SCXI 1112 channels Analog Bus Switch The SCXI 1112 modules contain switches to place their analog output on the SCXIbus to pass the output to the SCXI module cabled to the DAQ device The SCXI 1112 modules also contain switches to receive a signal placed on the SCXIbus by another SCXI module The output buffer of the cabled module drives a received signal onto the MCH0 line of the rear signal connector so that the DAQ device can read it When a signal passes on the SCXIbus from the scanned SCXI module to the cabled SCXI module the measurement is known as indirect scanning National Instruments Corporation A 1 SCXI 1112 User Manual A Specifications This appendix lists the specifications for the SCXI 1112 modules These specifications are typical at 25 C unless otherwise noted Analog Input Input Characteristics Number of channels 8 differential Input signal ranges 100 mV Max working voltage signal common mode Each input should remain within 10 V of CGND Input damage level 42 VAC peak or VDC Inputs protected CH lt 0 7 gt CJSENSOR lt 0 7 gt Transfer Characteristics Nonlinearity 0 005 F
33. ments 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 o
34. nt 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 The media on which you receive National Instruments software are warranted not to fail to execute programming instructions due to defects in materials and workmanship for a period of 90 days from date of shipment as evidenced by receipts or other documentation National Instruments will at its option repair or replace software media that do not execute programming instructions if National Instruments receives notice of such defects during the warranty period National Instruments does not warrant that the operation of the software shall be uninterrupted or error free 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 document 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 Instru
35. nt or a start channel for a scan Refer to Software Programming Choices in Chapter 1 Introduction to learn about options for programming the control circuitry Analog Circuitry The analog circuitry per channel consists of a lowpass filter and an amplifier with a fixed gain of 100 The CJSENSOR channel also has a buffered lowpass filter but has no amplifier The channels and CJSENSOR are multiplexed to a single output buffer Chapter 4 Theory of Operation National Instruments Corporation 4 3 SCXI 1112 User Manual Analog Input Channels Each of the eight analog input channels feeds to a separate amplifier with a fixed gain of 100 Then the signal passes through a three pole lowpass filter The temperature sensor consists of a thermistor located inside the module next to its respective channel The temperature sensor is for cold junction compensation of thermocouples The CJSENSOR channel also passes through a 2 Hz lowpass filter to reject unwanted noise Along with the other eight input channels the CJSENSOR is multiplexed to the output buffer where it can be read by the DAQ device For measurement accuracy of 0 012 of full scale the minimum interchannel delay is 3 s This is the smallest interval in which you can switch between analog channels on the module and still measure voltages accurately The 3 s interchannel delay gives you a maximum sampling rate of 333 kHz Because this rate is higher than the bandwidth of a sing
36. of an SCXI 1112 module input channel is 11 V This common mode input range for either the positive or the negative channel input is the maximum input voltage that will result in a valid measurement Each channel includes input protection circuitry to withstand the accidental application of voltages up to 42 VAC peak or VDC Chapter 3 Signal Connections National Instruments Corporation 3 3 SCXI 1112 User Manual Caution Exceeding the input damage level 42 VAC peak or VDC between input channels and chassis ground can damage the SCXI 1112 module the SCXIbus and the DAQ device Furthermore applying a voltage greater than 42 VAC peak or VDC to the SCXI 1112 is an electrical shock hazard National Instruments is not liable for any damages or injuries resulting from exceeding these voltage limits Note Exceeding the differential or common mode input channel ranges results in a distorted signal measurement Cold Junction Sensors Each channel of the SCXI 1112 has a built in cold junction sensor You can access these sensors through software to perform thermocouple cold junction compensation In LabVIEW read the cold junction sensor thermistor for channel x using the string cjtempx Using analog input functions in NI DAQ refer to the cold junction sensor for the channel x using the integer 1 x Auto Zero Calibration Switches Each channel of the SCXI 1112 has an auto zero calibration switch When this switch is clo
37. on for your SCXI PXI chassis and accessories for additional instructions and warnings To remove the SCXI 1112 module from an SCXI chassis use the following steps while referring to Figure 2 2 1 Disconnect the cable running from the SCXI chassis to the DAQ device 2 Remove all thermocouples connected to the SCXI 1112 3 Turn off the SCXI chassis power Do not remove the SCXI 1112 module from a chassis that is turned on 4 Rotate counter clockwise the thumbscrews securing the SCXI 1112 to the chassis until they are loose but do not completely remove the thumbscrews 5 Remove the SCXI 1112 by pulling steadily on both thumbscrews until the module slides completely out Chapter 2 SCXI 1112 Module Installation SCXI 1112 User Manual 2 8 www natinst com Figure 2 2 Removing the SCXI 1112 Removing Modules from Software To remove a module from software follow these steps after entering the Measurement amp Automation Explorer utility 1 Click the next to the Devices and Interfaces icon 2 Locate your SCXI chassis in the list Display the list of modules in the chassis by clicking the next to the Chassis icon 3 Right click on the module or chassis you want to delete and click Delete 4 You will be presented with a confirmation window Click Yes to continue deleting the module or chassis or No to cancel this action 1 Cable 2 Thumbscrews 3 SCXI 1112 Module 4 Chassis MAINFRAME SCXI
38. ows the SCXI 1112 module rear signal connector pin assignments Figure 3 2 SCXI 1112 Module Rear Signal Connector Pin Assignments NC NC NC RSVD NC NC SERCLK NC NC DGND SLOT0SEL DAQD A SERDATIN NC NC NC NC NC NC NC NC NC NC MCH0 AOGND NC RSVD NC NC NC SCANCLK NC NC NC NC NC NC SERDATOUT DGND NC NC NC NC NC NC NC NC NC MCH0 AOGND 49 50 47 48 45 46 43 44 41 42 39 40 37 38 35 36 33 34 31 32 29 30 27 28 25 26 23 24 21 22 19 20 17 18 15 16 13 14 11 12 9 10 7 8 5 6 3 4 1 2 Chapter 3 Signal Connections National Instruments Corporation 3 5 SCXI 1112 User Manual Rear Signal Connector Pin Descriptions The rear signal connector on the cabled module is the interface between the DAQ device and all modules in the SCXI chassis Pin Signal Name Direction Description 1 2 RSVD Output Reserved 3 MCH0 Output Positive Module Analog Output This pin connects to the positive side of the differential analog input channel 0 of the DAQ device 4 MCH0 Output Negative Module Analog Output In the reset state of the module this pin is configured to connect to the analog reference 24 33 DGND Digital Ground These pins supply the reference for DAQ device digital signals and are tied to the module digital ground 25 SERDATIN Input Serial Data In The DAQ device uses this signa
39. pain Barcelona 93 582 0251 Spain Madrid 91 640 0085 Sweden 08 587 895 00 Switzerland 056 200 51 51 Taiwan 02 2377 1200 United Kingdom 01635 523545 National Instruments Corporation G 1 SCXI 1112 User Manual Glossary Prefix Meaning Value p pico 10 12 n nano 10 9 micro 10 6 m milli 10 3 k kilo 103 M mega 106 t tera 1012 Numbers Symbols 5 V 5 volt signal degrees ohms percent plus or minus A A amperes AC alternating current ACH analog input channel signal A D analog to digital AIGND analog input ground signal Glossary SCXI 1112 User Manual G 2 www natinst com ANSI American National Standards Institute auto zero the technique of internally shorting the internal circuit while disconnecting the measurement to compensate for temperature induced offset voltage errors C C Celsius CGND chassis ground signal channel pin or wire lead to which you apply or from which you read the analog or digital signal Analog signals can be single ended or differential For digital signals you group channels to form ports Ports usually consist of either four or eight digital channels CJSENSOR cold junction sensor CMRR common mode rejection ratio D D A digital to analog D A Data Address DAQ data acquisition 1 collecting and measuring electrical signals from sensors transducers and test probe
40. products in a manner not evaluated or contemplated by National Instruments the user or application designer is ultimately responsible for verifying and validating the suitability of National Instruments products whenever National Instruments products are incorporated in a system or application including without limitation the appropriate design process and safety level of such system or application National Instruments Corporation v SCXI 1112 User Manual Contents About This Manual Conventions Used in This Manual vii National Instruments Documentation viii Chapter 1 Introduction About the SCXI 1112 Module 1 1 What You Need to Get Started 1 1 Software Programming Choices 1 2 National Instruments Application Software 1 2 NI DAQ Driver Software 1 3 Chapter 2 SCXI 1112 Module Installation Unpacking
41. rom 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 Never touch the exposed pins of connectors Module Installation You can install the SCXI 1112 module in any available SCXI chassis slot The following are general installation instructions consult your SCXI chassis documentation for specific instructions and warnings 1 Turn off the computer that contains the DAQ device or disconnect it from your SCXI chassis 2 Turn off the SCXI chassis Do not insert the SCXI 1112 module into a chassis that is turned on 3 Insert the SCXI 1112 module into the module guides Gently push the module into the slot until the front of the module is flush with the front of the chassis If a cable assembly has already been installed in the rear of the slot the module and cable assembly must be firmly engaged however do not force the module into place Chapter 2 SCXI 1112 Module Installation SCXI 1112 User Manual 2 2 www natinst com 4 Rotate the thumbscrews clockwise to fasten the front of the SCXI 1112 module to the top and bottom threaded strips of your SCXI chassis 5 If this module is to be connected to an MIO DAQ device insert the metal cable adapter of the SCXI 1349 cable assembly to the rear signal connector on the SCXI 1
42. s or fixtures and inputting them to a computer for processing 2 collecting and measuring the same kinds of electrical signals with A D and or DIO boards plugged into a computer and possibly generating control signals with D A and or DIO boards in the same computer dB decibel the unit for expressing a logarithmic measure of the ratio of two signal levels dB 20log10 V1 V2 for signals in volts DC direct current Glossary National Instruments Corporation G 3 SCXI 1112 User Manual device a plug in data acquisition board card or pad that can contain multiple channels and conversion devices Plug in boards PC cards and devices such as the DAQPad 1200 which connects to your computer parallel port are all examples of DAQ devices SCXI modules are distinct from devices with the exception of the SCXI 1200 which is a hybrid DGND digital ground signal DIFF differential configuration differential input an analog input consisting of two terminals both of which are isolated from computer ground whose difference is measured DIN Deutsche Industrie Norme DIO digital input output DNL differential nonlinearity a measure in LSB of the worst case deviation of code widths from their ideal value of 1 LSB drivers driver software software that controls a specific hardware device such as a DAQ device F F farads FIFO first in first out memory buffer the first data stored is the first data sent to the acceptor
43. sed the input signal is disconnected and the differential input terminals of the channel are shorted together and grounded Any voltage reading taken with this switch closed is a measure of the combined voltage offset of the module and DAQ device You can subtract this reading from subsequent readings when the auto zero calibration switch is open to correct these readings for the system offset error corresponding to that particular SCXI 1112 channel In LabVIEW close the auto zero calibration switch and take a reading on channel x by providing the channel string calgndx to an analog input DAQ VI During multichannel scanning you cannot combine calgndx and normal or virtual channel names such as ob0 sc1 md2 0 3 or temperature1 in the same channel string array Auto zero calibration readings must be taken by themselves For information on how to do auto zero calibration using NI DAQ function calls see the SCXI_Calibrate_Setup entry in the NI DAQ Function Reference Manual for PC Compatibles Chapter 3 Signal Connections SCXI 1112 User Manual 3 4 www natinst com Rear Signal Connector Note If you are using the SCXI 1112 module with a National Instruments DAQ device and cable assembly you do not need to read the remainder of this chapter If you are using the SCXI 1180 feedthrough panel the SCXI 1343 rear screw terminal adapter or the SCXI 1351 one slot cable extender with the SCXI 1112 module read this section Figure 3 2 sh
44. t signals that you can digitize Detailed specifications of the SCXI 1112 module are listed in Appendix A Specifications What You Need to Get Started To install and use your SCXI 1112 module you will need the following items K The SCXI 1112 module K SCXI 1112 User Manual K SCXI chassis or PXI combination chassis Chapter 1 Introduction SCXI 1112 User Manual 1 2 www natinst com K Data acquisition device K NI DAQ version 6 6 or later Software Programming Choices You have several options to choose from when programming your National Instruments DAQ and SCXI hardware You can use National Instruments application software or a third party programming environment In either case you must use NI DAQ driver software National Instruments Application Software ComponentWorks contains tools for data acquisition and instrument control built on NI DAQ driver software ComponentWorks provides a higher level programming interface for building virtual instruments through standard OLE controls and DLLs With ComponentWorks you can use all of the configuration tools resource management utilities and interactive control utilities included with NI DAQ LabVIEW 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 DAQ hardware is included with LabVIEW The LabVIEW
45. utside 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 ComponentWorks CVI DAQCard DAQPad LabVIEW Measure natinst com NI DAQ PXI RTSI SCXI and VirtualBench are trademarks of National Instruments Corporation Product and company names mentioned herein 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 for a level of reliability suitable for use in or in connection with surgical implants or as critical components in any life support systems whose failure to perform can reasonably be expected to cause significant injury to a human Applications of National Instruments products involving medical or clinical treatment can create a potential for death or bodily injury caused by product failure or by errors on the part of the user or application designer Because each end user system is customized and differs from National Instruments testing platforms and because a user or application designer may use National Instruments products in combination with other
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