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Bom manual de uso
As regras impõem ao revendedor a obrigação de fornecer ao comprador o manual com o produto National Instruments 3.21E+04. A falta de manual ou informações incorretas fornecidas ao consumidor são a base de uma queixa por não conformidade do produto com o contrato. De acordo com a lei, pode anexar o manual em uma outra forma de que em papel, o que é frequentemente utilizado, anexando uma forma gráfica ou manual electrónicoNational Instruments 3.21E+04 vídeos instrutivos para os usuários. A condição é uma forma legível e compreensível.
O que é a instrução?
A palavra vem do latim "Instructio" ou instruir. Portanto, no manual National Instruments 3.21E+04 você pode encontrar uma descrição das fases do processo. O objetivo do manual é instruir, facilitar o arranque, a utilização do equipamento ou a execução de determinadas tarefas. O manual é uma coleção de informações sobre o objeto / serviço, um guia.
Infelizmente, pequenos usuários tomam o tempo para ler o manual National Instruments 3.21E+04, e um bom manual não só permite conhecer uma série de funcionalidades adicionais do dispositivo, mas evita a formação da maioria das falhas.
Então, o que deve conter o manual perfeito?
Primeiro, o manual National Instruments 3.21E+04 deve conte:
- dados técnicos do dispositivo National Instruments 3.21E+04
- nome do fabricante e ano de fabricação do dispositivo National Instruments 3.21E+04
- instruções de utilização, regulação e manutenção do dispositivo National Instruments 3.21E+04
- sinais de segurança e certificados que comprovam a conformidade com as normas pertinentes
Por que você não ler manuais?
Normalmente, isso é devido à falta de tempo e à certeza quanto à funcionalidade específica do dispositivo adquirido. Infelizmente, a mesma ligação e o arranque National Instruments 3.21E+04 não são suficientes. O manual contém uma série de orientações sobre funcionalidades específicas, a segurança, os métodos de manutenção (mesmo sobre produtos que devem ser usados), possíveis defeitos National Instruments 3.21E+04 e formas de resolver problemas comuns durante o uso. No final, no manual podemos encontrar as coordenadas do serviço National Instruments na ausência da eficácia das soluções propostas. Atualmente, muito apreciados são manuais na forma de animações interessantes e vídeos de instrução que de uma forma melhor do que o o folheto falam ao usuário. Este tipo de manual é a chance que o usuário percorrer todo o vídeo instrutivo, sem ignorar especificações e descrições técnicas complicadas National Instruments 3.21E+04, como para a versão papel.
Por que ler manuais?
Primeiro de tudo, contem a resposta sobre a construção, as possibilidades do dispositivo National Instruments 3.21E+04, uso dos acessórios individuais e uma gama de informações para desfrutar plenamente todos os recursos e facilidades.
Após a compra bem sucedida de um equipamento / dispositivo, é bom ter um momento para se familiarizar com cada parte do manual National Instruments 3.21E+04. Atualmente, são cuidadosamente preparados e traduzidos para sejam não só compreensíveis para os usuários, mas para cumprir a sua função básica de informação
Índice do manual
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Página 1
AT-MIO/AI E Series User Manual Multifunction I/O Boards for the PC AT May 1996 Edition Part Number 320517E-01 Copyright 1994, 1996 National Instruments Corporation. All Rights Reserved. Click here to comment on this document via the National Instruments website at http://www.natinst.com/documentation/daq/[...]
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GPIB: gpib.support@natinst.com DAQ: daq.support@natinst.com VXI: vxi.support@natinst.com LabVIEW: lv.support@natinst.com LabWindows: lw.support@natinst.com HiQ: hiq.support@natinst.com E-mail: info@natinst.com FTP Site: ftp.natinst.com Web Address: http://www.natinst.com BBS United States: (512) 794-5422 or (800) 327-3077 BBS United Kingdom: 01635 [...]
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Important Information Warranty The AT-MIO/AI E Series boards are 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. Thi[...]
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National Instruments Corporation v AT-MIO/AI E Series User Manual About This Manual Organization of This Manual ........................................................................................ xi Conventions Used in This Manual ................................................................................ xii National Instruments Docu[...]
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T able of Contents AT-MIO/AI E Series User Manual vi National Instruments Corporation Chapter 3 Hardware Overview Analog Input ................................................................................................................. 3-6 Input Mode ..........................................................................................[...]
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T able of Contents National Instruments Corporation vii AT-MIO/AI E Series User Manual Power Connections ........................................................................................................ 4-30 Timing Connections ...................................................................................................... 4-30 Prog[...]
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T able of Contents AT-MIO/AI E Series User Manual viii National Instruments Corporation Appendix A Specifications AT-MIO-16E-1, AT-MIO-16E-2 and AT-MIO-64E-3 ................................................ A-1 AT-MIO-16E-10 and AT-MIO-16DE-10 .................................................................... A-11 AT-MIO-16XE-10 and AT-AI-16X[...]
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T able of Contents National Instruments Corporation ix AT-MIO/AI E Series User Manual Figure 4-1. I/O Connector Pin Assignment for the AT-MIO-16E-1, AT-MIO-16E-2, AT-MIO-16E-10, AT-MIO-16XE-10, AT-AI-16XE-10, and AT-MIO-16XE-50 .............................................. 4-2 Figure 4-2. I/O Connector Pin Assignment for the AT-MIO-64E-3 .....[...]
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T able of Contents AT-MIO/AI E Series User Manual x National Instruments Corporation Figure B-1. 68-Pin MIO Connector Pin Assignments ................................................ B-2 Figure B-2. 68-Pin DIO Connector Pin Assignments ................................................ B-3 Figure B-3. 68-Pin Extended Analog Input Connector Pin As[...]
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About This Manual National Instruments Corporation xi AT-MIO/AI E Series User Manual This manual describes the electrical and mechanical aspects of each board in the AT E Series product line and contains information concerning their operation and programming. Unless otherwise noted, text applies to all boards in the AT E Series. The AT E Series[...]
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About This Manual AT-MIO/AI E Series User Manual xii National Instruments Corporation • Chapter 4, Signal Connections , describes how to make input and output signal connections to your AT E Series board via the board I/O connector. • Chapter 5, Calibration, discusses the calibration procedures for your AT E Series board. • Appendix A, Sp[...]
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About This Manual National Instruments Corporation xiii AT-MIO/AI E Series User Manual ♦ The ♦ indicates that the text following it applies only to specific AT E Series boards. <> Angle brackets containing numbers separated by an ellipsis represent a range of values associated with a bit, port, or signal name (for example, ACH<0..7[...]
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About This Manual AT-MIO/AI E Series User Manual xiv National Instruments Corporation relevant pieces of the system. Consult these guides when you are making your connections. • SCXI chassis manuals—If you are using SCXI, read these manuals for maintenance information on the chassis and installation instructions. Related Documentation The f[...]
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National Instruments Corporation 1-1 AT-MIO/AI E Series User Manual Introduction Chapter 1 This chapter describes the AT E Series boards, lists what you need to get started, describes the optional software and optional equipment, and explains how to unpack your AT E Series board. About the AT E Series Thank you for buying a National Instruments[...]
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Chapter 1 Introduction AT-MIO/AI E Series User Manual 1-2 National Instruments Corporation timing event. The AT E Series boards have the Real-Time System Integration (RTSI) bus to solve this problem. The RTSI bus consists of our RTSI bus interface and a ribbon cable to route timing and trigger signals between several functions on as many as fiv[...]
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Chapter 1 Introduction National Instruments Corporation 1-3 AT-MIO/AI E Series User Manual Software Programming Choices There are several options to choose from when programming your National Instruments DAQ and SCXI hardware. You can use LabVIEW, LabWindows/CVI, NI-DAQ, or register-level programming. LabVIEW and LabWindows/CVI Application Soft[...]
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Chapter 1 Introduction AT-MIO/AI E Series User Manual 1-4 National Instruments Corporation NI-DAQ has both high-level DAQ I/O functions for maximum ease of use and low-level DAQ I/O functions for maximum flexibility and performance. Examples of high-level functions are streaming data to disk or acquiring a certain number of data points. An exam[...]
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Chapter 1 Introduction National Instruments Corporation 1-5 AT-MIO/AI E Series User Manual You can use your AT E Series board, together with other PC, AT, EISA, DAQCard, and DAQPad Series DAQ and SCXI hardware, with NI-DAQ software for PC compatibles. Register-Level Programming The final option for programming any National Instruments DAQ hardw[...]
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Chapter 1 Introduction AT-MIO/AI E Series User Manual 1-6 National Instruments Corporation Custom Cabling National Instruments offers cables and accessories for you to prototype your application or to use if you frequently change board interconnections. If you want to develop your own cable, however, the following guidelines may be useful: • [...]
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Chapter 1 Introduction National Instruments Corporation 1-7 AT-MIO/AI E Series User Manual Unpacking Your AT E Series board is shipped in an antistatic package to prevent electrostatic damage to the board. Electrostatic discharge can damage several components on the board. To avoid such damage in handling the board, take the following precautio[...]
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National Instruments Corporation 2-1 AT-MIO/AI E Series User Manual Installation and Configuration Chapter 2 This chapter explains how to install and configure your AT E Series board. Software Installation You may need to install your software before you install your AT E Series board. Refer to the appropriate release notes indicated below for [...]
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Chapter 2 Installation and Configuration AT-MIO/AI E Series User Manual 2-2 National Instruments Corporation 1. Write down the AT E Series board serial number in the AT E Series Hardware and Software Configuration Form in Appendix D at the back of this manual. You will need this serial number when you install and configure your software . 2. T[...]
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Chapter 2 Installation and Configuration National Instruments Corporation 2-3 AT-MIO/AI E Series User Manual Plug and Play The AT E Series boards are fully compatible with the industry-standard Plug and Play ISA specification. A Plug and Play system arbitrates and assigns resources through software, freeing you from manually setting switches a[...]
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Chapter 2 Installation and Configuration AT-MIO/AI E Series User Manual 2-4 National Instruments Corporation 16-bit DMA channels, which correspond to channels 5, 6, and 7 in an ISA computer and channels 0, 1, 2, 3, 5, 6, and 7 in an EISA computer. These selections are all software configured and do not require you to manually change any settin[...]
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Chapter 2 Installation and Configuration National Instruments Corporation 2-5 AT-MIO/AI E Series User Manual 300 to 30F 3Com EtherLink – default 310 to 31F — 320 to 32F ICM PC/XT Fixed Disk Controller 330 to 35F — 360 to 363 PC Network (low address) 364 to 367 Reserved 368 to 36B PC Network (high address) 36C to 36F Reserved 370 to 366 P[...]
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Chapter 2 Installation and Configuration AT-MIO/AI E Series User Manual 2-6 National Instruments Corporation Table 2-2. PC AT Interrupt Assignment Map IRQ Device 15 Available 14 Fixed Disk Controller 13 Coprocessor 12 AT-DIO-32F – default 11 AT-DIO-32F – default 10 AT-MIO-16 – default 9 PC Network – default PC Network Alternate – def[...]
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Chapter 2 Installation and Configuration National Instruments Corporation 2-7 AT-MIO/AI E Series User Manual Note: EISA computers also have channels 0–3 available as 16-bit DMA channels. Table 2-3. PC AT 16-bit DMA Channel Assignment Map Channel Device 7 AT-MIO-16 series – default 6 AT-MIO-16 series – default AT-DIO-32F – default 5 AT-[...]
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National Instruments Corporation 3-1 AT-MIO/AI E Series User Manual Hardware Overview Chapter 3 This chapter presents an overview of the hardware functions on your AT E Series board. Figure 3-1 shows the block diagram for the AT-MIO-16E-1 and AT-MIO-16E-2 Figure 3-1. AT-MIO-16E-1 and AT-MIO-16E-2 Block Diagram Timing PFI / Trigger I/O Connector[...]
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Chapter 3 Hardware Overview AT-MIO/AI E Series User Manual 3-2 National Instruments Corporation Figure 3-2 shows the block diagram for the AT-MIO-64E-3. Figure 3-2. AT-MIO-64E-3 Block Diagram Timing PFI / Trigger I/O Connector 3 RTSI Bus AT – I/O Channel Digital I/O (8) 12-Bit Sampling A/D Converter EEPROM Configuration Memory + NI-PGIA Gain [...]
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Chapter 3 Hardware Overview National Instruments Corporation 3-3 AT-MIO/AI E Series User Manual Figure 3-3 shows the block diagram for the AT-MIO-16E-10 and AT-MIO-16DE-10. Figure 3-3. AT-MIO-16E-10 and AT-MIO-16DE-10 Block Diagram The primary differences between the AT-MIO-16E-10 and the AT-MIO-16DE-10 are in the 8255 DIO port, which is not pr[...]
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Chapter 3 Hardware Overview AT-MIO/AI E Series User Manual 3-4 National Instruments Corporation Figure 3-4 shows a block diagram for the AT-MIO-16XE-10. Figure 3-4. AT-MIO-16XE-10 Block Diagram Timing PFI / Trigger I/O Connector 3 2 2 RTSI Bus AT – I/O Channel Digital I/O (8) 16-Bit Sampling A/D Converter EEPROM Configuration Memory REF Buffe[...]
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Chapter 3 Hardware Overview National Instruments Corporation 3-5 AT-MIO/AI E Series User Manual Figure 3-5 shows a block diagram for the AT-AI-16XE-10. Figure 3-5. AT-AI-16XE-10 Block Diagram Timing PFI / Trigger I/O Connector 3 2 2 RTSI Bus AT – I/O Channel Digital I/O (8) 16-Bit Sampling A/D Converter EEPROM Configuration Memory REF Buffer [...]
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Chapter 3 Hardware Overview AT-MIO/AI E Series User Manual 3-6 National Instruments Corporation Figure 3-6 shows a block diagram for the AT-MIO-16XE-50. Figure 3-6. AT-MIO-16XE-50 Block Diagram Analog Input The analog input section of each AT E Series board is software configurable. You can select different analog input configurations through a[...]
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Chapter 3 Hardware Overview National Instruments Corporation 3-7 AT-MIO/AI E Series User Manual programmed on a per channel basis for multimode scanning. For example, you can configure the circuitry to scan 12 channels—four differentially configured channels and eight single-ended channels. Table 3-1 describes the three input configurations. [...]
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Chapter 3 Hardware Overview AT-MIO/AI E Series User Manual 3-8 National Instruments Corporation You can program polarity and range settings on a per channel basis so that you can configure each input channel uniquely. The software-programmable gain on these boards increases their overall flexibility by matching the input signal ranges to those [...]
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Chapter 3 Hardware Overview National Instruments Corporation 3-9 AT-MIO/AI E Series User Manual ♦ AT-MIO-16XE-10, AT-AI-16XE-10, AT-MIO-16XE-50 These boards have two input polarities—unipolar and bipolar. Unipolar input means that the input voltage range is between 0 and V ref , where V ref is a positive reference voltage. Bipolar input mea[...]
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Chapter 3 Hardware Overview AT-MIO/AI E Series User Manual 3-10 National Instruments Corporation Considerations for Selecting Input Ranges Which input polarity and range you select depends on the expected range of the incoming signal. A large input range can accommodate a large signal variation but reduces the voltage resolution. Choosing a sma[...]
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Chapter 3 Hardware Overview National Instruments Corporation 3-11 AT-MIO/AI E Series User Manual Dither When you enable dither, you add approximately 0.5 LSB rms of white Gaussian noise to the signal to be converted by the ADC. This addition is useful for applications involving averaging to increase the resolution of your AT E Series board, as [...]
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Chapter 3 Hardware Overview AT-MIO/AI E Series User Manual 3-12 National Instruments Corporation Figure 3-7. Dither You cannot disable dither on the AT-MIO-16XE-10, AT-AI-16XE-10, or AT-MIO-16XE-50. This is because the resolution of the ADC is so fine that the ADC and the PGIA inherently produce almost 0.5 LSB rms of noise. This is equivalent t[...]
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Chapter 3 Hardware Overview National Instruments Corporation 3-13 AT-MIO/AI E Series User Manual constant and source impedances are low. Refer to Appendix A, Specifications , for a complete listing of settling times for each of the AT E Series boards. When scanning among channels at various gains, the settling times may increase. When the PGIA [...]
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Chapter 3 Hardware Overview AT-MIO/AI E Series User Manual 3-14 National Instruments Corporation Analog Output ♦ AT-MIO-16E-1, AT-MIO-16E-2, AT-MIO-64E-3, AT-MIO-16E-10, AT-MIO-16DE-10 The AT E Series boards supply two channels of analog output voltage at the I/O connector. You can select the reference and range for the analog output circuitr[...]
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Chapter 3 Hardware Overview National Instruments Corporation 3-15 AT-MIO/AI E Series User Manual Selecting a bipolar range for a particular DAC means that any data written to that DAC will be interpreted as two’s complement format. In two’s complement mode, data values written to the analog output channel can be either positive or negative.[...]
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Chapter 3 Hardware Overview AT-MIO/AI E Series User Manual 3-16 National Instruments Corporation shown in Figure 3-8. The trigger-level range for the direct analog channel is ± 10 V in 78 mV steps for the AT-MIO-16E-1, AT-MIO-16E-2, and AT-MIO-64E-3, and ± 10 V in 4.9 mV steps for the AT-MIO-16XE-10 and AT-AI-16XE-10. The range for the post-P[...]
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Chapter 3 Hardware Overview National Instruments Corporation 3-17 AT-MIO/AI E Series User Manual Figure 3-9. Below-Low-Level Analog Triggering Mode In above-high-level analog triggering mode, the trigger is generated when the signal value is greater than highValue . LowValue is unused. Figure 3-10. Above-High-Level Analog Triggering Mode In ins[...]
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Chapter 3 Hardware Overview AT-MIO/AI E Series User Manual 3-18 National Instruments Corporation In high-hysteresis analog triggering mode, the trigger is generated when the signal value is greater than highValue , with the hysteresis specified by lowValue . Figure 3-12. High-Hysteresis Analog Triggering Mode In low-hysteresis analog triggering[...]
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Chapter 3 Hardware Overview National Instruments Corporation 3-19 AT-MIO/AI E Series User Manual Digital I/O The AT E Series boards contain eight lines of digital I/O for general-purpose use. You can individually configure each line through software for either input or output. The AT-MIO-16DE-10 has 24 additional DIO lines, configured as three [...]
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Chapter 3 Hardware Overview AT-MIO/AI E Series User Manual 3-20 National Instruments Corporation Figure 3-14. CONVERT* Signal Routing This figure shows that CONVERT* can be generated from a number of sources, including the external signals RTSI<0..6> and PFI<0..9> and the internal signals Sample Interval Counter TC and GPCTR0_OUT. M[...]
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Chapter 3 Hardware Overview National Instruments Corporation 3-21 AT-MIO/AI E Series User Manual You can also individually enable each of the PFI pins to output a specific internal timing signal. For example, if you need the UPDATE* signal as an output on the I/O connector, software can turn on the output driver for the PFI5/UPDATE* pin. Board [...]
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Chapter 3 Hardware Overview AT-MIO/AI E Series User Manual 3-22 National Instruments Corporation Figure 3-15. RTSI Bus Signal Connection Refer to the Timing Connections section of Chapter 4 for a description of the signals shown in Figure 3-15. RTSI Bus Connector switch RTSI Switch Clock Trigger 7 DAQ-STC TRIG1 TRIG2 CONVERT* UPDATE* WFTRIG GPC[...]
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National Instruments Corporation 4-1 AT-MIO/AI E Series User Manual Signal Connections Chapter 4 This chapter describes how to make input and output signal connections to your AT E Series board via the board I/O connector. The I/O connector for the AT-MIO-16E-1, AT-MIO-16E-2, AT-MIO-16E-10, AT-MIO-16XE-10, AT-AI-16XE-10, and AT-MIO-16XE-50 has [...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-2 National Instruments Corporation Figure 4-1. I/O Connector Pin Assignment for the AT-MIO-16E-1, AT-MIO-16E-2, AT-MIO-16E-10, AT-MIO-16XE-10, AT-AI-16XE-10, and AT-MIO-16XE-50 1 1 1 2 2 Not available on AT-AI-16XE-10 Not available on AT-MIO-16XE-10, AT-AI-16XE-10, or AT-MIO-16XE-50 [...]
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Chapter 4 Signal Connections National Instruments Corporation 4-3 AT-MIO/AI E Series User Manual Figure 4-2. I/O Connector Pin Assignment for the AT-MIO-64E-3 50 100 49 99 48 98 47 97 46 96 45 95 44 94 43 93 42 92 41 91 40 90 39 89 38 88 37 87 36 86 35 85 34 84 33 83 32 82 31 81 30 80 29 79 28 78 27 77 26 76 25 75 24 74 23 73 22 72 21 71 20 70 [...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-4 National Instruments Corporation Figure 4-3. I/O Connector Pin Assignment for the AT-MIO-16DE-10 50 100 49 99 48 98 47 97 46 96 45 95 44 94 43 93 42 92 41 91 40 90 39 89 38 88 37 87 36 86 35 85 34 84 33 83 32 82 31 81 30 80 29 79 28 78 27 77 26 76 25 75 24 74 23 73 22 72 21 71 20 7[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-5 AT-MIO/AI E Series User Manual I/O Connector Signal Descriptions Signal Name Reference Direction Description AIGND — — Analog Input Ground—These pins are the reference point for single-ended measurements and the bias current return point for differential measurements. All t[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-6 National Instruments Corporation DIO<0..7> DGND Input or Output Digital I/O signals—DIO6 and 7 can control the up/down signal of general-purpose counters 0 and 1, respectively. PA<0..7> DGND Input or Output Port A—These pins are port A of the extra digital I/O signa[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-7 AT-MIO/AI E Series User Manual PFI2/CONVERT* DGND Input Output PFI2/Convert—As an input, this is one of the PFIs. As an output, this is the CONVERT* signal. A high-to-low edge on CONVERT* indicates that an A/D conversion is occurring. PFI3/GPCTR1_SOURCE DGND Input Output PFI3/C[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-8 National Instruments Corporation Table 4-1 shows the I/O signal summary for the AT-MIO-16E-1, AT-MIO-16E-2 and AT-MIO-64E-3. PFI9/GPCTR0_GATE DGND Input Output PFI9/Counter 0 Gate—As an input, this is one of the PFIs. As an output, this is the GPCTR0_GATE signal. This signal refl[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-9 AT-MIO/AI E Series User Manual DIO<0..7> DIO — V cc +0.5 13 at (V cc -0.4) 24 at 0.4 1.1 50 k Ω pu 1 SCANCLK DO — — 3.5 at (V cc -0.4) 5 at 0.4 1.5 50 k Ω pu EXTSTROBE* DO — — 3.5 at (V cc -0.4) 5 at 0.4 1.5 50 k Ω pu PFI0/TRIG1 ADIO 10 k Ω V cc +0.5/ ± 3[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-10 National Instruments Corporation Table 4-2 shows the I/O signal summary for the AT-MIO-16E-10 and AT-MIO-16DE-10. Table 4-2. I/O Signal Summary, AT-MIO-16E-10 and AT-MIO-16DE-10 Signal Name Drive Impedance Input/ Output Protection (Volts) On/Off Source (mA at V) Sink (mA at V) Ris[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-11 AT-MIO/AI E Series User Manual PFI3/GPCTR1_SOURCE DIO — V cc +0.5 3.5 at (V cc -0.4) 5 at 0.4 1.5 50 k Ω pu PFI4/GPCTR1_GATE DIO — V cc +0.5 3.5 at (V cc -0.4) 5 at 0.4 1.5 50 k Ω pu GPCTR1_OUT DO — — 3.5 at (V cc -0.4) 5 at 0.4 1.5 50 k Ω pu PFI5/UPDATE* DIO — V[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-12 National Instruments Corporation Table 4-3 shows the I/O signal summary for the AT-MIO-16XE-10 and AT-AI-16XE-10. Table 4-3. I/O Signal Summary, AT-MIO-16XE-10 and AT-AI-16XE-10 Signal Name Drive Impedance Input/ Output Protection (Volts) On/Off Source (mA at V) Sink (mA at V) Ris[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-13 AT-MIO/AI E Series User Manual PFI5/UPDATE* DIO — V cc +0.5 3.5 at (V cc -0.4) 5 at 0.4 1.5 50 k Ω pu PFI6/WFTRIG DIO — V cc +0.5 3.5 at (V cc -0.4) 5 at 0.4 1.5 50 k Ω pu PFI7/STARTSCAN DIO — V cc +0.5 3.5 at (V cc -0.4) 5 at 0.4 1.5 50 k Ω pu PFI8/GPCTR0_SOURCE DIO[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-14 National Instruments Corporation Table 4-4 shows the I/O signal summary for the AT-MIO-16XE-50. Table 4-4. I/O Signal Summary, AT-MIO-16XE-50 Signal Name Drive Impedance Input/ Output Protection (Volts) On/Off Source (mA at V) Sink (mA at V) Rise Time (ns) Bias ACH<0..15> AI[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-15 AT-MIO/AI E Series User Manual PFI5/UPDATE* DIO — V cc +0.5 3.5 at (V cc -0.4) 5 at 0.4 1.5 50 k Ω pu PFI6/WFTRIG DIO — V cc +0.5 3.5 at (V cc -0.4) 5 at 0.4 1.5 50 k Ω pu PFI7/STARTSCAN DIO — V cc +0.5 3.5 at (V cc -0.4) 5 at 0.4 1.5 50 k Ω pu PFI8/GPCTR0_SOURCE DIO[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-16 National Instruments Corporation Analog Input Signal Connections ♦ AT-MIO-16E-1, ΑΤ -MIO-16E-2, AT-MIO-16E-10, AT-MIO-16DE-10, AT-MIO-16XE-10, AT-AI-16XE-10, AT-MIO-16XE-50 The analog input signals are ACH<0..15>, AISENSE, and AIGND. The ACH<0..15> signals are tied[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-17 AT-MIO/AI E Series User Manual use the PGIA in different ways. Figure 4-4 shows a diagram of your AT E Series board PGIA. Figure 4-4. AT E Series PGIA The PGIA applies gain and common-mode voltage rejection and presents high input impedance to the analog input signals connected [...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-18 National Instruments Corporation Types of Signal Sources When configuring the input channels and making signal connections, you must first determine whether the signal sources are floating or ground-referenced. The following sections describe these two types of signals. Floating S[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-19 AT-MIO/AI E Series User Manual Figure 4-5 summarizes the recommended input configuration for both types of signal sources. Figure 4-5. Summary of Analog Input Connections Input Differential (DIFF) Single-Ended — Ground Referenced (RSE) Single-Ended — Nonreferenced (NRSE) Flo[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-20 National Instruments Corporation Differential Connection Considerations (DIFF Input Configuration) A differential connection is one in which the AT E Series board analog input signal has its own reference signal or signal return path. These connections are available when the selec[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-21 AT-MIO/AI E Series User Manual Differential Connections for Ground-Referenced Signal Sources Figure 4-6 shows how to connect a ground-referenced signal source to an AT E Series board channel configured in DIFF input mode. Figure 4-6. Differential Input Connections for Ground-Ref[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-22 National Instruments Corporation Differential Connections for Nonreferenced or Floating Signal Sources Figure 4-7 shows how to connect a floating signal source to an AT E Series board channel configured in DIFF input mode. Figure 4-7. Differential Input Connections for Nonreferenc[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-23 AT-MIO/AI E Series User Manual any resistors at all. This connection works well for DC-coupled sources with low source impedance (less than 100 Ω ). However, for larger source impedances, this connection leaves the differential signal path significantly out of balance. Noise t[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-24 National Instruments Corporation Single-Ended Connection Considerations A single-ended connection is one in which the AT E Series board analog input signal is referenced to a ground that can be shared with other input signals. The input signal is tied to the positive input of the [...]
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Chapter 4 Signal Connections National Instruments Corporation 4-25 AT-MIO/AI E Series User Manual Single-Ended Connections for Floating Signal Sources (RSE Configuration) Figure 4-8 shows how to connect a floating signal source to an AT E Series board channel configured for RSE mode. Figure 4-8. Single-Ended Input Connections for Nonreferenced [...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-26 National Instruments Corporation Figure 4-9 shows how to connect a grounded signal source to an AT E Series board channel configured for NRSE mode. Figure 4-9. Single-Ended Input Connections for Ground-Referenced Signal Common-Mode Signal Rejection Considerations Figures 4-6 and 4[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-27 AT-MIO/AI E Series User Manual Analog Output Signal Connections The analog output signals are DAC0OUT, DAC1OUT, EXTREF, and AOGND. DAC0OUT and DAC1OUT are not available on the AT-AI-16XE-10. EXTREF is not available on the AT-MIO-16XE-10, AT-AI-16XE-10, or AT-MIO-16XE-50 . DAC0OU[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-28 National Instruments Corporation Figure 4-10 shows how to make analog output connections and the external reference input connection to your AT E Series board. Figure 4-10. Analog Output Connections The external reference signal can be either a DC or an AC signal. The board multip[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-29 AT-MIO/AI E Series User Manual Warning: Exceeding the maximum input voltage ratings, which are listed in Tables 4-1 through 4-4, can damage the AT E Series board and the PC. National Instruments is NOT liable for any damages resulting from such signal connections. Figure 4-11 sh[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-30 National Instruments Corporation Power Connections Two pins on the I/0 connector supply +5 V from the PC power supply via a self-resetting fuse. The fuse will reset automatically within a few seconds after the overcurrent condition is removed. These pins are referenced to DGND and[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-31 AT-MIO/AI E Series User Manual external TRIG1 source and an external CONVERT* source to two of the AT E Series board PFI pins. Figure 4-12. Timing I/O Connections Programmable Function Input Connections There are a total of 13 internal timing signals that you can externally cont[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-32 National Instruments Corporation detection requirements for each timing signal are listed within the section that discusses that individual signal. In edge-detection mode, the minimum pulse width required is 10 ns. This applies for both rising-edge and falling-edge polarity settin[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-33 AT-MIO/AI E Series User Manual Figure 4-14. Typical Pretriggered Acquisition SCANCLK Signal SCANCLK is an output-only signal that generates a pulse with the leading edge occurring approximately 50 to 100 ns after an A/D conversion begins. The polarity of this output is software [...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-34 National Instruments Corporation EXTSTROBE* signal. A 10 µ s and a 1.2 µ s clock are available for generating a sequence of eight pulses in the hardware-strobe mode. Figure 4-16 shows the timing for the hardware-strobe mode EXTSTROBE* signal. Figure 4-16. EXTSTROBE* Signal Timin[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-35 AT-MIO/AI E Series User Manual Figure 4-17. TRIG1 Input Signal Timing Figure 4-18. TRIG1 Output Signal Timing The board also uses the TRIG1 signal to initiate pretriggered data acquisition operations. In most pretriggered applications, the TRIG1 signal is generated by a software[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-36 National Instruments Corporation TRIG2 Signal Any PFI pin can externally input the TRIG2 signal, which is available as an output on the PFI1/TRIG2 pin. Refer to Figure 4-13 for the relationship of TRIG2 to the data acquisition sequence. As an input, the TRIG2 signal is configured [...]
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Chapter 4 Signal Connections National Instruments Corporation 4-37 AT-MIO/AI E Series User Manual Figure 4-20. TRIG2 Output Signal Timing STARTSCAN Signal Any PFI pin can externally input the STARTSCAN signal, which is available as an output on the PFI7/STARTSCAN pin. Refer to Figures 4-13 and 4-14 for the relationship of STARTSCAN to the data [...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-38 National Instruments Corporation Figures 4-21 and 4-22 show the input and output timing requirements for the STARTSCAN signal Figure 4-21. STARTSCAN Input Signal Timing Figure 4-22. STARTSCAN Output Signal Timing Rising-edge polarity Falling-edge polarity t w t w = 10 ns minimum t[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-39 AT-MIO/AI E Series User Manual The CONVERT* pulses are masked off until the board generates the STARTSCAN signal. If you are using internally generated conversions, the first CONVERT* will appear when the onboard sample interval counter reaches zero. If you select an external CO[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-40 National Instruments Corporation Figures 4-23 and 4-24 show the input and output timing requirements for the CONVERT* signal. Figure 4-23. CONVERT* Input Signal Timing Figure 4-24. CONVERT* Output Signal Timing The ADC switches to hold mode within 60 ns of the selected edge. This [...]
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Chapter 4 Signal Connections National Instruments Corporation 4-41 AT-MIO/AI E Series User Manual AIGATE Signal Any PFI pin can externally input the AIGATE signal, which is not available as an output on the I/O connector. The AIGATE signal can mask off scans in a data acquisition sequence. You can configure the PFI pin you select as the source [...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-42 National Instruments Corporation Either the 20 MHz or 100 kHz internal timebase generates the SISOURCE signal unless you select some external source. Figure 4-25 shows the timing requirements for the SISOURCE signal. Figure 4-25. SISOURCE Signal Timing Waveform Generation Timing C[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-43 AT-MIO/AI E Series User Manual Figures 4-26 and 4-27 show the input and output timing requirements for the WFTRIG signal. Figure 4-26. WFTRIG Input Signal Timing Figure 4-27. WFTRIG Output Signal Timing UPDATE* Signal Any PFI pin can externally input the UPDATE* signal, which is[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-44 National Instruments Corporation Figures 4-28 and 4-29 show the input and output timing requirements for the UPDATE* signal. Figure 4-28. UPDATE* Input Signal Timing Figure 4-29. UPDATE* Output Signal Timing The DACs are updated within 100 ns of the leading edge. Separate the UPDA[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-45 AT-MIO/AI E Series User Manual UISOURCE Signal Any PFI pin can externally input the UISOURCE signal, which is not available as an output on the I/O connector. The UI counter uses the UISOURCE signal as a clock to time the generation of the UPDATE* signal. You must configure the [...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-46 National Instruments Corporation General-Purpose Timing Signal Connections The general-purpose timing signals are GPCTR0_SOURCE, GPCTR0_GATE, GPCTR0_OUT, GPCTR0_UP_DOWN, GPCTR1_SOURCE, GPCTR1_GATE, GPCTR1_OUT, GPCTR1_UP_DOWN, and FREQ_OUT. GPCTR0_SOURCE Signal Any PFI pin can exte[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-47 AT-MIO/AI E Series User Manual GPCTR0_GATE Signal Any PFI pin can externally input the GPCTR0_GATE signal, which is available as an output on the PFI9/GPCTR0_GATE pin. As an input, the GPCTR0_GATE signal is configured in the edge-detection mode. You can select any PFI pin as the[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-48 National Instruments Corporation Figure 4-33. GPCTR0_OUT Signal Timing GPCTR0_UP_DOWN Signal This signal can be externally input on the DIO6 pin and is not available as an output on the I/O connector. The general-purpose counter 0 will count down when this pin is at a logic low an[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-49 AT-MIO/AI E Series User Manual Figure 4-34 shows the timing requirements for the GPCTR1_SOURCE signal. Figure 4-34. GPCTR1_SOURCE Signal Timing The maximum allowed frequency is 20 MHz, with a minimum pulse width of 23 ns high or low. There is no minimum frequency limitation. The[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-50 National Instruments Corporation Figure 4-35 shows the timing requirements for the GPCTR1_GATE signal. Figure 4-35. GPCTR1_GATE Signal Timing in Edge-Detection Mode GPCTR1_OUT Signal This signal is available only as an output on the GPCTR1_OUT pin. The GPCTR1_OUT signal monitors t[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-51 AT-MIO/AI E Series User Manual GPCTR1_UP_DOWN Signal This signal can be externally input on the DIO7 pin and is not available as an output on the I/O connector. General-purpose counter 1 counts down when this pin is at a logic low and counts up at a logic high. This input can be[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-52 National Instruments Corporation The GATE and OUT signal transitions shown in Figure 4-37 are referenced to the rising edge of the SOURCE signal. This timing diagram assumes that the counters are programmed to count rising edges. The same timing diagram, but with the source signal[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-53 AT-MIO/AI E Series User Manual Timing Specifications for Digital I/O Ports A, B, and C ♦ AT-MIO-16DE-10 only In addition to its function as a digital I/O port, digital port C, PC<0..7>, can also be used for handshaking when performing data transfers with ports A and B. T[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-54 National Instruments Corporation This section lists the timing specifications for handshaking with the AT-MIO-16DE-10 port C circuitry. The handshaking lines STB* and IBF synchronize input transfers. The handshaking lines OBF* and ACK* synchronize output transfers. The following s[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-55 AT-MIO/AI E Series User Manual Mode 1 Input Timing The following are the timing specifications for an input transfer in Mode 1: Figure 4-38. Mode 1 Input Timing Name Description Minimum Maximum T1 STB* Pulse Width 100 – T2 STB* = 0 to IBF = 1 – 150 T3 Data before STB* = 1 20[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-56 National Instruments Corporation Mode 1 Output Timing The following are the timing specifications for an output transfer in Mode 1: Figure 4-39. Mode 1 Output Timing Name Description Minimum Maximum T1 WR* = 0 to INTR = 0 – 250 T2 WR* = 1 to Output – 200 T3 WR* = 1 to OBF* = 0[...]
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Chapter 4 Signal Connections National Instruments Corporation 4-57 AT-MIO/AI E Series User Manual Mode 2 Bidirectional Timing The following are the timing specifications for bidirectional transfers in Mode 2: Figure 4-40. Mode 2 Bidirectional Timing Name Description Minimum Maximum T1 WR* = 1 to OBF* = 0 – 150 T2 Data before STB* = 1 20 – T[...]
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Chapter 4 Signal Connections AT-MIO/AI E Series User Manual 4-58 National Instruments Corporation Field Wiring Considerations Environmental noise can seriously affect the accuracy of measurements made with your AT E Series board if you do not take proper care when running signal wires between signal sources and the board. The following recommen[...]
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National Instruments Corporation 5-1 AT-MIO/AI E Series User Manual Calibration Chapter 5 This chapter discusses the calibration procedures for your AT E Series board. If you are using the NI-DAQ device driver, that software includes calibration functions for performing all of the steps in the calibration process. Calibration refers to the proc[...]
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Chapter 5 Calibration AT-MIO/AI E Series User Manual 5-2 National Instruments Corporation This method of calibration is not very accurate because it does not take into account the fact that the board measurement and output voltage errors can vary with time and temperature. It is better to self-calibrate when the board is installed in the enviro[...]
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Chapter 5 Calibration National Instruments Corporation 5-3 AT-MIO/AI E Series User Manual To externally calibrate your board, be sure to use a very accurate external reference. The reference should be several times more accurate than the board itself. For example, to calibrate a 12-bit board, the external reference should be at least ± 0.005% [...]
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National Instruments Corporation A-1 AT-MIO/AI E Series User Manual Specifications Appendix A This appendix lists the specifications of each board in the AT E Series. These specifications are typical at 25 ° C unless otherwise noted. AT-MIO-16E-1, AT-MIO-16E-2 and AT-MIO-64E-3 Analog Input Input Characteristics Number of channels AT-MIO-16E-1,[...]
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Appendix A Specifications for A T -MIO-16E-1, A T -MIO-16E-2 and A T -MIO-64E-3 AT-MIO/AI E Series User Manual A-2 National Instruments Corporation Input coupling .................................... DC Max working voltage (signal + common mode)................. Each input should remain within ± 11 V of ground Overvoltage protection .........[...]
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Appendix A Specifications for A T -MIO-16E-1, A T -MIO-16E-2 and A T -MIO-64E-3 National Instruments Corporation A-3 AT-MIO/AI E Series User Manual Transfer Characteristics Relative accuracy ............................. ± 0.5 LSB typ dithered, ± 1.5 LSB max undithered DNL .................................................. ± 0.5 LSB typ, ±[...]
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Appendix A Specifications for A T -MIO-16E-1, A T -MIO-16E-2 and A T -MIO-64E-3 AT-MIO/AI E Series User Manual A-4 National Instruments Corporation Dynamic Characteristics Bandwidth ......................... Small signal (-3dB) Large signal (1% THD) AT-MIO-16E-1 1.6 MHz 1 MHz AT-MIO-16E-2, AT-MIO-64E-3 1 MHz 300 kHz Settling time for full-scal[...]
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Appendix A Specifications for A T -MIO-16E-1, A T -MIO-16E-2 and A T -MIO-64E-3 National Instruments Corporation A-5 AT-MIO/AI E Series User Manual Crosstalk ........................................... -80 dB, DC to 100 kHz Stability Recommended warm-up time ............ 15 min Offset temperature coefficient Pregain ...........................[...]
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Appendix A Specifications for A T -MIO-16E-1, A T -MIO-16E-2 and A T -MIO-64E-3 AT-MIO/AI E Series User Manual A-6 National Instruments Corporation Analog Output Output Characteristics Number of channels ........................... 2 voltage Resolution .......................................... 12 bits, 1 in 4,096 Max update rate FIFO mode wav[...]
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Appendix A Specifications for A T -MIO-16E-1, A T -MIO-16E-2 and A T -MIO-64E-3 National Instruments Corporation A-7 AT-MIO/AI E Series User Manual Gain error (relative to external reference)........... +0% to +0.5% of output max, not adjustable Voltage Output Ranges .............................................. ± 10 V, 0 to 10 V, ± EXTREF,[...]
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Appendix A Specifications for A T -MIO-16E-1, A T -MIO-16E-2 and A T -MIO-64E-3 AT-MIO/AI E Series User Manual A-8 National Instruments Corporation Onboard calibration reference Level .......................................... 5.000 V ( ± 2.5 mV) (actual value stored in EEPROM) Temperature coefficient .............. ± 5 ppm/ ° C max Long-te[...]
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Appendix A Specifications for A T -MIO-16E-1, A T -MIO-16E-2 and A T -MIO-64E-3 National Instruments Corporation A-9 AT-MIO/AI E Series User Manual Base clocks available Counter/timers ............................ 20 MHz, 100 kHz Frequency scalers........................ 10 MHz, 100 kHz Base clock accuracy .......................... ± 0.01% M[...]
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Appendix A Specifications for A T -MIO-16E-1, A T -MIO-16E-2 and A T -MIO-64E-3 AT-MIO/AI E Series User Manual A-10 National Instruments Corporation Digital Trigger Compatibility ..................................... TTL Response ............................................ Rising or falling edge Pulse width ...................................[...]
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National Instruments Corporation A-11 AT-MIO/AI E Series User Manual AT-MIO-16E-10 and AT-MIO-16DE-10 Analog Input Input Characteristics Number of channels ........................... 16 single-ended or 8 differential, software selectable Type of ADC .....................................Successive approximation Resolution ......................[...]
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Appendix A Specifications for A T -MIO-16E-10 and A T -MIO-16DE-10 AT-MIO/AI E Series User Manual A-12 National Instruments Corporation Data transfers ..................................... DMA, interrupts, programmed I/O DMA modes ....................................... Single transfer, demand transfer Configuration memory size ...............[...]
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Appendix A Specifications for A T -MIO-16E-10 and A T -MIO-16DE-10 National Instruments Corporation A-13 AT-MIO/AI E Series User Manual Crosstalk ........................................... -80 dB, DC to 100 kHz Stability Recommended warm-up time ............ 15 min Offset temperature coefficient Pregain .......................................[...]
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Appendix A Specifications for A T -MIO-16E-10 and A T -MIO-16DE-10 AT-MIO/AI E Series User Manual A-14 National Instruments Corporation Data transfers ..................................... DMA, interrupts, programmed I/O DMA modes ....................................... Single transfer Transfer Characteristics Relative accuracy (INL) After cal[...]
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Appendix A Specifications for A T -MIO-16E-10 and A T -MIO-16DE-10 National Instruments Corporation A-15 AT-MIO/AI E Series User Manual External reference input Range .......................................... ± 11 V Overvoltage protection ................ ± 35 V powered on, ± 25 V powered off Input impedance.......................... 10 k [...]
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Appendix A Specifications for A T -MIO-16E-10 and A T -MIO-16DE-10 AT-MIO/AI E Series User Manual A-16 National Instruments Corporation Handshaking (AT-MIO-16DE-10 only) ................ 3-wire Digital logic levels ............ Level Min Max Input low voltage 0 V 0.8 V Input high voltage 2 V 5 V Input low current (V in = 0 V) — -320 µ A Inp[...]
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Appendix A Specifications for A T -MIO-16E-10 and A T -MIO-16DE-10 National Instruments Corporation A-17 AT-MIO/AI E Series User Manual Power-on state ................................... Input (High-Z) Data transfers AT-MIO-16E-10 ......................... Programmed I/O AT-MIO-16DE-10 ...................... Interrupts, programmed I/O Timing I[...]
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Appendix A Specifications for A T -MIO-16E-10 and A T -MIO-16DE-10 AT-MIO/AI E Series User Manual A-18 National Instruments Corporation Power Requirement +5 VDC ( ± 5%)................................... 0.7 A Power available at I/O connector ....... +4.65 VDC to +5.25 VDC at 1 A Physical Dimensions (not including connectors) ................[...]
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National Instruments Corporation A-19 AT-MIO/AI E Series User Manual AT-MIO-16XE-10 and AT-AI-16XE-10 Analog Input Input Characteristics Number of channels ...........................16 single-ended or 8 differential (software-selectable) Type of ADC .....................................Successive approximation Resolution ......................[...]
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Appendix A Specifications for A T -MIO-16XE-10 and A T -AI-16XE-10 AT-MIO/AI E Series User Manual A-20 National Instruments Corporation Configuration memory size ................ 512 words Transfer Characteristics Relative accuracy ............................... ± 0.75 LSB typ, ± 1 LSB max DNL ...............................................[...]
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Appendix A Specifications for A T -MIO-16XE-10 and A T -AI-16XE-10 National Instruments Corporation A-21 AT-MIO/AI E Series User Manual Dynamic Characteristics Bandwidth All gains ..................................... 255 kHz Settling time for full-scale step, all gains and ranges To ± 0.5 LSB ............................... 40 µ s typ To ±[...]
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Appendix A Specifications for A T -MIO-16XE-10 and A T -AI-16XE-10 AT-MIO/AI E Series User Manual A-22 National Instruments Corporation Analog Output (AT-MIO-16XE-10 only) Output Characteristics Number of channels ........................... 2 voltage Resolution .......................................... 16 bits, 1 in 65,536 Max update rate ..[...]
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Appendix A Specifications for A T -MIO-16XE-10 and A T -AI-16XE-10 National Instruments Corporation A-23 AT-MIO/AI E Series User Manual Dynamic Characteristics Settling time for full-scale step.......... 10 µ s to ± 1 LSB accuracy Slew rate ........................................... 5 V/ µ s Noise ..........................................[...]
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Appendix A Specifications for A T -MIO-16XE-10 and A T -AI-16XE-10 AT-MIO/AI E Series User Manual A-24 National Instruments Corporation Timing I/O Number of channels ........................... 2 up/down counter/timers, 1 frequency scaler Resolution Counter/timers ............................ 24 bits Frequency scaler ......................... [...]
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Appendix A Specifications for A T -MIO-16XE-10 and A T -AI-16XE-10 National Instruments Corporation A-25 AT-MIO/AI E Series User Manual External input (PFI0/TRIG1) Impedance................................... 10 k Ω Coupling ..................................... DC Protection.................................... -0.5 to Vcc +0.5 V when config[...]
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National Instruments Corporation A-26 AT-MIO/AI E Series User Manual AT-MIO-16XE-50 Analog Input Input Characteristics Number of channels ...........................16 single-ended or 8 differential (software-selectable) Type of ADC .....................................Successive approximation Resolution ........................................[...]
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Appendix A Specifications for A T -MIO-16XE-50 National Instruments Corporation A-27 AT-MIO/AI E Series User Manual Transfer Characteristics Relative accuracy .............................. ± 0.5 LSB typ, ± 1 LSB max DNL .................................................. ± 0.5 LSB typ, ± 1 LSB max No missing codes .........................[...]
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Appendix A Specifications for A T -MIO-16XE-50 AT-MIO/AI E Series User Manual A-28 National Instruments Corporation Settling time for full-scale step .......... 50 µ s max to ± 1 LSB, all gains and ranges System noise (including quantization noise) Gain = 1, 2, 10 ............................ 0.5 LSB rms Gain = 100 ..........................[...]
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Appendix A Specifications for A T -MIO-16XE-50 National Instruments Corporation A-29 AT-MIO/AI E Series User Manual Offset error After calibration .......................... ± 0.5 mV max Before calibration ....................... ± 85 mV max Gain error (relative to calibration reference) After calibration .......................... ± 0.01% [...]
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Appendix A Specifications for A T -MIO-16XE-50 AT-MIO/AI E Series User Manual A-30 National Instruments Corporation Digital I/O Number of channels ........................... 8 input/output Compatibility ..................................... TTL/CMOS Power-on state ................................... Input (High-Z) Data transfers .............[...]
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Appendix A Specifications for A T -MIO-16XE-50 National Instruments Corporation A-31 AT-MIO/AI E Series User Manual Min gate pulse duration .................... 10 ns, edge-detect mode Data transfers .................................... DMA, interrupts, programmed I/O DMA modes ...................................... Single transfer Triggers Di[...]
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National Instruments Corporation B-1 AT-MIO/AI E Series User Manual Optional Cable Connector Descriptions Appendix B This appendix describes the connectors on the optional cables for the AT E Series boards. Figure B-1 shows the pin assignments for the 68-pin MIO connector. This connector is available when you use the SH6868 or R6868 cable assem[...]
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Appendix B Optional Cable Connector Descriptions AT-MIO/AI E Series User Manual B-2 National Instruments Corporation Figure B-1. 68-Pin MIO Connector Pin Assignments 2 1 1 1 2 Not available on AT-AI-16XE-10 Not available on AT-MIO-16XE-10, AT-AI-16XE-10, or AT-MIO-16XE-50 FREQ_OUT GPCTR0_OUT PFI9/GPCTR0_GATE DGND PFI6/WFTRIG PFI5/UPDATE* DGND +[...]
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Appendix B Optional Cable Connector Descriptions National Instruments Corporation B-3 AT-MIO/AI E Series User Manual Figure B-2 shows the pin assignments for the 68-pin DIO connector. This is the other 68-pin connector available when you use the SH1006868 cable assembly with the AT-MIO-16DE-10. Figure B-2. 68-Pin DIO Connector Pin Assignments N[...]
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Appendix B Optional Cable Connector Descriptions AT-MIO/AI E Series User Manual B-4 National Instruments Corporation Figure B-3 shows the pin assignments for the 68-pin extended analog input connector. This is the other 68-pin connector available when you use the SH1006868 cable assembly with the AT-MIO-64E-3. Figure B-3. 68-Pin Extended Analog[...]
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Appendix B Optional Cable Connector Descriptions National Instruments Corporation B-5 AT-MIO/AI E Series User Manual Figure B-4 shows the pin assignments for the 50-pin MIO connector. This connector is available when you use the SH6850 or R6850 cable assemblies with the AT-MIO-16E-1, AT-MIO-16E-2, AT-MIO-16E-10, AT-MIO-16XE-10, AT-AI-16XE-10, o[...]
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Appendix B Optional Cable Connector Descriptions AT-MIO/AI E Series User Manual B-6 National Instruments Corporation Figure B-5 shows the pin assignments for the 50-pin DIO connector. This is the other 50-pin connector available when you use the R1005050 cable assembly with the AT-MIO-16DE-10. Figure B-5. 50-Pin DIO Connector Pin Assignments +5[...]
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Appendix B Optional Cable Connector Descriptions National Instruments Corporation B-7 AT-MIO/AI E Series User Manual Figure B-6 shows the pin assignments for the 50-pin extended analog input connector. This is the other 50-pin connector available when you use the R1005050 cable assembly with the AT-MIO-64E-3 . Figure B-6. 50-Pin Extended Analog[...]
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National Instruments Corporation C-1 AT-MIO/AI E Series User Manual Common Questions Appendix C This appendix contains a list of commonly asked questions and their answers relating to usage and special features of your AT E Series board. General Information 1. What are the AT E Series boards? The AT E Series boards are switchless and jumperless[...]
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Appendix C Common Questions AT-MIO/AI E Series User Manual C-2 National Instruments Corporation that some AT E Series boards have settling times that vary with gain and accuracy. See Appendix A for exact specifications. 4. What type of 5 V protection do the AT E Series boards have? The AT E Series boards have 5 V lines equipped with a self-rese[...]
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Appendix C Common Questions National Instruments Corporation C-3 AT-MIO/AI E Series User Manual 10. What special calls must be made in DOS or LabWindows to use AT E Series boards? To link in the AT E Series function calls, you must call USE_E_Series or one of its subsets. 11. What is the best way to test my board without having to program the b[...]
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Appendix C Common Questions AT-MIO/AI E Series User Manual C-4 National Instruments Corporation 15. Can I sample across a number of channels on an AT E Series board while each channel is being sampled at a different rate? NI-DAQ for PC compatibles version 4.5.1 or later features a new function called SCAN_Sequence_Setup , which allows for multi[...]
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Appendix C Common Questions National Instruments Corporation C-5 AT-MIO/AI E Series User Manual b. Set up data acquisition timing so that the timing signal for A/D conversion comes from PFI5, as follows: • If you are using NI-DAQ, call Select_Signal(deviceNumber, ND_IN_CONVERT, ND_PFI_5, ND_HIGH_TO_LOW) . • If you are using LabVIEW, invoke [...]
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Appendix C Common Questions AT-MIO/AI E Series User Manual C-6 National Instruments Corporation 20. What is the difference in timebases between the Am9513 counter/timer and the DAQ-STC? The DAQ-STC-based MIO boards have a 20 MHz timebase. The Am9513-based MIO boards have a 1 MHz or 5 MHz timebase. 21. The counter/timer examples supplied with NI[...]
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Appendix C Common Questions National Instruments Corporation C-7 AT-MIO/AI E Series User Manual errors. NI-DAQ takes a snapshot of transfers and counts how many points have been transferred. If all the points have been transferred and the first instance of this error occurs, NI-DAQ returns a gpctrDataTransferWarning indicating that the error co[...]
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Appendix C Common Questions AT-MIO/AI E Series User Manual C-8 National Instruments Corporation a 50 k Ω pull-up resistor. This pull-up resistor will set the DIO(0) pin to a logic high when the output is in a high impedance state.[...]
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National Instruments Corporation D-1 AT-MIO/AI E Series User Manual Customer Communication Appendix D For your convenience, this appendix contains forms to help you gather the information necessary to help us solve your technical problems and a form you can use to comment on the product documentation. When you contact us, we need the informatio[...]
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FaxBack is a 24-hour information retrieval system containing a library of documents on a wide range of technical information. You can access FaxBack from a touch-tone telephone at (512) 418-1111. You can submit technical support questions to the appropriate applications engineering team through e-mail at the Internet addresses listed below. Remembe[...]
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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 m[...]
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AT E Series Hardware and Software 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 be[...]
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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: AT-MIO/AI E Series User Manual Edition Date: May 1996 Part Number: 320517E-01 Please comment on the completeness, clarity, and organization of the ma[...]
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National Instruments Corporation G-1 AT-MIO/AI E Series User Manual Symbols % percent ± plus or minus ˚ degrees / per + positive of, or plus – negative of, or minus Ω ohms square root of +5V +5 VDC source signal Prefix Meaning Value p- pico- 10 - 12 n- nano- 10 - 9 µ - micro- 10 - 6 m- milli- 10 - 3 k- kilo- 10 3 M- mega- 10 6 G- giga- 1[...]
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Glossary AT-MIO/AI E Series User Manual G-2 National Instruments Corporation A A amperes AC alternating current ACH analog input channel signal A/D analog-to-digital ADC A/D converter AIGATE analog input gate signal AIGND analog input ground signal AISENSE analog input sense signal AISENSE2 analog input sense 2 signal ANSI American National Sta[...]
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Glossary National Instruments Corporation G-3 AT-MIO/AI E Series User Manual D D/A digital-to-analog DAC D/A converter DAC0OUT analog channel 0 output signal DAC1OUT analog channel 1 output signal DAQ data acquisition DC direct current DGND digital ground signal DIFF differential mode DIO digital input/output DMA direct memory access DNL differ[...]
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Glossary AT-MIO/AI E Series User Manual G-4 National Instruments Corporation G GPCTR0_GATE general purpose counter 0 gate signal GPCTR1_GATE general purpose counter 1 gate signal GPCTR0_OUT general purpose counter 0 output signal GPCTR1_OUT general purpose counter 1 output signal GPCTR0_SOURCE general purpose counter 0 clock source signal GPCTR[...]
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Glossary National Instruments Corporation G-5 AT-MIO/AI E Series User Manual MSB most significant bit N NRSE nonreferenced single-ended mode O OUT output P PC personal computer PFI Programmable Function Input PGIA Programmable Gain Instrumentation Amplifier ppm parts per million R rms root mean square RSE referenced single-ended mode RTD resist[...]
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Glossary AT-MIO/AI E Series User Manual G-6 National Instruments Corporation STARTSCAN start scan signal T TC terminal count THD total harmonic distortion TRIG trigger signal TTL transistor-transistor logic U UI update interval UISOURCE update interval counter clock signal UPDATE update signal V V volts VDC volts direct current V IH volts, inpu[...]
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National Instruments Corporation I -1 AT-MIO/AI E Series User Manual Index Symbols +5 V signal description, 4-6 power connections, 4-30 A ACH<0..15> signal analog input connections, 4-16 AT-MIO-16E-10 and AT-MIO-16DE-10 (table), 4-10 AT-MIO-16XE-10 and AT-AI-16XE-10 (table), 4-12 AT-MIO-16XE-50 (table), 4-14 description (table), 4-5 ACH&l[...]
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Index AT-MIO/AI E Series User Manual I -2 National Instruments Corporation analog input specifications AT-MIO-16E-1, AT-MIO-16E-2 and AT-MIO-64E-3, A-1 to A-5 amplifier characteristics, A-3 dynamic characteristics, A-4 to A-5 input characteristics, A-1 to A-2 stability, A-5 transfer characteristics, A-3 AT-MIO-16E-10 and AT-MIO-16DE-10 amplifie[...]
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Index National Instruments Corporation I -3 AT-MIO/AI E Series User Manual software programming choices LabVIEW and LabWindows/CVI, 1-3 NI-DAQ driver software, 1-3 to 1-5 register-level programming, 1-5 unpacking, 1-7 B base I/O address selection, 2-3 bipolar input AT-MIO-16E-1, AT-MIO-16E-2, AT-MIO-64E-3, AT-MIO-16E-10, and AT-MIO-16DE-10, 3-7[...]
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Index AT-MIO/AI E Series User Manual I -4 National Instruments Corporation DAC1OUT signal analog output connections, 4-27 to 4-28 AT-MIO-16E-1, AT-MIO-16E-2 and AT-MIO-64E-3 (table), 4-8 AT-MIO-16E-10 and AT-MIO-16DE-10 (table), 4-10 AT-MIO-16XE-10 and AT-AI-16XE-10 (table), 4-12 AT-MIO-16XE-50 (table), 4-14 description (table), 4-5 DAQ-STC, C-[...]
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Index National Instruments Corporation I -5 AT-MIO/AI E Series User Manual dither enabling, 3-11 to 3-12 DMA channels configuring, 2-3 to 2-4 PC AT 16-bit DMA channel assignment map (table), 2-7 documentation about the manual, xi conventions used in manual, xii to xiii National Instruments documentation, xiii to xiv organization of manual, xi t[...]
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Index AT-MIO/AI E Series User Manual I -6 National Instruments Corporation frequently asked questions. See questions about AT E series boards. FTP support, D-1 fuse, 4-6 G general-purpose timing signal connections, 4-46 to 4-57 FREQ_OUT signal, 4-52 GPCTR0_GATE signal, 4-47 GPCTR0_OUT signal, 4-47 to 4-48 GPCTR0_SOURCE signal, 4-46 GPCTR0_UP_DO[...]
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Index National Instruments Corporation I -7 AT-MIO/AI E Series User Manual I I/O connectors, 4-1 to 4-15 exceeding maximum ratings (warning), 4-1, 4-16, 4-29 I/O signal summary (table) AT-MIO-16E-1, AT-MIO-16E-2, and AT-MIO-64E-3, 4-8 to 4-9 AT-MIO-16E-10 and AT-MIO-16DE-10, 4-10 to 4-11 AT-MIO-16XE-10 and AT-AI-16XE-10, 4-12 to 4-13 AT-MIO-16X[...]
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Index AT-MIO/AI E Series User Manual I -8 National Instruments Corporation N NI-DAQ driver software, 1-3 to 1-5 noise, avoiding, 4-58 NRSE (nonreferenced single-ended input) description (table), 3-7 differential connections, 4-22 to 4-23 single-ended connections (NRSE configuration), 4-25 O OBF* signal (table), 4-54 operation of AT E series boa[...]
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Index National Instruments Corporation I -9 AT-MIO/AI E Series User Manual AT-MIO-16XE-50 (table), 4-15 description (table), 4-7 PFI6/WFTRIG signal AT-MIO-16E-1, AT-MIO-16E-2 and AT-MIO-64E-3 (table), 4-9 AT-MIO-16E-10 and AT-MIO-16DE-10 (table), 4-11 AT-MIO-16XE-10 and AT-AI-16XE-10 (table), 4-13 AT-MIO-16XE-50 (table), 4-15 description (table[...]
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Index AT-MIO/AI E Series User Manual I -10 National Instruments Corporation Q questions about AT E series boards, C-1 to C-8 analog input and analog output, C-3 to C-5 general information, C-1 to C-2 installation and configuration, C-2 to C-3 timing and digital I/O, C-5 to C-8 R RD* signal (table), 4-54 reference selection, analog output, 3-14 [...]
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Index National Instruments Corporation I -11 AT-MIO/AI E Series User Manual CONVERT* signal, 4-39 to 4-40 EXTSTROBE* signal, 4-33 to 4-34 SCANCLK signal, 4-33 SISOURCE signal, 4-41 to 4-42 STARTSCAN signal, 4-37 to 4-39 TRIG1 signal, 4-34 to 4-35 TRIG2 signal, 4-36 general-purpose timing signal connections, 4-46 to 4-57 FREQ_OUT signal, 4-52 GP[...]
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Index AT-MIO/AI E Series User Manual I -12 National Instruments Corporation output characteristics, A-13 to A-14 stability, A-15 transfer characteristics, A-14 voltage output, A-14 to A-15 bus interface, A-17 digital I/O, A-15 to A-17 environment, A-18 physical, A-18 power requirements, A-18 timing I/O, A-17 triggers digital trigger, A-17 RTSI,[...]
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Index National Instruments Corporation I -13 AT-MIO/AI E Series User Manual T technical support, D-1 to D-2 theory of operation. See hardware overview. ACH<0..63> signal description (table), 4-5 timebases, board and RTSI clocks, 3-21 timing connections, 4-30 to 4-57 common questions about, C-5 to C-8 data acquisition timing connections, 4[...]
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Index AT-MIO/AI E Series User Manual I -14 National Instruments Corporation AT-MIO-16E-10 and AT-MIO-16DE-10 digital trigger, A-17 RTSI, A-17 AT-MIO-16XE-10 and AT-AI-16XE-10 analog trigger, A-24 to A-25 digital trigger, A-25 RTSI, A-25 AT-MIO-16XE-50 digital trigger, A-31 RTSI, A-31 troubleshooting. See questions about AT E series boards. U UI[...]