National Instruments NI 5102 manuel d'utilisation
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Un bon manuel d’utilisation
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Qu'est ce que le manuel d’utilisation?
Le mot vient du latin "Instructio", à savoir organiser. Ainsi, le manuel d’utilisation National Instruments NI 5102 décrit les étapes de la procédure. Le but du manuel d’utilisation est d’instruire, de faciliter le démarrage, l'utilisation de l'équipement ou l'exécution des actions spécifiques. Le manuel d’utilisation est une collection d'informations sur l'objet/service, une indice.
Malheureusement, peu d'utilisateurs prennent le temps de lire le manuel d’utilisation, et un bon manuel permet non seulement d’apprendre à connaître un certain nombre de fonctionnalités supplémentaires du dispositif acheté, mais aussi éviter la majorité des défaillances.
Donc, ce qui devrait contenir le manuel parfait?
Tout d'abord, le manuel d’utilisation National Instruments NI 5102 devrait contenir:
- informations sur les caractéristiques techniques du dispositif National Instruments NI 5102
- nom du fabricant et année de fabrication National Instruments NI 5102
- instructions d'utilisation, de réglage et d’entretien de l'équipement National Instruments NI 5102
- signes de sécurité et attestations confirmant la conformité avec les normes pertinentes
Pourquoi nous ne lisons pas les manuels d’utilisation?
Habituellement, cela est dû au manque de temps et de certitude quant à la fonctionnalité spécifique de l'équipement acheté. Malheureusement, la connexion et le démarrage National Instruments NI 5102 ne suffisent pas. Le manuel d’utilisation contient un certain nombre de lignes directrices concernant les fonctionnalités spécifiques, la sécurité, les méthodes d'entretien (même les moyens qui doivent être utilisés), les défauts possibles National Instruments NI 5102 et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service National Instruments en l'absence de l'efficacité des solutions proposées. Actuellement, les manuels d’utilisation sous la forme d'animations intéressantes et de vidéos pédagogiques qui sont meilleurs que la brochure, sont très populaires. Ce type de manuel permet à l'utilisateur de voir toute la vidéo d'instruction sans sauter les spécifications et les descriptions techniques compliquées National Instruments NI 5102, comme c’est le cas pour la version papier.
Pourquoi lire le manuel d’utilisation?
Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif National Instruments NI 5102, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.
Après un achat réussi de l’équipement/dispositif, prenez un moment pour vous familiariser avec toutes les parties du manuel d'utilisation National Instruments NI 5102. À l'heure actuelle, ils sont soigneusement préparés et traduits pour qu'ils soient non seulement compréhensibles pour les utilisateurs, mais pour qu’ils remplissent leur fonction de base de l'information et d’aide.
Table des matières du manuel d’utilisation
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Computer-Based Instruments NI 5102 User Manual High-Speed Digitizer NI 5102 User Manual June 2001 Edition Part Number 321390D-01[...]
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Support Worldwide Technical Support and Product Information ni.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 (Montreal) 514 [...]
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Important Information Warranty The NI 51 02 is warranted against defects in materials and workmans hip for a period of one year from the date of shipment , as evidenced by receipts or other documenta tion. National Instruments will, at its option, r epair or replace equipment that proves to be defective during the warranty period. This warranty inc[...]
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Compliance FCC/Canada Radio Frequency Interference Compliance* Determining FCC Class The Federal Communications Commission (FCC) has rules to protect wireless communications from interference. The FCC places digital electronics into two classes. These classes are known as Class A (for use in industrial-commercial loc ations only) or Class B (for us[...]
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Canadian Depart ment of Communications This Class B digital apparatus meets all requirements of the Canadian I nterference-Causing Equipment Regulations. Cet appareil num é rique de la classe B respecte toutes les exigences du R è gleme nt sur le mat é riel brouilleur du Canada. Compliance to EU Directives Readers in the European Union (EU) must[...]
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© National Instruments Corporatio n vii NI 5102 User Manual Contents About This Manual Conventions Used in This Manual ................. ................. ................. ................. ............. ix Related Documentation ............... .............. ................. ................. ................. ................ .. x Chapter 1 In[...]
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Contents NI 5102 User Manu al viii ni.com Chapter 4 Hardware Overview I/O Connector ............. .............. ................. ................. ................. ................. .............. ... 4-2 Signal Connections ................ .............. ................. ................. ................. ................. ...... 4-5 Serial C[...]
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© National Instruments Corporation ix NI 5102 User Manual About This Manual T h eN I5 1 0 2i sa na n a l o gi n p u td e v i c ea v a i l a b l ei nP C I ,P X I ,I S A , PCMCIA, and USB form factors. This manual descri bes the installation and operation of these digitizers. Conventions Used in This Manual The follo wing con ventions are used in th[...]
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About This Man ual NI 5102 User Manual x ni.com NI 5102 NI 5102 is a generic term t hat denotes one or more of t he NI 5102 (PCI), NI 5102 (PXI), NI 5102 (ISA), NI 5102 (PCMCIA), and NI 51 02 (USB) de vices. NI 5102 (ISA) Refers to the NI 5102 for ISA bus. NI 5102 (PCI) Refers to the NI 5102 for PC I b us. NI 5102 (PCMCIA) Refers to the NI 5102 for[...]
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© National Instruments Corporatio n 1-1 NI 5102 User Manual 1 Introduction This chapter describes the National Instruments (NI) 5102 and lists additional equipment. About Y our NI 5102 Thank you for your purchase of an NI 5102. The NI 5102 family consist s of five different devices tailored to your choice of bus: the PCI, th e PXI, the ISA, the PC[...]
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Chapter 1 Introduction NI 5102 User Manual 1-2 ni.com T o improv e timing resolutio n for repetitiv e sign als, you can use random interleaved sampling (RIS) on your NI 51 02. This method of samplin g allo ws you to view pretrigger data and achiev e an effecti ve sampling rate as high as 1 GS/s, 50 times the real-time sampling rate of the de vice. [...]
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Chapter 1 Introduction © National Instruments Corporatio n 1-3 NI 5102 User Manual Figure 1-1. The Relationship Between the Programming Environment, NI-DAQ, and Y our Hardware Interactively Controlling your NI 5102 with the Scope Soft Front Panel The Scope Soft Front Panel allows you to interactively cont rol your NI 5102 as you would a desktop os[...]
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Chapter 1 Introduction NI 5102 User Manual 1-4 ni.com NI-SCOPE Driver The NI-SCOPE driver is the preferred choice to program you r NI 5102. It provides flexibilit y and programmabili ty in a standard full-featu red instrument-driver format which lets you avoi d low-level software calls and which works with LabVIEW, LabWind ows/CVI, and conventional[...]
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Chapter 1 Introduction © National Instruments Corporatio n 1-5 NI 5102 User Manual Note NI 5102 digitizers use only th e easy I/O interface under data acquisition in LabW indows/CVI. The easy I/O interface provides limited functionality in CVI. T o use the NI 5102 to its full capabil ities, use the NI-SCOPE driv er as shown in Figure 1-1. Measurem[...]
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Chapter 1 Introduction NI 5102 User Manual 1-6 ni.com PXI-specific features, R TSI bus trigger , R TSI Clock, and Serial Communication are implemented on the J2 connector of the CompactPCI bus. T able 1-1 lists the J2 pins used by your NI 5102 (PXI) digitizer , which is compatible with any CompactPCI chassis with a sub-bus that does not dri ve thes[...]
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© National Instruments Corporatio n 2-1 NI 5102 User Manual 2 Installation and Configuration This chapter describes how to unpack, in stall, and configure your NI 5102. What Y ou Need to Get Started To set up and use your NI 5102, you will need the fo llowing: ❑ One of the following NI 5 1 0 2 devices: – NI 5102 (PCI) – NI 5102 (PXI) – NI [...]
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Chapter 2 Installation and Configuration NI 5102 User Manual 2-2 ni.com – NI 5102 (USB) NI 5102 (USB) power supply ❑ V inyl pouch for storing cables and accessories for the NI 5102 (PCMCIA) only Unpacking ♦ NI 5102 (PCI, PXI, ISA) Y our device is shipped in an antistatic package to prev ent electrost atic damage to the device. Electrostatic d[...]
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Chapter 2 Installation and Configuration © National Instruments Corporatio n 2-3 NI 5102 User Manual Installing the NI 5102 There are two main steps invol ved in installation: 1. Install the NI-S COPE driv er sof tware. Y ou use this driver to write programs to control your NI 5102 in different application de velopment en vironm ents (ADEs). Insta[...]
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Chapter 2 Installation and Configuration NI 5102 User Manual 2-4 ni.com Hardware Configuration The NI 5102 is a fully software-configurable, Plug and Play device. Hardware confi guration infor mation and resource requi rements are stored in nonvolatile memory. Th e Plug and Play services query the device, read the information, and arbitr ate resour[...]
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© National Instruments Corporatio n 3-1 NI 5102 User Manual 3 Digitizer Basics This chapter explains basic inform ation about using digitizers, i ncluding important terminology and use of the probe. Understanding Digitizers To understand how digitizers work, yo u should be familiar with the Nyquist theorem and how it affects analog bandwidth and s[...]
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Chapter 3 Digitizer Basics NI 5102 User Manual 3-2 ni.com Analog Bandwidth Analog bandwidth describes the frequency range (in hertz) in which a signal can be digitized accurately. This limitation is determined by the inherent frequency response of the input p ath — from the tip of t he probe to the input o f the ADC — which causes l oss of ampl[...]
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Chapter 3 Digitizer Basics © National Instruments Corporatio n 3-3 NI 5102 User Manual Sample Rate Sample rate is the rate at which a signal is sampled and digitized by an ADC. According to the Nyquist theorem, a higher sample r ate produces accurate measurement of higher frequency signals if the analog bandwidth is wide enough to let the signal t[...]
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Chapter 3 Digitizer Basics NI 5102 User Manual 3-4 ni.com V ertical Sensitivity Vertical sensitivity describes th e smallest input voltage chan ge the digitizer can capture. This limitation is because one distinct digital voltage encompasses a range of analog voltages. Therefore, it is possible that a minute change in voltage at the input is not no[...]
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Chapter 3 Digitizer Basics © National Instruments Corporatio n 3-5 NI 5102 User Manual rate of 20 MHz, the duration of acquisitio n is 5 ms (100,000 × 50 ns). The NI 5102 has a buf fer size of 663,000 sam ples. When performi ng a single-channel acquisition, you can use the entire available memory to capture data for a duration of 33.1 ms at 20 M [...]
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Chapter 3 Digitizer Basics NI 5102 User Manual 3-6 ni.com Figure 3-5. Dynamic Range of an 8-Bit ADC with Three Different Gain Settings • Source impedance — Many digitizers an d most digital stor age oscilloscopes (DSOs) hav e a 1 M Ω i nput resistance in the passb and with an X1 probe and a 10 M Ω input resistance with an X10 p robe. If the[...]
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Chapter 3 Digitizer Basics © National Instruments Corporatio n 3-7 NI 5102 User Manual buf fering. See the Understanding the Probe and Its Effects on Your Waveform section later in this chapter for more information. In addition to the input resistance, all digitizers, DSOs, and probes present some input capacitance in parallel with the res istance[...]
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Chapter 3 Digitizer Basics NI 5102 User Manual 3-8 ni.com Understanding the Probe and Its Effects on Y our W aveform Signals travel from the tip of the probe to the input amplifier and are then digitized by the ADC. This signal path makes the probe an important electrical system component that can severely affect the accuracy of the measurement. A [...]
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Chapter 3 Digitizer Basics © National Instruments Corporatio n 3-9 NI 5102 User Manual Analytically , obtaining a flat frequency response means: R in /(R in +R p )=C p / ( C p +C in +C c ) It can be shown t hat: R in (C in +C c )=C p R p or the time constant of the probe equals the time constant of the digitizer input. How to Compensate Y our Prob[...]
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Chapter 3 Digitizer Basics NI 5102 User Manu al 3-10 ni.com Figure 3-7. Connecting the Probe Compensation Cabling As shown in Figure 3-8, an undercompensated probe attenuates higher frequency signals , whereas an ov ercompensated probe amplifies higher frequencies. Calibrate your probe frequently to ensure accurate measurements from yo ur NI 5102. [...]
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Chapter 3 Digitizer Basics © National Instruments Corporation 3-11 NI 5102 User Manual Figure 3-8. Probe Compensation Comparison Active and Current Probes You can also use active probes and current probes with digitizers and DSOs. Acti ve probes, such as differential and f ield-effect transistor (FET) probes, contain acti ve circuitry in the probe[...]
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© National Instruments Corporatio n 4-1 NI 5102 User Manual 4 Hardware Over view This chapter includes an overview of t he NI 5102, explains the operatio n of each functional unit making up your NI 5102, and describes the signal connections. Figure 4-1 shows a block diagram of th e NI 5102 (PCI, PXI, ISA). Figure 4-1. NI 5102 (PCI, PXI, ISA) Block[...]
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Chapter 4 Hardware Over view NI 5102 User Manual 4-2 ni.com Figure 4-2 shows a block diagram of th e NI 5102 (PCMCIA, USB). Figure 4-2. NI 5102 (PCMCIA, USB) Block D iagram I/O Connector ♦ NI 5102 (PCI, ISA, PCMCIA, USB) These NI 5102 devices hav e two standard BN C female connectors for CH0 and CH1 analog input conn ections, one standard BNC fem[...]
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Chapter 4 Hardware Over view © National Instruments Corporatio n 4-3 NI 5102 User Manual The NI 5102 (PCI, ISA) gi ves you direct BNC connecti vi ty on the brack et, as shown in Figure 4-3. Figure 4-3. NI 5102 (PCI, ISA) I/O Connectors Use the cable assembly provided for these connections on the NI 5102 (PCMCIA), as sho wn in Figure 4-4. Figure 4-[...]
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Chapter 4 Hardware Over view NI 5102 User Manual 4-4 ni.com The NI 5102 (USB) gi ves you d irect BNC connecti vity , as sho wn in Figure 4-5. Figure 4-5. NI 5102 (USB) I/O Connectors ♦ NI 5102 (PXI) The NI 5102 (PXI) has two standard BNC female connectors for CH0 and CH1 analog input connections, one standard BNC female connecto r for the TRIG ch[...]
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Chapter 4 Hardware Over view © National Instruments Corporatio n 4-5 NI 5102 User Manual Figure 4-6. NI 5102 (PXI) I/O Connectors Signal Connections You can use CH0 and CH1 to digitize data as well as to trigger an acquisition. Use the TRIG channel for an external analog trigger only; data on the TRIG channel cannot be digitized. PFI1 and PFI2 are[...]
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Chapter 4 Hardware Over view NI 5102 User Manual 4-6 ni.com Serial Communications Port (AUX) ♦ NI 5102 (PXI) The serial communication port, A UX, provides +5V and GND for applications that may require up to 100 mA of current operation an d PF12 for triggering. PFI2 has the same functionality as described above, b ut it is ov erloaded on TRIG0 (SC[...]
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Chapter 4 Hardware Over view © National Instruments Corporatio n 4-7 NI 5102 User Manual The CH0, CH1, and TRIG channels ha ve a softw are-programmable coupling selection between A C and DC. Use AC coupling when your A C signal con tains a large DC component. W ithout A C coupling, it is dif ficult to vie w details of the AC component with a large[...]
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Chapter 4 Hardware Over view NI 5102 User Manual 4-8 ni.com ADC Pipeline Delay The ADC on th e NI 5102 is a pipelined flash converter wit h a maximum conversion rate of 20 MS/s. The pipeli ned architecture imposes a 2.5 Scan Clock cycle delay to convert analog vo ltage into a digital value, as shown in Figure 4-7. Figur e 4-7. Sc an Clock Delay In [...]
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Chapter 4 Hardware Over view © National Instruments Corporatio n 4-9 NI 5102 User Manual Note If Scan Clock is externally supplied, you must supply a free-running clock for proper operation. On the NI 5102 (ISA, PCMCIA, USB), data tran sfer takes place after an acquisition ends, limiting the scan count to the si ze of the onboard memory . On the N[...]
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Chapter 4 Hardware Over view NI 5102 User Manu al 4-10 ni.com T able 4-5 describes the posttrigger acquisitio n signals. Table 4-5. Posttrigger Acquisition Signals Signal Description Start T rigger T riggers the acquisit ion. It can be generated through software, or CH0, CH1, TRIG, PFI1, and PF I2, or any of the se ven R TSI bus t rigger lines. R T[...]
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Chapter 4 Hardware Over view © National Instruments Corporation 4-11 NI 5102 User Manual Pretrigger Acquisition In pretrigger acquisition mod e, the device acquires a certain number of scans, called the pretrigger scan count, before the trigger occurs. After satisfying the pretrigger scan count requirement, hardware keeps acquiring data and stores[...]
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Chapter 4 Hardware Over view NI 5102 User Manu al 4-12 ni.com Figure 4-9 shows the relev ant tim ing signals for a t ypical pretriggered acquisition. The illustratio n represents fi ve pretrigger and fi ve posttrigger scans, and abov e-high-lev el an alog triggering is used. See the Analog Trigger Circuit section later in th is chapter for more in [...]
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Chapter 4 Hardware Over view © National Instruments Corporation 4-13 NI 5102 User Manual T able 4-7 describes the pretrigger acquisitio n signals. Table 4-7. Pretrigger Acquisition Signals Signal Description Start T rigger Starts data acquisit ion. In pretrigger mo de, the Start Trigger signal enables the storage of pretrigger data. Start Trigger [...]
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Chapter 4 Hardware Over view NI 5102 User Manu al 4-14 ni.com T rigger Sources The Scan Clock, Start Trigger, and Stop Trigger signals can b e generated through software or supplie d externally as digital triggers or as analog triggers on one of the input channels or the TRIG channel. Figure 4-10 shows the different trigger sources. In addition, Sc[...]
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Chapter 4 Hardware Over view © National Instruments Corporation 4-15 NI 5102 User Manual Analog T rigger Circuit The NI 5102 contains a sophisticated analog trigger circuit that accepts boolean outputs from level comparators and makes intellig ent decisions about the trigger. Several triggering modes are available, including edge, window, and hyst[...]
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Chapter 4 Hardware Over view NI 5102 User Manu al 4-16 ni.com Figure 4-11. Pretrigger and Posttrigger Acquisitions with Hold-off Note When you use trigger hold-off, you cannot calibrate your probe or g enerate an asynchronous frequency at the same time. The counter that is used to implemen t trigger hold-off also generates the probe calibration sig[...]
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Chapter 4 Hardware Over view © National Instruments Corporation 4-17 NI 5102 User Manual Random Interleaved Sampling The NI 5102 supports Random Interleaved Sampling ( RIS), a form of Equivalent Time Sampling (ETS ) which allows multiplicatio n of the maximum real-time sampling rate. The maximum interpolation factor on the NI 5102 is 50, resu ltin[...]
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Chapter 4 Hardware Over view NI 5102 User Manu al 4-18 ni.com your NI 5102 and afterward s whenev er operating en vironm ent conditions change. Externally recalibrate the NI 510 2 when its interval has e xpired. This requires connecting a precision reference to your de vice, and is normally performed at NI or a metrology lab . See App endix A, Spec[...]
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Chapter 4 Hardware Over view © National Instruments Corporation 4-19 NI 5102 User Manual Figure 4-12. R TSI Bus T rigger Lines The R TSI bus clock line is a special clock line on the R TSI bus that can only carry the timebase of the master to the slav es. For the smallest jitter between measurements on dif ferent de vices, you should conf igure th[...]
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Chapter 4 Hardware Over view NI 5102 User Manu al 4-20 ni.com PFI Lines All NI 5102 digitizers have two multipurpose programmable function digital input/output lines, PFI1 and PFI2, that yo u can use for external timing and triggering or output ting various signals. You can in dividually select the direction of these lines to be inp ut or output. P[...]
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Chapter 4 Hardware Over view © National Instruments Corporation 4-21 NI 5102 User Manual • Analog T rigger Circuit Ou tput — This signal is the digital o utput of the Analog T rigger Circuit on the NI 5102. Th e frequency and duty cycle of this signal depends o n the trigger cha nnel, the trig ger le vels, polarity , and tri ggering mode. For [...]
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Chapter 4 Hardware Over view NI 5102 User Manu al 4-22 ni.com Master/Slave Operation You can use two or more NI 5102 digitizers in one system to increase the number of channels for your app lication by synchronizing devi ces over the RTSI bus or PFI lines. Use the R T SI bus for synchronizing two or more NI 5102 (PCI, PXI, ISA) de vices. For the NI[...]
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Chapter 4 Hardware Over view © National Instruments Corporation 4-23 NI 5102 User Manual 3. Program the master d e vice to output it s internal timebase on the R TSI b us clock line. 4. Program the master device to output its Scan Clock and Stop T rigger on unused R TSI bus trigger lines. 5. Program the slav e device to use R TSI bus clock as its [...]
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© National Instruments Corporatio n A- 1 NI 5102 User Manual A Specifications This appendix lists the sp ecifications of the NI 5102. These specifications are typical at 25 ° C unless otherwise stated. The operating temperatu re range is 0 to 50 ° C. Input Characteristics Number of input channels ...................... 2 single-ended, simultaneo[...]
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Appendix A Specifications NI 5102 User Manual A-2 ni.com Input signal ranges (CH0, CH1) (without probe attenuation) ................ ....±5 V at gain of 1 ±1 V at gain of 5 ±0.25 V at gain of 20 ± 5 0m Va tg a i no f1 0 0 Input coupling ............... ................. .........AC or DC, software-selectable Overvoltage protection ............ [...]
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Appendix A Specifications © National Instruments Corporatio n A- 3 NI 5102 User Manual T ransfer Characteristics Relative accuracy ................................... ±1 LSB typ, ±1.8 LSB max Differential nonlinearity ......................... ±0.3 LSB ty p, ±0.5 LSB max No missing codes ... .................... ............ 8 bits guaranteed [...]
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Appendix A Specifications NI 5102 User Manual A-4 ni.com T riggers Analog Source ................ ................. .............. ......CH0, CH1, TRIG Level .................. ................. ................ ....256 levels between ±Full-scale for CH0 and CH1; ±5 V for TRIG; software-selectable Slope ............ ................. ............[...]
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Appendix A Specifications © National Instruments Corporatio n A- 5 NI 5102 User Manual R TSI (NI 5102 for PCI, PXI, ISA Only) Trigger lines ........... ................. ............... 7 I/O (6 I/O on the PXI-5102) Clock lines ................. .............. ............... 1 Power Consumption NI 5102 (PCI) 5 V DC (±5%) ................ 500 mA [...]
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Appendix A Specifications NI 5102 User Manual A-6 ni.com Maximum W orking Voltage (Signal voltage plus common-m ode voltage) Channel to earth ....................... ...............5 V, Installation Category I Channel to channel ..................... ............5 V, Installation Category I Environmental Operating temperature ......................[...]
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Appendix A Specifications © National Instruments Corporatio n A- 7 NI 5102 User Manual by your product, and a link to the DoC (in Adobe Acrobat format) appears. Click the Acrobat icon to do wnload or read the DoC. Calibration Internal ................... ................. ............... U pon software command; adjusts timing for RIS acq uisitions[...]
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© National Instruments Corporatio n B- 1 NI 5102 User Manual B T echnical Support Resources W eb Support NI W eb support is your first stop for help in solving installation, configuration, and application problems and questions. Online problem-solving and di agnostic resources include frequ ently asked questions, knowledge bases, product-specific [...]
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Appendix B T echnical Support Resources NI 5102 User Manual B-2 ni.com W orldwide Support NI has of fices located around the w o rld to help address your support needs. Y ou can access our branch of fice W eb sites from the W orldwide Off ices section of ni.com . Branch of fice W eb sites provide up-to-date contact information, support phone num be[...]
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© National Instruments Corporatio n G-1 NI 5102 User Manual Glossar y Pref ix Meaning V alue 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- 10 9 Numbers/Symbols ° degree – negati ve of, or minus Ω ohm /p e r % percent + positiv e of, or plus ± plus or minus +5 V +5 V olts sign[...]
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Glossary NI 5102 User Manual G-2 ni.com A C coupled allowing the transmission of A C signals while bl ocking DC signals ADC analog-to-digital con verter — an electronic de vice, often an integrated circuit, that con verts an analog voltage to a digital number ADC resolution the resolution of the AD C, which is measured in bits. An A DC with 16 bi[...]
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Glossary © National Instruments Corporatio n G-3 NI 5102 User Manual bandwidth the range of frequencies present in a signal, or the range of frequencies to which a measuring de v ice can respond bipolar a signal range that i ncludes both positive and negative values (for example, – 5Vt o+ 5V ) BNC a type of coaxial signal connector b uffer tempo[...]
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Glossary NI 5102 User Manual G-4 ni.com 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 c hannels to form po rts. Ports usually consist of ei ther four or eight digital channel s C in input capacitance circuit trigger [...]
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Glossary © National Instruments Corporatio n G-5 NI 5102 User Manual counter/timer a c ircuit that counts external pulses or clock pulses (timin g) coupling the manner in which a signal is connected from one location to another C p probe capacitance CPU central processing unit crosstalk an unwanted signal on one channel due to an input on a differ[...]
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Glossary NI 5102 User Manual G-6 ni.com DC coupled allowing the transmission of both A C and DC sign als default setting a default parameter v alue recorded in the driv er . In many cases, the default input of a control is a certain v alue (often 0) that means use the curr ent default setting . For example, the default input for a parameter may be [...]
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Glossary © National Instruments Corporatio n G-7 NI 5102 User Manual DOS disk operating system down counter performing frequency d ivision on an internal signal DRAM dynamic RAM dri vers software that controls a specific hardw are de v ice such as a D A Q device o r a GPIB interface board DSO digital storage oscil loscope dual-access memory memory[...]
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Glossary NI 5102 User Manual G-8 ni.com expansion R OM an onboard EEPR OM that may contain dev ice-specific initialization and system boot functionality exte rnal trigger a vo ltage pulse from an external source that triggers an e vent such as A/D con version F false triggering triggering that occurs at an unintended time FET field-ef fect tr ansis[...]
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Glossary © National Instruments Corporatio n G-9 NI 5102 User Manual G gain the factor by which a signal is amplif ied, sometimes expressed in decibels gain accuracy a measure of de viation of the gain of an amplifier from the ideal gain GND ground signal grounded measurement system see RSE H h hour half-flash ADC an ADC that determines its output[...]
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Glossary NI 5102 User Manu al G-10 ni.com input bias current the current that flows into the inputs of a circuit input impedance the measured resistance an d capacitance between the input terminal of a circuit input offset current the dif ference in the input bias currents of the two inputs of an instrumentation ampli fier instrument dri ver a set [...]
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Glossary © National Instruments Corporatio n G-11 NI 5102 User Manual K kk i l o — the standard metric prefix for 1,000, or 10 3 , used w ith units of measure such as volts, hertz, and meters Kk i l o — the prefix for 1,024, or 2 10 , used with B in quantifying data or computer memory kbytes/s a unit for data transfer that means 1,0 00 or 10 3[...]
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Glossary NI 5102 User Manu al G-12 ni.com MFLOPS million floating-poi nt operations per seco nd — the unit for e xpressing the computational po wer of a processor MIPS million inst ructions per second — the unit for expressing the speed of processor machine code instructions MISO Master -In-Slav e-Out signal MITE MXI Interfaces to Ev erything ?[...]
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Glossary © National Instruments Corporatio n G-13 NI 5102 User Manual NRSE nonreferenced sin gle-ended mode — all measurements are made with respect to a common (NRSE) measurement system reference, bu t the v oltage at this reference can vary with respect to the measurement system ground Nyquist Sampling Theorem a law of sampling theory stating [...]
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Glossary NI 5102 User Manu al G-14 ni.com PGIA programmable gain instrumentation amplifier pipeline a high-perfor mance processor struc ture in which the completi on of an instruction is broken into its elements so that se veral elements can be processed simultaneously from different instructions Plug and Play de vices de vices that do not require [...]
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Glossary © National Instruments Corporatio n G-15 NI 5102 User Manual R RAM random-access memory real time a property of an e vent or system in which data is processed as it is acquired instead of being accumulated and processed at a later time record length the amoun t of memory dedicated to storing digitized samp les for postscrip ting or displa[...]
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Glossary NI 5102 User Manu al G-16 ni.com R p probe resistance RSE referenced single-ended mode — all measurements are made with respect to a common reference measurement system or a ground. Also called a grounded measurement system R TSI bus real-time s ystem integration bus — the NI timing bus that connects D A Q de vices directly , by means [...]
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Glossary © National Instruments Corporatio n G-17 NI 5102 User Manual SC_TC scan counter terminal count si gnal SCXI Signal Conditioning eX tensions for Instrumentation — the NI product line for conditioning lo w-le vel signals within an e xternal chassis near sensors so only h igh-lev el signals are sent to DA Q devices in the noisy PC en viron[...]
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Glossary NI 5102 User Manu al G-18 ni.com switchless device devices that do not require dip swi tches or jumpers to configure resources on the devices — also called Plug and Play de vices synchronous (1) hardware — a property of an e vent that is synchronized to a reference clock (2) software — a property of a function that begins an operatio[...]
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Glossary © National Instruments Corporatio n G-19 NI 5102 User Manual U unipolar a signal range that is always positi ve (for example, 0 to +10 V) update the ou tput equiv alent of a scan. On e or more analog or dig ital output samples. T ypically , the number of output samples in an update is equal to the number of channels in the output group. F[...]
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Glossary NI 5102 User Manu al G-20 ni.com W Ww a t t s wa veform multiple voltage readings taken at a speci fic sampling rate word the standard number of bits that a processor or memory manipulates at one time. Microprocessors typical ly use 8-, 16-, or 32-b it words working v oltage the highest voltage that should be applied to a product in normal[...]
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© National Instruments Corporatio n I-1 NI 5102 User Manual Index A AC/DC coupling change set tling rates (table), 4-7 acquiring data, 1-2 to 1-5 interactive control of NI 5102 using Scope Soft Front Panel, 1-3 NI application software, 1-4 to 1-5 NI-DAQ AP I, 1-4 NI-SCOPE driver, 1-4 overview, 1-2 relationship between programming environment, NI-D[...]
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Index NI 5102 User Manual I-2 ni.com D data acquisition. See acquiring data. digital trigger specifications, A-4 to A-5 digitizers ADC resolution, 3-4 analog bandwidth, 3-2 basic principles, 3-1 to 3-5 making accurate measurements, 3-5 to 3-7 dynamic range of 8-bit ADC (figure), 3-6 general signal shape, 3-7 input coupling, 3 -7 input frequ ency, 3[...]
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Index © National Instruments Corporatio n I-3 NI 5102 User Manual P F Il i n e s ,4 - 2 0t o4 - 2 1 input lines, 4-20 output lines, 4-20 t o 4-21 random interleaved samplin g, 4-17 RTSI bus trigger and clock lin es, 4-18 to 4-19 I I/O connectors, 4-2 to 4-5 NI 5102 (PCI, ISA, PCMCIA, USB), 4 - 2t o4 - 4 NI 5102 (PCI, ISA) (figure), 4-3 NI 5102 (PC[...]
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Index NI 5102 User Manual I-4 ni.com NI-DAQ driver soft ware overview of NI-DAQ API, 1-4 relationship with programming environment and hard ware (figure), 1-3 NI Developer Zon e, B-1 NI-SCOPE driver, 1-4 Nyquist theo rem, 3-1 O optional equip ment, 1-6 P passive probe, 3-8 to 3-11 compensating the probe, 3-9 to 3-11 connecting probe co mpensation c[...]
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Index © National Instruments Corporatio n I-5 NI 5102 User Manual Scope Soft Front Panel, 1-3 serial communications port (AUX), 4-6 signal connections, 4-5 to 4-6 I/O connector sign al descriptions (table), 4-5 serial communications port (AUX), 4-6 signal shape, general, 3-7 Soft Front Panel, 1-3 software programming choices. See acquiring data. s[...]