National Instruments cDAQ-9139 manuals
cDAQ-9139
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Safety Guidelines
- Electromagnetic Compatibility Guidelines
- Unpacking
- Installing the NI cDAQ-9138/9139 for Windows
- Installing the NI cDAQ-9138/9139 for LabVIEW Real-Time
- Troubleshooting Network Communication in NI cDAQ-9138/9139 for LabVIEW Real-Time Controller
- Mounting the cDAQ Controller
- Using the cDAQ Controller on a Desktop
- Mounting the cDAQ Controller on a Panel
- Mounting the cDAQ Controller on a DIN Rail
- Mounting the cDAQ Controller on a Rack
- Removing Modules from the cDAQ Controller
- USB Ports
- Ethernet LEDs
- Ethernet Cabling
- RS-232 Serial Port
- MXI-Express Port
- Power Connector
- LEDs
- CMOS Battery and CMOS Reset Button
- Chassis Grounding Screw
- CPU eXpansion Module (CXM) Connector
- Using the cDAQ Controller
- Parallel versus Serial DIO Modules
- Processor and Ports
- Analog Input Triggering Signals
- AI Sample Clock Signal
- Scanned Modules
- Slow Sample Rate Modules
- Using a Digital Source
- AI Pause Trigger Signal
- Analog Output Data Generation Methods
- Hardware-Timed Generations
- Analog Output Triggering Signals
- Routing AO Sample Clock to an Output Terminal
- Routing AO Start Trigger Signal to an Output Terminal
- Minimizing Glitches on the Output Signal
- Digital Input/Output
- Static DIO
- Digital Input Filters
- Getting Started with DI Applications in Software
- Digital Output
- Digital Output Triggering Signals
- Digital Output Timing Signals
- Getting Started with DO Applications in Software
- Counter Timing Engine
- Counter Input Applications
- Buffered (Sample Clock) Edge Counting
- Pulse-Width Measurement
- Implicit Buffered Pulse-Width Measurement
- Pulse Measurement
- Sample Clocked Buffered Pulse Measurement
- Single Semi-Period Measurement
- Pulse versus Semi-Period Measurements
- Low Frequency with One Counter
- High Frequency with Two Counters
- Large Range of Frequencies with Two Counters
- Sample Clocked Buffered Frequency Measurement
- Choosing a Method for Measuring Frequency
- Which Method Is Best?
- Period Measurement
- Position Measurement
- Channel Z Behavior
- Measurements Using Two Pulse Encoders
- Two-Signal Edge-Separation Measurement
- Implicit Buffered Two-Signal Edge-Separation Measurement
- Counter Output Applications
- Single Pulse Generation with Start Trigger
- Finite Pulse Train Generation
- Continuous Pulse Train Generation
- Buffered Pulse Train Generation
- Continuous Buffered Implicit Pulse Train Generation
- Continuous Buffered Sample Clocked Pulse Train Generation
- Frequency Generation
- Frequency Division
- Counter Timing Signals
- Routing a Signal to Counter n Source
- Routing Counter n Gate to an Output Terminal
- Routing Counter n Z Signal to an Output Terminal
- Using an Internal Source
- Routing Frequency Output to a Terminal
- Other Counter Features
- MHz Source Mode
- Digital Routing
- MHz Timebase
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