National Instruments cDAQ-9138 manuals

cDAQ-9138

Brand: National Instruments | Category: Controller

cDAQ-9138

Brand: National Instruments | Category: Controller

Table of contents

1. Table Of Contents
2. Table Of Contents
3. Table Of Contents
4. Table Of Contents
5. Table Of Contents
6. Safety Guidelines
7. Electromagnetic Compatibility Guidelines
8. Unpacking
9. Installing the NI cDAQ-9138/9139 for Windows
10. Installing the NI cDAQ-9138/9139 for LabVIEW Real-Time
11. Troubleshooting Network Communication in NI cDAQ-9138/9139 for LabVIEW Real-Time Controller
12. Mounting the cDAQ Controller
13. Using the cDAQ Controller on a Desktop
14. Mounting the cDAQ Controller on a Panel
15. Mounting the cDAQ Controller on a DIN Rail
16. Mounting the cDAQ Controller on a Rack
17. Removing Modules from the cDAQ Controller
18. USB Ports
19. Ethernet LEDs
20. Ethernet Cabling
21. RS-232 Serial Port
22. MXI-Express Port
23. Power Connector
24. LEDs
25. CMOS Battery and CMOS Reset Button
26. Chassis Grounding Screw
27. CPU eXpansion Module (CXM) Connector
28. Using the cDAQ Controller
29. Parallel versus Serial DIO Modules
30. Processor and Ports
31. Analog Input Triggering Signals
32. AI Sample Clock Signal
33. Scanned Modules
34. Slow Sample Rate Modules
35. Using a Digital Source
37. AI Pause Trigger Signal
38. Analog Output Data Generation Methods
39. Hardware-Timed Generations
40. Analog Output Triggering Signals
41. Routing AO Sample Clock to an Output Terminal
42. Routing AO Start Trigger Signal to an Output Terminal
43. Minimizing Glitches on the Output Signal
44. Digital Input/Output
45. Static DIO
46. Digital Input Filters
47. Getting Started with DI Applications in Software
48. Digital Output
49. Digital Output Triggering Signals
50. Digital Output Timing Signals
51. Getting Started with DO Applications in Software
52. Counter Timing Engine
53. Counter Input Applications
54. Buffered (Sample Clock) Edge Counting
55. Pulse-Width Measurement
56. Implicit Buffered Pulse-Width Measurement
57. Pulse Measurement
58. Sample Clocked Buffered Pulse Measurement
59. Single Semi-Period Measurement
60. Pulse versus Semi-Period Measurements
61. Low Frequency with One Counter
62. High Frequency with Two Counters
63. Large Range of Frequencies with Two Counters
64. Sample Clocked Buffered Frequency Measurement
65. Choosing a Method for Measuring Frequency
66. Which Method Is Best?
67. Period Measurement
68. Position Measurement
69. Channel Z Behavior
70. Measurements Using Two Pulse Encoders
71. Two-Signal Edge-Separation Measurement
72. Implicit Buffered Two-Signal Edge-Separation Measurement
73. Counter Output Applications
74. Single Pulse Generation with Start Trigger
75. Finite Pulse Train Generation
76. Continuous Pulse Train Generation
77. Buffered Pulse Train Generation
78. Continuous Buffered Implicit Pulse Train Generation
79. Continuous Buffered Sample Clocked Pulse Train Generation
80. Frequency Generation
81. Frequency Division
82. Counter Timing Signals
83. Routing a Signal to Counter n Source
84. Routing Counter n Gate to an Output Terminal
85. Routing Counter n Z Signal to an Output Terminal
86. Using an Internal Source
87. Routing Frequency Output to a Terminal
88. Other Counter Features
89. MHz Source Mode
90. Digital Routing
91. MHz Timebase

cDAQ-9138

Brand: National Instruments | Category: Chassis

cDAQ-9138

Brand: National Instruments | Category: Chassis