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National Instruments NI PCI-6221 manuals

NI PCI-6221 first page preview

NI PCI-6221

NI PCI-6221 first page preview

NI PCI-6221

Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Table Of Contents
  9. Table Of Contents
  10. Safety Guidelines
  11. Safety Guidelines for Hazardous Voltages
  12. Hardware Symbol Definitions
  13. Device Self-Calibration
  14. Getting Started with M Series PCI Express Devices and the Disk Drive Power Connector
  15. Getting Started with M Series USB Devices
  16. USB Device Panel/Wall Mounting
  17. USB Device Fuse Replacement
  18. USB Device Security Cable Slot
  19. Installing a Ferrite
  20. DAQ Hardware
  21. DAQ-STC2 and DAQ-6202
  22. Cables and Accessories
  23. Pin Cables
  24. Pin BNC Accessories
  25. SCXI
  26. USB Device Accessories, USB Cable, and Power Supply
  27. Signal Conditioning
  28. Programming Devices in Software
  29. I/O Connector Signal Descriptions
  30. V Power Source
  31. RTSI Connector Pinout
  32. Analog Input Range
  33. Analog Input Lowpass Filter
  34. Analog Input Ground-Reference Settings
  35. Configuring AI Ground-Reference Settings in Software
  36. Analog Input Data Acquisition Methods
  37. Analog Input Triggering
  38. Connecting Analog Input Signals
  39. Connecting Floating Signal Sources
  40. When to Use Referenced Single-Ended (RSE) Connections with Floating Signal Sources
  41. Using Non-Referenced Single-Ended (NRSE) Connections for Floating Signal Sources
  42. Using Referenced Single-Ended (RSE) Connections for Floating Signal Sources
  43. When to Use Differential Connections with Ground-Referenced Signal Sources
  44. When to Use Referenced Single-Ended (RSE) Connections with Ground-Referenced Signal Sources
  45. Using Non-Referenced Single-Ended (NRSE) Connections for Ground-Referenced Signal Sources
  46. Field Wiring Considerations
  47. AI Sample Clock Signal
  48. Using an Internal Source
  49. AI Sample Clock Timebase Signal
  50. Using a Delay from Sample Clock to Convert Clock
  51. AI Convert Clock Timebase Signal
  52. Using an Analog Source
  53. Using a Digital Source
  54. AO Offset and AO Reference Selection
  55. Minimizing Glitches on the Output Signal
  56. Hardware-Timed Generations
  57. Analog Output Triggering
  58. Analog Output Timing Signals
  59. Routing AO Sample Clock Signal to an Output Terminal
  60. Getting Started with AO Applications in Software
  61. Static DIO
  62. Digital Waveform Acquisition
  63. Using an External Source
  64. Programmable Power-Up States
  65. DI Change Detection
  66. DI Change Detection Applications
  67. Getting Started with DIO Applications in Software
  68. Counter Input Applications
  69. Counting Edges
  70. Buffered (Sample Clock) Edge Counting
  71. Single Pulse-Width Measurement
  72. Period Measurement
  73. Buffered Period Measurement
  74. Semi-Period Measurement
  75. Frequency Measurement
  76. Low Frequency with One Counter (Averaged)
  77. Large Range of Frequencies with Two Counters
  78. Choosing a Method for Measuring Frequency
  79. Position Measurement
  80. Measurements Using Quadrature Encoders
  81. Measurements Using Two Pulse Encoders
  82. Buffered (Sample Clock) Position Measurement
  83. Single Two-Signal Edge-Separation Measurement
  84. Counter Output Applications
  85. Single Pulse Generation with Start Trigger
  86. Pulse Train Generation
  87. Finite Pulse Train Generation
  88. Frequency Division
  89. Counter Timing Signals
  90. Routing a Signal to Counter n Source
  91. Routing a Signal to Counter n Gate
  92. Counter n A, Counter n B, and Counter n Z Signals
  93. Counter n Internal Output and Counter n TC Signals
  94. Counter Triggering
  95. Other Counter Features
  96. Prescaling
  97. Example Application That Works Correctly (No Duplicate Counting)
  98. Example Application That Prevents Duplicate Count
  99. Enabling Duplicate Count Prevention in NI-DAQmx
  100. MHz Source Mode
  101. Using PFI Terminals as Timing Input Signals
  102. Using PFI Terminals as Static Digital I/Os
  103. PFI Filters
  104. I/O Protection
  105. Clock Routing
  106. MHz Timebase
  107. Synchronizing Multiple Devices
  108. Real-Time System Integration (RTSI)
  109. Using RTSI as Outputs
  110. Using RTSI Terminals as Timing Input Signals
  111. PXI Clock and Trigger Signals
  112. Data Transfer Methods
  113. USB Device Data Transfer Methods
  114. PXI Considerations
  115. Using PXI with CompactPCI
  116. Triggering with a Digital Source
  117. Triggering with an Analog Source
  118. Analog Trigger Actions
  119. Analog Trigger Accuracy
  120. Figure
  121. NI 6221 (68-Pin)
  122. NI PCI-6221 (37-Pin)
  123. USB-6251 Mass Termination Pinout
  124. PCI/PXI-6254 Pinout
  125. PCI/PXI-6255 Pinout
  126. USB-6255 Screw Terminal Pinout
  127. USB-6255 Mass Termination Pinout
  128. NI PCI/PCIe/PXI/PXIe-6259 Pinout
  129. USB-6259 Screw Terminal Pinout
  130. USB-6259 BNC Top Panel and Pinout
  131. USB-6259 Mass Termination Pinout
  132. PCI/PXI-6280 Pinout
  133. PCI/PXI-6281 Pinout
  134. USB-6281 Screw Terminal Pinout
  135. USB-6281 Mass Termination Pinout
  136. PCI/PXI-6284 Pinout
  137. USB-6289 Screw Terminal Pinout
  138. USB-6289 Mass Termination Pinout
Related products
NI 6221PCI-6220PCI-6225PCI-6229PCI-6224NI 6220NI 6224NI 6225NI 6229PCI-6255
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