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cDAQ-9139
National Instruments cDAQ-9139 Manuals
Manuals and User Guides for National Instruments cDAQ-9139. We have
4
National Instruments cDAQ-9139 manuals available for free PDF download: User Manual, Quick Start Manual, Quick Start
National Instruments cDAQ-9139 User Manual (140 pages)
Eight-Slot Controller
Brand:
National Instruments
| Category:
Controller
| Size: 9.57 MB
Table of Contents
Table of Contents
6
Chapter 1
11
Getting Started with the Cdaq Controller
11
Safety Guidelines
12
Electromagnetic Compatibility Guidelines
13
Hardware Symbol Definitions
13
Unpacking
14
Installing the ni Cdaq-9138/9139 for Windows
15
Installing the ni Cdaq-9138/9139 for Labview Real-Time
18
Troubleshooting Network Communication in ni Cdaq-9138/9139 for Labview Real-Time Controller
22
Wiring Power to the Cdaq Controller
22
Mounting the Cdaq Controller
24
Using the Cdaq Controller on a Desktop
26
Mounting the Cdaq Controller on a Panel
27
Mounting the Cdaq Controller on a DIN Rail
29
Mounting the Cdaq Controller on a Rack
30
Removing Modules from the Cdaq Controller
31
Cdaq Controller Features
31
Video (VGA) Port
31
USB Ports
32
Ethernet Ports
32
Ethernet Leds
33
Ethernet Cabling
34
RS-232 Serial Port
35
RS-485/422 Serial Port
35
MXI-Express Port
36
DIP Switches
36
Power Connector
39
RESET Button
39
Power Button
39
Leds
40
CMOS Battery and CMOS Reset Button
42
Resetting the System CMOS and BIOS Settings
42
Chassis Grounding Screw
43
CPU Expansion Module (CXM) Connector
44
Cfast SSD Module
44
Cables and Accessories
44
Using the Cdaq Controller
45
C Series Module
45
Parallel Versus Serial DIO Modules
46
Cdaq Module Interface
46
Stc3
46
Processor and Ports
47
Chapter 2
48
Analog Input
48
Analog Input Triggering Signals
48
Analog Input Timing Signals
48
AI Sample Clock Signal
49
Routing the Sample Clock to an Output Terminal
49
AI Sample Clock Timebase Signal
49
AI Convert Clock Signal Behavior for Analog Input Modules
49
Scanned Modules
50
Simultaneous Sample-And-Hold Modules
50
Sigma-Delta Modules
50
Slow Sample Rate Modules
51
AI Start Trigger Signal
51
Using a Digital Source
52
Using an Analog Source
52
Routing AI Start Trigger to an Output Terminal
52
AI Reference Trigger Signal
52
Using a Digital Source
53
Using an Analog Source
53
Routing the Reference Trigger Signal to an Output Terminal
53
AI Pause Trigger Signal
54
Using a Digital Source
54
Using an Analog Source
54
Getting Started with AI Applications in Software
54
Chapter 3
55
Analog Output
55
Analog Output Data Generation Methods
55
Software-Timed Generations
55
Hardware-Timed Generations
56
Buffered Analog Output
56
Analog Output Triggering Signals
57
Analog Output Timing Signals
57
AO Sample Clock Signal
57
Routing AO Sample Clock to an Output Terminal
58
AO Sample Clock Timebase Signal
58
AO Start Trigger Signal
58
Using a Digital Source
58
Using an Analog Source
58
Routing AO Start Trigger Signal to an Output Terminal
59
AO Pause Trigger Signal
59
Using a Digital Source
59
Using an Analog Source
59
Minimizing Glitches on the Output Signal
60
Getting Started with AO Applications in Software
60
Chapter 4
61
Digital Input/Output and PFI
61
Digital Input/Output
61
Serial DIO Versus Parallel DIO Modules
61
Static DIO
62
Digital Input
62
Digital Input Triggering Signals
62
Digital Input Timing Signals
62
Digital Input Filters
66
Getting Started with DI Applications in Software
67
Change Detection Event
67
Routing Change Detection Event to an Output Terminal
67
Change Detection Acquisition
67
Digital Output
68
Digital Output Data Generation Methods
68
Digital Output Triggering Signals
69
Digital Output Timing Signals
70
Getting Started with DO Applications in Software
73
Digital Input/Output Configuration for ni 9401
73
Pfi
73
PFI Filters
73
Chapter 5
75
Counters
75
Counter Timing Engine
76
Counter Input Applications
77
Counting Edges
77
Single Point (On-Demand) Edge Counting
77
Buffered (Sample Clock) Edge Counting
78
Controlling the Direction of Counting
78
Pulse-Width Measurement
79
Single Pulse-Width Measurement
79
Implicit Buffered Pulse-Width Measurement
80
Sample Clocked Buffered Pulse-Width Measurement
80
Pulse Measurement
81
Single Pulse Measurement
81
Implicit Buffered Pulse Measurement
81
Sample Clocked Buffered Pulse Measurement
82
Semi-Period Measurement
82
Single Semi-Period Measurement
83
Implicit Buffered Semi-Period Measurement
83
Pulse Versus Semi-Period Measurements
84
Frequency Measurement
84
Low Frequency with One Counter
85
High Frequency with Two Counters
86
Choosing a Method for Measuring Frequency
89
Which Method Is Best
90
Period Measurement
92
Position Measurement
93
Measurements Using Quadrature Encoders
93
Channel Z Behavior
94
Measurements Using Two Pulse Encoders
95
Buffered (Sample Clock) Position Measurement
95
Two-Signal Edge-Separation Measurement
96
Single Two-Signal Edge-Separation Measurement
96
Implicit Buffered Two-Signal Edge-Separation Measurement
97
Sample Clocked Buffered Two-Signal Separation Measurement
97
Counter Output Applications
98
Simple Pulse Generation
98
Single Pulse Generation
98
Single Pulse Generation with Start Trigger
99
Pulse Train Generation
99
Finite Pulse Train Generation
100
Retriggerable Pulse or Pulse Train Generation
100
Continuous Pulse Train Generation
101
Buffered Pulse Train Generation
102
Finite Implicit Buffered Pulse Train Generation
102
Continuous Buffered Implicit Pulse Train Generation
103
Finite Buffered Sample Clocked Pulse Train Generation
103
Continuous Buffered Sample Clocked Pulse Train Generation
104
Frequency Generation
105
Using the Frequency Generator
105
Frequency Division
106
Pulse Generation for ETS
106
Counter Timing Signals
107
Counter N Source Signal
107
Routing a Signal to Counter N Source
108
Routing Counter N Source to an Output Terminal
108
Counter N Gate Signal
108
Routing a Signal to Counter N Gate
108
Routing Counter N Gate to an Output Terminal
109
Counter N aux Signal
109
Routing a Signal to Counter N aux
109
Counter N A, Counter N B, and Counter N Z Signals
109
Routing Signals to A, B, and Z Counter Inputs
109
Routing Counter N Z Signal to an Output Terminal
110
Counter N Up_Down Signal
110
Counter N HW Arm Signal
110
Routing Signals to Counter N HW Arm Input
110
Counter N Sample Clock Signal
110
Using an Internal Source
111
Using an External Source
111
Routing Counter N Sample Clock to an Output Terminal
111
Counter N Internal Output and Counter N TC Signals
111
Routing Counter N Internal Output to an Output Terminal
111
Frequency Output Signal
111
Routing Frequency Output to a Terminal
112
Default Counter/Timer Routing
112
Counter Triggering
112
Other Counter Features
113
Cascading Counters
113
Prescaling
113
Synchronization Modes
113
80 Mhz Source Mode
114
External or Internal Source Less than 20 Mhz
114
Chapter 6
115
Digital Routing and Clock Generation
115
Digital Routing
115
Clock Routing
115
80 Mhz Timebase
116
100 Khz Timebase
116
Appendix A
117
Controller Operating System and Configuration
117
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National Instruments cDAQ-9139 User Manual (139 pages)
NI CompactDAQ Eight-Slot Controller
Brand:
National Instruments
| Category:
Controller
| Size: 6.76 MB
Table of Contents
Table of Contents
6
Chapter 1
11
Getting Started with the Cdaq Controller
11
Safety Guidelines
12
Electromagnetic Compatibility Guidelines
13
Hardware Symbol Definitions
13
Unpacking
14
Installing the ni Cdaq-9138/9139 for Windows
15
Installing the ni Cdaq-9138/9139 for Labview Real-Time
18
Troubleshooting Network Communication in ni Cdaq-9138/9139 for Labview Real-Time Controller
22
Wiring Power to the Cdaq Controller
22
Mounting the Cdaq Controller
24
Using the Cdaq Controller on a Desktop
26
Mounting the Cdaq Controller on a Panel
27
Mounting the Cdaq Controller on a DIN Rail
29
Mounting the Cdaq Controller on a Rack
30
Removing Modules from the Cdaq Controller
31
Cdaq Controller Features
31
Video (VGA) Port
31
USB Ports
32
Ethernet Ports
32
Ethernet Leds
33
Ethernet Cabling
34
RS-232 Serial Port
35
RS-485/422 Serial Port
35
MXI-Express Port
36
DIP Switches
36
Power Connector
39
RESET Button
39
Power Button
39
Leds
40
CMOS Battery and CMOS Reset Button
42
Resetting the System CMOS and BIOS Settings
42
Chassis Grounding Screw
43
CPU Expansion Module (CXM) Connector
44
Cfast SSD Module
44
Cables and Accessories
44
Using the Cdaq Controller
45
C Series Module
45
Parallel Versus Serial DIO Modules
46
Cdaq Module Interface
46
Stc3
46
Processor and Ports
47
Chapter 2
48
Analog Input
48
Analog Input Triggering Signals
48
Analog Input Timing Signals
48
AI Sample Clock Signal
49
Routing the Sample Clock to an Output Terminal
49
AI Sample Clock Timebase Signal
49
AI Convert Clock Signal Behavior for Analog Input Modules
49
Scanned Modules
50
Simultaneous Sample-And-Hold Modules
50
Sigma-Delta Modules
50
Slow Sample Rate Modules
51
AI Start Trigger Signal
51
Using a Digital Source
52
Using an Analog Source
52
Routing AI Start Trigger to an Output Terminal
52
AI Reference Trigger Signal
52
Using a Digital Source
53
Using an Analog Source
53
Routing the Reference Trigger Signal to an Output Terminal
53
AI Pause Trigger Signal
54
Using a Digital Source
54
Using an Analog Source
54
Getting Started with AI Applications in Software
54
Chapter 3
55
Analog Output
55
Analog Output Data Generation Methods
55
Software-Timed Generations
55
Hardware-Timed Generations
56
Buffered Analog Output
56
Analog Output Triggering Signals
57
Analog Output Timing Signals
57
AO Sample Clock Signal
57
Routing AO Sample Clock to an Output Terminal
58
AO Sample Clock Timebase Signal
58
AO Start Trigger Signal
58
Using a Digital Source
58
Using an Analog Source
58
Routing AO Start Trigger Signal to an Output Terminal
59
AO Pause Trigger Signal
59
Using a Digital Source
59
Using an Analog Source
59
Minimizing Glitches on the Output Signal
60
Getting Started with AO Applications in Software
60
Chapter 4
61
Digital Input/Output and PFI
61
Digital Input/Output
61
Serial DIO Versus Parallel DIO Modules
61
Static DIO
62
Digital Input
62
Digital Input Triggering Signals
62
Digital Input Timing Signals
62
Digital Input Filters
66
Getting Started with DI Applications in Software
67
Change Detection Event
67
Routing Change Detection Event to an Output Terminal
67
Change Detection Acquisition
67
Digital Output
68
Digital Output Data Generation Methods
68
Digital Output Triggering Signals
69
Digital Output Timing Signals
70
Getting Started with DO Applications in Software
73
Digital Input/Output Configuration for ni 9401
73
Pfi
73
PFI Filters
73
Chapter 5
75
Counters
75
Counter Timing Engine
76
Counter Input Applications
77
Counting Edges
77
Single Point (On-Demand) Edge Counting
77
Buffered (Sample Clock) Edge Counting
78
Controlling the Direction of Counting
78
Pulse-Width Measurement
79
Single Pulse-Width Measurement
79
Implicit Buffered Pulse-Width Measurement
80
Sample Clocked Buffered Pulse-Width Measurement
80
Pulse Measurement
81
Single Pulse Measurement
81
Implicit Buffered Pulse Measurement
81
Sample Clocked Buffered Pulse Measurement
82
Semi-Period Measurement
82
Single Semi-Period Measurement
83
Implicit Buffered Semi-Period Measurement
83
Pulse Versus Semi-Period Measurements
84
Frequency Measurement
84
Low Frequency with One Counter
85
High Frequency with Two Counters
86
Choosing a Method for Measuring Frequency
89
Which Method Is Best
90
Period Measurement
92
Position Measurement
93
Measurements Using Quadrature Encoders
93
Channel Z Behavior
94
Measurements Using Two Pulse Encoders
95
Buffered (Sample Clock) Position Measurement
95
Two-Signal Edge-Separation Measurement
96
Single Two-Signal Edge-Separation Measurement
96
Implicit Buffered Two-Signal Edge-Separation Measurement
97
Sample Clocked Buffered Two-Signal Separation Measurement
97
Counter Output Applications
98
Simple Pulse Generation
98
Single Pulse Generation
98
Single Pulse Generation with Start Trigger
99
Pulse Train Generation
99
Finite Pulse Train Generation
100
Retriggerable Pulse or Pulse Train Generation
100
Continuous Pulse Train Generation
101
Buffered Pulse Train Generation
102
Finite Implicit Buffered Pulse Train Generation
102
Continuous Buffered Implicit Pulse Train Generation
103
Finite Buffered Sample Clocked Pulse Train Generation
103
Continuous Buffered Sample Clocked Pulse Train Generation
104
Frequency Generation
105
Using the Frequency Generator
105
Frequency Division
106
Pulse Generation for ETS
106
Counter Timing Signals
107
Counter N Source Signal
107
Routing a Signal to Counter N Source
108
Routing Counter N Source to an Output Terminal
108
Counter N Gate Signal
108
Routing a Signal to Counter N Gate
108
Routing Counter N Gate to an Output Terminal
109
Counter N Aux Signal
109
Routing a Signal to Counter N Aux
109
Counter N A, Counter N B, and Counter N Z Signals
109
Routing Signals to A, B, and Z Counter Inputs
109
Routing Counter N Z Signal to an Output Terminal
110
Counter N Up_Down Signal
110
Counter N HW Arm Signal
110
Routing Signals to Counter N HW Arm Input
110
Counter N Sample Clock Signal
110
Using an Internal Source
111
Using an External Source
111
Routing Counter N Sample Clock to an Output Terminal
111
Counter N Internal Output and Counter N TC Signals
111
Routing Counter N Internal Output to an Output Terminal
111
Frequency Output Signal
111
Routing Frequency Output to a Terminal
112
Default Counter/Timer Routing
112
Counter Triggering
112
Other Counter Features
113
Cascading Counters
113
Prescaling
113
Synchronization Modes
113
80 Mhz Source Mode
114
External or Internal Source Less than 20 Mhz
114
Chapter 6
115
Digital Routing and Clock Generation
115
Digital Routing
115
Clock Routing
115
80 Mhz Timebase
116
100 Khz Timebase
116
Appendix A
117
Controller Operating System and Configuration
117
National Instruments cDAQ-9139 Quick Start Manual (6 pages)
Stand-Alone Chassis for LabVIEW Real-Time
Brand:
National Instruments
| Category:
Chassis
| Size: 3.54 MB
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National Instruments cDAQ-9139 Quick Start (4 pages)
Stand-Alone Chassis for Windows
Brand:
National Instruments
| Category:
Chassis
| Size: 2.14 MB
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