NI NIPCI-7831R R series intelligent daq-data acquisition and control with onboard processing Datasheet

R Series Intelligent DAQ –
Data Acquisition and Control with Onboard Processing
NI 781xR, NI 783xR, NI PXI-784xR, NI PXI-785xR NEW!
• Onboard FPGA chip, programmable
with the LabVIEW FPGA Module
• User-defined triggering, timing, and
decision making in hardware with
25 ns resolution
• Up to 8 analog inputs, independent
sampling rates up to 750 kHz,
16-bit resolution
• Up to 8 analog outputs, independent
update rates up to 1 MHz,
16-bit resolution
• Up to 160 digital lines configurable as
inputs, outputs, counters, or custom
logic at rates up to 40 MHz
• Direct memory access (DMA) channels
for high-speed data streaming
• Implement custom control logic,
inline signal processing, and digital
communication protocols
Product
Multifunction R Series
NI 7851R
NI 7852R
NI 7853R
NI 7854R
NI 7841R
NI 7842R
NI 7830R
NI 7831R
NI 7833R
Digital R Series
NI 7811R
NI 7813R
Operating Systems
• Windows XP/2000
• LabVIEW Real-Time
Recommended Software
• LabVIEW
• LabVIEW FPGA Module
• LabVIEW code compiler for FPGAs
• Emulated debugging mode
• LabVIEW Real-Time Module
Driver Software (included)
• NI-RIO
Calibration Certificate Available
Bus/Form Factor
FPGA
Analog Inputs
(16-Bit)
Max Sampling Rate
per Channel (kS/s)
Analog Outputs
(16-Bit)
Max Update Rate
per Channel (MS/s)
Digital I/O
PXI
PXI
PXI
PXI
PXI
PXI
PCI, PXI
PCI, PXI
PCI, PXI
Virtex-5 LX30
Virtex-5 LX50
Virtex-5 LX85
Virtex-5 LX110
Virtex-5 LX30
Virtex-5 LX50
Virtex-II 1M gates
Virtex-II 1M gates
Virtex-II 3M gates
8
8
8
8
8
8
4
8
8
750
750
750
750
200
200
200
200
200
8
8
8
8
8
8
4
8
8
1
1
1
1
1
1
1
1
1
96
96
96
96
96
96
56
96
96
PCI, PXI
PCI, PXI
Virtex-II 1M gates
Virtex-II 3M gates
–
–
–
–
–
–
–
–
160
160
Table 1. R Series Selection Guide
Overview
Key Features
Intelligent DAQ is multifunction data acquisition that features userdefined onboard processing as well as complete flexibility of I/O
timing and triggering. You can configure all device functionality by
creating NI LabVIEW block diagrams with the LabVIEW FPGA Module.
Your block diagram executes in hardware, giving you direct, immediate
control of all I/O signals on the PXI or PCI device. With R Series and
LabVIEW FPGA, you can configure user-defined hardware for a wide
variety of applications requiring precise timing and control such as:
• Data acquisition with flexible triggering and onboard processing
• High-speed analog and discrete control loops
• Pulse-width modulation (PWM) and encoder interfacing
• User-defined digital communication protocols
• Custom counters with up to 64-bit resolution
• Hardware-timed decision making at 40 MHz
Through programming in LabVIEW FPGA, you can control each of the
I/O signal lines independently or synchronize a line with other channels.
You can configure the digital I/O lines as custom counter/timers, PWM
channels, or communication buses for user-defined protocols. All
multifunction R Series devices have dedicated analog-to-digital
converters/digital-to-analog converters on every analog I/O channel.
This offers specialized functionality such as multirate sampling and
individual channel triggering, which are beyond the capabilities of
typical data acquisition hardware. You can sample every analog input
channel on an R Series device simultaneously at rates up to 750 kHz,
and you can program every analog output on an R Series device to
update simultaneously at rates up to 1 MHz. You can also store your
compiled LabVIEW FPGA application in the onboard flash memory of
any R Series device and configure it for automatic loading and/or
execution at power up.
R Series Intelligent DAQ –
Data Acquisition and Control with Onboard Processing
New Virtex-5 FPGAs
The new NI PXI-784xR and PXI-785xR modules use new Virtex-5 field-programmable gate arrays (FPGAs) with improved optimization capabilities
that provide faster code execution and increased code capacity. These Virtex-5 FPGAs feature a new six-input lookup table (LUT) architecture
for substantially improved resource utilization as well as DSP48 slices that make it possible for you to implement more complex digital signal
processing at faster rates. Previous-generation Virtex-II FPGAs use four-input LUTs for up to 16 combinations of digital logic values. The new
Virtex-5 FPGAs use six-input LUTs for up to 64 combinations, increasing the amount of logic that you can implement per slice. In addition, the slices
themselves are placed in closer proximity to each other to reduce the propagation delay of electrons and increase overall execution rates. The
single-cycle timed loop structure in LabVIEW FPGA takes full advantage of six-input LUTs for substantially improved resource utilization. This means
you can optimize more LabVIEW FPGA code to fit within Virtex-5 FPGAs and perform more operations per clock cycle.
Figure 1. General logic benchmarks show that Virtex-5 FPGAs offer larger sizes when
compared to Virtex-II FPGAs.
Figure 2. Execution speed benchmarks show that Virtex-5 FPGAs feature faster processing
capabilities when compared to Virtex-II FPGAs.
For more information on LabVIEW FPGA benchmarks for Virtex-5 FPGAs, visit ni.com/info and enter lvfpgabenchmarks.
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2
R Series Intelligent DAQ –
Data Acquisition and Control with Onboard Processing
Recommended Accessories
High Performance
SHC68-68-RMIO – High-performance shielded 68-conductor cable
terminated with a VHDCI 68-pin male connector at one end and a
68-pin female 0.050 D-type connector at the other end that has been
specifically designed for the multifunction I/O connector on R Series
intelligent DAQ devices.
1 m .....................................................................189588-01
2 m .....................................................................189588-02
SHC68-68-RDIO – High-performance shielded 68-conductor cable
terminated with a VHDCI 68-pin male connector at one end and a
68-pin female 0.050 D-type connector at the other end that has been
specifically designed for the digital I/O connector on R Series intelligent
DAQ devices.
1 m .....................................................................191667-01
Required Software for R Series Intelligent DAQ
• NI 781xR and 783xR devices require the LabVIEW FPGA Module 7.1
or later and NI-RIO 1.3 or later driver software.
• NI 784xR and 785xR devices require the LabVIEW FPGA Module 8.5.1
or later and NI-RIO 2.4 or later.
• NI 7853R and 7854R devices require the LabVIEW FPGA Module 8.6
or later and NI-RIO 3.0 or later.
Low-Cost Signal Conditioning and Channel Expansion
The NI cRIO-9151 R Series expansion chassis connects directly to any
digital connector on R Series devices and houses up to four C Series I/O
modules for industrial signal conditioning, I/O channel expansion, and
direct sensor connectivity.
SCB-68 – Shielded I/O connector block for rugged, very low-noise signal
termination for connecting to 68-pin devices. The SCB-68 also includes
two general-purpose breadboard areas.
Dimensions – 19.5 by 15.2 by 4.5 cm (7.7 by 6.0 by 1.8 in.)
SCB-68 .................................................................776844-01
Ordering Information
Low Cost
PCI
NI PCI-7811R................................................................779363-01
NI PCI-7813R................................................................779370-01
NI PCI-7830R................................................................779361-01
NI PCI-7831R................................................................778797-01
NI PCI-7833R................................................................779359-01
SH68-C68-S – General-purpose shielded cable that connects any type
of R Series connector to 68-pin connector blocks.
0.5 m...................................................................186381-0R5
1 m .....................................................................186381-01
2 m .....................................................................186381-02
Custom Cabling
SHC68-NT-S – Shielded 68-conductor cable terminated with a 68-pin
male VHDCI connector at one end and unterminated bare wires at the
other. Use this cable, ideal for OEM applications, to create custom
cabling solutions for R Series devices.
2 m .....................................................................189041-02
NSC68-262650 – Shielded cable terminated with a VHDCI 68-pin male
connector at one end and two 26-pin ribbon connectors and one 50-pin
ribbon connector on the other; designed to connect the R Series RMIO
connector to standard ribbon cable accessories.
1 m .....................................................................189151-01
NSC68-5050 – Shielded cable terminated with a VHDCI 68-pin male
connector at one end and two 50-pin ribbon connectors on the other;
designed to connect R Series RDIO connectors to standard ribbon
cable accessories.
1 m .....................................................................189152-01
PXI
NI PXI-7811R................................................................778800-01
NI PXI-7813R................................................................779362-01
NI PXI-7830R................................................................779364-01
NI PXI-7831R................................................................778668-01
NI PXI-7833R................................................................779360-01
NI PXI-7841R................................................................780337-01
NI PXI-7842R................................................................780338-01
NI PXI-7851R................................................................780339-01
NI PXI-7852R................................................................780340-01
NI PXI-7853R................................................................780341-01
NI PXI-7854R................................................................780342-01
Includes NI-RIO driver software.
BUY NOW!
For complete product specifications, pricing, and accessory
information, call 800 813 3693 (U.S.) or go to ni.com/rseries.
BUY ONLINE at ni.com or CALL 800 813 3693 (U.S.)
3
R Series Intelligent DAQ –
Data Acquisition and Control with Onboard Processing
Accuracy Information – NI 784xR/785xR
Specifications
Analog Input (NI 783xR/784xR/785xR Only)
Input Characteristics
Number of channels
NI 7830R ......................................... 4
NI 7831R/7833R/784xR/785xR ...... 8
Input modes ........................................ DIFF, RSE, NRSE
(software-selectable; selection
applies to all channels)
Type of ADC ........................................ Successive approximation
Resolution ........................................... 16 bits, 1 in 65,536
Conversion time
NI 783xR/NI 784xR ......................... 4 µs
NI 785xR ......................................... 1 µs
Maximum sampling rate
NI 783xR/NI 784xR ......................... 200 kS/s (per channel)
NI 785xR ......................................... 750 kS/s (per channel)
Input impedance
Powered on..................................... 10 GΩ in parallel with 100 pF
Powered off/overload..................... 4.0 kΩ min
Input signal range ............................... ±10 V
Input bias current
NI 783xR ......................................... ±2 nA
NI 784xR/785xR.............................. ±5 nA
Input offset current
NI 783xR ......................................... ±1 nA
NI 784xR/785xR.............................. ±5 nA
Input coupling ..................................... DC
Maximum working voltage
(signal + common mode) ............ Inputs should remain
within ±12 V of ground
Overvoltage protection
Powered on ................................ ±42 V
Powered off ................................ ±35 V
Data transfers ..................................... DMA, interrupts, programmed I/O
Accuracy Information – NI 783xR
Relative Accuracy
Absolute
% of Reading
Accuracy Resolution (µV)
Temp at Full
Positive Negative
Offset Single
Drift Scale Single
24
Full
Full
Scale
Scale Hours 1 Year (µV) Point Averaged (%/°C) (±mV) Point Averaged
Nominal
Range (V)
10.0
Absolute Accuracy
Noise +
Quantization
-10.0 0.0496 0.0507 2,542 1779
165
0.0005
7.78
Absolute Accuracy
Noise +
Quantization
Relative Accuracy
Absolute
% of Reading
Accuracy Resolution (µV)
Temp at Full
Positive Negative
Offset Single
Drift Scale Single
24
Full
Full
Scale Hours 1 Year (µV) Point Averaged (%/°C) (±mV) Point Averaged
Scale
Nominal
Range (V)
2,170
217
Note: Accuracies are valid for measurements following an internal calibration. Averaged numbers
assume dithering and averaging of 100 single-channel readings. Measurement accuracies are listed for
operational temperatures within ±1 °C of internal calibration temperature and ±10 °C of external or
factory-calibration temperature.
10.0
-10.0 0.0186 0.0228 1,591 1,029
91.6
0.0005
3.97
1,205
121
Note: Accuracies are valid for measurements following an internal calibration. Averaged numbers
assume dithering and averaging of 100 single-channel readings. Measurement accuracies are listed for
operational temperatures within ±1 °C of internal calibration temperature and ±10 °C of external or
factory-calibration temperature.
DC Transfer Characteristics
INL
NI 783xR .........................................
NI 784xR/785xR..............................
DNL
NI 783xR .........................................
NI 784xR/785xR..............................
No missing codes
NI 783xR .........................................
NI 784xR/785xR..............................
CMRR, DC to 60 Hz.............................
±3 LSB typ, ±6 LSB max
±1 LSB typ, ±3 LSB max
-1.0 to +2.0 LSB max
±0.4 LSB typ, ±0.9 LSB max
16 bits typ, 15 bits min
16 bits guaranteed
-86 dB
Settling Time
Device
NI 783xR
NI 784xR/
785xR
Step Size
±20.0 V
±2.0 V
±0.2 V
±20.0 V
±2.0 V
±0.2 V
16 LSB
7.5 µs
2.7 µs
1.7 µs
2.1 µs
1.3 µs
0.8 µs
Accuracy
4 LSB
10.3 µs
4.1 µs
2.9 µs
4.2 µs
1.6 µs
1.1 µs
2 LSB
40 µs
5.1 µs
3.6 µs
8 µs
1.8 µs
1.2 µs
Crosstalk.............................................. -80 dB, DC to 100 kHz
Dynamic Characteristics
Bandwidth
NI 783xR
Small signal (-3 dB) ....................
Large signal (1% THD) ...............
NI 784xR/785xR
Small signal (-3 dB) ....................
Large signal (1% THD) ...............
650 kHz
55 kHz
1 MHz
500 kHz
Analog Output (NI 783xR/784xR/785xR Only)
Output Characteristics
Number of channels
NI 7830R .........................................
NI 7831R/7833R/784xR/785xR ......
Output type .........................................
Resolution ...........................................
Update time ........................................
Maximum update rate ........................
Type of DAC ........................................
Data transfers .....................................
4
8
Single-ended, voltage output
16 bits, 1 in 65,536
1.0 µs
1 MS/s
Enhanced R-2R
DMA, interrupts,
programmed I/O
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4
R Series Intelligent DAQ –
Data Acquisition and Control with Onboard Processing
Voltage Output
Range ..................................................
Output coupling...................................
Output impedance
NI 783xR .........................................
NI 784xR/785xR..............................
Current drive .......................................
Protection ............................................
Power-on state....................................
Protection
Input
NI 781xR/783xR ......................... -0.5 to 7.0 V, single line
NI 784xR/785xR ......................... -20.0 to 20.0 V, single line
Output ............................................. Short-circuit (up to eight lines
may be shorted at a time)
Minimum pulse width
Input................................................ 25 ns
Output ............................................. 12.5 ns
Minimum sampling period.................. 5 ns
±10 V
DC
1.25 Ω
0.5 Ω
±2.5 mA
Short-circuit to ground
User configurable
Accuracy Information
Reconfigurable FPGA
Absolute Accuracy
% of Reading
Nominal Range (V)
Positive
Negative
Full Scale Full Scale 24 Hours
1 Year
10.0
0.0351
-10.0
0.0335
Absolute
Temp Drift Accuracy at Full
Offset (µv)
(%/°C)
Scale (mV)
2,366
0.0005
5.88
Note: Accuracies are valid for analog output following an internal calibration. Analog output accuracies are
listed for operation temperatures within ±1 °C of internal calibration temperature and ±10 °C of external or
factory calibration temperature. Temperature drift applies only if ambient is greater than ±10 °C of previous
external calibration.
NI 7811R/7830R/7831R
FPGA type............................................
Number of flip-flops............................
Number of 4-input LUTs......................
Number of 18x18 multipliers ..............
Embedded block RAM.........................
DC Transfer Characteristics
NI 7813R/7833R
INL .................................................... ±0.5 LSB typ, ±4.0 LSB max
DNL .................................................... ±0.5 LSB typ, ±1 LSB max
Monotonicity ....................................... 16 bits, guaranteed
FPGA type............................................
Number of flip-flops............................
Number of 4-input LUTs......................
Number of 18x18 multipliers ..............
Embedded block RAM.........................
Settling Time
Step Size
±20.0 V
±2.0 V
±0.2 V
16 LSB
6.0 µs
2.2 µs
1.5 µs
Accuracy
4 LSB
6.2 µs
2.9 µs
2.6 µs
2 LSB
7.2 µs
3.8 µs
3.6 µs
Dynamic Characteristics
Slew rate............................................. 10 V/µs
Noise ................................................... 150 µVrms, DC to 1 MHz
Glitch energy at midscale transition..... ±200 mV for 3 µs
Digital I/O
Number of channels
NI 7811R/7813R .............................
NI 7830R .........................................
NI 7831R/7833R/784xR/785xR .....
Digital logic levels ..............................
Level
Input low voltage (VIL)
Input high voltage (VIH)
Output low voltage (VOL),
where IOUT = -4 mA
Output high voltage (VOH),
where IOUT = 4 mA
Output current
Source.............................................
Sink .................................................
Input leakage current..........................
Power-on state....................................
Data transfers .....................................
160
56
96
3.3 V TTL, 5 V TTL Compatible
Min (V)
0.0 V
2.0 V
–
Max (V)
0.8 V
5.5 V
0.4 V
2.4 V
3.3 V
4.0 mA
4.0 mA
±10 µA
Programmable, by line
DMA, interrupts,
programmed I/O
Virtex-II 1000
10,240
10,240
40
720 kb
Virtex-II 3000
28,672
28,672
96
1,728 kb
NI 7841R/7851R
FPGA type............................................
Number of flip-flops............................
Number of 6-input LUTs......................
Number of DSP48
slices (25x18 multipliers)................
Embedded block RAM.........................
Virtex-5 LX30
19,200
19,200
32
1,152 kb
NI 7842R/7852R
FPGA type............................................
Number of flip-flops............................
Number of 6-input LUTs......................
Number of DSP48
slices (25x18 multipliers)................
Embedded block RAM.........................
Virtex-5 LX50
28,800
28,800
48
1,728 kb
NI 7853R
FPGA type............................................
Number of flip-flops............................
Number of 6-input LUTs......................
Number of DSP48
slices (25x18 multipliers)................
Embedded block RAM.........................
Virtex-5 LX85
51,840
51,840
48
3,456 kb
NI 7854R
FPGA type............................................
Number of flip-flops............................
Number of 6-input LUTs......................
Number of DSP48
slices (25x18 multipliers)................
Embedded block RAM.........................
Virtex-5 LX110
69,120
69,120
64
4,608 kb
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5
R Series Intelligent DAQ –
Data Acquisition and Control with Onboard Processing
Timebases
Maximum Working Voltage
Timebase reference sources
NI PCI-781xR/783xR ....................... Onboard clock only
NI PXI-78xxR ................................... Onboard clock, phase-locked to
PXI 10 MHz clock
LabVIEW FPGA derived clocks............ Up to 200 MHz
Timebase accuracy, onboard clock ..... ±100 ppm, 250 ps
peak-to-peak jitter
Phase-locked to PXI 10 MHz clock
(NI PXI-78xxR only) ......................... Adds 350 ps peak-to-peak jitter
Additional frequency-dependent peak-to-peak jitter
NI 781xR/783xR
40 MHz ....................................... None
80 MHz ....................................... 400 ps
120 MHz ..................................... 720 ps
160 MHz ..................................... 710 ps
200 MHz ..................................... 700 ps
NI 784xR/785xR
40 MHz ....................................... None
80 MHz ....................................... 460 ps
120 MHz ..................................... 172 ps
Maximum working voltage refers to the signal voltage plus the
common-mode voltage.
Channel-to-earth ................................. ±12 V, Measurement Category I
Channel-to-channel............................. ±24 V, Measurement Category I
Calibration (NI 783xR/784xR/785xR Only)
Recommended warm-up time............. 15 minutes
Calibration interval ............................. 1 year
Onboard calibration reference
DC level........................................... 5.000 V (±3.5 mV) (actual value
stored in flash memory)
Temperature coefficient...................... ±5 ppm/°C max
Long-term stability.............................. ±20 ppm/1,000 h
Note: Refer to Calibration Certificates at ni.com/calibration to
generate a calibration certificate for the NI 783xR.
Bus Interface
PXI (NI PXI-78xxR only) ....................... Master, slave
PCI (NI PCI-781xR/783xR only) ........... Master, slave
Physical
Dimensions (not including connectors)
NI PCI-781xR/783xR .........................
NI PXI-78xxR .....................................
Weight
NI PCI-781xR/783xR .......................
NI PXI-78xxR ...................................
I/O connectors
NI 781xR .........................................
17 by 11 cm (6.7 by 4.3 in.)
16 by 10 cm (6.3 by 3.9 in.)
112 g
152 g
Four 68-pin female
high-density VHDCI type
NI 783xR/784xR/785xR .................. Three 68-pin female
high-density VHDCI type
Caution: Do not use the NI 783xR/784xR/785xR for connection to
signals in Measurement Category II, III, or IV.
Power Requirement
+5 VDC (±5%)1
NI 781xR ......................................... 9 mA (typ), 50 mA (max)
NI 7830R/7831R ............................. 330 mA (typ), 355 mA (max)
NI 7833R ......................................... 364 mA (typ), 586 mA (max)
NI 7841R/7851R ............................. 125 mA (typ), 252 mA (max)
NI 7842R/7852R ............................. 136 mA (typ), 291 mA (max)
NI 7853R. ........................................ 460 mA typ
NI 7854R ......................................... 484 mA typ
+3.3 VDC (±5%)2
NI 7811R ......................................... 650 mA (typ), 1,000 mA (max)
NI 7813R ......................................... 850 mA (typ), 1,350 mA (max)
NI 7830R/7831R ............................. 462 mA (typ), 660 mA (max)
NI 7833R ......................................... 727 mA (typ), 1,148 mA (max)
NI 7841R/7851R ............................. 525 mA (typ), 1,244 mA (max)
NI 7842R/7852R ............................. 604 mA (typ), 1,484 mA (max)
NI 7853R .................................................. 640 mA typ
NI 7854R .................................................. 843 mA typ
+12 V
NI 784xR/785xR.............................. 0.5 A
-12 V
NI 784xR/785xR.............................. 0.25 A
+5 V terminal
Connector 0..................................... 0.5 A max
Connector 1..................................... 0.5 A max
Connector 2..................................... 0.5 A max
All connectors................................. 1.5 A max3
To calculate the total current sourced by the digital outputs, use
the following equation:
j
∑
current sourced on channel i
i=1
Power available at I/O connectors ..... 4.50 to 5.25 VDC at 1 A total,
250 mA per I/O connector pin
1 Does
not include current drawn from the +5 V line on the I/O connectors.
2
Does not include current sourced by the digital outputs.
3
The NI 784xR/785xR devices have a user-replaceable socketed fuse that opens when current
exceeds the current specification. Refer to the R Series Intelligent DAQ User Manual, available
at ni.com/manuals, for information about fuse replacement.
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6
R Series Intelligent DAQ –
Data Acquisition and Control with Onboard Processing
Environmental
NI 78xxR devices are intended for indoor use only.
Operating Environment
NI 781xR.............................................. 0 to 55 °C (tested in
accordance with IEC-60068-2-1
and IEC-60068-2-2)
NI 7830R, NI 7831R
40 or 80 MHz timebase .................. 0 to 55 °C (tested in
accordance with IEC-60068-2-1
and IEC-60068-2-2)
NI 7833R/7841R/7842R/7851R/7852R/7853R/7854R
40 MHz timebase ........................... 0 to 55 °C (tested in
accordance with IEC-60068-2-1
and IEC-60068-2-2)
80 MHz timebase ........................... 0 to 55 °C except the
following: 0 to 45 °C when
installed in an NI PXI-1000/B or
NI PXI-101x (tested in
accordance with IEC-60068-2-1
and IEC-60068-2-2)
Relative humidity range...................... 10 to 90%, noncondensing
(tested in accordance with
IEC-60068-2-56)
Altitude................................................ 2,000 m at 25 °C
ambient temperature
Storage Environment
Ambient temperature range ............... -20 to 70 °C (tested in
accordance with IEC-60068-2-1
and IEC-60068-2-2)
Relative humidity range...................... 5 to 95%, noncondensing
(tested in accordance with
IEC-60068-2-56)
Note: Clean the device with a soft, nonmetallic brush. Make sure that
the device is completely dry and free from contaminants before returning
it to service.
Shock and Vibration (for NI PXI-78xxR Only)
Operational shock ............................... 30 g peak, half-sine, 11 ms
pulse (tested in accordance
with IEC-60068-2-27; test
profile developed in accordance
with MIL-PRF-28800F)
Random vibration
Operating ........................................ 5 to 500 Hz, 0.3 grms
Nonoperating.................................. 5 to 500 Hz, 2.4 grms
(tested in accordance with
IEC-60068-2-64; nonoperating test
profile exceeds the requirements
of MIL-PRF-28800F, Class 3)
Safety and Compliance
Safety
NI 78xxR devices are designed to meet the requirements of the following
standards of safety for electrical equipment for measurement, control,
and laboratory use:
• IEC 61010-1, EN 61010-1
• UL 61010-1, CSA 61010-1
Note: For UL and other safety certifications, refer to the product label or
visit ni.com/certification, search by model number or product line, and
click the appropriate link in the Certification column.
Electromagnetic Compatibility
This product meets the requirements of the following EMC standards
for electrical equipment for measurement, control, and laboratory use:
• EN 61326 (IEC 61326): Class A emissions; Basic immunity
• EN 55011 (CISPR 11): Group 1, Class A emissions
• AS/NZS CISPR 11: Group 1, Class A emissions
• FCC 47 CFR Part 15B: Class A emissions
• ICES-001: Class A emissions
CE Compliance
This product meets the essential requirements of applicable European
Directives, as amended for CE marking, as follows:
• 2006/95/EC; Low-Voltage Directive (safety)
• 2004/108/EC; Electromagnetic Compatibility Directive (EMC)
Note: Refer to the Declaration of Conformity (DoC) for this product for
any additional regulatory compliance information. To obtain the DoC for
this product, visit ni.com/certification, search by model number or
product line, and click the appropriate link in the Certification column.
Environmental Management
National Instruments is committed to designing and manufacturing
products in an environmentally responsible manner. NI recognizes that
eliminating certain hazardous substances from our products is beneficial
not only to the environment but also to NI customers.
For additional environmental information, refer to the NI and the
Environment Web page at ni.com/environment. This page contains the
environmental regulations and directives with which NI complies, as
well as other environmental information not included in this document.
Waste Electrical and Electronic Equipment (WEEE)
EU Customers: At the end of their life cycle, all products must be
sent to a WEEE recycling center. For more information about WEEE
recycling centers and National Instruments WEEE initiatives,
visit ni.com/environment/weee.htm.
BUY ONLINE at ni.com or CALL 800 813 3693 (U.S.)
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NI Services and Support
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NI has the services and support to meet
your needs around the globe and through
the application life cycle – from planning
and development through deployment
and ongoing maintenance. We offer
services and service levels to meet
customer requirements in research,
design, validation, and manufacturing.
Visit ni.com/services.
Training and Certification
NI training is the fastest, most certain route to productivity with our
products. NI training can shorten your learning curve, save development
time, and reduce maintenance costs over the application life cycle. We
schedule instructor-led courses in cities worldwide, or we can hold a
course at your facility. We also offer a professional certification program
that identifies individuals who have high levels of skill and knowledge on
using NI products. Visit ni.com/training.
Professional Services
Our NI Professional Services team is composed of NI applications
and systems engineers and a worldwide National Instruments Alliance
Partner program of more than 600 independent consultants and
integrators. Services range
from start-up assistance to
turnkey system integration.
Visit ni.com/alliance.
OEM Support
We offer design-in consulting and product integration assistance if you
want to use our products for OEM applications. For information about
special pricing and services for OEM customers, visit ni.com/oem.
ni.com • 800 813 3693
National Instruments • [email protected]
Local Sales and Technical Support
In offices worldwide, our staff is local to the country, giving you access
to engineers who speak your language. NI delivers industry-leading
technical support through online knowledge bases, our applications
engineers, and access to 14,000 measurement and automation
professionals within NI Developer Exchange forums. Find immediate
answers to your questions at ni.com/support.
We also offer service programs that provide automatic upgrades to
your application development environment and higher levels of technical
support. Visit ni.com/ssp.
Hardware Services
NI Factory Installation Services
NI Factory Installation Services (FIS) is the fastest and easiest way to
use your PXI or PXI/SCXI combination systems right out of the box.
Trained NI technicians install the software and hardware and configure
the system to your specifications. NI extends the standard warranty by
one year on hardware components (controllers, chassis, modules)
purchased with FIS. To use FIS, simply configure your system online
with ni.com/pxiadvisor.
Calibration Services
NI recognizes the need to maintain properly calibrated devices for
high-accuracy measurements. We provide manual calibration
procedures, services to recalibrate your products, and automated
calibration software specifically designed for use by metrology
laboratories. Visit ni.com/calibration.
Repair and Extended Warranty
NI provides complete repair services for our products. Express repair
and advance replacement services are also available. We offer
extended warranties to help you meet project life-cycle requirements.
Visit ni.com/services.
*351588B-01*
351588B-01
2008-10077-301-101-D
©2008 National Instruments. All rights reserved. LabVIEW, National Instruments, National Instruments Alliance Partner, NI, ni.com, and SCXI are trademarks of National Instruments.
Other product and company names listed are trademarks or trade names of their respective companies. A National Instruments Alliance Partner is a business entity independent from
National Instruments and has no agency, partnership, or joint-venture relationship with National Instruments.
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