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NI-5731/5732/5733 User Guide and Specifications
The NI-5731/5732/5733/5734 is a family of high-speed digitizer adapter modules designed to work in
conjunction with your NI FlexRIO
specifications for the NI-5731/5732/5733/5734R, which is composed of an NI FlexRIO FPGA module
and the NI-5731/5732/5733/5734. This document also contains tutorial sections that demonstrate how
to acquire data using a LabVIEW FPGA example VI and how to create and run your own LabVIEW
project with the NI-5731/5732/5733/5734R.
Note
The NI-5734 information in this document is out of date. Refer to
NI-5734 product documentation.
Note
NI-5731/5732/5733/5734R refers to the combination of your NI-5731/5732/5733/5734
adapter module and your NI FlexRIO FPGA module. NI-5731/5732/5733/5734 refers to your
NI-5731/5732/5733/5734 adapter module only.
A description of each of the NI-5731/5732/5733/5734 devices is given below:
•
NI-5731—2 analog input, 12-bit, 40 MS/s digitizer
•
NI-5732—2 analog input, 14-bit, 80 MS/s digitizer
•
NI-5733—2 analog input, 16-bit, 120 MS/s digitizer
•
NI-5734—4 analog input, 16-bit, 120 MS/s digitizer
Contents
Electromagnetic Compatibility Guidelines.......................................................................................... 2
How to Use Your NI FlexRIO Documentation Set ............................................................................. 3
Front Panel and Connector Pinouts ..................................................................................................... 4
Block Diagram..................................................................................................................................... 6
NI-5731/5732/5733/5734 Component-Level Intellectual Property (CLIP) ........................................ 7
Cables................................................................................................................................................... 8
Clocking............................................................................................................................................... 8
Using Your Device with a LabVIEW FPGA Example VI .................................................................. 9
Creating a LabVIEW Project and Running a VI on an FPGA Target ................................................. 11
Specifications....................................................................................................................................... 14
Appendix: Installing EMI Controls ..................................................................................................... 40
NI Services........................................................................................................................................... 41
™
FPGA module. This document contains signal information and
for updated
ni.com/docs
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Related Manuals for National Instruments NI-5732
Summary of Contents for National Instruments NI-5732
- Page 1 A description of each of the NI-5731/5732/5733/5734 devices is given below: • NI-5731—2 analog input, 12-bit, 40 MS/s digitizer • NI-5732—2 analog input, 14-bit, 80 MS/s digitizer • NI-5733—2 analog input, 16-bit, 120 MS/s digitizer • NI-5734—4 analog input, 16-bit, 120 MS/s digitizer Contents Electromagnetic Compatibility Guidelines..................
- Page 2 Note Before configuring your NI-5731/5732/5733/5734R, you must install the appropriate software and hardware. Refer to the NI FlexRIO FPGA Module Installation Guide and Specifications for installation instructions. Figure 1 shows an example of a properly connected NI FlexRIO device. NI FlexRIO NI FlexRIO NI FlexRIO Device Adapter Module...
- Page 3 Other Useful Information on ni.com Contains LabVIEW FPGA functions and intellectual property to share. ni.com/ipnet Contains product information and data sheets for NI FlexRIO devices. ni.com/flexrio These documents are also available at ni.com/manuals © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 4 Front Panel and Connector Pinouts Front Panel Table 2 shows the front panel connector and signal descriptions for the NI-5731/5732/5733/5734. Refer to the Specifications section of this document for additional signal information. Table 2. NI-5731/5732/5733/5734 Front Panel Connectors Connector Signal Description 50 Ω...
- Page 5 HDMI interface. Do not connect the AUX I/O port on the NI-5731/5732/5733/5734 into the HDMI port of another device. NI is not liable for any damage resulting from such signal connections. © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 6 Block Diagram Figure 3 shows the NI-5731/5732/5733/5734 block diagram and signal flow to and from the NI-5731/5732/5733/5734 component-level intellectual property (CLIP) by way of the adapter module and the corresponding CLIP in LabVIEW FPGA. NI 5731/5732/5733/5734 Adapter Module LabVIEW FPGA CLIP DC Over Voltage ADC Data AI 0...
- Page 7 Internal Sample clock locked to an external Reference clock through the CLK IN connector • External Sample clock through the CLK IN connector • Internal Sample clock locked to an external Reference clock through Sync Clock © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 8 Frequency Description Internal Clock NI-5731 = 40 MS/s — — The internal VCXO PLL Off NI-5732 = 80 MS/s acts as a free-running NI-5733 = 120 MS/s clock. NI-5734 = 120 MS/s Internal Clock NI-5731 = 40 MS/s — 10 MHz...
- Page 9 NI-5731 Max = 40 MHz clock can be provided to the external clock through the CLK IN NI-5732 Min = 20 MHz frequency. front panel connector. † NI-5732 Min = 10 MHz NI-5732 Max = 80 MHz...
- Page 10 Complete the following steps to run an example that acquires a waveform on AI 0 of the NI-5731/5732/5733/5734. Connect one end of an BNC cable to AI 0 on the front panel of the NI-5731/5732/5733/5734 and the other end of the cable to your device under test (DUT). Launch LabVIEW.
- Page 11 Launch LabVIEW, or if LabVIEW is already running, select File»New. In the New dialog box, select Project»Empty Project and click OK. The new project opens in the Project Explorer window. Save the project as 573xSampleAcq.lvproj © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 12 Creating an FPGA Target VI In the Project Explorer window, right-click My Computer and select New»Targets and Devices. In the Add Targets and Devices on My Computer dialog box, select the Existing Target or Device button and expand FPGA Target. The target is displayed. Select your device and click OK.
- Page 13 Reference In terminal of the Close FPGA VI Reference function. 17. Wire the error out terminal of the Read/Write Control function to the error in terminal of the Close FPGA VI Reference function. © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 14 Your block diagram should now resemble the block diagram in Figure 7. Figure 7. 573xSampleAcq(Host).vi Block Diagram 18. Save the VI as 573xSampleAcq(Host).vi Running the Host VI Connect one end of an BNC cable to AI 0 on the front panel of the NI-5731/5732/5733/5734 and the other end of the cable to your DUT.
- Page 15 1.043 V 0.5212 V pk-pk pk-pk pk-pk For additional information about the ADC within your device, use the listed part number to locate the appropriate Analog Devices data sheet at www.analog.com. © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 16 DC Gain Error Table 6. DC Gain Error (Full Scale) Device Gain = 0 dB Gain = 6 dB Gain = 12 dB NI-5731 ±0.9% ±1.2% ±1.7% NI-5732 ±0.5% ±0.8% ±1.4% NI-5733/5734 ±0.6% ±0.8% ±1.5% Noise Table 7. Average Noise Density...
- Page 17 50 Ω. When measuring crosstalk at 6 dB and 12 dB gain, the crosstalk is 6 dB and 12 dB worse, respectively. Measured at –1 dBFS. Measured at –1 dBFS. © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 18 –86 dB –112 dB –90 dB Phase adjust DAC range NI-5731............406 ± 13 degrees NI-5732 ............427 ± 13 degrees NI-5733 ............429 ± 9 degrees NI-5734 ............429 ± 13 degrees Frequency adjust DAC range .........±100 ppm Data rate (IOModuleClock0) .........Sample rate NI-5731/5732/5733/5734R User Guide and Specifications ni.com...
- Page 19 Figure 8. AC-Coupled Low Frequency Response (Multiple Channels Overlaid) –1 –2 –3 –4 –5 –6 –7 NI 5731 NI 5732 NI 5733/5734 –8 Frequency ( MHz ) Figure 9. Filter Bypass Frequency Response (Multiple Channels Overlaid) © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 20 –10 –20 –30 –40 –50 –60 –70 –80 NI 5731 NI 5732 NI 5733/5734 –90 Frequency ( MHz ) Figure 10. Elliptic Filter Frequency Response (Multiple Channels Overlaid) –1 –2 –3 –4 –5 NI 5731 NI 5732 NI 5733/5734 –6 Frequency ( MHz ) Figure 11.
- Page 21 Figure 12. Bessel Filter Frequency Response (Multiple Channels Overlaid) –1 –2 –3 –4 –5 NI 5731 NI 5732 NI 5733/5734 –6 Frequency ( MHz ) Figure 13. Bessel Filter Frequency Response: 0 to –6 dB (Multiple Channels Overlaid) © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 22 NI-5731 Group Delay –2 Frequency ( MHz ) Figure 14. NI-5731 Elliptic Filter Group Delay (12 Channels Overlaid) –1 –2 –3 –4 –5 Frequency ( MHz ) Figure 15. NI-5731 Bessel Filter Group Delay (12 Channels Overlaid) NI-5731/5732/5733/5734R User Guide and Specifications ni.com...
- Page 23 NI-5732 Group Delay –1 Frequency ( MHz ) Figure 16. NI-5732 Elliptic Filter Group Delay (12 Channels Overlaid) –1 –2 –3 –4 –5 Frequency ( MHz ) Figure 17. NI-5732 Bessel Filter Group Delay (12 Channels Overlaid) © National Instruments Corporation...
- Page 24 NI-5733/5734 Group Delay –1 –2 Frequency ( MHz ) Figure 18. NI-5733/5734 Elliptic Filter Group Delay (44 Channels Overlaid) –1 –2 –3 –4 –5 –6 Frequency ( MHz ) Figure 19. NI-5733/5734 Bessel Filter Group Delay (44 Channels Overlaid) NI-5731/5732/5733/5734R User Guide and Specifications ni.com...
- Page 25 –100 –110 –120 –130 –140 –150 100k Frequency Offset (Hz) from 23.17 MHz Carrier Figure 21. NI-5732 AI Phase Noise (23.17 MHz Input, PLL Unlocked, Onboard Oscillator, 466 FS RMS Jitter) © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 26 NI-5733/5734 –100 –110 –120 –130 –140 –150 100k Frequency Offset (Hz) from 40 MHz Carrier Figure 22. NI-5733/5734 AI Phase Noise (40 MHz Input, PLL Unlocked, Onboard Oscillator, 453 FS RMS Jitter) –100 –110 –120 –130 –140 –150 100k Frequency Offset (Hz) from 40 MHz Carrier Figure 23.
- Page 27 Figure 24. NI-5731 Gain at 0 dB; Elliptic, Bessel, or Filter Bypass; AC- or DC-coupled –10 –20 –30 –40 –50 –60 –70 –80 –90 –100 –110 –120 Frequency (MHz) Figure 25. NI-5731 Gain at 12 dB; Elliptic, Bessel, or Filter Bypass; AC- or DC-coupled © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 28 –20 –30 –40 –50 –60 –70 –80 –90 –100 –110 –120 Frequency (MHz) Figure 26. NI-5732 Gain at 0 dB; Elliptic, Bessel, or Filter Bypass; AC- or DC-coupled –10 –20 –30 –40 –50 –60 –70 –80 –90 –100 –110 –120 Frequency (MHz) Figure 27.
- Page 29 Figure 28. NI-5733/5734 Gain at 0 dB; Elliptic, Bessel, or Filter Bypass; AC- or DC-coupled –10 –20 –30 –40 –50 –60 –70 –80 –90 –100 –110 –120 Frequency (MHz) Figure 29. NI-5733/5734 Gain at 12 dB; Elliptic, Bessel, or Filter Bypass; AC- or DC-coupled © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 30 Spectral Measurements (16,382 point FFT) NI-5731 –10 –20 –30 –40 –50 –60 –70 –80 –90 –100 –110 Frequency (MHz) Figure 30. NI-5731 Gain at 0 dB: –1 dBFS at 4.9 MHz, –95 dBc SFDR, Bypass Filter, 100 Averages RMS –10 –20 –30 –40...
- Page 31 –30 –40 –50 –60 –70 –80 –90 –100 –110 Frequency (MHz) Figure 33. NI-5732 Gain at 0 dB: –1 dBFS at 9.7 MHz, –91 dBc SFDR, Bypass Filter, 100 Averages RMS © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 32 –30 –40 –50 –60 –70 –80 –90 –100 –110 Frequency (MHz) Figure 34. NI-5732 Gain at 12 dB: –1 dBFS at 9.7 MHz, –94 dBc SFDR, Bypass Filter, 100 Averages RMS –10 –20 –30 –40 –50 –60 –70 –80 –90 –100...
- Page 33 –30 –40 –50 –60 –70 –80 –90 –100 –110 Frequency (MHz) Figure 37. NI-5733/5734 Gain at 12 dB: –1 dBFS at 20.1 MHz, –87 dBc SFDR, Bypass Filter, 100 Averages RMS © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 34 –50 –60 –70 –80 –90 –100 –110 Frequency (MHz) Figure 39. NI-5732 at 12 dB Gain and Filter Bypass: –83 dBc, f = 19.6 MHz (–7 dBFS), 20.8 MHz (–7 dBFS), 100 Average RMS NI-5731/5732/5733/5734R User Guide and Specifications ni.com...
- Page 35 Clock distribution part number ......AD9511 ; clock distribution Oscillator type............VCXO Frequency NI-5731............40 MHz ± 50 ppm NI-5732............80 MHz ± 100 ppm NI-5733/5734..........120 MHz ± 100 ppm Phase noise.............Refer to the Analog Input Total Phase Noise section Typical Specifications Frequency stability Temperature ...........±30 ppm over the operating temperature range...
- Page 36 NI-5731 Max = 40 MHz clock can be provided to the external clock through the CLK IN NI-5732 Min = 20 MHz frequency. front panel connector. † NI-5732 Min = 10 MHz NI-5732 Max = 80 MHz...
- Page 37 NI-5734............4.5 W Physical Dimensions ............12.9 × 2.0 × 12.1 cm (5.1 × 0.8 × 4.7 in.) Weight NI-5731/5732/5733........313 g (11.0 oz) NI-5734............332 g (11.7 oz) Front panel connectors...........BNC, SMB, and HDMI © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 38 Environmental .........0 °C to 55 °C, Operating environment 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. Pollution Degree ............2 Altitude ..............2,000 m Indoor use only. Storage environment Ambient temperature range ......–20 °C to 70 °C, tested in accordance with IEC-60068-2-1 and IEC-60068-2-2.
- Page 39 For more information about WEEE recycling centers, NI WEEE initiatives, and compliance with WEEE Directive 2002/96/EC on Waste and Electronic Equipment, visit ni.com/environment/weee National Instruments (RoHS) National Instruments RoHS ni.com/environment/rohs_china (For information about China RoHS compliance, go to ni.com/environment/rohs_china © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 40 Appendix: Installing EMI Controls To ensure specified EMC performance, an HDMI cable ferrite and PXI EMC filler panels must be properly installed in your NI FlexRIO system. Your kit includes the HDMI cable ferrite, but the PXI EMC filler panels (NI part number 778700-01) must be purchased separately. For more installation information, refer to the NI FlexRIO FPGA Module Installation Guide and Specifications.
- Page 41 NI product. Product registration facilitates technical support ni.com/register and ensures that you receive important information updates from NI. NI corporate headquarters is located at 11500 North Mopac Expressway, Austin, Texas, 78759-3504, USA. © National Instruments Corporation NI-5731/5732/5733/5734R User Guide and Specifications...
- Page 42 For patents covering NI products/technology, refer to the appropriate location: Help»Patents in your software, the patents.txt file on your media, or the National Instruments Patents Notice at ni.com/patents. You can find information about end-user license agreements (EULAs) and third-party legal notices in the readme file for your NI product.
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