NI 5781R Baseband Transceiver for NI FlexRIO

Technical Sales (866) 531-6285 orders@ni.com Ordering Information Detailed Specifications Pinouts/Front Panel Connections For user manuals and dimensional drawings, visit the product page resources tab on ni.com. Last Revised: 2014-11-06 07:14:09.0 NI 5781R Baseband Transceiver for NI FlexRIO Dual 100 MS/s, 14-bit inputs Dual 100 MS/s, 16-bit outputs 2 Vpp differential I/O (1 Vpp single-ended capable) 40 MHz bandwidth (-3 db) External clock input and output 8 general-purpose digital I/O lines Overview The NI 5781 is an analog dual-input, dual-output NI FlexRIO adapter module optimized for interfacing with baseband to RF upconverters and downconverters. When you pair it with an NI FlexRIO field-programmable gate array (FPGA) module, the resulting NI 5781R is an FPGA-enabled RIO baseband transceiver that you can use to implement custom RF modulation and demodulation, channel emulation, bit error rate testing, or spectral monitoring and jamming. Additionally, you can use the low latency and high throughput of FPGA-based processing for ultrahigh-speed control and inline processing applications. Back to Top Application and Technology Key Specifications The NI 5781 features dual, simultaneously sampled, 14-bit, 100 MS/s differential inputs and dual, simultaneously generated, 16-bit, 100 MS/s differential outputs. Connectivity includes MCX connectors for the eight differential analog input and output lines, clock input, and clock output, along with a 9-pin DIN connector for auxiliary digital I/O. You also can use the module in single-ended mode with the supplied 50 Ω terminators. Table 1 shows the key specifications. Specification Analog Input Analog Output Sample Rate 100 MS/s 100 MS/s Resolution 14 bits 16 bits Number of Channels 2 2 Bandwidth (-3 db) 40 MHz 40 MHz Range (differential) 2 Vpp 2 Vpp Range (single-ended) 1 Vpp 1 Vpp Coupling DC DC Impedance 50 Ω 50 Ω SFDR (@ 5 MHz) 70 dbc 64 dbc THD (@ 5 MHz) -70 dbc -64 dbc Average Noise Density (DC to 50 MHz) -136 dbm/hz -146 dbm/hz Phase Noise Density (@ 10 MHz, 1 khz offset) -127 dbc/hz -127 dbc/hz Table 1. Key NI 5781 Specifications The analog input on the NI 5781 provides the high dynamic range and low noise necessary for acquiring and demodulating baseband communication signals. Figure 1 shows these attributes through the acquisition of a 5 MHz tone. 1/17 www.ni.com

Figure 1. A 5 MHz Tone Acquired by the NI 5781 The analog outputs offer equally high dynamic characteristics (Figure 2) and feature onboard interpolation to sample rates up to 400 MS/s for attenuating the high-frequency reconstruction images found on all digital-to-analog converters (DACs). Application Areas Figure 2. A 5 MHz Tone Generated by the NI 5781 The NI 5781 is optimized for interfacing with baseband to RF upconverters and downconverters. In these applications, the two inputs or outputs of the NI 5781 acquire or generate the in-phase and quadrature (I and Q) or real and imaginary components of the downconverted or upconverted RF signals. With 40 MHz of baseband bandwidth on each of the I and Q channels, you can access up to 80 MHz of RF bandwidth. On the NI FlexRIO FPGA, RF signals can be measured, generated, modulated, demodulated, filtered, decoded, and more. In radio applications, on the FPGA you can implement various layers of a communications standard most often the modulation, demodulation, and tuning, but other layers including coding are also possible. For RF signal test and signals intelligence (SIGINT) applications, you can convert the time domain I and Q signals into the frequency domain and compare the resulting frequency spectrum with an arbitrary mask to implement a real-time spectrum analyzer. You can use this technology to identify unanticipated transmitters in signals intelligence or to ensure proper spectral performance of the device under test (DUT) in test applications. Also, you can add custom filtering, delay, and nonlinearities to acquired signals for immediate generation in custom channel emulation applications, where the low latency and high throughput of an FPGA are critical. Beyond RF, the NI 5781 is useful in frequency-based control. In these applications, high-frequency sinusoids are the stimulus and response signals, so you need a high-bandwidth front end for acquisition and generation. While the NI 5781 samples and generates at 100 MS/s, or with a period of 10 ns, pipelining on the analog-to-digital converter (ADC), DAC, and FPGA, along with the algorithm running on the FPGA, introduce latency. Without any processing, the latency of the NI 5781 is shown in Table 2. DAC Interpolation Disabled DAC Interpolation Enabled Input-to-Output Latency 350 ns 550 ns Table 2. Input-to-Output Latency of the NI 5781 Depending on the complexity of the algorithm on the FPGA, additional latency can range from tens of nanoseconds to several microseconds. Architecturally similar to control applications, inline processing with the NI 5781 helps you add FPGA-defined functionality to your baseband signals. Possible algorithms include delay generation for precision phase control, notch filtering to eliminate unwanted tones coupling into a signal, custom triggering for data reduction, or noise filtering to remove out-of-band noise. These operations are often performed in real time and can return data to a host processor for additional calculation and logging, or you can regenerate the processed signal for interfacing with other equipment. About NI FlexRIO 2/17 www.ni.com

The NI FlexRIO hardware family consists of PXI and PXI Express FPGA modules coupled to I/O adapter modules. Programmed with the NI LabVIEW FPGA Module, these modules together provide high-performance I/O and user-defined hardware processing on the PXI platform. Figure 3. NI FlexRIO Architecture NI FlexRIO FPGA modules feature the latest in FPGA technology and high-performance bus interfaces. Table 3. NI FlexRIO FPGA Module Options PXI Express NI FlexRIO FPGA modules feature Xilinx Virtex-5 SXT FPGAs with up to 512 MB of onboard DRAM, which you can access at bandwidths up to 3.2 GB/s. In addition to general-purpose reconfigurable logic, SXT FPGAs are optimized for high-speed digital signal processing (DSP), with up to 640 DSP slices for single-cycle multiplication and filtering functions. PXI Express NI FlexRIO FPGA modules also feature the NI STC-3 application-specific integrated circuit (ASIC), providing an optimized, high-bandwidth PCI Express x4 communications link to the backplane of the PXI Express chassis. This ASIC reduces the FPGA resources needed to implement host communication and enables new data transfer technology in the unique peer-to-peer (P2P) streaming feature. With NI P2P data streaming technology, you can continuously transfer data to and from PXI Express NI FlexRIO FPGA modules at rates greater than 800 MB/s for additional processing and I/O integration. You can also stream to and from select PXI Express NI modular instruments for an even greater variety of I/O. PXI NI FlexRIO FPGA modules feature Xilinx Virtex-5 LX FPGAs with up to 128 MB of onboard DRAM, which you can access at bandwidths up to 1.6 GB/s. They feature all the benefits of the PXI platform including synchronization, triggering, and high-speed data transfer to and from their host. Table 4. PXI and PXI Express FPGA Module Comparison 3/17 www.ni.com

National Instruments and third parties offer NI FlexRIO adapter modules, and you can build your own adapter modules using the NI FlexRIO Adapter Module Development Kit (MDK). With custom adapter modules, you can implement the exact analog and digital I/O your application requires, along with graphical FPGA programming provided by LabVIEW. View a current list of NI and third-party adapter modules at ni.com/flexrio. This ability to easily create high-bandwidth P2P data streams helps provide scalable signal processing and I/O integration. LabVIEW FPGA With the high-level graphical programming capabilities of LabVIEW FPGA, programming for the NI 5781 is far simpler than low-level HDL programming. Acquiring samples from one of the NI 5781 ADCs at its configured rate and placing the data into an FPGA FIFO is depicted in Figure 4. Figure 4. LabVIEW FPGA Code for Acquiring Data from an NI 5781 ADC From this point, you may implement your own processing, filtering, fast Fourier transform (FFT), or control. Figure 5 shows custom demodulation using IP from the FPGA RF Communications Library on ni.com/labs. Figure 5. LabVIEW FPGA Code for Demodulating and Decoding I and Q Signals after 4X Decimation For implementing a real-time spectrum analyzer, Figure 6 shows code that performs windowing, conversion to the frequency domain, comparison against a frequency mask, and assertion of a trigger when that mask is exceeded. Figure 6. LabVIEW FPGA Code for a Real-Time Spectrum Analyzer Figure 7 shows a custom, 128-tap inline FIR filter with reloadable coefficients. After filtering, the data is generated through the NI 5781 DAC. 4/17 www.ni.com

Figure 7. LabVIEW FPGA Code for an Inline Filter Back to Top Ordering Information For a complete list of accessories, visit the product page on ni.com. Products Part Number Recommended Accessories Part Number NI_5781_FlexRIO_Adapter_Module NI 5781 Baseband Transceiver Adapter Module for NI FlexRIO Requires: 1 FlexRIO Accessories ; 781267-01 FlexRIO Accessories: FlexRIO_PXIE - NI PXIe-7962R 781206-01 Back to Top Support and Services System Assurance Programs NI system assurance programs are designed to make it even easier for you to own an NI system. These programs include configuration and deployment services for your NI PXI, CompactRIO, or Compact FieldPoint system. The NI Basic System Assurance Program provides a simple integration test and ensures that your system is delivered completely assembled in one box. When you configure your system with the NI Standard System Assurance Program, you can select from available NI system driver sets and application development environments to create customized, reorderable software configurations. Your system arrives fully assembled and tested in one box with your software preinstalled. When you order your system with the standard program, you also receive system-specific documentation including a bill of materials, an integration test report, a recommended maintenance plan, and frequently asked question documents. Finally, the standard program reduces the total cost of owning an NI system by providing three years of warranty coverage and calibration service. Use the online product advisors at ni.com/advisor to find a system assurance program to meet your needs. Technical Support Get answers to your technical questions using the following National Instruments resources. Support - Visit ni.com/support to access the NI KnowledgeBase, example programs, and tutorials or to contact our applications engineers who are located in NI sales offices around the world and speak the local language. Discussion Forums - Visit forums.ni.com for a diverse set of discussion boards on topics you care about. Online Community - Visit community.ni.com to find, contribute, or collaborate on customer-contributed technical content with users like you. Repair While you may never need your hardware repaired, NI understands that unexpected events may lead to necessary repairs. NI offers repair services performed by highly trained technicians who quickly return your device with the guarantee that it will perform to factory specifications. For more information, visit ni.com/repair. Training and Certifications The NI training and certification program delivers the fastest, most certain route to increased proficiency and productivity using NI software and hardware. Training builds the skills to more efficiently develop robust, maintainable applications, while certification validates your knowledge and ability. Classroom training in cities worldwide - the most comprehensive hands-on training taught by engineers. On-site training at your facility - an excellent option to train multiple employees at the same time. Online instructor-led training - lower-cost, remote training if classroom or on-site courses are not possible. Course kits - lowest-cost, self-paced training that you can use as reference guides. Training memberships and training credits - to buy now and schedule training later. Visit ni.com/training for more information. Extended Warranty NI offers options for extending the standard product warranty to meet the life-cycle requirements of your project. In addition, because NI understands that your requirements may change, the extended warranty is flexible in length and easily renewed. For more information, visit ni.com/warranty. OEM 5/17 www.ni.com

NI offers design-in consulting and product integration assistance if you need NI products for OEM applications. For information about special pricing and services for OEM customers, visit ni.com/oem. Alliance Our Professional Services Team is comprised of NI applications engineers, NI Consulting Services, and a worldwide National Instruments Alliance Partner program of more than 700 independent consultants and integrators. Services range from start-up assistance to turnkey system integration. Visit ni.com/alliance. Back to Top Detailed Specifications This topic lists the specifications of the National Instruments 5781 FlexRIO adapter module. Pair these specifications with the NI FlexRIO FPGA Module Specifications. Caution To avoid permanent damage to the NI 5781, disconnect all signals connected to the NI 5781 before powering down the module, and only connect signals after the module has been powered on by the NI FlexRIO FPGA module. NI 5781 Block Diagram AD9511 Reference clock can be driven only by the NI PXIe-796xR FlexRIO FPGA modules, and it is limited to a 10 MHz clock. Typical values describe useful product performance that are not covered by warranty. Typical values cover the expected performance of units over ambient temperature ranges of 23 ±5 C with a 90% confidence level, based on measurements taken during development or production. All specifications are typical unless otherwise noted. Note All graphs depicted in these specifications illustrate the performance of a representative module. Analog Input (AI CH 0 and AI CH 1) General Characteristics Number of channels Connector Two, differential, simultaneously sampled MCX Input range (normal operating conditions) Differential Common mode input range Single-ended Absolute maximum input Input impedance Input coupling Fixed 2 V pk-pk ±1 VDC Fixed 1 V pk-pk ±2 V, per connector 50 Ω, per connector DC Sample rate Internal Sample clock External Sample clock 10 MHz to 100 MHz (100 MHz, default) 20 MHz to 100 MHz 6/17 www.ni.com

Data rate (IOModClk0) Digital data range Sample rate ±8,191 1 ADC part number AD9640/105 ; 14-bit resolution, dual ADC, multistage, differential pipelined architecture Typical Specifications Filter type Bandwidth ( 3 db) Fixed 7th-order elliptical Baseband Complex baseband 40 MHz for each I and Q input 80 MHz when used with external I/Q demodulator AI Bandwidth (Passband): Single-Ended Acquisition at 100 MS/s, 64 ks, Gain Referenced to Reading at 50 khz Spurious-free dynamic range (SFDR) and total harmonic distortion (THD) The following table shows the SFDR and THD of the analog input with a source generating a differential 5 MHz sine wave at 1 dbfs input amplitude and the NI 5781 acquiring nd th data at 100 MS/s. The SFDR measurement includes aliased and nonaliased harmonics, measured from DC to 50 MHz. The THD measurement includes the 2 through 6 harmonics. Generation Frequency (MHz) SFDR (dbc) THD (dbc) 5 70 70 AI SFDR and THD: Differential Acquisition at 100 MS/s, 64 ks, Hanning Window, 10 Averages. Source Generating 1 dbfs Sine Wave at 5 MHz, with 5 MHz Low Pass Filters. Third-order intermodulation distortion (IMD ) 3 7/17 www.ni.com

Generation Frequency (MHz) IMD (dbc) 3 20 and 21 69 AI IMD (Centered at 20.5 MHz): Differential Acquisition at 100 MS/s, 64 ks, Hanning Window, 10 Averages. Source Generating Two 7 dbfs Sine Tones at 20 MHz 3 and 21 MHz. AI IMD (Centered at 5 MHz): Differential Acquisition at 100 MS/s, 64 ks, Hanning Window, 10 Averages. Source Generating Two 7 dbfs Sine Tones at 4.8 MHz and 3 5.2 MHz. Average noise density 2 Differential Amplitude Range Average Noise Density V pk-pk dbm dbm/hz dbfs/hz 2 10 35 136 146 Phase noise density 4 Offset from Carrier (Hz) Phase Noise (dbc/hz) 3 100 114 1 k 127 10 k 138 8/17 www.ni.com

AI Phase Noise: Differential Acquisition at 100 MS/s, 2 MS, Hanning Window, 500 Averages, using Free-Running Internal VCXO as Sample Clock. Source Generating a Differential 10 MHz Tone. DC absolute accuracy Gain error Differential offset ±3.6% full-scale range (FSR) ±15 mv Note DC accuracy measured with a DMM. Differential gain and offset may be adjusted through waveform data. Offset is measured with differential inputs grounded through 50 Ω. Analog Output (AO CH 0 and AO CH 1) General Characteristics Number of channels Connector Two, differential, simultaneously sampled MCX Output range Differential Into 100 Ω Into High Z Common mode output voltage Fixed 2 V pk-pk Fixed 4 V pk-pk 0 V, not adjustable Single-ended 5 Into 50 Ω Into High Z Absolute maximum input Output impedance Output coupling Fixed 1 V pk-pk Fixed 2 V pk-pk ±4 V per connector 50 Ω, per connector DC Data rate (IOModClk1) Internal Sample clock External Sample clock Sample rate Interpolation factors Maximum sample rate Digital data range 10 MHz to 100 MHz (100 MHz, default) 20 MHz to 100 MHz AO data rate Interpolation factor 1, 2, 4 (default), 8 400 MS/s ±32,767 6 DAC part number AD9777 ; 16-bit resolution, dual DAC, selectable interpolation rate Note Output terminals support waveform summing. The outputs of multiple NI 5781 channels can be connected together. Typical Specifications Filter type Fixed 7th-order elliptical Bandwidth ( 3 db) 9/17 www.ni.com

Baseband Complex baseband 40 MHz for each I and Q output 80 MHz when used with external I/Q modulator AO Bandwidth (Passband): Measured Single-Ended, AO Generating at 400 MS/s (100 MS/s Data Rate and 4 Interpolation), Gain Referenced to Reading at 50 khz Spurious-Free Dynamic Range (SFDR) and Total Harmonic Distortion (THD) The following table shows the SFDR and THD of the analog output generating a 5 MHz sine wave at 400 MS/s (100 MS/s data rate and 4 interpolation) and 1 dbfs waveform data amplitude. The measurement is single-ended with both terminals terminated to ground through 50 Ω. The SFDR measurement includes aliased and nonaliased harmonics, nd th measured from DC to 50 MHz. The THD measurement includes the 2 through 6 harmonics. Generation Frequency (MHz) SFDR (dbc) THD (dbc) 5 64 64 AO SFDR and THD: AO Generating a 1 dbfs 5 MHz Sine Wave with 100 MS/s Data Rate and 4 Interpolation. Measured Single-Ended using 10 Averages. Third-Order Intermodulation Distortion (IMD ) 3 Generation Frequency (MHz) IMD (dbc) 3 20 and 21 58 AO IMD3 (Centered at 20.5 MHz): AO Generating Two 7 dbfs Sine Tones at 20 MHz and 21 MHz with 100 MS/s Data Rate and 4 Interpolation. Measured Single-Ended using 10 Averages. 10/17 www.ni.com

AO IMD3 (Centered at 5 MHz): AO Generating Two 7 dbfs Sine Tones at 4.8 MHz and 5.2 MHz with 100 MS/s Data Rate and 4 Interpolation. Measured Single-Ended using 10 Averages. Average Noise Density 7 Amplitude Range Average Noise Density V pk-pk dbm dbm/hz dbfs/hz Single-ended 1 4 8 149 153 Differential 2 10 11 146 156 Phase Noise Density 4 Offset from Carrier (Hz) Phase Noise (dbc/hz) 8 100 114 1 k 127 10 k 138 AO Phase Noise: AO Generating a 0 dbfs 20 MHz Sine Wave with 100 MS/s Data Rate and 4 Interpolation, using Free-Running Internal VCXO as the Sample Clock. 11/17 www.ni.com

DC absolute accuracy (into high impedance) Differential gain error Differential offset Common mode offset ±0.8% full-scale range (FSR) ±15 mv ±5 mv Note DC accuracy measured with a DMM. Differential gain and offset may be adjusted through waveform data. Measured with both terminals into high impedance. Internal Sample Clock General Characteristics Oscillator type Frequency range VCXO 100 MHz ±100 ppm 10 Clock distribution part number AD9511 ; clock distribution and on-chip PLL core 9 Reference clock sources IoModSyncClk (10 MHz from PXI backplane) Typical Specifications Frequency stability Temperature Aging ±30 ppm over operating temperature range ±5 ppm per year CLK OUT General Characteristics Number of channels Connector 1, single-ended MCX Output range Into 50 Ω Into High Z Fixed 1 V pk-pk Fixed 2 V pk-pk Absolute maximum input DC AC Output impedance Output coupling Frequency range ±8 V 4 V pk-pk 50 Ω AC Sample clock/ N; where N = 1, 2* M; M = <1..16> 10 Clock distribution part number AD9511 ; clock distribution and on-chip PLL core CLK IN General Characteristics Number of channels 1, single-ended 12/17 www.ni.com

Connector Input voltage range MCX 400 mv pk-pk to 2 V pk-pk Absolute maximum input DC AC Input frequency range Duty cycle requirements Input impedance Input coupling ±8 V 4 V pk-pk 20 MHz to 100 MHz 40% to 60% 50 Ω AC 10 Clock distribution part number AD9511 ; clock distribution and on-chip PLL core PFI<0..7> General Characteristics Number of channels 8; 5 output, 2 input, 1 bidirectional 2 Note PFI Out 4 and PFI In 7/PFI Out 7 are available for interfacing with an I C bus. Refer to AUX I/O Connector Pin Assignments for more information. Connector type 9-pin DIN with shield Interface logic 3.3 V LVTTL V IH V IL Z in V OH V OL Z out Absolute maximum input Maximum toggle frequency 2 V 0.8 V 5 kω 2.4 V 0.6 V 50 Ω 1 V to +5 V per channel 5 MHz EEPROM Map Byte Address Size (Bytes) Field Name 0x0 2 Vendor ID 0x2 2 Product ID 0x4 4 Serial Number 0x8 116 Reserved 0x7C 132 User Space Caution Only write to User Space. Writing to any other offset may cause the NI 5781 to stop functioning. Power Total power, typical operation 11 5.5 W Physical Dimensions Weight Front panel connectors 12.9 2.0 12.1 cm (5.1 0.8 4.7 in.) 284 g (10 oz) 10 MCX and one 9-pin DIN with shield Environmental The NI 5781 is intended for indoor use only. 0 C to 55 C, tested in accordance with IEC-60068-2-1 and IEC-60068-2-2. 13/17 www.ni.com

Operating environment Relative humidity range Altitude Pollution Degree 10% to 90%, noncondensing, tested in accordance with IEC-60068-2-56. 2,000 m at 25 C ambient temperature. 2 Storage environment Ambient temperature range Relative humidity range 20 C to 70 C, tested in accordance with IEC-60068-2-1 and IEC-60068-2-2. 5% to 95%, noncondensing, tested in accordance with IEC-60068-2-56. Note Clean the device with a soft, non-metallic brush. Make sure that the device is completely dry and free from contaminants before returning it to service. Safety Standards This product is 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 the Online Product Certification section. 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 Note For the standards applied to assess the EMC of this product, refer to the Online Product Certification section. Note For the standards applied to assess the EMC of this product, refer to the Online Product Certification section. Note For EMC compliance, you must install two ferrites per cable, on the 9-pin DIN and CLK OUT cables (NI part number 711849-01 for CLK OUT, and NI part number 711627-01 for the 9-pin DIN cable). For best results, snap the ferrites onto the cables as close as possible to the plug at each end. For more information about how to use the cable ferrites with the NI 5781, refer to the Attaching Ferrites to Your Cables Note to Users included in your kit. Note For EMC compliance, operate this device with shielded cables and according to the documentation. 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) Online Product Certification Refer to the product Declaration of Conformity (DoC) for additional regulatory compliance information. To obtain product certifications and the DoC for this product, visit ni.com/certification, search by module 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 the product life cycle, all products must be sent to a WEEE recycling center. For more information about WEEE recycling centers, National Instruments WEEE initiatives, and compliance with WEEE Directive 2002/96/EC on Waste Electrical and Electronic Equipment, visit ni.com/environment/weee.htm. 1 For additional information on the AD9640, refer to the Analog Devices device data sheet at www.analog.com. 2 Average noise density from DC to 50 MHz, acquiring at 100 MS/s; inputs grounded through 50 Ω terminations. 3 Measured on a 10 MHz tone using the free-running internal VCXO as the Sample clock. 4 The bandwidth of the PLL is 200 Hz when locking to IoModSyncClk. 5 Both output terminals must be terminated to ground with the same impedance. 6 For additional information about the AD9777, refer to the Analog Devices device data sheet at. www.analog.com 7 The average noise density is measured from DC to 50 MHz. The AO generates 0 V DC at 400 MS/s (100 MS/s data rate and 4 interpolation). 14/17 www.ni.com

8 Measured on a 10 MHz tone using the free-running internal VCXO as the Sample clock and the DAC using 4 interpolation and 100 MS/s data rate (400 MS/s). 9 IoModSyncClk is available only on the NI PXIe-796xR FPGA module. 10 For additional information about the AD9511, refer to the Analog Devices device data sheet at. www.analog.com 11 100 MHz DAC data rate, 4 interpolation ON, and DAC modulation OFF. Back to Top 15/17 www.ni.com

Pinouts/Front Panel Connections NI 5781 AUX I/O Connector Pin Assignments 16/17 www.ni.com

NI 5781 Front Panel Connectors Back to Top 2010 National Instruments. All rights reserved. CompactRIO, FieldPoint, LabVIEW, National Instruments, National Instruments Alliance Partner, NI, ni.com, and NI FlexRIO 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. My Profile RSS Privacy Legal Contact NI 2014 National Instruments Corporation. All rights reserved. 17/17 www.ni.com