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Software Defined Radio
function of wireless communication transmitter and receiver is changed by software.
See Also: Radio, Radio Frequency, Ham Radio, Mobile Radio, SDR
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Software Defined Radio
NI software defined radios (SDRs) provide the design solution to rapidly prototype wireless communications systems, which leads to faster results. You can present applications with real-world signals such as multiple input, multiple output (MIMO) and LTE/WiFi testbed.
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USRP Software Defined Radio Reconfigurable Device
The USRP Software Defined Radio Reconfigurable Device is built on the LabVIEW reconfigurable I/O (RIO) and universal software radio peripheral (USRP) architectures. It includes a powerful FPGA for advanced DSP that you can program with the LabVIEW FPGA Module. The device includes 2x2 MIMO transceivers or four-channel superheterodyne receivers, supporting center frequencies from 10 MHz to 6 GHz, with up to 160 MHz of instantaneous bandwidth. The USRP Software Defined Radio Reconfigurable Device also optionally includes a GPS‐disciplined oven-controlled crystal oscillator (GPSDO), which provides greater frequency accuracy than temperature- compensated crystal oscillators. Prototyping applications include LTE and 802.11 prototyping, spectrum monitoring, signals intelligence, military communications, radar, direction finding, and wireless research.
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Software Defined Radio Program
Scientific Research Corp. STI Division
SRC is on the forefront of software defined radio technology, test, and interoperability. We provide systems engineering support for waveform testing, software and hardware integration, standards compliance, and information assurance.
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Software Defined Radio Firmware
FWSDR
The combination of the firmware FWSDR and the high-end digitizer ADQ14 creates a unique platform for software-defined radio. This 14-bit digitizer provides the high dynamic range needed in an RF environment and the interleaving technology provides high signal bandwidth coverage.The interleaving technology is provided through the use of SP Devices’ proprietary technology ADX which removes typical interleaving artifacts and enables the unique combination of bandwidth and dynamic range.
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400 MHz to 4.4 GHz, GPS-Disciplined OCXO, Reconfigurable USRP Software Defined Radio Device
783927-01
400 MHz to 4.4 GHz, GPS-Disciplined OCXO, Reconfigurable USRP Software Defined Radio Device - The USRP-2952 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless communication systems. Built on the LabVIEW reconfigurable I/O (RIO) architecture, USRP RIO delivers an integrated hardware and software solution, so researchers can prototype faster and shorten time to results. You can prototype a range of advanced research applications that include multiple input, multiple output (MIMO); synchronization of heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding. The USRP-2952 is equipped with a GPS-disciplined 10 MHz oven-controlled crystal oscillator (OCXO) reference clock. GPS disciplining delivers improved frequency accuracy and synchronization capabilities.
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USRP Software Defined Radio Device
The USRP Software Defined Radio Device is a reconfigurable RF device that includes a combination of host-based processors, FPGAs, and RF front ends. The USRP Software Defined Radio Device include options that range from lower cost options with fixed FPGA personalities to high-end radios with a large, open FPGAs and wide instantaneous bandwidth. These devices can be used for applications such as multiple input, multiple output (MIMO) and LTE/WiFi testbeds, SIGINT, and radar systems.
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USRP-2920, 20 MHz Bandwidth, 50 MHz to 2.2 GHz USRP Software Defined Radio Device
781906-01
20 MHz Bandwidth, 50 MHz to 2.2 GHz USRP Software Defined Radio Device - The USRP‑2920 is a tunable RF transceiver with a high-speed analog‑to‑digital converter and digital‑to‑analog converter for streaming baseband I and Q signals to a host PC over 1 Gigabit Ethernet. You can also use the USRP‑2920 for the following applications: white space; broadcast FM; public safety; land-mobile, low-power unlicensed devices on industrial, scientific, and medical (ISM) bands; sensor networks; cell phone; amateur radio; or GPS.
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USRP-2955, 10 MHz to 6 GHz, 80 MHz Bandwidth, GPS-Disciplined OCXO, Reconfigurable USRP Software Defined Radio Device
785264-01
The USRP-2955 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless receiver systems. It is designed for over-the-air signal acquisition and analysis. It features a two-stage superheterodyne architecture with four independent receiver channels and shares local oscillators for phase-coherent operation. It also offers a Kintex-7 FPGA programmable with the LabVIEW FPGA Module. With these features, the USRP-2955 has the RF and processing performance for applications such as spectrum monitoring, direction finding, signals intelligence, wideband recording, and radar prototyping. The USRP-2955 is equipped with a GPS-disciplined 10 MHz oven-controlled crystal oscillator (OCXO) Reference Clock, which improves frequency accuracy and synchronization.
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USRP-2900, 70 MHz to 6 GHz USRP Software Defined Radio Device
784039-01
70 MHz to 6 GHz USRP Software Defined Radio Device - The USRP‑2900 is a tunable RF transceiver with full-duplex operation. It offers bus-powered connectivity with USB 3.0 or USB 2.0. You also can use the NI USRP‑2900 for the following communications applications: white space; broadcast FM; public safety; land-mobile, low-power unlicensed device (ISM) bands; sensor networks; amateur radio; or GPS.
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USRP-2901, 70 MHz to 6 GHz, 2-Channel USRP Software Defined Radio Device
784040-01
70 MHz to 6 GHz, 2-Channel USRP Software Defined Radio Device - The USRP‑2901 is a tunable RF transceiver with full-duplex, MIMO operation. It offers bus-powered connectivity with USB 3.0 or USB 2.0. You can also use the NI USRP‑2901 for the following communications applications: white space; broadcast FM; public safety; land-mobile, low-power unlicensed device (ISM) bands; sensor networks; amateur radio; or GPS.
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USRP‑2932, 20 MHz Bandwidth, 400 MHz to 4.4 GHz, Included GPS-Disciplined OCXO, USRP Software Defined Radio Device
781911-01
20 MHz Bandwidth, 400 MHz to 4.4 GHz, Included GPS-Disciplined OCXO, USRP Software Defined Radio Device - The USRP‑2932 is a tunable RF transceiver with a high-speed analog‑to‑digital converter and digital‑to‑analog converter for streaming baseband I and Q signals to a host PC over 1 Gigabit Ethernet. You can also use the NI USRP‑2930 for the following communications applications: WiFi, WiMax, S‑band transceivers, and 2.4 GHz industrial, scientific, and medical (ISM) band transceivers.
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PXIe-5841, 6 GHz, 1 GHz Bandwidth, RF PXI Vector Signal Transceiver
785832-01
6 GHz, 1 GHz Bandwidth, RF PXI Vector Signal Transceiver - The PXIe-5841 is a vector signal transceiver (VST) with 1 GHz of instantaneous bandwidth. It combines vector signal generator, vector signal analyzer and high-speed serial interface capabilities with FPGA-based real-time signal processing and control. The PXIe-5841 features the flexibility of a software defined radio architecture with RF instrument class performance. This VST delivers the fast measurement speed and small form factor of a production test box with the flexibility and high performance of R&D-grade box instruments. The PXIe-5841 is available with an optional high-performance local oscillator module for improved phase noise, measurement time, and EVM performance. You can use the VST to test a variety of cellular and wireless standards such as Wi-Fi 6 and 5G NR. In addition, you can expand the small, two slot 2U PXI Express form factor to support multiple input, multiple output (MIMO) configurations.
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GNSS Simulator
NCS NOVA
The NCS NOVA is IFEN´s newest RF signal generator technology based on a modular and highly flexible Software Defined Radio (SDR) platform. This flexibility makes the NCS NOVA the ideal choice for a wide range of test applications.The NCS NOVA`s full upgradeability makes it a future-proof investment for the upcoming multi-frequency era in commercial and professional applications. It is far more than just a GPS/GNSS Simulator!
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400 MHz to 4.4 GHz, GPS-Disciplined OCXO, Reconfigurable USRP Software Defined Radio Device
783151-01
400 MHz to 4.4 GHz, GPS-Disciplined OCXO, Reconfigurable USRP Software Defined Radio Device - The USRP-2952 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless communication systems. Built on the LabVIEW reconfigurable I/O (RIO) architecture, USRP RIO delivers an integrated hardware and software solution, so researchers can prototype faster and shorten time to results. You can prototype a range of advanced research applications that include multiple input, multiple output (MIMO); synchronization of heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding. The USRP-2952 is equipped with a GPS-disciplined 10 MHz oven-controlled crystal oscillator (OCXO) reference clock. GPS disciplining delivers improved frequency accuracy and synchronization capabilities.
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USRP-2900, Software Defined Radio Device Bundle
784113-01
USRP-2900 Software Defined Radio Device Bundle - The USRP-2900 Teaching Bundle includes two USRP (Universal Software Radio Peripheral) Software Defined Radio Devices, turnkey courseware, and other accessories such as USB 3.0 cables and SMA attenuators. Students can use USRP … Software Defined Radio Devices with LabVIEW to experiment with real-world signals in introductory communications and digital communications laboratories. The USRP-2900 Teaching Bundle helps students experiment with FM radio, GPS, GSM, Bluetooth, and ISM signals. The bundle also includes components of a lab station that students can use to gain hands-on experience with live communication links between multiple USRP Software Defined Radio Devices.
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Mezzanine FPGA I/O Module
DAC-MOD1
Curtiss-Wright Defense Solutions
Simple analog IO to a processor is no longer enough. Software Defined Radio (SDR), RADAR, and telecommunications applications demand closely coupled high performance processing.
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USRP Software Defined Radio Stand-Alone Device
The USRP Software Defined Radio Stand-Alone Device consists of an onboard processor, FPGA, and RF front end. You can program this device using either LabVIEW Communications System Design Suite or an open-source software workflow, depending on the operating system you choose. You can provision the device with NI Linux Real-Time, Linux Fedora, or Linux Ubuntu real-time operating systems. The USRP Software Defined Radio Stand-Alone Device enables you to prototype a range of advanced research applications such as stand-alone LTE or 802.11 device emulation; Medium Access Control (MAC) algorithm development; multiple input, multiple output (MIMO); heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding.The registered trademark Linux® is used pursuant to a sublicense from LMI, the exclusive licensee of Linus Torvalds, owner of the mark on a worldwide basis.
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50 MHz to 2.2 GHz, Reconfigurable USRP Software Defined Radio Device
783923-01
50 MHz to 2.2 GHz, Reconfigurable USRP Software Defined Radio Device - The USRP-2940 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless communication systems. Built on the LabVIEW reconfigurable I/O (RIO) architecture, USRP RIO delivers an integrated hardware and software solution, so researchers can prototype faster and significantly shorten time to results. You can prototype a wide range of advanced research applications that include multiple input, multiple output (MIMO); synchronization of heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding.
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USRP-2954, 10 MHz to 6 GHz, GPS-Disciplined OCXO, Reconfigurable USRP Software Defined Radio Device
783153-01
The USRP-2954 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless communication systems. Built on the LabVIEW reconfigurable I/O (RIO) architecture, USRP RIO delivers an integrated hardware and software solution, so researchers can prototype faster and shorten time to results. You can prototype a range of advanced research applications that include multiple input, multiple output (MIMO); synchronization of heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding. The USRP-2954 is equipped with a GPS-disciplined 10 MHz oven-controlled crystal oscillator (OCXO) reference clock. The GPS disciplining delivers improved frequency accuracy and synchronization capabilities.
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USRP-2901, Software Defined Radio Device Bundle
784114-01
USRP-2901 Software Defined Radio Device Bundle - The USRP-2901 Teaching Bundle includes two USRP (Universal Software Radio Peripheral) Software Defined Radio Devices, turnkey courseware, and other accessories such as USB 3.0 cables and SMA attenuators. Students can use USRP … Software Defined Radio Devices with LabVIEW to experiment with real-world signals in introductory communications and digital communications laboratories. The USRP-2901 Teaching Bundle helps students experiment with FM radio, GPS, GSM, Bluetooth, and ISM signals. The bundle also includes components of a lab station that students can use to gain hands-on experience with live communication links between multiple USRP Software Defined Radio Devices.
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PXIe-5672, 2.7 GHz, 20 MHz Bandwidth Digital Upconverter Included, PXI Vector Signal Generator
779900-01
2.7 GHz, 20 MHz Bandwidth Digital Upconverter Included, PXI Vector Signal Generator —The PXIe‑5672 features quadrature digital upconversion, which reduces waveform download and signal generation time. It is a general-purpose vector signal generator that can generate standard modulation formats such as AM, FM, PM, ASK, FSK, MSK, GMSK, PSK, QPSK, PAM, and QAM. The PXIe‑5672 delivers a highly flexible and powerful solution for scientific research, consumer electronics, communications, aerospace/defense, and semiconductor test applications as well as emerging areas including software defined radio, radio frequency identification (RFID), and wireless sensor networks. For specific communications standards, you can use various software add-ons to generate modulated signals according to standards such as WCDMA, DVB‑H, and ZigBee.
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PXIe-5646, 6 GHz, 200 MHz Bandwidth, RF PXI Vector Signal Transceiver
782952-01
6 GHz, 200 MHz Bandwidth, RF PXI Vector Signal Transceiver—The PXIe‑5646 combines a vector signal generator and vector signal analyzer with FPGA-based real-time signal processing and control into a single device, also known as a VST. Because of this software-designed approach, the PXIe‑5646 features the flexibility of a software defined radio architecture with RF instrument class performance. The additional bandwidth of the PXIe‑5646 enables you to test wireless and cellular standards such as 802.11ac 160 MHz and LTE‑A carrier aggregation while leveraging the latest performance-enhancing processing techniques such as digital predistortion.
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USRP-2940, 50 MHz to 2.2 GHz, Reconfigurable USRP Software Defined Radio Device
783146-01
50 MHz to 2.2 GHz, Reconfigurable USRP Software Defined Radio Device - The USRP-2940 provides an integrated hardware and software solution for rapidly prototyping high-performance wireless communication systems. Built on the LabVIEW reconfigurable I/O (RIO) architecture, USRP RIO delivers an integrated hardware and software solution, so researchers can prototype faster and significantly shorten time to results. You can prototype a wide range of advanced research applications that include multiple input, multiple output (MIMO); synchronization of heterogeneous networks; LTE relaying; RF compressive sampling; spectrum sensing; cognitive radio; beamforming; and direction finding.
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PXIe-5644, 6 GHz, 80 MHz Bandwidth, RF PXI Vector Signal Transceiver
782376-01
6 GHz, 80 MHz Bandwidth, RF PXI Vector Signal Transceiver—The PXIe‑5644 combines a vector signal generator and vector signal analyzer with FPGA-based real-time signal processing and control into a single device, also known as a VST. Because of this software-designed approach, the PXIe‑5644 features the flexibility of a software defined radio architecture with RF instrument class performance.
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Receivers
SDR receivers (Software Defined Radio) perform all signal processing in software, offering multi-standard support, access to all data in the channel, and advanced RF measurements.DekTec's other receivers are based on standard demodulator chips and therefore do not take cycles from the host CPU. These can be used if the SDR features are not required.
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PXIe-5672, 2.7 GHz, 20 MHz Bandwidth Digital Upconverter Included, PXI Vector Signal Generator
779900-03
2.7 GHz, 20 MHz Bandwidth Digital Upconverter Included, PXI Vector Signal Generator —The PXIe‑5672 features quadrature digital upconversion, which reduces waveform download and signal generation time. It is a general-purpose vector signal generator that can generate standard modulation formats such as AM, FM, PM, ASK, FSK, MSK, GMSK, PSK, QPSK, PAM, and QAM. The PXIe‑5672 delivers a highly flexible and powerful solution for scientific research, consumer electronics, communications, aerospace/defense, and semiconductor test applications as well as emerging areas including software defined radio, radio frequency identification (RFID), and wireless sensor networks. For specific communications standards, you can use various software add-ons to generate modulated signals according to standards such as WCDMA, DVB‑H, and ZigBee.
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LabVIEW Communications Application Frameworks
The Application Frameworks are software reference designs that provide a rich set of high performance FPGA IP for prototyping real-time wireless communication systems. When combined with NI’s line of software defined radios, the Application Frameworks form a complete hardware and software prototyping platform that enables researchers to accelerate their prototyping efforts and achieve results quickly.
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NI-5783, 40 MHz Bandwidth Transceiver Adapter Module for FlexRIO
784364-01
The NI‑5783 has DC‑coupled inputs with two variants: an elliptic filter variant optimized for frequency-domain applications and a Butterworth filter variant optimized for time-domain applications. The NI‑5783 is particularly well suited for applications in software defined radio, electronic warfare, high-performance machine control, and medical imaging. The NI‑5783 is compatible only with the PXI FPGA Module for FlexRIO modules that have a Kintex‑7 FPGA and the stand-alone Controller for FlexRIO.
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Switch Device for PCI Express
The Switch Device for PCI Express provides two PCI Express upstream ports and eight downstream ports. You can connect the downstream ports to external devices, such as a Software Defined Radio Reconfigurable Device, to create large multichannel, multiple input, multiple output (MIMO) systems. You can also connect multiple Switch Devices for PCIe to a single PXI Express chassis to create large MIMO systems with a Software Defined Radio Reconfigurable Device.
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PXI-5670, 2.7 GHz RF Vector Signal Generators
PXI-5670 / 778768-03
2.7 GHz PXI Vector Signal Generator—The PXI‑5670 has the power and flexibility you need for product development applications from design through manufacturing. It can generate custom and standard modulation formats such as AM, FM, PM, ASK, FSK, PSK, MSK, and QAM. The PXI‑5670 delivers a highly flexible and powerful solution for scientific research, consumer electronics, communications, aerospace/defense, and semiconductor test applications as well as for emerging areas including software defined radio, radio frequency identification (RFID), and wireless sensor networks.
