Showing results: 121 - 132 of 132 items found.
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783127-02 -
NI
PXIe, 250 kHz to 20 GHz, PXI RF Analog Signal Generator - The PXIe-5654 features a combination of exceptional phase noise and frequency tuning time. These features address applications such as blocker test/receiver desensitization, high-performance intermodulation distortion measurements, and various electronic warfare applications. The PXIe-5654 is designed to meet the challenging requirements of RFIC characterization, satellite test, and radar applications. Some PXIe-5654 options include a PXIe-5696 Amplitude Extender Module. The PXIe-5696 supports a frequency range of 250 kHz to 20 GHz and an extended amplitude range up to 27 dBm.
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783126-02 -
NI
PXIe, 250 kHz to 20 GHz, PXI RF Analog Signal Generator - The PXIe-5654 features a combination of exceptional phase noise and frequency tuning time. These features address applications such as blocker test/receiver desensitization, high-performance intermodulation distortion measurements, and various electronic warfare applications. The PXIe-5654 is designed to meet the challenging requirements of RFIC characterization, satellite test, and radar applications. Some PXIe-5654 options include a PXIe-5696 Amplitude Extender Module. The PXIe-5696 supports a frequency range of 250 kHz to 20 GHz and an extended amplitude range up to 27 dBm.
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784776-01 -
NI
PXIe, 250 kHz to 20 GHz, PXI RF Analog Signal Generator - The PXIe-5654 features a combination of exceptional phase noise and frequency tuning time. These features address applications such as blocker test/receiver desensitization, high-performance intermodulation distortion measurements, and various electronic warfare applications. The PXIe-5654 is designed to meet the challenging requirements of RFIC characterization, satellite test, and radar applications. Some PXIe-5654 options include a PXIe-5696 Amplitude Extender Module. The PXIe-5696 supports a frequency range of 250 kHz to 20 GHz and an extended amplitude range up to 27 dBm.
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784777-01 -
NI
PXIe, 250 kHz to 20 GHz, PXI RF Analog Signal Generator - The PXIe-5654 features a combination of exceptional phase noise and frequency tuning time. These features address applications such as blocker test/receiver desensitization, high-performance intermodulation distortion measurements, and various electronic warfare applications. The PXIe-5654 is designed to meet the challenging requirements of RFIC characterization, satellite test, and radar applications. Some PXIe-5654 options include a PXIe-5696 Amplitude Extender Module. The PXIe-5696 supports a frequency range of 250 kHz to 20 GHz and an extended amplitude range up to 27 dBm.
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Fairview Microwave Inc.
Fairview Microwave’s lines of precision waveguide bends are widely used in applications such as high efficiency RF, microwave and mm-wave transmissions, satellite and military communications, radar, telecom, instrumentation and test benches. In waveguide systems that require a signal to turn or bend 90 degrees, Fairview’s waveguide bends are used to facilitate that bend or turn without degrading the transmission signal. These WG bends operate from 5.85 GHz to 90 GHz across 12 frequency bands and are available in sizes from WR-12 to WR-137. This family of waveguide bends also boast low loss and VSWR as low as 1.08:1 and are available in both E-plane and H-plane configurations. They are constructed using gold plated, oxygen free hard copper (OFHC) or painted copper alloy depending on the model and are also offered with either a UG-style flange per the military standard or a CPR-style flange. Many models are RoHS compliant.
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MVR Series -
Innovative Technical Systems
The MVR Series of Muzzle-Velocity Radars are Doppler-CW transceivers that measure the velocity of viewed objects such as projectiles. They use phase-locked millimeter-wave transmitter-receivers along with an integrated radome-protected antenna to illuminate objects under investigation. An optical boresighting aid provides alignment assistance for the narrow radiation patterns. Reflected signals from the target are received by the antenna and mixed to produce a video output equal to the Doppler spectrum of the target. A low-noise, variable gain video amplifier can drive a 50-ohm cable up to +1 volt output. The video amplifier has a feed-forward DC offset compensation circuit that extends the Doppler frequency response from under 1 Hz to over 2 MHz. An integrated DMM and LCD display on the front panel monitors various test points within the sensor to verify proper operation. The extremely rugged design allows the MVRs to withstand high acousitic shock environments so they can be located in close proximity to the projectile source.
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ATE -
Frontier Electronic Systems Corp.
The design, development, manufacture and integration of Automated Test Equipment (ATE) systems is a core technology focus for FES. Our engineers have designed and manufactured complex flight line test systems for military aircraft such as the F-15, F-18, C-17, B-1, B-52 and OV-22 aircraft. In 1994, FES developed the Common Core Test Set to test space systems electronics for the Defense Support Program (DSP). This open-architecture, high-reliability electronics test set has been upgraded over the last 20 years with new hardware and graphics-based software to accommodate the complex testing requirements associated with the International Space Station Rotary Joint Motor Controller and other satellite electronics. Maritime ATE systems designed and manufactured by FES include Radar & Video Distribution factory test systems supporting US and Canadian Navy customer production requirements. Core components of FES-developed ATE systems include the use of PXI/PCI/VXI/VME technologies, National Instruments Test Stand software, Agilent Technologies instrumentation, and Virginia Panel interface hardware. The FES ATE design team employs CMMI level 3 compliant processes throughout the design process from Systems Requirements Analysis through verification and validation of ATE compliance with customer hardware, software, and documentation requirements.
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ESP -
ARC Technology Solutions
ESP, or Engineering Support Platform, is a low cost, powerful and versatile platform for the development, deployment and support of FPGA Applications. ESP is powered by DSX core, ARC’s core element for the development and deployment of digital and mixed signal systems. The standard system contains 2 custom FPGA system, often configured in combination where one acts as the application firmware, and the other is used for test. But the system is expandable and configurable in any combination to solve any problem in a digital, analog or mixed signal system. The FPGAs can be configured to generate, analyze, process and/or output complex signals at a wide range of voltages, frequencies and serial protocols. It has been used to develop solutions for Radar systems, testers, Pattern Generation, digital signal processing and generating, Video processing, and many more. ESP comes as a desktop or rack mounted solution, and no special interfaces are needed.
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Vivaldi -
DVTest Inc.
The dbDIRECT Broadband Antenna features a broad frequency range of operation, high gain, small form factor and directional radiation pattern, making it highly attractive for widespread use in test and measurement of emerging wireless technology devices and radars. Contrary to conventional Vivaldi antennas limited to operating only at higher frequencies, the dbDIRECT Broadband Antenna design is optimized to operate at a frequency as low as 700 MHz up to 6 GHz. This lightweight and compact antenna design provides excellent matching over a broad frequency range.The antenna is designed to be placed in a DVTEST's portable anechoic chamber such as the dbSAFE enclosures for OTA (Over the Air) testing of DUTs. The antennas can be mounted in fixed positions to facilitate repeatable results. When used in conjunction with a rotary positioning mechanism, customers are able to detect the highest point of power sensitivity for enhanced accuracy and repeatability in measurements. In this configuration, both the antennas and DUTs can be positioned in order to facilitate the measurement.
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Fairview Microwave Inc.
Fairview Microwave’s line of coaxial packaged zero bias Schottky detectors feature matched inputs for excellent VSWR, voltage sensitivity levels that range from 100 to 500 mV/mW for small signal detection, negative video output polarity, and can withstand maximum input power levels up to +20 dBm CW. Operating temperature range covers 0°C to +90°C and storage temperature of -65°C to +125°C. These zero bias Schottky detectors utilize compact cylindrical package outlines that are made of passivated stainless steel and offer a variety of popular input/output SMA and BNC connector configurations that make them ideal for use with precision test and measurement, instrumentation, and subsystems assemblies. Numerous applications include power measurement, leveling pulsed signal sources, AM noise measurements, radar or missile guidance systems, monitoring system level performance, and pulsed RF measurements.
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Razor Express 12 CompuScope - PCIe -
GaGe
Available in 4-CH and 2-CH models featuring 17 software selectable A/D sampling rates from minimum 1 kS/s to maximum 200 MS/s per channel with input bandwidth of 125 MHz. ADC data can be captured in quad, dual, or single channel modes. Full-featured front-end with software selectable DC/AC coupling and 50Ω / 1MΩ inputs. Ease of integration with External or Reference Clock In & Clock Out. External Trigger In & Trigger Out with advanced triggering operations. PCIe Gen2 x8 data streaming rates at 1.6 GB/s. Programming-free operation with GaGeScope PC oscilloscope software. Software Development Kits available for C/C#, LabVIEW and MATLAB for custom application development. Ideal for applications such as Automatic Test Equipment (ATE), Wideband RF Signal Analysis & Recording, RADAR, Electronic Warfare (EW), Ultrasonic Non-Destructive Testing (NDT), LIDAR, Communications, Spectroscopy, High-Performance Imaging, Time of Flight (TOF), Life Sciences, Particle Physics, and more.
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Oscar Express 16 CompuScope - PCIe -
GaGe
Available in 4-CH and 2-CH models featuring 16 software selectable A/D sampling rates from minimum 1 kS/s to maximum 100 MS/s per channel with input bandwidth of 65 MHz. ADC data can be captured in quad, dual, or single channel modes. Full-featured front-end with software selectable DC/AC coupling and 50Ω / 1MΩ inputs. Ease of integration with External or Reference Clock In & Clock Out. External Trigger In & Trigger Out with advanced triggering operations. PCIe Gen2 x8 data streaming rates at 800 MB/s. Programming-free operation with GaGeScope PC oscilloscope software. Software Development Kits available for C/C#, LabVIEW and MATLAB for custom application development. Ideal for applications such as Automatic Test Equipment (ATE), Wideband RF Signal Analysis & Recording, RADAR, Electronic Warfare (EW), Ultrasonic Non-Destructive Testing (NDT), LIDAR, Communications, Spectroscopy, High-Performance Imaging, Time of Flight (TOF), Life Sciences, Particle Physics, and more.
