Showing results: 91 - 104 of 104 items found.
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Proteus Series -
Tabor Electronics Ltd.
The new Proteus Arbitrary Waveform Generator is ideal for applications in Quantum Computing, Electronic Warfare, Radar, and next generation communications such as 5G, 6G, Ultrawide Bandwidth (UWB), and WiFi (802.11) 6 and 7. Built on the latest RF DAC and RF ADC technology, the series has sample rates up to 9GS/s and multiple Nyquist zone frequency range capability in excess of 10GHz. It’s an innovative task oriented programming environment, and user programmable FPGA. When used in combination with its optional RF Digitizer it gives you the ability to change waveforms in real-time - ideal for improving the coherence time of a Qubit, characterizing an RF amplifier, or responding to an EW threat.
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784776-02 -
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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784777-02 -
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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783127-01 -
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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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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MSRA -
Microflown AVISA B.V.
In a peer to peer conflict, weapon location radars used for counter battery purposes will be extremely vulnerable.With aerial/satellite based surveillance available for the opponent, radars will be seen. With electronic warfare means being omnipresent, radars will be triangulated and jammed. There is an urgent need for 24/7 persistent surveillance with (preferably) passive sensors. With mobility being the key for survival on the battlefield, rapid re-deployable, or even truly mobile sensor capabilities are required. Therefore, the traditional sheer sound pressure based sound ranging capability becomes obsolete, as the triangular footprint of the sensor nodes is too large to be installed on a manned, or unmanned platform. With the trend towards longer ranges and “shoot and scoot” drills, the concept of capturing the muzzle blast noise becomes questionable, as the speed of sound is too slow to provide timely localizations.
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Fairview Microwave Inc.
The new MMIC IQ mixers from Fairview (also known as IQ modulators) utilize a highly reliable GaAs MESFET semiconductor process which integrates a pair of matched double balanced mixer cells, a 90-degree hybrid and a 0-degree splitter/combiner that produces exceptional amplitude and phase balance performance. This level of integration offers size and performance advantages in comparison to discrete module assemblies. With the addition of an external 90-degree IF hybrid module, these IQ mixers can be used as either a Single Sideband Up-converter Mixer or an Image Reject Down-converter Mixer. The benefit of image rejection and sideband suppression can reduce overall system cost and complexity by removing the need for pre-selection filtering. Typical applications include point-to-point and point-to-multipoint radio, VSAT, military radar, electronic warfare, satellite communications, test equipment, and sensors.
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Panda Microwave Limited
Panda Microwave customized up to 40GHz low phase noise (DRO or PDRO) , Phase Locked Dielectric Resonator Oscillators (PDRO) take advantage of the small size, low phase-noise and high efficiency, including PDRO and DRO. Phase Locked Dielectric Resonator Oscillators (PDRO) are used widely in today’s electronic warfare, radar and communication systems. They find use both Commercial and Military communication systems where demanding performance, high reliability and cost are critical. The phase locked oscillators utilize ceramic coaxial resonator and ceramic dielectric resonator fundamental frequency sources with low phase noise performance. The design of the Phase Locked Oscillators is based on sampling phase detector technology, which provides the comparison frequency at the same frequency as the fundamental frequency output.
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HIGH-POWER RADIO FREQUENCY (RF) AND MICROWAVE AMPLIFIERS, TWTA AND SOLID STATE -
Communications & Power Industries
electromagnetic compatibility (EMC) high-intensity radiated field (HIRF) testing, military testing, electronic warfare simulation and scientific applications are based on the same switched-mode power supply technology as its rugged amplifiers. As a result, these instrumentation amplifiers have all the same performance and reliability advantages as the rugged product line, but have been neatly re-packaged into compact, lightweight and affordable rack-mountable units more suitable for less demanding physical environments. CPI TMD's new modular design (the PTCM range) has many user benefits, including advanced self-diagnostics, ethernet interfaces, remote management, VSWR protection and plug and play field replaceable power supplies.
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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.
