Showing results: 241 - 247 of 247 items found.
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SNAPTrack® -
Rycom Instruments, Inc.
Built on a proven design, and with Pathfinder SAF Technology™ at its core, the SnapTRACK® offers RYCOM’s most advanced signal acquisition and filtering technology. The SnapTRACK® cable & pipe locator offers utility locators FrequencyFlex™ allowing users to adapt the system to their specific needs. Multiple active frequencies allow the user to accurately locate with a minimum of interference while maintaining the ability continue locating past faults and around conduit bends. Passive frequencies identify "live" and charged lines by their naturally occurring electromagnetic fields. The SnapTRACK® offers multiple passive frequencies -- 50Hz, 60Hz, Radio Frequency, Cathodic Protection Rectifier & CATV -- allowing line locating without the use of a transmitter.
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786853-01 -
NI
44 GHz, 1 GHz Bandwidth PXI Vector Signal Transceiver - The PXIe-5831 supports validation and production test into mmWave frequency bands. The PXIe-5831 incorporates a vector signal generator, vector signal analyzer, and high-speed serial interface with FPGA-based real-time signal processing and control. The PXIe‑5831 combines fast measurement speed and the small form factor of a production test box with the flexibility and high performance of R&D-grade box instruments, making it an ideal solution in both the lab and the production floor. The PXIe-5831 meets the stringent challenges of 5G New Radio, but it is also able to test a variety of cellular and wireless standards such as Wi-Fi 6. In addition, you can easily expand a test system in the PXI Express form factor to support multiple input, multiple output (MIMO) configurations with phase-coherent synchronization.
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786856-01 -
NI
44 GHz, 1 GHz Bandwidth PXI Vector Signal Transceiver - The PXIe-5831 supports validation and production test into mmWave frequency bands. The PXIe-5831 incorporates a vector signal generator, vector signal analyzer, and high-speed serial interface with FPGA-based real-time signal processing and control. The PXIe‑5831 combines fast measurement speed and the small form factor of a production test box with the flexibility and high performance of R&D-grade box instruments, making it an ideal solution in both the lab and the production floor. The PXIe-5831 meets the stringent challenges of 5G New Radio, but it is also able to test a variety of cellular and wireless standards such as Wi-Fi 6. In addition, you can easily expand a test system in the PXI Express form factor to support multiple input, multiple output (MIMO) configurations with phase-coherent synchronization.
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783760-01 -
NI
±200 V, 1 A System PXI Source Measure Unit—The PXIe‑4136 system source measure unit (SMU) delivers high power, precision, and speed. It is ideal for a broad range of applications including manufacturing test; board-level test; lab characterization with devices such as integrated circuits (ICs), power management integrated circuits (PMICs), and radio frequency integrated circuits (RFICs); and discrete devices including LEDs and optical transceivers. The PXIe‑4136 features 4-quadrant operation. The PXIe‑4136 is a hardware-timed instrument with a high-speed sequencing engine for synchronizing acquisitions between multiple SMUs. The module supports direct DMA streaming between the host PC and SMU, so you can stream large waveforms and measurement data at the full update rate and sample rate of the instrument.
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782856-01 -
NI
±60 V, 3 A System PXI Source Measure Unit—The PXIe‑4138 system source measure unit (SMU) delivers high power, precision, and speed. It is ideal for a broad range of applications including manufacturing test; board-level test; lab characterization with devices such as integrated circuits (ICs), power management integrated circuits (PMICs), and radio frequency integrated circuits (RFICs); and discrete devices including LEDs and optical transceivers. The PXIe‑4138 features 4-quadrant operation. The PXIe‑4138 is a hardware-timed instrument with a high-speed sequencing engine for synchronizing acquisitions between multiple SMUs. The module supports direct DMA streaming between the host PC and SMU, so you can stream large waveforms and measurement data at the full update rate and sample rate of the instrument.
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ICE3009 -
Pole/Zero
The ICE3009 subsystem is an agile filter for the VHF-L, VHF-H and UHF frequency bands. It allows operation of a number of transceivers in a cosite environment. The VHF/UHF Filter provides multiple poles of RF selectivity to reduce broadband noise in transmit mode of operation and to reduce interfering signals at the transceiver’s RF input in receive mode at Have Quick II/IIa and SATURN tuning speeds. This design incorporates a flexible control scheme that can be configured at the factory for various radio interfaces (ARC-210, ARC-231, ARINC 429, etc.). The design is highly integrated and includes all filters, amplifiers, power supply, transmit and receive switching (including a bypass mode), and Built-in-Test (BIT). A mounting tray is available as an option for easy incorporation on your platform. This system is qualified for military applications. Cost-effective modifications are available on the ICE3009. Please contact your sales representative at 513.870.9060 or Support@PoleZero.com for details.
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HFDF -
National RF, Inc
National RF's Type HFDF active directional antenna system consists of a high gain RF amplifier coupled to a tunable Faraday shielded loop antenna. Several loop antenna assemblies are available to provide coverage of frequencies in the HF and low VHF spectrum. Due to the nature of a Faraday shielded loop, the antenna exhibits a sharp null through the diametric center of the loop. This null is used to determine the direction of incoming radio signals or to locate electrical noise being radiated from some source. The internal high gain amplifier is used to compensate for the inherent inefficiency of the actual loop at the operating frequency. Overall, the system dynamic response is about +6 dB as compared to the dynamic response of a dipole. To aid in the direction finding process on strong signals, an internal 30 DB attenuator is provided. As the loop antenna presents a bi-directional response, tri-angulation may be required to eliminate the ambiguous signal direction. The line of site of the incoming signal is determined by listening for a signal null on the receiver or by watching the receiver’s S-meter.
