ERAVANT, a leading developer of high-performance microwave and millimeter wave components and subassemblies for commercial and military system applications, will showcase their wide range of products and solutions at IMS 2024 in DC this week. At their booth they will conduct several demonstrations:
ERAVANT Sub-THz Test Equipment and COTS
ERAVANT offers Sub-THz test equipment and COTS, including new D-band (110-170 GHz) VNA extenders, a motorized switch, and high-power rotary joints. Ideal for advanced testing applications. Explore cutting-edge solutions for precise measurements. These innovations enhance testing capabilities and ensure high performance in various demanding environments.
Customized Spectrum Analyzer Extender
ERAVANT Customized Spectrum Analyzer Extender features our V-band downconverter and benchtop frequency multiplier for Anritsu Spectrum Analyzer. Ideal for advanced testing applications. Explore cutting-edge solutions for precise measurements. These innovations enhance testing capabilities and ensure high performance in various demanding environments.
Test Equipment and COTS
ERAVANT mmWave Test Equipment and COTS features our W-band (75-110 GHz) VNA extenders, hybrid programmable & digital rotary vane attenuator, Proxi-Flange, and mini isolators. Ideal for advanced testing applications. Explore cutting-edge solutions for precise measurements.
mmWave and Sub-THz Antenna Measurement
ERAVANT mmWave and Sub-THz Antenna Measurement features a new compact range and D-band (110-170 GHz) Tx/Ref & Rx frequency extenders. Ideal for advanced testing applications. These innovations enhance testing capabilities and ensure high performance in various demanding conditions.
Eravant will also conduct a MicroApp on Active Emissivity Correction In Millimeter-Wave Radiometric Temperature Sensors. Millimeter-wave radiometric receivers are often used to determine the temperature or emissivity of an object by measuring its radiated noise power over a wide bandwidth. The non-contact technique offers several advantages over other measurement methods, including fast measurements and high sensitivity to small temperature changes. A limitation is the need to know a priori the object’s emissivity when computing its temperature or its temperature when computing its emissivity. Presented is a method of actively measuring an object’s emissivity by illuminating it with a broad-band noise source and measuring both its reflectivity and temperature using the radiometric receiver.
Stop by the Eravant booth to view the demonstrations. Click here to view IMS 2024 event coverage on everything RF.
