Key Specifications, Waveguide Size: WR-112, Waveguide Type: Standard, Flange Size Flange Type Flange Group: CPR Flat Standard Flange, Frequency Band: X band, Minimum Frequency: 7.05 GHz, Maximum Frequency: 10 GHz, Impedance: 50 Ohms, Maximum VSWR: 1.1:1, Switch Design: SPDT/DPDT DPDT, Actuator Type: Failsafe Actuator, Additional Actuator Feature 1: TTL Logic, Additional Actuator Feature 2: Window Indicator, Additional Actuator Feature 3: Manual Override. WR-112 Waveguide Electromechanical Relay SPDT/DPDT Failsafe Switch, X Band 10 GHz, 7,000 Watts, CPR Flat, 12V, TTL Logic, Window Indicator., WR112 standard waveguide electromechanical relay switch PEWGS6070 is part of Pasternack’s international ISO 9001:2008 certified facility same-day shipping program. Manufactured as SPDT and interchangeable DPDT settings, WR112 standard electromechanical waveguides are relay switches with failsafe actuators. Pasternack innovative SPDT/DPDT WR112 black-plated electromechanical switches are always in stock and have a 7,000 Watt maximum input power rating with a 202 KW peak power rating. 7,000 watts failsafe aluminum waveguide relay switch PEWGS6070 can operate in the ultra-wide X band frequency range of 7.05 GHz to 10 GHz. 10 GHz max WR112 7,000 watt waveguide electromechanical relay switch that has a typical actuating voltage of 12V is sold by Pasternack who has been in business since 1972. Electromechanical relay 12V 7,000 W max power X band waveguide has high CPR Flat standard flanges ports. These WR112 10 GHz aluminum body waveguide relay switches plated in black produce a maximum actuating current of 245 mA at a 12 V nominal operating voltage. 245 mA 7,000 W waveguide electromechanical failsafe relay switch PEWGS6070 by Pasternack has an operating range of 10.8 V to 13.2 V. 7.05 GHz minimum X band 12 V waveguide switches by Pasternack have an industry-leading design that features failsafe actuators with control. Our 7,000 W max input power 10.8 V to 13.2 V waveguide relay switch PEWGS6070 with CPR Flat flanges has an impressive impedance of 50 Ohms. Pasternack WR112 SPDT/DPDT waveguide relay switch that requires a +12 Vdc nominal bias voltage has a -40°C to 85°C operating temperature range. 10 GHz aluminum waveguide standard electromechanical relay switch with 50 Ohms impedance can function under 30psig maximum operating pressure and is fitted with a fully weatherized package of 0-100% humidity. PEWGS6070 Electromechanical WR112 failsafe waveguide switch by Pasternack is a tough aluminum waveguide component that has k cycles minimum of mechanical life. X band Pasternack SPDT/DPDT CPR Flat flanged waveguide relay switch with 1.45 lbs of weight, is 2.43 in. wide, 2.25 in. long, and 4.85 in. high. WR112 12 Vdc 245 mA 7.05 GHz to 10 GHz electromechanical relay switch with maximum 1.1:1 VSWR (voltage standing wave ratio) has Pasternack’s expert technical support always at hand. CAD drawings with dimensions and specs on a downloadable PEWGS6070 PDF datasheet are available on the product page for this WR112 7,000 W 10 GHz waveguide electromechanical relay switch with CPR Flat flanges. Industry-leading electromechanical polarity X band failsafe waveguide that can function under 30psig and temperatures up to 85°C, ships to anywhere globally available the same day. Pasternack’s 1.1:1 VSWR WR112 standard waveguide relay actuating switch has a quick-connect circular dc connector with mate providing 0.05 dB maximum insertion loss and in-stock consistently for your convenience. Electronic warfare and countermeasures, microwave radio, VSAT, space systems, are just a few of the important applications that these Pasternack PEWGS6070 7,000 kW WR112 10 GHz X band waveguides blacks are used in. Ordering is easy, just go online or call our knowledgeable sales team by phone and get this WR112 SPDT/DPDT failsafe switch with 0.05 dB insertion loss and 80 dB of minimum isolation. To summarize, the quality and availability of Pasternack WR112 standard waveguide electromechanical failsafe relay switch with 125,000,000 ns typical switching speed and 250,000k cycles can not be bested.
