Pulsar Microwave Corp.
48 Industrial W
NJ New Jersey
+1 973 779 6262, Fax: +1 973 779 2727
attenuators components demodulators microwave mount multipliers surface switches
Pulsar Microwave Corporation | Pulsar Microwave Corporation Home Company Profile Terms Contact Us Request Quote Outlines Site Map Attenuators Bias Tees Couplers DC Blocks Dividers/Combiners Doublers Hybrids I & Q Networks Mixers Phase Shifters Switches Pulsar Microwave Corporation 48 Industrial West • Clifton, NJ 07012, USA • Tel: 973-779-6262 • Fax: 973-779-2727 • firstname.lastname@example.org Attenuators Bias Tees DC Blocks Directional Couplers Frequency Doublers I & Q Networks Mixers Phase Shifters Power Combiners Power Dividers 90° & 180° Hybrids Switches Pulsar Microwave Corporation is celebrating its 20th year of supplying high quality rf and microwave passive components in the frequency range of DC to 40 GHz. Because of our large library of designs, we are able to provide custom products with little effort and in most cases with no additonal price increase to the nearest standard catalog item. New products are introduced almost on a monthly basis, the most recent of which are high power directional couplers and power dividers. Coming shortly are high power switches and low power resistive power dividers. New Products New 4-Way High Power Splitter/Combiner Pulsar P/N PP4-50-452/2N enables the user to either split an input signal of 400 watts into 4 equal outputs or combine 4 inputs of 100 watts each for a total output of 400 watts minus the insertion loss of 0.6 dB. Specifications include a frequency range of 20-400 MHz, amplitude and phase balance of 0.5 dB and 6.0 degrees, respectively, isolation of 20 dB and 1.3:1 VSWR. Mechanical dimensions are: 4.0 X 3.4 X 1.0 inches and connectors are Type N female. For additional information and pricing, call us or e-mail: email@example.com High Power Directional Couplers Pulsar P/N C40-105-481/4N is a new 40 dB dual directional coupler covering the frequency range of 100-500 MHz with coupling flatness of +/- 0.75 dB across the band and VSWR of 1.15:1. Insertion loss and directivity are respectively 0.2 dB and 20 dB and maximum input p