Press Release Summary:
INW Electronically Tunable Filter features quick tuning and sharp rejection bands. Unit is suitable for signal analysis, signal discrimination and post-filtering applications. Product provides sub-100uS tuning time greater than 50dB stop band rejection at X band. Filter offers 3dB pass band of less than 200kHz.
Original Press Release:
I²R Nanowave Announces Electronically Tunable Filter
Multi-Gigahertz Tuning, Narrow Passband, and Deep Rejection Bands
I²R Nanowave Inc, a leading designer and manufacturer of advanced microwave, millimeter-wave and electro-optic components and sub-systems, is announcing the release of the INW-ETF, a rapidly tunable electronic filtering technology for signal discrimination. With fast tuning, sharp rejection bands, and narrow bandwidths, these filters can accommodate many uses in electronic warfare and in crowded spectrum applications.
The INW-ETF electronically tunable filter (ETF) is an electronic scanning filter capable of agile frequency selection over multi GHz bandwidths. The ETF is ideal for signal analysis, signal discrimination and post-filtering applications. The ETF filter bandwidth and stop band rejection can be customized based on application. The ETF features sub-100uS tuning time with greater than 50dB stop band rejection at X band and a 3dB pass band of less than 200kHz.
Located in Macungie Pennsylvania, I²R Nanowave Inc. is a world-class designer and manufacturer of advanced microwave, millimeter-wave and electro-optic components and sub-systems for Radar, Communications, and Space Applications. Our systems maintain compliance to AS9100C and ISO9001:2008 and ITAR registration. Our facility encompasses all the core capabilities needed for end-to-end microwave electronic product development, redesign and life cycle maintenance. Learn more about I²R Nanowave and these amplifiers at http://www.i2rnanowave.com/products/IntegratedAssemblies/NewTechnologies.php.
Sales and Business Development
I²R Nanowave Inc
+1 (610) 928-1038
Web Site: http://www.i2rnanowave.com