Showing results: 1 - 15 of 16 items found.
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BSC Filters
The range extends from Lumped Element Diplexers at 300 MHz through to 60 GHz devices based on BSC Filters’ Exact Filter Technology. Our design experience and in-house production facilities have allowed us to construct Diplexers with near contiguous passbands meeting the most demanding technical requirements.
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BSC Filters
SSS technology utilises a photo-etched, copper-clad dielectric substrate (usually PTFE) secured between silver plated machined casings, to provide outstanding performance in terms of high Q and low insertion loss, combined with a small, lightweight yet rugged construction. This type of equaliser is ideally suited to broadband applications such as Electronic Warfare systems (ECM, ESM & ELINT).
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BSC Filters
Building on a quarter of a century of filter heritage, BSC also design & manufacture fully integrated, multi-function assemblies and sub-systems. In addition to RF design capability, our Engineering team includes specialists in software, control & electronics, maximising the higher-level benefits of a modular, turnkey subsystem approach.
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BSC Filters
Building on a quarter of a century of filter heritage, BSC also design & manufacture fully integrated, multi-function assemblies and sub-systems. In addition to RF design capability, our Engineering team includes specialists in software, control & electronics, maximising the higher-level benefits of a modular, turnkey subsystem approach.
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BSC Filters
The range extends from Lumped Element Diplexers at 300 MHz through to 60 GHz devices based on BSC’s Exact Filter Technology. Our design experience and in-house production facilities have allowed us to construct Diplexers with near contiguous passbands meeting the most demanding technical requirements.
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BSC Filters
BSC have full design expertise in house to offer a range of preselectors suitable for any receiving system. Products can be offered in traditional machined and laser sealed aluminium bodies or in ultra-compact true SMT form factor, matched to carrier PCB’s.
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BSC Filters
BSC provides full design and manufacture expertise in-house to offer high reliability mixed technology RF & Microwave modules such as Switched Filter Banks and typically covering from L band to X band. Typical applications include: Electronic Intelligence (ELINT), Electronic Warfare (EW), Direction Finding Receivers (DF), Radio Preselector, and band segmentation.
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BSC Filters
BSC have full design and manufacture expertise in house to offer high reliability mixed technology Microwave and RF modules such as Successive Detection Log Video Amplifiers (SDLVA).
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BSC Filters
BSC Filters QuEST tool allows you to start designing your own custom Bandpass Filter, download s2p files of performance and send that design to the factory for manufacture.
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BSC Filters
The range extends from Lumped Element Diplexers at 50 MHz through to 50 GHz waveguide devices based on BSC’s Exact Filter Technology. Our design experience and in-house production facilities have allowed us to construct Diplexers with contiguous passbands meeting the most demanding technical requirements.
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BSC Filters
Future RF systems must be flexible and adaptive to changes in spectrum and configuration, both in use and throughout their life cycle. As part of our adaptive filtering roadmap, BSC introduces novel approaches to market, which surpass the industry standards in terms of selectivity, power handling, miniaturisation and flexibility.
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BSC Filters
BSC have independently developed a fully reconfigurable adaptive filter solution, designed for fast & seamless switching into any of 256 filter states across the 2-18 GHz range. Ideally suited to EW front-end preselection or protection, any combination of bandpass and bandstop states can be selected INTRODUCTION. Each 2 GHz channel can be switched in (bandpass) and out (bandstop) of the signal path with a switching time of less than 100 ns. DC power and 8-bit TTL control is supplied through a standard 15-pin MDM connector. In the crowded spectrum of the future, front-end flexibility is of increasing importance. Not limited to 2-18 GHz or equal channel widths, the same core architecture may be used in more specific bands, for example at VHF/UHF frequencies. This makes the system equally as suited to EW as it is to Mil Comms applications, where sampling sensitivity or frequency-agile protocols respectively are key to system function.