CML Microcircuits is now offering increased design support for the rapidly-expanding global market digital mobile radio. With its latest product offerings, designers can now develop dual-mode (digital/analog) radios for wearable and personal radio formats operating at up to 2W and 5W, targeting short- and medium-range transmissions respectively.
As the market for voice radio operating within the licensed spectrum continues to transition from analog to digitally-encoded transmission, OEMs require solutions that can support both modes of operation. The SCT9389 is design example for a highly integrated dual-mode solution that comprises the SCT3268TD Digital Baseband Processor with embedded host controller, RF transceiver and RF power amplifier in a single small form factor design (48 x 35 mm). Designed specifically to comply with European standards, the SCT9389 employs CML Microcircuits’ proprietary direct conversion technology and is supplied with the entire protocol stack embedded within the device, including the physical layer, data link layer and call control layer. Adopting a proven RF solution significantly speeds development time particularly for those less familiar with PMR requirements.
The SCT9389 design supports analog (clear voice, CTCSS, DCS), digital voice (dPMR, DMR – private and group call), digital data (short message) and digital supplementary service (dPMR/DMR). To further support the transition from analog to digital, the SCT9389 design features automatic detection and switching between analog and digital modes. It is aimed at small (wearable) digital mobile radios operating at up to 2W system power.
In addition, CML Microcircuits has developed a range of reference designs that provide a turnkey solution for digital mobile radio design. Available to qualifying customers free of charge, the reference designs comprise Gerber files and Bill of Materials, as well as all firmware and software required to develop a dPMR/DMR/Analog mobile radio. As an example, the SCT9366D is a design example based on the SCT3258TD Digital Baseband Processor, suitable for devices intended to operate at up to 5W transmit power.
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In 1935, Watson-Watt was asked to judge recent reports of a German radio-based death ray and turned the request over to Wilkins. Wilkins returned a set of calculations demonstrating the system was basically impossible. When Watson-Watt then asked what such a system might do, Wilkins recalled the earlier report about aircraft causing radio interference. This revelation led to the Daventry Experiment of 26 February 1935, using a powerful BBC shortwave transmitter as the source and their GPO receiver setup in a field while a bomber flew around the site. When the plane was clearly detected, Hugh Dowding, the Air Member for Supply and Research was very impressed with their system’s potential and funds were immediately provided for further operational development.