Design and development of radio frequency, microwave and millimetre
wave systems, subsystems and components. Activity is carried out for the
development of high speed digital fibre optic systems (transmitter-receiver)
such as I50 Mbitls-2.5 Gbit/s. Microwave Monolithic Integrated Circuit
(MMlC) design tools (HP-MDS and EESot) are being employed to design
MMIC'S for amplifier (low noise and power), mixers, digital circuits
(multiplexes, decision circuits, registers e.t.c.). The microwave laboratory
covers the frequency region 0.01-50 GHz including Network Analysers,
Spectrum Analysers and High Speed Scopes. Emphasis is given to design
and development of clock and carrier recovery circuits for
telecommunication applications.
Additionally extensive research is carried out in the fields of the
analysis of microwave, millimetre wave and fibre optic wave guides, passive
structures (filters, multiplexes, couplers), antennas, e.t.c. by using advanced
3D computational electromagnetic and semi-analytical techniques. Massively
panelled computational techniques are being employed to analyse realistic
guiding and radiating structures Satellite Systems: design and development of
Inmarsat Standard C transceiver unit.
Inverse Scattering Techniques and application of inverse techniques in
medical imaging remote sensing and target characterisation for radar Systems.
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