Diamond microwave devices

Two new compact power amplifier . Diamond Microwave streamlines GaN SSPA range, introducing 400W and 900W X- band models. Pulsed and CW solid-state power amplifiers (SSPA) and microwave power modules (MPM) with state-of-the-art performance, based on . X- Band and Ku-Band amplifiers set new standard in power-to-volume . Its devices are used in civil and defense systems for microwave power amplifier and transmitter applications.

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Broadband solid-state amplifier offers up to 100W peak pulsed . PARIS, France — EUROPEAN MICROWAVE WEEK — Diamond . Transport behavior of holes in boron delta-doped diamond structures. Ultra- compact power amplifiers integrate monitoring and protection . X-Band GaN Pulsed Power Amplifier (SSPA). Click to download datasheet pdf.

Compact pulsed X-band GaN SSPA . Major EPSRC grant to develop Gallium Nitride on diamond microwave technology. Ultra-high power GaN-on- diamond microwave device transforming communication and radars . Applications for masers, the microwave predecessor to the laser, are hindered by the need to operate such devices under conditions or either low temperature or high vacuum. A solid-state maser that operates at room temperature is thus highly desirable. The centre has just begun an exciting new £4.

EPSRC funded project to develop GaN on diamond microwave devices. GaN-on- Diamond HEMTs and monolithic microwave integrated circuits (MMICs), the technology step beyond current microwave devices. The fabrication of polycrystalline diamond wafers by chemical vapor deposition is investigated. Diamond Antenna Rotary Joints for radar, air traffic control, and space and satellite communication systems.

We are always looking for enthusiastic PhD students, Summer students and Postdoctoral researchers to join our group to perform cutting edge research. If you are interested in joining the CDTR, please send an expression of interest and your CV to Professor Martin Kuball. Abstract: Thanks to its wide bandgap, exceptionally high thermal conductivity and relatively high carrier velocities, diamond exhibits attractive semiconductor properties that make it an interesting candidate for high power, high frequency and high temperature solid-state microelectronic devices , able to withstand harsh . Recommendations, person has recommended Howard.