Design of high-isolation and wideband RF switches in SiGe BiCMOS technology for radar applications

Cardoso, Adilson S.

06 April 2012

RF switches are an essential building block in numerous applications, including tactical radar systems, satellite communications, global positioning systems (GPS), automotive radars, wireless communications, radio astronomy, radar transceivers, and various instrumentation systems. For many of these applications the circuits have to operate reliably under extreme operating conditions, including conditions outside the domain of commercial military specifications. The objective of this thesis is to present the design procedure, simulation, and measurement results for Radio Frequency (RF) switches in 130 nm Silicon Germanium (SiGe) BiCMOS process technology. The novelty of this work lies in the proposed new topology of an ultrahigh-isolation single-pole, single-throw (SPST) and a single pole, four-throw (SP4T) nMOS based switch for multiband microwave radar systems. The analysis of cryogenic temperature effects on these circuits and devices are discussed in this work. The results shows that several key-figures-of-merits of a switch, like insertion loss, isolation, and power handling capability (P1dB) improve at cryogenic temperatures. These results are important for several applications, including space-based extreme environment application where FET based circuits would need to operate reliably across a wide-range of temperature.

Single-pole single-throw (SPST)

Single-pole four-throw (SP4T)

FET switch

SiGe

High isolation switch

RF switch cryogenic effects

FET cryogenic operation

Radar switch design

Radar microwave switch

BiCMOS RF switch

Radar Materials

Germanium

Integrated circuits

Rekonfigurovatelná vícepásmová anténa / Reconfigurable multiband antenna

Havlín, Radomil

January 2011

This thesis deals with modeling and produce of reconfigurable multi-band planar antennas, which allow electrical shifting of frequency band. After antennas simulation with PIN diode and FET switch in a commercial program CST MW, another step is to optimize the antenna for a new substrate. The next step was to produce antennas. Finally, the optimized antennas are compared with the measurement on experimental antennas.