Add to ORKGThe RF circuitry in new generation mobile handsets is continuously becoming smaller while containing more functionality. Silicon-on-sapphire (SOS) technology is an advanced active device process that eases the fabrication of advanced wireless components on very high resistivity substrates. This paper presents the basic theory and resulting trade-offs regarding RF FET switches in order to achieve a high power handling capability, low insertion loss and high linearity of the latter. A combined RF switch consisting of eight stacked FETs, used in a high power switched capacitor banks, is designed with an insertion loss of 1 dB at 2 GHz for a transmitter power of 39.5 dBm. The presented configuration has a high linearity featuring P1dB and IIP3 ...
This paper describes the design and optimization of an RF tunable network capable of matching highl...
[[abstract]]In this work, two single-pole, double-throw CMOS transmit/receive (T/R) switches are des...
Silicon-on-sapphire (SOS) technology is gaining\ud rapid ground in RF applications due to its inhere...
The RF circuitry in new generation mobile handsets is continuously becoming smaller while containing...
peer reviewedThe RF circuitry in new generation mobile handsets is continuously becoming smaller whi...
peer reviewedThe RF circuitry in new generation mobile handsets is continuously becoming smaller whi...
This paper proposes a stacked field-effect transistor (FET) single-pole, double-throw (SPDT) RF swit...
The objective of this research is to demonstrate the feasibility of the implementation of low-cost, ...
<p>The goal of any switch is to enable reconfiguration, flexibility, or adaptability for the network...
The goal of any switch is to enable reconfiguration, flexibility, or adaptability for the network in...
This paper presents a fast-switching Transmit/Receive (T/R) Single-Pole-Double-Throw (SPDT) Radio Fr...
In this research work, low insertion loss, high isolation, ultra-wideband single-pole double-throw (...
Silicon-on-sapphire (SOS) technology is gaining rapid ground in RF applications due to its inherent...
In this paper, we present the recent results of our research on the high power ultra-fast silicon RF...
This dissertation focuses on the design of CMOS power amplifiers for modern wireless handsets, where...
This paper describes the design and optimization of an RF tunable network capable of matching highl...
[[abstract]]In this work, two single-pole, double-throw CMOS transmit/receive (T/R) switches are des...
Silicon-on-sapphire (SOS) technology is gaining\ud rapid ground in RF applications due to its inhere...
The RF circuitry in new generation mobile handsets is continuously becoming smaller while containing...
peer reviewedThe RF circuitry in new generation mobile handsets is continuously becoming smaller whi...
peer reviewedThe RF circuitry in new generation mobile handsets is continuously becoming smaller whi...
This paper proposes a stacked field-effect transistor (FET) single-pole, double-throw (SPDT) RF swit...
The objective of this research is to demonstrate the feasibility of the implementation of low-cost, ...
<p>The goal of any switch is to enable reconfiguration, flexibility, or adaptability for the network...
The goal of any switch is to enable reconfiguration, flexibility, or adaptability for the network in...
This paper presents a fast-switching Transmit/Receive (T/R) Single-Pole-Double-Throw (SPDT) Radio Fr...
In this research work, low insertion loss, high isolation, ultra-wideband single-pole double-throw (...
Silicon-on-sapphire (SOS) technology is gaining rapid ground in RF applications due to its inherent...
In this paper, we present the recent results of our research on the high power ultra-fast silicon RF...
This dissertation focuses on the design of CMOS power amplifiers for modern wireless handsets, where...
This paper describes the design and optimization of an RF tunable network capable of matching highl...
[[abstract]]In this work, two single-pole, double-throw CMOS transmit/receive (T/R) switches are des...
Silicon-on-sapphire (SOS) technology is gaining\ud rapid ground in RF applications due to its inhere...