A 14GHz static frequency divider has been fabricated using an enhancemcnt/depletion 0.3 mym recessed-gate AlGaAs/ GaAS/AlGaAs quantum well FET process. The divider has a power dissipation of 35mW at a supply voltage of 1.80V. The minimum input Power for dividing operation is 8-3 dBm at a maximum input frequency of 14.2GHz, which is lowered to -6.2dBm, when operating at 12.O GHz
The design and characterization of two regenerative frequency dividers based on a commercial foundry...
Abstract A divide-by-2 frequency divider circuit was designed using 22-nm CMOS FD-SOI technology. T...
Abstract—Static frequency dividers are widely used technology performance benchmark circuits. Using ...
A frequency devider based on AlGaAs/GaAs/AlGaAs quantum well FETs with 0.2 micrometer gate length ha...
Two static and two dynamic frequency dividers based on enhancement and depletion 0.2-mu m gate lengt...
The design and performance of a dynamic frequency divider was presented. This digital IC demonstrate...
A data decision and a static frequency divider in source coupled FET logic with a supply voltage of ...
A divide-by-two dynamic frequency divider based on enhancement and depletion 0.2 mu m gate length ps...
A static frequency divider with a maximum operating frequency of up to 66 GHz was developed for appl...
A 2:1 static frequency divider using a band-pass load was fabricated in a digital 90nm SOI CMOS tech...
Abstract—A 32:1 static frequency divider consisting of five stages of 2:1 dividers using current mod...
In this paper, a low supply static 2:1 frequency divider based on 0.13μm CMOS is presented. It is de...
An integrated 12-GHz static frequency divider with a selectable division ratio (16/1, 64/1) realised...
The design and performance of a 28 - 51 GHz dynamic frequency divider based on pseudomorphic Alsub0....
Abstract — An ultra-low power static frequency divider with a maximum clock frequency> 61 GHz was...
The design and characterization of two regenerative frequency dividers based on a commercial foundry...
Abstract A divide-by-2 frequency divider circuit was designed using 22-nm CMOS FD-SOI technology. T...
Abstract—Static frequency dividers are widely used technology performance benchmark circuits. Using ...
A frequency devider based on AlGaAs/GaAs/AlGaAs quantum well FETs with 0.2 micrometer gate length ha...
Two static and two dynamic frequency dividers based on enhancement and depletion 0.2-mu m gate lengt...
The design and performance of a dynamic frequency divider was presented. This digital IC demonstrate...
A data decision and a static frequency divider in source coupled FET logic with a supply voltage of ...
A divide-by-two dynamic frequency divider based on enhancement and depletion 0.2 mu m gate length ps...
A static frequency divider with a maximum operating frequency of up to 66 GHz was developed for appl...
A 2:1 static frequency divider using a band-pass load was fabricated in a digital 90nm SOI CMOS tech...
Abstract—A 32:1 static frequency divider consisting of five stages of 2:1 dividers using current mod...
In this paper, a low supply static 2:1 frequency divider based on 0.13μm CMOS is presented. It is de...
An integrated 12-GHz static frequency divider with a selectable division ratio (16/1, 64/1) realised...
The design and performance of a 28 - 51 GHz dynamic frequency divider based on pseudomorphic Alsub0....
Abstract — An ultra-low power static frequency divider with a maximum clock frequency> 61 GHz was...
The design and characterization of two regenerative frequency dividers based on a commercial foundry...
Abstract A divide-by-2 frequency divider circuit was designed using 22-nm CMOS FD-SOI technology. T...
Abstract—Static frequency dividers are widely used technology performance benchmark circuits. Using ...