This chapter discusses the low-noise amplifier process variation effect. Extensive analytical equations are derived. The adaptive substrate bias technique to reduce the process variation effect on the low-noise amplifier is presented
This paper proposes a general methodology for designing noise-canceling low noise amplifiers (LNA). ...
KIET Ghaziabad,India. This paper presents the study of different important parameters which are cons...
Abstract—Process variation is an difficulty in designing reliable CMOS mixed signal systems with hig...
An adaptive substrate (body) bias design for variability and reliability for a CMOS low-noise amplif...
An adaptive substrate (body) bias design for variability and reliability for a CMOS low-noise amplif...
This chapter discusses the process variation effect on power amplifier performance. Extensive analyt...
3 different types of Complementary Metal-Oxide- Semiconductor (CMOS) Low Noise Amplifier (LNA) Desig...
This paper investigates the capability of an architecture with digitally controllable gain and power...
In this paper, a low-power adaptive low noise amplifier (LNA) is presented. The LNA is based on a bi...
In this paper, the design of wide-swing constant transconductance (gm) bias circuit that generates b...
A controller for but not limited to low noise amplifiers (LNAs) providing improved yield, lower area...
CMOS scaling has enabled circuit designers to develop a wide variety of fully integrated mixed signa...
Low noise amplifiers are ultimately limited in performance and power dissipation by parasitics intro...
Low Noise Amplifier (LNA) is the most critical part of a receiver front end, in term of the receiver...
A unified description of multiple feedback common-gate low-noise amplifiers (LNAs) is presented, pro...
This paper proposes a general methodology for designing noise-canceling low noise amplifiers (LNA). ...
KIET Ghaziabad,India. This paper presents the study of different important parameters which are cons...
Abstract—Process variation is an difficulty in designing reliable CMOS mixed signal systems with hig...
An adaptive substrate (body) bias design for variability and reliability for a CMOS low-noise amplif...
An adaptive substrate (body) bias design for variability and reliability for a CMOS low-noise amplif...
This chapter discusses the process variation effect on power amplifier performance. Extensive analyt...
3 different types of Complementary Metal-Oxide- Semiconductor (CMOS) Low Noise Amplifier (LNA) Desig...
This paper investigates the capability of an architecture with digitally controllable gain and power...
In this paper, a low-power adaptive low noise amplifier (LNA) is presented. The LNA is based on a bi...
In this paper, the design of wide-swing constant transconductance (gm) bias circuit that generates b...
A controller for but not limited to low noise amplifiers (LNAs) providing improved yield, lower area...
CMOS scaling has enabled circuit designers to develop a wide variety of fully integrated mixed signa...
Low noise amplifiers are ultimately limited in performance and power dissipation by parasitics intro...
Low Noise Amplifier (LNA) is the most critical part of a receiver front end, in term of the receiver...
A unified description of multiple feedback common-gate low-noise amplifiers (LNAs) is presented, pro...
This paper proposes a general methodology for designing noise-canceling low noise amplifiers (LNA). ...
KIET Ghaziabad,India. This paper presents the study of different important parameters which are cons...
Abstract—Process variation is an difficulty in designing reliable CMOS mixed signal systems with hig...