Add to ORKGThis paper presents the analysis and design of a new low power and highly linear mixer topology based on a newly reported differential derivative superposition method. Volterra series and harmonic balance are employed to investigate its linearisation mechanism and to optimise the design. A prototype mixer has been designed and is being implemented in 0.18μm CMOS technology. Simulation shows this mixer achieves 19.7dBm IIP3 with 10.5dB conversion gain, 13.2dB noise figure at 2.4GHz and only 3.8mW power consumption. This performance is competitive with already reported mixers
Abstract—This paper presents the design of a fully differential double balanced switched transconduc...
Abstract—A new architecture of CMOS downconversion mixer for low voltage and high gain communication...
[[abstract]]Mixers will suffer from harmonic mixing problem in wideband applications because these h...
A 900MHz high linearity low power and low noise mixer is designed in TSMC 0.18-mu m CMOS process. By...
This paper presents a 0.5 μm CMOS mixer for RF applications. The core consists of a quad differentia...
This paper presents a low voltage low power high linearity quadrature mixer for software defined rad...
A high linear double-gate (DG) MOSFET application to RF mixer is proposed based on derivative superp...
This paper presents improvement technique on linearity of a CMOS double balance Gilbert cell mixer w...
This paper presents improvement technique on linearity of a CMOS double balance Gilbert cell mixer w...
Modern communication systems require a wide variety of linear and nonlinear circuits such as power a...
This paper proposes a novel differential mixer topology. The traditional stage of switching is repla...
This paper gives a quantitative analysis of the main mechanisms setting fundamental limits to the li...
This paper proposes different implementation of derivative superposition technique to improve the li...
A linearization method for an active balanced mixer is proposed and demonstrated. It is based on fee...
A 24 GHz high linear, high-gain up-conversion mixer is realized for fifth-generation (5G) applicatio...
Abstract—This paper presents the design of a fully differential double balanced switched transconduc...
Abstract—A new architecture of CMOS downconversion mixer for low voltage and high gain communication...
[[abstract]]Mixers will suffer from harmonic mixing problem in wideband applications because these h...
A 900MHz high linearity low power and low noise mixer is designed in TSMC 0.18-mu m CMOS process. By...
This paper presents a 0.5 μm CMOS mixer for RF applications. The core consists of a quad differentia...
This paper presents a low voltage low power high linearity quadrature mixer for software defined rad...
A high linear double-gate (DG) MOSFET application to RF mixer is proposed based on derivative superp...
This paper presents improvement technique on linearity of a CMOS double balance Gilbert cell mixer w...
This paper presents improvement technique on linearity of a CMOS double balance Gilbert cell mixer w...
Modern communication systems require a wide variety of linear and nonlinear circuits such as power a...
This paper proposes a novel differential mixer topology. The traditional stage of switching is repla...
This paper gives a quantitative analysis of the main mechanisms setting fundamental limits to the li...
This paper proposes different implementation of derivative superposition technique to improve the li...
A linearization method for an active balanced mixer is proposed and demonstrated. It is based on fee...
A 24 GHz high linear, high-gain up-conversion mixer is realized for fifth-generation (5G) applicatio...
Abstract—This paper presents the design of a fully differential double balanced switched transconduc...
Abstract—A new architecture of CMOS downconversion mixer for low voltage and high gain communication...
[[abstract]]Mixers will suffer from harmonic mixing problem in wideband applications because these h...