[[abstract]]A low-voltage and low-power RF mixer for WCDMA applications is presented. The paper presents a novel topology mixer that leads to a better performance in terms of isolation and power consumption for low supply voltage. The measuring results of the proposed mixer achieve: 7dB power conversion gain, 10.4dB double side band (DSB) noise figure, -2dBm input third-order intercept point (IIP3), and the total dc power consumption of this mixer including output buffers is 2.2mW from a 1V supply voltage. The current output buffer is about 1.96mW, the excellent LO-RF, LO-IF and RF-IF isolation achieved up to 49dB, 39.5dB and 57.3dB, respectively
Abstract—A CMOS low-voltage downconversion mixer is pre-sented. With 1.69-GHz local oscillator signa...
International audienceThis paper presents a low power, UWB up-conversion mixer, designed on CMOS 0.1...
A 2-V 900-MHz downconversion mixer to be used in a single-chip CMOS receiver is presented. The mixer...
This paper presents a 0.5 μm CMOS mixer for RF applications. The core consists of a quad differentia...
This paper presents a 0.5 μm CMOS mixer for RF applications. The core consists of a quad differentia...
This paper presents the design and analysis of a low-voltage downconversion mixer in 0.13-μm CMOS fo...
In this paper, a low voltage low power up-conversion mixer, designed in a Chartered 0.18 μm RFCMOS t...
Three down-conversion mixers for low-voltage, balanced 900 MHz wireless applications are introduced....
Three down-conversion mixers for low-voltage, balanced 900 MHz wireless applications are introduced....
This paper presents improvement technique on linearity of a CMOS double balance Gilbert cell mixer w...
The scaling of CMOS technologies has a great impact on analog and radio-frequency (RF) circuit desig...
The scaling of CMOS technologies has a great impact on analog and radio-frequency (RF) circuit desig...
This paper presents improvement technique on linearity of a CMOS double balance Gilbert cell mixer w...
A fully differential low-power down-conversion mixer using a TSMC 0.18-μm CMOS process is presented ...
Abstract—A new architecture of CMOS downconversion mixer for low voltage and high gain communication...
Abstract—A CMOS low-voltage downconversion mixer is pre-sented. With 1.69-GHz local oscillator signa...
International audienceThis paper presents a low power, UWB up-conversion mixer, designed on CMOS 0.1...
A 2-V 900-MHz downconversion mixer to be used in a single-chip CMOS receiver is presented. The mixer...
This paper presents a 0.5 μm CMOS mixer for RF applications. The core consists of a quad differentia...
This paper presents a 0.5 μm CMOS mixer for RF applications. The core consists of a quad differentia...
This paper presents the design and analysis of a low-voltage downconversion mixer in 0.13-μm CMOS fo...
In this paper, a low voltage low power up-conversion mixer, designed in a Chartered 0.18 μm RFCMOS t...
Three down-conversion mixers for low-voltage, balanced 900 MHz wireless applications are introduced....
Three down-conversion mixers for low-voltage, balanced 900 MHz wireless applications are introduced....
This paper presents improvement technique on linearity of a CMOS double balance Gilbert cell mixer w...
The scaling of CMOS technologies has a great impact on analog and radio-frequency (RF) circuit desig...
The scaling of CMOS technologies has a great impact on analog and radio-frequency (RF) circuit desig...
This paper presents improvement technique on linearity of a CMOS double balance Gilbert cell mixer w...
A fully differential low-power down-conversion mixer using a TSMC 0.18-μm CMOS process is presented ...
Abstract—A new architecture of CMOS downconversion mixer for low voltage and high gain communication...
Abstract—A CMOS low-voltage downconversion mixer is pre-sented. With 1.69-GHz local oscillator signa...
International audienceThis paper presents a low power, UWB up-conversion mixer, designed on CMOS 0.1...
A 2-V 900-MHz downconversion mixer to be used in a single-chip CMOS receiver is presented. The mixer...
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