A dual band CMOS complementary Colpitts voltage controlled oscillator

## Abstract This article presents a differential cross‐coupled complementary Colpitts CMOS voltage‐controlled oscillator (VCO).The low phase noise CMOS VCO has been implemented with the TSMC 0.35‐μm 2P4M CMOS technology and adopts a pair of cross‐coupled PMOS transistors to achieve faster start‐up

## Abstract A __g__~m~‐boosted complementary Colpitts differential voltage‐controlled oscillator (VCO) is proposed and implemented in a 0.18‐μm CMOS 1P6M process.It consists of two single‐ended p‐core Colpitts oscillators via __g__~m~‐enhanced cross‐coupled Colpitts transistors to obtain a differen

## Abstract This work presents a technique to enhance the performance of the conventional PMOS Colpitts VCO circuit. This technique is accomplished by adding an NMOS cross‐coupled pair under the traditional differential Colpitts VCO to enhance the oscillator startup condition. The signal analysis a

## Abstract A new fully integrated, CMOS Clapp quadrature voltage‐controlled oscillator (QVCO) is presented.The QVCO is composed of two differential n‐core Clapp VCOs coupled by four pMOSFETs and was implemented in the 0.18‐μm CMOS technology with 0.9‐V supply voltage. The die area is 0.574 × 0.866

## Abstract We proposed a 2.4/5.15 GHz dual‐band voltage‐controlled oscillator which consists of a voltage‐controlled oscillator and an injection‐locked oscillator. Its upper and lower band frequencies are 4.48∼5.86 GHz and 2.24∼2.93 GHz, respectively. With the power consumption of 3.2 mW, their ph

## Abstract A new low‐power 27.07‐GHz voltage controlled oscillator is designed for Ka‐band applications in this article. Body bias technique is used for the low‐power and low‐phase noise VCO design. The VCO can be tuned from 26.35 to 27.102 GHz. The measured phase noise is −106.2 dBc/Hz at 1 MHz o