Abstract
A low-power, low-phase-noise quadrature oscillator for Medical Implantable Communications Service (MICS) transceivers is presented. The proposed quadrature oscillator generates 349~689 MHz I/Q (In-phase and Quadrature) signals covering the MICS band. The oscillator is based on a differential pair with positive feedback. Each delay cell consists of a few transistors enabling lower voltage operation. Since the oscillator is very sensitive to disturbances in the supply voltage and ground, a self-bias circuit for isolating the voltage disturbance is proposed to achieve bias voltages which can track the disturbances from the supply and ground. The oscillation frequency, which is controlled by the bias voltages, is less sensitive to the supply and ground noise, and a low phase noise is achieved. The chip is fabricated in the UMC (United Microelectronics Corporation) 0.18 μm CMOS (Complementary Metal Oxide Semiconductor) process; the core just occupies a 28.5 × 22 μm2 area. The measured phase noise is −108.45 dBc/Hz at a 1 MHz offset with a center frequency of 540 MHz. The gain of the oscillator is 0.309 MHz/mV with a control voltage from 0 V to 1.1 V. The circuit can work with a supply voltage as low as 1.2 V and the power consumption is only 0.46 mW at a 1.8 V supply voltage.
Highlights
The demand for high-data-rate and low-power wireless transceivers is increasing significantly for Medical Implantable Communications Service (MICS) transceivers [1,2]
Low-power and low-phase-noise are both major concerns for the quadrature signal generator of MICS transceivers [9,10,11,12]
The chip is fabricated in the UMC 0.18 μm CMOS process, noisemeasurement of the proposed circuit by nearly dB
Summary
The demand for high-data-rate and low-power wireless transceivers is increasing significantly for Medical Implantable Communications Service (MICS) transceivers [1,2]. One of the key blocks in front-ends is the quadrature signal generator which is used for modulation and demodulation [6,7]. Low-power and low-phase-noise are both major concerns for the quadrature signal generator of MICS transceivers [9,10,11,12]. The accumulation of relatively high phase noise will lead to a time jitter, which will result in timing uncertainty [13,14]. It will directly affect the quality of the received or transmitted signal in a wireless communication system and lead to a damaging effect on the performance of the system
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