Title :
A 1-V 3.5-mW CMOS switched-opamp quadrature IF circuitry for Bluetooth receivers
Author :
Cheung, Vincent Sin-Luen ; Luong, Howard C. ; Chan, Mansun ; Ki, Wing-Hung
Author_Institution :
Dept. of Electr. & Electron. Eng., Hong Kong Univ. of Sci. & Technol., Kowloon, China
fDate :
5/1/2003 12:00:00 AM
Abstract :
A 1-V switched-capacitor (SC) quadrature IF circuitry for Bluetooth receivers is demonstrated using switched-opamp technique. To achieve double power efficiency while maintaining low sensitivity to finite opamp gain effects for the SC IF circuitry, half-delay integrator-based filters and ΣΔ modulator have been proposed. The proposed quadrature IF circuitry employs a seventh-order IF filter for channel selection and a third-order ΣΔ modulator for analog-to-digital conversion. A noise-shaping extension technique is employed to enhance the resolution of the low-pass ΣΔ modulator by 16 dB while operating at the same oversampling ratio and power consumption. At a 1-V supply, the quadrature IF circuitry achieves a measured IIP3 of -3 dBm at a nominal gain of 24 dB with a 48-dB variable gain control while consuming a total power dissipation of 3.5 mW.
Keywords :
Bluetooth; CMOS integrated circuits; low-power electronics; sigma-delta modulation; switched capacitor networks; transceivers; ΣΔ modulator; 1 V; 24 dB; 3.5 mW; Bluetooth receivers; CMOS; channel selection; finite opamp gain effects; half-delay integrator-based filters; noise-shaping extension technique; oversampling ratio; power consumption; power efficiency; seventh-order IF filter; switched-capacitor circuitry; switched-opamp quadrature IF circuitry; total power dissipation; variable gain control; Analog-digital conversion; Bluetooth; Energy consumption; Filters; Gain control; Gain measurement; Noise shaping; Power dissipation; Power measurement; Switching circuits;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2003.810031
