Sheng-Lyang Jang, Chih-Chiang Kang, Huan-Chun Wang, Miin-Horng Juang
This paper studies a new dual-band CMOS class-C voltage-controlled oscillator (VCO). The oscillator consists of a dual-resonance LC resonator in shunt with two pairs of capacitive cross-coupled nMOSFETs. The proposed oscillator has been implemented with the TSMC 0.18μm CMOS technology, and it shows a frequency tuning range with two frequency bands and a small tuning hysteresis is measured. The oscillator can generate differential signals at 2.4GHz and 6.9GHz and it also can generate concurrent frequency oscillation while the circuit is biased around the bias with frequency tuning hysteresis. With the supply voltage of VDD=1.1V, the VCO-core current and power consumption of the oscillator are 2.90mA and 3.19mW, respectively. The die area of the class-C oscillator is 0.9×0.97mm2. Overvoltage stress is applied to the oscillator, measurement indicates the concurrent oscillation is sensitive to overvoltage stress.
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