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引用次数: 2
摘要
本文提出了一种用于集成收发器的MOS晶体管压控振荡器(VCO)电路,该电路可以实现对工艺参数变化的完全补偿。这是通过拟合LC谐振器的片上电容实现的。该电容用于调谐谐振频率。压控振荡器输出频率由片上p /n阱结变容管调谐。电路拓扑结构最大限度地减少槽电路中固定寄生电容的数量。仿真结果表明,所提出的压控振荡器能够达到电信应用所要求的频率。采用工业0.35 μ m CMOS工艺参数进行仿真。这些振荡器的标称工作频率为2.4 GHz。它们的设计是为了抵抗供应和温度的影响。该振荡器实现了必要的温度和电源独立性,同时可调谐约2.4 GHz。仅使用2.5V的电源和IV的调谐电压,该电路在27℃温度下的模拟单输出灵敏度为565 ppm/℃,在2V时为-0.47%/伏
This paper presents voltage controlled oscillator (VCO) circuit employing MOS transistors intended for integrated transceiver, in which full compensation of process parameters variations can be obtained. This is realized by fitting on chip capacitance of LC resonator. This capacitance is used for tuning of resonant frequency. VCO output frequency is tuned by on-chip p /n-well junction varactors. The circuit topology minimizes the amount of fixed parasitic capacitance in the tank circuit. The simulation results show that the proposed VCO can reach the frequency wished to the telecommunication application. Parameters from an industrial 0.35 mum CMOS process are used for simulations. The nominal operating frequency of these oscillators is 2.4 GHz. They are designed to be resistant to supply and temperature effects. This oscillator achieves the necessary temperature and supply independence while being tunable about 2.4 GHz. Using only 2.5V of power supply and IV of tuned voltage, the circuit shows a simulated single-output sensitivity of 565 ppm/degC at 27degC temperature and -0.47%/Volt at 2V
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