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针对手持式无线通信产品对低成本、高效率收发机的需求,提出了一种将并联放大结构和放大器电源漏端调制相结合的功率控制方法。结合射频E类功率放大器的结构特点,采用CMOS工艺,达到了在大的输出功率范围内保持持续稳定高效率的目的。在设计中采用1/4波长传输线实现了大范围的功率联合与控制,而小范围的输出功率调节则通过改变E类功放的漏端电源电压完成。仿真结果表明:理想情况下当输出功率在140~700 mW范围内变化时,联合放大器的功率增加效率均可保持在41%以上,最高可以达到47.9%。 相似文献
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Low-Power CMOS VCO with Dual-Band Local Oscillating Signal Outputs for 5/2. 5-GHz WLAN Transceivers 总被引:1,自引:0,他引:1
The paper describes a novel low-power CMOS voltage-controlled oscillator (VCO) with dual-band local oscillating (LO) signal outputs for 5/2. 5-GHz wireless local area network (WLAN) transceivers. The VCO is based on an on-chip symmetrical spiral inductor and a differential varactor. The 2. 5-GHz quadrature LO signals are generated using the injection-locked frequency divider (ILFD) technique. The ILFD structure is similar to the VCO structure with its wide tracking range. The design tool ASITIC was used to optimize all on-chip symmetrical inductors. The power consumption was kept low with differential LC tanks and the ILFD technique. The circuit was implemented in a 0.18-fim CMOS process. Hspice and SpectreRF simulations show the proposed circuit could generate low phase noise 5/2. 5-GHz dual band LO signals with a wide tuning range. The 2. 5-GHz LO signals are quadrature with almost no phase and amplitude errors. The circuit consumes less than 5. 3mW in the tuning range with a power supply voltage of 1 相似文献
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针对接收机前端中可变增益放大器需要高线性处理大信号的问题,分析了使用源极退化电阻以及跨导增强电路的放大器线性度;设计了使用改进型跨导增强电路的放大器。它具有更强的跨导增强能力,同时减小了输入M O S管跨导由于漏源电压变化产生的非线性失真。提出了一种对称的可变电阻结构,它降低了M O S管开关带来的非线性。仿真结果表明,放大器在3.3V电源电压下直流功耗为1.5mW,在1~10MH z带宽、3~24 dB增益范围内,差分输出信号峰峰值为3.3V时,总谐波失真低于-60 dB。 相似文献
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