Design of low voltage CMOS folded-cascode mixer
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摘要: 基于SMIC 0.18μmCMOS工艺,采用一种折叠共源共栅结构,设计实现了一种低压CMOS折叠共源共栅混频器,解决了传统Gilbert混频器中跨导级与开关级堆叠带来的高电源电压问题,以及在跨导级的高跨导、高线性与开关级的低噪声间进行折衷设计的难题.该混频器核心电路尺寸为165μm×75μm,当射频信号、本振信号和中频信号分别为1575.42MHz、1570MHz和5.42MHz时,仿真表明:该混频器转换增益( GC )为15dB,双边带噪声系数为12.5dB,输入三阶截断点为-0.4dBm,在1.2V的电源电压条件下,功耗为3.8mW,可用于航空航天领域的电子系统中.Abstract: By using the folded-cascode structure, the problem on high supply voltage of the stacking trans-conductance stage and switching-transistor stage was solved, and the trade-off among the high trans-conductance, high linearity of the trans-conductance stage and the low noise of the switching-transistor stage were also realized. Implemented in a SMIC 0.18μm CMOS process, the low-voltage complementary metal-oxide semiconductor (CMOS) folded-cascode mixer (FCM) core has an area of 165μm×75μm. When the frequency of the radio frequency (RF) signal, local oscillator (LO) signal and the intermediate frequency (IF) signal are 1575.42MHz, 1570MHz and 5.42MHz, respectively, the simulation results show that the mixer features a conversion gain ( GC ) of 15dB, a dual sideband (DSB) noise figure of 12.5dB, a third-order input intercept point (IIP3) of -0.4dBm, and consumes 3.8mW at a power supply voltage of 1.2V. The mixer can be applied to the electronic systems within the realm of the aviation aerospace.
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Key words:
- CMOS integrated circuits /
- radio receivers /
- mixers /
- navigation /
- power supply /
- low-voltage /
- folded-cascode
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