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引用次数: 36
摘要
为了实现低功耗无线收发器,需要提高频率合成器的性能,频率合成器通常用作倍频器,由锁相环(PLL)组成。而普通锁相环功耗大、占地面积大。为了改进倍频器,我们提出了一种脉冲注入锁定倍频器(PILFYM),它通过使用脉冲输入信号来抑制杂散信号。采用0.18 μ m 1P5M的CMOS工艺制备了一个注入锁定振荡器(ILO)。岩心尺寸为10.8 μ m × 10 μ m。ILO的功耗在250 MHz时为9.6 muW,在4.8 GHz时为1.47 mW。相位噪声为-108 dBc/Hz,偏移量为1mhz。对于十倍倍频乘器,在10khz偏置下,输出相位噪声比输入相位噪声大10jb,这是理论极限。
4.8GHz CMOS frequency multiplier with subharmonic pulse-injection locking
To realize low-power wireless transceivers, it is required to improve the performance of a frequency synthesizer, which is typically used as a frequency multiplier and is composed of a phase-locked loop (PLL). However a general PLL consumes much power and occupies a large area. To improve the frequency multiplier, we propose a pulse-injection-locked frequency multiplier (PILFYM), in which spurious signals are suppressed by using a pulse input signal. An injection-locked oscillator (ILO) in a PILFM was fabricated by a 0.18 mum 1P5M CMOS process. The core size was 10.8 mum x 10 S mum. The power consumption of the ILO is 9.6 muW at 250 MHz, and 1.47 mW at 4.8 GHz. The phase noise is -108 dBc/Hz at 1 MHz offset. For a ten-times frequency multiplier, output phase noise is 10 JB larger than the input phase noise below 10 kHz offset, which is the theoretical limit.
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