采用异步奇整数50%占空比CML分频器的过程补偿低功耗分频链

2011 IEEE Radio Frequency Integrated Circuits Symposium Pub Date : 2011-06-05 DOI:10.1109/RFIC.2011.5940659

Edward P. Coleman, S. Chakraborty, Walter A. Budziak, Theodore R. Blank, P. T. Røine

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引用次数: 5

摘要

本文介绍了一种用于异步CML分频器的过程补偿偏置设计，用于工作在4Ghz输入射频频率下的低功耗、高性能的LO分频链。除法链提供4、8、12、16、20和24的除法。它为环内调制发射机提供差分CML电平信号，为驱动无源混频器的I/Q接收器提供25%占空比非重叠轨对轨波形。采用异步分频器实现了除3和除5的占空比为50%的正交输出。所有的CML分压器都使用过程补偿偏置来补偿负载电阻的变化和使用双模拟反馈回路的尾电流变化。分压器链采用180nm CMOS技术制造，可在工业温度范围(- 40至90°C)内工作，并提供138-960Mhz范围内的输出，在最高输出频率下，从1.8V稳压电源消耗2.2mA。

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Process compensated low power LO divider chain with asynchronous odd integer 50% duty cycle CML dividers

This paper illustrates the design of a process compensated bias for asynchronous CML dividers for a low power, high performance LO divide chain operating at 4Ghz of input RF frequency. The divider chain provides division by 4,8,12,16,20, and 24. It provides a differential CML level signal for the in-loop modulated transmitter, and 25% duty cycle non-overlapping rail to rail waveforms for I/Q receiver for driving passive mixer. Asynchronous dividers have been used to realize divide by 3 and 5 with 50% duty cycle, quadrature outputs. All the CML dividers use a process compensated bias to compensate for load resistor variation and tail current variation using dual analog feedback loops. Frabricated in 180nm CMOS technology, the divider chain operate over industrial temperature range (−40 to 90°C), and provide outputs in 138–960Mhz range, consuming 2.2mA from 1.8V regulated supply at the highest output frequency.

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2011 IEEE Radio Frequency Integrated Circuits Symposium

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