A 13.2% locking-range divide-by-6, 3.1mW, ILFD using even-harmonic-enhanced direct injection technique for millimeter-wave PLLs

2013 Proceedings of the ESSCIRC (ESSCIRC) Pub Date : 2013-10-31 DOI:10.1109/ESSCIRC.2013.6649158
T. Siriburanon, W. Deng, Ahmed Musa, K. Okada, A. Matsuzawa
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引用次数: 21

Abstract

This paper presents a wide-locking-range, low-power, Injection-Locked Frequency Divider (ILFD) using even-harmonic-enhanced direct injection technique which can operate with a high division ratio of 4 and 6. The proposed ILFD has been fabricated in a 65nm CMOS process with a core area of 0.002mm2. The proposed ILFD achieves the widest measured locking range reported of 4.3 GHz (13.2%) for a divide-by-6 operation with a power consumption of only 3.1mW without any tuning mechanism. Moreover, it also achieves 5.7GHz (28.5%) for divide-by-4 operation while consuming only 3.1mW. Combining its multi-division and tuning capability, the dividing capability ranges from 14.0-38.0GHz while consuming 2.8 to 5.4mW.
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采用均匀谐波增强直接注入技术的毫米波锁相环,锁定范围为13.2%,除以63.1 mw
本文提出了一种采用均匀谐波增强直接注入技术的宽锁定范围、低功率注入锁定分频器(ILFD),该分频器可以在4和6的高分频比下工作。该ILFD采用65nm CMOS工艺制造,核心面积为0.002mm2。所提出的ILFD在没有任何调谐机制的情况下,实现了4.3 GHz(13.2%)的最大测量锁定范围,功耗仅为3.1mW。此外,它还可以在仅消耗3.1mW的情况下实现5.7GHz(28.5%)的除以4操作。结合其多分频和调谐能力,分频能力范围为14.0-38.0GHz,功耗为2.8 - 5.4mW。
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2013 Proceedings of the ESSCIRC (ESSCIRC)
2013 Proceedings of the ESSCIRC (ESSCIRC)
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A 180nm fully-integrated dual-channel reconfigurable receiver for GNSS interoperations A 40 nm LP CMOS self-biased continuous-time comparator with sub-100ps delay at 1.1V & 1.2mW MEMS for automotive and consumer electronics A resistor-based temperature sensor for MEMS frequency references A 13.2% locking-range divide-by-6, 3.1mW, ILFD using even-harmonic-enhanced direct injection technique for millimeter-wave PLLs
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