A 470-   5-GHz Digitally Controlled Injection-Locked Multi-Modulus Frequency Divider With an In-Phase Dual-Input Injection Scheme

Lee J.; Park S.; Cho S.

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A 470- 5-GHz Digitally Controlled Injection-Locked Multi-Modulus Frequency Divider With an In-Phase Dual-Input Injection Scheme

机译：具有同相双输入注入方案的470-5 GHz数字控制注入锁定多模分频器

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This paper presents a digitally controlled injection-locked multimodulus frequency divider (ILMFD) based on a ring-oscillator using inverter chains for a small area and low power consumption. In the proposed ILMFD, division ratios of 2, 3, 4, 5 and 6 are achieved by using a programmable delay line that changes the self-oscillation frequency of the ring-oscillator. The locking range of the proposed ILMFD is improved by employing a dual-input injection scheme, which unlike previous multiinput injection schemes, does not require distinct phase inputs. A prototype chip implemented in a 0.13- $mu{hbox {m}}$ CMOS process has an area of $35times 33 mu{hbox {m}}^{2}$ and operates at 5 GHz while consuming 470 $mu{hbox {W}}$ from 1.2 V supply, where 350 $mu{hbox {W}}$ is dissipated in the core of the ILMFD. The proposed divider is the first reported multimodulus ILFD with digitally controlled division ratios and an in-phase dual-input injection scheme.

机译：本文提出了一种基于环形振荡器的数字控制注入锁定多模分频器（ILMFD），该环形振荡器使用逆变器链来实现小面积和低功耗的目的。在建议的ILMFD中，通过使用可改变环形振荡器自激频率的可编程延迟线来实现2、3、4、5和6的分频比。通过采用双输入注入方案来改善所提出的ILMFD的锁定范围，该双输入注入方案与以前的多输入注入方案不同，它不需要不同的相位输入。在0.13- $ mu {hbox {m}} $ CMOS工艺中实现的原型芯片的面积为35乘以33 mu {hbox {m}} ^ {2} $，其工作频率为5 GHz，同时消耗470 $ mu {hbox {W}} $来自1.2 V电源，其中350 $ mu {hbox {W}} $耗散在ILMFD的核心中。拟议的分频器是第一个报告的多模量ILFD，具有数字控制的分频比和同相双输入注入方案。

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《Very Large Scale Integration (VLSI) Systems, IEEE Transactions on》 |2011年第1期|p.61-70|共10页
作者
Lee J.; Park S.; Cho S.;
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正文语种 eng
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Dual-input injection; in-phase input injection; injection locking; injection-locked multimodulus frequency divider (ILMFD); multimodulus frequency divider; variable division ratios;

机译：双输入注入;同相输入注入;注入锁定;注入锁定多模分频器（ILMFD）;多模分频器;可变分频比;

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专利

1. Multi-Modulus LC Injection-Locked Frequency Dividers Using Single-Ended Injection [J] . Sheng-Lyang Jang, Ren-Kai Yang, Chia-Wei Chang, IEEE microwave and wireless components letters . 2009,第5期

机译：使用单端注入的多模LC注入锁定分频器
2. A CMOS frequency synthesizer with an injection-locked frequency divider for a 5-GHz wireless LAN receiver [J] . Rategh H.R., Samavati H. IEEE Journal of Solid-State Circuits . 2000,第5期

机译：具有注入锁定分频器的CMOS频率合成器，用于5 GHz无线局域网接收器
3. A Wide-Tunable LC-Based Voltage-Controlled Oscillator Using a Divide-by-N Injection-Locked Frequency Divider [J] . Shoichi HARA, Kenichi OKADA, Akira MATSUZAWA IEICE Transactions on Electronics . 2010,第6期

机译：采用N分频注入锁定分频器的可调谐宽幅基于LC的压控振荡器
4. A 470-μw multi-modulus injection-locked frequency divider with division ratio of 2, 3, 4, 5 and 6 in 0.13-μm CMOS [C] . Joonhee Lee, Seonghwan Cho Solid-State Circuits Conference, 2007 IEEE Asian . 2007

机译：470μw多模注入锁定分频器，在0.13μmCMOS中的分频比为2、3、4、5和6
5. Power scaling and frequency stabilization of an injection-locked laser. [D] . Teehan, Russell F. 2000

机译：注入锁定激光器的功率定标和频率稳定。
6. Injection-Locked Single Frequency Multi-core Yb-doped Phosphate Fiber Laser [O] . V. Demir, M. Akbulut, D. T. Nguyen, -1

机译：注入锁定单频多芯掺b磷酸盐光纤激光器
7. A Fully Differential Low-Power Divide-by-8 Injection-Locked Frequency Divider Up to 18 GHz [O] . Shanfeng Cheng, Haitao Tong, Jose Silva-martinez, 2014

机译：全差分低功耗8分频锁相分频器，最高可达18 GHz

A 470- 5-GHz Digitally Controlled Injection-Locked Multi-Modulus Frequency Divider With an In-Phase Dual-Input Injection Scheme

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