Design of a temperature-insensitive digitally-controlled oscillator for on-chip reference clock

机译：用于片上参考时钟的温度不敏感数字控制振荡器的设计

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This paper presents a 0.4V temperature-insensitive digitally-controlled ring oscillator (DCO) for on-chip reference clock circuit. Based on a modified bootstrapped ring oscillator (BTRO), temperature variation can be further decreased without calibration, where BTRO is operated at near-threshold voltage. A binary-weighted tree-controlled resistor network (BWTRN) is performed to achieve an 8bit high-linearity DCO with BTRO. The proposed DCO is fabricated in TSMC 90 nm CMOS process with a core area of 0.013 mm^{2. The simulation results in typical corner demonstrate that the DCO oscillates max/min frequency of 105.6MHz/60.7MHz at 0.4 V V_ddand consumes 8.77μW/4.44μW. The maximum temperature variation of the single code is 329 ppm, and its maximum DNL variation is 0.67 LSB. Even for all process corners, the maximum temperature variation among all control codes is 8%.}

机译：本文介绍了一个0.4V温度不敏感的数字控制环形振荡器（DCO），用于片上参考时钟电路。基于改进的自动引导的环形振荡器（BTO），在不校准的情况下，可以进一步降低温度变化，其中BTRO在接近阈值电压下操作。执行二进制加权树控制电阻网络（BWTRN）以实现带有BTO的8位高线性DCO。所提出的DCO在TSMC 90nm CMOS工艺中制造，核心面积为0.013毫米^{2 。典型拐角的仿真结果表明，DCO振荡最大/最小频率为0.4 V V的105.6MHz / 60.7MHz_{dd 并消耗8.77μw/4.44μw。单个代码的最大温度变化为329ppm，其最大DNL变化为0.67LSB。即使对于所有过程角落，所有控制代码之间的最高温度变化也为8 ％。}}

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《IEEE International Conference on Industrial Electronics for Sustainable Energy Systems》|2018年|565p|共5页
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Chih-Taoy Jung; Yingchieh Ho;
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中图分类 TN1-53;
关键词
Ring oscillators; Temperature; Clocks; Phase locked loops; Threshold voltage; System-on-chip;

机译：环形振荡器;温度;钟表;锁相环;阈值电压;片上系统;

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2. A Design of Delta-Sigma-Modulator-Based Digitally-Controlled Oscillator with Dynamic Element Matching [J] . Jungnam BAE, Saichandrateja RADHAPURAM, Ikkyun JO, 電子情報通信学会技術研究報告. 集積回路. Integrated Circuits and Devices . 2015,第124期

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4. Design of a temperature-insensitive digitally-controlled oscillator for on-chip reference clock [C] . Chih-Taoy Jung, Yingchieh Ho 2018 IEEE International Conference on Industrial Electronics for Sustainable Energy Systems . 2018

机译：片内基准时钟的温度不敏感数控振荡器的设计
5. Low-power cmos relaxation oscillator design with an on-chip circuit for combined temperature-compensated reference voltage and current generation. [D] . Ni, Yuchi. 2013

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Design of a temperature-insensitive digitally-controlled oscillator for on-chip reference clock

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