Analysis of buck converters for on-chip integration with a dual supply voltage microprocessor

Kursun V.; Narendra S.G.; De V.K.; Friedman E.G.

首页> 外文期刊>IEEE transactions on very large scale integration (VLSI) systems >Analysis of buck converters for on-chip integration with a dual supply voltage microprocessor

【24h】

Analysis of buck converters for on-chip integration with a dual supply voltage microprocessor

机译：用于双电源电压微处理器的片上集成降压转换器的分析

获取原文

获取原文并翻译 | 示例

开具论文收录证明 >>

页面导航

摘要
著录项
引文网络
相似文献
相关主题

摘要

An analysis of an on-chip buck converter is presented in this paper. A high switching frequency is the key design parameter that simultaneously permits monolithic integration and high efficiency. A model of the parasitic impedances of a buck converter is developed. With this model, a design space is determined that allows integration of active and passive devices on the same die for a target technology. An efficiency of 88.4% at a switching frequency of 477 MHz is demonstrated for a voltage conversion from 1.2-0.9 volts while supplying 9.5 A average current. The area occupied by the buck converter is 12.6 mm/sup 2/ assuming an 80-nm CMOS technology. An estimate of the efficiency is shown to be within 2.4% of simulation at the target design point. Full integration of a high-efficiency buck converter on the same die with a dual-V/sub DD/ microprocessor is demonstrated to be feasible.

机译：本文对片上降压转换器进行了分析。高开关频率是同时允许单片集成和高效率的关键设计参数。建立了降压转换器的寄生阻抗模型。利用该模型，可以确定一个设计空间，该空间可以将目标技术的有源和无源设备集成在同一芯片上。对于从1.2-0.9伏的电压转换，同时提供9.5 A的平均电流，在477 MHz的开关频率下的效率为88.4％。假设采用80 nm CMOS技术，则降压转换器所占的面积为12.6 mm / sup 2 /。在目标设计点，效率估算显示为仿真结果的2.4％以内。事实证明，将高效降压转换器与双V / sub DD /微处理器完全集成在同一芯片上是可行的。

著录项

来源
《IEEE transactions on very large scale integration (VLSI) systems》 |2003年第3期|p.514-522|共9页
作者
Kursun V.; Narendra S.G.; De V.K.; Friedman E.G.;
展开▼
作者单位

Electr. & Comput. Eng. Dept., Univ. of Rochester, NY, USA;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
关键词
DC-DC power convertors; microprocessor chips; CMOS digital integrated circuits; buck converter; on-chip integration; dual supply voltage microprocessor; switching frequency; efficiency; parasitic impedance; design space; active device; passive device;

机译：DC-DC电源转换器;微处理器芯片;CMOS数字集成电路;降压转换器片上集成;双电源电压微处理器;开关频率效率;寄生阻抗设计空间;有源设备;无源设备;

相似文献

外文文献
中文文献
专利

1. Analysis of buck converters for on-chip integration with a dual supply voltage microprocessor [J] . Kursun V., Narendra S.G., De V.K., IEEE transactions on very large scale integration (VLSI) systems . 2003,第3期

机译：用于双电源电压微处理器的片上集成降压转换器的分析
2. Design of voltage-mode hysteretic controllers for synchronous buck converters supplying microprocessor loads [J] . M. Castilla, L. Garcia de Vicuna, J.M. Guerrero, IEE Proceedings. Part B, Electric Power Applications . 2005,第5期

机译：用于为微处理器负载供电的同步降压转换器的电压模式迟滞控制器的设计
3. Hybrid Integration of a Low-Voltage, High-Current Power Supply Buck Converter With an LTCC Substrate Inductor [J] . Lim M. H. F., van Wyk J. D., Lee F. C. Power Electronics, IEEE Transactions on . 2010,第9期

机译：低压，高电流电源降压转换器与LTCC衬底电感器的混合集成
4. Efficiency Analysis of a High Frequency Buck Converter for On-Chip Integration with a Dual-VDD Microprocessor [C] . Volkan Kursun, Siva G. Narendra, Vivek K. De, 32nd European Solid-State Device Research Conference (ESSDERC 2002), Sep 24-26, 2002, Firenze, Italy . 2002

机译：用于双VDD微处理器片上集成的高频Buck转换器的效率分析
5. Switched-Capacitor Filter Based Type-III Compensation for Voltage-Mode Control of Switched-Mode Buck Converters. [D] . Bawa, Gaurav. 2013

机译：基于开关电容滤波器的III型补偿，用于开关模式Buck转换器的电压模式控制。
6. High voltage DC power supply with power factor correction based on LLC resonant converter [O] . Muhammad Abid, Fiaz Ahmad, Farman Ullah, 2020

机译：基于LLC谐振转换器的功率因数校正高压直流电源
7. Analysis of Buck Converters for On-Chip Integration With a Dual Supply Voltage Microprocessor [O] . S. Lin, Y. Lin, T. Hwang, 2008

机译：用双电源电压微处理器进行片上集成的降压转换器分析

Analysis of buck converters for on-chip integration with a dual supply voltage microprocessor

摘要

著录项

引文网络

相似文献

相关主题

期刊订阅