具有自动配置多相控制和实时电源模块交换的协作电源管理

Jen-Huan Tsai, Shin-Jie Huang, Poting Lan, Po-Chiun Huang
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引用次数: 1

摘要

为了提高功率效率和更好的信号完整性,具有复杂管理控制的分布式电源模块在现代SiP, SoC和3D-IC设计中很受欢迎。为了动态和广泛地利用空闲和冗余的电源模块,本工作采用了片上电源管理的协作概念。电流控制主要用于分布式电源模块的负载均衡。带有数字引擎的估计器可以根据负载和热条件执行智能动作,例如实时添加/删除功率模块。它自动配置电力系统与适当的相位交错。在采用0.35 μm CMOS的原型芯片中,4个模块连接成一个协同电源网络,将2.7V ~ 4.3V的输入电压转换为1.8V的输出电压,纹波小于25mV。PFM在20mA负载下达到76%的效率。在300mA负载下,4个模块协同PWM的功率效率为88%,比单模块PWM的功率效率高8.5%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A cooperative power management with auto-configured multi-phase control and real-time power module swap
For high power efficiency and better signal integrity, distributed power modules with sophisticated management control are popular in modern SiP, SoC and 3D-IC designs. To dynamically and extensively utilize the idle and redundant power modules, this work applies a cooperative concept for on-chip power management. Current control is used to balance the load for distributed power modules. An estimator with digital engine executes intelligent actions such as real-time adding/dropping power modules depending on load and thermal conditions. It automatically configures the power system with proper phase interleaving. In the prototype chip using 0.35-μm CMOS, four modules are connected as a cooperative power network to convert 2.7V to 4.3V input to 1.8V output voltage with less than 25mV ripple. PFM achieves 76% efficiency under 20mA load. 88% power efficiency in PWM with four cooperative modules is 8.5% higher than that with single module under 300mA load.
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