结合一款升压型直流-直流变换器,介绍了峰值电流模式中的斜坡补偿基本原理,提出了一种分段线性斜坡补偿电路。
This paper introduces the theory of slope compensation and presents a piecewise linear slope compensation circuit for peak current mode boost DC-DC converter.
为了适应市场需求,本文分析设计了一种带片上电流感应技术的电流模式升压DC - DC变换器。
In order to meet the requirements, a current-mode boost DC-DC converter with current sensing technology on chip is designed in this thesis.
在分析峰值电流模式升压转换器原理的基础上,设计了一种结构新颖,高精度高性能跨导误差放大器。
On the basis of analyzing the principle of peak-current-mode-controlled boost converter, a novel transconductance error amplifier with high accuracy and high performance is presented.
本文讨论了功率因数校正的方法,分析了电感电流工作于临界模式的升压式有源功率因数校正电路的原理。
In this paper, the methods of power factor correction are discussed, and the principal of boost active power factor correction circuit operated in critical inductor current mode is analyzed in detail.
简要分析了峰值电流控制模式升压变换器的不稳定性及其原因,阐述了斜坡补偿的基本原理和设计问题。
Instability and reasons of peak current controlled BOOST converter are simply analyzed, basic principles of slope compensation and design problems are also expatiated.
在1.2MHz的工作,这升压转换器可以操作的P -模式优越的瞬态响应,或更严格的输出调节的PI -模式。
Operating at 1.2mhz, this boost converter can operate in either P-Mode for superior transient response, or in PI-Mode for tighter output regulation.
在1.2MHz的工作,这升压转换器可以操作的P -模式优越的瞬态响应,或更严格的输出调节的PI -模式。
Operating at 1.2mhz, this boost converter can operate in either P-Mode for superior transient response, or in PI-Mode for tighter output regulation.
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