The dynamic response characteristics of DC Boost converter were researched.
研究了直流升压变换器动态响应特性。
A method for soft switching applicable to Buck-Boost converter is researched.
研究了一种软开关同步升降压变换器。
This paper introduces how to use a DSP and a boost converter and some passive components to implement PFC.
本篇文章介绍了运用AD公司的DSP ADMC328,与升压转换器和一些无源器件一起实现功率因数校正。
Boost converter is commonly used in transformer-less inverters to regulate PV array voltage, as shown in Fig.
升压转换器,是常用的在变压器少变频器调节光伏阵列电压,为显示图。
The boost converter stage in turn comprises an input choke (10), a boost diode (16) and a bulk capacitor (17).
而该跟踪升压变换器级又包括输入扼流圈(10)、升压二极管(16)和大电容器(17)。
It introduces a new zero voltage transition PWM (ZVT - PWM) soft switching BOOST converter with a snub circuit.
介绍一种带缓冲电路的新型零电压过渡pwm (ZVT- PWM)软开关boost变换器。
In addition, the LTC3330 includes a separate buck-boost converter designed to be driven by an external battery.
此外,LTC 3330包括一个单独的降压-升压转换器设计为通过外部电池驱动。
The stability and dynamic properties of a multi loop-con trolled BOOST converter with constant power load are studied.
分析了Boost变换器带恒功率负载的特性,推导出系统传递函数并得到系统稳定运行条件。
Either the energy-harvesting buck converter or the battery buck-boost converter can deliver energy to the device's output pin.
无论是能量收集降压变换器或电池降压-升压转换器可以提供能量到设备的输出引脚。
Describes a power factor correction (PFC) circuit, in which the power circuit is a boost converter controlled general switch mode controller IC.
介绍了一种用普通开关电源专用集成电路控制块作为控制电路,以升压式变换器作为功率电路的功率因数校正电路。
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。
A design of boost converter using high-power insulated bipolar transistor IGBT module named SKM75GAL123D and driver module named EXB840 is introduced.
介绍了一种用大功率绝缘栅极双极型晶体管(IGBT)模块SKM75GA L 123d和驱动模块EXB840设计的直流升压斩波器。
Employing a RBF (radical basis function) neural network, a neural network controller is proposed for the output voltage control of the Buck - Boost converter.
采用非线性反馈控制电流内环,用RBF(径向基函数)神经网络设计了神经网络控制器控制输出电压外环。
The power supply USES BOOST converter for power factor correction and voltage regulation, and it converts DC to HF ac square wave with phase-shifted full bridge.
电源通过BOOST电路校正功率因数和调节电压,用移相全桥把直流电逆变成高频方波,然后经高频变压器升压后倍压整流得到直流高压。
Instability and reasons of peak current controlled BOOST converter are simply analyzed, basic principles of slope compensation and design problems are also expatiated.
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。
The difference of output voltage of inverter and 220v is set as control signal, controller change the PWM signal to regulate buck-boost converter and three-phase rectifier.
以逆变器输出的电压和220v的差值作为控制信号。设计控制器根据控制信号改变直流变换器和三相可控整流的PWM控制信号。
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.
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。
A novel zero current Transition (ZCT) PWM Boost Converter Scheme proposed in this paper enables all main and auxiliary switches to be turned on and to be turned off under zero current conditions.
提出一种双零电流开关pwm升压斩波变换器电路,使得主开关和辅开关的开通和关断都在零电流条件下进行。
In order to meet the requirements, a current-mode boost DC-DC converter with current sensing technology on chip is designed in this thesis.
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。
A novel Boost-Buck converter as high brightness white LED lamp driver circuit was provided in this paper.
提出了一种新型升降压变换器作为高亮度白光led灯的驱动方案。
This paper introduces the theory of slope compensation and presents a piecewise linear slope compensation circuit for peak current mode boost DC-DC converter.
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。
Excellent as DC-DC converter boost or buck inductors, Also used for filtering applications.
适合用于直流—直流整流器或作为低阶电感,也可用于滤波应用。
This paper introduces the theory of slope compensation and presents a piecewise linear slope compensation circuit for peak current mode boost DC-DC converter.
为了防止亚谐波振荡以及提高系统的稳定性和带载能力,设计了一种全区间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.
为了防止亚谐波振荡以及提高系统的稳定性和带载能力,设计了一种全区间分段线性斜坡补偿电路。
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