REsonant
共 24 篇文章
REsonant 相关的电子技术资料,包括技术文档、应用笔记、电路设计、代码示例等,共 24 篇文章,持续更新中。
LLC谐振变换器设计外文文献
Analysis of LLC Resonant Converter Considering,介绍了国外的LLC谐振变换电路设计。
LCL Filter
Abstract—A higher order passive power filter (LLCL-filter) for
the grid-tied inverter is becoming attractive for industrial
applications due to the possibility to reduce the cost of the copper
and
使用L6574和L6561设计带功率因数校正器(PFC)的智能电子稳流灯
<P>Voltage fed series resonant half bridge inverters are currently used for fluorescent lamps (fig.1
一种简单直流SPICE模型转换为LLC转换器
The resonant LLC topology, member of the Series Resonant Converters (SRC), begins to be widely used
LLC Resonant Half-Bridge Converter 300W Evaluation Module
<P>The UCC25600 evaluation module, EVM (HPA341), is a 300-W LLC resonant half-bridge converter,provi
RC Snubber Resonant Design
RC Snubber Resonant Design<BR>An RC snubber is just a resistor and capacitor in ser
ICE2QS02G Quasi-Resonant PWM Controller
<P>The information herein is given to describe certain components and shall not be considered as war
Off-Line SMPS Quasi-Resonant PWM Controller
The CoolSET®-Q1 series (ICE2QRxx65) is the first<BR>generation of quasi-resonant integarted powe
Quasi-Resonant Flyback PWM controller
<P>OB2203 is a highly mtegated Quasi-Resonant(QR)controller optimized for high performance offline f
基于IGBT的150kHz大功率感应加热电源的研究.rar
本文以感应加热电源为研究对象,阐述了感应加热电源的基本原理及其发展趋势。对感应加热电源常用的两种拓扑结构--电流型逆变器和电压型逆变器做了比较分析,并分析了感应加热电源的各种调功方式。在对比几种功率调节方式的基础上,得出在整流侧调功有利于高频感应加热电源频率和功率的提高的结论,选择了不控整流加软斩波器调功的感应加热电源作为研究对象。针对传统硬斩波调功式感应加热电源功率损耗大的缺点,采用软斩波调功方
Designing an LLC Resonant
Designing an LLC Resonant Half-Bridge Power Converter
TEA1716T-Resonant power supply control IC with PFC
<p>该文档为一篇介绍TEA1716应用电路的技术文档</p>
IDT 15w 无线接收器P9221-R 数据手册
<p>IDT P9221-R 15w 无线充接收资料</p><p>The P9221-R is a high efficiency, Qi-compliant wireless power
receiver targeted for applications up to 15W. Using magnetic
inductive charging technology, the receive
设计一款LLC谐振半桥式功率转换器
<p>TI德州仪器官方英文文档。</p><p>Half-Bridge Power Converter Designing an LLC Resonant </p><p>While converters with high-voltage inputs are often designed with resonant switching to achieve higher efficien
LLC电路基本原理分析及公式推导(ST)
<p>Simplified Analysis and Design of Seriesresonant LLC Half-bridge Converters </p><p>MLD GROUP INDUSTRIAL & POWER CONVERSION DIVISION</p><p>LLC series-resonant Half-bridge: operation and sig
基于IGBT的150KHZ大功率感应加热电源的研究
<p>本文以感应加热电源为研究对象,阐述了感应加热电源的基本原理及其发展趋势。对感应加热电源常用的两种拓扑结构-电流型逆变器和电压型逆变器做了比较分析,并分析了感应加热电源的各种调功方式。在对比几种功率调节方式的基础上,得出在整流侧调功有利于高频感应加热电源频率和功率的提高的结论,选择了不控整流加软斩波器调功的感应加热电源作为研究对象,针对传统硬斩波调功式感应加热电源功率损耗大的缺点,采用软斩波调
200W全数字开关电源设计
<p>通过采用无桥PFC和半桥LLC谐振变换器作为数字开关电源的主变换拓扑,基于STM32系列微控制器的全数字控制PFC和DC-DC变换器,首先对数字化开关电源方案进行对比,然后阐述了200W数字开关电源整体方案,并对数字开关电源的无桥PFC和半桥LLC变换器进行系统研究。</p><p>By using a bridgeless PFC and a half-bridge LLC resonant
IW3617 230V 调光设计参考.pdf
<p>General Design Specification:</p><p>1. AC Input Range 180-264Vac, Isolated ac-dc offline, 12LEDS,Output 700mA</p><p>2. Intelligent wall dimmer detections(Leading-edge dimmer , Trailing-edge</p><p>d
准谐振反激式电源设计之探讨.pdf
<p>低成本和高可靠性是离线电源设计中两个最重要的目标。准谐振(Quasi resonant) 设</p><p>计为设计人员提供了可行的方法,以实现这两个目标。准谐振技术降低了MOSFET 的开关</p><p>损耗,从而提高可靠性。此外,更软的开关改善了电源的EMI 特性,允许设计人员减少使</p><p>用滤波器的数目,因而降低成本。本文将描述准谐振架构背后的理论及其实施,并说明这类</p><p>
LLC 电路基本原理分析及公式推导.pdf
<p>• LLC series-resonant Half-bridge: operation</p><p>and significant waveforms</p><p>• Simplified model (FHA approach)</p><p>• 300W design example</p><p><br/></p>