基于LT4180设计的精密负载调整电源方案

基于LT4180设计的精密负载调整电源方案,第1张

基于LT4180设计的精密负载调整电源方案

Linear公司的LT4180是全特性电源控制器,集成有5mA光隔离器,欠压/过压锁住,软起动和±1%内部基准电压. LT4180的虚拟遥测特性包括用户编程的抖动频率和扩展频谱抖动.输入电压从3.1V到50V,主要用在12V高强亮度灯,28V工业系统,大于40W的CAT5电缆系统,AC和DC适配器,井下采集和其它遥控仪表等.本文介绍了LT4180主要特性,方框图以及典型应用电路,包括12V/500mA线性稳压器电路图, 12V/600mA升压稳压器电路图和3.3V隔离反激稳压器电路图.

The LT4180 solves the problem of providing TIght load regulaTIon over long, highly resisTIve cables without requiring an addiTIonal pair of remote sense wires. This Virtual Remote Sense™ device continuously interrogates the line impedance and corrects the power supply output voltage via its feedback loop to maintain a steady voltage at the load regardless of current changes.

The LT4180 is a full-featured controller with 5mA optoisolator sink capability, under/overvoltage lockout, soft-start and a ±1% internal voltage reference. The Virtual Remote Sense feature set includes user-programmable dither frequency and optional spread spectrum dither.



The LT4180 is available in a 24-pin, SSOP package.

LT4180主要特性:

Tight Load Regulation with Highly Resistive Cables without Requiring Remote Sense Wiring

Compatible with Isolated and Nonisolated Power Supplies

±1% Internal Voltage Reference

5mA Sink Current Capability

Soft-Correct Reduces Turn-On Transients

Undervoltage and Overvoltage Protection

Pin-Programmable Dither Frequency

Optional Spread Spectrum Dither

Wide VIN Range: 3.1V to 50V

24-Pin SSOP Package

LT4180应用:

12V High Intensity Lamps

28V Industrial Systems

High Power (>40 Watts) CAT5 Cable Systems

Wiring Drop Cancellation for Notebook Computer Battery Charging

AC and DC Adaptors

Well-Logging and Other Remote Instrumentation

Surveillance Equipment
基于LT4180设计的精密负载调整电源方案,第2张
图1.LT4180方框图
基于LT4180设计的精密负载调整电源方案,第3张
图2.LT4180隔离电源框图

基于LT4180设计的精密负载调整电源方案,第4张
图3.LT4180 12V/500mA线性稳压器电路图
基于LT4180设计的精密负载调整电源方案,第5张
图4.LT4180 12V/600mA升压稳压器电路图
基于LT4180设计的精密负载调整电源方案,第6张
图5.LT4180 3.3V隔离反激稳压器电路图

欢迎分享,转载请注明来源:内存溢出

原文地址: http://outofmemory.cn/dianzi/2634763.html

(0)
打赏 微信扫一扫 微信扫一扫 支付宝扫一扫 支付宝扫一扫
上一篇 2022-08-11
下一篇 2022-08-11

发表评论

登录后才能评论

评论列表(0条)

保存