PT1202-电流模式同步降压型稳压器
华润矽威科技(上海)有限公司 PT2312B 恒压恒流原边反馈转换器说明书
PT2312B恒压恒流原边反馈转换器概述PT2312B 是一款高性能的AC/DC 功率转换器,可应用于充电器和适配器。
芯片采用原边反馈和控制,无需光耦和TL431即可实现较高的恒压恒流精度。
PT2312B 在恒流工作中采用PFM 控制,在恒压工作中采用PFM/PWM 复合控制。
此外,PT2312B 集成了准谐振开关控制以及输出线缆补偿功能,从而有利于减小开关损耗并简化系统EMI 设计,优化输出特性。
PT2312B 提供软启动,EMI 抖频技术以及多种保护功能,诸如自动重启,逐周期电流限制,VCC 过压欠压保护,采样电阻开路短路保护,过温保护等。
PT2312B 采用SOP-7封装。
特点● 原边采样和反馈,无需光耦和TL431 ● 在常规输入条件下,5%的恒流恒压精度 ● 准谐振开关控制 ● 抖频技术● 可编程的输出线缆补偿 ● 自适应峰值电流调节 ● 前沿消隐功能(LEB ) ● 逐周期限流功能● VCC 过压欠压保护(UVLO ,OVP ) ● 采样电阻开路、短路保护 ●过温保护(OTP )● 应用● 适配器,充电器等 ● LED 灯 ●辅助供电订购信息典型应用电路T1图1,PT2312B 的典型应用线路PT2312B恒压恒流原边反馈转换器封装及引脚排列7651234FBCRC VCC CSGNDDRAIN SOP-7DRAINPT2312B图2,PT2312B 的封装引脚图(正面)引脚说明极限参数 (注1)注1: 最大极限值是指超出该工作范围,芯片有可能损坏。
推荐工作范围是指在该范围内,器件功能正常,但并不完全保证满足个别性能指标。
电气参数定义了器件在工作范围内并且在保证特定性能指标的测试条件下的直流和交流电参数规范。
对于未给定上下限值的参数,该规范不予保证其精度,但其典型值合理反映了器件性简化模块图CRCGNDCS图3,PT2312B的简化模块图电气参数(无特别说明T A=25˚C, VCC=20.5V)功能描述PT2312B 是一款高性能的AC/DC 功率转换器,可应用于充电器和适配器。
常用的开关电源芯片大全
常用开关电源芯片大全第1章DC-DC电源转换器/基准电压源1.1 DC-DC电源转换器1.低噪声电荷泵DC-DC电源转换器AAT3113/AAT31142.低功耗开关型DC-DC电源转换器ADP30003.高效3A开关稳压器AP15014.高效率无电感DC-DC电源转换器FAN56605.小功率极性反转电源转换器ICL76606.高效率DC-DC电源转换控制器IRU30377.高性能降压式DC-DC电源转换器ISL64208.单片降压式开关稳压器L49609.大功率开关稳压器L4970A10.1.5A降压式开关稳压器L497111.2A高效率单片开关稳压器L497812.1A高效率升压/降压式DC-DC电源转换器L597013.1.5A降压式DC-DC电源转换器LM157214.高效率1A降压单片开关稳压器LM1575/LM2575/LM2575HV15.3A降压单片开关稳压器LM2576/LM2576HV16.可调升压开关稳压器LM257717.3A降压开关稳压器LM259618.高效率5A开关稳压器LM267819.升压式DC-DC电源转换器LM2703/LM270420.电流模式升压式电源转换器LM273321.低噪声升压式电源转换器LM275022.小型75V降压式稳压器LM500723.低功耗升/降压式DC-DC电源转换器LT107324.升压式DC-DC电源转换器LT161525.隔离式开关稳压器LT172526.低功耗升压电荷泵LT175127.大电流高频降压式DC-DC电源转换器LT176528.大电流升压转换器LT193529.高效升压式电荷泵LT193730.高压输入降压式电源转换器LT195631.1.5A升压式电源转换器LT196132.高压升/降压式电源转换器LT343333.单片3A升压式DC-DC电源转换器LT343634.通用升压式DC-DC电源转换器LT346035.高效率低功耗升压式电源转换器LT346436.1.1A升压式DC-DC电源转换器LT346737.大电流高效率升压式DC-DC电源转换器LT378238.微型低功耗电源转换器LTC175439.1.5A单片同步降压式稳压器LTC187540.低噪声高效率降压式电荷泵LTC191141.低噪声电荷泵LTC3200/LTC3200-542.无电感的降压式DC-DC电源转换器LTC325143.双输出/低噪声/降压式电荷泵LTC325244.同步整流/升压式DC-DC电源转换器LTC340145.低功耗同步整流升压式DC-DC电源转换器LTC340246.同步整流降压式DC-DC电源转换器LTC340547.双路同步降压式DC-DC电源转换器LTC340748.高效率同步降压式DC-DC电源转换器LTC341649.微型2A升压式DC-DC电源转换器LTC342650.2A两相电流升压式DC-DC电源转换器LTC342851.单电感升/降压式DC-DC电源转换器LTC344052.大电流升/降压式DC-DC电源转换器LTC344253.1.4A同步升压式DC-DC电源转换器LTC345854.直流同步降压式DC-DC电源转换器LTC370355.双输出降压式同步DC-DC电源转换控制器LTC373656.降压式同步DC-DC电源转换控制器LTC377057.双2相DC-DC电源同步控制器LTC380258.高性能升压式DC-DC电源转换器MAX1513/MAX151459.精简型升压式DC-DC电源转换器MAX1522/MAX1523/MAX152460.高效率40V升压式DC-DC电源转换器MAX1553/MAX155461.高效率升压式LED电压调节器MAX1561/MAX159962.高效率5路输出DC-DC电源转换器MAX156563.双输出升压式DC-DC电源转换器MAX1582/MAX1582Y64.驱动白光LED的升压式DC-DC电源转换器MAX158365.高效率升压式DC-DC电源转换器MAX1642/MAX164366.2A降压式开关稳压器MAX164467.高效率升压式DC-DC电源转换器MAX1674/MAX1675/MAX167668.高效率双输出DC-DC电源转换器MAX167769.低噪声1A降压式DC-DC电源转换器MAX1684/MAX168570.高效率升压式DC-DC电源转换器MAX169871.高效率双输出降压式DC-DC电源转换器MAX171572.小体积升压式DC-DC电源转换器MAX1722/MAX1723/MAX172473.输出电流为50mA的降压式电荷泵MAX173074.升/降压式电荷泵MAX175975.高效率多路输出DC-DC电源转换器MAX180076.3A同步整流降压式稳压型MAX1830/MAX183177.双输出开关式LCD电源控制器MAX187878.电流模式升压式DC-DC电源转换器MAX189679.具有复位功能的升压式DC-DC电源转换器MAX194780.高效率PWM降压式稳压器MAX1992/MAX199381.大电流输出升压式DC-DC电源转换器MAX61882.低功耗升压或降压式DC-DC电源转换器MAX62983.PWM升压式DC-DC电源转换器MAX668/MAX66984.大电流PWM降压式开关稳压器MAX724/MAX72685.高效率升压式DC-DC电源转换器MAX756/MAX75786.高效率大电流DC-DC电源转换器MAX761/MAX76287.隔离式DC-DC电源转换器MAX8515/MAX8515A88.高性能24V升压式DC-DC电源转换器MAX872789.升/降压式DC-DC电源转换器MC33063A/MC34063A90.5A升压/降压/反向DC-DC电源转换器MC33167/MC3416791.低噪声无电感电荷泵MCP1252/MCP125392.高频脉宽调制降压稳压器MIC220393.大功率DC-DC升压电源转换器MIC229594.单片微型高压开关稳压器NCP1030/NCP103195.低功耗升压式DC-DC电源转换器NCP1400A96.高压DC-DC电源转换器NCP140397.单片微功率高频升压式DC-DC电源转换器NCP141098.同步整流PFM步进式DC-DC电源转换器NCP142199.高效率大电流开关电压调整器NCP1442/NCP1443/NCP1444/NCP1445 100.新型双模式开关稳压器NCP1501101.高效率大电流输出DC-DC电源转换器NCP1550102.同步降压式DC-DC电源转换器NCP1570103.高效率升压式DC-DC电源转换器NCP5008/NCP5009104.大电流高速稳压器RT9173/RT9173A105.高效率升压式DC-DC电源转换器RT9262/RT9262A106.升压式DC-DC电源转换器SP6644/SP6645107.低功耗升压式DC-DC电源转换器SP6691108.新型高效率DC-DC电源转换器TPS54350109.无电感降压式电荷泵TPS6050x110.高效率升压式电源转换器TPS6101x111.28V恒流白色LED驱动器TPS61042112.具有LDO输出的升压式DC-DC电源转换器TPS6112x113.低噪声同步降压式DC-DC电源转换器TPS6200x114.三路高效率大功率DC-DC电源转换器TPS75003115.高效率DC-DC电源转换器UCC39421/UCC39422116.PWM控制升压式DC-DC电源转换器XC6371117.白光LED驱动专用DC-DC电源转换器XC9116118.500mA同步整流降压式DC-DC电源转换器XC9215/XC9216/XC9217 119.稳压输出电荷泵XC9801/XC9802120.高效率升压式电源转换器ZXLB16001.2 线性/低压差稳压器121.具有可关断功能的多端稳压器BAXXX122.高压线性稳压器HIP5600123.多路输出稳压器KA7630/KA7631124.三端低压差稳压器LM2937125.可调输出低压差稳压器LM2991126.三端可调稳压器LM117/LM317127.低压降CMOS500mA线性稳压器LP38691/LP38693128.输入电压从12V到450V的可调线性稳压器LR8129.300mA非常低压降稳压器(VLDO)LTC3025130.大电流低压差线性稳压器LX8610131.200mA负输出低压差线性稳压器MAX1735132.150mA低压差线性稳压器MAX8875133.带开关控制的低压差稳压器MC33375134.带有线性调节器的稳压器MC33998135.1.0A低压差固定及可调正稳压器NCP1117136.低静态电流低压差稳压器NCP562/NCP563137.具有使能控制功能的多端稳压器PQxx138.五端可调稳压器SI-3025B/SI-3157B139.400mA低压差线性稳压器SPX2975140.五端线性稳压器STR20xx141.五端线性稳压器STR90xx142.具有复位信号输出的双路输出稳压器TDA8133143.具有复位信号输出的双路输出稳压器TDA8138/TDA8138A144.带线性稳压器的升压式电源转换器TPS6110x145.低功耗50mA低压降线性稳压器TPS760xx146.高输入电压低压差线性稳压器XC6202147.高速低压差线性稳压器XC6204148.高速低压差线性稳压器XC6209F149.双路高速低压差线性稳压器XC64011.3 基准电压源150.新型XFET基准电压源ADR290/ADR291/ADR292/ADR293151.低功耗低压差大输出电流基准电压源MAX610x152.低功耗1.2V基准电压源MAX6120153.2.5V精密基准电压源MC1403154.2.5V/4.096V基准电压源MCP1525/MCP1541155.低功耗精密低压降基准电压源REF30xx/REF31xx156.精密基准电压源TL431/KA431/TLV431A第2章AC-DC转换器及控制器1.厚膜开关电源控制器DP104C2.厚膜开关电源控制器DP308P3.DPA-Switch系列高电压功率转换控制器DPA423/DPA424/DPA425/DPA4264.电流型开关电源控制器FA13842/FA13843/FA13844/FA138455.开关电源控制器FA5310/FA53116.PWM开关电源控制器FAN75567.绿色环保的PWM开关电源控制器FAN76018.FPS型开关电源控制器FS6M07652R9.开关电源功率转换器FS6Sxx10.降压型单片AC-DC转换器HV-2405E11.新型反激准谐振变换控制器ICE1QS0112.PWM电源功率转换器KA1M088013.开关电源功率转换器KA2S0680/KA2S088014.电流型开关电源控制器KA38xx15.FPS型开关电源功率转换器KA5H0165R16.FPS型开关电源功率转换器KA5Qxx17.FPS型开关电源功率转换器KA5Sxx18.电流型高速PWM控制器L499019.具有待机功能的PWM初级控制器L599120.低功耗离线式开关电源控制器L659021.LINK SWITCH TN系列电源功率转换器LNK304/LNK305/LNK30622.LINK SWITCH系列电源功率转换器LNK500/LNK501/LNK52023.离线式开关电源控制器M51995A24.PWM电源控制器M62281P/M62281FP25.高频率电流模式PWM控制器MAX5021/MAX502226.新型PWM开关电源控制器MC4460427.电流模式开关电源控制器MC4460528.低功耗开关电源控制器MC4460829.具有PFC功能的PWM电源控制器ML482430.液晶显示器背光灯电源控制器ML487631.离线式电流模式控制器NCP120032.电流模式脉宽调制控制器NCP120533.准谐振式PWM控制器NCP120734.低成本离线式开关电源控制电路NCP121535.低待机能耗开关电源PWM控制器NCP123036.STR系列自动电压切换控制开关STR8xxxx37.大功率厚膜开关电源功率转换器STR-F665438.大功率厚膜开关电源功率转换器STR-G865639.开关电源功率转换器STR-M6511/STR-M652940.离线式开关电源功率转换器STR-S5703/STR-S5707/STR-S570841.离线式开关电源功率转换器STR-S6401/STR-S6401F/STR-S6411/STR-S6411F 442.开关电源功率转换器STR-S651343.离线式开关电源功率转换器TC33369~TC3337444.高性能PFC与PWM组合控制集成电路TDA16846/TDA1684745.新型开关电源控制器TDA1685046.“绿色”电源控制器TEA150447.第二代“绿色”电源控制器TEA150748.新型低功耗“绿色”电源控制器TEA153349.开关电源控制器TL494/KA7500/MB375950.Tiny SwitchⅠ系列功率转换器TNY253、TNY254、TNY25551.Tiny SwitchⅡ系列功率转换器TNY264P~TNY268G52.TOP Switch(Ⅱ)系列离线式功率转换器TOP209~TOP22753.TOP Switch-FX系列功率转换器TOP232/TOP233/TOP23454.TOP Switch-GX系列功率转换器TOP242~TOP25055.开关电源控制器UCX84X56.离线式开关电源功率转换器VIPer12AS/VIPer12ADIP57.新一代高度集成离线式开关电源功率转换器VIPer53第3章功率因数校正控制/节能灯电源控制器1.电子镇流器专用驱动电路BL83012.零电压开关功率因数控制器FAN48223.功率因数校正控制器FAN75274.高电压型EL背光驱动器HV8265.EL场致发光背光驱动器IMP525/IMP5606.高电压型EL背光驱动器/反相器IMP8037.电子镇流器自振荡半桥驱动器IR21568.单片荧光灯镇流器IR21579.调光电子镇流器自振荡半桥驱动器IR215910.卤素灯电子变压器智能控制电路IR216111.具有功率因数校正电路的镇流器电路IR216612.单片荧光灯镇流器IR216713.自适应电子镇流器控制器IR252014.电子镇流器专用控制器KA754115.功率因数校正控制器L656116.过渡模式功率因数校正控制器L656217.集成背景光控制器MAX8709/MAX8709A18.功率因数校正控制器MC33262/MC3426219.固定频率电流模式功率因数校正控制器NCP165320.EL场致发光灯高压驱动器SP440321.功率因数校正控制器TDA4862/TDA486322.有源功率因数校正控制器UC385423.高频自振荡节能灯驱动器电路VK05CFL24.大功率高频自振荡节能灯驱动器电路VK06TL第4章充电控制器1.多功能锂电池线性充电控制器AAT36802.可编程快速电池充电控制器BQ20003.可进行充电速率补偿的锂电池充电管理器BQ20574.锂电池充电管理电路BQ2400x5.单片锂电池线性充电控制器BQ2401xB接口单节锂电池充电控制器BQ2402x7.2A同步开关模式锂电池充电控制器BQ241008.集成PWM开关控制器的快速充电管理器BQ29549.具有电池电量计量功能的充电控制器DS277010.锂电池充电控制器FAN7563/FAN756411.2A线性锂/锂聚合物电池充电控制器ISL629212.锂电池充电控制器LA5621M/LA5621V13.1.5A通用充电控制器LT157114.2A恒流/恒压电池充电控制器LT176915.线性锂电池充电控制器LTC173216.带热调节功能的1A线性锂电池充电控制器LTC173317.线性锂电池充电控制器LTC173418.新型开关电源充电控制器LTC198019.开关模式锂电池充电控制器LTC400220.4A锂电池充电器LTC400621.多用途恒压/恒流充电控制器LTC400822.4.2V锂离子/锂聚合物电池充电控制器LTC405223.可由USB端口供电的锂电池充电控制器LTC405324.小型150mA锂电池充电控制器LTC405425.线性锂电池充电控制器LTC405826.单节锂电池线性充电控制器LTC405927.独立线性锂电池充电控制器LTC406128.镍镉/镍氢电池充电控制器M62256FP29.大电流锂/镍镉/镍氢电池充电控制器MAX150130.锂电池线性充电控制器MAX150731.双输入单节锂电池充电控制器MAX1551/MAX155532.单节锂电池充电控制器MAX167933.小体积锂电池充电控制器MAX1736B接口单节锂电池充电控制器MAX181135.多节锂电池充电控制器MAX187336.双路输入锂电池充电控制器MAX187437.单节锂电池线性充电控制器MAX189838.低成本/多种电池充电控制器MAX190839.开关模式单节锂电池充电控制器MAX1925/MAX192640.快速镍镉/镍氢充电控制器MAX2003A/MAX200341.可编程快速充电控制器MAX712/MAX71342.开关式锂电池充电控制器MAX74543.多功能低成本充电控制器MAX846A44.具有温度调节功能的单节锂电池充电控制器MAX8600/MAX860145.锂电池充电控制器MCP73826/MCP73827/MCP7382846.高精度恒压/恒流充电器控制器MCP73841/MCP73842/MCP73843/MCP73844 647.锂电池充电控制器MCP73861/MCP7386248.单节锂电池充电控制器MIC7905049.单节锂电池充电控制器NCP180050.高精度线性锂电池充电控制器VM7205。
PST-1200保护讲课资料资料(详细)
PST-1200系列数字式变压器保护装置是以差 动保护、后备保护和瓦斯保护为基本配置的成 套 变 压 器 保 护 装 置 , 适 用 于 500kV 、 330kV 、 220kV 、 110kV 、 66kV 、 35kV 、 10kV 等大型电力 变压器。本系列数字式变压器保护装置有两种 不同原理的差动保护。本系列保护装置基本配 置设有完全相同的CPU插件,分别完成差动保护 功能,高压侧后备保护功能 , 中压侧后备保护 功能,低压侧后备保护功能,各种保护功能均 由软件实现。瓦斯保护由独立机箱实现。 保护 的 逻 辑 关 系 符 合 国 家 设 计 原 则 。 本系列数字式变压器保护装置的保护配置 和各保护时限的跳闸逻辑可在线编程。
南京新宁电力技术有限公司
本公司为国电南自的控股子 公司,专业从事变压器保护的研 制、生产、销售;PST-1200系列 数字式变压器保护为本公司的主 要产品;并为国电西北公司研制 了750kV电压等级的变压器护。 现正在推出光电PT和CT及配 合其的变电站综合自动化系统。
PST 1200系列 数字式变压器保护 产品概述 研制背景 主要特点 原理简介 1.差动保护 2.后备保护 3.失灵保护 4.瓦斯保护 5. T A断线 6. T V断线 7. PST1201 8. PST1202 9. PST1203 10.PST1204 11.PST1260 注意事项
2000年11月18日,PS 6000变电 站自动化系统及PST 1200系列数字 式变压器保护等7项产品通过鉴定, 标志着PS 6000变电站自动化系统及 与变电站自动化有关的保护控制设 备的全面推出,为电力系统各个电 压等级的保护与变电站自动化系统 提供了完整的二次设备解决方案。
研制背景
PST 1200系列 数字式变压器保护 产品概述 研制背景 主要特点 原理简介 1.差动保护 2.后备保护 3.失灵保护 4.瓦斯保护 5.PST-1201 6.PST-1202 7.PST-1203 8.PST-1204 9.PST-1206 10.PST-1260 11.PST-12 注意事项
同步降压DC-DC调节器:ADP2119
同步降压DC-DC调节器:ADP2119
简介:
ADP2119/ADP2120 均为低静态电流、同步降压DC-DC 调节器,采用
3mm x 3mm 紧凑型LFCSP_WD 封装。
两款器件均采用电流模式、恒频脉宽调制(PWM)控制方案,具备出色的稳定性和瞬态响应性能。
在轻负载条件下,这些器件可配置为以脉冲频率调制(PFM)模式工作,以降低开关频率,节省功耗。
ADP2119/ADP2120 支持2.3V 至5.5V 范围内的输入电压。
可调版本的输出电压可以在0.6V 至输入电压(VIN)范围内进行调整,固定输出版本则提供
预设的输出电压选项:3.3V、2.5V、1.8V、1.5V、1.2V 和
1.0V。
ADP2119/ADP2120 集成了电源开关、同步整流器和内部补偿功能,只需极少的外部器件便可提供高效率解决方案。
各IC 在禁用时从输入源汲取的
电流不到3μA。
其它主要特性包括欠压闭锁(UVLO)、用于限制启动时浪涌电流的集成软启动、过压保护(OVP)、过流保护(OCP)和热关断(TSD)。
应用:
·负载点转换
·通信及网络设备
·工业和仪器仪表
·消费类电子设备
·医疗设备
特性:
·连续输出电流:2A
·145mΩ和70 mΩ集成FET。
LM5118中文数据手册
EN输入低阈值 EN输入高门槛 EN输入偏置电流 EN输入偏置电流 EN输入偏置电流
UVLO待机阈值 UVLO阈值迟滞 UVLO上拉电流源 UVLO拉向下R
DS(ON)
SS电流源 SS到FB偏移 SS输出低电压
条件
VCCX = 0V VCCX = 5V EN = 0V
95
115
135
µA
65
80
95
µA
245
µA
0.095 0.14
0.23
V
0.25
V
16
ns
14
ns
2.2
A
2.7
A
0.1
0.135
0.21
V
0.25
V
14
ns
12
ns
2.2
V
3.5
V
3
V
69
75
80
%
165
°C
25
°C
40
°C/W
4
°C/W
5
LM5118 Note 1: Absolute Maximum Ratings are limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is intended to be functional, but does not guarantee specific performance limits. For guaranteed specifications and test conditions see the Electrical Characteristics.
PT1206 同步降压转换器说明书
PT1206应用说明产品功能同步降压变换器常规应用 5V转3.3V,3.6V(单节锂电)转1.8V文件编号 PT1206_AN01版本 1.01. 简介PT1206是一款工作频率固定在1.5MHz的高效率同步降压型直流-直流转换器,输出电流高达1A。
它能在2.5V-6.0V的很宽输入电压范围内工作并内部集成非常低导通阻抗的主开关和同步开关能使导通损耗降至最低。
1.5MHz开关频率能够实现低输出电压纹波和较小的外围电感、电容尺寸。
2. 产品性能特点介绍¾内置低导通阻抗(250 mΩ/200 mΩ)的开关¾输入电压范围:2.5V-6.0V¾ 1.5MHz开关频率减少外围元器件尺寸¾内置软启动限制浪涌电流¾实现100%降压¾内部设置过温保护功能。
¾采用SOT23-6小体积封装3. 典型应用电路4. Demo 板layout ,元器件清单5. 系统应用电路参数设置5.1 输入电容的选择:当带最大的负载电流2A 时,通过输入电容的最大纹波电流有效值大约为0.6A 。
典型的耐压值为6V 、电容值大于4.7uF 的X7R 或更高等级的瓷片电容能够很好地处理纹波电流。
为了减少潜在的噪声,建议把瓷片电容放置于靠近输入和地线引脚的地方,以减小由输入电容、输入引脚、地线引脚形成的环路面积。
Reference Value Description Vendor/BrandU1 PT1206SOT23-6 CR.POWTECH L1 2.2uH CDRH3D16 Sumida C1 10uF 0805,SMD AVX C2 NC C3 NC 0805,SMD AVX C4 NC C5 10uF 0805,SMD AVX R1 360K 0805,SMD FENGHUA R2 180K 0805,SMD FENGHUA5.2 输出电容的选择:输出电容是选择用来处理输出纹波噪声的。
PT4121规格书
50V 降压型、高亮度 LED 恒流控制器 概述
PT4121 是一款工作在连续电感电流导通模式的降 压型恒流控制器,用于驱动一颗或多颗串联 LED 。 PT4121 输入电压范围从 6V 到 50V,输出电流可调。 PT4121采用高端电流采样设置LED平均电流, 并通 过DIM引脚可以接受模拟调光和很宽范围的PWM调光。 当DIM的电压低于0.3伏时,PT4121关断功率开关,进 入极低工作电流的待机状态。 PT4121 采用 SOT23-6 封装。
单位 V V V W
o
封装热阻 θJA (TA=25℃)
C /W
o o o
C C C
kV
推荐工作范围
符号 VIN TOPT 电源电压 工作温度 参数 参数范围 6 ~ 50 -40 to +85 单位 V
o
C
注 1:最大极限值是指超出该工作范围,芯片有可能损坏。电气参数定义了器件在工作范围内并且在保证特定性能指标 的测试条件下的直流和交流电参数规范。对于未给定上下限值的参数,该规范不予保证其精度,但其典型值合理反映了 器件性能。 注 2: 温度升高最大功耗一定会减小, 这也是由 TJMAX, θJA,和环境温度 TA 所决定的。 最大允许功耗为 PDMAX = (TJMAX - TA)/ θJA 或是极限范围给出的数字中比较低的那个值。 注 3:人体模型,100pF 电容通过 1.5kΩ 电阻放电。
2mS/div EN Power On
100mS/div EN Power Off
400µS/div
200µS/div
华润矽威科技(上海)有限公司 PT4121_DS_Rev CH 1.0
第5页
PT4121
Mersen PT 保护潮录电阻罐式电流限流电流保护器说明书
A P P L I C AT I O N S :
• Primary protection for potential transformers (PT) or control power transformers (CPT).
Length Clip Centers
Diameter
Ferrule Length
Diameter Inches (mm)
Length Inches (mm)
Ferrule Length Inches (mm)
Max Voltage
1.562 (40) 9.5 (241) 1.31 (33.3) 2.75 kV
Max IR RMS Spare Parts Spare Parts Fuse Support
Indicating
Diameter Inches (mm)
Length Inches (mm)
Ferrule Length Inches (mm)
Max Voltage
Yes
1.562 (40) 7.375 (187) 1.31 (33.3) 5.5 kV
No
1.562 (40) 7.375 (187) 1.31 (33.3) 5.5 kV
Diameter Inches (mm)
Length Inches (mm)
Ferrule Length Inches (mm)
Max Voltage
0.812 (20.6) 4.625 (117.5) 0.625 (15.9) 2.4kV
Max IR RMS Spare Parts Spare Parts Fuse Support
9F61BWW460 9F61BNW450 9F61ABB101
- 1、下载文档前请自行甄别文档内容的完整性,平台不提供额外的编辑、内容补充、找答案等附加服务。
- 2、"仅部分预览"的文档,不可在线预览部分如存在完整性等问题,可反馈申请退款(可完整预览的文档不适用该条件!)。
- 3、如文档侵犯您的权益,请联系客服反馈,我们会尽快为您处理(人工客服工作时间:9:00-18:30)。
Step-Down DC-DC ConverterGENERAL DESCRIPTIONThe PT1202 is a high efficiency monolithic current mode synchronous buck regulator with a constant operation frequency. A main switch and a synchronous switch are integrated in PT1202, the device has high efficiency and no external Schottky diode needed. Supply current is 300uA during operation and drops to ≤1μA in shutdown. The 2.5V to 5.5V input voltage range makes the PT1202 ideally suited for single Li-Ion battery-powered applications. 100% duty cycle provides low dropout operation, extending battery life in portable systems. Automatic skip cycle operation mode at light loads provides very low output ripple for noise sensitive applications. Internal 1.9MHz switching frequency allowing the use of small surface mount inductors and capacitors. Ultra low output voltages are easily available with the 0.6V feedback reference voltage.The PT1202 is offered in a low profile SOT package and is available in an adjustable version and fixed output voltages versions from 0.6v to 1.8v.FEATURESz High Efficiency: Up to 96% z Low Quiescent Current: 300μA z 800mA Output Currentz 2.5V to 5.5V Input V oltage Rangez 1.9MHz Constant Frequency Operationz Internal integrated main switch and rectifier, no Schottky Diode Requiredz Low Dropout Operation: 100% Duty Cycle z 0.6V Reference Allows Low Output V oltages z Shutdown Mode Draws ≤1μA Supply Current z Current Mode Operation for Excellent Line and Load Transient Response z Over-temperature Protected zLow Profile SOT PackageAPPLICATIONSz Cellular and Smart Phonesz Personal Information Appliancesz Microprocessors and DSP Core Supplies z Wireless and DSL Modems z Digital Still Cameras z MP3 Players and PDAs zPortable InstrumentsORDERING INFORMATIONPACKAGETEMPERATURERANGEORDERING PARTNUMBERTRANSPORT MEDIAMARKING SOT23-5 -40 o C to 85 o C PT1202E23ETape and Reel 3000 units1202zTYPICAL APPLICATION CIRCUITStep-Down DC-DC ConverterPIN ASSIGNMENTPIN DESCRIPTIONSPINNAMES PIN No. DESCRIPTIONRUN 1 Chip Enable, Active with ‘H’GND 2 Chip Ground SW3Output of Internal SwitchesVIN 4 Power SupplyV FB /V OUT 5 Regulated Feedback/Output V oltageABSOLOUTE MAXIMUM RATING (Note1)SYMBOL ITEMSVALUEUNITV IN Input Supply V oltage – 0.3 to 6 V V RUN RUN Pin V oltage – 0.3 to VIN V V FB FB Pin V oltage – 0.3 to VIN VV SW SW Pin V oltage– 0.3 to (VIN + 0.3)V I SW SW Pin Source/Sink Current (DC) ±1 A I SW SW Pin Source/Sink Current (peak)±1.5AT J Junction Temperature 125 °C T OPER Operating Temperature Range – 40 to 85 °CT STG Storage Temperature Range– 65 to 150°CT SOLDER Lead Temperature (Soldering, 10 sec)300 °CθJAThermal Resister220°C/WNote1: Absolute Maximum Ratings are those values beyond which the life of the device maybe impaired.Step-Down DC-DC ConverterELECTRICAL CHARACTERISTICSTA = 25°C. VRUN=VIN = 3.6V unless otherwise specified.SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS V FB Regulated Feedback Voltage T A=25℃0.5880.600 0.612 V ∆V FB LineRegulation V IN = 2.5V to 5.5V 0.04 0.5 %/VI FB VFB Input Bias Current 0 ±30 nAI PK PeakInductor Current V IN = 3V, V FB = 0.5V, DutyCycle < 35%1 AV LOADREG LoadRegulation 0.5 % V IN InputVoltageRange 2.5 5.5 VI S Input DC Bias CurrentActive ModeShutdownV FB = 0.5V or V OUT = 90%,I LOAD = 0AV RUN = 0V, VIN = 4.2V3000.14001µAF OSC OscillatorFrequencyV FB = 0.6V or VOUT = 100% 1.5 1.9 2.3 MHzR PFET RDS(ON) of P-ChannelFETI SW = 100mA 0.4 0.5 ΩR NFET RDS(ON) of N-Channel FET I SW = –100mA 0.35 0.45 ΩI LSW SWLeakage V RUN = 0V, V SW = 0V or 5V,V IN = 5V±0.01 ±1 µAV RUN RUNThresholdVoltage-40℃≤T A≤ 85℃0.3 1.0 1.50 V Note: The Min and Max value is guaranteed by final test or lab statistic.Step-Down DC-DC ConverterSIMPLIFIED BLOCK DIAGRAMOPERATION DESCRIPTIONThe PT1202 is a high efficiency monolithic current mode synchronous buck regulator with a constant operation frequency. Its internal integrated MOSFETs achieve high efficiency. Ultra low output voltages are easily available with the 0.6V feedback reference voltage. Internal fixed 1.9MHz switching frequency allowing the use of small surface mount inductors and capacitors. The 2.5V to 5.5V input voltage range and 800mA output current make the PT1202 ideally suited for single Li-Ion battery-powered applications.Current Mode PWM Control LoopSlope compensated current mode PWM control and cycle-by-cycle current limit provides stable operation and excellent line and load regulation. During normal operation, the internal top power MOSFET is turned on each cycle when the rising edge of the oscillator sets the RS latch, and turned off when rising edge of the PWM comparator resets the RS latch. While the top MOSFET is off, the bottom MOSFET is turned on until either the inductor current starts to reverse or the beginning of the next clock cycle. The OVDET comparator controls output transient overshoots is smaller than 8% by turning the main MOSFET off until the fault is removed.Skip-Cycles Mode OperationAt light loads, the PT1202 enters skip-cycle mode automatically. In this mode, the inductor current may reach zero or reverse on each cycle. The PWM control loop will automatically skip cycles to maintain output regulation. The bottom MOSFET is turned off by thecurrent reversal comparator, IR-CMPARATOR, and the switch voltage will ring. This is discontinuous mode operation, and is normal behavior for the switching regulator.Current Fold-Back OperationThe frequency of the oscillator is reduced to about 210 KHz when the output voltage is smaller than 50% of normal value; which ensures the inductor current has more time to decay, thereby preventing runaway. The oscillator’s frequency will progressively increase to 1.9MHz when the output voltage rises above 50%. Low-Dropout OperationWhen the input voltage deceases to the value of output voltage, the control loop remains the main MOSFET on until it reaches 100% duty cycle. The output voltage then is the input voltage minus the voltage drop across the main switch and the inductor. Caution must be exercised to ensure the heat dissipated not to exceed the maximum junction temperature of the IC because the RDSON of the main MOSFET increases and the efficiency of the converter decrease.Maximum Load CurrentThe PT1202 operates with input voltage as low as 2.5V. However, the maximum load current decreases when the input voltage deceases because of the large IR drop of the main switch and the synchronous switch. And the slope compensation reduces the peak inductor current.Step-Down DC-DC ConverterChina Resources Powtech (Shanghai) Limited Page 5PT1202_DS Rev EN_3.1TYPICAL PERFORMANCE CHARACTERISTICS(From Figure 1, TA=25 Unless Otherwise Specified)℃Efficiency vs. Input VoltageEfficiency vs. Output Current0.5110100700O utput C urrent (m A)Efficiency vs. Output Current0.500.550.600.650.700.750.800.850.900.95Output Current (mA)E f f i c i e n c yEfficiency vs. Output CurrentOutput Current (mA)Reference Voltage (V) vs. Temperature (℃) Oscillator Frequency vs. VINStep-Down DC-DC ConverterOscillator Frequency vs. Temperature (℃)Supply Current vs. Temperature (℃)Supply Current vs. Supply VoltageStart-up from ShutdownLoad StepLoad StepStep-Down DC-DC ConverterAPPLICATIONS INFORMATIONFigure 1Figure 2Setting the Output VoltageFigure 1 shows the application of fixed output voltageversion of PT1202. There are 0.6V to 5V versions areavailable. In these versions, the output voltage is set byan internal resister divider.Figure 2 shows the application of adjust version ofPT1202. In this version, the output voltage is set by anexternal resister divider according to the followingformula:⎟⎠⎞⎜⎝⎛+×=1216.0RRVVOUTInductor SelectionFor most applications, the PT1202 operates well withinductors of 1uH to 4.7uH. Low inductance values arephysically smaller but require fast switching, whichresults in efficiency loss. The inductor value can becalculated from following equation:OSCLINOUTINOUTfIVVVVL×Δ×−×=)(Table 1 list some typical surface mount inductors thatadapt to PT1202 applications.Input and Output Capacitor SelectionThe input capacitor reduces the surge current drawnfrom the input and switching noise from the device. Toprevent large voltage transients, a low ESR inputcapacitor sized for the maximum RMS current must beused. The maximum RMS capacitor current is given by:[]INOUTINOUTOMAXRMS VVVVII21)(−×≈Ceramic capacitor with X5R or C7R dielectrics arehighly recommended because of their low ESR andsmall temperature coefficients. A 4.7uF ceramiccapacitor for most applications is sufficient.The output capacitor is required to obtain small outputvoltage ripple and ensure regulation loop stability.Typically, once the ESR requirement for COUT hasbeen met, the RMS current generally far exceeds theripple current requirement. The output ripple V△OUTis determined by:81(OUTLOUT fCESRIV+×Δ≈ΔWhere f is the operating frequency, COUT is the outputcapacitor and I△L is the ripple current of inductorcurrent.Ceramic capacitors with X5R or C7R dielectrics arerecommended due to their low ESR and high currentrating. A 10uF ceramic capacitor for most applicationsis recommended for low output voltage ripple and goodloop stability.Adapter/USB ApplicationsFor USB or adapter applications, there is ±10%voltagevariation in the power supply; this device could beharmed if V IN is higher than 5.5V. To protect the device,a zener diode with 5.6Vbreak down voltage (D1 in Fig.3)is suggested to be added between V IN and GND in Table 1. Typical Surface Mount InductorsStep-Down DC-DC Converterthis kind of applications.Layout Guideline1.The power traces, including the VIN trace, theGND trace, and the SW trace should be kept short,direct and wide.2.The VFB pin should be connected directly to thefeedback resistor, and kept away from theswitching node, SW. The resistive divider R1/R2must be connected between the (+) plane of COUTand ground.3.Place the (+) plane of CIN to the VIN pin as closeas possible.4.Keep the (-) plates of CIN and COUT as close aspossible.5. A full GND plane without gap break is good forsystem noise.Step-Down DC-DC Converter PACKAGE INFORMATION5LD SOT23-5 PACKAGE OUTLINE DIMENSIONS(All dimensions in mm)。