低功耗低压差稳压HEXXM规格书赫尔微半导体

概述HE 9193系列是高纹波抑制率、低功耗、低压差，具有过流和短路保护的CMOS 降压型电压稳压器。

这些器件具有很低的静态偏置电流（70μA Typ.），它们能在输入、输出电压差极小的情况下提300mA 的输出电流，并且仍能保持良好的调整率。

由于输入输出间的电压差很小和静态偏置电流很小，这些器件特别适用于希望延长有用电池寿命的电池供电类产品，如计算机、消费类产品和工业设备等。

特点◆输出范围：1.2V-3.6V ◆300mA 输出电流◆高电源抑制比：70分贝1千赫◆极低的静态偏置电流: 70uA (典型) ◆在关机模式下小于1μA ◆交界处的温度运作为-40°C 至+85°C应用范围◆CDMA / GSM 移动电话◆PDAs/MP3◆WLAN 和蓝牙设备 ◆无绳电话 ◆电池供电系统HE 9193采用SOT-23-5L 、SOT-23-3L 封装典型应用INPUT选型指南HE 9193 X XX XX X 公司标志产品型号版本号输出电压指封装形式L5指SOT-23-5L 如：如：L3指SOT-23-3L 12指1.2V 15指1.5V 18指1.8V 25指2.5V 28指2.8V 30指3.0V 33指3.3V 脚位形状36指3.6V300mA Low Power LDO管脚分布图GNDVINCESOT-23-5L GNDVOUTVDD SOT-23-3L 丝印说明管脚描述300mA Low Power LDO极限参数封装耗散等级结构框图(Vin=Vout+1V,Cin=1uF~10uF,Cout=1uF~10uF,Ta=25℃。

除特别指定)1、OUT2、V OUT (E) ：有效输出电压( 即当I OUT保持一定数值，V IN = (V OUT (T)+1.0V)时的输出电压。

3、V dif：V IN1–V OUT(E)’V IN1：逐渐减小输入电压，当输出电压降为V OUT (E)98%时的输入电压。

概述HE4054B是一款性能优异的单节锂离子电池恒流/恒压线性充电器。

HE4054B采用SOT23-5L封装配合较少的外围原件使其非常适用于便携式产品，并且适合给USB电源以及适配器电源供电。

基于特殊的内部MOSFET架构以及防倒充电路，HE4054B不需要外接检测电阻和隔离二极管。

当外部环境温度过高或者在大功率应用时，热反馈可以调节充电电流以降低芯片温度。

充电电压固定在4.2V，而充电电流则可以通过一个电阻器进行外部设置。

当充电电流在达到最终浮充电压之后降至设定值的1/10，芯片将终止充电循环。

当输入电压断开时，HE4054B进入睡眠状态，电池漏电流将降到1uA以下。

HE4054B还可以被设置于停机模式，此时芯片静态电流降至25uA。

HE4054B还包括其他特性：欠压锁定，自动再充电和充电状态标志。

特性◆可编程充电电流500mA◆无需外接MOSFET，检测电阻以及隔离二极管◆用于单节锂电池、采用SOT23-5L封装的完整线性充电器◆恒定电流/恒定电压操作，并具有可在无过热危险的情况下实现充电速率最大化的热调节功能。

◆精度达到±1%的4.2V预充电电压◆用于电池电量检测的充电电流监控器输出◆自动再充电◆充电状态输出显示◆C/10充电终止◆待机模式下的静态电流为25uA◆2.9V涓流充电◆软启动限制浪涌电流应用范围◆移动电话、PDA◆MP3、MP4播放器◆充电器◆数码相机◆电子词典◆蓝牙、GPS导航仪◆便携式设备HE4054B采用SOT23-5L封装典型应用打标说明及管脚分布SOT23-5L管脚图丝印字符丝印字符说明左示意图LTH7芯片代码 Y 年号 W 周号 XXXX生产批号管脚描述LTH7YWXXXX最大额定值(注)ESD与Latch-up等级结构框图(如果没有特殊说明，环境温度= 25︒C，输入电压=5V)注释(1): 这时处于充电状态，I CC= I VCC- I BAT(2): 这里C/10终止电流门限指的是终止电流与恒流充电电流的比值使用说明HE4054B是一款专门为锂离子电池设计的线性充电器，利用芯片内部的功率MOSFET对电池进行恒流/恒压充电。

特点•反向充电连接保护•电池单元反向连接保护•过温保护•过充电电流保护•两步检测过充电流：过放电电流保护负载短路•充电器检测功能•0V 电池充电功能•符合RoHS 标准且不含铅（Pb ）•低至40mΩ的等效开启电阻内部功率MOSFET •内部延迟发生器•高精度电压检测•低电流损耗工作状态：典型值2.5µA.掉电状态：典型值1.5µA •只需一个外接电容•采用SOT23-6封装•-40℃至+85℃温度范围应用•单节锂离子电池组•充电宝•单节锂聚合物电池组•IOT 传感器/电子玩具概述HE 3050F 针对锂离子/聚合物电池保护提供了高集成解决方案。

HE 3050F 包含内部功率MOSFET ，高精度电压检测电路和延迟电路。

HE 3050F 具有电池应用所需的所有保护功能，包括过充电、过放电、过流和负载短路保护等。

准确的过充电检测电压保证了充电的安全和充分利用。

低待机电流在存储时从电池中消耗很少的电流。

该产品不仅适用于数字蜂窝电话，而且适用任何其他需要长期电池寿命的锂离子和锂聚合电池供电的信息设备。

HE 3050F 需要最少数量的现成的外部组件，并且采用的SOT23-6封装可以节省空间。

典型应用电路Figure 1.Typical Application Circuit523/6HE 3050F单节锂离子和锂聚合物电池保护芯片引脚描述管脚设置Figure 2.Pin Configuration引脚描述引脚名称功能1NC NC2VM连接电池组的负极。

内部FET 开关将这个端口连接到GND 3/6GND 接地引脚5VDD 电源引脚4NCNC印章说明标记描述封装最小包装3代表过放电流值；50代表导通内阻；F 代表SOT-23封装；B 代表过充电压；9代表生产年份；A 代表生产周数SOT23-63000PCS订购须知型号HE 3050F-AHE 3050F-BHE3050F-CHE 3050F-D过充电压 4.250V 4.300V 4.425V 4.475V 丝印图350FA350FB350FC350FD-6HE 3050F单节锂离子和锂聚合物电池保护芯片绝对最大额定值(1)(2)VDD输入电压…………….........…...-0.3V to6V 工作温度范围……………….…...-40°C to+85°C 铅温度（钎焊，10s）…………………..+300°C θJA…….………………….…………........250°C/W θJC……….……...……………...…..........130°C/W VM输入电压…..…………………......…...-6V to10V存储温度范围.....................................-55°C to150°C 结温...........................................................+125°C ESD(Human Body Made)HMB............................2KV ESD(Machine Made)MM (200V)备注1：超过这些额定值可能会损坏器件。

Low Dropout RegulatorsQuick Reference GuideLow dropout regulators (LDOs) are a simple, effective way to regulate an output voltage powered from a higher voltage input. The most critical LDO parameters are input voltage range, output voltage, output current, dropout voltage, packaging size, power dissipation capability, and noise. On this quick reference guide you will find TI’s most popular LDOs and linear voltage regulators for any kind of application.To see the complete LDO portfolio:/ldo L D O12345678 9 1020304050 60 70 80 90 1004+31.510.82V IN (V)I O U T (A )The platform bar is a trademark of T exas Instruments. All other trademarks are the property of their respective owners.© 2016 Texas Instruments IncorporatedSLYT228LMost Critical LDO ParametersTo see the complete LDO portfolio: /ldo• High PSRR (40dB+ @ 100kHz): TPS7A47, LP38798, TPS7A35, LP5907• Low noise (<20μV RMS ): TPS7A47, LP38798, TPS7A35, LP5907• Low I Q (<15μA): TPS780/2 (0.5µA), TPS706 (1µA), TPS709 (1.3µA)• Low dropout voltage: TPS731 (30mV @ 150mA), TPS7A83 (85mV @ 2A), TPS7A85 (150mV @ 4A)• Small packaging: TLV713 (1x1mm), LP5907 (0.65x0.65mm), TLV705 (0.8x0.8mm)• Wide input: TPS7A16 (60V V IN ), TPS7A40 (100V V IN ), TPS709 (30V V IN )• Features: Power good, cap-free operation, reverse current protection, reverse voltage protection, adjustable soft-start and output discharge123 4 5 6 7 8 9 10 20 30 40 50 60 70 80 90 100V IN (V)0.20.150.10.05I O U T (A)0.3 – 0.5IMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries(TI)reserve the right to make corrections,enhancements,improvements and other changes to its semiconductor products and services per JESD46,latest issue,and to discontinue any product or service per JESD48,latest issue.Buyers should obtain the latest relevant information before placing orders and should verify that such information is current and complete.All semiconductor products(also referred to herein as“components”)are sold subject to TI’s terms and conditions of sale supplied at the time of order acknowledgment.TI warrants performance of its components to the specifications applicable at the time of sale,in accordance with the warranty in TI’s terms and conditions of sale of semiconductor products.Testing and other quality control techniques are used to the extent TI deems necessary to support this warranty.Except where mandated by applicable law,testing of all parameters of each component is not necessarily performed.TI assumes no liability for applications assistance or the design of Buyers’products.Buyers are responsible for their products and applications using TI components.To minimize the risks associated with Buyers’products and applications,Buyers should provide adequate design and operating safeguards.TI does not warrant or represent that any license,either express or implied,is granted under any patent right,copyright,mask work right,or other intellectual property right relating to any combination,machine,or process in which TI components or services are rmation published by TI regarding third-party products or services does not constitute a license to use such products or services or a warranty or endorsement e of such information may require a license from a third party under the patents or other intellectual property of the third party,or a license from TI under the patents or other intellectual property of TI.Reproduction of significant portions of TI information in TI data books or data sheets is permissible only if reproduction is without alteration and is accompanied by all associated warranties,conditions,limitations,and notices.TI is not responsible or liable for such altered rmation of third parties may be subject to additional restrictions.Resale of TI components or services with statements different from or beyond the parameters stated by TI for that component or service voids all express and any implied warranties for the associated TI component or service and is an unfair and deceptive business practice. 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系列■ 产品简介系列是以CMOS 工艺制造的高精度，低噪音，快速响应低压差线性稳压器。

该系列的稳压器内置固定的参考电压，误差修正电路，限流电路，相位补偿电路以及低内阻的MOSFET ，达到高纹波抑制，低输出噪音，快速响应低压差的性能。

系列兼容体积比钽电容更小的陶瓷电容，而且不需使用0.1μF 的By-pass 电容，更能节省空间，降低了成本。

因具有高精度的输出稳定性，以及快速瞬态响应性能，从而能应付负载电流的波动，所以特别适合应用在手持设备及射频产品上。

通过控制芯片上的CE 脚，可将输出关断，关断输出后的静态电流只有0.1uA （Typ 值），从而大大降低了功耗。

■ 产品特点■ 产品用途■ 封装形式和管脚定义功能● 高精度输出电压：±2.0%； ● 可选择输出电压：1.8V ～5.0V ； ● 极低的静态电流(Typ.=15μA)； ● 极低的关断电流（Typ.=0.1μA)； ● 输入稳定性好：Typ.=0.2%/V ；● 智能手机/移动电话 ● 数码相机/摄像机 ● 电池供电设备● 带载能力强：当Vin=4.3V 且Vout=3.3V 时，Iout=300mA ；● 内置过流保护和负载短路保护； ● 兼容陶瓷电容；● 封装形式：SOT89-5、SOT23-5● 蓝牙及其他射频产品 ● 便携式消费类设备管脚序号 管脚定义功能说明 封装 SOT23-5 SOT89-51 4 VIN 输入端2 2 VSS 接地端3 3 CE 使能端4 1 NC 空5 5 VOUT 输出端XC6219XC6219XC6219■ 功能框图■ 极限参数注：极限参数是指无论在任何条件下都不能超过的极限值。

万一超过此极限值，将有可能造成产品劣化等物理性损伤；同时在接近极限参数下，不能全部保证芯片可以正常工作。

■ 典型应用项目 符号 说明 极限值 单位 电压 Vin 输入电压 9V Vout 输出电压 Vss-0.3～Vin+0.3V 电流 Iout 输出电流500 mA 功耗PD SOT23-5 最大允许功耗200 mW SOT89-5300 温度T OPR工作温度 -20～+60 ℃ T stg 存储温度 -40～+125 ℃ T solder焊接温度260℃,10s■ 电学特性V OUT(T)=3.3V (Ci=Co=10uF,Ta=25O C 除特别指定)特性符号测试条件最小值典型值最大值单位输出电压V OUT(E) I OUT=1mA，V IN=5V，V CE=1.6V 3.24 3.300 3.360 V最大输出电流I OUT (max) V IN=4.3V 300 mA负载稳定度∆V OUT V IN=V CE=4.3V，1mA≤I OUT≤100mA12 mV输入稳定度∆V OUT/(∆V IN•V OUT)I OUT =10mA，4.3V≤V IN≤7V0.2 %/V跌落压差V drop1 V IN=4.3V，I OUT=10mA 35 mV V drop2V IN=4.3V，I OUT =100mA 280 mV静态电流I SS1V IN=V CE=5V －15 －μA I SS2V IN=5V，V CE=V SS0.5 μACE输入电压V CEH 1.6 V IN V V CEL0 0.5 VCE输入电流I CE V CE=0V to V IN0.5 μA纹波抑制比PSRR V IN=V CE=4.3V+1V p-pACI OUT=10mA，f=1kHz 40 dB输出电压温度系数∆V OUT/(∆Ta•V OUT)V IN=V CE=4.3V，I OUT=3.3mA0℃≤Ta≤60℃±290 ppm/℃输入电压V IN 1.8 7 V注：1、V OUT (T)：规定的输出电压。