UC3842 中文资料 电路汇总

UC3842开关电源各功能电路详解一、开关电源的电路组成开关电源的主要电路是由输入电磁干扰滤波器（EMI）、整流滤波电路、功率变换电路、PWM控制器电路、输出整流滤波电路组成。

辅助电路有输入过欠压保护电路、输出过欠压保护电路、输出过流保护电路、输出短路保护电路等。

开关电源的电路组成方框图如下：二、输入电路的原理及常见电路1、AC 输入整流滤波电路原理：①防雷电路：当有雷击，产生高压经电网导入电源时，由MOV1、MOV2、MOV3：F1、F2、F3、FDG1组成的电路进行保护。

当加在压敏电阻两端的电压超过其工作电压时，其阻值降低，使高压能量消耗在压敏电阻上，若电流过大，F1、F2、F3 会烧毁保护后级电路。

②输入滤波电路：C1、L1、C2、C3组成的双π型滤波网络主要是对输入电源的电磁噪声及杂波信号进行抑制，防止对电源干扰，同时也防止电源本身产生的高频杂波对电网干扰。

当电源开启瞬间，要对C5充电，由于瞬间电流大，加RT1（热敏电阻）就能有效的防止浪涌电流。

因瞬时能量全消耗在RT1电阻上，一定时间后温度升高后RT1阻值减小（RT1是负温系数元件），这时它消耗的能量非常小，后级电路可正常工作。

③整流滤波电路：交流电压经BRG1整流后，经C5滤波后得到较为纯净的直流电压。

若C5容量变小，输出的交流纹波将增大。

2、DC 输入滤波电路原理：①输入滤波电路：C1、L1、C2组成的双π型滤波网络主要是对输入电源的电磁噪声及杂波信号进行抑制，防止对电源干扰，同时也防止电源本身产生的高频杂波对电网干扰。

C3、C4 为安规电容，L2、L3为差模电感。

② R1、R2、R3、Z1、C6、Q1、Z2、R4、R5、Q2、RT1、C7组成抗浪涌电路。

在起机的瞬间，由于C6的存在Q2不导通，电流经RT1构成回路。

当C6上的电压充至Z1的稳压值时Q2导通。

如果C8漏电或后级电路短路现象，在起机的瞬间电流在RT1上产生的压降增大，Q1导通使Q2没有栅极电压不导通，RT1将会在很短的时间烧毁，以保护后级电路。

1、UC3842的内部结构和特点UC3842是美国Unitrode公司生产的一种高性能单端输出式电流控制型脉宽调制器芯片。

UC3842为8脚双列直插式封装，其内部原理框图如图1所示。

主要由5.0V基准电压源、用来精确地控制占空比调定的振荡器、降压器、电流测定比较器、PWM锁存器、高增益E/A误差放大器和适用于驱动功率MOSFET的大电流推挽输出电路等构成。

端1为COMP 端；端2为反馈端；端3为电流测定端；端4接Rt、Ct确定锯齿波频率；端5接地；端6为推挽输出端，有拉、灌电流的能力；端7为集成块工作电源电压端，可以工作在8～40V；端8为内部供外用的基准电压5V，带载能力50mA。

2、电路结构与工作原理图2所示为笔者在实际工作中使用的电路图。

输入电压为24V 直流电。

三路直流输出，分别为+5V/4A，+12V/0.3A和-12V/0.3A。

所有的二极管都采用快速反应二极管，核心PWM器件采用UC3842。

开关管采用快速大功率场效应管。

2.1 启动过程首先由电源通过启动电阻R 1提供电流给电容C2充电，当C2电压达到UC3842的启动电压门槛值16V时，UC3842开始工作并提供驱动脉冲，由6端输出推动开关管工作，输出信号为高低电压脉冲。

高电压脉冲期间，场效应管导通，电流通过变压器原边，同时把能量储存在变压器中。

根据同名端标识情况，此时变压器各路副边没有能量输出。

当6脚输出的高电平脉冲结束时，场效应管截止，根据楞次定律，变压器原边为维持电流不变，产生下正上负的感生电动势，此时副边各路二极管导通，向外提供能量。

同时反馈线圈向UC3842供电。

UC3842内部设有欠压锁定电路，其开启和关闭阈值分别为16V 和10V，如图3所示。

在开启之前，UC3842消耗的电流在1mA以内。

电源电压接通之后，当7端电压升至16V时UC3842开始工作，启动正常工作后，它的消耗电流约为15mA。

因为UC3842的启动电流在1mA以内，设计时参照这些参数选取R1，所以在R1上的功耗很小。

UC3842 采用固定工作频率脉冲宽度可控调制方式，共有8 个引脚，各脚功能如下：①脚是误差放大器的输出端，外接阻容元件用于改善误差放大器的增益和频率特性；②脚是反馈电压输入端，此脚电压与误差放大器同相端的2.5V 基准电压进行比较，产生误差电压，从而控制脉冲宽度；③脚为电流检测输入端，当检测电压超过1V时缩小脉冲宽度使电源处于间歇工作状态；④脚为定时端，内部振荡器的工作频率由外接的阻容时间常数决定，f=1.72/(RT×CT)；⑤脚为公共地端；⑥脚为推挽输出端，内部为图腾柱式，上升、下降时间仅为50ns 驱动能力为±1A ；⑦脚是直流电源供电端，具有欠、过压锁定功能，芯片功耗为15mW；⑧脚为5V 基准电压输出端，有50mA 的负载能力。

2 UC3842 组成的开关电源电路图2 是由UC3842 构成的开关电源电路，220V 市电由C1、L1 滤除电磁干扰，负温度系数的热敏电阻Rt1 限流，再经VC 整流、C2 滤波，电阻R1、电位器RP1 降压后加到UC3842 的供电端（⑦脚），为UC3842 提供启动电压，电路启动后变压器的付绕组③④的整流滤波电压一方面为UC3842 提供正常工作电压，另一方面经R3、R4 分压加到误差放大器的反相输入端②脚，为UC3842 提供负反馈电压，其规律是此脚电压越高驱动脉冲的占空比越小，以此稳定输出电压。

④脚和⑧脚外接的R6、C8 决定了振荡频率，其振荡频率的最大值可达500KHz。

R5、C6用于改善增益和频率特性。

⑥脚输出的方波信号经R7、R8 分压后驱动MOSFEF 功率管，变压器原边绕组①②的能量传递到付边各绕组，经整流滤波后输出各数值不同的直流电压供负载使用。

电阻R10 用于电流检测，经R9、C9 滤滤后送入UC3842 的③脚形成电流反馈环. 所以由UC3842 构成的电源是双闭环控制系统，电压稳定度非常高，当UC3842 的③脚电压高于1V 时振荡器停振，保护功率管不至于过流而损坏。

3842充电器电路图大全（UC3842lm324KA3842充电器电路详解）3842充电器电路图（一）UC3842组成的充电器电路图1中C1、V1～V4、C2组成滤波整流电路，变压器T为高频变压器，V5、R2、C11组成功率开关管V7的保护电路，NF为供给IC 电源的绕组。

单端输出IC为UC3842，其8脚输出5V基准电压，2脚为反相输入，1脚为放大器输出，4脚为振荡电容C9、电阻R7输入端，5脚为接地端，3脚为过流保护端，6脚为调宽单脉冲输出端，7脚为电源输入端。

R6、C7组成负反馈，IC启动瞬间由R1供给启动电压，电路启动后由NF产生电势经V6、C4、C5整流滤波后供给IC工作电压。

R12为过流保护取样电阻，V8、C3组成反激整流滤波输出电路。

R13为内负载，V9～V12及R14～R19组成发光管显示电路。

图1中V5、V6选用FR107，V8选用FR154，V7选用K792。

3842充电器电路图（二）uc3842lm324充电器电路电路利用开关电源充电，以减小充电器的重量和体积。

本充电器电路的正常充电电流为250MA，涓流充电电流为200MA。

3842充电器电路图（三）基于KA3842的电动车充电器电路图常用电动车充电器根据电路结构，有一款是以KA3842驱动场效应管的单管开关电源，配合LM358双运放来实现三阶段充电方式。

原理如下：220v交流电经T0双向滤波抑制干扰，D1整流为脉动直流，再经C11滤波形成稳定的300V左右的直流电。

U1为KA3842脉宽调制集成电路。

其5脚为电源负极，7脚为电源正极，6脚为脉冲输出直接驱动场效应管Q1（K1358）3脚为最大电流限制，调整R25（2.5欧姆）的阻值可以调整充电器的最大电流。

2脚为电压反馈，可以调节充电器的输出电压。

4脚外接振荡电阻R1，和振荡电容C1.T1为高频脉冲变压器，其作用有三个。

第一是把高压脉冲将压为低压脉冲。

第二是起到隔离高压的作用，以防触电。

UC3842芯片设计开关电源_中文资料UC3842芯片设计开关电源笔者最近设计了由UC3842组成的DC2DC转换器,总的框架采用参考文献中现成的电路。

但由于输入电压和工作频率不同,重新设计了电路参数。

UC3842的内部结构和特点UC3842是美国Unitrode公司生产的一种高性能单端输出式电流控制型脉宽调制器芯片。

UC3842为8脚双列直插式封装,其内部原理框图如图1所示。

主要由5. 0V基准电压源、用来精确地控制占空比调定的振荡器、降压器、电流测定比较器、PWM锁存器、高增益E/A误差放大器和适用于驱动功率MOSFET的大电流推挽输出电路等构成端1为COMP端;端2为反馈端;端3为电流测定端;端4接Rt、Ct 确定锯齿波频率;端5接地;端6为推挽输出端,有拉、灌电流的能力;端7为集成块工作电源电压端,可以工作在8～40V;端8为内部供外用的基准电压5V,带载能力50mA。

2 电路结构与工作原理图2所示为笔者在实际工作中使用的电路图。

输入电压为24V直流电。

三路直流输出,分别为+5V/4A, +12V/0. 3A和- 12V/0. 3A。

所有的二极管都采用快速反应二极管,核心PWM器件采用UC3842。

开关管采用快速大功率场效应管。

2. 1 启动过程首先由电源通过启动电阻R1提供电流给电容C2充电,当C2电压达到UC3842的启动电压门槛值16V时,UC3842开始工作并提供驱动脉冲,由6端输出推动开关管工作,输出信号为高低电压脉冲。

高电压脉冲期间,场效应管导通,电流通过变压器原边,同时把能量储存在变压器中。

根据同名端标识情况,此时变压器各路副边没有能量输出。

当6脚输出的高电平脉冲结束时,场效应管截止,根据楞次定律,变压器原边为维持电流不变,产生下正上负的感生电动势,此时副边各路二极管导通,向外提供能量。

同时反馈线圈向UC3842供电。

UC3842内部设有欠压锁定电路,其开启和关闭阈值分别为16V和10V,如图3所示。

UC3842典型应用电路电路中的芯片有：UC3842 采用固定工作频率脉冲宽度可控调制方式，共有8 个引脚，各脚功能如下：①脚是误差放大器的输出端，外接阻容元件用于改善误差放大器的增益和频率特性；②脚是反馈电压输入端，此脚电压与误差放大器同相端的2.5V 基准电压进行比较，产生误差电压，从而控制脉冲宽度；③脚为电流检测输入端，当检测电压超过1V时缩小脉冲宽度使电源处于间歇工作状态；④脚为定时端，内部振荡器的工作频率由外接的阻容时间常数决定，f=1.8/(RT×CT)；⑤脚为公共地端；⑥脚为推挽输出端，内部为图腾柱式，上升、下降时间仅为50ns 驱动能力为±1A ；⑦脚是直流电源供电端，具有欠、过压锁定功能，芯片功耗为15mW；⑧脚为5V 基准电压输出端，有50mA 的负载能力。

电流控制型脉宽调制器UC3842工作原理及应用UC3842是美国Unitrode公司(该公司现已被TI公司收购)生产的一种高性能单端输出式电流控制型脉宽调制器芯片，可直接驱动双极型晶体管、MOSFEF 和IGBT 等功率型半导体器件，具有管脚数量少、外围电路简单、安装调试简便、性能优良等诸多优点，广泛应用于计算机、显示器等系统电路中作开关电源驱动器件。

1 UC3842 内部工作原理简介图1 示出了UC3842 内部框图和引脚图，UC3842 采用固定工作频率脉冲宽度可控调制方式，共有8 个引脚，各脚功能如下：①脚是误差放大器的输出端，外接阻容元件用于改善误差放大器的增益和频率特性；②脚是反馈电压输入端，此脚电压与误差放大器同相端的2.5V 基准电压进行比较，产生误差电压，从而控制脉冲宽度；③脚为电流检测输入端，当检测电压超过1V时缩小脉冲宽度使电源处于间歇工作状态；④脚为定时端，内部振荡器的工作频率由外接的阻容时间常数决定，f=1.8/(R T×C T)；⑤脚为公共地端；⑥脚为推挽输出端，内部为图腾柱式，上升、下降时间仅为50ns 驱动能力为±1A ；⑦脚是直流电源供电端，具有欠、过压锁定功能，芯片功耗为15mW；⑧脚为5V 基准电压输出端，有50mA 的负载能力。

1 UC3842 内部工作原理简介图1 示出了UC3842 内部框图与引脚图,UC3842 采用固定工作频率脉冲宽度可控调制方式,共有8 个引脚,各脚功能如下:①脚就是误差放大器的输出端,外接阻容元件用于改善误差放大器的增益与频率特性;②脚就是反馈电压输入端,此脚电压与误差放大器同相端的2、5V 基准电压进行比较,产生误差电压,从而控制脉冲宽度;③脚为电流检测输入端, 当检测电压超过1V时缩小脉冲宽度使电源处于间歇工作状态;④脚为定时端,内部振荡器的工作频率由外接的阻容时间常数决定,f=1、8/(RT ×CT);⑤脚为公共地端;⑥脚为推挽输出端,内部为图腾柱式,上升、下降时间仅为50ns 驱动能力为±1A ;⑦脚就是直流电源供电端,具有欠、过压锁定功能,芯片功耗为15mW;⑧脚为5V 基准电压输出端,有50mA 的负载能力。

图1 UC3842 内部原理框图2 UC3842 组成的开关电源电路图2 就是由UC3842 构成的开关电源电路,220V 市电由C1、L1滤除电磁干扰,负温度系数的热敏电阻Rt1限流,再经VC 整流、C2滤波,电阻R1、电位器RP1降压后加到UC3842 的供电端(⑦脚),为UC3842 提供启动电压,电路启动后变压器的付绕组③④的整流滤波电压一方面为UC3842 提供正常工作电压,另一方面经R3、R4分压加到误差放大器的反相输入端②脚,为UC3842 提供负反馈电压,其规律就是此脚电压越高驱动脉冲的占空比越小,以此稳定输出电压。

④脚与⑧脚外接的R6、C8决定了振荡频率,其振荡频率的最大值可达500KHz。

R5、C 6用于改善增益与频率特性。

⑥脚输出的方波信号经R7、R8分压后驱动MOSFEF 功率管,变压器原边绕组①②的能量传递到付边各绕组,经整流滤波后输出各数值不同的直流电压供负载使用。

电阻R10 用于电流检测,经R9、C9滤滤后送入UC3842 的③脚形成电流反馈环、所以由UC3842 构成的电源就是双闭环控制系统,电压稳定度非常高,当UC3842 的③脚电压高于1V 时振荡器停振,保护功率管不至于过流而损坏。

uc3842开关电源电路图用UC3842做的开关电源的典型电路见图1。

过载和短路保护，一般是通过在开关管的源极串一个电阻（R 4），把电流信号送到3842的第3脚来实现保护。

当电源过载时，3842保护动作，使占空比减小，输出电压降低，3842的供电电压Vaux也跟着降低，当低到3842不能工作时，整个电路关闭，然后靠R1、R2开始下一次启动过程。

这被称为“打嗝”式（hiccup）保护。

在这种保护状态下，电源只工作几个开关周期，然后进入很长时间（几百ms到几s）的启动过程，平均功率很低，即使长时间输出短路也不会导致电源的损坏。

由于漏感等原因，有的开关电源在每个开关周期有很大的开关尖峰，即使在占空比很小时，辅助电压Vaux也不能降到足够低，所以一般在辅助电源的整流二极管上串一个电阻（R3），它和C1形成RC滤波，滤掉开通瞬间的尖峰。

仔细调整这个电阻的数值，一般都可以达到满意的保护。

使用这个电路，必须注意选取比较低的辅助电压Vaux，对3842一般为13～15V，使电路容易保护。

图2、3、4是常见的电路。

图2采取拉低第1脚的方法关闭电源。

图3采用断开振荡回路的方法。

图4采取抬高第2脚，进而使第1脚降低的方法。

在这3个电路里R3电阻即使不要，仍能很好保护。

注意电路中C4的作用，电源正常启动，光耦是不通的，因此靠C4来使保护电路延迟一段时间动作。

在过载或短路保护时，它也起延时保护的左右。

在灯泡、马达等启动电流大的场合，C4的取值也要大一点。

图1是使用最广泛的电路，然而它的保护电路仍有几个问题：1. 在批量生产时，由于元器件的差异，总会有一些电源不能很好保护，这时需要个别调整R3的数值，给生产造成麻烦；2. 在输出电压较低时，如3.3V、5V，由于输出电流大，过载时输出电压下降不大，也很难调整R3到一个理想的数值；3. 在正激应用时，辅助电压Vaux虽然也跟随输出变化，但跟输入电压HV的关系更大，也很难调整R3到一个理想的数值。

六款uc3842开关电源电路图分享描述uc3842开关电源电路图分享（一）用UC3842做的开关电源的典型电路见图1。

过载和短路保护，一般是通过在开关管的源极串一个电阻（R4），把电流信号送到3842的第3脚来实现保护。

当电源过载时，3842保护动作，使占空比减小，输出电压降低，3842的供电电压Vaux也跟着降低，当低到3842不能工作时，整个电路关闭，然后靠R1、R2开始下一次启动过程。

这被称为“打嗝”式（hiccup）保护。

在这种保护状态下，电源只工作几个开关周期，然后进入很长时间（几百ms到几s）的启动过程，平均功率很低，即使长时间输出短路也不会导致电源的损坏。

由于漏感等原因，有的开关电源在每个开关周期有很大的开关尖峰，即使在占空比很小时，辅助电压Vaux也不能降到足够低，所以一般在辅助电源的整流二极管上串一个电阻（R3），它和C1形成RC滤波，滤掉开通瞬间的尖峰。

仔细调整这个电阻的数值，一般都可以达到满意的保护。

使用这个电路，必须注意选取比较低的辅助电压Vaux，对3842一般为13～15V，使电路容易保护。

图2、3、4是常见的电路。

图2采取拉低第1脚的方法关闭电源。

图3采用断开振荡回路的方法。

图4采取抬高第2脚，进而使第1脚降低的方法。

在这3个电路里R3电阻即使不要，仍能很好保护。

注意电路中C4的作用，电源正常启动，光耦是不通的，因此靠C4来使保护电路延迟一段时间动作。

在过载或短路保护时，它也起延时保护的左右。

在灯泡、马达等启动电流大的场合，C4的取值也要大一点。

图1是使用最广泛的电路，然而它的保护电路仍有几个问题：1. 在批量生产时，由于元器件的差异，总会有一些电源不能很好保护，这时需要个别调整R3的数值，给生产造成麻烦；2. 在输出电压较低时，如3.3V、5V，由于输出电流大，过载时输出电压下降不大，也很难调整R3到一个理想的数值；3. 在正激应用时，辅助电压Vaux虽然也跟随输出变化，但跟输入电压HV的关系更大，也很难调整R3到一个理想的数值。

UC3842开关电源电路图精品1、UC3842的内部结构和特点UC3842是美国Unitrode公司生产的一种高性能单端输出式电流控制型脉宽调制器芯片。

UC3842为8脚双列直插式封装，其内部原理框图如图1所示。

主要由5.0V基准电压源、用来精确地控制占空比调定的振荡器、降压器、电流测定比较器、PWM锁存器、高增益E/A误差放大器和适用于驱动功率MOSFET的大电流推挽输出电路等构成。

端1为COMP 端；端2为反馈端；端3为电流测定端；端4接Rt、Ct确定锯齿波频率；端5接地；端6为推挽输出端，有拉、灌电流的能力；端7为集成块工作电源电压端，可以工作在8～40V；端8为内部供外用的基准电压5V，带载能力50mA。

2、电路结构与工作原理图2所示为笔者在实际工作中使用的电路图。

输入电压为24V直流电。

三路直流输出，分别为+5V/4A，+12V/0.3A和-12V/0.3A。

所有的二极管都采用快速反应二极管，核心PWM 器件采用UC3842。

开关管采用快速大功率场效应管。

2.1 启动过程首先由电源通过启动电阻R 1提供电流给电容C2充电，当C2电压达到UC3842的启动电压门槛值16V时，UC3842开始工作并提供驱动脉冲，由6端输出推动开关管工作，输出信号为高低电压脉冲。

高电压脉冲期间，场效应管导通，电流通过变压器原边，同时把能量储存在变压器中。

根据同名端标识情况，此时变压器各路副边没有能量输出。

当6脚输出的高电平脉冲结束时，场效应管截止，根据楞次定律，变压器原边为维持电流不变，产生下正上负的感生电动势，此时副边各路二极管导通，向外提供能量。

同时反馈线圈向UC3842供电。

UC3842内部设有欠压锁定电路，其开启和关闭阈值分别为16V 和10V，如图3所示。

在开启之前，UC3842消耗的电流在1mA以内。

电源电压接通之后，当7端电压升至16V 时UC3842开始工作，启动正常工作后，它的消耗电流约为15mA。

UC3842UC3843工作原理参数资料电路分析及维修方法v一、工作原理：1.输入电压稳压：2.参考电压：3.误差放大器：误差放大器与参考电压和反馈电压进行比较，产生控制信号，使输出电压保持在设定值。

4.电流模式控制：电流模式控制是UC3842/43的核心功能。

通过外接电流感测电阻将电压转换成电流，然后进行误差放大和反馈。

5.PWM控制：PWM控制器与误差放大器和电流模式控制器协同工作，根据误差放大器的控制信号和电流模式控制器的反馈信号，产生对开关管的PWM控制信号，控制开关管的通断。

6.开关管驱动：二、参数资料：1.输入电压范围：8V至20V2.输出功率范围：5W至150W3.输出电压范围：0.5V至5V（通常为12V、15V等）4.输出电流范围：0A至2A5.PWM频率范围：50kHz至500kHz6.工作温度范围：-40℃至125℃三、电路分析：1.输入电源电路：通过电阻分压电路将输入电压接入UC3842/43的供电管脚。

2.外部电感：用于限流。

3.故障保护电路：包括过电流保护、过载保护等功能。

4.参考电压调节电路：通过外接分压电阻网络调整参考电压，用于电流模式控制和误差放大器。

5.误差放大器：用于比较参考电压和反馈电压，产生控制信号，保持输出电压稳定。

6.电流模式控制：通过外接电流感测电阻将电压转换为电流，然后进行误差放大和反馈。

7.PWM控制：根据误差放大器的控制信号和电流模式控制器的反馈信号，生成对开关管驱动信号。

8.开关管驱动：将PWM信号驱动外部开关管，实现对输出电压的调节和稳压控制。

在维修UC3842和UC3843的电路时，一般需要先排除其他外部元件故障，然后再考虑芯片本身是否损坏。

维修UC3842和UC3843电路的常见方法如下：1.检查输入电压：确认输入电压是否正常，排除电源问题。

2.检查电感和变压器：检查电感和变压器的绕组是否损坏或短路。

3.检查反馈电路：检查反馈电路中的电阻、电容、二极管等元件是否正常，是否有短路或开路现象。

3842可替换型号UC3842 YD3842 KIA3842 GP3842 S3842
概述
YW-UTC3842采用固定工作频率脉冲宽度可控调制方式，共有8 个引脚，各脚功能如下：①脚是误差放大器的输出端，外接阻容元件用于改善误差放大器的增益和频率特性；②脚是反馈电压输入端，此脚电压与误差放大器同相端的2.5V 基准电压进行比较，产生误差电压，从而控制脉冲宽度；③脚为电流检测输入端，当检测电压超过1V时缩小脉冲宽度使电源处于间歇工作状态；④脚为定时端，内部振荡器的工作频率由外接的阻容时间常数决定，f=1.8/(RT×CT)；⑤脚为公共地端；⑥脚为推挽输出端，内部为图腾柱式，上升、下降时间仅为50ns 驱动能力为±1A；⑦脚是直流电源供电端，具有欠、过压锁定功能，芯片功耗为15mW；⑧脚为5V 基准电压输出端，有50mA的负载能力。

特点
UTC3842是开关电源用电流控制方式的脉宽调制集成电路。

与电压控制方式相比在负载响应和线性调整度等方面有很多优越之处。

该电路主要特点有：
内含欠电压锁定电路
低起动电流（典型值为0.12mA）
稳定的内部基准电压源
大电流推挽输出（驱动电流达1A）
工作频率可到500kHz
自动负反馈补偿电路
双脉冲抑制
较强的负载响应特性。

UC2842/3/4/5UC3842/3/4/5 Current Mode PWM ControllerFEATURES•Optimized For Off-line And DC To DC Converters•Low Start Up Current(<1mA)•Automatic Feed ForwardCompensation•Pulse-by-pulse Current Limiting •Enhanced Load ResponseCharacteristics•Under-voltage Lockout With Hysteresis•Double Pulse Suppression •High Current Totem PoleOutput•Internally Trimmed Bandgap Reference•500khz Operation•Low R O Error Amp DESCRIPTIONThe UC1842/3/4/5family of control ICs provides the necessary features to implement off-line or DC to DC fixed frequency current mode control schemes with a minimal external parts count.Internally implemented circuits include under-voltage lockout featuring start up current less than1mA,a precision reference trimmed for accuracy at the error amp input,logic to insure latched operation,a PWM comparator which also provides current limit control,and a totem pole output stage designed to source or sink high peak current.The output stage,suitable for driving N Channel MOSFETs,is low in the off state. Differences between members of this family are the under-voltage lockout thresholds and maximum duty cycle ranges.The UC1842and UC1844have UVLO thresholds of16V(on)and10V(off),ideally suited to off-line applications.The corresponding thresholds for the UC1843and UC1845are 8.4V and7.6V.The UC1842and UC1843can operate to duty cycles approaching100%.A range of zero to50%is obtained by the UC1844and UC1845by the addition of an internal toggle flip flop which blanks the output off every other clockcycle. BLOCK DIAGRAMUC3842/3/4/5 ABSOLUTE MAXIMUM RATINGS(Note1)Supply Voltage(Low Impedance Source) (30V)Supply Voltage(I CC<30mA).................Self LimitingOutput Current (1)Output Energy(Capacitive Load)....................5µJAnalog Inputs(Pins2,3)...................-0.3V to+6.3VError Amp Output Sink Current....................10mAPower Dissipation at T A≤25°C(DIL−8).................1WPower Dissipation at T A≤25°C(SOIC-14).........725mWStorage Temperature Range..............-65°C to+150°CJunction Temperature Range.............-55°C to+150°CLead Temperature(soldering,10seconds)...........300°CNote1:All voltages are with respect to Pin5.All currents are positive into the specified terminal.Consult Packaging Section of Databook for thermallimitations and considerations of packages.Package TA≤25°CPower RatingDerating FactorAbove TA≤25°CTA≤70°CPower RatingTA≤85°CPower RatingTA≤125°CPower RatingW700mW 5.5mW/°C452mW370mW150mW DISSIPATION RATING TABLEPARAMETERTEST CONDITIONSUC1842/3/4/5UC2842/3/4/5UC3842/3/4/5UNITSMINTYPMAXMINTYPMAXReference Section Output Voltage T J =25°C,I O =1mA 4.955.00 5.05 4.905.00 5.10V Line Regulation 12≤V IN ≤25V 620620mV Load Regulation 1≤I 0≤20mA 625625mV Temp.Stability (Note 2)(Note 7)0.20.40.20.4mV/°C Total Output Variation Line,Load,Temp.(Note 2)4.95.14.825.18V Output Noise Voltage 10Hz ≤f ≤10kHz,T J =25°C (Note2)5050µV Long Term Stability T A =125°C,1000Hrs.(Note 2)525525mV Output Short Circuit -30-100-180-30-100-180mAOscillator Section Initial Accuracy T J =25°C (Note 6)475257475257kHz Voltage Stability 12≤V CC ≤25V0.210.21%Temp.Stability T MIN ≤T A ≤T MAX (Note 2)55%Amplitude V PIN 4peak to peak (Note 2)1.71.7VError Amp Section Input Voltage V PIN 1=2.5V2.452.50 2.55 2.422.50 2.58V Input Bias Current -0.3-1-0.3-2µA A VOL2≤V O ≤4V 65906590dB Unity Gain Bandwidth (Note 2)T J =25°C 0.710.71MHz PSRR12≤V CC ≤25V60706070dB Output Sink Current V PIN 2=2.7V,V PIN 1=1.1V 2626mA Output Source Current V PIN 2=2.3V,V PIN 1=5V -0.5-0.8-0.5-0.8mA V OUT High V PIN 2=2.3V,R L =15k to ground 5656V V OUT LowV PIN 2=2.7V,R L =15k to Pin 80.71.10.71.1VCurrent Sense Section Gain(Notes 3and 4) 2.853 3.15 2.853 3.15V/V Maximum Input Signal V PIN 1=5V (Note 3)0.91 1.10.91 1.1V PSRR12≤V CC ≤25V (Note 3)(Note 2)7070dB Input Bias Current -2-10-2-10µA Delay to Output V PIN 3=0to 2V (Note 2)150300150300nsELECTRICAL CHARACTERISTICS:Unless otherwise stated,these specifications apply for -55°C ≤T A ≤125°C for theUC184X;-40°C ≤T A ≤85°C for the UC284X;0°C ≤T A ≤70°C for the 384X;V CC =15V (Note 5);R T =10k;C T =3.3nF,T A =T J.Note 2:These parameters,although guaranteed,are not 100%tested in production.Note 3:Parameter measured at trip point of latch with V PIN 2=0.Note 4:Gain defined asA VPIN VPIN VPIN V≤≤130308,.Note 5:Adjust V CC above the start threshold before setting at 15V.Note 6:Output frequency equals oscillator frequency for the UC1842and UC1843.Output frequency is one half oscillator frequency for the UC1844and UC1845.Note 7:Temperature stability,sometimes referred to as average temperature coefficient,is described by the equation:Temp Stability V max VREF min TJ max TJ min REF=−−()()()()V REF (max)and V REF (min)are the maximum and minimum reference voltages measured over the appropriate temperature range.Note that the extremes in voltage do not necessarily occur at the extremes in temperature.PARAMETERTEST CONDITIONUC1842/3/4/5UC2842/3/4/5UC3842/3/4/5UNITSMINTYPMAXMINTYPMAXOutput Section Output Low Level I SINK =20mA 0.10.40.10.4V I SINK =200mA 1.5 2.21.52.2V Output High Level I SOURCE =20mA 1313.51313.5V I SOURCE =200mA1213.51213.5V Rise Time T J =25°C,C L =1nF (Note 2)5015050150ns Fall TimeT J =25°C,C L =1nF (Note 2)5015050150nsUnder-voltage Lockout Section Start Threshold X842/415161714.51617.5V X843/57.88.49.07.88.49.0V Min.Operating Voltage After Turn On X842/4910118.51011.5V X843/57.07.68.27.07.68.2VPWM SectionMaximum Duty Cycle X842/395971009597100%X844/5464850474850%Minimum Duty Cycle 0%Total Standby Current Start-Up Current0.510.51mA Operating Supply CurrentV PIN 2=V PIN 3=0V11171117mA V CC Zener Voltage I CC =25mA 30343034VNote 3:Parameter measured at trip point of latch with V PIN 2=0.Note 4:Gain defined as:A VPIN VPIN VPIN V =≤≤∆∆130308;..Note 5:Adjust V CC above the start threshold before setting at 15V.Note 6:Output frequency equals oscillator frequency for the UC1842and UC1843.Output frequency is one half oscillator frequency for the UC1844and UC1845.ELECTRICAL CHARACTERISTICS:Unless otherwise stated,these specifications apply for −55°C ≤T A ≤125°C for the UC184X;−40°C ≤T A ≤85°C for the UC284X;0°C ≤T A ≤70°C for the 384X;V CC =15V (Note 5);R T =10k;C T =3.3nF,T A =T J.OUTPUT SATURATION CHARACTERISTICSERROR AMPLIFIER OPEN-LOOP FREQUENCY RESPONSESHUT DOWN TECHNIQUESUC3842/3/4/5 OFFLINE FLYBACKREGULATORPACKAGING INFORMATIONOrderable Device Status(1)PackageType PackageDrawingPins PackageQtyEco Plan(2)Lead/Ball Finish MSL Peak Temp(3)5962-8670401PA ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC 5962-8670401VPA ACTIVE CDIP JG81None Call TI Level-NC-NC-NC 5962-8670401VXA ACTIVE LCCC FK201None Call TI Level-NC-NC-NC 5962-8670401XA ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC 5962-8670402PA ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC 5962-8670402VPA ACTIVE CDIP JG81None Call TI Level-NC-NC-NC 5962-8670402VXA ACTIVE LCCC FK201None Call TI Level-NC-NC-NC 5962-8670402XA ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC 5962-8670403PA ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC 5962-8670403VPA ACTIVE CDIP JG81None Call TI Level-NC-NC-NC 5962-8670403VXA ACTIVE LCCC FK201None Call TI Level-NC-NC-NC 5962-8670403XA ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC 5962-8670404PA ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC 5962-8670404VPA ACTIVE CDIP JG81None Call TI Level-NC-NC-NC 5962-8670404VXA ACTIVE LCCC FK201None Call TI Level-NC-NC-NC 5962-8670404XA ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1842J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1842J883B ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1842JQMLV ACTIVE CDIP JG8None Call TI Call TIUC1842L883B ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1842W ACTIVE CFP W141None A42SNPB Level-NC-NC-NC UC1843J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1843J883B ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1843JQMLV ACTIVE CDIP JG8None Call TI Call TI UC1843L ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1843L883B ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1843LQMLV ACTIVE LCCC FK20None Call TI Call TI UC1843W ACTIVE CFP W141None A42SNPB Level-NC-NC-NC UC1844J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1844J883B ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1844JQMLV ACTIVE CDIP JG8None Call TI Call TI UC1844L ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1844L883B ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1844LQMLV ACTIVE LCCC FK20None Call TI Call TI UC1844W ACTIVE CFP W141None A42SNPB Level-NC-NC-NC UC1845J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1845J883B ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1845JQMLV ACTIVE CDIP JG8None Call TI Call TI UC1845L ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1845L883B ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1845LQMLV ACTIVE LCCC FK20None Call TI Call TI UC1845W ACTIVE CFP W141None A42SNPB Level-NC-NC-NCOrderable Device Status(1)PackageType PackageDrawingPins PackageQtyEco Plan(2)Lead/Ball Finish MSL Peak Temp(3)UC2842D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC2842D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC2842D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC2842DR ACTIVE SOIC D14None Call TI Call TIUC2842DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC2842DW ACTIVE SOIC DW1640None CU NIPDAU Level-2-220C-1YEAR UC2842DWTR ACTIVE SOIC DW162000None CU NIPDAU Level-2-220C-1YEAR UC2842J OBSOLETE CDIP JG8None Call TI Call TIUC2842N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC2842P OBSOLETE PDIP P8None Call TI Call TIUC2843D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC2843D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC2843D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC2843DR OBSOLETE SOIC D14None Call TI Call TIUC2843DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC2843J OBSOLETE CDIP JG8None Call TI Call TIUC2843N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC2844D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC2844D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC2844D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC2844DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC2844N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC2845D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC2845D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC2845D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC2845DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC2845J OBSOLETE CDIP JG8None Call TI Call TIUC2845N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC3842D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC3842D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC3842D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC3842DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC3842J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC3842N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC3842P OBSOLETE PDIP P8None Call TI Call TIUC3843D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC3843D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC3843D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC3843DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC3843J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NCOrderable Device Status(1)PackageType PackageDrawingPins PackageQtyEco Plan(2)Lead/Ball Finish MSL Peak Temp(3)UC3843N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC3843P OBSOLETE PDIP P8None Call TI Call TIUC3843QTR OBSOLETE PLCC FN20None Call TI Call TIUC3844D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC3844D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC3844D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC3844DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC3844J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NCUC3844N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC3844P OBSOLETE PDIP P8None Call TI Call TIUC3845D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC3845D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC3845D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC3845DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC3845J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NCUC3845N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC3845P OBSOLETE PDIP P8None Call TI Call TI(1)The marketing status values are defined as follows:ACTIVE:Product device recommended for new designs.LIFEBUY:TI has announced that the device will be 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UC3842开关电源各功能电路详解一、开关电源的电路组成开关电源的主要电路是由输入电磁干扰滤波器（EMI）、整流滤波电路、功率变换电路、PWM控制器电路、输出整流滤波电路组成。

辅助电路有输入过欠压保护电路、输出过欠压保护电路、输出过流保护电路、输出短路保护电路等。

开关电源的电路组成方框图如下：二、输入电路的原理及常见电路1、AC 输入整流滤波电路原理：①防雷电路：当有雷击，产生高压经电网导入电源时，由MOV1、MOV2、MOV3：F1、F2、F3、FDG1组成的电路进行保护。

当加在压敏电阻两端的电压超过其工作电压时，其阻值降低，使高压能量消耗在压敏电阻上，若电流过大，F1、F2、F3 会烧毁保护后级电路。

②输入滤波电路：C1、L1、C2、C3组成的双π型滤波网络主要是对输入电源的电磁噪声及杂波信号进行抑制，防止对电源干扰，同时也防止电源本身产生的高频杂波对电网干扰。

当电源开启瞬间，要对C5充电，由于瞬间电流大，加RT1（热敏电阻）就能有效的防止浪涌电流。

因瞬时能量全消耗在RT1电阻上，一定时间后温度升高后RT1阻值减小（RT1是负温系数元件），这时它消耗的能量非常小，后级电路可正常工作。

③整流滤波电路：交流电压经BRG1整流后，经C5滤波后得到较为纯净的直流电压。

若C5容量变小，输出的交流纹波将增大。

2、DC 输入滤波电路原理：①输入滤波电路：C1、L1、C2组成的双π型滤波网络主要是对输入电源的电磁噪声及杂波信号进行抑制，防止对电源干扰，同时也防止电源本身产生的高频杂波对电网干扰。

C3、C4 为安规电容，L2、L3为差模电感。

② R1、R2、R3、Z1、C6、Q1、Z2、R4、R5、Q2、RT1、C7组成抗浪涌电路。

在起机的瞬间，由于C6的存在Q2不导通，电流经RT1构成回路。

当C6上的电压充至Z1的稳压值时Q2导通。

如果C8漏电或后级电路短路现象，在起机的瞬间电流在RT1上产生的压降增大，Q1导通使Q2没有栅极电压不导通，RT1将会在很短的时间烧毁，以保护后级电路。

UC3842典型应用电路电路中的芯片有：UC3842 采用固定工作频率脉冲宽度可控调制方式，共有8 个引脚，各脚功能如下：①脚是误差放大器的输出端，外接阻容元件用于改善误差放大器的增益和频率特性；②脚是反馈电压输入端，此脚电压与误差放大器同相端的2.5V 基准电压进行比较，产生误差电压，从而控制脉冲宽度；③脚为电流检测输入端，当检测电压超过1V时缩小脉冲宽度使电源处于间歇工作状态；④脚为定时端，内部振荡器的工作频率由外接的阻容时间常数决定，f=1.8/(RT×CT)；⑤脚为公共地端；⑥脚为推挽输出端，内部为图腾柱式，上升、下降时间仅为50ns 驱动能力为±1A ；⑦脚是直流电源供电端，具有欠、过压锁定功能，芯片功耗为15mW；⑧脚为5V 基准电压输出端，有50mA 的负载能力。

电流控制型脉宽调制器UC3842工作原理及应用UC3842是美国Unitrode公司(该公司现已被TI公司收购)生产的一种高性能单端输出式电流控制型脉宽调制器芯片，可直接驱动双极型晶体管、MOSFEF 和IGBT 等功率型半导体器件，具有管脚数量少、外围电路简单、安装调试简便、性能优良等诸多优点，广泛应用于计算机、显示器等系统电路中作开关电源驱动器件。

1 UC3842 内部工作原理简介图1 示出了UC3842 内部框图和引脚图，UC3842 采用固定工作频率脉冲宽度可控调制方式，共有8 个引脚，各脚功能如下：①脚是误差放大器的输出端，外接阻容元件用于改善误差放大器的增益和频率特性；②脚是反馈电压输入端，此脚电压与误差放大器同相端的2.5V 基准电压进行比较，产生误差电压，从而控制脉冲宽度；③脚为电流检测输入端，当检测电压超过1V时缩小脉冲宽度使电源处于间歇工作状态；④脚为定时端，内部振荡器的工作频率由外接的阻容时间常数决定，f=1.8/(R T×C T)；⑤脚为公共地端；⑥脚为推挽输出端，内部为图腾柱式，上升、下降时间仅为50ns 驱动能力为±1A ；⑦脚是直流电源供电端，具有欠、过压锁定功能，芯片功耗为15mW；⑧脚为5V 基准电压输出端，有50mA 的负载能力。

UC3842组成的充电器电路
图1中C1、V1～V4、C2组成滤波整流电路，变压器T为高频变压器，V5、R2、C11组成功率开关管V7的保护电路，NF为供给IC电源的绕组。

单端输出IC为UC3842，其8脚输出5V基准电压，2脚为反相输入，1脚为放大器输出，4脚为振荡电容C9、电阻R7输入端，5脚为接地端，3脚为过流保护端，6脚为调宽单脉冲输出端，7脚为电源输入端。

R6、C7组成负反馈，IC启动瞬间由R1供给启动电压，电路启动后由NF产生电势经V6、C4、C5整流滤波后供给IC工作电压。

R12为过流保护取样电阻，V8、C3组成反激整流滤波输出电路。

R13为内负载，V9～V12及R14～R19组成发光管显示电路。

图1中V5、V6选用FR107，V8选用FR154，V7选用K792。

UC3842中文资料电路汇总1.上下切换式PWM输出：UC3842使用上下切换的PWM控制技术，可以实现高效率的能量转换，并能够适应不同负载的需求。

2.宽输入电压范围：UC3842工作电压范围广泛，通常为10V至30V，适用于不同的电源设计。

3.可调的频率和占空比：UC3842可以通过外接元件调节频率和占空比，以满足不同应用的要求。

4.内置反馈和误差放大器：UC3842具有内置的反馈和误差放大器，能够监测电压和电流，并进行精确的控制。

5.具有保护功能：UC3842具有过电流保护、过温保护和短路保护等功能，能够保护电源和负载免受损坏。

UC3842的应用主要包括开关电源和电源控制电路。

在开关电源中，UC3842可实现高效率的能量转换，通过精确的PWM控制，实现稳定的输出电压和电流。

在电源控制电路中，UC3842可用于控制电压和电流的调节、限制和保护，提高系统的稳定性和可靠性。

[电路图]该电路使用UC3842作为PWM控制器，R1和R2控制频率和占空比，R3和C1控制斜升沿和斜降沿，L1和C2构成滤波网络，C3用于反馈稳定。

D1和D2是脉冲变压器，用于提供输入电源，T1是功率开关管，用于控制电流。

此外，UC3842还可以与其他外围电路和器件配合使用，实现更多的功能和保护。

例如，可以通过使用外部电压反馈网络，实现电压调节和稳定；可以通过使用外部过流保护电路，实现过流保护和电流限制等。

总之，UC3842是一款功能强大的PWM控制器芯片，具有广泛的应用领域和灵活的设计特点。

无论是在开关电源还是电源控制电路中，UC3842都能够提供高效率、高可靠性和安全性的电源解决方案。

UC2842/3/4/5UC3842/3/4/5 Current Mode PWM ControllerFEATURES•Optimized For Off-line And DC To DC Converters•Low Start Up Current(<1mA)•Automatic Feed ForwardCompensation•Pulse-by-pulse Current Limiting •Enhanced Load ResponseCharacteristics•Under-voltage Lockout With Hysteresis•Double Pulse Suppression •High Current Totem PoleOutput•Internally Trimmed Bandgap Reference•500khz Operation•Low R O Error Amp DESCRIPTIONThe UC1842/3/4/5family of control ICs provides the necessary features to implement off-line or DC to DC fixed frequency current mode control schemes with a minimal external parts count.Internally implemented circuits include under-voltage lockout featuring start up current less than1mA,a precision reference trimmed for accuracy at the error amp input,logic to insure latched operation,a PWM comparator which also provides current limit control,and a totem pole output stage designed to source or sink high peak current.The output stage,suitable for driving N Channel MOSFETs,is low in the off state. Differences between members of this family are the under-voltage lockout thresholds and maximum duty cycle ranges.The UC1842and UC1844have UVLO thresholds of16V(on)and10V(off),ideally suited to off-line applications.The corresponding thresholds for the UC1843and UC1845are 8.4V and7.6V.The UC1842and UC1843can operate to duty cycles approaching100%.A range of zero to50%is obtained by the UC1844and UC1845by the addition of an internal toggle flip flop which blanks the output off every other clockcycle. BLOCK DIAGRAMUC3842/3/4/5 ABSOLUTE MAXIMUM RATINGS(Note1)Supply Voltage(Low Impedance Source) (30V)Supply Voltage(I CC<30mA).................Self LimitingOutput Current (1)Output Energy(Capacitive Load)....................5µJAnalog Inputs(Pins2,3)...................-0.3V to+6.3VError Amp Output Sink Current....................10mAPower Dissipation at T A≤25°C(DIL−8).................1WPower Dissipation at T A≤25°C(SOIC-14).........725mWStorage Temperature Range..............-65°C to+150°CJunction Temperature Range.............-55°C to+150°CLead Temperature(soldering,10seconds)...........300°CNote1:All voltages are with respect to Pin5.All currents are positive into the specified terminal.Consult Packaging Section of Databook for thermallimitations and considerations of packages.Package TA≤25°CPower RatingDerating FactorAbove TA≤25°CTA≤70°CPower RatingTA≤85°CPower RatingTA≤125°CPower RatingW700mW 5.5mW/°C452mW370mW150mW DISSIPATION RATING TABLEPARAMETERTEST CONDITIONSUC1842/3/4/5UC2842/3/4/5UC3842/3/4/5UNITSMINTYPMAXMINTYPMAXReference Section Output Voltage T J =25°C,I O =1mA 4.955.00 5.05 4.905.00 5.10V Line Regulation 12≤V IN ≤25V 620620mV Load Regulation 1≤I 0≤20mA 625625mV Temp.Stability (Note 2)(Note 7)0.20.40.20.4mV/°C Total Output Variation Line,Load,Temp.(Note 2)4.95.14.825.18V Output Noise Voltage 10Hz ≤f ≤10kHz,T J =25°C (Note2)5050µV Long Term Stability T A =125°C,1000Hrs.(Note 2)525525mV Output Short Circuit -30-100-180-30-100-180mAOscillator Section Initial Accuracy T J =25°C (Note 6)475257475257kHz Voltage Stability 12≤V CC ≤25V0.210.21%Temp.Stability T MIN ≤T A ≤T MAX (Note 2)55%Amplitude V PIN 4peak to peak (Note 2)1.71.7VError Amp Section Input Voltage V PIN 1=2.5V2.452.50 2.55 2.422.50 2.58V Input Bias Current -0.3-1-0.3-2µA A VOL2≤V O ≤4V 65906590dB Unity Gain Bandwidth (Note 2)T J =25°C 0.710.71MHz PSRR12≤V CC ≤25V60706070dB Output Sink Current V PIN 2=2.7V,V PIN 1=1.1V 2626mA Output Source Current V PIN 2=2.3V,V PIN 1=5V -0.5-0.8-0.5-0.8mA V OUT High V PIN 2=2.3V,R L =15k to ground 5656V V OUT LowV PIN 2=2.7V,R L =15k to Pin 80.71.10.71.1VCurrent Sense Section Gain(Notes 3and 4) 2.853 3.15 2.853 3.15V/V Maximum Input Signal V PIN 1=5V (Note 3)0.91 1.10.91 1.1V PSRR12≤V CC ≤25V (Note 3)(Note 2)7070dB Input Bias Current -2-10-2-10µA Delay to Output V PIN 3=0to 2V (Note 2)150300150300nsELECTRICAL CHARACTERISTICS:Unless otherwise stated,these specifications apply for -55°C ≤T A ≤125°C for theUC184X;-40°C ≤T A ≤85°C for the UC284X;0°C ≤T A ≤70°C for the 384X;V CC =15V (Note 5);R T =10k;C T =3.3nF,T A =T J.Note 2:These parameters,although guaranteed,are not 100%tested in production.Note 3:Parameter measured at trip point of latch with V PIN 2=0.Note 4:Gain defined asA VPIN VPIN VPIN V≤≤130308,.Note 5:Adjust V CC above the start threshold before setting at 15V.Note 6:Output frequency equals oscillator frequency for the UC1842and UC1843.Output frequency is one half oscillator frequency for the UC1844and UC1845.Note 7:Temperature stability,sometimes referred to as average temperature coefficient,is described by the equation:Temp Stability V max VREF min TJ max TJ min REF=−−()()()()V REF (max)and V REF (min)are the maximum and minimum reference voltages measured over the appropriate temperature range.Note that the extremes in voltage do not necessarily occur at the extremes in temperature.PARAMETERTEST CONDITIONUC1842/3/4/5UC2842/3/4/5UC3842/3/4/5UNITSMINTYPMAXMINTYPMAXOutput Section Output Low Level I SINK =20mA 0.10.40.10.4V I SINK =200mA 1.5 2.21.52.2V Output High Level I SOURCE =20mA 1313.51313.5V I SOURCE =200mA1213.51213.5V Rise Time T J =25°C,C L =1nF (Note 2)5015050150ns Fall TimeT J =25°C,C L =1nF (Note 2)5015050150nsUnder-voltage Lockout Section Start Threshold X842/415161714.51617.5V X843/57.88.49.07.88.49.0V Min.Operating Voltage After Turn On X842/4910118.51011.5V X843/57.07.68.27.07.68.2VPWM SectionMaximum Duty Cycle X842/395971009597100%X844/5464850474850%Minimum Duty Cycle 0%Total Standby Current Start-Up Current0.510.51mA Operating Supply CurrentV PIN 2=V PIN 3=0V11171117mA V CC Zener Voltage I CC =25mA 30343034VNote 3:Parameter measured at trip point of latch with V PIN 2=0.Note 4:Gain defined as:A VPIN VPIN VPIN V =≤≤∆∆130308;..Note 5:Adjust V CC above the start threshold before setting at 15V.Note 6:Output frequency equals oscillator frequency for the UC1842and UC1843.Output frequency is one half oscillator frequency for the UC1844and UC1845.ELECTRICAL CHARACTERISTICS:Unless otherwise stated,these specifications apply for −55°C ≤T A ≤125°C for the UC184X;−40°C ≤T A ≤85°C for the UC284X;0°C ≤T A ≤70°C for the 384X;V CC =15V (Note 5);R T =10k;C T =3.3nF,T A =T J.OUTPUT SATURATION CHARACTERISTICSERROR AMPLIFIER OPEN-LOOP FREQUENCY RESPONSESHUT DOWN TECHNIQUESUC3842/3/4/5 OFFLINE FLYBACKREGULATORPACKAGING INFORMATIONOrderable Device Status(1)PackageType PackageDrawingPins PackageQtyEco Plan(2)Lead/Ball Finish MSL Peak Temp(3)5962-8670401PA ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC 5962-8670401VPA ACTIVE CDIP JG81None Call TI Level-NC-NC-NC 5962-8670401VXA ACTIVE LCCC FK201None Call TI Level-NC-NC-NC 5962-8670401XA ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC 5962-8670402PA ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC 5962-8670402VPA ACTIVE CDIP JG81None Call TI Level-NC-NC-NC 5962-8670402VXA ACTIVE LCCC FK201None Call TI Level-NC-NC-NC 5962-8670402XA ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC 5962-8670403PA ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC 5962-8670403VPA ACTIVE CDIP JG81None Call TI Level-NC-NC-NC 5962-8670403VXA ACTIVE LCCC FK201None Call TI Level-NC-NC-NC 5962-8670403XA ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC 5962-8670404PA ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC 5962-8670404VPA ACTIVE CDIP JG81None Call TI Level-NC-NC-NC 5962-8670404VXA ACTIVE LCCC FK201None Call TI Level-NC-NC-NC 5962-8670404XA ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1842J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1842J883B ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1842JQMLV ACTIVE CDIP JG8None Call TI Call TIUC1842L883B ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1842W ACTIVE CFP W141None A42SNPB Level-NC-NC-NC UC1843J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1843J883B ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1843JQMLV ACTIVE CDIP JG8None Call TI Call TI UC1843L ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1843L883B ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1843LQMLV ACTIVE LCCC FK20None Call TI Call TI UC1843W ACTIVE CFP W141None A42SNPB Level-NC-NC-NC UC1844J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1844J883B ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1844JQMLV ACTIVE CDIP JG8None Call TI Call TI UC1844L ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1844L883B ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1844LQMLV ACTIVE LCCC FK20None Call TI Call TI UC1844W ACTIVE CFP W141None A42SNPB Level-NC-NC-NC UC1845J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1845J883B ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC1845JQMLV ACTIVE CDIP JG8None Call TI Call TI UC1845L ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1845L883B ACTIVE LCCC FK201None POST-PLATE Level-NC-NC-NC UC1845LQMLV ACTIVE LCCC FK20None Call TI Call TI UC1845W ACTIVE CFP W141None A42SNPB Level-NC-NC-NCOrderable Device Status(1)PackageType PackageDrawingPins PackageQtyEco Plan(2)Lead/Ball Finish MSL Peak Temp(3)UC2842D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC2842D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC2842D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC2842DR ACTIVE SOIC D14None Call TI Call TIUC2842DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC2842DW ACTIVE SOIC DW1640None CU NIPDAU Level-2-220C-1YEAR UC2842DWTR ACTIVE SOIC DW162000None CU NIPDAU Level-2-220C-1YEAR UC2842J OBSOLETE CDIP JG8None Call TI Call TIUC2842N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC2842P OBSOLETE PDIP P8None Call TI Call TIUC2843D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC2843D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC2843D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC2843DR OBSOLETE SOIC D14None Call TI Call TIUC2843DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC2843J OBSOLETE CDIP JG8None Call TI Call TIUC2843N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC2844D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC2844D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC2844D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC2844DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC2844N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC2845D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC2845D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC2845D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC2845DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC2845J OBSOLETE CDIP JG8None Call TI Call TIUC2845N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC3842D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC3842D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC3842D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC3842DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC3842J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NC UC3842N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC3842P OBSOLETE PDIP P8None Call TI Call TIUC3843D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC3843D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC3843D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC3843DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC3843J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NCOrderable Device Status(1)PackageType PackageDrawingPins PackageQtyEco Plan(2)Lead/Ball Finish MSL Peak Temp(3)UC3843N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC3843P OBSOLETE PDIP P8None Call TI Call TIUC3843QTR OBSOLETE PLCC FN20None Call TI Call TIUC3844D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC3844D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC3844D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC3844DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC3844J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NCUC3844N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC3844P OBSOLETE PDIP P8None Call TI Call TIUC3845D ACTIVE SOIC D1450None CU NIPDAU Level-1-220C-UNLIM UC3845D8ACTIVE SOIC D875None CU NIPDAU Level-1-220C-UNLIM UC3845D8TR ACTIVE SOIC D82500None CU NIPDAU Level-1-220C-UNLIM UC3845DTR ACTIVE SOIC D142500None CU NIPDAU Level-1-220C-UNLIM UC3845J ACTIVE CDIP JG81None A42SNPB Level-NC-NC-NCUC3845N ACTIVE PDIP P850Pb-Free(RoHS)CU SNPB Level-NC-NC-NC UC3845P OBSOLETE PDIP P8None Call TI Call TI(1)The marketing status values are defined as follows:ACTIVE:Product device recommended for new designs.LIFEBUY:TI has announced that the device will be discontinued,and a lifetime-buy period is in effect.NRND:Not recommended for new designs.Device is in production to support existing customers,but TI does not recommend using this part in a new design.PREVIEW:Device has been announced but is not in production.Samples may or may not be available.OBSOLETE:TI has discontinued the production of the device.(2)Eco Plan-May not be currently available-please check /productcontent for the latest availability information and additional product content details.None:Not yet available Lead(Pb-Free).Pb-Free(RoHS):TI's terms"Lead-Free"or"Pb-Free"mean semiconductor products that are compatible with the current RoHS requirements for all6substances,including the requirement that lead not exceed0.1%by weight in homogeneous materials.Where designed to be soldered at high temperatures,TI Pb-Free products are suitable for use in specified lead-free processes.Green(RoHS&no Sb/Br):TI defines"Green"to mean"Pb-Free"and in addition,uses package materials that do 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