UC3843AL-S08-T中文资料
UC3843应用
关断: 1)直接关闭电源——时间较慢 2)RC拉低——并不能确保关闭输出,曾经出现故障 3)将Vcomp脚拉低——公司的统一用法
基本应用——RC的选择
确定开关频率 f s 确定晶振频率 f osc
f osc = f s f osc = 2 f s
EE42-20 EE42(44501) 9 10
9 8 7 6 5 4 3 10 D610 1N4937LT
R601 100K/2W(014)
102M/1KV C612
NTC602
D605 MUR1560 C622 102M/1KV
1000U/200V(R)
D606
MUR860
P3
FC335/AIU
1K* R621 470K
C618 C619
220JA 104ZA R622 10K* R627 100K.1% R629
R626 10K.1%
CHGROFF
TLP 2 521
R619
3
510ohm
3 521
TLP
2
R627A 2K.1%
+12V GND CHGROFF SEL-147 SW1 CHGRHILW
R605 10/F
TX601 C621
472M/250V
C606
G
105K* 105K* 105K*
R617A R617
S Q602
47K* R607
SW1
R608A 0.5oHM/2W(R20) R608 0.3OHM/2W(R20) R609 0.3OHM/2W(R20)
C605 1U/275V(K)
UC3843AN中文资料
TJ = 25°C TA = Tlow to Thigh Frequency Change with Voltage (VCC = 12 V to 25 V) Frequency Change with Temperature TA = Tlow to Thigh
Vref Undervoltage
Lockout
Oscillator
+ − Error Amplifier
Latching PWM
GND 5(9) Pin numbers in parenthesis are for the D suffix SOIC−14 package.
VC
7(11) Output
These devices are available in an 8−pin dual−in−line plastic package as well as the 14−pin plastic surface mount (SOIC−14). The SOIC−14 package has separate power and ground pins for the totem pole output stage.
Operating Junction Temperature
Operating Ambient Temperature UC3842A, UC3843A UC2842A, UC2843A
Vin
− 0.3 to + 5.5 V
IO
10
mA
PD RqJA
PD RqJA
TJ TA
862 145
1.25 100 + 150
uc3843中文资料 (2)
UC3843中文资料简介UC3843是一种高性能固定频率电流模式PWM控制器。
它是专为开关电源和DC-DC转换器设计的,可提供快速且精确的响应。
UC3843在广泛的电源和应用中得到了广泛的应用,具有可靠性高、性能优越等特点。
本文档将详细介绍UC3843的特性、应用领域、电路原理和参数规格等相关信息。
特性1.工作电压范围:8V - 35V2.最大输出频率:500kHz3.可调或固定输出电压4.可调或固定输出电流5.内部电流检测和保护功能6.过温度保护7.低功耗待机模式应用领域UC3843广泛应用于以下领域:1.开关电源2.DC-DC转换器3.逆变器4.电池充电器5.照明系统6.电动机驱动器电路原理UC3843采用了固定频率PWM控制方式,通过周期性的开关MOSFET来控制电源输出。
其基本电路原理如下:UC3843基本电路原理图•Vin为输入电源电压,通常为DC电压•Vref为参考电压,可以通过外部电路调整来控制输出电压或电流•COMP为比较器输入引脚,用于比较反馈信号和参考电压的大小•PWM为PWM信号输出引脚,用于控制开关MOSFET的开关状态•Feedback为反馈信号输入引脚,用于监测输出电压或电流UC3843通过不断比较反馈信号和参考电压的大小,动态调整PWM信号的占空比,以达到稳定输出的目的。
同时,UC3843还具有内部电流检测和保护功能,可以保护电源和负载免受过电流的影响。
参数规格UC3843的主要参数规格如下:参数典型值工作电压范围8V - 35V输出频率范围100kHz - 500kHz输出电压范围0V - 30V输出电流范围0A - 3A参考电压 2.5V最大工作温度125°C待机模式静态功耗(最大)5mA使用注意事项在使用UC3843时,应注意以下事项:1.请严格按照UC3843的电气参数和工作条件进行设计和使用,避免超过其额定数值范围。
2.请注意电路的散热和绝缘设计,确保电路稳定、安全。
uc3843中文资料 (4)
UC3843中文资料1. 简介UC3843是一款集成了PWM控制电路的高性能电源管理芯片。
它能够通过自身的内部反馈环路来实现稳定的输出电压,并且可调节输出电压范围。
这使得UC3843非常适用于开关电源和DC-DC转换应用中。
UC3843具有低启动电流、内部锁死和内部软启动功能,能够有效地降低功耗和延长系统寿命。
此外,它还具有短路保护、过温保护和欠压保护功能,确保了系统的安全性和可靠性。
2. 特点•集成了PWM控制电路,适用于开关电源和DC-DC转换应用。
•可调节的输出电压范围,能够满足不同应用的需求。
•低启动电流,节省功耗,提高系统效率。
•内部锁死和软启动功能,保护系统并延长使用寿命。
•短路保护、过温保护和欠压保护功能,确保系统安全可靠。
3. 参数规格以下是UC3843的主要参数规格:•输入电压范围:5V至25V•输出电压范围:0V至24V•最大输出电流:1A•工作频率:50kHz至500kHz•工作温度范围:-40°C至125°C•封装:DIP-8、SOP-84. 应用示例UC3843广泛应用于各种开关电源和DC-DC转换器设计中。
以下是一些应用示例:4.1 5V至12V降压转换器UC3843可以用于设计一个从5V输入降压到12V输出的DC-DC转换器。
通过调节内部反馈环路,可以使输出电压保持稳定在12V。
此外,UC3843的低启动电流和软启动功能确保了系统的正常启动和运行。
4.2 24V恒流LED驱动器UC3843还可以用于设计一个24V恒流LED驱动器。
通过控制PWM信号的占空比,可以调节LED的亮度,并通过反馈电路实现恒流驱动。
短路保护和过温保护功能能够保护LED和驱动器的安全性。
4.3 太阳能充电控制器由于UC3843具有广泛的输入电压范围和可调节的输出电压范围,因此非常适合用于设计太阳能充电控制器。
通过控制PWM信号,可以实现对充电电流的精确控制,并通过反馈电路实现恒压和恒流充电。
UC3843D中文资料
Description
The UC3842/UC3843/UC3844/UC3845 are fixed frequencycurrent-mode PWM controller. They are specially designed for Off-Line and DC to DC converter applications with minimum external components. These integrated circuits feature a trimmed oscillator for precise duty cycle control, a temperature compensated reference, high gain error amplifier, current sensing comparator and a high current totempole output for driving a Power MOSFET. The UC3842 and UC3844 have UVLO thresholds of 16V (on) and 10V (off). The UC3843 and UC3845 are 8.5V(on) and 7.9V (off). The UC3842 and UC3843 can operate within 100% duty cycle. The UC3844 and UC3845 can operate with 50% duty cycle.
8
VREF
COMP 1
14 VREF
VFB 2
7
VCC
N/C
2
13
N/C
CURRENT SENSE
一种DCDC开关电源的模块化设计方法
DOI:10.16660/ki.1674-098X.2020.12.041一种DC/DC开关电源的模块化设计方法杨旭东(北京航天万源科技有限公司 北京 100176)摘 要:使用电流型控制器UC3843设计制做一款单端隔离型开关电源,着重论述了电源的模块化设计方法,将设计分解成多个基本功能模块进行设计,每个功能模块包含了相关的设计公式,前一模块的输出可以作为下一模块的输入,未知量尽量减到最少。
使整个设计过程连贯、合理、流畅。
模块化设计方法是电源设计的典型方法,可以应用到其它拓扑结构设计中。
关键词:电流型控制 DC/DC 模块化设计方法中图分类号:TM925 文献标识码:A 文章编号:1674-098X(2020)04(c)-0041-02UC3843是固定频率电流型控制器,可形成电压电流双环控制系统,提升开关电源性能,是较为实用的控制器。
1 电路原理采用UC3843设计的实用单端正激隔离电路见图1。
2 模块化设计电源输入18V~36V;输出5V/5A。
2.1 “黑箱”预估算(1)输出功率:P out=∑(V out×I out)=5V×5A=25W(2)输入功率:P in≈P out/ηest= 25W/0.8 =31.25W(ηest 预估效率)(3)最大平均输入电流I in(max)= P in/V in(min)=31.25W /18V≈1.74A,最小平均输入电流I in(min)= P in/V in(ma x)=31.25W/36V≈0.87A(4)输入电流峰值:Ipk=kPout/Vin(min),k=2.8,则Ipk=2.8×Pout/Vin(min)=2.8×25W/18V≈3.89A2.2 设计变压器(1)磁芯:选用Mn-Zn铁氧体材料。
结构可选用FEY 型。
(2)工作频率,工作最大磁感应强度不超过3000Gs,频率设300kHz。
(3)磁芯型号:面积乘积法:P s.t/K=(∑U p i(+)×I p i+∑U s i(+)×I s i)D,(P s.t变压器容量;K电压波形系数;U p i(+),U s i(+)一次或二次绕组的正电压幅值,i为绕组的标号;I p i,I s i一次、二次绕组的电流有效值;D占空比),铁心的有效横截面积Ae(mm2)与窗口面积A w(mm2)之积是选择磁芯型号的关键数据。
UC3842A-S08-T中文资料
UNISONIC TECHNOLOGIES CO., LTDUC3842A/3843A LINEAR INTEGRATED CIRCUITCURRENT MODE PWM CONTROL CIRCUITSDESCRIPTIONThe UTC UC3842A/3843A provide the necessary functions toimplement off-line or DC to DC fixed frequency current mode , controlled switching circuits with minimal external components.FEATURES*Low start up current ( Typical 0.12mA ) *Automatic feed forward compensation *Pulse-by-Pulse current limiting*Under-voltage lockout with hysteresis *Double pulse Suppression*High current totem pole output to drive MOSFET directly *Internally trimmed band gap reference *500kHz operation*Pb-free plating product number: UC3842ALUC3843ALORDERING INFORMATIONOrdering NumberNormal Lead Free PlatingPackage PackingUC3842A-D08-T UC3842AL-D08-T DIP-8 Tube UC3842A-S08-R UC3842AL-S08-R SOP-8 Tape Reel UC3842A-S08-T UC3842AL-S08-T SOP-8 Tube UC3843A-D08-T UC3843AL-D08-T DIP-8 Tube UC3843A-S08-R UC3843AL-S08-R SOP-8 Tape Reel UC3843A-S08-T UC3843AL-S08-T SOP-8 TubePIN CONFIGURATIONRT/CT Output GND12348756Current Sense COMPV FB V REFV CCBLOCK DIAGRAMVFB COMPCURRENT SENSERT/CT VccGNDOUTPUTVccGNDV REFABSOLUTE MAXIMUM RATINGS (Ta=25℃)PARAMETER SYMBOL RATINGS UNITSupply Voltage(Low Impedance Source) V CC 30 V Supply Voltage(I CC <30mA) V CC Self Limiting VOutput Current ( Peak ) I O(PEAK)1 A Output Energy (capacity Load) 5 µJ Analog Inputs(pin 2,3) V I(ANA) -0.3 ~ +6.3 V Error Amplifier Output Sink Current I SINK(EA) 10 mADIP-8 1.0 WPower Dissipation( Ta 25°C) SOP-8P D0.5 W Derated at Ta>25°C P D 8 mW/°C Junction Temperature T J +150 °C Storage Temperature T STG -65 ~ +150 °C Note Absolute maximum ratings are those values beyond which the device which the device could be permanentlydamaged. Absolute maximum ratings are stress ratings only and functional device operation is not implied.ELECTRICAL CHARACTERISTICS(0°C T a 70°C, V CC =15V, R T =10k Ω, C T =3.3nF, unless otherwise specified)PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNITReference Section Output Voltage V REF T J =25°C,I OUT =1mA 4.9 5 5.1 VLine Regulation ∆V REF 12≦V IN 25V6 20 mV Load Regulation ∆V REF 1≦I OUT =20mA6 25 mV Temperature Stability (Note 1) 0.2 0.4 mV/°C Total Output Variation Line, Load, Temp(Note 1) 4.82 5.18VOutput Noise Voltage Vosc 10Hz ≦f ≦10kHz,T J =25°C (Note 1)50 µV Long Term Stability Ta=25°C,1000Hrs(Note 1) 5 25 mV Output Short Circuit I SC -30 -100 -180mA Oscillator Section Initial Accuracy f T J =25°C 47 52 57 kHzVoltage Stability ∆f/∆Vcc 12≦V CC ≦25V0.2 1 % Temperature StabilityTmin ≦T a ≦Tmax(Note 1) 5 % Amplitude Vosc Vpin 4 peak to peak 1.7 V Error Amplifier Section Input Voltage V I(EA) Vpin 1=2.5V 2.42 2.50 2.58V Input Bias Current I I(BIAS) -0.3 -2 µAAVOL2 ≦V OUT ≦4V 60 90 dB Unity Gain Bandwidth T J =25°C (Note 1) 0.7 1 MHzPSRRI2≦V CC ≦25V 60 70 dB Output Sink Current I O(SINK) Vpin 2=2.7V,Vpin 1=1.1V 2 6 mA Output Source Current I O(SOURCE) Vpin 2=2.3V,Vpin 1=5V -0.5 -0.8 mA V OUT High V OH Vpin 2=2.3V, R L =15k Ω to GND 5 6 V V OUT Low V OL Vpin 2=2.7V,Vpin 1=1.1V 0.7 1.1 VELECTRICAL CHARACTERISTICS(Cont.)PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNITCurrent Sense sectionGain G V (Note 2,3) 2.85 3 3.15V/V Maximum Input signal V I(MAX) Vpin 1=5V( Note 2) 0.9 1 1.1 VPSRR12≦V CC ≦25V 70 dB Input Bias Current I BIAS -2 -10 µA Delay to Output Vpin 3=0 to 2V 150 300ns Output SectionI O(SINK)=20mA 0.1 0.4 VLow V OLI O(SINK)=200mA1.52.2 V I O(SOURCE)=20mA 13 13.5 VOutput LevelHigh V OHI O(SOURCE)=200mA 1213.5 V Rise Time t R T J =25°C,C L =1nF(Note 1) 50 150ns Fall Time t F T J =25°C,C L =1nF(Note 1) 50 150ns Under-Voltage Lockout Output Section3842A 14.5 16 17.5VStart Threshold 3843A V TH(ST)7.8 8.4 9 V3842A 8.5 10 11.5VMin. Operating Voltage 3843A V OPR(MIN) After Turn On7 7.6 8.2 VPWM SectionMAX D (MAX) 95 97 100%Duty CycleMin D (MIN)0 % Total Standby Current Start-up Current I ST 0.12 0.3 mA Operating Supply Current I CC(OPR) Vpin 2=Vpin 3=0V 11 17 mA V CC Zener Voltage V z I CC =25mA 34 V Note:1.These parameters, although guaranteed ,are not 100% tested in production.2. Parameters measured at trip point of latch with Vpin 2=0.3. Gain defined as:∆Vpin 1∆Vpin 3A=; 0 Vpin3 0.8V4. Adjust V CC above the start threshold before setting at 15V.OPEN-LOOP LABORATORY TEST FIXTUREV REFVccError Amp AdjustHigh peak current associated with capacity loads necessitate careful grounding techniques. Timing and bypass capacitors should be connected close to pin 5 in single point GND. The transistor and 5k Ω potentio-meter are used to sample the oscillator waveform and apply an adjustable Ramp to Pin 3.UNDER-VOLTAGE LOCKOUTVonVoffVccDuring Under-Voltage Lockout, the output driver is biased to a high impedance state. Pin 6 should be shunt to GND with a bleeder resistor to prevent activating the power switch with output leakage currents.ERROR AMPLIFIER CONFIGURATIONError amplifier can source or sink up to 0.5mACURRENT SENSE CIRCUITPeak current (Is) determined by the formula: Ismax=10V/Rs. A small RC filter be required to suppress switch transients.SLOPE COMPENSATIONA fraction of the oscillator ramp can be resistively summed with the current sense signal to provide slope compensation for converts requiring duty cycles over 50%.Note that capacitor C, forms a filter with R2 to suppress the leading edge switch spikes.OSCILLATOR SECTIONLarge RT Small CT Small RTLarge CTV4V4INTERNAL CLOCKINTERNAL CLOCKDead time vs. C T (R T >5k Ω) Timing Resistance vs. Frequency1101001101000.1t d (μs )CT (nF)10011061010101010R T (k Ω)Frequency (Hz)SHUTDOWN TECHNIQUESShutdown UTC UC3842A can be accomplished by two methods; either raise pin 3 above 1V or pull Pin 1 below a voltage two diode drops above ground. Either method caused the output of PWM comparator to be high(refer to block diagram).The PWM latch is reset dominant so that the output will remain low until the next clock cycle after the shutdown condition at pins 1 and/or 3 is removed . In one example, an externally latched shut –down may be accomplished by adding an SCR which be reset by cycling V CC below the lower UVLO threshold. At this point the reference turns off allowing the SCR to reset.TYPICAL CHARACTERISTICSOutput Saturation CharacteristicsError Amplifier Open-Loop Frequency Response1234S a t u r a t i o n V o l t a g e (V )Output Current(Sourse or Sink Current ) (A)71031061051041010210020406010080Frequency (Hz)V o l t a g e G a i n (d B )-180-135-90-450PH A S E (D e g r e e )V R E F(V )Temperature (℃)I s t a r t (m A )Temperature (℃)V REF Temperature DriftIstart Temperature Drift9I c c (m A )Temperature (℃)Icc Temperature Drift。
UC3843数据手册_引脚图_参数
Page
• Added Applications section, Device Information table, Pin Configuration and Functions section, Specifications section, Detailed Description section, Application and Implementation section, Power Supply Recommendations section, Layout section, Device and Documentation Support section, and Mechanical, Packaging, and Orderable Information section ................................................................................................................................................................. 1
4 Revision History
NOTE: Page numbers for previous revisions may differ from page numbers in the current version.
Changes from Revision D (July 2011) to Revision E
7.1 Absolute Maximum Ratings ...................................... 5 7.2 ESD Ratings.............................................................. 5 7.3 Recommended Operating Conditions....................... 5 7.4 Thermal Information .................................................. 6 7.5 Electrical Characteristics........................................... 6 7.6 Typical Characteristics .............................................. 8 8 Detailed Description .............................................. 9 8.1 Overview ................................................................... 9 8.2 Functional Block Diagram ......................................... 9 8.3 Feature Description................................................... 9 8.4 Device Functional Modes........................................ 12
UC3843应用电路
UC3843应用电路——15W三路输出DC/DC模块电源设计(1)2009-12-18 10:41:06 作者:来源:互联网浏览次数:1168 文字大小:【大】【中】【小】简介:UC3843应用电路——15W三路输出DC/DC模块电源设计本文介绍了一种UC3843控制的小功率多路DC/DC模块电源的详细设计过程,重点讨论了多路输出模块电源设计与 ...关键字:UC3843UC3843应用电路——15W三路输出DC/DC模块电源设计本文介绍了一种UC3843控制的小功率多路DC/DC模块电源的详细设计过程,重点讨论了多路输出模块电源设计与单路输出的不同,详细介绍了DC/DC模块电源中常用的新型芯片UC3843的外围电路参数的设计,给出了多路输出模块电源中变压器和耦合电感的设计过程及满足各项性能指标应注意的各种问题。
关键词:DC/DC变换器;多路输出;UC3843; 耦合电感引言DC/DC模块已被广泛应用于铁路通信、微波通讯、工业控制、船舶电子、航空电子、地面雷达、消防设备和医疗器械教学设备等诸多领域,其中有许多应用场合需要多路输出,如在单片机智能控制器中,单片机供电需要5V,而运放通常需要12V。
在设计多路输出时,有许多地方和单路输出不同,既要考虑变压器管脚限制、多副边变压器设计、各路的稳压电路实现,又要考虑每路轻载及满载的负载调整率,以及负载的交叉调节特性等。
本文将通过一个给单片机智能控制器供电的15W三路模块电源的设计实例来详细说明多路输出模块电源的设计。
图1多路输出开关电源原理图模块电源的工作原理本文针对单片机主板供电电源所设计的多路输出开关电源如图1所示,其中电感L201、L202、L203是耦合电感,L204是偏置绕组,由于变压器管脚限制,取自耦合电感。
电源工作原理如下:电路采用单端正激变换电路,当变换器接通电源时,输入直流电压经由电阻、12V稳压管D601和三极管Q601、Q602组成的电路稳压降压后, 启动UC3 843进入正常工作,偏置绕组L204的供电电路开始工作,输出经A4和C601整流及滤波后输出12V电压,高于自供电电压,使二极管A4反偏,启动电路停止工作。
uc3842中文资料
UC3842中文资料简介UC3842是一款广泛应用于开关电源控制器的集成电路。
它采用PWM(脉冲宽度调制)技术,通过控制开关管的导通和关断时间来控制输出电压。
UC3842具有高效率、稳定性好、可靠性高的特点,被广泛应用于各种类型的开关电源设计中。
功能特点•提供电压反馈回路控制功能,确保输出电压稳定;•集成了过载保护功能,可保护电路免受过大电流的损害;•支持上电软启动功能,以减少开关电源启动时的电流冲击;•支持电流限制功能,可确保输出电流不超过额定值;•支持频率调节功能,可根据需要调整开关频率;•支持自动关断功能,以降低功耗和热损耗。
电气参数UC3842的电气参数如下:•输入电压范围:3V至30V;•输出电压范围:0.1V至29.5V;•最大输出电流:1A;•工作温度范围:-40°C至125°C;•输出电压精度:±1%;•频率范围:50kHz至500kHz。
引脚功能UC3842的引脚功能如下:•VIN:输入电压;•GND:地;•FB:电压反馈;•COMP:比较器输入;•CS:电流限制;•RT/CT:外部频率调节;•VREF:参考电压;•OUT:开关输出。
应用领域由于UC3842具有高性能和多功能特点,使其在许多领域中得到广泛应用,包括:1.电源供应器:UC3842可用于设计各种类型的开关电源供应器,包括电视机、电脑、手机等的电源适配器;2.LED驱动器:UC3842可用于设计LED驱动器,使LED的亮度和稳定性得到有效控制;3.电动机控制器:UC3842可用于设计电动机控制器,使电动机的运行更加平稳;4.太阳能控制器:UC3842可用于设计太阳能控制器,提高太阳能的利用效率。
设计注意事项在设计中,需要注意以下几点:1.输入电压范围应在规定的3V至30V之间,超过此范围可能导致芯片损坏;2.输出电压和电流应在规定范围内,以确保正常工作;3.对于不同应用场景,频率和功率等参数需要根据具体情况进行调整;4.在使用过程中,应注意散热问题,避免芯片过热。
UC3842AD中文资料
©2000 Fairchild Semiconductor InternationalRev. 5.0Features•Low Start Current 0.2mA (typ)•Operating Range Up To 500KHz•Cycle by Cycle Current Limiting •Under V oltage Lock Out With Hysteresis •Short Shutdown Delay Time: typ.100ns •High Current Totem-pole Output •Output Swing Limiting: 22VDescriptionThe UC3842A/UC3843A are fixed PWM controller for Off-Line and DC to DC converter applications. The internal cir-cuits include UVLO, low start up current circuit, tempera-ture compensated reference, high gain error amplifier, current sensing comparator, and high current totem-pole out-put for driving a POWER MOSFET. Also UC3842A/UC3843A provide low start up current below 0.3mA and short shutdown delay time typ. 100ns. The UC3842A has UVLO threshold of 16V(on) and 10V(off). The UC3843A is 8.4V(on) and 7.6V(off). The UC3842A and UC3843A can operate within 100% duty cycle.8-DIP8-SOP11UC3842A/UC3843ASMPS ControllerUC3842A/UC3843AAbsolute Maximum RatingsParameter Symbol Value UnitSupply Voltage V CC30VOutput Current I O± 1AAnalog Inputs (pin 2, 3)V I(ANA)- 0.3 to 6.3VError Amp. Output Sink Current I SINK(EA)10mAPower Dissipation P D1WElectrical Characteristics(V CC = 15V, R T = 10KΩ, C T = 3.3nF, T A = 0°C to + 70°C ,Unless otherwise specified)Parameter Symbol Conditions Min.Typ.Max.Unit REFERENCE SECTIONOutput Voltage V REF T J = 25°C, I O = 1mA 4.9 5.0 5.1V Line Regulation∆V REF V CC = 12V to 25V-620mV Load Regulation∆V REF I O = 1mA to 20mA-625mV Output Short Circuit I SC T a = 25°C-- 100- 180mA OSILLATOR SECTIONInitial Accuracy F OSC T J = 25°C475257KHz Voltage Stability ST V V CC = 12V to 25V-0.21% Amplitude V OSC V PIN4, Peak to Peak- 1.7-V Discharge Current I DISCHG T J = 25°C, Pin4 = 2V7.88.38.8mA CURRENT SENSE SECTIONGain G V (NOTE 2, 3) 2.853 3.15V/V Maximum Input Signal V I(MAX) V PIN1 = 5V(NOTE 2)0.9 1.0 1.1V PSRR PSRR V CC = 12V to 25V (NOTE 1, 2)-70-dB Input Bias Current I BIAS--- 2-10uA Delay to Output T D V PIN3 = 0 V to 2V (NOTE1)-100200ns2UC3842A/UC3843A3Electrical Characteristics (Continued)(V CC = 15V , R T = 10K Ω, C T = 3.3nF, T A = 0°C to + 70°C, Unless otherwise specified)* Adjust V CC above the start threshold before setting at 15V Notes :1.These parameters, although guaranteed, are not 100% tested in production.2.Parameter measured at trip point of latch with V2 = 0V.3.Gain defined as: G V = ∆V PIN1∆V PIN3(V PIN3 = 0 to 0.8V)ParameterSymbolConditionsMin.Typ.Max.UnitERROR AMPLIFIER SECTION Input Voltage V I T PIN1 = 2.5V2.42 2.50 2.58V Input Bias Current I BIAS ---0.3- 2uA Open Loop Gain G VO V O = 2V to 4V (NOTE 1)6590-dB Unity Gain Bandwidth GBW T J = 25°C (NOTE 1)0.71-MHz PSRRPSRR V CC = 12V to 25V (NOTE 1)6070-dB Output Sink Current I SINK V PIN2 = 2.7V V PIN1 = 1.1V 26-mA Output Source Current I SOURCE V PIN2 = 2.3V V PIN1 = 5.0V -0.5-0.8-mA Output High Voltage V OH V PIN2 = 2.3VR1 = 15K Ω to GND 56-V Output Low Voltage V OLV PIN2 = 2.7VR1 = 15K Ω to Pin8-0.81.1VOUTPUT SECTION Output Low Level V OL I SINK = 20mA -0.10.4V I SINK = 200mA - 1.5 2.2V Output High Level V OH I SOURCE = 20mA 1313.5-V I SOURCE = 200mA1213.5-V Rise Time t R T J = 25°C , C1 = 1nF (NOTE 1)-40100ns Fall Timet F T J = 25°C , C1 = 1nF (NOTE 1)-40100ns Output Voltage Swing LimitV OLIMV CC = 27V, C1 = 1nF -22-V UNDER VOLTAGE LOCKOUT SECTION Start Threshold V TH UC3842A 151617V UC3843A 7.88.49.0V Min. Operating Voltage ( After turn on )V TLUC3842A 91011V UC3843A7.07.68.2V PWM SECTION Maximum Duty Cycle D MAX UC3842A/UC3843A9496100%Minimum Duty CycleD MIN ---0%TOTAL STANDBY CURRENT Start-Up CurrentI ST --0.20.4mA Operating Supply Current I CC V PIN2 = V PIN3 = 0V -1117mA V CC Zener VoltageV Z I CC = 25mA-29-VUC3842A/UC3843AMechanical DimensionsPackage8-DIP4UC3842A/UC3843A Mechanical Dimensions (Continued)Package8-SOP5UC3842A/UC3843A6Ordering InformationProduct Number Package Operating TemperatureUC3842AN 8 DIP 0 ~ + 70°CUC3842AD 8 SOP UC3843AN 8 DIP UC3843AD8 SOPUC3842A/UC3843A7UC3842A/UC3843A7/12/00 0.0m 001Stock#DSxxxxxxxx” 2000 Fairchild Semiconductor InternationalLIFE SUPPORT POLICYFAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD SEMICONDUCTOR INTERNATIONAL. As used herein:1.Life support devices or systems are devices or systemswhich, (a) are intended for surgical implant into the body, or (b) support or sustain life, and (c) whose failure to perform when properly used in accordance with instructions for use provided in the labeling, can bereasonably expected to result in a significant injury of the user.2. A critical component in any component of a life supportdevice or system whose failure to perform can bereasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness.。
基于UC3843的升压开关电源
UC3843的应用1. UC3843是高性能固定频率电流模式控制器专为离线和直线至直流变换器应用而设计,为设计人员提供只需最少外部元件就能获得成本效益高的解决方案。
这些集成电路具有可微调的振荡器、能进行精确的占空比控制、温度补偿的参考、高效益误差放大器。
电流取样比较器和大电流图腾柱式输出,是驱动功率MOSFET 的理想器件。
UC3843引脚图如图1所示。
图1 UC3843引脚图UC3843应用原理图如图2 所示。
C 1104C 22.7n FC 3104C 4104C 5100u FC 6471C 7103C 8300C 9103+C 101000u FR 112k ΩR 21k ΩR 310ΩR 4470k ΩR 528k ΩR 62k ΩR 70.1Ω17645382U 1U C3843Q 1IRF 540V CCR p 12k ΩD 1FR 157L11.03mHO UT图2 UC3843应用原理图该电路是使用UC3843制作的Boost 升压电路。
输入电压是12V ,输出电压为30.9V ,输出电流为40mA 。
工作频率由1R ,2C 确定。
1R 在大于5k Ω时,工作频率可由下式确定:2121C R f π=。
反馈分压由1p R ,5R 和6R 构成。
反馈输入电压为2.5V ,经计算,6R 取2k Ω,5R 取28k Ω,1p R 取1k Ω。
调试时,调节1p R ,使输出电压为30.9V 。
3R 为场效应管门极限流电阻。
4R ,7C ,8C 构成误差放大器的频率补偿网络。
2R ,6C 构成RC 滤波器,防止限流电阻7R 上的噪声使UC3843产生误保护操作。
3C ,4C 为退耦电容,5C 为旁路电容。
以减小开关噪声对供电电源的影响。
1C 为退耦电容,减小开关噪声对UC3843输出基准源的影响。
9C 为退耦电容,减小开关噪声对误差放大器的影响。
电流连续条件下PFC 电感可由下式确定。
⑴ 确定输出电压U o输入电网电压一般都有一定的变化范围(U in ±Δ%),为了输入电流很好地跟踪输入电压,Boost 级的输出电压应当高于输入最高电压的峰值,但因为功率耐压由输出电压决定,输出电压一般是输入最高峰值电压的1.05~1.1倍。
uc3843中文资料
UC3843中文资料1. 引言UC3843是一种通用型的PWM控制器,广泛应用在各种开关电源和其他电源应用中。
本文将介绍UC3843的主要特性、工作原理和典型应用。
2. 主要特性•输入电压范围:4.5V至35V•输出电压范围: 0V至30V•输出电流范围:1A至200A•PWM频率范围:30 kHz至400 kHz•内置过压保护和短路保护功能3. 工作原理UC3843主要通过内部误差放大器和PWM比较器实现电压反馈控制和当前模式控制。
其基本工作原理如下: 1. 输入电压通过限流电阻限制电流,并与内部基准电压进行比较。
2.误差放大器将比较结果放大,并通过PWM比较器和锁相环控制产生PWM信号。
3. PWM信号经过漏极极限控制电路保护驱动电路,控制输出电压和输出功率。
4. 典型应用UC3843广泛应用于各种开关电源和其他电源应用中,以下是一些典型应用示例: ### 4.1 开关电源 UC3843作为PWM控制器,可以用于设计各种开关电源,如离线开关电源、DC/DC变换器和AC/DC变换器。
其稳定的工作性能和广泛的输入电压范围使其在电源设计中非常有用。
### 4.2 LED驱动器UC3843可以应用于LED照明领域,用于设计LED驱动器。
LED驱动器通常需要稳定的电流输出,通过控制UC3843的PWM信号,可以实现对LED电流的精确控制。
### 4.3 电动车充电器 UC3843也可以应用于电动车充电器的设计中。
通过控制UC3843的PWM信号和电流反馈回路,可以实现对电池充电的精确控制,提高充电效率和安全性。
5. 优缺点UC3843作为一种通用型PWM控制器,具有以下优点: - 广泛的应用范围,适用于各种电源应用。
- 宽输入电压范围和稳定的工作性能。
- 内置过压和短路保护功能,提高系统的可靠性和安全性。
然而,UC3843也有一些缺点: - 整体芯片成本较高,不适用于低成本应用。
- 对于初次使用者而言,上手难度较大,需要了解一些电源设计的基础知识。
UC3843
使用UC3843 组成小功率开关电源(图)2007-2-28 9:59:24 电源在线开关电源具有工频变压器所不具备的优点,新型、高效、节能的开关电源代表着稳压电源的发展方向,因为开关电源内部工作于高频率状态,本身的功耗很低,电源效率就可做得较高,一般均可做到80%,甚至接近90%。
这样高的效率不是普通工频变压器稳压电源所能比拟的。
开关电源常用的单端或双端输出脉宽调制(PWM),省去了笨重的工频变压器,可制成几瓦至几千瓦的电源。
用于脉宽调制的集成电路很多,我们现在介绍的是UC38 43集成电路的一般特性及由它组成小功率开关电源的方法。
UC3843更详细的资料可参见其数据手册。
(UC3842_UC3843_UC3844_UC3845参考资料)[1].UC3843的主要特性UC3842-UC3845的外形图UC3843是近年来问世的新型脉宽调制集成电路,它具有功能全,工作频率高,引脚少外围元件简单等特点,它的电压调整率可达0.01%V,非常接近线性稳压电源的调整率。
工作频率可达500kHz,启动电流仅需1mA,所以它的启动电路非常简单。
下面是它的主要特性:最优化的离线DC-DC变换器低静态电流(1mA)快速自动补偿电路单步脉冲控制电路增强负载回馈特性断电停滞特性双脉冲抑制大电流标识输出内置能隙参考电压500kHz的工作频率低Ro过零放大器[2].UC3843的工作原理UC3843有4种封装形式,一种是14pin双列直插和SOP-14,另一种是8pin双列直插和SOP-8。
我们以最简的8pin封装简述其工作原理。
[IMG]20072289575883293.gif[/IM G] pin(1)是补偿端,外接电阻电容元件以补偿误差放大器的频率特性。
第(2)脚是反馈端,将取样电压加至误差放大器的反相输入端,再与同相输入端的基准电压进行比较,输出误差控制电压。
第(3)脚接过流检测电阻,组成过流保护电路。
RT/RC为锯齿波振荡器的定时电阻和电容的公共端,内部基准电压为VREF=5V。
UCC3583中文资料
Switch Mode Secondary Side Post Regulator
UCC1583 UCC2583 UCC3583
FEATURES • Precision Secondary Side Post
Regulation for Multiple Output Power Supplies
ELECTRICAL CHARACTERISTICS: Unless otherwise stated, these specifications apply for TA = –55°C to 125°C for
UCC1583, –40°C to 85°C for UCC2583, and 0°C to 70°C for UCC3583; VDD = 12V, RT = 60k, CT = 200pF, TA = TJ.
• Average Current Limiting Loop
DESCRIPTION
The UCC3583 is a synchronizable secondary side post regulator for precision regulation of the auxiliary outputs of multiple output power supplies. It contains a leading edge pulse width modulator, which generates the gate drive signal for a FET power switch connected in series with the rectifying diode. The turn-on of the power switch is delayed from the leading edge of the secondary power pulse to regulate the output voltage. The UCC3583 contains a ramp generator slaved to the secondary power pulse, a voltage error amplifier, a current error amplifier, a PWM comparator and associated logic, a gate driver, a precision reference, and protection circuitry.
uc3843中文资料
UC3843固定频率电流模式控制器型号:UC3843A封装:DIP8主要应用:开关电源UC3842 、UC3843 是高性能固定频率电流模式控制器专为离线和直流至直流变换器应用而设计,为设计人员提供只需最少外部元件就能获得成本效益高的解决方案。
这些集成电路具有可微调的振荡器、能进行精确的占空比控制、温度补偿的参考、高增益误差放大器。
电流取样比较器和大电流图腾柱式输出,是驱动功率MOSFET的理想器件。
其它的保护特性包括输入和参考欠压锁定,各有滞后、逐周电流限制、可编程输出静区时间和单个脉冲测量锁存。
UC3842A 有16V(通)和10 伏(断)低压锁定门限,十分适合于离线变换器。
UC3843A是专为低压应用设计的,低压锁定门限为8.5伏(通)和7.6V(断)。
特点:微调的振荡器放电电流,可精确控制占空比.电流模式工作到500KHZ自动前馈补偿锁存脉宽调制,可逐周限流内部微调的参考电压,带欠压锁定大电流图腾柱输出欠压锁定,带滞后低启动和工作电流直接与安森美半导体的SENSEFET产品接口引脚图 引脚功能 引脚功能说明8管脚 14管脚1 1 补偿该管脚为误差放大器输出,并可用于环路补偿。
2 3 电压反馈 该管脚是误差放大器的反相输入端,通常通过一个电阻分压器连至开关电源输出。
3 5 电流取样 一个正比于电感器电流的电压接至此输入,脉宽调制器使用此信息中止输出开关的导通。
4 7 RT/CT通过将电阻RT 连接至Vref 以及电容CT连接至地,使振荡器频率和最大输出占空比可调。
工作频率可达500kHz 。
5 - 地该管脚是控制电路和电源的公共地(仅对8管脚封装如此)6 10 输出该输出直接驱动功率MOSFET的栅极,高达1.OA 的峰值电流经此管脚拉和灌。
7 12 VCC 该管脚是控制集成电路的正电源。
8 14 Vref该管脚为参考输出,它通过电阻RT向电容CT提供充电电流。
8 电源地该管脚是一个连回至电源的分离电源地返回端(仅14 管脚封装如此),用于减少控制电路中开关瞬态噪声的影响。
uc3843系列频率计算[整理版]
![uc3843系列频率计算[整理版]](https://img.taocdn.com/s3/m/123cd8740a1c59eef8c75fbfc77da26925c59679.png)
UC3842/3系列频率计算许多资料上都写有UC3842/3的频率计算公式,有的资料上为:1.72/Rt×Ct;也有的资料上为:1.8/Rt×Ct,其实这些公式都为近似值,条件为Rt>5K时;如果Rt<5K又怎么算呢。
其实我们可以根据3842资料上关于振荡器部分的说明,就可以比较准确的计算频率,而不用管Rt的值是否大于5K。
UC3842器件规格书上关于振荡器的说明如下:下面的图是根据上面的说明而画出的:充电时放电时原理说明:电容Ct由VREF经Rt充电,充电至2.8V,再由UC3842内部的一个Id恒流源(Id的值可以在3842规格书上查)给Ct放电,放电至1.2V。
振荡脚第4脚波形如下:现在我们就有多种方法可以列出充电及放电时的公式了这里根据比较简单的三要素法列出公式充电时: τt e --+=)52.1(58.2这里τ=Rt*Ct代入上面的公式可得:on Ct *Rt *0.5465t T ==放电时:由于电容在通过内部恒流源放电的同时也通过Rt 在充电,如下: τt e Rt Id Rt Id ---=--)8.25(2.15查表Id 的值如下:Id 取8.3mA ,可得:Toff Rt Id Rt Id Ct Rt t =---=2.2*8.3*ln ** 由于2.2*8.3*ln 5465.0111---=+==Rt Id Rt Id RtCt RtCt Toff Ton T f下面用Excel 做一个表格,并举例说明,充电 放电 1.2V 2.8V为方便大家的计算,可以在上面的表格中直接输入振荡电阻及电容的值,就可以自动计算出频率及开环占空比。
将充电的时间与放电的时间加起来即为振荡周期,这样我们就计算出了振荡频率,并且由于放电的时间为死区时间,还知道了IC可以输出的最大占空比,这对于在正激电路中使用UC3842系列限制开环占空比很有用。
如果在UC3842的Pin3与Pin4脚之间加了RC补偿,则实际振荡频率要比计算出的频率低。
UC3842
UNISONIC TECHNOLOGIES CO., LTDUC3842A/3843A LINEAR INTEGRATED CIRCUITCURRENT MODE PWMCONTROL CIRCUITSDESCRIPTIONThe UTC UC3842A/3843A provide the necessary functions toimplement off-line or DC to DC fixed frequency current mode ,controlled switching circuits with minimal external components.FEATURES*Low Start Up Current ( Typical 0.12mA )*Automatic Feed Forward Compensation*Pulse-by-Pulse Current Limiting*Under-voltage Lockout with Hysteresis*Double Pulse Suppression*High Current Totem Pole Output to Drive MOSFET Directly*Internally Trimmed Band Gap Reference*500kHz OperationORDERING INFORMATIONOrdering NumberPackage Packing Normal Lead Free Plating Halogen FreeUC3842A-D08-T UC3842AL-D08-T UC3842AP-D08-T DIP-8 TubeReel UC3842A-S08-R UC3842AL-S08-R UC3842AP-S08-R SOP-8 Tape UC3842A-S08-T UC3842AL-S08-T UC3842AP-S08-T SOP-8 Tube UC3843A-D08-T UC3843AL-D08-T UC3843AP-D08-T DIP-8 TubeReel UC3843A-S08-R UC3843AL-S08-R UC3843AP-S08-R SOP-8 Tape UC3843A-S08-T UC3843AL-S08-T UC3843AP-S08-T SOP-8 TubePIN CONFIGURATIONRT/CTOutput GNDCurrent SenseCOMPV FBV REF V CCBLOCK DIAGRAMVFB COMPCURRENT SENSERT/CT VccGNDOUTPUTVccGNDVREFABSOLUTE MAXIMUM RATINGS (Ta=25℃)PARAMETER SYMBOL RATINGS UNITSupply Voltage(Low Impedance Source) V CC 30 V Supply Voltage(I CC <30mA) V CC Self Limiting VOutput Current ( Peak ) I O(PEAK) ±1 AOutput Energy (capacity Load) 5 μJ Analog Inputs(pin 2,3) V I(ANA) -0.3 ~ +6.3 V Error Amplifier Output Sink Current I SINK(EA) 10 mADIP-8 1.0 WPower Dissipation( Ta ≦25°C) SOP-8P D0.5 W Derated at Ta>25°C P D 8 mW/°C Junction Temperature T J +150 °C Storage Temperature T STG -65 ~ +150 °C Note Absolute maximum ratings are those values beyond which the device which the device could be permanentlydamaged. Absolute maximum ratings are stress ratings only and functional device operation is not implied.ELECTRICAL CHARACTERISTICS(0°C ≦T a ≦70°C, V CC =15V, R T =10k Ω, C T =3.3nF, unless otherwise specified)PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNITReference Section Output Voltage V REF T J =25°C,I OUT =1mA 4.9 5 5.1 VLine Regulation ΔV REF12≦V IN 25V 6 20 mV Load Regulation ΔV REF1≦I OUT =20mA 6 25 mV Temperature Stability (Note 1) 0.2 0.4 mV/°C Total Output Variation Line, Load, Temp(Note 1) 4.82 5.18VOutput Noise Voltage Vosc10Hz ≦f ≦10kHz,T J =25°C (Note 1) 50 μV Long Term Stability Ta=25°C,1000Hrs(Note 1) 5 25 mV Output Short Circuit I SC -30 -100 -180mA Oscillator Section Initial Accuracy f T J =25°C 47 52 57 kHzVoltage Stability Δf/ΔVcc 12≦V CC ≦25V0.2 1 % Temperature StabilityTmin ≦T a ≦Tmax(Note 1) 5 % Amplitude Vosc Vpin 4 peak to peak 1.7 V Error Amplifier Section Input Voltage V I(EA) Vpin 1=2.5V 2.42 2.50 2.58V Input Bias Current I I(BIAS) -0.3 -2 μAAVOL2 ≦V OUT ≦4V 60 90 dB Unity Gain Bandwidth T J =25°C (Note 1) 0.7 1 MHzPSRRI2≦V CC ≦25V 60 70 dB Output Sink Current I O(SINK) Vpin 2=2.7V,Vpin 1=1.1V 2 6 mA Output Source Current I O(SOURCE)Vpin 2=2.3V,Vpin 1=5V -0.5 -0.8 mA V OUT High V OH Vpin 2=2.3V, R L =15k Ω to GND 5 6 V V OUT Low V OL Vpin 2=2.7V,Vpin 1=1.1V 0.7 1.1 VELECTRICAL CHARACTERISTICS(Cont.)PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNITCurrent Sense sectionGain G V (Note 2,3) 2.85 3 3.15V/V Maximum Input signal V I(MAX) Vpin 1=5V( Note 2) 0.9 1 1.1 VPSRR12≦V CC ≦25V 70 dB Input Bias Current I BIAS -2 -10 μA Delay to Output Vpin 3=0 to 2V 150 300ns Output SectionI O(SINK)=20mA 0.1 0.4 VLow V OLI O(SINK)=200mA1.52.2 V I O(SOURCE)=20mA 13 13.5 VOutput LevelHigh V OHI O(SOURCE)=200mA 1213.5 V Rise Time t R T J =25°C,C L =1nF(Note 1) 50 150ns Fall Time t F T J =25°C,C L =1nF(Note 1) 50 150ns Under-Voltage Lockout Output Section3842A 14.5 16 17.5VStart Threshold 3843A V TH(ST)7.8 8.4 9 V3842A 8.5 10 11.5VMin. Operating Voltage 3843A V OPR(MIN) After Turn On7 7.6 8.2 VPWM SectionMAX D (MAX) 95 97 100%Duty CycleMin D (MIN)0 % Total Standby Current Start-up Current I ST 0.12 0.3 mA Operating Supply Current I CC(OPR) Vpin 2=Vpin 3=0V 11 17 mA V CC Zener Voltage V z I CC =25mA 34 V Note:1.These parameters, although guaranteed ,are not 100% tested in production.2. Parameters measured at trip point of latch with Vpin 2=0.3. Gain defined as:4. Adjust V CC above the start threshold before setting at 15V.OPEN-LOOP LABORATORY TEST FIXTUREHigh peak current associated with capacity loads necessitate careful grounding techniques. Timing and bypass capacitors should be connected close to pin 5 in single point GND. The transistor and 5kΩ potentio-meter are used to sample the oscillator waveform and apply an adjustable Ramp to Pin 3.UNDER-VOLTAGE LOCKOUTDuring Under-Voltage Lockout, the output driver is biased to a high impedance state. Pin 6 should be shunt to GND with a bleeder resistor to prevent activating the power switch with output leakage currents.ERROR AMPLIFIER CONFIGURATIONError amplifier can source or sink up to 0.5mACURRENT SENSE CIRCUITPeak current (Is) determined by the formula: Ismax=10V/Rs. A small RC filter be required to suppress switch transients.SLOPE COMPENSATIONA fraction of the oscillator ramp can be resistively summed with the current sense signal to provide slope compensation for converts requiring duty cycles over 50%.Note that capacitor C, forms a filter with R2 to suppress the leading edge switch spikes.OSCILLATOR SECTIONDead time vs. C T (R T >5k Ω) Timing Resistance vs.Frequencyt d (μs )R T (k Ω)SHUTDOWN TECHNIQUESShutdown UTC UC3842A can be accomplished by two methods; either raise pin 3 above 1V or pull Pin 1 below a voltage two diode drops above ground. Either method caused the output of PWM comparator to be high(refer to block diagram).The PWM latch is reset dominant so that the output will remain low until the next clock cycle after the shutdown condition at pins 1 and/or 3 is removed . In one example, an externally latched shut –down may be accomplished by adding an SCR which be reset by cycling V CC below the lower UVLO threshold. At this point the reference turns off allowing the SCR to reset.TYPICAL CHARACTERISTICSOutput Saturation CharacteristicsError Amplifier Open-Loop FrequencyResponseS a t u r a t i o n V o l t a g e (V)V o l t a g e G a i n (d B )P H A S E(D eg r e e )Temperature (℃)Temperature (℃)V REF Temperature DriftIstart Temperature Drift。
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UNISONIC TECHNOLOGIES CO., LTDUC3842A/3843A LINEAR INTEGRATED CIRCUITCURRENT MODE PWM CONTROL CIRCUITSDESCRIPTIONThe UTC UC3842A/3843A provide the necessary functions toimplement off-line or DC to DC fixed frequency current mode , controlled switching circuits with minimal external components.FEATURES*Low start up current ( Typical 0.12mA ) *Automatic feed forward compensation *Pulse-by-Pulse current limiting*Under-voltage lockout with hysteresis *Double pulse Suppression*High current totem pole output to drive MOSFET directly *Internally trimmed band gap reference *500kHz operation*Pb-free plating product number: UC3842ALUC3843ALORDERING INFORMATIONOrdering NumberNormal Lead Free PlatingPackage PackingUC3842A-D08-T UC3842AL-D08-T DIP-8 Tube UC3842A-S08-R UC3842AL-S08-R SOP-8 Tape Reel UC3842A-S08-T UC3842AL-S08-T SOP-8 Tube UC3843A-D08-T UC3843AL-D08-T DIP-8 Tube UC3843A-S08-R UC3843AL-S08-R SOP-8 Tape Reel UC3843A-S08-T UC3843AL-S08-T SOP-8 TubePIN CONFIGURATIONRT/CT Output GND12348756Current Sense COMPV FB V REFV CCBLOCK DIAGRAMVFB COMPCURRENT SENSERT/CT VccGNDOUTPUTVccGNDV REFABSOLUTE MAXIMUM RATINGS (Ta=25℃)PARAMETER SYMBOL RATINGS UNITSupply Voltage(Low Impedance Source) V CC 30 V Supply Voltage(I CC <30mA) V CC Self Limiting VOutput Current ( Peak ) I O(PEAK)1 A Output Energy (capacity Load) 5 µJ Analog Inputs(pin 2,3) V I(ANA) -0.3 ~ +6.3 V Error Amplifier Output Sink Current I SINK(EA) 10 mADIP-8 1.0 WPower Dissipation( Ta 25°C) SOP-8P D0.5 W Derated at Ta>25°C P D 8 mW/°C Junction Temperature T J +150 °C Storage Temperature T STG -65 ~ +150 °C Note Absolute maximum ratings are those values beyond which the device which the device could be permanentlydamaged. Absolute maximum ratings are stress ratings only and functional device operation is not implied.ELECTRICAL CHARACTERISTICS(0°C T a 70°C, V CC =15V, R T =10k Ω, C T =3.3nF, unless otherwise specified)PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNITReference Section Output Voltage V REF T J =25°C,I OUT =1mA 4.9 5 5.1 VLine Regulation ∆V REF 12≦V IN 25V6 20 mV Load Regulation ∆V REF 1≦I OUT =20mA6 25 mV Temperature Stability (Note 1) 0.2 0.4 mV/°C Total Output Variation Line, Load, Temp(Note 1) 4.82 5.18VOutput Noise Voltage Vosc 10Hz ≦f ≦10kHz,T J =25°C (Note 1)50 µV Long Term Stability Ta=25°C,1000Hrs(Note 1) 5 25 mV Output Short Circuit I SC -30 -100 -180mA Oscillator Section Initial Accuracy f T J =25°C 47 52 57 kHzVoltage Stability ∆f/∆Vcc 12≦V CC ≦25V0.2 1 % Temperature StabilityTmin ≦T a ≦Tmax(Note 1) 5 % Amplitude Vosc Vpin 4 peak to peak 1.7 V Error Amplifier Section Input Voltage V I(EA) Vpin 1=2.5V 2.42 2.50 2.58V Input Bias Current I I(BIAS) -0.3 -2 µAAVOL2 ≦V OUT ≦4V 60 90 dB Unity Gain Bandwidth T J =25°C (Note 1) 0.7 1 MHzPSRRI2≦V CC ≦25V 60 70 dB Output Sink Current I O(SINK) Vpin 2=2.7V,Vpin 1=1.1V 2 6 mA Output Source Current I O(SOURCE) Vpin 2=2.3V,Vpin 1=5V -0.5 -0.8 mA V OUT High V OH Vpin 2=2.3V, R L =15k Ω to GND 5 6 V V OUT Low V OL Vpin 2=2.7V,Vpin 1=1.1V 0.7 1.1 VELECTRICAL CHARACTERISTICS(Cont.)PARAMETER SYMBOL TEST CONDITIONS MIN TYP MAX UNITCurrent Sense sectionGain G V (Note 2,3) 2.85 3 3.15V/V Maximum Input signal V I(MAX) Vpin 1=5V( Note 2) 0.9 1 1.1 VPSRR12≦V CC ≦25V 70 dB Input Bias Current I BIAS -2 -10 µA Delay to Output Vpin 3=0 to 2V 150 300ns Output SectionI O(SINK)=20mA 0.1 0.4 VLow V OLI O(SINK)=200mA1.52.2 V I O(SOURCE)=20mA 13 13.5 VOutput LevelHigh V OHI O(SOURCE)=200mA 1213.5 V Rise Time t R T J =25°C,C L =1nF(Note 1) 50 150ns Fall Time t F T J =25°C,C L =1nF(Note 1) 50 150ns Under-Voltage Lockout Output Section3842A 14.5 16 17.5VStart Threshold 3843A V TH(ST)7.8 8.4 9 V3842A 8.5 10 11.5VMin. Operating Voltage 3843A V OPR(MIN) After Turn On7 7.6 8.2 VPWM SectionMAX D (MAX) 95 97 100%Duty CycleMin D (MIN)0 % Total Standby Current Start-up Current I ST 0.12 0.3 mA Operating Supply Current I CC(OPR) Vpin 2=Vpin 3=0V 11 17 mA V CC Zener Voltage V z I CC =25mA 34 V Note:1.These parameters, although guaranteed ,are not 100% tested in production.2. Parameters measured at trip point of latch with Vpin 2=0.3. Gain defined as:∆Vpin 1∆Vpin 3A=; 0 Vpin3 0.8V4. Adjust V CC above the start threshold before setting at 15V.OPEN-LOOP LABORATORY TEST FIXTUREV REFVccError Amp AdjustHigh peak current associated with capacity loads necessitate careful grounding techniques. Timing and bypass capacitors should be connected close to pin 5 in single point GND. The transistor and 5k Ω potentio-meter are used to sample the oscillator waveform and apply an adjustable Ramp to Pin 3.UNDER-VOLTAGE LOCKOUTVonVoffVccDuring Under-Voltage Lockout, the output driver is biased to a high impedance state. Pin 6 should be shunt to GND with a bleeder resistor to prevent activating the power switch with output leakage currents.ERROR AMPLIFIER CONFIGURATIONError amplifier can source or sink up to 0.5mACURRENT SENSE CIRCUITPeak current (Is) determined by the formula: Ismax=10V/Rs. A small RC filter be required to suppress switch transients.SLOPE COMPENSATIONA fraction of the oscillator ramp can be resistively summed with the current sense signal to provide slope compensation for converts requiring duty cycles over 50%.Note that capacitor C, forms a filter with R2 to suppress the leading edge switch spikes.OSCILLATOR SECTIONLarge RT Small CT Small RTLarge CTV4V4INTERNAL CLOCKINTERNAL CLOCKDead time vs. C T (R T >5k Ω) Timing Resistance vs. Frequency1101001101000.1t d (μs )CT (nF)10011061010101010R T (k Ω)Frequency (Hz)SHUTDOWN TECHNIQUESShutdown UTC UC3842A can be accomplished by two methods; either raise pin 3 above 1V or pull Pin 1 below a voltage two diode drops above ground. Either method caused the output of PWM comparator to be high(refer to block diagram).The PWM latch is reset dominant so that the output will remain low until the next clock cycle after the shutdown condition at pins 1 and/or 3 is removed . In one example, an externally latched shut –down may be accomplished by adding an SCR which be reset by cycling V CC below the lower UVLO threshold. At this point the reference turns off allowing the SCR to reset.TYPICAL CHARACTERISTICSOutput Saturation CharacteristicsError Amplifier Open-Loop Frequency Response1234S a t u r a t i o n V o l t a g e (V )Output Current(Sourse or Sink Current ) (A)71031061051041010210020406010080Frequency (Hz)V o l t a g e G a i n (d B )-180-135-90-450PH A S E (D e g r e e )V R E F(V )Temperature (℃)I s t a r t (m A )Temperature (℃)V REF Temperature DriftIstart Temperature Drift9I c c (m A )Temperature (℃)Icc Temperature Drift。