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| (R) UC2842B/3B/4B/5B UC3842B/3B/4B/5B HIGH PERFORMANCE CURRENT MODE PWM CONTROLLER comparatorwhich alsoprovidescurrent limit control, and a totem pole output stage designed to source or sink high peakcurrent. The outputstage, suitable for driving N-Channel MOSFETs, is low in the offstate. Differences between members of this family are the DESCRIPTION under-voltagelockout thresholds and maximum duty TheUC384xB family ofcontrolICs providesthe neccycle ranges. The UC3842B and UC3844B have essary features to implement off-line or DC to DC UVLO thresholds of 16V (on) and 10V (off), ideally fixed frequency current mode control schemes www..com with suitedoff-lineapplicationsThecorrespondingthresha minimal external parts count. Internally impleoldsforthe UC3843BandUC3845Bare8.5 V and7.9 mented circuits include a trimmed oscillator for preV. The UC3842B and UC3843B can operate to duty cycles approaching 100%. A range of the zero to < cise DUTY CYCLE CONTROL under voltage lockoutfeaturingstart-up current less than0.5mA,a pre50 % is obtained by the UC3844B and UC3845B by cision reference trimmed for accuracy at the error the addition of an internal toggle flip flopwhich blanks amp input, logicto insure latched operation,a PWM the output off every otherclock cycle. BLOCK DIAGRAM (toggle flip flop used only in UC3844B and UC3845B) Vi 7 34V GROUND 5 UVLO S/R 5V REF INTERNAL BIAS VREF GOOD LOGIC RT/CT 4 OSC ERROR AMP. 2R R 1V T .TRI .OSCI .CURRENTMODEOPERATI .AUTOMATI .LATCHI .I .HI .UNDERVOLTAGELOCKOUTWI .LOWSTART- MMED OSCILLATOR FOR PRECISE FREQUENCY CONTROL LLATOR FREQUENCY GUARANTEED AT 250kHz ON TO 500kHz C FEED FORWARD COMPENSATION NG PWM FOR CYCLE-BY-CYCLE CURRENT LIMITING NTERNALLY TRIMMED REFERENCE WITH UNDERVOLTAGE LOCKOUT GH CURRENT TOTEM POLE OUTPUT TH HYSTERESIS UP AND OPERATING CURRENT Minidip SO8 8 VREF 5V 50mA 2.50V 6 OUTPUT VFB COMP CURRENT SENSE 2 1 3 + - S R CURRENT SENSE COMPARATOR PWM LATCH UC3842B D95IN331 March 1999 1/15 UC2842B/3B/4B/5B - UC3842B/3B/4B/5B ABSOLUTE MAXIMUM RATINGS Symbol Vi Vi IO EO Parameter Supply Voltage (low impedance source) Supply Voltage (Ii < 30mA) Output Current Output Energy (capacitive load) Analog Inputs (pins 2, 3) Error Amplifier Output Sink Current Ptot Ptot Tstg TJ TL Power Dissipation at Tamb 25 C (Minidip) Power Dissipation at Tamb 25 C (SO8) Storage Temperature Range Junction Operating Temperature Lead Temperature (soldering 10s) Valu e 30 Self Limiting 1 5 - 0.3 to 5.5 10 1.25 800 - 65 to 150 - 40 to 150 300 A J V mA W mW C C C Un it V * All voltages are with respect to pin 5, all currents are positive into the specified terminal. PIN CONNECTION (top view) Minidip/SO8 COMP VFB ISENSE RT/CT 1 2 3 4 D95IN332 8 7 6 5 VREF Vi OUTPUT GROUND PIN FUNCTIONS No 1 2 3 4 5 6 7 8 Function COMP VFB ISENSE RT/CT GROUND OUTPUT VCC Vref Description This pin is the Error Amplifier output and is made available for loop compensation. This is the inverting input of the Error Amplifier. It is normally connected to the switching power supply output through a resistor divider. A voltage proportional to inductor current is connected to this input. The PWM uses this information to terminate the output switch conduction. The oscillator frequency and maximum Output duty cycle are programmed by connecting resistor RT to Vref and cpacitor CT to ground. Operation to 500kHz is possible. This pin is the combined control circuitry and power ground. This output directly drives the gate of a power MOSFET. Peak currents up to 1A are sourced and sunk by this pin. This pin is the positive supply of the control IC. This is the reference output. It provides charging current for capacitor CT through resistor RT. ORDERING NUMBERS SO8 UC2842BD1; UC2843BD1; UC2844BD1; UC2845BD1; UC3842BD1 UC3843BD1 UC3844BD1 UC3845BD1 Minidip UC2842BN; UC2843BN; UC2844BN; UC2845BN; UC3842BN UC3843BN UC3844BN UC3845BN 2/15 UC2842B/3B/4B/5B - UC3842B/3B/4B/5B THERMAL DATA Symbo l Rth j-amb Description Thermal Resistance Junction-ambient. max. Minid ip 100 SO 8 150 Unit C/W ELECTRICAL CHARACTERISTICS ( [note 1] Unless otherwise stated, these specifications apply for -25 < Tamb < 85C for UC284XB; 0 < Tamb < 70C for UC384XB; Vi = 15V (note 5); RT = 10K; CT = 3.3nF) Symbo l Parameter T est Cond it ion s UC284XB UC384XB Min. Typ. Max. Min. Typ. Max. 4.95 5.00 5.05 4.90 5.00 5.10 2 3 0.2 4.9 50 5 -30 49 Tj = 25C 48 TA = Tlow to Thigh TJ = 25C (RT = 6.2k, CT = 1nF) 225 - - - 7.8 7.5 TA = Tlow to Thigh (peak to peak) 25 -30 49 48 225 - - - 7.8 7.6 5.1 4.82 50 5 25 20 25 2 3 0.2 5.18 20 25 Uni t REFERENCE SECTION VREF V REF V REF Output Voltage Line Regulation Load Regulation Tj = 25C Io = 1mA 12V Vi 25V 1 Io 20mA (Note 2) Line, Load, Temperature 10Hz f 10KHz Tj = 25C (note 2) Tamb = (note 2) 125C, 1000Hrs V mV mV mV/C V V mV mA KHz KHz KHz % % V mA mA V A dB MHz dB mA mA V 1.1 V VREF/T Temperature Stability Total Output Variation eN Output Noise Voltage Long Term Stability ISC Output Short Circuit -100 -180 52 - 250 0.2 1 1.6 8.3 - 55 56 275 1 - - 8.8 8.8 -100 -180 52 - 250 0.2 0.5 1.6 8.3 - 55 56 275 1 - - 8.8 8.8 OSCILLATOR SECTION fOSC Frequency fOSC/V fOSC/T VOSC Idischg Frequency Change with Volt. VCC = 12V to 25V Frequency Change with Temp. Oscillator Voltage Swing Discharge Current (VOSC =2V) TJ = 25C TA = Tlow to Thigh VPIN1 = 2.5V VFB = 5V 2V Vo 4V TJ = 25C 12V Vi 25V VPIN2 = 2.7V VPIN1 = 1.1V VPIN2 = 2.3V VPIN1 = 5V VPIN2 = 2.3V; R L = 15K to Ground VPIN2 = 2.7V; R L = 15K to Pin 8 (note 3 & 4) VPIN1 = 5V (note 3) 12 Vi 25V (note 3) ERROR AMP SECTION V2 Input Voltage Ib BW PSRR Io Io Input Bias Current AVOL Unity Gain Bandwidth Power Supply Rejec. Ratio Output Sink Current Output Source Current VOUT High VOUT Low CURRENT SENSE SECTION GV Gain V3 SVR Ib Maximum Input Signal Supply Voltage Rejection Input Bias Current Delay to Output 2.45 2.50 2.55 2.42 2.50 2.58 -0.1 65 0.7 60 2 -0.5 5 90 1 70 12 -1 6.2 0.8 1.1 -1 65 0.7 60 2 -0.5 5 -0.1 90 1 70 12 -1 6.2 0.8 -2 2.85 0.9 3 1 70 -2 150 3.15 2.85 1.1 -10 300 0.9 3 1 70 -2 150 3.15 1.1 -10 300 V/V V dB A ns 3/15 UC2842B/3B/4B/5B - UC3842B/3B/4B/5B ELECTRICAL CHARACTERISTICS (continued) Symbo l OUTPUT SECTION VOL VOH VOLS tr tf Output Low Level ISINK = 20mA ISINK = 200mA Output High Level ISOURCE = 20mA ISOURCE = 200mA UVLO Saturation Rise Time Fall Time Start Threshold VCC = 6V; ISINK = 1mA Tj = 25C CL = 1nF (2) Tj = 25C CL = 1nF (2) X842B/4B X843B/5B Min Operating Voltage After Turn-on PWM SECTION Maximum Duty Cycle X842B/3B X844B/5B Minimum Duty Cycle TOTAL STANDBY CURRENT Ist Ii V iz Start-up Current Vi = 6.5V for UCX843B/45B Vi = 14V for UCX842B/44B Operating Supply Current Zener Voltage VPIN2 = VPIN3 = 0V Ii = 25mA 30 0.3 0.3 12 36 0.5 0.5 17 30 0.3 0.3 12 36 0.5 0.5 17 mA mA mA V 94 47 96 48 100 50 0 94 47 96 48 100 50 0 % % % X842B/4B X843B/5B 15 7.8 9 7.0 13 12 0.1 1.6 13.5 13.5 0.1 50 50 16 8.4 10 7.6 1.1 150 150 17 9.0 11 8.2 14.5 7.8 8.5 7.0 0.4 2.2 13 12 0.1 1.6 13.5 13.5 0.1 50 50 16 8.4 10 7.6 1.1 150 150 17.5 9.0 11.5 8.2 0.4 2.2 V V V V V ns ns V V V V Parameter T est Cond itions UC284XB UC384XB Min . Typ . Max. Min. T yp. Max. Un it UNDER-VOLTAGE LOCKOUT SECTION Notes : 1. Max package power dissipation limits must be respected; low duty cycle pulse techniques are used during test maintain Tj as close to Tamb as possible. 2. These parameters, although guaranteed, are not 100% tested in production. 3. Parameter measured at trip point of latch with V PIN2 = 0. 4. Gain defined as : VPIN1 A= ; 0 VPIN3 0.8 V VPIN3 5. Adjust Vi above the start threshold before setting at 15 V. 4/15 UC2842B/3B/4B/5B - UC3842B/3B/4B/5B Figure 1: Open Loop Test Circuit. VREF 4.7K 2N2222 100K ERROR AMP. ADJUST 4.7K COMP VFB 1K ISENSE ADJUST 5K ISENSE RT/CT RT VREF 1 2 8 7 Vi 0.1F OUTPUT GROUND 1W 1K OUTPUT A 0.1F Vi UC2842B 3 4 6 5 CT D95IN343 GROUND High peak currents associatedwith capacitive loads necessitate careful grounding techniques. Timing and bypass capacitors should be connected close to pin 5 in a single point ground. The transistor and 5 K potentiometerareusedto samplethe oscillator waveform and apply an adjustable ramp to pin 3. Figure 2: Timing Resistor vs. Oscillator Frequency RT (K) 50 C T= D95IN333 Figure 3: Output Dead-Time vs. Oscillator Frequency D95IN334 % 20 0p F C 50 10 0p F T= C CT=2nF 30 CT=5nF 20 CT=1nF CT=10nF 10 CT=500pF T= 20 CT=5nF 50 C 0p F T= 1n F 10 5 CT =2nF CT=10nF CT=200pF 5 CT=100pF 3 2 Vi =15V T A=25C 1 20K 30K 50K 100K 200K 300K 500K f OSC(KHz) 10K 2 Vi=15V TA=25C 1 0.8 10K 20K 30K 50K 100K 200K 300K 500K fOSC(KHz) 5/15 UC2842B/3B/4B/5B - UC3842B/3B/4B/5B Figure 4: Oscillator Discharge Current vs. Temperature. I dischg (mA) D95IN335 Figure 5: Maximum Output Duty Cycle vs. Timing Resistor. D95IN336 Dmax (%) 90 Idischg=7.5mA 80 Idischg=8.8mA Vi=15V VOSC=2V 8.5 8.0 70 60 7.5 50 Vi=15V CT=3.3nF TA=25C 7.0 -55 -25 0 25 50 75 100 TA(C) 40 0.8 1 2 3 5 RT(K) Figure 6: Error Amp Open-Loop Gain and Phase vs. Frequency. (dB) 80 D95IN337 Figure 7: Current Sense Input Threshold vs. Error Amp Output Voltage. 30 60 90 Vth (V) 1.0 D95IN338 Gain 60 40 Vi=15V VO=2V to 4V RL=100K TA=25C Vi=15V TA=25C 0.8 TA=125C Phase 20 0 -20 10 120 150 180 f(Hz) 0.6 0.4 TA=-40C 0.2 0.0 100 1K 10K 100K 1M 0 2 4 6 VO(V) Figure 8: Reference Voltage Change vs. Source Current. 60 D95IN339 Figure 9: Reference Short Circuit Current vs. Temperature. ISC (mA) 100 Vi=15V RL0.1 D95IN340 Vi=15V 50 40 TA=-40C TA=125C 90 80 30 20 10 0 0 TA=25C 70 60 50 20 40 60 80 100 Iref(mA) -55 -25 0 25 50 75 100 TA(C) 6/15 UC2842B/3B/4B/5B - UC3842B/3B/4B/5B Figure 10: Output Saturation Voltagevs. Load Current. Vsat (V) D95IN341 Figure 11: Supply Current vs. Supply Voltage. Ii (mA) 20 D95IN342 Vi -1 -2 Source Saturation (Load to Ground) TA=25C TA=-40C Vi=15V 80s Pulsed Load 120Hz Rate 15 R T=10K C T=3.3nF V FB=0V I Sense=0V T A=25C UCX843/45 10 2 1 0 0 TA=-40C TA=25C 5 Sink Saturation (Load to Vi) 200 400 600 GND 0 IO(mA) 0 10 UCX842/44 3 20 30 Vi(V) Figure 12: Output Waveform. Figure 13: Output Cross Conduction Vi =30V CL = 15pF TA = 25C VO 20V/DIV 90% Vi =15V CL = 1.0nF TA = 25C ICC 10% 50ns/DIV 100ns/DIV 100mA/DIV Figure 14: Oscillator and Output Waveforms. Vi 7 8 5V REG PWM RT CLOCK 4 OSCILLATOR ID CT 5 GND D95IN344 CT OUTPUT 6 OUTPUT LARGE RT/SMALL CT CT OUTPUT SMALL RT/LARGE CT 7/15 UC2842B/3B/4B/5B - UC3842B/3B/4B/5B Figure 15 : Error Amp Configuration. 2.5V 1mA + VFB COMP Zf D95IN345 Zi 2 1 - Figure 16 : Under Voltage Lockout. Vi 7 ON/OFF COMMAND TO REST OF IC ICC UC3842B UC3843B UC3844B UC3845B VON VOFF 16V 10V 8.4V 7.6V <17mA <0.5mA VOFF VON VCC D95IN346 During UVLO, the Output is low Figure 17 : Current Sense Circuit . ERROR AMPL. IS COMP R RS C CURRENT SENSE 5 GND 1 2R R 1V 3 CURRENT SENSE COMPARATOR D95IN347 Peak current (is) is determined by the formula 1.0 V IS max RS A small RC filter may be required to suppress switch transients. 8/15 UC2842B/3B/4B/5B - UC3842B/3B/4B/5B Figure 18 : Slope Compensation Techniques. VREG RT IS RSLOPE R1 RS RT/CT CT ISENSE 8 VREG RT 8 4 UC3842B IS RSLOPE RT/CT CT ISENSE 4 UC3842B 3 5 GND RS R1 3 5 GND D95IN348 Figure 19 : Isolated MOSFET Drive and Current Transformer Sensing. VCC Vin 7 5.0Vref + - ISOLATION BOUNDARY VGS Waveforms + S R + COMP/LATCH 6 Q1 + 0 - 50% DC + 0 - 25% DC Q Ipk = V(pin 1) -1.4 3RS () NP NS 3 C D95IN349 R RS NS NP 9/15 UC2842B/3B/4B/5B - UC3842B/3B/4B/5B Figure 20 : Latched Shutdown. 4 OSC 8 R BIAS R + 1mA + 2 EA 2R R 1 5 2N 3905 2N 3903 D95IN350 SCR must be selected for a holding current of less than 0.5mA at TA(min). The simple two transistor circuit can be used in place of the SCR as shown. All resistors are 10K. Figure 21: Error Amplifier Compensation From VO Ri 2 Rd Cf Rf 1 2.5V + 1mA + EA 2R R 5 Error Amp compensation circuit for stabilizing any current-mode topology except for boost and flyback converters operating with continuous inductor current. + 1mA RP Ri 2 CP Rd Cf Rf 1 5 D95IN351 From VO 2.5V + EA 2R R Error Amp compensation circuit for stabilizing current-mode boost and flyback topologies operating with continuous inductor current. 10/15 UC2842B/3B/4B/5B - UC3842B/3B/4B/5B Figure 22: External Clock Synchronization. VREF 8 R BIAS RT 4 CT EXTERNAL SYNC INPUT 0.01F 2 1 + EA + R OSC 2R 47 R 5 The diode clamp is required if the Sync amplitude is large enough to cause the bottom side of CT to go more than 300mV below ground D95IN352 Figure 23: External Duty Cycle Clamp and Multi Unit Synchronization. VREF RA 8 4 8 R BIAS R 3 4 + Q + 5K 1 7 + EA 2R RB 6 5 5K + 5K R OSC 2 C S 2 R NE555 1 5 TO ADDITIONAL UCX84XAs D95IN353 f= 1.44 (RA + 2RB)C Dmax = RB RA + 2RB 11/15 UC2842B/3B/4B/5B - UC3842B/3B/4B/5B Figure 24: Soft-Start Circuit 8 R BIAS R 4 + 1mA 2 1M 1 C 5 + EA 2R 5Vref + - OSC S Q + R 1V R D95IN354 Figure 25: Soft-Start and Error Amplifier Output Duty Cycle Clamp. VCC Vin 7 + S + R 1V Comp/Latch 5 C R1 BC109 VCLAMP = * R1 R1 + R2 where 0 8 R BIAS R 4 + 1mA 2 R2 + EA 2R 5Vref + - OSC VClamp Q R 1 12/15 7 6 Q1 5 RS UC2842B/3B/4B/5B - UC3842B/3B/4B/5B mm MIN. A a1 a2 a3 b b1 C c1 D (1) E e e3 F (1) L M S 3.8 0.4 4.8 5.8 1.27 3.81 4.0 1.27 0.6 8 (max.) 0.15 0.016 0.65 0.35 0.19 0.25 0.1 TYP. MAX. 1.75 0.25 1.65 0.85 0.48 0.25 0.5 0.026 0.014 0.007 0.010 0.004 MIN. inch TYP. MAX. 0.069 0.010 0.065 0.033 0.019 0.010 0.020 DIM. OUTLINE AND MECHANICAL DATA 45 (typ.) 5.0 6.2 0.189 0.228 0.050 0.150 0.157 0.050 0.024 0.197 0.244 SO8 (1) D and F do not include mold flash or protrusions. Mold flash or potrusions shall not exceed 0.15mm (.006inch). 13/15 UC2842B/3B/4B/5B - UC3842B/3B/4B/5B DIM. MIN. A a1 B b b1 D E e e3 e4 F I L Z 3.18 7.95 0.51 1.15 0.356 0.204 mm TYP. 3.32 0.020 1.65 0.55 0.304 10.92 9.75 2.54 7.62 7.62 6.6 5.08 3.81 1.52 0.125 0.313 0.045 0.014 0.008 MAX. MIN. inch TYP. 0.131 MAX. OUTLINE AND MECHANICAL DATA 0.065 0.022 0.012 0.430 0.384 0.100 0.300 0.300 0.260 0.200 0.150 0.060 Minidip 14/15 UC2842B/3B/4B/5B - UC3842B/3B/4B/5B Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specification mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics. The ST logo is a registered trademark of STMicroelectronics (c) 1999 STMicroelectronics - Printed in Italy - All Rights Reserved STMicroelectronics GROUP OF COMPANIES Australia - Brazil - Canada - China - France - Germany - Italy - Japan - Korea - Malaysia - Malta - Mexico - Morocco - The Netherlands Singapore - Spain - Sweden - Switzerland - Taiwan - Thailand - United Kingdom - U.S.A. http://www.st.com 15/15 |
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