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| Semiconductor S3843 Current Mode PWM Controller Descriptions The S3843 is fixed Current PWM controller for Off-line and DC-DC converter applications. The internal 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. Protection circuitly includes built in under voltage lockout and current limiting. S3843 have UVLO threshold of 8.4V(on) and 7.6V(off) , S3843 can operate within 100% duty cycle. Features * Optimized for off-line and DC to DC converters * Low start up current < 1 mA * Operating range up to 500 KHz * Pulse-by-pulse current limiting * Under Voltage Lock Out with hysteresis * High current totempole output * Short shutdown delay time ; typical 100nsec Ordering Information Type NO. S3843 Marking S3843 Package Code SOP-8 Outline Dimensions unit : mm PIN Connections 1. Output / Compensation 2. Voltage feedback. Input 3. Current sense Input 4. Rt/Ct 5. GND 6. Output 7. Vcc 8. Vref KSI-8007-001 1 S3843 Absolute Maximum Ratings Characteristic Supply Voltage Output Current Analog Inputs Error Amp. Output Sink current Power Dissipation Ta=25C Symbol Vcc Io Vi(ana) Isink(EA) Pd Ratings 30 1 -0.3 to 6.3 10 1 Unit V A V mA W Electrical Characteristics (Vcc=15V, Rt=10Kohm, Ct=3.3nF, Ta=0 to 70, Unless otherwise specified) Characteristic 1. Reference Section Output Voltage Line Regulation Load Regulation Output Short Current Symbol Vref Vref Vref Isc FOSC f /V VOSC Idischarge Test Condition Tj=25, Io=1mA 12V VCC 25V 1mA IO 20mA Min. 4.90 -30 47 7.8 Typ. Max. 5.00 6 6 -100 52 0.2 1.7 8.3 5.10 20 25 -180 57 1.0 8.8 Unit V mV mV mA KHz % V mA Ta=25C Tj=25 12V VCC 25V Vpin4, peak to peak Tj=25C, Pin4=2V 2. Oscillator Section Initial Accuracy Voltage Stability Oscillator Voltage Discharge Current 3. Error Amp Section Input Voltage Input Bias Current Open Loop Voltage Gain Unity Gain Bandwidth PSRR Output Sink Current Output Source Current Output High Voltage Output Low Voltage V2 Ib AVO1 GBW PSRR1 ISINK ISOURCE VOH VOL VPIN1=2.5V 2V VO 4V Tj=25C VCC=12V to 25V VPIN2=2.7V, VPIN1=1.1V VPIN2=2.3V, VPIN1=5V Vpin2=2.3V,R1=15 to GN VPIN2=2.3V, R1=15 to PIN8 2.42 65 0.7 60 2 -0.5 5 2.50 -0.3 90 1 70 6 -0.8 6 0.7 2.58 -2.0 1.1 V MHz mA mA V V 4. Current Sense Section Gain Maximum Input Signal PSRR Input Bias Current Delay to Output GV Vi(MaX) PSRR2 I bias VPIN 1=5V 12V VCC 25V VPIN 3=0V to 2V 2.8 0.9 - 3.0 1.0 70 -2 100 3.2 1.1 -10 300 V/V V nS Td KSI-8007-001 2 S3843 Electrical Characteristics(continued) (Vcc=15V, Rt=10Kohm, Ct=3.3nF, Ta=0 to 70, Unless otherwise specified) Characteristic 5. Output Section Output Low Level1 Output Low Level2 Output High Level1 Output High Level2 VOL(UVLO) Rise Time Fall Time Symbol VOL1 VOL2 VOH1 VOH2 tr tf Vth VtL Dmax Dmin Ist ICC VZ Test Condition Isink=20mA Isink=200mA Isource=20mA Isource=200mA VCC=6V, Isink = 1mA Min. 13.0 12.0 - Typ. Max. 0.1 1.5 13.5 13.5 0.7 50 50 0.4 2.0 1.2 150 150 Unit V V V V V nS nS Tj=25C, C1=1nF Tj=25C, C1=1nF After turn on 6. Under Voltage Lockout Section Start Threshold Min. Operating Voltage 7.8 7 8.4 7.6 9 8.2 V V 7. PWM Section Maximum Duty Cycle Minimum Duty Cycle 93 97 100 0 % % 8. Total Standby Section Start-Up Current Operating Supply Current VCC Zener Voltage 0.5 11 35 1 20 mA mA V Vpin2=Vpin3=0V ICC=25mA NOTE: Adjust Vcc above the start threshold before setting at 15V Block Diagram 7 35V 5V V ref Set/ Res et Vcc Vref 8 5 UV LO GND In t e r n a l Bi a s LO G IC PWR Vc 1/2 V r e f Er r or Amp C.S Comp 1/3 1V PWM LA T CH 7 Vfb 2 + - R 6 S Output Com 1 C.S 3 PWR GND 5 T Rt/Ct 4 O s c i l l a t or KSI-8007-001 3 S3843 Information in using IC 1. Under voltage Lockout To prevent erratic output behavior which activating 7 O N/O F F CO M M A ND T O R ES ET O F IC the power switch with extraneous leakage currents, during under voltage lockout. Output(pin6) should be shunted to ground with a bleeder resister. V o n -8.4V V o f f -7.6V The Vcc comparator upper and lower threshold are 8.4V/7.6V. The large hysteresis and low start up Ic c currents makes it ideally suited in off-line converter < 17mA application where efficient bootstrap start-up techniques are required. < 1mA 7.6V 8.4V V cc 2. Oscillator Waveforms and Maximum Duty Cycle LARGE Rt SMALL Ct 8 Rt 4 Ct 5 The oscillator frequency is programmed by the values Vpin4 selected for the timing components Rt and Ct. Ct is charged from 5V, Vref, through resistor Rt to approximately 2.8V and discharged to 1.2V by an internal current sink. During the discharge of Ct, the oscillator generates an internal blanking pulse and the center input NOR gate high. This makes output to be in a low state and control the amount of output dead time. INTERNAL CLOCK SMALL Rt LARGE Ct Vpin4 INTERNAL CLOCK 3. Error AMP Configuration 2.50V Error amp output(Pin1) is provided for external loop + 0.5mA compensation and error amp can source or sink up to 0.5mA. The non-inverting input is internally biased at 2.5V and is not pinned out. The converter output voltage is typically V in Zt COMP 2 - divided down and monitored by the inverting input(pin2). Zf 1 KSI-8007-001 4 S3843 4. Current Sense Circuit ER R O R A MP 2R I R 1 R (V p i n 1 - 2V b e ) Ip e a k = 3R x R s R 3 C Rs 5 CO MP CUR R E NT S ENS E G ND IV CUR R ENT S E NS E C O MP A R A T O R A normal operating conditions occurs when the power supply output is overloaded or if output voltage to 1.0V Therefore the maximum peak switch current is lpk(max)=1.0V/Rs, and under the normal operating conditions the peak inductor current controlled by the voltage at pin1. 5. Shutdown Techniques 4.7K 8 V RE F 1 CO MP Shutdown of the S3843 can be accomplished by two methods; either raise pin3 above 1V or pull 3 4.7K S HUT DO W N T O CUR R E NT S E NS E R ES I S T O R 5.00 ISEN S E S HUT DO W N pin1 below a voltage two diodes drops above ground. Either causes the output of the PWM method 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 shutdown may be accomplished by adding an SCR which turn off, allowing the SCR to reset. KSI-8007-001 5 S3843 6. Open Loop Test V REF 2N2222 4.7K 100K 1 COMP ERROR 1K AMP ADJUST 4.7K ISENSE ADJUST 2 V in 3 ISENSE 4 RT/CT V REF 5 V cc 6 OUTPUT 7 8 0.1uF 0.1uF 1K/1W OUTPUT RT V cc High peak currents associated with capacitive leads necessitate careful grounding techniques. Timing and bypass capacitors should be connected close to Pin5 in a single point ground. The transistor and 5 potentiometer are used to sample the oscillator waveform and apply an adjustable ramp to Pin3. S3843 GND GROUND 7. Slope Compensation V 0.1u F RE F A fraction of the oscillator ramp can be resistively RT 8 summed with the current sense signal to provide slope compensation for converters requiring duty cycle over 50%. Note that capacitor C, forms a R1 R2 I SEN SE R T /C T 4 CT filter with R2 to suppress the leading edge switch spikes. I SEN SE 3 C R SEN SE KSI-8007-001 6 S3843 Electrical Characteristic Curves OUTPUT DEAD-TIME vs. OSCILLATOR FREQUENCY 100 %DT PERCENT OUTPUT DEAD-TIME 50 20 10 5.0 200pF 2.0 1.0 10K 20K 50K 100K 200K 100pF V c c =15V Ta = 25o C 5.0n F R T TIMING RESISTOR (K) 80 50 500pF 5.0n F 100pF TIMING RESISTOR vs. OSCILLATOR FREQUENCY 2.0n F 1.0n F 20 8.0 5.0 2.0 Ct =10n F 500pF 200pF V c c =15V Ta = 25o C 20K 2.0n F 1.0n F CT=10n F 50K 100K 200K 500K 1.0M 500K 1.0M 0.8 10K fOSC OS CILLATOR FREQUENCY (KHz ) fOSC OS CILLATOR FREQUENCY (KHz ) Error Amplifier Open-Loop Frequency Response SATURATION VOLTAGE (V) VOLTAGE GAIN (dB) 80 60 40 20 AV 0 -180 -90 -135 0 PHASE ( o Output Saturation Characteristics 4 Vcc=15V Ta = 25o C 3 Ta=-55o C -45 2 ) 1 SOURCE SAT(Vcc-VOH) SINK SAT(VOL) 0 10 100 1K 10K 100K 1M 10M 0.1 0.2 0.3 0.4 0.5 0.7 1 2 3 4 5 7 10 FREQUENCY (Hz) OUTPUT CURRENT SOURCE OR SINK (A) KSI-8007-001 7 S3843 These AUK products are intended for usage in general electronic equipments(Office and communication equipment, measuring equipment, domestic electrification, etc.). Please make sure that you consult with us before you use these AUK products in equipments which require high quality and/or reliability, and in equipments which could have major impact to the welfare of human life(atomic energy control, airplane, spaceship, traffic signal, combustion central, all types of safety device, etc.). AUK cannot accept liability to any damage which may occur in case these AUK products were used in the mentioned equipments without prior consultation with AUK. KSI-8007-001 8 |
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