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| Semiconductor S494 Pulse Width Modulation Description The S494 is a monolithic integrated circuit which includes all the necessary building blocks for the design of pulse width modulate(PWM) switching power supplies, including push-pull, bridge and series configuration. The device can operate at switching frequencies between 1KHz and 300KHz and output voltage up to 40V. The S494 is specified over an operating temperature range of -40to85. Features * Uncommitted output transistors capable of 200mA source or sink * Internal protection from double pulsing of out-puts with narrow pulse widths or with supply voltages bellows specified limits * Easily synchronized to other circuits * Dead time control comparator * Output control selects single-ended or push-pull operation Ordering Information Type NO. S494 Marking S494 Package Code SOP-16 Outline Dimensions unit : mm PIN Connections 1. Non-INV Input 2. INV Input 3. Feed-Back 4. Dead-Time Control 5. CT 6. RT 7. GND 8. C1 9. E1 10. E2 11. C2 12. Vcc 13 Output Control 14. Ref Out 15. INV-Input 16. Non-INV Input KSI-K003-001 1 S494 Absolute Maximum Ratings Characteristic supply voltage Voltage From Any Pin to Ground (except pin 8 and pin 11) Output Collector Voltage Peak Collector Current Power Dissipation Operating Temperature Storage Temperature Ta=25C Symbol VCC VIN VC1, VC2 IC1, IC2 PD Topr Tstg Ratings 42 VCC+0.3 42 250 1500 -40 ~ 85 -65 ~ 150 Unit V V V mA mW C C Recommended Operating Condition Characteristic supply voltage Voltage on Any Pin Except Pin 8 and 11(Referenced to Ground) Output Voltage Output Collector Current Timing Capacitor Timing Capacitor Timing Resistor Oscillator Frequency Symbol VCC VIN VC1, VC2 IC1, IC2 Ct Ct Rt fOSC Min. 7 -0.3 -0.3 470 1.8 1 Max. 40 VCC+0.3 40 200 10 500 300 Unit V V V mA PF KHz Electrical Characteristics Reference Section Characteristic Reference Voltage Line Regulation Load Regulation Temperature Coefficient Symbol Vref VLINE VLOAD - Test Condition Iref = 1.0mA 7V < Vcc < 40V Min. Typ. Max. 4.75 5.00 2 1 0.01 5.25 25 15 0.03 Unit V mV mV %/C 1mA< IREF <10mA 0C < Ta <70C Oscillator Section Characteristic Oscillator Frequency Oscillator Frequency Change Over Operating Temperature Range Symbol fOSC fSOC Test Condition Ct=0.01 , Rt=12 Ct=0.01 , Rt=12 Min. Typ. Max. 10 2 Unit % KSI-K003-001 2 S494 Dead Time Control Section Characteristic Input Bias Current (Pin4) Max. Duty cycle, Each Output Input Threshold Voltage Zero Duty Max Duty Symbol IIB(DT) DC(Max) VTH Test Condition Vcc = 15V, 0V < V4 < 5.25V Vcc = 15V, Pin4 = 0V, Output Control Pin = Vref - Min. Typ. Max. 43 0 -2 3 -10 45 3.3 - Unit % V Error Amplifier Section Characteristic Input Offset Voltage Input Offset Current Input Bias Current Input Common Mode voltage Range Large Signal Open Loop Voltage Range Unity Gain Band width Symbol VIOS IIOS IIB VICR GVO fC Test Condition V3 = 2.5V V3 = 2.5V V3 = 2.5V 7V VCC 40V 0.5V V3 3.5V - Min. Typ. Max. -0.3 60 2 25 0.2 74 650 10 250 1 VCC - Unit mV nA V dB PWM Comparator Section (Pin3) Characteristic Inhibit Threshold Voltage Output Source Current Output Sink Current Symbol VTHI Io + Test Condition Zero duty cycle 0.5V < V3 < 3.5V 0.5V< V3 < 3.5V Min. Typ. Max. 2 -0.2 4 -0.6 4.5 - Unit V mA mA Io- Output Section Characteristic Output Saturation Voltage Common-Emitter Emitter-Follower Symbol VCE(SAT) IC(off) IE(off) Test Condition VE= 15V, IC = 200mA VC =15V, IE = 200mA VCC = VC = 40V, VE = 0 VCC = VC = 40V, VE = 0 Min. Typ. Max. 1.1 1.5 2 1.3 2.5 100 -100 Unit V Collector off-state Current Emitter off-state Current Output Control(Pin 13) Output Control Voltage Required for single-Ended or Parallel Output Operation Output Control Voltage Required for Push-pull operation VOCL VOCH 2.4 0.4 - V V Total Device Standby power Supply Current ICC 6 10 mA : These limits apply when the voltage measured at Pin 3 is with in the range specified. KSI-K003-001 3 S494 Output AC Characteristic Characteristic Rise Time Common Emitter Emitter Follower Common Emitter Emitter Follower Symbol tr tf - Test Condition Min. Typ. Max. 100 100 25 40 200 200 100 100 Unit ns Fall Time - - Block Diagram V cc Ref Out G ND RT CT 12 14 7 6 Os c 5 De a d T i me CO MP A R A T O R De a d-T i me Con t r ol Non -i n v In pu t In v -In pu t Non -i n v In pu t In v -In pu t Fe e d-Ba c k 4 + + PWM CO MP A R A T O R EA 2 + T F.F R e fe r e n c e R e gu l a t or 8 9 C1 E1 13 O u t pu t Con t r ol 11 C 2 10 E2 1 2 16 15 3 + - EA 1 KSI-K003-001 4 S494 INFORMATION The basic oscillator(switching)frequency is controlled by an external resistor (Rt) and capacitor(Ct). The relationship between the values of Rt Ct and frequency is shown in. The level of the sawtooth wave form is compared with an error voltage by the pulse width modulated comparator. The output of the PWM Comparator directs the pulse steering flip flop and the output control logic. The error voltage is generated by the error amplifier. The error amplifier boosts the voltage difference between the output and the 5V internal reference. See Figure7 for error amp sensing techniques. The second error amp is typically used to implement current limiting. The output control logic (Pin13) selects either push-pull or single-ended operation of the output transistors (see Figure6). The dead time control prevents on-state overlap of the output transistors as can be seen is Figure5. The dead time is approximately 3 to 5% of the total period if the dead time control(pin4) is grounded. This dead time can be increased by connecting the dead time control to a voltage up to 5 V. The frequency response of the error amps can be modified by using external resistors and capacitors. These components are typically connected between the compensation terminal (pin3) and the inverting input of the error amps(pin2 or pin15). The switching frequency of two or more S494 circuits can be synchronized. The timing capacitor, Ct is connected as shown in Figure8. Charging current is provided by the master circuit. Discharging is through all the circuits slaved to the master. Rt is required only for the master circuit. Operating Waveform KSI-K003-001 5 S494 Test Circuit Fig.1Error Amplifier Test Circuit + VIN 2 Fig.2 Current Limit sense Amplifier Test Circuit 1+ ERROR 1+ ERROR - AMP V3 V REF + V IN 15 2 - AMP V3 16 + ERROR 16 + ERROR VREF 15 AMP - AMP Fig. 3 Common-Emitter Configuration Test circuit and Waveform 15V DC 68 C Ea c h o u t p u t Trans is tor E 15p F Vc Fig. 5 Dead-Time and Feedback Control Test Circuit Vcc=15V 150 12 2W 4 DEAD 8 Vcc TEST C1 TIME 9 Inputs 3 FEED BACK E1 12K 6 RT 5 CT 11 C2 10 1 (+) 0.01uF 2 E2 (-) 16 (+) 15 (-) 13 OUTPUT REF 14 CONTROL OUT 50K 7 GND 150 2W OUTPUT1 OUTPUT2 90% 10% Tr Tf 90% 10% Fig. 4 Emitter-Follower Configuration Test circuit and waveform Voltage waveform 15V DC C Each output Trans is tor 68 VE 15pF GND 90% 10% Tr Tf 90% 10% KSI-K003-001 6 S494 APPLICATION CIRCUIT Fig. 6 Output Connections for Single-Ended and Push-Pull Configurations Q1 8 OUTPUT CONTROL 9 C1 E1 1 TO 500 m A(MAX) V REF R2 QC Fig. 7 Error Amplifier Sensing Techniques TO OUTPUT VOLTAGE OF SYSTEM R1 1(16) + Vo 2(15) ERROR AMP Q2 11 C2 0 < VOC < 4V 10 E2 3 QE SINGLE-ENDED CONFIGURATION POSITIVE OUTPUT VOLTAGE VREF Q1 8 2. 4V Fig. 8 Slaving Tow or More Control Circuits Fig. 9Error Amplifier and Current Limit Sense Amplifier Output Circuits V cc V REF 14 V REF 6 5 RT MASTER CT 14 V REF 6 RT 5 CT SLAV E (ADDITIONAL CIRCUITS) RT CT TO REMAINDER OF ERROR AMPLIFIER CIRCUIT TO REMAINDER OF ERROR AMPLIFIER CIRCUIT 0.6m A TO COMPENSATION PWM COMPARATOR INPUT KSI-K003-001 7 S494 Electrical Characteristic Curves Fig. 1 VCE(sat) -IC Fig. 2 VCE -IE Fig. 3 tOSC - RT Fig. 4 AVOL , Phase - f Fig. 5 ICC - VCC KSI-K003-001 8 S494 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-K003-001 9 |
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