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Número de pieza	WS3410
Descripción	Active PFC Non-isolated Buck LED Driver
Fabricantes	WINSEMI
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No Preview Available ! WS3410 Product Description WS3410 Active PFC Non-isolated Buck LED Driver Features � High Power Factor Correction, Low Total Harmonic Distortion � Dynamic Temperature Compensation � No Auxiliary Winding For Supplying � Valley Switching, High efficiency, Low EMI � Automatic Compensate the Inductance Variation � Automatic Adapt to the Change of Output Voltage � LED Short Circuit Protection � Over Voltage Protection � Over Temperature Protection � Open Circuit Protection � Few External Components Applications � LED Driver Supply General Description The WS3410 is designed for active PFC non-isolated buck LED driver. It operates at valley switching mode with high efficiency, low EMI and High PF. The output current automatically adapt to the variation of the inductance and the output voltage. The truly constant current LED is realized. The WS3410 using SOT23-6 package,It can achieve excellent constant current performance with very few external components. The WS3410 offers rich protection functions, including over voltage protection, LED short circuit protection, cycle by cycle current limiting, dynamic temperature compensation, over temperature protection and soft start. WS3410 consumes very low start current and operation current, driving LED efficiently under universal AC input(85VAC~265VAC). WS3410 is available in SOT23-6 package. Typical Application Circuit 6 FB GATE 4 1 VCC CS 5 3 COMP GN D 2 WIN SEM I M ICROELECTRON ICS WIN SEM I M ICROELECTRON ICS WIN SEM I M ICROELECTRON ICS Copyright@Winsemi Microelectronics Co., Ltd., All right reserved. WIN SEM I M ICROELECTRON ICS W/T-Y0037-Rev.A/ 0 May.2014 WIN SEM I M ICROELECTRON ICS 0514 1 page WS3410 Product Description Function Description The WS3410 is designed for active PFC non-isolated buck LED driver, using SOT23-6 package, It operates under valley switching mode, automatically adapting to the variation of the inductance and the output voltage. It can achieve excellent constant current performance with very few external components. Start up The start current is very low, Typ. 70uA(Max. 100uA). Under the design system of 85VAC, the startup resistor is: R = 85 * 2 = 1.2M 100 Sence Resistor The WS3410 is designed for active PFC non-isolated buck LED driver. It operates under valley switching mode and can achieve high accuracy constant current performance with very few external components. The peak current of inductor is continuous detected. CS terminal is connected internal of the chip, and compared with the internal 200mV. Internal Amplifier’s output COMP adjust the on-time, making the average value so CS equal to 200mV after the system is stable. In addition, a 1V cycle-by-cycle over current protection is set up inside CS pin. LED output current: I LED = 0.2V RCS Chip Supply After startup, the output voltage should supply the chip, rectifier diodes D6 need to use fast recovery diodes.Current limiting resistor R4 is calculated as: R4 = (1 − )D * VLED − 9 400uA Where, D is duty cycle, 400uA is the normal operation current of the chip, Vled is output load voltage. The FB Voltage Detection FB voltage determines the working status of the system, when FB is greater then 1.6V(typ.), WS3410 will automatically considered as output over voltage protection. The system will enter extremely energy efficient hiccup mode. Output over voltage protection voltage as follows: VOVP = 1.6 * R2 + R3 R3 consumption of R4 is: PR 4 = (VLED − 9)2 R4 * (1 − D) For example: Requirements:180~260V input voltage, 36~80V output, 240mA output current. The R4 design of above program should be met: 1. Supply Problem when Min. input AC voltage 180V and Min. output voltage 36V(which is the weakest power supply): D=36/180/1.414=0.141,R4=(1-0.141)(36-9)/400uA=58k 2.Power consumption problem of R4 when Max. input AC R2,R3,please refer to the typical application diagram, in which R3=10k(Not over 15 K, not less than 8.2 K). use 1.3 instead of constant 1.6 in the above formula in the design of system. Assuming Vovp=90V, we got R2=552k from the above formula, choosing 560k for R2 (larger as far as possible).Because VFB2 is between 1.3 and 1.9, choose 1.9 to calculate the withstand voltage of C4, Vovp=1.9(10+560)/10=108V,The withstand voltage of C4 shoule larger than the above value, 200V capacitor could be used. WS3410 will automatic detect the output voltage when enters hiccup mode; and will re-enter the normal working state when the output voltage is lower than Vovp. voltage 260V and Max. output voltage 80V(which is the Output Open(Short) protection strongest power supply): Output open/short protection is integrated inside WS3410. D=80/260/1.414=0.218 Once output open/short circuit is detected, the system will The power consumption of R4: automatic enter hiccup mode until the protection signal P=(80-9)(80-9)/58(1-0.218)=68mW disappear. WIN SEM I M ICROELECTRON ICS WIN SEM I M ICROELECTRON ICS WIN SEM I M ICROELECTRON ICS www.winsemi.com Tel : +86-755-8250 6288 Fax : +86-755-8250 6299 WIN SEM I M ICROELECTRON ICS WIN SEM I M ICROELECTRON ICS 5/8 5 Page

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