PDF WS3232 Data sheet ( Hoja de datos )

Número de pieza	WS3232
Descripción	High PF PSR Constant Current LED Driver
Fabricantes	WINSEMI
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No Preview Available ! WS3232 WS3232 High PF PSR Constant Current LED Driver Features � ±5% LED Current Accuracy � Primary-side Sensing and Regulation Without TL431 and Opto-coupler � No Auxiliary Winding For Sensing And Supplying � High Power Factor Correction � QR mode � 600V MOS integrated � Ultra low operating current � LED Open/Short Circuit Protection � CS Resistor Short Circuit Protection � VCC over voltage protection & under voltage lockout( UVLO) � Over Temperature Protection Applications � GU10 LED driver � LED spot light � Other LED lighting General Description WS3232 is a high PF primary-side feedback and regulation controller for LED lighting, optimized for flyback converter with the output power less than 30W. Since adopting primary sense and feedback control technology, the secondary sense and feedback circuit is eliminated. And WS3232 does not need the auxiliary winding for sensing the output current and supplying the chip. The low component counts and small system size are realized. Since using the high accurate current sense method, WS3232 realizes ±5% accuracy of LED current along with excellent line and load regulation. WS3232 offers comprehensive protection including Cycle-by-Cycle current limiting (OCP), LED open/short circuit protection, CS resistor short circuit protection, VCC UVLO,OVP and Clamp, and over temperature protection. WS3232 is available in DIP-8 package. Typical Application Circuit NP NS AC 1 VCC 2 NC 3 COMP 4 CS GND 8 GND 7 D6 D5 W/T-D036-Rev.A/0 Dec.2013 Copyright@Winsemi Microelectronics Co., Ltd., All right r eserved. 1213 1 page WS3232 Function Description WS3232 is a high PF offline QR PSR controller, optimized for low power LED driver. WS3232 operates in primary-side sensing and regulation. Consequently, opto-coupler and TL431 could be eliminated, thus reduce the cost. Startup Current Startup current of WS3232 is designed to as low as 60uA. The VCC capacitor will be charged through the start-up resistor when the system is powered on. Once the VCC voltage reaches the start-up threshold, the WS3232 will start to switch. The WS3232 integrates a 15V zener for VCC clamping. Due to the ultra-low operating current, the auxiliary winding is not need to supply the IC. Quasi-Resonant Operation =(Vcs Tons/T)0.5（Nps/Rcs） =0.083（Nps/Rcs） Once the parameters of the transformer and the current sense resistor Rcs is determined, so is the output current. And the output current can be set by adjusting the current sense resistor Rcs. Internal pre-charge design for quick start up After VCC exceeds UVLO_ON, Vcomp is pre-charged by an internal current source. The PWM block will not start to output PWM signals until Vcomp is over 0.45V. Such design is meant to reduce the start up time. The voltage pre-charged Vcomp in start-up procedure can be programmed b y, Vcom p=0.4V-300uARcomp Where Rcomp is the series resistor of Comp pin. Quasi-Resonant switching mode is applied in WS3232. When the voltage across drain and source of the primary MOSFET is at voltage valley, the MOSFET would be turned on, reducing the switching losses and improving EMI performance. CC Operation Operation switching frequency The frequency of WS3232 is decided by load condition and QR mode. When the output power decreases, the switching frequency can become rather high. The maximum switching frequency in WS3232 is internally limited to 120Khz. WS3232 is designed to produce good CC control characteristic. In DCM mode, the output current Io can be represented b y, Io=0.5IpsTons/T Where Ips is the peak current of the secondary side; Tons is the turn on time of secondary side; T is the switching period. Ips=IppNps=(Vcs /Rcs)Nps Where Ipp is the primary peak current; Vcs is the voltage on CS resistor; Rcs is primary current detection resistor; Nps is the turns ratio of primary to secondary of the flyback transformer. The relationship of Vcs, To ns and T is controlled to be constant by internal circuit, 3VcsTons/T=0.5V. Thus, Io can be represented b y, Io=0.5(Vcs /Rcs)NpsTons/T Current Sensing and Leading Edge Blanking Cycle-by-Cycle current limiting is offered in WS3232. The switch current is detected by a sense resistor into the sense pin. An internal leading edge blanking circuit chops off the sense voltage spike at initial MOSFET on state due to snubber diode reverse recovery so that the external RC filtering on sense input is no longer required. The current limit comparator is disabled and thus cannot turn off the external MOSFET during the blanking period. Protection Controls Excellent system stability is achieved by the comprehensive protection of WS3232. Including Steady, keep you advance 5/7 5 Page

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