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FAN6755 Datasheet(PDF) 11 Page - Fairchild Semiconductor |
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FAN6755 Datasheet(HTML) 11 Page - Fairchild Semiconductor |
11 / 16 page © 2009 Fairchild Semiconductor Corporation www.fairchildsemi.com FAN6755 • Rev. 1.0.1 11 Functional Description Startup Current For startup, the HV pin is connected to the line input (1N4007 / 100KΩ recommended) or bulk capacitor through a resistor, RHV. Startup current drawn from pin HV (typically 3.5mA) charges the hold-up capacitor through the diode and resistor. When the VDD capacitor level reaches VDD-ON, the startup current switches off. At this moment, the VDD capacitor only supplies the FAN6755 to maintain VDD before the auxiliary winding of the main transformer to provide the operating current. Operating Current Operating current is around 2mA. The low operating current enables better efficiency and reduces the requirement of VDD hold-up capacitance. Green-Mode Operation The proprietary green-mode function provides an off- time modulation to reduce the switching frequency in light-load and no-load conditions. The on time is limited for better abnormal or brownout protection. VFB, which is derived from the voltage feedback loop, is taken as the reference. Once VFB is lower than the threshold voltage, switching frequency is continuously decreased to the minimum green-mode frequency of around 23KHz. Current Sensing / PWM Current Limiting Peak-current-mode control is utilized to regulate output voltage and provide pulse-by-pulse current limiting. The switch current is detected by a sense resistor into the SENSE pin. The PWM duty cycle is determined by this current sense signal and VFB, the feedback voltage. When the voltage on the SENSE pin reaches around VCOMP=(VFB–0.6)/4, a switch cycle is terminated immediately. VCOMP is internally clamped to a variable voltage around 0.83V for output power limit. Leading-Edge Blanking (LEB) Each time the power MOSFET is switched on, a turn-on spike occurs on the sense resistor. To avoid premature termination of the switching pulse, a leading-edge blanking time is built in. During this blanking period, the current-limit comparator is disabled and cannot switch off the gate driver. Under-Voltage Lockout (UVLO) The turn-on and turn-off thresholds are fixed internally at 16V and 7.8V in normal mode. During startup, the hold-up capacitor must be charged to 16V through the startup resistor to enable the IC. The hold-up capacitor continues to supply VDD before the energy can be delivered from auxiliary winding of the main transformer. VDD must not drop below 7.8V during startup. This UVLO hysteresis window ensures that the hold-up capacitor is adequate to supply VDD during startup. Gate Output / Soft Driving The BiCMOS output stage is a fast totem-pole gate driver. Cross conduction has been avoided to minimize heat dissipation, increase efficiency, and enhance reliability. The output driver is clamped by an internal 18V Zener diode to protect power MOSFET transistors against undesirable gate over voltage. A soft driving waveform is implemented to minimize EMI. Soft-Start For many applications, it is necessary to minimize the inrush current at startup. The built-in 5.5ms soft-start circuit significantly reduces the startup current spike and output voltage overshoot. Slope Compensation The sensed voltage across the current-sense resistor is used for peak-current-mode control and pulse-by-pulse current limiting. Built-in slope compensation improves stability and prevents sub-harmonic oscillation. FAN6755 inserts a synchronized positive-going ramp at every switching cycle. Constant Output Power Limit For constant output power limit over universal input- voltage range, the peak-current threshold is adjusted by the voltage of the VIN pin. Since the VIN pin is connected to the rectified AC input line voltage through the resistive divider, a higher line voltage generates a higher VIN voltage. The threshold voltage decreases as VIN increases, making the maximum output power at high-line input voltage equal to that at low-line input. The value of R-C network should not be so large that it affects the power limit (shown in Figure 21). Usually, R and C should be less than 100 Ω and 470pF, respectively. Figure 21. Current-Sense R-C Filter |
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