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SC4809C Datasheet(PDF) 11 Page - Semtech Corporation |
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SC4809C Datasheet(HTML) 11 Page - Semtech Corporation |
11 / 16 page 11 2005 Semtech Corp. www.semtech.com SC4809A/B/C POWER MANAGEMENT Input and Output Capacitors The input capacitors are chosen based upon their ripple current rating and their rated voltage. The actual capacitor value is not that critical as long as the minimum capacitance gives an acceptable ripple voltage determined by the following equation: V f 8 I C SW RMS MIN ∆ • • = The output capacitors are also chosen based upon their low equivalent series resistance (ESR), ripple current and voltage ratings. The ripple current that the output capacitor experiences is a result of supplying the load current during the FET conduction time and its charging current during the FET off-time. Voltage Feedback The FB pin of the SC4809 sums the voltage feedback signal to the current sense signal and any added slope compensation. The voltage feedback signal is from an optocoupler, which is driven from an error amplifier on the secondary side of the converter. The signal from the optocoupler is designed to trip the FB threshold of the SC4809 internal comparator when the output voltage exceeds its specified limit. Current Limit Selection of the current sense resistor is accomplished by dividing the FB threshold value by the peak primary current at the desired current limit point. This ground- referenced R SENSE must be a low inductance type and have a rated power level to meet the (I RMS) 2• R SENSE requirement. Current spikes caused by the leakage inductance of the flyback transformer and the reverse recovery of the diode could trip the current sense latch and prematurely shut off the output. This unwanted spike can be suppressed by adding a small RC filter for effective leading edge blanking. Slope Compensation Sensing peak inductor current instead of average inductor current results in a loop response that is Less than ideal. Adding slope compensation to the current signal cancels this error by maintaining a constant average current independent of duty cycle. Slope compensation is required for open loop stability in a current mode system with 50% or greater duty cycles, but will benefit any current mode application at the cost of a few small parts. Loop Compensation The continuous current mode flyback will contain a right- half-plane (RHP) zero in its transfer function. Any increase in load current will require the primary peak inductor current to increase. The duty cycle must increase to accomplish this. In a flyback converter, the inductor current flows to the output only when the FET is off and the diode is conducting. Increasing the duty cycle increases the FET condition time but decreases the diode conduction time. The result of this is the average diode current, the current that supplies the load, actually decreases. This is a temporary situation; as the inductor current rises, the diode current eventually reaches its proper value. The condition where the average diode current must actually decrease before it can increase is referred to as a right-half-plane zero. To complicate matters, this zero contributes a phase lag, not a phase lead as a normal zero would. This zero moves in frequency as a function of load and input voltage, making it impossible to cancel out by the insertion of a pole. ) V N V ( L R 2 V N f OUT IN P OUT 2 IN RHPZERO • + • • • π • • = The easiest way to deal with a right-half-plane zero is to roll off the loop gain at a relatively low frequency using simple dominant pole compensation. Unfortunately, the result of this is poor dynamic response. The primary goal of the compensation network is to provide good line and load regulation and dynamic response. These objectives are best met by providing high gain at low frequencies for good DC regulation and high bandwidth for good transient response. Optimum closed loop performance can only be achieved by first Application Information (Cont.) |
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