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NCP5424DR2 Datasheet(PDF) 11 Page - ON Semiconductor |
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NCP5424DR2 Datasheet(HTML) 11 Page - ON Semiconductor |
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11 / 18 page  NCP5424 http://onsemi.com 11 commonly used. Powdered iron cores are very suitable due to its high saturation flux density and have low loss at high frequencies, a distributed gap and exhibit very low EMI. The minimum value of inductance which prevents inductor saturation or exceeding the rated FET current can be calculated as follows: LMIN + (VIN(MIN) * VOUT)VOUT fSW VIN(MIN) ISW(MAX) where: LMIN = minimum inductance value; VIN(MIN) = minimum design input voltage; VOUT = output voltage; fSW = switching frequency; ISW(MAX) − maximum design switch current. The inductor ripple current can then be determined: DIL + VOUT (1 * D) L fSW where: DIL = inductor ripple current; VOUT = output voltage; L = inductor value; D = duty cycle. fSW = switching frequency The designer can now verify if the number of output capacitors will provide an acceptable output voltage ripple (1.0% of output voltage is common). The formula below is used: DIL + D VOUT ESRMAX Rearranging we have: ESRMAX + DVOUT DIL where: ESRMAX = maximum allowable ESR; DVOUT = 1.0% × VOUT = maximum allowable output voltage ripple ( budgeted by the designer ); DIL = inductor ripple current; VOUT = output voltage. The number of output capacitors is determined by: Number of capacitors + ESRCAP ESRMAX where: ESRCAP = maximum ESR per capacitor (specified in manufacturer’s data sheet). The designer must also verify that the inductor value yields reasonable inductor peak and valley currents (the inductor current is a triangular waveform): IL(PEAK) + IOUT ) DIL 2 where: IL(PEAK) = inductor peak current; IOUT = load current; DIL = inductor ripple current. IL(VALLEY) + IOUT * DIL 2 where: IL(VALLEY) = inductor valley current. Selection of the Output Capacitors These components must be selected and placed carefully to yield optimal results. Capacitors should be chosen to provide acceptable ripple on the regulator output voltage. Key specifications for output capacitors are their ESR (Equivalent Series Resistance), and ESL (Equivalent Series Inductance). For best transient response, a combination of low value/high frequency and bulk capacitors placed close to the load will be required. In order to determine the number of output capacitors the maximum voltage transient allowed during load transitions has to be specified. The output capacitors must hold the output voltage within these limits since the inductor current can not change with the required slew rate. The output capacitors must therefore have a very low ESL and ESR. The voltage change during the load current transient is: DVOUT + DIOUT ESL Dt ) ESR ) tTR COUT where: DIOUT / Dt = load current slew rate; DIOUT = load transient; Dt = load transient duration time; ESL = Maximum allowable ESL including capacitors, circuit traces, and vias; ESR = Maximum allowable ESR including capacitors and circuit traces; tTR = output voltage transient response time. The designer has to independently assign values for the change in output voltage due to ESR, ESL, and output capacitor discharging or charging. Empirical data indicates that most of the output voltage change (droop or spike depending on the load current transition) results from the total output capacitor ESR. The maximum allowable ESR can then be determined according to the formula: ESRMAX + DVESR DIOUT where: DVESR = change in output voltage due to ESR (assigned by the designer) Once the maximum allowable ESR is determined, the number of output capacitors can be found by using the formula: Number of capacitors + ESRCAP ESRMAX where: ESRCAP = maximum ESR per capacitor (specified in manufacturer’s data sheet). ESRMAX = maximum allowable ESR. |
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