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IRF7460 Datasheet(PDF) 6 Page - International Rectifier |
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IRF7460 Datasheet(HTML) 6 Page - International Rectifier |
6 / 21 page 6 Rev. 2.8 05/10/04 IRU3037 / IRU3037A www.irf.com Assuming the following: By using equation (3), CIN = 193.3 mF For higher efficiency, low ESR capacitor is recommended. Choose two 100 mF capacitors. The Sanyo TPB series PosCap capacitor 100 mF, 10V with 55m V ESR is a good choice. Output Capacitor Selection The criteria to select the output capacitor is normally based on the value of the Effective Series Resistance (ESR). In general, the output capacitor must have low enough ESR to meet output ripple and load transient requirements, yet have high enough ESR to satisfy sta- bility requirements. The ESR of the output capacitor is calculated by the following relationship: The Sanyo TPC series, PosCap capacitor is a good choice. The 6TPC150M 150 mF, 6.3V has an ESR 40mV. Selecting two of these capacitors in parallel, results to an ESR of ≅ 20mV which achieves our low ESR goal. The capacitor value must be high enough to absorb the inductor's ripple current. The larger the value of capaci- tor, the lower will be the output ripple voltage. Inductor Selection The inductor is selected based on output power, operat- ing frequency and efficiency requirements. Low inductor value causes large ripple current, resulting in the smaller size, but poor efficiency and high output noise. Gener- ally, the selection of inductor value can be reduced to desired maximum ripple current in the inductor ( ∆i). The optimum point is usually found between 20% and 50% ripple of the output current. For the buck converter, the inductor value for desired operating ripple current can be determined using the fol- lowing relation: If Di = 20%(IO), then the output inductor will be: The Toko D124C series provides a range of inductors in different values, low profile suitable for large currents, 10 mH, 4.2A is a good choice for this application. This will result to a ripple approximately 14% of output cur- rent. Power MOSFET Selection The IRU3037 uses two N-Channel MOSFETs. The se- lections criteria to meet power transfer requirements is based on maximum drain-source voltage (VDSS), gate- source drive voltage (VGS), maximum output current, On- resistance RDS(ON) and thermal management. The MOSFET must have a maximum operating voltage (VDSS) exceeding the maximum input voltage (VIN). The gate drive requirement is almost the same for both MOSFETs. Logic-level transistor can be used and cau- tion should be taken with devices at very low VGS to pre- vent undesired turn-on of the complementary MOSFET, which results a shoot-through current. The total power dissipation for MOSFETs includes con- duction and switching losses. For the Buck converter the average inductor current is equal to the DC load cur- rent. The conduction loss is defined as: The RDS(ON) temperature dependency should be consid- ered for the worst case operation. This is typically given in the MOSFET data sheet. Ensure that the conduction losses and switching losses do not exceed the package ratings or violate the overall thermal budget. 2 2 PCOND (Upper Switch) = ILOAD 3 RDS(ON) 3 D 3 q PCOND (Lower Switch) = ILOAD 3 RDS(ON) 3 (1 - D) 3 q q = RDS(ON) Temperature Dependency Where: DVO = Output Voltage Ripple DIO = Output Current DVO=100mV and DIO=4A Results to ESR=25m V ESR [ ---(4) DVO DIO Where: VIN = Maximum Input Voltage VOUT = Output Voltage ∆i = Inductor Ripple Current fS = Switching Frequency ∆t = Turn On Time D = Duty Cycle VIN - VOUT = L 3 ; Dt = D3 ; D = Di Dt 1 fS VOUT VIN L = (VIN - VOUT) 3 ---(5) VOUT VIN 3Di3fS L = 7 mH Dt = D 3 Dt = 3.3ms 1 fS IIN = IIN = 2.93A DV = 1%(VIN), Efficiency(h) = 90% VO 3 IO h 3 VIN |
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Similar Description - IRF7460 |
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