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Moteur de recherche de fiches techniques de composants électroniques |
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Moteur de recherche de fiches techniques de composants électroniques |
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IR3621 Fiches technique(PDF) 12 Page - International Rectifier |
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IR3621 Fiches technique(HTML) 12 Page - International Rectifier |
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12 / 29 page  12 IR3621&(PbF) www.irf.com For higher efficiency, low ESR capacitors are recom- mended. Choose two Poscap from Sanyo 16TPB47M (16V, 47 µF, 70m Ω ) with a maximum allowable ripple current of 1.4A for inputs of each channel. Inductor Selection The inductor is selected based on operating frequency, transient performance and allowable output voltage ripple. Low inductor values result in faster response to step load (high ∆i/∆t) and smaller size but will cause larger output ripple due to increased inductor ripple current. As a rule of thumb, select an inductor that produces a ripple current of 10-40% of full load DC. For the buck converter, the inductor value for desired operating ripple current can be determined using the fol- lowing relation: VIN - VOUT = L × ; ∆t = D× ; D = 1 fS VOUT VIN ∆i ∆t L = (VIN - VOUT) × ---(7) VOUT VIN ×∆i×fS Where: VIN = Maximum Input Voltage VOUT = Output Voltage ∆i = Inductor Ripple Current fS = Switching Frequency ∆t = Turn On Time D = Duty Cycle Where: ∆VO = Output Voltage Ripple ∆i = Inductor Ripple Current ∆VO = 3% of VO will result to ESR(2.5V) =16.6mΩ and ESR(1.8V) =16m Ω ESR ≤ ---(8) ∆VO ∆IO The Sanyo TPC series, Poscap capacitor is a good choice. The 6TPC330M, 330 µF, 6.3V has an ESR 40mΩ. Se- lecting three of these capacitors in parallel for 2.5V out- put, results to an ESR of ≅ 13.3mΩ which achieves our low ESR goal. And selecting three of these capacitors in parallel for 1.8V output, results in an ESR of ≅ 13.3mΩ which achieves our low ESR goal. The capacitors value must be high enough to absorb the inductor's ripple current. Power MOSFET Selection The IR3621 uses four N-Channel MOSFETs. The selec- tion criteria to meet power transfer requirements is based on maximum drain-source voltage (VDSS), gate-source drive voltage (VGS), maximum output current, On-resis- tance RDS(ON) and thermal management. The both control and synchronous MOSFETs must have a maximum operating voltage (VDSS) that exceeds the maximum input voltage (VIN). Input Capacitor Selection The 1800 out of phase will reduce the RMS value of the ripple current seen by input capacitors. This reduces numbers of input capacitors. The input capacitors must be selected that can handle both the maximum ripple RMS at highest ambient temperature as well as the maximum input voltage. The RMS value of current ripple for duty cycles under 50% is expressed by: For ∆i(2.5V) = 45%(IO(2.5V) ), then the output inductor will be: L4 = 1.1 µH For ∆i(1.8V) = 35%(IO(1.8V) ), then the output inductor will be: L3 = 1.1 µH Panasonic provides a range of inductors in different val- ues and low profile for large currents. 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: I RMS= (I 1 2D 1(1-D1)+I2 2D 2(1-D2)-2I1I2D1D2) --- (6) Where: I RMS is the RMS value of the input capacitor current D 1 and D2 are the duty cycle for each output I 1 and I2 are the current for each output For this application the I RMS =4.8A (ESL, Equivalent Series Inductance is neglected) Choose ETQP6F1R1BFA (1.1 µH, 16A, 2.2mΩ) both for L3 and L4. For 2-phase application, equation (7) can be used for calculating the inductors value. In such case the induc- tor ripple current is usually chosen to be between 10- 40% of maximum phase current. |
Numéro de pièce similaire - IR3621 |
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Description similaire - IR3621 |
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