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TC1313 Datasheet(PDF) 17 Page - Microchip Technology |
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TC1313 Datasheet(HTML) 17 Page - Microchip Technology |
17 / 28 page © 2005 Microchip Technology Inc. DS21974A-page 17 TC1313 5.5 Inductor Selection For most applications, a 4.7 µH inductor is recom- mended to minimize noise. There are many different magnetic core materials and package options to select from. That decision is based on size, cost and acceptable radiated energy levels. Toroid and shielded ferrite pot cores will have low radiated energy but tend to be larger and more expensive. With a typical 2.0 MHz switching frequency, the inductor ripple current can be calculated based on the following formulas. EQUATION 5-2: Duty cycle represents the percentage of switch-on time. EQUATION 5-3: The inductor ac ripple current can be calculated using the following relationship: EQUATION 5-4: Solving for ΔIL = yields: EQUATION 5-5: When considering inductor ratings, the maximum DC current rating of the inductor should be at least equal to the maximum buck regulator load current (IOUT1), plus one half of the peak-to-peak inductor ripple current (1/2 * ΔIL). The inductor DC resistance can add to the buck converter I2R losses. A rating of less than 200 m Ω is recommended. Overall efficiency will be improved by using lower DC resistance inductors. TABLE 5-2: TC1313 RECOMMENDED INDUCTOR VALUES 5.6 Thermal Calculations 5.6.1 BUCK REGULATOR OUTPUT (VOUT1) The TC1313 is available in two different 10-pin packages (MSOP and 3X3 DFN). By calculating the power dissipation and applying the package thermal resistance, ( θJA), the junction temperature is estimated. The maximum continuous junction temperature rating for the TC1313 is +125°C. To quickly estimate the internal power dissipation for the switching buck regulator, an empirical calculation using measured efficiency can be used. Given the measured efficiency (Section 2.0 “Typical Perfor- mance Curves”), the internal power dissipation is estimated below. EQUATION 5-6: The first term is equal to the input power (definition of efficiency, POUT/PIN = Efficiency). The second term is equal to the delivered power. The difference is internal power dissipation. This estimate assumes that most of the power lost is internal to the TC1313. There is some percentage of power lost in the buck inductor, with very little loss in the input and output capacitors. DutyCycle V OUT V IN ------------- = T ON DutyCycle 1 F SW ---------- × = Where: FSW = Switching Frequency. V L L ΔI L Δt -------- × = Where: VL = voltage across the inductor (VIN – VOUT) Δt = on-time of P-channel MOSFET ΔI L V L L ------ Δt × = Part Number Value (µH) DCR Ω (max) MAX IDC (A) Size WxLxH (mm) Coiltronics® SD10 2.2 0.091 1.35 5.2, 5.2, 1.0 max. SD10 3.3 0.108 1.24 5.2, 5.2, 1.0 max. SD10 4.7 0.154 1.04 5.2, 5.2, 1.0 max. Coiltronics SD12 2.2 0.075 1.80 5.2, 5.2, 1.2 max. SD12 3.3 0.104 1.42 5.2, 5.2, 1.2 max. SD12 4.7 0.118 1.29 5.2, 5.2, 1.2 max. Sumida Corporation® CMD411 2.2 0.116 0.950 4.4, 5.8, 1.2 max. CMD411 3.3 0.174 0.770 4.4, 5.8, 1.2 max. CMD411 4.7 0.216 0.750 4.4, 5.8, 1.2 max. Coilcraft® 1008PS 4.7 0.35 1.0 3.8, 3.8, 2.74 max. 1812PS 4.7 0.11 1.15 5.9, 5.0, 3.81 max. V OUT1 I OUT1 × Efficiency ------------------------------------- ⎝⎠ ⎛⎞ V OUT1 I OUT1 × () – P Diss ipation = |
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