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SM72482 Fiches technique(PDF) 9 Page - Texas Instruments |
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SM72482 Fiches technique(HTML) 9 Page - Texas Instruments |
9 / 15 page ISOURCE (MAX) := TJ(MAX) - TA TJA · VDIODE ISINK (MAX) := TJ(MAX) - TA TJA · RDS (ON) SM72482 www.ti.com SNVS696C – JANUARY 2011 – REVISED APRIL 2013 Characterization of the SM72482 provides accurate estimates of the transient and quiescent power dissipation components. At 300 kHz switching frequency and 30 nC load used in the example, the transient power will be 8 mW. The 1 mA nominal quiescent current and 12V VGATE supply produce a 12 mW typical quiescent power. Therefore the total power dissipation PD = 0.216 + 0.008 + 0.012 = 0.236W. (3) We know that the junction temperature is given by TJ = PD x θJA + TA (4) Or the rise in temperature is given by TRISE = TJ − TA = PD x θJA (5) For SOIC package, θJA is estimated as 170°C/W for the conditions of natural convection. For VSSOP, θJA is typically 60°C/W. Therefore for SOIC TRISE is equal to TRISE = 0.236 x 170 = 40.1°C (6) CONTINUOUS CURRENT RATING OF SM72482 The SM72482 can deliver pulsed source/sink currents of 3A and 5A to capacitive loads. In applications requiring continuous load current (resistive or inductive loads), package power dissipation, limits the SM72482 current capability far below the 5A sink/3A source capability. Rated continuous current can be estimated both when sourcing current to or sinking current from the load. For example when sinking, the maximum sink current can be calculated as: where • RDS(on) is the on resistance of lower MOSFET in the output stage of SM72482 (7) Consider TJ(max) of 125°C and θJA of 170°C/W for an SOIC package under the condition of natural convection and no air flow. If the ambient temperature (TA) is 60°C, and the RDS(on) of the SM72482 output at TJ(max) is 2.5 Ω, this equation yields ISINK(max) of 391mA which is much smaller than 5A peak pulsed currents. Similarly, the maximum continuous source current can be calculated as where • VDIODE is the voltage drop across hybrid output stage which varies over temperature and can be assumed to be about 1.1V at TJ(max) of 125°C (8) Assuming the same parameters as above, this equation yields ISOURCE(max) of 347mA. Copyright © 2011–2013, Texas Instruments Incorporated Submit Documentation Feedback 9 Product Folder Links: SM72482 |
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