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STD110NH02L_06 Datasheet, PDF (12/15 Pages) STMicroelectronics – N-channel 24V - 0.0044ohm - 80A - DPAK STripFET TM III Power MOSFET | |||
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Buck converter - power losses estimation
STD110NH02L
Appendix A Buck converter - power losses estimation
Figure 18. Buck converter: power losses estimation
The power losses associated with the FETs in a synchronous buck converter can be
estimated using the equations shown in the table below. The formulas give a good
approximation, for the sake of performance comparison, of how different pairs of devices
affect the converter efficiency. However a very important parameter, the working
temperature, is not considered. The real device behavior is really dependent on how the
heat generated inside the devices is removed to allow for a safer working junction
temperature.
â The low side (SW2) device requires:
â Very low RDS(on) to reduce conduction losses
â Small Qgls to reduce the gate charge losses
â Small Coss to reduce losses due to output capacitance
â Small Qrr to reduce losses on SW1 during its turn-on
â The Cgd/Cgs ratio lower than Vth/Vgg ratio especially with low drain to source
â voltage to avoid the cross conduction phenomenon;
â The high side (SW1) device requires:
â Small Rg and Ls to allow higher gate current peak and to limit the voltage feedback on
the gate
â Small Qg to have a faster commutation and to reduce gate charge losses
â Low RDS(on) to reduce the conduction losses.
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