PeRec Inductor voltage and current subinterval 1: switch in position 1 iL( L Inductor voltage t +vr1) R Small ripple approximation Knowing the inductor voltage, we can now find the inductor current via v2()=L dt So/ve for the slope The inductor current changes with an dt essentially constant slope
Power Electron cs i 11 Inductor voltage and current Inductor voltage and current subinterval 1: switch in position 1 subinterval 1: switch in position 1
PERec Inductor voltage and current subinterval 2: switch in position 2 Inductor voltage + v,t) R< v(t) Small ripple approximation Knowing the inductor voltage, we can again find the inductor current via )=L Solve for the slope The inductor current changes with an essentially constant slope 12
Power Electron cs i 12 Inductor voltage and current Inductor voltage and current subinterval 2: switch in position 2 subinterval 2: switch in position 2