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Download scientific diagram | Circuit diagram of boost converter From Fig. 3, during the switch is closed [10]; Vs is constant supply voltage, Vs = VL= L × (di/dt) (5) During the switch S is open; VS = VL + VC (6) Then, L × (di /dt) = VS-VC; di/dt = (VS-VC) / L Current increment when switch closed for duty cycle D; Imax-Imin = (VS /L) × D×T (7) Current decrement when switch open, Imin-Imax = (VS-VC) / L × (1−D) ×T (8) from publication: Performance of closed loop SEPIC converter with DC-DC converter for solar energy system | The Non-Conventional sources such as solar energy has been replacement and best exploited electric source. The solar electric power required DC-DC converter for production, controllable and regulation of variable solar electric energy. The single ended boost converter has | DC-DC Converters, Solar Energy and Solar | ResearchGate, the professional network for scientists.
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