![]() The resonant converters also have to agree to some of these basic rules. Both can however discharge into a dissipative load, without causing any voltage or current amplification. This rule is analogous to the energy exchange between a source of Potential Energy (Voltage of a Capacitor) and a sink of Kinetic Energy (Current in an Inductor) and vice-versa. The first would cause current stresses while the latter results in voltage surges. A voltage source cannot discharge into a voltage sink and neither can a current source discharge into a current sink. It does not require an explanation that a current source must be made to deliver its energy into a voltage sink and vice-versa. All other switching converter MUST fall into one of these configurations if it does not increase the switching stages further for example into a V-I-V-I converter which is difficult to realize through a single controlled switch. It performs step-up or step-down of voltage using minimum components. Following are the benefits or advantages of Buck Boost Converters: Buck converter offers most efficient solution with smallest external components. The Buck converter may consequently be seen as a Voltage to Current converter, the Boost as a Current to Voltage converter, the Buck-Boost as a Voltage-Current-Voltage and the CUK as a Current-Voltage-Current converter. Benefits or advantages of Buck Boost Converters. The Canonical Cell forms the basis of analyzing switching circuits, but the energy transport mechanism forms the foundation of the building blocks of such converters. ![]()
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