An improved integrated control modeling of a high-power density interleaved non-inverting buck-boost DC-DC converter
World Journal of Engineering, 2018•emerald.com
Purpose This paper aims to propose a novel integrated control method (ICM) for high-power-
density non-inverting interleaved buck-boost DC-DC converter. To achieve high power
conversion by conventional single phase DC-DC converter, inductor value must be
increased. This converter is not suitable for industrial and high-power applications as large
inductor value will increase the inductor current ripple. Thus, two-phase non-inverting
interleaved buck-boost DC-DC converter is proposed. Design/methodology/approach The …
density non-inverting interleaved buck-boost DC-DC converter. To achieve high power
conversion by conventional single phase DC-DC converter, inductor value must be
increased. This converter is not suitable for industrial and high-power applications as large
inductor value will increase the inductor current ripple. Thus, two-phase non-inverting
interleaved buck-boost DC-DC converter is proposed. Design/methodology/approach The …
Purpose
This paper aims to propose a novel integrated control method (ICM) for high-power-density non-inverting interleaved buck-boost DC-DC converter. To achieve high power conversion by conventional single phase DC-DC converter, inductor value must be increased. This converter is not suitable for industrial and high-power applications as large inductor value will increase the inductor current ripple. Thus, two-phase non-inverting interleaved buck-boost DC-DC converter is proposed.
Design/methodology/approach
The proposed ICM approach is based on the theory of integrated dynamic modeling of continuous conduction mode (CCM), discontinuous conduction mode and synchronizing parallel operation mode. In addition, it involves the output voltage controller with inner current loop (inductor current controller) to make a fair balancing between two stages. To ensure fast transient performance, proposed digital ICM is implemented based on a TMS320F28335 digital signal microprocessor.
Findings
The results verify the effectiveness of the proposed ICM algorithm to achieve high voltage regulating (under 0.01 per cent), very low inductor current ripple (for boost is 1.96 per cent, for buck is 1.1) and fair input current balance between two stages (unbalancing current less than 0.5A).
Originality/value
The proposed new ICM design procedure is developed satisfactorily to ensure fast transient response even under high load variation and the solving R right-half-plane HP zeros of the CCM. In addition, the proposed method can equally divide the input current of stages and stable different parallel operation modes with large input voltage variations.
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