Nikolas Menger scite author profile

This paper proposes an improved method for the loss estimation of a Dual Active Bridge (DAB) using frequency domain modelling. The method uses a detailed, frequency depending transformer model to describe even highly utilized DABs. The model is used to estimate the occurring losses of a DAB as part of an modular Solid State Transformer (SST). The influence of the SST's phase power ripple is considered for the loss estimation. The results of the frequency domain model and the loss calculation are validated using measurement data of an SST-cell prototype.

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Accurate Time Domain Zero Voltage Switching Analysis of a Dual Active Bridge with Triple Phase Shift

Sommer

Menger

Merz

et al. 2021

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In this paper an accurate capacitance time domain model (CTD) of the Zero Voltage Switching (ZVS) behaviour of a Dual Active Bridge considering deadtime, MOSFET Drain-Source capacitances and transformer stray inductances is presented. Building upon this a DAB model considering voltage-time errors caused by resonant commutation for Single Phase Shift (SPS) and Triple Phase Shift (TPS) is derived. Additionally a formula to calculate the optimal deadtime according to the CTD is proposed. Measurements at different operation points validate the consistency of the resonant commutation model and the voltage-time error model for the DAB.

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Design guideline for PCB integrated, high bandwidth, current slope sensing based on a planar Rogowski coil

Stos

Wurster

Menger

et al. 2021

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Transient Power Control Algorithm for a Dual Active Bridge

Menger

Sommer

Merz

et al. 2021

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This paper presents a novel approach for transitions between operating points for the dual active bridge converter. The method is applicable to arbitrary modulation schemes. Steady state operation is attained after one switching period while the correct power transfer during the transition is ensured. The paper outlines the analytical deriviation of the method. Simulation results and measurement data validate the approach.

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Nikolas Menger

Design and Characterization of a 500 kW 20 kHz Dual Active Bridge using 1.2 kV SiC MOSFETs

Loss Estimation of a Dual Active Bridge as part of a Solid State Transformer using Frequency Domain Modelling

Accurate Time Domain Zero Voltage Switching Analysis of a Dual Active Bridge with Triple Phase Shift

Design guideline for PCB integrated, high bandwidth, current slope sensing based on a planar Rogowski coil

Transient Power Control Algorithm for a Dual Active Bridge

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