Robust feedforward compensation scheme with AC booster for high frequency low voltage buck DC–DC converters

Abstract: Today and in the future, high frequency low voltage DC-DC converters are an effective power-management solution for fast transient response and small profile in portable electronic systems. This paper presents a robust feedforward compensation scheme with AC booster. An ac amplifier is added in parallel with the main path to compensate the high-frequency gain reduction, which improves gain-bandwidth (GBW) product and slew rate significantly. This approach takes the multistage error amplifier (EA) as an element… Show more

“…However, the complex structure, large size and multiple-switch drive circuits limit the application in fuel cell vehicles. In the research on DC-DC converter feedforward compensation, the traditional boost and buck circuits with the feedforward compensation strategy are proposed in [22][23][24] and good control effects are obtained. However, these topologies are simple, which are not suitable for fuel cell vehicles.In [25], a quasi-Z-source DC-DC converter, which has wide voltage input range, high gain, and low voltage stress, is proposed.…”

Research on Composite Control Strategy of Quasi-Z-Source DC–DC Converter for Fuel Cell Vehicles

“…However, the complex structure, large size and multiple-switch drive circuits limit the application in fuel cell vehicles. In the research on DC-DC converter feedforward compensation, the traditional boost and buck circuits with the feedforward compensation strategy are proposed in [22][23][24] and good control effects are obtained. However, these topologies are simple, which are not suitable for fuel cell vehicles.In [25], a quasi-Z-source DC-DC converter, which has wide voltage input range, high gain, and low voltage stress, is proposed.…”

Research on Composite Control Strategy of Quasi-Z-Source DC–DC Converter for Fuel Cell Vehicles