N. Fröhleke scite author profile

Applications such as electrolysis, electrowinning, DC arc furnaces and plasma torches require high-current (several kA) power supplies at low-voltage levels (few hundreds of volts). In this study, conventional rectifier topologies (diode-and thyristor-based multi-pulse rectifiers with on-load tap changing transformer and chopper-rectifier) used for high-current, variable-voltage applications are reviewed along with recent advancements in the field. The main applications themselves are also discussed. Issues with conventional topologies are highlighted. Power quality techniques like passive and active filters are discussed for power factor and current harmonics compensation. Advanced medium-to high-frequency transformer-based topologies (with current and voltage source rectifiers) are discussed along with simulation results.

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Simulation model for ultrasonic motors powered by resonant converters

Maas

Ide

Fröhleke

et al.

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Improved analytical modeling of conductive losses in gapped high-frequency inductors

Wallmeier¹,

Fröhleke²,

Grotstollen³

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Model-based control for ultrasonic motors

Maas

Schulte

Fröhleke

2000

IEEE/ASME Trans. Mechatron.

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A complete model-based control for traveling-wavetype ultrasonic motors is presented in this paper. The control scheme consists of inner control loops with respect to the oscillation systems, offering all meaningful degrees of freedom for adjusting the traveling bending wave, and outer control loops for torque and speed. After a brief review on modeling the actuator and presentation of a parameter identification method, the control scheme is developed and verified by measurements on a prototype drive system. Several measures for the compensation of nonlinearities and temperature effects are developed and achieved improvements are discussed with respect to the special properties of this novel actuator. Finally the developed drive is applied to an "active control stick."

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N. Fröhleke

Implementation of Hybrid Filter for 12-Pulse Thyristor Rectifier Supplying High-Current Variable-Voltage DC Load

High‐current variable‐voltage rectifiers: state of the art topologies

Simulation model for ultrasonic motors powered by resonant converters

Improved analytical modeling of conductive losses in gapped high-frequency inductors

Model-based control for ultrasonic motors

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