Maurizio Zajadatz scite author profile

Maurizio Zajadatz

4Publications

0Citation Statements Received

16Citation Statements Given

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Affiliations

Karlsruhe Institute of Technology

Publications

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Emulation of grid-forming inverters using real-time PC and 4-quadrant voltage amplifier

Schulze

Zajadatz

Suriyah

2021

Forsch Ingenieurwes

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A test bed for the evaluation of novel control methods of inverters for renewable power generation is presented. The behavior of grid-following and grid-forming control in a test scenario is studied and compared.Using a real-time capable control platform with a cycle time of 50 µs, control methods developed with Matlab/Simulink can be implemented. For simplicity, a three-phase 4‑quadrant voltage amplifier is used instead of an inverter. Thus, the use of modulation and switched power semiconductors can be avoided. In order to show a realistic behavior of a grid-side filter, passive components can be automatically connected as L‑, LC- or LCL-filter. The test bed has a nominal active power of 43.6 kW and a nominal voltage of 400 V.As state-of-the-art grid-following control method, a current control in the d/q-system is implemented in the test bed. A virtual synchronous machine, the Synchronverter, is used as grid-forming control method. In combination with a frequency-variable grid emulation, the behavior of both control methods is studied in the event of a load connection in an island grid environment.

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Experimental Validation of Thermal Monitoring Systems for Medium-Voltage Switchgears

Zajadatz

Suriyah

2022

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Emulation of Grid-Following Inverters for Impedance-Based Stability Analysis regarding Outer Control Loops

Hirsching

Schulze

Zajadatz

et al. 2021

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Possibilities of Conventional PD Measurements with Non-Sinusoidal Waveforms for Electric Vehicles

Zajadatz¹,

Hörmann²,

Suriyah³

2022

NORD-IS

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Electrical traction machines in electric vehicles are normally fed by converters with DC link voltages up to 800 V. The resulting voltage pulses place particular stress on the insulating system of the drivetrain. In order to be able to investigate insulating material samples, e.g. twisted pair enameled wire, with voltages of different shapes and high frequency, a shielded experimentalsetup for the investigation of partial discharges (PD) at low voltages and high frequencies is presented. A medium frequency transformer with a frequency range up to 2500 Hz is used for this purpose, fed by a linear power amplifier on the primary side. The amplifier has a slew rate of 52 V/μs and is capable of sourcing various voltage waveforms such as sinusiodal, triangularor rectangular, with a maximum frequency of 30 kHz. Electrical PD measuring methods according to IEC 60270 as well as acoustic and optical measurement methods are applied for PD diagnosis. The experimental setup is intended to demonstrate the possibilities and limitations of conventional PD diagnostics for nonsinusoidal voltages. Focus is placed on the application of filters, the damping behavior of the step-up transformer and the rise times of the voltages.

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