EV Charging Analysis
Charging analysis can be done for conductive charging (AC or DC) and as well for the increasingly popular inductive charging. The inductive charging process (also called wireless power transfer) affords high switching frequencies of the inverter (up to 150 kHz) to reach the maximal efficiency of the power transfer.
The high sampling rate (1 MS/s) and the possibility to measure AC and DC currents of the Dewesoft Power Analyzer fulfill all requirements for testing both, conductive and inductive charging.
Charging analysis can be done for conductive charging (AC or DC) and as well for the increasingly popular inductive charging. The inductive charging process (also called wireless power transfer) affords high switching frequencies of the inverter (up to 150 kHz) to reach the maximal efficiency of the power transfer.
The high sampling rate (1 MS/s) and the possibility to measure AC and DC currents of the Dewesoft Power Analyzer fulfill all requirements for testing both, conductive and inductive charging.