Technical Parameters

★ AC Current Source: Single Phase: 3×40A Three Phase: 120A Power: ≥450VA/phase

★ Output Time: 0～10A Continuous, 10～20A ≥60 seconds, >20A ≥10 seconds

★ AC Voltage Source: Single Phase: 4×120V Power: ≥60VA/phase

★ DC Current Source: Single Phase: -10A～+10A Maximum Output Power: ≥200VA

★ DC Voltage Source: Single Phase: -150V～+150V Maximum Output Power: ≥100VA

★ AC Source Angle: Phase Angle: 0°～360° Accuracy: ±0.2°

★ AC Source Frequency: Frequency: 1～2000Hz Frequency Resolution: 1mHz

★ Harmonic Output: Capable of outputting harmonics of any amplitude from the 2nd to the 40th order

★ Synchronization: Voltage and current synchronization ≤10μS

★ Input: 8 channels compatible with 15V～250V active contacts, automatically identifies active contact polarity

★ Timing accuracy: ≤1ms when less than 1s

★ Output: 4 pairs of programmable switch dry contacts, capacity: AC/DC 250V, 0.5A

★ Power supply: 220V±10% 50Hz±10%

During testing, the voltage is tested point by point within this range. The frequency varies in each test round, but the voltage remains constant at a certain value. The voltage value gradually increases from the initial value until a certain value is reached, at which point the device releases the lockout and operates correctly. This value is the low-voltage lockout boundary value.

Since the device is locked when the voltage is below the lockout value, the initial change value should generally be set below the device's set lockout value, and the final change value should be set above the device's set lockout value. In other words, the test proceeds from the device not operating to operating, thereby measuring the device's low-voltage lockout value.