Voltage fluctuation/flicker and cycle-by-cycle options further enhance the functionality of the world's most stable and accurate instrument of its type
New voltage fluctuation/flicker and cycle-by-cycle options have been introduced for the Yokogawa WT3000 three-phase precision power analyser, further enhancing the functionality of the world's most stable and accurate instrument of its type.
With the new functionality, the WT3000 is compliant with the IEC6100-3-3 standard.
The instrument can be used to carry out normal flicker measurement, in which it calculates all the values of the relative steady-state voltage change (dc), the maximum relative voltage change (dmax), the period during which the relative voltage change exceeds the threshold level (d(t)), the short-term flicker value (Pst), and the long-term flicker value (Plt).
It then compares them to preset limits, and provides a 'pass/fail' judgment.
It can also be used for the measurement of dmax caused by manual switching.
It does this by measuring the maximum relative voltage change, dmax, when the EUT switch is manually turned on and off, determining the average over 24 measurements, and comparing and judging against the limit.
Other parameters that can be measured include instantaneous flicker sensation (IFS) and cumulative probability function.
Measurements of voltage fluctuation and flicker, along with harmonic current measurement (compliant with IEC61000-3-2 rev.2.2), are essential to test compliance with the latest European standards.
The WT3000 allows these standards tests to be performed on single-phase or thjree-phase equipment, and will determine whether the results fall within the specified limit values.
The cycle-by-cycle function takes measurements of parameters such as voltage, current, and active power for each cycle, and then lists the data on screen in a time series.
This function is intended for use in situations where the measurement data exhibits significant fluctuations.
A typical application is motor evaluation, where rapid load fluctuations can occur.
The new function takes measurements of parameters such as voltage, current and active power for each cycle, and then lists the data on screen in a time series.
Up to 3000 measurements of signals from 0.1Hz to 1kHz can be saved in CSV format.
The Yokogawa WT3000 precision power analyser provides 'best in class' precision and stability.
With a basic power accuracy of 0.02% of reading, DC and 0.1 Hz-1 MHz measurement bandwidth, and up to four input elements, the WT3000 provides a high-accuracy measurement solution for testing all types of power electronics products.
