Motor Starting Ability

Phase Perfect® vs other phase conversion solutions

Simplified phase conversion summaries, for single motor loads

Static Phase Converter

Motors running on a static phase converter start with unbalanced three-phase but run single-phase, with a significant loss in power and efficiency while running.

Rotary Phase Converter

Motors running on a rotary phase converter, unless sized much smaller than the rotary, start largely single-phase (more on that later), but can run three-phase, with three-phase voltage balance dependent on many variables.

Phase Perfect® Phase Converter

Motors running on a Phase Perfect phase converter both start and run three-phase, with excellent three-phase voltage balance.

We demonstrate these summaries with a simple test

Our test load consisted of a Hoffman Centrifugal Blower driven by a 3500RPM Continuous-Duty 3-phase induction motor. This load has similar startup characteristics to a geared head lathe or dust collector. This load was started with a 10 Horsepower Phase Perfect® Enterprise and a 20 Horsepower name-brand rotary phase converter, both with the same 240 V single-phase supply.

The rotary phase converter manufacturer recommends a 3 Phase Sizing of 25 amps in the fine print but recommends the converter to start hard motor loads such as gearhead lathes, dust collectors, or fans up to 10 Horsepower. The 10 Horsepower Phase Perfect can provide 36 amps of steady-state output and is rated to across-the-line start a motor with a nameplate rating up to 10 Horsepower. Both phase converters are marketed and sold as being appropriate for this test load.

During startup, data was collected with an oscilloscope including voltage and current on a pass-through leg as well as the generated leg.

Pass-through Leg

Phase Perfect® Rotary
Peak Starting Current 180 A 248 A
RMS Starting Current 132 A 175 A

Generated Leg

Phase Perfect® Rotary
Peak Starting Current 122 A 17 A
RMS Starting Voltage 220 V 162 V

The time taken to bring the motor and blower to full speed was 12 whole seconds for the rotary phase converter, compared to only 7 seconds for the Phase Perfect®.

The voltage drop on the generated leg of the rotary phase converter was significant. The motor was effectively forced to start with most of the energy supplied directly by the pass-through legs, resulting in significantly higher current draw during startup.

Scope Photos


Phase Perfect Enterprise full startup. A, B show Volts and Amps for the pass-thru leg, while C, D show Amps and Volts for the generated leg. Pass-thru voltage and current and the generated leg are roughly equal.


Rotary phase converter full startup. A, B show Volts and Amps for the pass-thru leg, while C, D show Amps and Volts for the generated leg. Pass-thru and generated legs show significant imbalance in both voltage and current.


Rotary phase converter startup detail. In this detail view of the startup with the rotary phase converter it is obvious why the motor started so much more slowly. The rotary converter was only able to supply 17 A to the third winding of the motor.

This blower would generally be considered a hard load to start, but more difficult loads exist, including air compressors, submersible pumps, or hydraulic pumps used to drive equipment such as elevators.

Real-world effects

  1. Increased current means a larger electrical capacity requirement – you need a larger single-phase service for a given load. This can be clearly seen in the test data, as the rotary phase converter caused the load to draw significantly more current during motor start.

  2. Unbalanced voltage translates to lower motor efficiency and less torque -- in this case shown as a much longer time to come up to full speed.

  3. Unbalanced voltage creates heat, and heat greatly reduces the lifespan of a motor. Frequent starts and stops would likely result in a significantly shorter service life for this load being started from the rotary converter.

To read a more in-depth analysis of the differences between different phase conversion technologies read the Phase Conversion Technology whitepaper.

Phase Perfect®

The original Phase Perfect® supplies power to some of the most demanding applications available under some of the most challenging conditions imaginable. Utility-quality three-phase power anywhere you need it.

See the Phase Perfect®
Phase Perfect® Enterprise

The Phase Perfect® is also available in a compact, high-value, configuration where the customization options of the original are not required. These Enterprise models have the same modern digital phase conversion technology inside as the original.

See the Phase Perfect® Enterprise