The DC output was then fed into a camshaft motor controller which provided for smooth acceleration.

In its simplest form this can be just a reservoir capacitor or smoothing capacitor, placed at the DC output of the rectifier.

If a DC output is required, the AC output from the transformer is rectified.

Depending on design/safety requirements, the controller may contain an isolation mechanism (such as opto-couplers) to isolate it from the DC output.

The charge controller provides a regulated DC output and stores excess energy in a battery as well as monitoring the battery voltage to prevent under/over charging.

In this style of connection, the charger's DC output has no effective limit, theoretical or practical.

The DC output is a product of the rated output times the number of panels times the insolation times the number of days.

These power supplies provide stable DC output that can be used to run computers and other electronics load.

Power electronics are also essential for any power source that is required to produce an AC output but that by its nature produces a DC output.

Rectifiers may use a three-phase source to produce a six-pulse DC output.