Can a variac be used to maintain constant voltage?


Hi: I amusing a variac to control the power going to our Threshold S/500 II. Over the past year that I have had the amplifier connected I have only had to adjust the variac voltage within +/- 1 volts perhaps thrice in order to maintain a constant 120 volts. I simply wonder if in fact the variac is designed to maintain a consistent voltage despite incoming voltage swings. I read one forum thread in which a member stated that a variac can not compensate for swings in incoming voltage, for instance if the incoming voltage is 125 volts, the variac will swing to 125 volts despite having the set the dial to a constant 120 volts. Thank you for your assistance.
somut
With your voltage only varying by around 1-2 volts, plug your amp right into the outlet. I would love to have my voltage stay that close to 120 volts. Mine will vary up to five volts, and sometimes more, the same same day. I live in a straight residential area. In other words, no commercial equipment running off of my part of the substation feeding the power to our house. My friends that even live in a different state have similar variations.

One problem with a variac can be when your amp draws a lot of current (when it puts out a lot of watts), the voltage will drop a lot more through the variac. Another problem a regular conventional variac will usually have a contact (sometimes with a motor type brush), that can add noise to your power. With voltage that stable, plug your equipment in without the variac. You will be way better without it.

I have a couple of variacs. One of them will put out about 130 volts, the other one will put out about 140 volts (if memory is correct) with 120 volts in. More voltage output yet, with more than 120 volts in. With my voltage running low, and a variac boosting it, it could output way too much when the voltage would go back to 120 volts, or worse yet, a lot more when my voltage goes to around 126 volts, as it does sometimes. That would probably damage something. Another good reason not to run one.

Variacs are mostly used for testing. One would be to correct the voltage to 120 volts for testing and measuring, another reason is to simulate what some equipment will perform like on 114 volts to 127 volts. This is what an outlet can give out, and still be within power guidelines set by government regulations. They can be used for testing and simulating, or temporarily correcting other voltage swings too. But still, they are mainly used for testing.
On a related point what is the difference between a variac and an autotransformer (which is what I have)? Thanks.
On a related point what is the difference between a variac and an autotransformer?
The Wikipedia writeup I linked to earlier provides a good answer:
From 1934 to 2002, Variac was a U.S. trademark of General Radio for a variable autotransformer intended to conveniently vary the output voltage for a steady AC input voltage. In 2004, Instrument Service Equipment applied for and obtained the Variac trademark for the same type of product.
So a Variac is a kind of autotransformer. Other kinds of autotransformers may not be variable, and may be designed for purposes other than controlling AC power. The "autoformers" used in the output circuits of some McIntosh amplifiers are an example of an autotransformer that is not a Variac.

Regards,
-- Al
Thanks all for your informative input. I guess a variac is simply not suitable for my purposes so I am selling it.
Kind of late to the party here, but I have used a product built by Furman called the AR-15 series II, which regulates AC output voltage. It works like some of the products mentioned above, where it has a multi-tapped transformer tapped every volt or so between 90 and 130 volts. It is electronically switched (as opposed to mechanical contacts). Regulates quite well, although I have stopped using it for my audio equipment. The dynamic output impedance of this device fights with the power supplies of the Cambridge Audio 840 CD deck. Still use for computers and other devices. Really works to minimize power brown outs or over voltages.