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Re: SRSG remote phase controller
Original poster: "steve" <steve_vance-at-cablelynx-dot-com>
John,
Thanks for the info. I get it now. The old swap and see system.
I know it well ;^)
Steve
----- Original Message -----
From: "Tesla list" <tesla-at-pupman-dot-com>
To: <tesla-at-pupman-dot-com>
Sent: Sunday, January 25, 2004 3:16 PM
Subject: Re: SRSG remote phase controller
> Original poster: FutureT-at-aol-dot-com
>
> In a message dated 1/25/04 2:15:56 PM Eastern Standard Time,
> tesla-at-pupman-dot-com writes:
>
> >to determine the capacitor size. Could someone help me out? Also, I have
> >a 3.5 amp variac laying around. Is there some reason this wouldn't work?
> >the motor only draws 1.5A.
> >
> >Thanks
> >Steve Vance
> >
>
>
> Steve,
>
> Your variac will work fine for the phase shifter.
> To select the cap size, try a certain value for example 25uF
> and see how it works. Measure the voltage across the motor
> terminals when the circuit is all built and working and see
> if the motor voltage goes 5 volts higher than the line input
> voltage at any position of the variac. In other words sweep
> the variac knob slowly through its range and see if the voltage
> across the motor ever goes 5 volts higher than the line voltage.
> For example if line voltage is 120 volts, you're looking for
> a max of 125 volts across the motor at the point when the
> variac gives the max voltage across the motor. This max
> voltage could occur at anyplace on variac dial, perhaps
> 1/3rd of the way to the end or whatever. You're looking for
> a slight resonant rise. This helps the phase shifter to keep
> the motor locked for the full ranged of the variac knob. I mean
> locked in sync at the sync rpm. If you get more than a 5 volt rise
> across the motor, then use a smaller capacitor. If you get
> less than a 5 volt rise over line voltage across the motor, then
> use a larger capacitor. It's a trial and error thing to find the
> correct cap value. Also the
> rise does not need to be exactly 5 volts over the line. It can
> be a rise of perhaps 3 volts to 7 volts. Some systems even
> work with no resonant rise at all. With no rise, the motor
> may drop out of sync before the end of the variac's range.
> You have to try it and see what happens. Every motor and
> combo is different. You have to go though the trials to see.
> If the motor loses lock near the end of the variac, some folks
> simply limit the knob range so they don't lose lock. Let
> me know if my explanation is still not clear.
>
> John
>
>
>