hawk7 said:
I've seen the sine wave for 3 phase. When one leg is at its peak the second is 2\3 on it way down and the last one is 1/3 on it way back up to peak. So each one is 120 out of phase with each other.
Correct.
hawk7 said:
So If I am going across 2 of these 3 legs I get the 240v
Correct if you assign A,B, and C to the connection points and measure A-B, A-C, and B-C.
hawk7 said:
but thought I would also get the 120 phase shift.
Incorrect.
hawk7 said:
Since the motor is single phase and operates on the 240 single phase with a phase shift of 180
If you label the legs of the transformer A, B, and C you will measure 240vac from A to B, from A to C, and from B to C. If you choose to connect your motor from A to C, the motor will see single-phase 240vac.
hawk7 said:
I didnt know if this would work. I guess I still don't see the last phase issue. Isnt there still a phase shift of 120 between the 2 phases regardless of the third leg?
Yes but if you connect across A to B you are using only one phase. If you connect 3 motors, one across A-B, one across B-C, and one across A-C, each of the motors will be across a single phase and each of the motors will operate approximately 120 degrees out of phase with the others.
hawk7 said:
I am using the power company 3 phase. I didnt install a single phase transformer. The Delta Tranformer is on the power company side. It takes the 13.8kv down to 240v I am assuming its a Delta since I have 240 and not 208( Wye ).
That is correct in a residential situation, but not universally true.
hawk7 said:
The breaker panel has 3 phase breakers in it and single phase breakers.(one leg to groung for the 110v)
You are referring to single pole breakers and double pole breakers, phase has nothing to do with it. The double pole breakers connect to both buss bars in your main breaker panel, thus when ON the screws on the breaker will measure 240vac across them and 120vac from each to neutral. From the utility delta transformer assume you are connected to the A and B terminals which will be connected to the double pole main breaker in your main breaker panel. The utility company will also tap into the center of the A-B transformer winding and connect that to the neutral buss in your main breaker panel. The NEC requires the neutral wire to be earthed within several feet of the connection. Since it is earthed, it is termed the groundED conductor. The safety groundING conductor AKA equipment groundING conductor is connected to the neutral buss as well as all metal plumbing. The groundING conductors are not relevant to your question other than to remember to connect the frame of the motor to the EGC to prevent it being energised due to insulation failure.
So you have single-phase power delivered to your home. I think your confusion arises from the fact that from leg A to neutral (N) measures 120vac and from B to neutral (N) measures 120vac. When measuring from A-B you measure 240vac thus indicating A-N is 180 degrees out of phase with B-N. Join the club, you have lots of company, the point is arguable but in practical terms it don’t mean a thing except don't connect one to the other. The important thing to know is that your residence receives single phase power.
hawk7 said:
So I was going to put in a 3kva single phase transformer to correct the phase shift.(2 legs hook up to the primary from 2 of the 3 phase legs) and then I would have 240/110 on the seconday with.so a phase shift of 180.
Totally unnecessary
hawk7 said:
I hope I am not making this more confusing than what it is?
You are.
