control power circuits,grounded ,ungrounded

[a.bisnath]

In my work on many relay control panels with 110 volt control power I have met some where one side of the secondary winding is connected to earth giving a 110 vac to 0 volt potential
I have also met floating secondary windings giving a higher and lower voltage to earth depending on which side of winding is being tested,but across will give the 110vac

Are there any particular reasons or considerations for doing this?

 

[Volta]

An ungrounded system has the advantage of continuing to operate when one of the conductors accidentaly becomes shorted to 'ground'.

A grounded two-wire system only has a 50% chance of doing that.

 

[SG-1]

If the control power transformer primary side is 14,400 volts, it would be a good idea to ground one side of the secondary to keep the line to ground voltage at a safe level.

 

[Open Neutral]

An ungrounded system has the advantage of continuing to operate when one of the conductors accidentaly becomes shorted to 'ground'.

A grounded two-wire system only has a 50% chance of doing that.

I understand [WWII] naval warships typically floated both sides of power above err ground. The reason was that way, if either side is shorted to ground during a battle, the turret keeps rotating, the guns keep firing. [They actually go one step further; shunting across the fuses with "battleshorts" on the basis it is better to have fires in the wiring than be dead in the water.]

The big issue with floating the control secondary is it can float almost anywhere, and that could be a threat to anyone/anything touching that alleged low voltage. Sometimes one side, or both, is grounded via a resistor sized to pass a few ma. With a balanced scheme, it's a LOT easier to troubleshoot things in the field, by measuring to ground.

 

[72.5kv]

This typical of substation DC power supply. Typical float voltage to ground is about 66Vdc