First you would disconnect the HO bushing connection from ground. Then you would megger low-side phase to ground.. Next you would megger high-side phase to ground.. Lastly megger high-side to low-side phase to phase. You would not megger phase to phase on each side because this is a direct connection.
Three-phase, pad mounted, transformers are normally 'pressure tested' i.e. subjected to a DC over-voltage for a specific period of time, using high-voltage test equipment rather than a megger as a megger's output voltage is usually far below the voltage-levels required for testing such transformers. The voltage/duration is in accordance with the transformer's relevant specifications which takes into account its windings' rated voltages. Pressure testing is performed in factory/workshop and after installation before commissioning.
The dc tests that can be done on a transformer are to measure the resistance of each windings and to measure the insulation resistance between the windings and between each winding and the transformer case.
The phase shift in three-phase transformer from winding of Transformer and determine by vectorgroup of transformer such as YNd1 High voltage connect to wye Low Voltage connect to delta so L.V. lag H.V 30 degree.Answer'Phase shift' or, more accurately, 'angular displacement', is the angle between the secondary line voltages and primary line voltages of a three-phase transformer.
There are various ways in which you can connect a three-phase transformer's primary and secondary windings, or in which you can connect three single-phase transformers to create a three-phase transformer bank. For example: wye-wye, wye-delta, delta-delta, delta-wye, etc.For each connection, there is a natural phase shift between the primary and secondary line voltages. This is called the angular displacement (or 'phase displacement') of the transformer connection.If you wish to parallel two three-phase transformers, or two three-phase transformer banks, then their angular displacements must be the same (there are also other requirements not relevant to this answer).A vector group is a method of specifying a three-phase transformer (or transformer bank) method of connection and its angular displacement. Transformer connections from the same group can be paralleled. Those in different groups cannot
If it's a split-phase system with centre-tapped transformer, then two ammeters are needed, one on each side.
Three-phase, pad mounted, transformers are normally 'pressure tested' i.e. subjected to a DC over-voltage for a specific period of time, using high-voltage test equipment rather than a megger as a megger's output voltage is usually far below the voltage-levels required for testing such transformers. The voltage/duration is in accordance with the transformer's relevant specifications which takes into account its windings' rated voltages. Pressure testing is performed in factory/workshop and after installation before commissioning.
The dc tests that can be done on a transformer are to measure the resistance of each windings and to measure the insulation resistance between the windings and between each winding and the transformer case.
You have to connect each phase (R,Y & B respectively) of earthing transformer zig zag winding to each phase of power transformer delta secondary respectively. Then the zig zag winding of earthing transformer star point to be earthed.
..the questions does not say wether the 30kVA transformer is 3 phase transformer or single phase transformer..but it is implying that a single phase welding load at 16A per phase is to be connect to it, it is assumed then that the transformer is 3 phase transformer..we assume load is rated 240V.. ..though not much details is given about the transformer voltage specs. but if is rated 3 phase 415/240V, the approx full load current per phase is given by 30KVAx1.3912=41.736A.. ..but if the transformer was rated single phase 240V say, the approx full load current FLC=30000/240V gives 125ampers.. ..if you further devide the FLC by the intended load current.. ..Recommended no of welders per for a 3 phase 415V transformer and assuming single welding sets =41.736/16=2.6..so you can connect max two welding sets to this transformer per phase,..max 6 weld sets can connect at an approx load factor of 76%.. ..for the single phase transformer, FLC/16=125/16, gives 7.8 but is also recommended not to connect more than 6 welding sets to such transformer for the same reasons..
You would connect two of the three phase power lines to the primary winding of the transformer and leave the third one disconnected. This will effectively create a single phase system with a center tap.
The phase shift in three-phase transformer from winding of Transformer and determine by vectorgroup of transformer such as YNd1 High voltage connect to wye Low Voltage connect to delta so L.V. lag H.V 30 degree.Answer'Phase shift' or, more accurately, 'angular displacement', is the angle between the secondary line voltages and primary line voltages of a three-phase transformer.
There are various ways in which you can connect a three-phase transformer's primary and secondary windings, or in which you can connect three single-phase transformers to create a three-phase transformer bank. For example: wye-wye, wye-delta, delta-delta, delta-wye, etc.For each connection, there is a natural phase shift between the primary and secondary line voltages. This is called the angular displacement (or 'phase displacement') of the transformer connection.If you wish to parallel two three-phase transformers, or two three-phase transformer banks, then their angular displacements must be the same (there are also other requirements not relevant to this answer).A vector group is a method of specifying a three-phase transformer (or transformer bank) method of connection and its angular displacement. Transformer connections from the same group can be paralleled. Those in different groups cannot
If it's a split-phase system with centre-tapped transformer, then two ammeters are needed, one on each side.
This depends on the voltage, and whether it is a three phase or single phase transformer.
Probably not, in the case of a three-phase transformer as it has been pre-connected, enclosed in a metal tank, fitted with the appropriate bushings, etc.. However, it is a relatively straightforward job in the case of a three-phase transformer bank that comprises three separate, single-phase, transformers. Whether you'll obtain your desired secondary voltage is another matter.
You use three CTs, one per line conductor, each feeding a separate ammeter,
Connect a VOM to one winding. Momentarily connect a battery to the other winding. When the battery makes contact, a pulse will occur on the other winding. If the pulse is positive, then the terminal connected to the plus lead is in phase with the lead connected to the battery.