These are the nominal voltages used by the UK's distribution system, although (to comply with European Harmonisation requirements, 415 V has now been 'replaced' with 400 V. Incidentally, the symbol for the volt is a capital 'V', not a lower-case 'v'.
220v, 415v, 6.6 kv, 11kv,33kv,132kv,400kv
The single phase voltage in India is 230v when we check with the phase and the nutral single line
415V 3 phase is the line to line voltage. The line to neutral of this supply is 230V single phase. Therefore you use one of the phases and the neutral.
In most countries electrical power is generated at high voltages, such as 11 kilovolts.The reason for this is that it is much more efficient to generate and distribute electrical power at such a high voltage instead of at lower voltages.For more information please see the answer to the Related Question shown below: 'Why is electricity transported in high voltage but not in current?'.Another reason is something historical: in olden days when the electricity became popular, engineers had a misconception that there would be a voltage loss of around 10% in the transmission line. So, in order to get 10 kilovolts at the load point, they started sending 11 kilovolts from supply side. This is the reason. It has nothing to do with form factor (1.11).Nowadays that reasoning has changed and we are using 400V instead of 440V, or, in Europe and other 50Hz areas of the world, 230V instead of 220V.
No you can't use a 415v motor in a 240 v socket.
220v, 415v, 6.6 kv, 11kv,33kv,132kv,400kv
transmission and distribution of electricity are the way of regulate voltage to the minimum rate in which can be benefit to the consumers. From generating station , voltage generated is up 16/25kv which step up upto 330kv this generating voltage now step down in the transmission station through the step down transformer which is 132kv this voltage now transmitting to distribution station where voltage now step down to 33kv, this 33kv now stepdown to 415v for three line and 240/220v for a line for the uses of consumers.
Insulation level is different between the cables.
In India its 415V, 50Hz.
High and low voltage can be stabilizes in a 415V battery, by ensuring that it is being spread across the battery evenly. It is important that all of the energy not come from one area.
in low voltage connection in wye (star conncetion) 415v high voltage connection in delta 480v
The voltage of three phase is 415v and the colours are brown black and greyAnswerThe nominal line voltage is 400 V, and the nominal phase voltage is 230 V.
The single phase voltage in India is 230v when we check with the phase and the nutral single line
LT motors are those motor whose voltage rating is less than 415v.
415V 3 phase is the line to line voltage. The line to neutral of this supply is 230V single phase. Therefore you use one of the phases and the neutral.
The nominal voltage in the UK is 400/230 V. That is 400 V line-to-line (i.e. line voltage), and 230-V line-to-neutral (i.e. phase voltage). Allowable variation is +10% and -6%.
If you want 415 volts, and you are getting 33,000 volts something is horribly wrong. Voltage is stepped up / stepped down for transmission to "load centers" (you) because of the "I^2 R" losses. Power = current squared times the resistance. The resistance of the conductor that is carrying your power is finite and cannot be made to be zero (unless you're using superconductors), so to minimize power loss incurred by transmission to you, the current must be decreased. This is accomplished by stepping the voltage up to a higher value (since power = voltage / current, the same power at a higher voltage can be delivered with a smaller current, thus less transmission loss). Voltage and current are stepped up/down using transformers. I hope this covers your question.