To convert kilovolts (kV) to volts (V), you multiply by 1,000. Therefore, 220 kV is equal to 220,000 V.
KV is the abbreviation for kilovolts. The prefix kilo means thousands, so 220 kv means 220 kilovolts, or 220,000 volts.
220 KV lines used in Kerala have a capacity of 880 Amps
Its just a matter of standard. In my area, for instance, we use 13.2 KV for distribution lines, and 69 KV / 138 KV for transmission lines.
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A: Its purpose is to correct the power factor of the line.
The lower-case 'k' in 'kV' (not 'kv') is a multiplier, representing 'kilo', meaning 'a thousand times', and the upper-case 'V' represents 'volts', the SI unit for potential difference. So a '220-kV' cable has a line voltage (voltage between conductors) of 220 kV.
KV is the abbreviation for kilovolts. The prefix kilo means thousands, so 220 kv means 220 kilovolts, or 220,000 volts.
220 KV lines used in Kerala have a capacity of 880 Amps
To calculate the current in amps for a 2 kV system with a primary voltage of 380 V and a secondary voltage of 220 V, you need to know the transformer's power rating (in watts) or the load connected. The formula to determine the current is ( I = \frac{P}{V} ), where ( P ) is the power in watts and ( V ) is the voltage in volts. For a 2 kV (2000 W) system, at 220 V, the current would be approximately ( I = \frac{2000 W}{220 V} \approx 9.09 ) amps. If you are looking for the primary current, you would use the primary voltage of 380 V instead.
220 kV
There are 0.001 KV in one V.
The electric field strength between two parallel plates can be calculated using the formula E = V/d, where E is the electric field strength, V is the potential difference, and d is the distance between the plates. Plugging in the values, we get E = 220 V / 5.2 mm = 42.31 kV/m. Thus, the electric field strength between the plates is 42.31 kV/m.
220 volts, 110 volts, 440 volts, 400 volts, AC or DC voltage. High voltage like - 220 KV, 400 KV, etc
For single-phase supplies, 120 v or 230 v or 240 v. For larger buildings with a three-phase supply, 208 v or 400 v, 415 v or 480 v. For very large buildings higher voltages e.g. 3.3 kV, 11 kV, or for huge factories 33 kV. In special cases buildings needing an unusual amount of power are fed at 110 kV.
i working 66 kv and 220 kv substation. over substatin transformer and 66 kv sf6 bracker use i intersted for working of idmt realys with breacker tripping coil.
i working 66 kv and 220 kv substation. over substatin transformer and 66 kv sf6 bracker use i intersted for working of idmt realys with breacker tripping coil.
This depends on the voltage ... amps = watts / volts 660 W / 110 V = 6 amps 660 W / 220 V = 3 amps 660 W / 330 KV = 2 mA