Salt Generators can run on 110/120 volts or 220/240 volts. They have a transformer that steps the current down to 12 volts so the electrical usage is very minimal. None of the manufactures even mention power usage because it is so low; your pool pump is going to draw 100 times more power than a salt generator. So if you are thinking of installing a salt generator don't even make this a consideration because if it cost you $10 a season I would be shocked (no pun intended).
Europe uses 220/240 volts, USA and Canada use 110/120 volts. The lower voltage is less dangerous if you touch a live wire.
If you are referring to domestic electrical outlets, most regions use either 110 - 120 volts or 230 - 240 volts.
firstly please know what is ment by secondary and primary? primary-it means power is given to that port secondary-it means power is taken from that port you can use the transformer in any mode that meas you can give power to primary for taking power from secondry and vice versa. you can use the power delivered by the transformer from the secondry for any purpouse
Volts = Amps * ohms 110 = 100*1.1 Thus the voltage was 110 Volts.
110 volts
110 volts was chosen to make light bulbs practical and economically competitive with gas lighting. Edison selected 100 volts as a compromise between distribution costs and lamp costs. Generation was maintained at 110 volts to allow for a voltage drop between generator and lamp.[1]
A 3000W 110V generator can provide up to 27A.
amps*volts=watts 40 amps *12 volts= 480watts watts/volts=amps 480watts/110volts=4.36363636amps So you need a 110 volt generator that can produce about 5 amps as a bare minimum. To take into account system heat loses that occur when converting power consider doubling it to be safe. (this is over kill but the advantage is that your generator is not working at full capacity at all times)
If you need 50 amps you can use a 60 amp generator or any other generator rated to supply more amps. The voltage, 110 v or 240 v, must be the right voltage for the load used.
The relationship between amps (electrical current, or I), volts (electrical potential, or V) and watts(electrical power, or P) is represented by the equation P=VI. So at 110 volts, a 9000 watt generator can provide a maximum of about 82 amps.
The United States is one country that uses 110 volts. Also, Mexico and Canada are also other countries that use 110 volts.
If the plug is not specifically labeled 110 volts AC, check the owner's manual before using it for such devices as radios or other electronic equipment.
If the plug is not specifically labeled 110 volts AC, check the owner's manual before using it for such devices as radios or other electronic equipment.
If the plug is not specifically labeled 110 volts AC, check the owner's manual before using it for such devices as radios or other electronic equipment.
Any where from 110 volts to 130 volts alternating current is available from a 110 VAC outlet.
To calculate the amps, you can use the formula: Amps = Watts / Volts. So, for 2000 watts and 110 volts, 2000 watts / 110 volts equals approximately 18.18 amps.