Depends on the voltage. Volts x Amps = Watts
The TDA85600 is a class-D amplifier chip that can deliver up to 50 watts per channel into a 4-ohm load or 30 watts per channel into an 8-ohm load.
The power (in watts) can be calculated by multiplying the current (in amps) by the voltage (in volts). In this case, 10 amps at 12 volts would result in 120 watts of power (10A * 12V = 120W).
nominal 600 watts 610 Watts
rectifier is used to resist the current likewise in bridge wave rectifier ,the inductive load is used to resist high amount of current because in bridge wave we cannot resist the current by using rectifier ..so we are using inductive load here
UPS power is not specified in watts.However VA is the equivalent of watts, assuming no phaseshift in the load.
watts is an instantaneous measurement of energy. There is no time component. If you can produce 20 watts, then you can power exactly 20 watts for as long as that is being produced. If you have a 20 watt hour battery, you should be able to power a load requiring 5 watts for (20/5 =) 4 hours.
Load on an electrical system is the power being drawn from the system. All electrical devices like fridges, heaters and light bulbs have an associated power usage capacity measured in Watts(W). Thus, we have a 60W light bulb. When these devices are all connected to an electricity network their combined power usages is load on the system. Load can also refer to usage of say a house or factory. Often this will vary over time depending on what devices are turned on inside. The opposite of load is generation, also measured in Watts. A power plant's generation capacity is so great it is usually measured in Mega Watts (MW) or a million watts. The generation and the load on a system have to be balanced otherwise the system becomes unstable. This can lead to load shedding and blackouts.
The most basic calculation is volts multiplied by amps of a circuit for a single phase load.
Watts = Amps * Volts Watts = 20 amps * 100 Volts Watts = 2000 2,000 Watts or 2k Watts
Watts = Amps * Volts Watts = 20 amps * 100 Volts Watts = 2000 2,000 Watts or 2k Watts
A dimmer switch is used for lighting loads and not heating loads. The wattage rating on a dimmer switch is what the manufacturer recommends as the maximum load that the switch can handle. For example if you have ten 100 watt lamps, the total load wattage would be 1000 watts (10 x 100). Too much load for a 600 watt rated dimmer switch but not for a 1000 Watt rated dimmer switch. So you can see that the rating on a dimmer switch governs the maximum wattage load that can be connected in the circuit that is to be controlled.
Yes, you can use a 1000 watts transformer with a 700 watts appliance. The transformer's capacity should be equal to or greater than the appliance's wattage to prevent overloading or damage. In this case, the 1000 watts transformer has enough capacity to safely power the 700 watts appliance.