Upgrading a 36-volt golf cart to 48 volts involves replacing the existing batteries with 48-volt batteries, upgrading the charger to a 48-volt charger, and possibly upgrading other components like the controller and motor to handle the higher voltage. It's recommended to consult with a professional or the golf cart manufacturer to ensure compatibility and safety.
Maybe that motor can turn the generator, but you won't get 2,500 watts out of it. 1 horsepower is only 746 watts. <<>> A one HP motor draws 16 amps on 115 volts and 8 amps on 230 volts. Using the formula W = A x V = 16 x 8 = 1840 watts. It shows that the motor will run on a 2500 watt generator. Where the problem might arise is getting the motor to start. Generally a motor takes 300% of its running current to start. 16 x 300% = 48 starting amps. Back to the first formula W = 48 x 115 = 5520 watts. The 2500 watt generator is just under half of the wattage needed to start the motor. Try the generator, one of three things will happen, one the generator will stall, two the generators breaker will trip or three the motor will run. Some generators have a temporary overload output built into them that will allow the above generator rating output for a certain amount of seconds. If your generator has this feature then the motor will probably start.
In order to install 12 volt lights on a 48 volt cart, you will need to use a voltage reducer to step down the voltage from 48 volts to 12 volts. This will allow the lights to operate properly without getting damaged. You can connect the lights to the 12 volt output of the voltage reducer and follow the wiring instructions provided with the reducer for proper installation. Be sure to follow all safety precautions and consult a professional if needed.
Volts * Amps = Watts 220V * 20 A = 4400 Watts BUT!!! You don't want to run a generator at 100% capacity for very long; that should be considered peak conditions only and the generator should be run at 80% or less. The generator will last a lot longer if you run it at 50% capacity (in other words, a generator with 8800 Watt capacity would be a good place to start)
In normal simple circuits WATTS = VOLTS x AMPS So if you use a 12V car battery 4 amps is 48 Watts American 110V mains 4 amps = 440 Watts English 240V mains 4 amps = 960 Watts
If a 48 Volt club car electric motor requires 48 volts, then it should be given a 48 volt power source, or something close to it. Too many more volts and it may burn out; not enough volts and it may not run or it will try to draw too much power and burn out the power supply.
A lot of commercial telecommunications equipment runs on 48 volts. There are also relays that use 48 volts. I'm sure there are many other uses for this. I'm not aware of any in a typical house, if that's what you're looking for. Perhaps certain water softeners, sprinkler systems, etc. run on 48, but the ones I've seen usually run on 12.
Upgrading a 36-volt golf cart to 48 volts involves replacing the existing batteries with 48-volt batteries, upgrading the charger to a 48-volt charger, and possibly upgrading other components like the controller and motor to handle the higher voltage. It's recommended to consult with a professional or the golf cart manufacturer to ensure compatibility and safety.
You need to divide the 48 volts by the voltage produced by a single battery.
1 that is easy go to mykwilwin.com and buy a +5 kit from him it matters which RC battery you use but with a 7.2 volt 6 cell 2000meg battery(RC battery not included) or you could hardwire 36-48 volts which is much harder to do to hardwire 36 volts in 1st you should buy a 36 volt 36 amp controller(which is also used in the razor mx500 and mx650) and get a twist grip from a razor mx500/650........48 volts I do not know how to do sorry but for the 36volt mods you need a speicil kind of controller and twist grip so just Google razor pocket bike mods
Not well - that combo would only give 36 volts.
No.
48 VOLTS
Maybe that motor can turn the generator, but you won't get 2,500 watts out of it. 1 horsepower is only 746 watts. <<>> A one HP motor draws 16 amps on 115 volts and 8 amps on 230 volts. Using the formula W = A x V = 16 x 8 = 1840 watts. It shows that the motor will run on a 2500 watt generator. Where the problem might arise is getting the motor to start. Generally a motor takes 300% of its running current to start. 16 x 300% = 48 starting amps. Back to the first formula W = 48 x 115 = 5520 watts. The 2500 watt generator is just under half of the wattage needed to start the motor. Try the generator, one of three things will happen, one the generator will stall, two the generators breaker will trip or three the motor will run. Some generators have a temporary overload output built into them that will allow the above generator rating output for a certain amount of seconds. If your generator has this feature then the motor will probably start.
A dc motor running on a potential difference of 25 volts draws 9.8 A. It lifts a load of 48 pounds 12 feet in 5.5 seconds. How much work does the motor do? How much power does it deliver? How much poser does it consume? What is its efficiency?
What is the KW of 4 50 amp rectifiers at a 48 volt DC system
48 volts