To calculate the Run Load Amps (RLA) if it is not given, you can use the formula: RLA = Horsepower x 746 / Efficiency x Voltage x Power Factor x √3 x FLA, where FLA is the Full Load Amps. You need to know the motor's horsepower, efficiency, voltage, and power factor to determine the RLA. If these values are not known, you may need to contact the manufacturer or consult the motor's specifications.
Watts = Amps x Volts x Power Factor For a motor the Power Factor is less than 1 and might typically be about .75. For a resistive load like a toaster PF = 1. If you know the Voltage and PF and know the wattage you can calculate amps. Amps = Watts / (Volts x PF)
Depends upon how many amps you need at the load and whether you're using copper or aluminum or some other material, and how much voltage drop your load can withstand during startup inrush.
The power required to run a basic computer will be 1.35 amps for startup and .7 to .9 amps continuous. The power requirements to run an 17" monitor will be 3.5 amps startup and 1.5 amps continuous.
60 amps is twice the amount that you need for a household dryer. What you need is a two pole 30 amp breaker feeding a three conductor #10 cable. A dryer needs a neutral wire, hence the three wire cable for a 240 volt device.
Yes, a 12-2 600v wire can handle 20 amps. This type of wire is typically rated for 20 amps in residential electrical systems, making it suitable for that current load. However, it's essential to follow local electrical codes and guidelines to ensure proper installation and safety.
rla run load amps lra locked rotor amps.
yes
I have a single phase induction motor. It draws 8 amps on start up and climbs to 14-15 amps when I put a load on it. When I don't have a load it runs at 1 and climbs to 2-3 amps. It is normal operation for this motor to run at the lower number of amps with a load. But I don't know what is wrong.
Minimal 100. Depends on load draw of home. Can be 200 amps or 400 amps as well.
You must first figure out how much of a load you are planning for. This is done by reading the owners manual for that product or often times it will be listed on the product itself in the way of amps. 14 gauge wire will handle up to 15 amps. 12 gauge 20 amps, 10 gauge 30 and so on. Length of run is also a factor . The longer the run the more ampreage drop you will have. Hope this helps
After given 50% load that time engine was start to hunting
Depends on what it is powering. The longer the run the more voltage drop you get. For example if you run 200 feet of copper 10 wire you'll lose about 4 volts. There are voltage calculators you can use. The less volts you have the more amps the wire will have. Watts/volts=amps. 10 wire is rated for 30 amps. Do the calculation. You should not go past 80% of 30 amps (24 amps).
Voltage X amps = wats 120 volt freezer drawing 2 amps is 240 watts running note it can take up to 3 to 4 times that to start. you have rla run load amps then you have LRA Lock rotor amps (what it takes to start)
W = A x V. Watts = Amps x Volts. There is not a voltage stated to multiply the 6 amps with so an answer can not be given.
Varies from product to product, but a standard 12ch dimmer pack will supply a 10amp load per channel.
This answer depends on the characteristics of the motor. There are may different applications for motors and though the HP remains the same, the full load amps differ. If you have the FLA of the 5 HP motor then an answer can be given.
For the same power - Watts - you need to run twice as many amps at 220V than at 440V. For the same load, it'll pull half the amps at 220V than it did on 440V