60Hz frequency on 50 Hz motor will create more resistance in its coils. Will cause electromagnetic force trying to increase the speed of the rotor by about 20 %. Less current will flow but the torque will be less, because of the increased resistance of the coils. Usually if the motor is not loaded much it will work fine on 60 Hz. One solution if there is problem running the motor is to remove part of the all coils equally from all of the bobbins by 10-20% .CommentThe resistance of the coils will remain unchanged, however, their inductive reactance will increase -thus reducing the current.
Assuming that you are referring to a piece of equipment designed for 60-hz power being connected to a 50-hz power line (common overseas), It depends on the application. If the load is a DC power supply, they are often rated for both 50 and 60 hz. If the load is a motor made for 60 hz, for example, it will run about 17% slower at 50 hz than at 60 hz due to the design of induction motors, and at higher current because of lower inductive reactance. If the load is fluorescent lighting, it may display an annoying flicker, and the ballasts will probably die an early death. If the load is transformer-powered, you'll have the same current problems as you get with the motor. OTOH, if you want to connect a 50-hz load to a 60-hz supply, it has its own issues. E.g., the motor will run faster and cannot be loaded as heavily. Best bet: research to see if the piece of equipment is rated for both frequencies.
The synchronous speed is 6000 divided by the number of poles for a synchronous motor on 50 Hz, and 5-10% less than that for an induction motor. On a 60 Hz supply these speeds are 20% higher.
If you have the motor rewound you could possibly have it changed. You can run some 50 hz motors on a 60 hz system but there are no guarantees. The motor will run faster and there is a chance it will overheat. There is no way to change the field connections of a motor to accomplish this. Best bet is to just purchase the correct motor.
I've seen it done, but be certain that the motor is connected to the correct VOLTAGE. The UK uses a 50Hz, 240V electrical system. The US uses a 60 Hz, 120/240V. The motor you are referring to was probably used in the UK, so will probably need 240V.
motor will run at a faster rate.....
Operating a motor designed for 60 Hz on a 50 Hz power supply can lead to issues such as overheating and reduced efficiency. It's recommended to use a motor that matches the frequency of the power supply for optimal performance and to prevent damage to the motor. In this case, it's best to avoid operating a 575 V 60 Hz motor on a 575 V 50 Hz power supply.
60Hz frequency on 50 Hz motor will create more resistance in its coils. Will cause electromagnetic force trying to increase the speed of the rotor by about 20 %. Less current will flow but the torque will be less, because of the increased resistance of the coils. Usually if the motor is not loaded much it will work fine on 60 Hz. One solution if there is problem running the motor is to remove part of the all coils equally from all of the bobbins by 10-20% .CommentThe resistance of the coils will remain unchanged, however, their inductive reactance will increase -thus reducing the current.
It is probably a three phase 50 Hz motor.
Answer 1000 RPM or 16.667 HZ, 50 Hz * 60 = 3000 RPM 3000 / 3 = 1000 RPM, or 50 HZ / 20 (1/3 of 50 Hz) * 60 seconds. Or Hz * 20 ( converts to RPM) For 4 pole then, Hz * 30 = RPM For 8 pole, Hz * 15 = RPM
If 50 hz is applied instead of 60 Hz, the speed of the motor will reduce by 10 hz equivalent. If you still want to keep the output speed equivalent to 60 Hz, you will have to use suitable gear box or so, to increase the speed to 60 hz equivalent.
The motor, being designed to run on either a 50 or a 60 cycle (a.k.a. hertz) system , will turn faster.
There is no inherent disadvantage of 50 Hz compared with 60 Hz, bearing in mind that systems that run at 50 Hz are designed to run at 50 Hz.
Assuming that you are referring to a piece of equipment designed for 60-hz power being connected to a 50-hz power line (common overseas), It depends on the application. If the load is a DC power supply, they are often rated for both 50 and 60 hz. If the load is a motor made for 60 hz, for example, it will run about 17% slower at 50 hz than at 60 hz due to the design of induction motors, and at higher current because of lower inductive reactance. If the load is fluorescent lighting, it may display an annoying flicker, and the ballasts will probably die an early death. If the load is transformer-powered, you'll have the same current problems as you get with the motor. OTOH, if you want to connect a 50-hz load to a 60-hz supply, it has its own issues. E.g., the motor will run faster and cannot be loaded as heavily. Best bet: research to see if the piece of equipment is rated for both frequencies.
The synchronous speed is 6000 divided by the number of poles for a synchronous motor on 50 Hz, and 5-10% less than that for an induction motor. On a 60 Hz supply these speeds are 20% higher.
Yes, it will run drawing little more extra current in similar conditions. The motor is expected to be running in lesser rpm as well.
If you have the motor rewound you could possibly have it changed. You can run some 50 hz motors on a 60 hz system but there are no guarantees. The motor will run faster and there is a chance it will overheat. There is no way to change the field connections of a motor to accomplish this. Best bet is to just purchase the correct motor.