Traction application -- Which type of motor is best?

AI Thread Summary
In traction applications, induction motors are increasingly favored over traditional DC series motors due to their lower cost, reduced maintenance, and better speed control through advanced power electronics. While DC motors provided excellent starting torque, they require more maintenance due to issues like brush wear and motor flashing. Synchronous machines are less commonly used in traction applications, primarily due to control complexities and weight considerations. The engineering challenges include managing high torque without losing traction and ensuring safety at high speeds. Overall, the shift towards induction motors reflects advancements in technology and efficiency in traction systems.
smruti
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in traction applications which motor is best suitable? previoulsy dc series motors were used in traction applications due to there excellent starting torque.but now a days it is being replaced by induction motors.why can't we employ synchronous machine in traction application?
 
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What is a traction application?

It sounds like the drive wheel on an electric vehicle/robot.

I can easily foresee problems when the torque is so high the wheels lose traction on starting. In the case of an automobile, the weight of the electric motor would be unsprung weight, so choosing a motor that matches the needed performance with minimal weight is a high priority. Then there are safety issues. What happens when the electronics blow at 70mph? Then there are power feed issues.

This is a very tricky bit of engineering with lots of variables. Hopefully those involved have considered the options. Still, perhaps you can build a better mousetrap.
 
Traction typically refers to rail - the induction motors cost less. Since they would both require a VF drive - the Eff of the induction motor is good enough, and the drive does allow pretty high torque at low speed.
 
It has to do with control. In older traction applications involving DC motors (electric trains, electric vehicles (see komatsu fleet of 930E electric drive train), contactors are used for control. Due to the advent and easy implentation of power electronics (I am thinking IGBT) which allow you to convert a DC signal into a variable AC signal (better control of the frequency) You get better speed control.

Also induction motors have far less maintenance. I used to work as an industrial electrician maintaining a fleet of komatsu haul trucks (we had both AC and DC drive systems).

A frequent cause for maintenance was motor flashing (DC) and brush wear. Never once did I ever see a AC traction motor fail.
 
FOIWATER said:
It has to do with control. In older traction applications involving DC motors (electric trains, electric vehicles (see komatsu fleet of 930E electric drive train), contactors are used for control. Due to the advent and easy implentation of power electronics (I am thinking IGBT) which allow you to convert a DC signal into a variable AC signal (better control of the frequency) You get better speed control.

Also induction motors have far less maintenance. I used to work as an industrial electrician maintaining a fleet of komatsu haul trucks (we had both AC and DC drive systems).

A frequent cause for maintenance was motor flashing (DC) and brush wear. Never once did I ever see a AC traction motor fail.
thank you...
 

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