Start Traction Motors Permanent Magnet Synchronous Motors, Brushless DC Motors and Flux Motors Business:
A locomotive's most significant component is the traction motor. This motor is a D.C. Series Commutator Motor for the most part. Traction motors are electric motors that generate the power to rotate the train's wheels. Traction motors generate turning force, which is supplied to the wheels via the driving gear unit and axle. Traction motors are usually installed in trucks where the wheels are.
Many industrial applications use traction motors, permanent magnet synchronous motors, brushless DC motors, and flux motors. These motors are used in a variety of industries, including the paper & pulp industry, mining, textiles, food processing, and pharmaceuticals.
Permanent Magnet Synchronous Motor (PMSM):
A Permanent Magnet Synchronous Motor (PMSM) is a synchronous motor with a stator core made of ferromagnetic material (such as iron) rather than electromagnets. To create a hybrid motor, some variants employ a permanent magnet in place of one pole face of each stator winding; others omit one stator winding, resulting in a hybrid motor. These motors are often built to deliver great torque at a steady speed. Water pumps, fans, compressors, and conveyors are just a few examples of industrial applications. They can be employed in traction applications as well, but only when extremely high starting torques or dynamic braking are necessary.
Brushless Direct Current (BLDC) Motor:
A Brushless Direct Current (BLDC) Motor is an electric motor with solid-state inductance control. Fans, blowers, pumps, electric machines, and robotics are all popular applications for BLDC motors. Variable voltages applied to switching devices such as transistors or power MOSFETs are commonly used to adjust inductance. Brushed DC motors, on the other hand, control current flow through coils wound around an iron core using mechanical brushes and commutators. BLDC motors are more efficient than brushed DC motors in general because they do not waste energy by creating heat through commutator contact resistive losses.
A Flux Motor is a permanent magnet synchronous motor that replaces the mechanical commutator with an electronically commutated array of field-oriented coils (FOC). Brushless motors are used in the Flux Motor design, as are brushless motors in many modern variable-speed drive applications. Brushless motors can deliver significant power levels while working at rates as low as 0.1 Hz. Industrial drives, packaging machines, medical equipment, and HVAC systems have all employed this type of motor successfully.
Uses and Applications:
· Air conditioners
· AC compressors
· Direct-drive washing machines
· Automotive electrical power steering
· Machine tools
· Traction control
· Data storage units
· Servo drives
· Electric vehicle drivetrain
· Large power systems to improve leading and lagging power factor
· Industrial applications such as robotics and aerospace
For BLDC Motors:
· Electric automobiles, hybrid vehicles, and electric bicycles
· Industrial robots, CNC machine tools, and basic belt powered systems
· Washing machines, compressors, and dryers
· Computer hard drives and DVD/CD players
· Fans, pumps and blowers
Benefits of Starting a Traction Motor Manufacturing Business:
There are numerous advantages to launching your own traction motor manufacturing company. These benefits include being your own boss, having complete financial control, and the ability to choose your own hours. There is also an endless amount of possibilities when it comes to having a traction motor manufacturing company. This is due to the fact that you will be working with more than one manufacturer; instead, you will be dealing directly with customers. This means you can start a relationship with multiple clients at the same time.
The third advantage of beginning a traction motor manufacturing company is that it is quite inexpensive to do so. To begin selling your products, all you need to do is purchase some equipment and then rent some space. Overall, there are numerous compelling reasons for someone to create their own traction motor manufacturing company.
From USD 4.1 billion in 2021 to USD 17.3 billion in 2026, the worldwide automotive traction motor market is expected to develop at a 33.7 percent CAGR. The market is being driven by rising demand for electric vehicles, the manufacture of high-performance motors, and supportive government legislation.
The increased demand for traction motors is mostly due to technological improvements in electric vehicles. EV makers all over the world are paying attention to these emerging technology. For example, Magna International received BMW Group's largest production order for transmission technologies in October 2019. All front-wheel drive dual-clutch transmissions, including hybrid transmission types, are covered under the multi-year contract.
Because of the growing use of electric vehicles around the world, the global electric vehicle traction motor market is expected to rise at a rapid pace during the forecast period. The battery electric vehicle sub-segment is predicted to be the most profitable based on vehicle type. Over the analysis period, the North American region is expected to hold the greatest share of the market.
Because of the growing demand for electric vehicles around the world, the market is expected to rise at a rapid pace over the forecast period. Furthermore, rising investments by major automotive companies throughout the world are expected to fuel the growth of the electric vehicle traction motor market over the forecast period.
Industry Major Market Players:
· American Traction Systems
· Hitachi, Ltd
· HYUNDAI ROTEM COMPANY (subsidiary of Hyundai Motor Company)
· Mitsubishi Electric Corporation
· ŠKODA TRANSPORTATION
· Toshiba International Corporation
· Wabtec Corporation