Permanent Magnet Screw Compressor

Service Details:

The benefits of PERMANENTMAGNET field-excited motors over electromagnetically-excited motors include:

   Higher efficiency since no electrical energy is used or losses incurred for developing or maintaining the motor's magnetic field.

   Higher torque and power density.

   Linear torque speed characteristics that are more predictable.

   Better dynamic performance due to higher magnetic flux density in air gap.

   Simplified construction and essentially maintenance-free.

   More compact size.

   Less bearing current due to large air gap.

   Low temperature due to less rotor losses.

Service Details:

The benefits of PERMANENTMAGNET field-excited motors over electromagnetically-excited motors include:

   Higher efficiency since no electrical energy is used or losses incurred for developing or maintaining the motor's magnetic field.

   Higher torque and power density.

   Linear torque speed characteristics that are more predictable.

   Better dynamic performance due to higher magnetic flux density in air gap.

   Simplified construction and essentially maintenance-free.

   More compact size.

   Less bearing current due to large air gap.

   Low temperature due to less rotor losses.

Service Details:

The benefits of PERMANENTMAGNET field-excited motors over electromagnetically-excited motors include:

   Higher efficiency since no electrical energy is used or losses incurred for developing or maintaining the motor's magnetic field.

   Higher torque and power density.

   Linear torque speed characteristics that are more predictable.

   Better dynamic performance due to higher magnetic flux density in air gap.

   Simplified construction and essentially maintenance-free.

   More compact size.

   Less bearing current due to large air gap.

   Low temperature due to less rotor losses.

Service Details:

Benefits of Permanent Magnetic Motors

The benefits of permanent magnet field-excited motors over electromagnetically excited motors include:

1. Higher efficiency, as no electrical energy is used or lost in developing or maintaining the motor's magnetic field.
2. Higher torque and power density.More predictable linear torque-speed characteristics.
3. Better dynamic performance due to higher magnetic flux density in the air gap.
4. Simplified construction, making them essentially maintenance-free.
5. More compact size.Reduced bearing current due to a larger air gap.
6. Lower temperatures resulting from decreased rotor losses.

Service Details:

The benefits of permanent magnet field-excited motors over electromagnetically-excited motors include:

1. Higher efficiency since no electrical energy is used or losses incurred in developing or maintaining the motor's magnetic field.
2. Higher torque and power density.
3. More predictable, linear torque-speed characteristics.
4. Better dynamic performance due to higher magnetic flux density in the air gap.
5. Simplified construction and essentially maintenance-free.
6. More compact size.
7. Less bearing current due to the large air gap.
8. Lower temperature due to fewer rotor losses.

Service Details:

The benefits of PERMANENTMAGNET field-excited motors over electromagnetically-excited motors include:

   Higher efficiency since no electrical energy is used or losses incurred for developing or maintaining the motor's magnetic field.

   Higher torque and power density.

   Linear torque speed characteristics that are more predictable.

   Better dynamic performance due to higher magnetic flux density in air gap.

   Simplified construction and essentially maintenance-free.

   More compact size.

   Less bearing current due to large air gap.

   Low temperature due to less rotor losses.

Service Details:

Benefits of Permanent Magnetic Motor

The benefits of permanent-magnet field-excited motors over electromagnetically-excited motors include:

• Higher efficiency, as no electrical energy is used or losses incurred in developing or maintaining the motor's magnetic field.
• Higher torque and power density.
• More predictable, linear torque-speed characteristics.
• Better dynamic performance due to higher magnetic flux density in the air gap.
• Simplified construction, making it essentially maintenance-free.
• More compact size.
• Less bearing current due to a larger air gap.
• Lower temperatures due to reduced rotor losses.