TITAN ONE High-Efficiency Fan Permanent Magnet Synchronous Motor (PMSM) with Integrated Driver
TITAN ONE is a self-created brand under ENERGY TITAN "One" signifies uniqueness, aiming to stand out in the market through innovative motor drive technology and superior performance. Our future goal is to become the world's leading green and eco-friendly motor manufacturer, continuously improving product efficiency, promoting the development of green agricultural and livestock technology, reducing energy consumption, and advancing sustainable development.
The fan permanent magnet synchronous motor with integrated electronic driver features high efficiency and energy-saving, eco-friendliness, intelligent control, and reliability and durability as its core values, meeting the modern industry's demand for high-efficiency and energy-saving equipment.
The fan permanent magnet synchronous motor with integrated electronic driver features high efficiency and energy-saving, eco-friendliness, intelligent control, and reliability and durability as its core values, meeting the modern industry's demand for high-efficiency and energy-saving equipment.
I. ENERGY TITAN Innovation and Optimization Solutions:
a.High Efficiency and Energy-Saving Technology: Developed for exhaust fan applications, the high-performance permanent magnet synchronous motor features high energy density and low loss characteristics. Without rotor copper loss and slip loss, it effectively improves energy conversion efficiency by over 30%. This not only significantly reduces thermal energy loss but also extends the lifespan of components.
b.Intelligent Control System: Independently developed advanced electronic driver, utilizing high-precision encoders and field-oriented control (FOC) to achieve precise speed and torque control. Equipped with adaptive learning functions, it can automatically adjust control parameters according to operating conditions, enhancing system stability and efficiency.
c.Support for Multiple Power Specifications: Supports single/three-phase 220V AC input and 380V three-phase input, accommodating different national and regional power specifications, expanding the product's application range.
d.Comprehensive Protection Mechanism: Equipped with multiple protection mechanisms, including overcurrent, overheating, overload, phase loss, low voltage, and lightning surge protection, ensuring motor safety and reliability under various operating conditions.
e.User-Friendly Communication Interface: Provides an RS-485 communication interface, supporting analog input signals and digital input signals, easily connecting with external control systems and IoT systems for intelligent control and remote monitoring.
f.Structural Compatibility: Easy installation, with the motor's outer frame, flange, and output shaft compatible with traditional induction motors, requiring only minor modifications to the bracket for some models, facilitating quick replacement and upgrades.
Exquisite Engineering Technology:
1.High-Performance Rare Earth Permanent Magnet Materials: Neodymium Iron Boron (NdFeB) is used to make rotor permanent magnets, featuring high remanence and high coercivity.
Stator and Rotor Design:
a. Slot Design: Optimizing stator slot design according to application requirements to enhance motor performance and efficiency.
b. Winding Method: Utilizing concentrated winding to improve performance and save materials.
c. Rotor Design: Surface-mounted permanent magnet (SPM) design, suitable for low-speed, high-torque applications.
2.Control Technology: High-resolution encoders provide precise feedback, combined with efficient control strategies like Field-Oriented Control (FOC) to achieve high efficiency, high responsiveness, low vibration, and low noise, significantly enhancing user experience.
3.High Efficiency and Loss Management:
a. Optimizing winding design and using low iron loss, high magnetic permeability materials to reduce material losses.
b. Using high-precision bearings and optimized structural design to reduce mechanical losses.
Sensors and Feedback Systems:
c. High-precision position sensors for detecting rotor position.
d. Current sensors for real-time motor current monitoring, achieving closed-loop and torque control.
4.Electromagnetic Compatibility (EMC): Integrated driver and motor reduce electromagnetic interference issues, improving system electromagnetic compatibility. Filtering and shielding technologies effectively reduce external interference impacts on the system.
a.High Efficiency and Energy-Saving Technology: Developed for exhaust fan applications, the high-performance permanent magnet synchronous motor features high energy density and low loss characteristics. Without rotor copper loss and slip loss, it effectively improves energy conversion efficiency by over 30%. This not only significantly reduces thermal energy loss but also extends the lifespan of components.
b.Intelligent Control System: Independently developed advanced electronic driver, utilizing high-precision encoders and field-oriented control (FOC) to achieve precise speed and torque control. Equipped with adaptive learning functions, it can automatically adjust control parameters according to operating conditions, enhancing system stability and efficiency.
c.Support for Multiple Power Specifications: Supports single/three-phase 220V AC input and 380V three-phase input, accommodating different national and regional power specifications, expanding the product's application range.
d.Comprehensive Protection Mechanism: Equipped with multiple protection mechanisms, including overcurrent, overheating, overload, phase loss, low voltage, and lightning surge protection, ensuring motor safety and reliability under various operating conditions.
e.User-Friendly Communication Interface: Provides an RS-485 communication interface, supporting analog input signals and digital input signals, easily connecting with external control systems and IoT systems for intelligent control and remote monitoring.
f.Structural Compatibility: Easy installation, with the motor's outer frame, flange, and output shaft compatible with traditional induction motors, requiring only minor modifications to the bracket for some models, facilitating quick replacement and upgrades.
Exquisite Engineering Technology:
1.High-Performance Rare Earth Permanent Magnet Materials: Neodymium Iron Boron (NdFeB) is used to make rotor permanent magnets, featuring high remanence and high coercivity.
Stator and Rotor Design:
a. Slot Design: Optimizing stator slot design according to application requirements to enhance motor performance and efficiency.
b. Winding Method: Utilizing concentrated winding to improve performance and save materials.
c. Rotor Design: Surface-mounted permanent magnet (SPM) design, suitable for low-speed, high-torque applications.
2.Control Technology: High-resolution encoders provide precise feedback, combined with efficient control strategies like Field-Oriented Control (FOC) to achieve high efficiency, high responsiveness, low vibration, and low noise, significantly enhancing user experience.
3.High Efficiency and Loss Management:
a. Optimizing winding design and using low iron loss, high magnetic permeability materials to reduce material losses.
b. Using high-precision bearings and optimized structural design to reduce mechanical losses.
Sensors and Feedback Systems:
c. High-precision position sensors for detecting rotor position.
d. Current sensors for real-time motor current monitoring, achieving closed-loop and torque control.
4.Electromagnetic Compatibility (EMC): Integrated driver and motor reduce electromagnetic interference issues, improving system electromagnetic compatibility. Filtering and shielding technologies effectively reduce external interference impacts on the system.
