The permanent-magnet reduction starter is an improved starting device based on the traditional starter, with its core feature being the use of permanent-magnet materials instead of conventional excitation windings. This design incorporates a reduction mechanism to enhance overall starting performance. Below are its key advantages and a detailed analysis: **1. Compact Design: Small Size and Lightweight** - **Principle:** By leveraging permanent magnets (such as neodymium-iron-boron) to generate a magnetic field, the system eliminates the need for excitation windings and coils, significantly reducing the size and weight of electromagnetic components. Paired with a reduction gear set—typically planetary gears—it can deliver high torque even at low rotational speeds, allowing for the design of smaller armature sizes. - **Benefits:** - Occupies less space in the engine compartment, making it easier to optimize the layout of automotive engines. - Reduces weight by 30% to 50%, which is especially beneficial for lightweight-focused applications like new energy vehicles—improving energy efficiency and extending driving range. **2. High Starting Torque and Superior Low-Temperature Performance** - **Torque Enhancement Mechanism:** The reduction gear set operates on the principle of "speed multiplication with torque reduction"—where the input shaft spins at high speed with low torque, while the output shaft delivers lower speed but much higher torque (commonly achieved through a reduction ratio of 5:1 to 10:1). Meanwhile, the stable magnetic field strength of the permanent magnets remains unaffected by fluctuations in excitation current, ensuring reliable and consistent torque output. - **Low-Temperature Adaptability:** At extremely cold temperatures ranging from -40°C to -30°C, permanent magnets experience minimal magnetic degradation. In contrast, traditional starters suffer from increased resistance in their excitation windings due to the cold, leading to a significant drop in starting power. - **Real-World Example:** Vehicles operating in frigid regions (e.g., Northeast China or Northern Europe) can maintain over 80% of their starting torque when equipped with a permanent-magnet reduction starter, whereas conventional starters may only achieve around 50%. **3. High Efficiency and Lower Energy Consumption** - **Energy Conversion Efficiency:** Traditional starters rely on excitation windings, which incur copper losses (due to current-induced heating) and iron losses. By eliminating the excitation process altogether, permanent-magnet starters achieve a notable efficiency boost of 15% to 20%. While conventional starters typically operate at 50%–60% efficiency, permanent-magnet reduction starters can reach efficiencies of 70%–80%.

As the Spring Festival approaches, we wish all employees, customers, and supplier partners a joyous New Year, filled with family happiness and thriving business success!