Product Description
NiTAI Bosch , ,
Denso 428, AZF4563
KRAUF STB4327LC, STB4327MH, STB4327TJ, STB4327UL, STB4327YJ, STB6327MH, STB7327MH, STB8327MN, STB9327, STB9327LC, STB9327NL, STB9327UL, STD4327MH, STD4327UW, STM4327MH, STM4327UW, STM7327MH, STM9327UW, STQ4327RN
MAHLE MS741, MS744
Motorherz STB4327WA, STB6327WA, STB7327WA, STB9327WA, STD4327WA, STM4327WA
Unipoint STR2412, STR2462
WAI 2-2954-BO
Weichai 612, 6126J, 6126 WPS 30153N
ZAUFER 300N10082Z
FITS FOR
| FITS FOR | HOWO [WD615] CHINAMFG [WD615] SCANIA [WD615] |
Detailed Photos
About Us
Founded In 2571, ZheJiang CHINAMFG Electromechanical Co., Ltd. Is An Excellent Starter, Alternator, And Parts Supplier. Our High-Quality Motors Are Used In Heavy trucks, Mechanical, And Marine Engines. The Company Is Located In HangZhou ZheJiang , A National Historical And Cultural City Known As “The North Water City Of The Yangtze River”, With Convenient Transportation.
Since Its Establishment, The Company Has Formed A Perfect Product Structure, With More Than 10 Series Of Starter Motors And Alternators, And More Than 1000 Models. The Company Has Domestic Advanced Starter Motors, Alternator Production Lines, Complete Technical Equipment, And An Annual Production Capacity Of 500,000 Sets. The Main Products Are The Bosch Series, CHINAMFG Series, CHINAMFG Series, Prestolite Series, CHINAMFG Series, And So On. Our Products Are Suitable For All Kinds Of Engines And Trucks, Such As CHINAMFG Engines, CHINAMFG Engines, CHINAMFG Engines, CHINAMFG Power Engines, CHINAMFG Engines, CHINAMFG Engine, ZheJiang Diesel Engines, HangZhou Diesel Engines, Medium Heavy Automobiles, Freighter Trucks, International Truck, Etc.
The Products Have Been Exported To Russia, Spain, South Korea, Germany, The United Kingdom, The United States, Canada, Brazil, Argentina, India, Saudi Arabia, Pakistan, Kazakhstan, South Africa, Vietnam, Cambodia, And Other Countries.
FAQ
Q1:Are You A Manufacturer?
A: Yes, We Are A Starter Motor Manufacturer/Factory.
Q2: How Much Does The Sample Cost?
A: Please Contact Our Sales Staff And Tell Them The Model You Need, And They Will Check The Sample Cost For You (Some Are Free). And The Customer Pays The Delivery Cost.
Q3: How To Get A Quotation?
A: Please Suggest One Number Or Picture, Quantity, Etc., And Then Send Your Email To Us Or Talk To Our Staff Through The Trade Manager.
Q4: What Is The Minimum Order Quantity?
A: If We Have Stock, There Is No Minimum Order Quantity Limit. If Not, Please Contact Our Sales Staff, Different Items Are Different.
Q5: What About Your Service?
A: Timely. Be Careful. Before The Sale, We Will Use Our Software To Check The Correct OE Number To Avoid Errors. After Sending, We Will Track The Product For You Every Two Days Until You Get The Product.
Q6: Do You Test All Your Goods Before Delivery?
A: Yes, We Have 100% Test Before Delivery
Q7: How Do You Make Our Business Long-Term And Good Relationship?
A:1. We Keep Good Quality And Competitive Prices To Ensure Our Customers Benefit ;
2. We Respect Every Customer As Our Friend And We Sincerely Do Business And Make Friends With Them, No Matter Where They Come From.
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| After-sales Service: | Free Replacement for Quality Problems Within 1 Yea |
|---|---|
| Warranty: | 1 Year |
| Car Make: | for Weichai |
| Samples: |
US$ 50/Piece
1 Piece(Min.Order) | Order Sample |
|---|
| Customization: |
Available
|
|
|---|
.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}
|
Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
|---|
| Payment Method: |
|
|---|---|
|
Initial Payment Full Payment |
| Currency: | US$ |
|---|
| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
|---|
In which applications are DC motors commonly used, and what advantages do they offer?
DC (Direct Current) motors are widely used in various applications due to their versatility, controllability, and specific advantages they offer. Here’s a detailed explanation of the common applications of DC motors and the advantages they provide:
1. Robotics:
DC motors are extensively used in robotics for precise control of movement and manipulation. They provide high torque and speed control, allowing robots to perform tasks with accuracy and efficiency. DC motors enable robotic arms, grippers, and mobile robots to execute complex motions and interact with their environment effectively.
2. Industrial Automation:
In industrial automation, DC motors are employed in conveyors, actuators, and positioning systems. The ability to control the motor speed and torque makes them suitable for applications such as material handling, assembly lines, and CNC machines. DC motors offer precise control over acceleration, deceleration, and positioning, enhancing overall productivity and efficiency in manufacturing processes.
3. Electric Vehicles:
DC motors have been widely used in electric vehicles (EVs) for many years. They are commonly found in electric cars, motorcycles, and scooters. DC motors provide high torque from standstill, enabling efficient acceleration and smooth operation. They also offer regenerative braking capabilities, which help in energy recovery during deceleration, thereby increasing the vehicle’s overall efficiency.
4. Appliances:
DC motors are utilized in various household appliances, including fans, blenders, vacuum cleaners, and refrigerators. Their controllable speed and torque allow for efficient operation and improved energy consumption. In appliances where variable speed control is required, such as ceiling fans or blender settings, DC motors offer precise adjustment options to meet different user preferences.
5. Renewable Energy Systems:
DC motors play a crucial role in renewable energy systems, such as wind turbines and solar tracking systems. They convert the rotational energy from wind or sunlight into electrical energy. DC motors enable precise tracking of the sun’s movement for optimal solar energy collection and efficient conversion of wind energy into electricity.
6. Advantages of DC Motors:
DC motors offer several advantages that make them suitable for various applications:
- Precise Speed Control: DC motors provide accurate and adjustable speed control, allowing for precise regulation of motor output.
- High Starting Torque: DC motors deliver high torque at startup, making them suitable for applications requiring quick acceleration or heavy loads.
- Controllability: DC motors can be easily controlled using voltage regulation, current limiting, and feedback control techniques.
- Efficiency: DC motors have high efficiency, especially when operating at lower speeds.
- Reliability: DC motors are known for their robustness and reliability, requiring minimal maintenance.
- Compact Size: DC motors are available in various sizes and can be designed compactly, making them suitable for applications with space constraints.
These advantages make DC motors an attractive choice in various industries and applications where precise control, high starting torque, and reliability are essential.
What is the significance of back EMF (electromotive force) in DC motor performance?
The significance of back EMF (electromotive force) in DC motor performance is crucial to understanding the behavior and operation of DC motors. Back EMF is an inherent characteristic of DC motors and plays a pivotal role in their efficiency, speed regulation, and overall performance. Here’s a detailed explanation of the significance of back EMF in DC motor performance:
When a DC motor operates, it generates a voltage known as back EMF or counter electromotive force. This voltage opposes the applied voltage and is caused by the rotation of the motor’s armature within the magnetic field. The back EMF is directly proportional to the rotational speed of the motor.
The significance of back EMF can be understood through the following aspects:
1. Speed Regulation:
Back EMF is crucial for regulating the speed of a DC motor. As the motor rotates faster, the back EMF increases, which reduces the effective voltage across the motor’s armature. Consequently, the armature current decreases, limiting the motor’s speed. This self-regulating characteristic helps maintain a relatively constant speed under varying load conditions. It allows the motor to deliver the required torque while preventing excessive speed that can potentially damage the motor or the driven equipment.
2. Efficiency:
Back EMF plays a significant role in the efficiency of a DC motor. When the motor is loaded and drawing current, the power supplied to the motor is the product of the armature current and the applied voltage. However, the electrical power converted into mechanical power is reduced by the power consumed by the back EMF. The back EMF represents the energy returned to the power supply as the motor generates its own voltage. By reducing the effective voltage across the motor, it helps minimize power losses due to electrical resistance and improves the overall efficiency of the motor.
3. Motor Protection:
The presence of back EMF also provides a level of protection to the motor. When a DC motor is operating and the load on the motor suddenly decreases, such as when the driven equipment is disconnected, the motor’s speed can increase rapidly. This increase in speed leads to a higher back EMF, which reduces the armature current and prevents excessive current flow. By limiting the current, the back EMF helps protect the motor from overloading and potential damage.
4. Voltage Regulation:
Back EMF affects the voltage regulation in a DC motor. When the motor is operating, the back EMF opposes the applied voltage. As the motor load increases, the voltage drop across the armature resistance and other internal losses also increase. The back EMF helps compensate for these voltage drops, ensuring that the motor receives an adequate voltage to maintain its performance and torque output.
5. Control and Dynamic Response:
Back EMF provides valuable information for motor control and dynamic response. By measuring the back EMF voltage, the rotational speed of the motor can be estimated, allowing for precise speed control and feedback. This information is crucial for applications that require accurate speed regulation, such as robotics or industrial automation.
In summary, the significance of back EMF in DC motor performance cannot be overstated. It influences speed regulation, efficiency, motor protection, voltage regulation, and control capabilities. By understanding and utilizing the inherent characteristics of back EMF, engineers can design and optimize DC motor systems for various applications, ensuring reliable and efficient operation.
What are the advantages and disadvantages of using DC motors in automotive applications?
DC (Direct Current) motors have been used in automotive applications for many years, although they have been largely replaced by other motor types such as AC (Alternating Current) motors and brushless DC motors in modern vehicles. However, there are still some advantages and disadvantages associated with using DC motors in automotive applications. Here’s a detailed explanation of the advantages and disadvantages:
Advantages of Using DC Motors in Automotive Applications:
1. Cost: DC motors tend to be less expensive compared to other motor types, such as AC motors or brushless DC motors. This cost advantage can make them an attractive option for certain automotive applications, especially in budget-conscious scenarios.
2. Simple Control: DC motors have a relatively simple control system. By adjusting the voltage applied to the motor, the speed and torque can be easily controlled. This simplicity of control can be advantageous in automotive applications where basic speed control is sufficient.
3. High Torque at Low Speeds: DC motors can provide high torque even at low speeds, making them suitable for applications that require high starting torque or precise low-speed control. This characteristic can be beneficial for automotive applications such as power windows, windshield wipers, or seat adjustments.
4. Compact Size: DC motors can be designed in compact sizes, making them suitable for automotive applications where space is limited. Their small form factor allows for easier integration into tight spaces within the vehicle.
Disadvantages of Using DC Motors in Automotive Applications:
1. Limited Efficiency: DC motors are typically less efficient compared to other motor types, such as AC motors or brushless DC motors. They can experience energy losses due to brush friction and electrical resistance, resulting in lower overall efficiency. Lower efficiency can lead to increased power consumption and reduced fuel economy in automotive applications.
2. Maintenance Requirements: DC motors that utilize brushes for commutation require regular maintenance. The brushes can wear out over time and may need to be replaced periodically, adding to the maintenance and operating costs. In contrast, brushless DC motors or AC motors do not have this maintenance requirement.
3. Limited Speed Range: DC motors have a limited speed range compared to other motor types. They may not be suitable for applications that require high-speed operation or a broad range of speed control. In automotive applications where high-speed performance is crucial, other motor types may be preferred.
4. Electromagnetic Interference (EMI): DC motors can generate electromagnetic interference, which can interfere with the operation of other electronic components in the vehicle. This interference may require additional measures, such as shielding or filtering, to mitigate its effects and ensure proper functioning of other vehicle systems.
5. Brush Wear and Noise: DC motors that use brushes can produce noise during operation, and the brushes themselves can wear out over time. This brush wear can result in increased noise levels and potentially impact the overall lifespan and performance of the motor.
While DC motors offer certain advantages in terms of cost, simplicity of control, and high torque at low speeds, they also come with disadvantages such as limited efficiency, maintenance requirements, and electromagnetic interference. These factors have led to the adoption of other motor types, such as brushless DC motors and AC motors, in many modern automotive applications. However, DC motors may still find use in specific automotive systems where their characteristics align with the requirements of the application.
editor by CX 2024-05-06