Tag Archives: motor 48v

China Good quality ZD 24v 48v 110v 220v 25W 60W 90W 120W 200W 300W 400W 500W 750W High Torque Electric BLDC Brushless DC Gear Motor vacuum pump design

Product Description

Brushless DC Gear Motor combine high performance DC brushless motors and motor drivers to offer excellent energy savings, high torque and speed stability as well as a wide speed control range. With brushless DC motors you can downsize your application as the motors have slim bodies and provide high power due to permanent magnets being used in the rotor.

Output Power from 15 W up to 750 W
Parallel Shaft, Right-Angle Shaft and Flat Hollow Shaft Gear options
Speed Control/Motor Driver Available

Characteridtics Of BLDC Motor

Range Of BLDC Gearmotor

Pleas click to view more detailed specification for each series of BLDC Motor.

Other Products

Company Profile

/* 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

Application:	Industrial, Household Appliances, Robot, Conveyor
Operating Speed:	Adjust Speed
Excitation Mode:	Excited

Customization:	Available \|

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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.

brushless motor

What factors should be considered when selecting a brushless motor for a specific application?

When selecting a brushless motor for a specific application, several factors need to be considered to ensure optimal performance and compatibility. Here are the key factors to take into account:

1. Power and Torque Requirements:

Determine the power and torque requirements of the application. This includes considering the desired operating speed, acceleration, and load characteristics. Select a brushless motor that can deliver the required power and torque output within the application’s operating range. Consider factors such as the motor’s power rating, torque density, and speed-torque characteristics.

2. Size and Form Factor:

Evaluate the space available for motor installation. Consider the physical dimensions and form factor of the motor to ensure it can fit within the application’s constraints. Additionally, consider the weight of the motor, especially in applications where weight is a critical factor, such as drones or portable devices.

3. Environmental Conditions:

Assess the environmental conditions in which the motor will operate. Consider factors such as temperature extremes, humidity, dust, and vibration levels. Choose a brushless motor that is designed to withstand and perform reliably in the specific environmental conditions of the application. Look for motors with appropriate protection ratings (e.g., IP ratings) and robust construction.

4. Efficiency and Energy Consumption:

Consider the desired energy efficiency of the application. Select a brushless motor with high efficiency to minimize energy consumption and maximize overall system efficiency. Efficiency can be influenced by factors such as motor design, winding configuration, and the use of advanced control techniques. Look for motors with high efficiency ratings or specific certifications, such as IE (International Efficiency) classifications.

5. Control and Feedback Requirements:

Evaluate the control and feedback requirements of the application. Determine if sensorless control or position feedback through sensors (e.g., encoders) is necessary for precise speed or position control. Consider the compatibility of the motor’s control interfaces and communication protocols with the application’s control system. Some applications may require motors with built-in control electronics or compatibility with specific motor controllers.

6. Operating Voltage and Power Supply:

Determine the available power supply and the operating voltage range of the application. Select a brushless motor that operates within the available voltage range and is compatible with the power supply infrastructure. Consider factors such as voltage ratings, current requirements, and the availability of appropriate power supply units or motor drives.

7. Expected Lifetime and Reliability:

Evaluate the expected lifetime and reliability requirements of the application. Consider factors such as the motor’s rated lifetime, bearing type, insulation class, and overall build quality. Look for motors from reputable manufacturers with a track record of producing reliable and durable products. Consider the availability of maintenance and support services.

8. Cost and Budget:

Consider the cost and budget limitations of the application. Balance the desired motor performance and features with the available budget. Compare the costs of different motor options, taking into account factors such as initial purchase cost, maintenance requirements, and potential energy savings over the motor’s lifetime.

9. Application-Specific Considerations:

Take into account any application-specific requirements or constraints. This may include factors such as regulatory compliance, specific certifications (e.g., safety or industry-specific certifications), compatibility with other system components, and any unique operational or functional requirements of the application.

By carefully considering these factors, you can select a brushless motor that is well-suited for the specific application, ensuring optimal performance, efficiency, reliability, and compatibility.

brushless motor

What types of sensors are commonly used in brushless motors for feedback and control?

In brushless motors, various types of sensors are commonly used for feedback and control purposes. These sensors provide essential data to monitor and control the motor’s position, speed, and other parameters. Here are some of the commonly used sensors in brushless motors:

1. Hall Effect Sensors:

Hall effect sensors are widely used in brushless motors for commutation control. Typically, three Hall effect sensors are positioned around the motor’s stator to detect the position of the rotor’s permanent magnets. By sensing the magnetic field changes, the Hall effect sensors determine the rotor’s position relative to the stator. This information is crucial for the motor’s electronic controller to apply the correct current to the motor’s windings and ensure proper commutation.

2. Encoder Sensors:

Encoders are commonly employed in brushless motors for precise position control. There are two main types of encoders used: optical encoders and magnetic encoders. Optical encoders use an optical disc with patterns and a light-emitting diode (LED) and photodetector to detect the rotation of the motor’s shaft. Magnetic encoders, on the other hand, utilize magnetic fields and sensors to measure the shaft’s position. Encoders provide high-resolution position feedback and enable accurate closed-loop control of the motor’s position.

3. Resolver Sensors:

Resolvers are another type of position sensor used in brushless motors. They consist of a rotor and a stator with windings. As the rotor rotates, the resolver measures the angular position by detecting the voltages induced in the stator windings. Resolvers are known for their durability and resistance to harsh environmental conditions, making them suitable for various industrial applications.

4. Current Sensors:

Current sensors are used to measure the current flowing through the motor’s windings. They provide feedback on the motor’s electrical load and enable monitoring of the motor’s torque output. Current sensors can be based on different principles, such as Hall effect, shunt resistors, or current transformers. By measuring the motor’s current, the control system can adjust the motor’s performance and protect it from overcurrent conditions.

5. Temperature Sensors:

Temperature sensors are utilized to monitor the motor’s temperature and prevent overheating. These sensors can be thermocouples, thermistors, or integrated temperature sensors. By continuously monitoring the motor’s temperature, the control system can adjust the motor’s operation, activate cooling mechanisms, or trigger alarms and shutdowns if the temperature exceeds safe limits.

6. Speed Sensors:

Speed sensors are employed to measure the rotational speed of the motor. They provide feedback on the motor’s speed and enable closed-loop speed control. Speed sensors can be optical or magnetic, relying on the detection of changes in position or magnetic field patterns to determine the motor’s speed.

The specific combination and utilization of these sensors depend on the motor’s design, control system requirements, and application needs. By using these sensors, brushless motors can achieve precise control, accurate position feedback, and efficient operation, making them suitable for a wide range of applications in industries such as automotive, robotics, aerospace, and industrial automation.

brushless motor

What are the key components of a brushless motor, and how do they function together?

A brushless motor consists of several key components that work together to generate motion. Here are the key components of a brushless motor and their functions:

1. Stator:

The stator is the stationary part of the brushless motor. It consists of a core, typically made of laminated iron, and multiple coils or windings. The windings are evenly spaced around the inner circumference of the motor housing. The stator’s function is to generate a rotating magnetic field when electric current passes through the windings.

2. Rotor:

The rotor is the rotating part of the brushless motor. It typically consists of permanent magnets, which are magnetized in a specific pattern. The rotor’s function is to interact with the stator’s magnetic field and convert the electromagnetic energy into mechanical rotation.

3. Hall Effect Sensors:

Hall effect sensors are used to detect the position of the rotor magnets. These sensors are typically mounted on the stator, facing the rotor. They provide feedback to the motor controller about the rotor’s position, allowing the controller to determine the timing and sequence of current flow in the stator windings.

4. Motor Controller:

The motor controller is an electronic device that controls the operation of the brushless motor. It receives signals from the Hall effect sensors and processes them to determine the appropriate timing and sequence of current flow in the stator windings. The motor controller sends electrical pulses to the stator windings to generate the rotating magnetic field and control the motor’s speed and torque.

5. Power Supply:

The power supply provides the electrical energy needed to drive the brushless motor. It can be a battery, DC power source, or an AC power source with an inverter. The power supply feeds the motor controller, which converts the input power into the appropriate signals to drive the stator windings.

6. Commutation Electronics:

Commutation electronics are responsible for switching the currents in the stator windings at the right time and in the right sequence. The commutation electronics, typically integrated into the motor controller, ensure that the appropriate stator windings are energized as the rotor rotates, creating a rotating magnetic field that interacts with the rotor magnets.

7. Bearings:

Bearings are used to support the rotor and allow it to rotate smoothly. They reduce friction and enable efficient transfer of mechanical power. Bearings in brushless motors are typically ball bearings or sleeve bearings, depending on the motor design and application requirements.

These key components of a brushless motor work together to generate motion. The motor controller receives feedback from the Hall effect sensors to determine the rotor position. Based on this information, the controller sends electrical pulses to the stator windings, creating a rotating magnetic field. The interaction between the rotating magnetic field and the permanent magnets on the rotor causes the rotor to rotate. The motor controller continuously adjusts the timing and amplitude of the currents flowing through the stator windings to maintain the rotation and control the motor’s speed and torque.

By integrating these components and utilizing electronic commutation, brushless motors offer advantages such as high efficiency, precise control, low maintenance, and improved performance compared to brushed motors. They find applications in various industries where efficient and reliable motion control is required.

China Good quality ZD 24v 48v 110v 220v 25W 60W 90W 120W 200W 300W 400W 500W 750W High Torque Electric BLDC Brushless DC Gear Motor vacuum pump design
editor by CX 2024-05-15

China wholesaler 36V 48V 250kv Water Cooled High Speed Brushless Outrunner Motor 6600W Max supplier

Product Description

CHINAMFG D65L76 Outrunner 24n/20p Brushless Motor 6600W

Product Description

1. Slotted 20-pole outrunner design
2. External rotor design for better cooling
3. Equivalent to a 50cc-60cc gas engine
4. High-torque alternative to inrunner brushless motors
5. High-quality ball bearings and hardened 8mm steel shaft
6. Ideal for high speed airplanes & Skateboard

Diameters at 65mm
Speeds up to 16,800 rpm
Maximum output power up to 6500W
High-power density
Heat sink cooling fins design
Outer rotor options
Lower cost of ownership

Product Parameters

Outrunner Motor	D65L76-400	D65L76-350	D65L76-310	D65L76-278	D65L76-250	D65L76-230	D65L76-210
Winding turn & Connection	6T-D	7T-D	8T-D	9T-D	10T-D	11T-D	12T-D
LiPo/Voltage Range)	6-10S (20-42V)	6-10S(20-42V)	6-12S(20-50.4V)	8-12S(26-50.4V)	8-14S(26-58.8V)	8-16S(26-67.2V)	10-16S(32-67.2V)
Max Spin Speed (RPM)	16,800	14,700	15,624	14,011	14,700	15,456	14,112
Speed Constance kV(RPM/V)	400	350	310	278	250	230	210
Kt(N*M/A)	0.5712	0.0302	0.03452	0.03884	0.5715	0.5717	0.5718
No Loading Current at 8.4V (A)	3.2	2.5	2.2	2.0	1.8	1.5	1.5
Maximum output power(W)	6,500	6,600	6,700	6,500	6,600	6,700	6,500
Peak current (A)	335	285	255	230	190	160	160
Effeciency	89.00%	90.00%	91.00%	91.00%	92.00%	92.00%	92.00%
Max torque at 60% (N*M)	8.5	8.4	8.7	8.6	8.9	9.0	9.0
Weight(g)	864	864	866	852	865	863	863
Construction	24N/20P
Max Working Temperature	120ºC
Dimension	D65*L76 mm
Shaft extension	φ8*L36
Lead wires extension	200mm
Insulation voltage & leak current	AC500V/10MA/3S
Plug	8.0mm plug
Life Span (hrs)	10,000

Customize per your request

Drawing Dimension

Wiring Diagram

Auto Dyno Testing

/* 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

Application:	RC Airplane / Drone / Quadcopter / Skateboard
Operating Speed:	Adjust Speed
Excitation Mode:	Permanent Magnet

Customization:	Available \|

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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.

brushless motor

What role do electronic speed controllers (ESCs) play in brushless motor systems?

Electronic Speed Controllers (ESCs) play a crucial role in brushless motor systems as they are responsible for controlling the speed, direction, and performance of the motor. Here’s a detailed explanation of the role of electronic speed controllers in brushless motor systems:

1. Power Regulation: One of the primary functions of an ESC is to regulate the power supplied to the brushless motor. The ESC acts as an intermediary between the power source (such as a battery) and the motor, ensuring that the motor receives the appropriate voltage and current to operate at the desired speed and torque levels. The ESC monitors the input power and adjusts it based on the control signals it receives.

2. Commutation: Brushless motors require precise commutation, which involves switching the current flow in the motor windings to maintain proper magnetic field alignment and generate rotation. The ESC is responsible for coordinating the commutation process by electronically timing and sequencing the current pulses sent to the motor windings. This ensures smooth and efficient motor operation, allowing the motor to generate the desired torque and rotational speed.

3. Speed Control: ESCs enable precise speed control in brushless motor systems. By adjusting the timing and duration of the current pulses sent to the motor windings, the ESC can regulate the motor’s rotational speed. This speed control functionality is essential in various applications, such as drones, RC vehicles, robotics, and industrial automation, where precise speed adjustments are required to achieve the desired performance and functionality.

4. Direction Control: In addition to speed control, ESCs also provide direction control for brushless motors. By reversing the sequence of the current pulses sent to the motor windings, the ESC can change the direction of rotation of the motor. This allows for bi-directional operation, enabling the motor to perform tasks that require both clockwise and counterclockwise rotation.

5. Protection and Safety Features: ESCs often incorporate various protection and safety features to safeguard the motor and the overall system. These features may include overcurrent protection, overtemperature protection, low-voltage cutoff, and motor lock-up detection. By monitoring various parameters and conditions, the ESC can detect potential issues or abnormalities and take appropriate actions to prevent damage to the motor, ESC, or other components.

6. Interface and Control: ESCs provide an interface for external control and communication. They are typically equipped with input connectors to receive control signals from a receiver or a microcontroller, allowing for remote control or integration into a larger control system. Additionally, ESCs may offer advanced control features such as programmability, adjustable acceleration profiles, and compatibility with various control protocols (e.g., PWM, PPM, or CAN bus).

7. Efficiency and Performance Optimization: ESCs contribute to the overall efficiency and performance optimization of brushless motor systems. Through advanced control algorithms and power electronics, ESCs can minimize power losses, maximize energy conversion efficiency, and optimize the motor’s performance characteristics. This results in improved system efficiency, longer battery life, and enhanced motor performance.

In summary, electronic speed controllers (ESCs) play a vital role in brushless motor systems by regulating power, coordinating commutation, enabling speed and direction control, providing protection and safety features, offering control interfaces, and optimizing system efficiency and performance. The ESC acts as the central control unit that bridges the gap between the power source, the motor, and the external control system, ensuring smooth and reliable operation of brushless motors across a wide range of applications.

brushless motor

Are there specific applications where brushless motors are more suitable than others?

Yes, there are specific applications where brushless motors are more suitable than others. The unique characteristics and advantages of brushless motors make them well-suited for certain types of applications. Here are some examples:

1. Electric Vehicles (EVs) and Hybrid Electric Vehicles (HEVs):

Brushless motors are highly suitable for EVs and HEVs due to their high efficiency, precise control, and fast acceleration capabilities. They are commonly used in electric drivetrains to provide propulsion and drive the wheels. Brushless motors contribute to the overall energy efficiency of electric vehicles and help maximize the range and performance.

2. Robotics and Automation:

Brushless motors are extensively employed in robotics and automation systems. They offer high torque, precise position control, and rapid acceleration, making them ideal for robotic arms, joints, and grippers. Brushless motors enable accurate and controlled movements, contributing to the efficiency and productivity of industrial and collaborative robots.

3. Aerospace and Aviation:

Brushless motors find applications in the aerospace and aviation sectors. They are used in aircraft systems such as flight control surfaces, landing gear actuation, fuel pumps, and environmental control systems. Brushless motors provide reliable and precise motion control in critical aerospace applications, contributing to the safety and efficiency of aircraft operations.

4. Medical and Healthcare:

In the medical and healthcare sector, brushless motors are employed in various medical devices and equipment. They are used in surgical tools, prosthetics, medical pumps, laboratory equipment, imaging systems, and more. Brushless motors offer quiet operation, precise control, and compact size, making them suitable for applications where accuracy, reliability, and patient comfort are critical.

5. Industrial Machinery and Equipment:

6. Consumer Electronics:

Brushless motors are found in numerous consumer electronic devices. They power computer cooling fans, hard disk drives, drones, camera gimbals, electric toothbrushes, and other portable devices. Brushless motors in consumer electronics provide efficient and reliable operation while minimizing noise and vibration. Their small size, lightweight, and high-speed capabilities contribute to the design and functionality of modern consumer electronic products.

These are just a few examples of applications where brushless motors are more suitable than others. However, it’s important to note that brushless motors have a wide range of applications and can be utilized in various industries and systems where efficient and precise motion control is required. The specific requirements of an application, such as power, speed, torque, size, and control, will determine the suitability of brushless motors.

brushless motor

What is a brushless motor, and how does it differ from traditional brushed motors?

A brushless motor is an electric motor that operates without the use of brushes and a commutator, unlike traditional brushed motors. Brushless motors rely on electronic commutation to control the power distribution to the motor’s windings, resulting in improved efficiency, reliability, and performance. Here are the key differences between brushless motors and traditional brushed motors:

1. Construction:

Brushed motors consist of a rotor (armature) and a stator. The rotor contains permanent magnets, and the stator consists of electromagnets. Brushes and a commutator are used to transfer power to the rotor and control the direction of current flow. In contrast, brushless motors have a stationary stator with windings and a rotor that contains permanent magnets. The power is supplied to the stator windings through an external controller that electronically commutates the motor.

2. Commutation:

In brushed motors, commutation is achieved mechanically through the brushes and commutator. The brushes make physical contact with the commutator, which switches the direction of current flow in the rotor windings as the motor rotates. This mechanical commutation causes friction, wear, and electrical arcing, leading to inefficiencies and limited lifespan. Brushless motors, on the other hand, employ electronic commutation. Sensors or Hall effect devices detect the rotor position, and the external controller determines the appropriate timing and sequence of current flow in the stator windings, eliminating the need for brushes and commutation mechanisms.

3. Efficiency:

Brushless motors are generally more efficient than brushed motors. The absence of brushes and commutator reduces friction and electrical losses, resulting in higher efficiency and improved power conversion. Brushed motors experience energy losses due to brush contact resistance and electrical arcing, which can reduce overall efficiency. Brushless motors can achieve efficiency levels of over 90%, while brushed motors typically have efficiencies ranging from 75% to 85%.

4. Maintenance:

Brushless motors require less maintenance compared to brushed motors. The brushes in brushed motors wear over time and need periodic replacement. Additionally, the commutator may require cleaning or resurfacing. In contrast, brushless motors have no brushes or commutator, eliminating the need for brush replacement and commutator maintenance. This makes brushless motors more reliable and reduces downtime and maintenance costs.

5. Lifespan:

The lifespan of brushless motors is generally longer than that of brushed motors. The absence of brushes and commutator reduces wear and electrical arcing, which are common causes of failure in brushed motors. Brushless motors can operate for thousands of hours without requiring major maintenance, while brushed motors typically have a shorter lifespan due to brush and commutator wear.

6. Control and Performance:

Brushless motors offer more precise control and better performance compared to brushed motors. The electronic commutation in brushless motors allows for finer control of the motor’s speed, torque, and direction. The external controller can adjust the motor’s parameters dynamically, enabling smoother operation and better responsiveness. Brushless motors also have higher torque-to-weight ratios, faster acceleration, and lower inertia, making them suitable for applications requiring high-performance and precise motion control.

These differences make brushless motors advantageous in many applications where efficiency, reliability, and precise control are crucial. They are commonly used in industries such as robotics, aerospace, electric vehicles, and industrial automation, where high-performance and long-lasting motors are required.

China wholesaler 36V 48V 250kv Water Cooled High Speed Brushless Outrunner Motor 6600W Max supplier
editor by CX 2024-05-14

China Best Sales RS485 Canopen Pulse Optional RoHS CE Reach 17bit Absolute Encoder Driver 0.64nm Integrated 3000rpm 400W 48V Brushless DC Servo Motor with Gearbox Brake Fan vacuum pump diy

Product Description

Model naming rules for low voltage integrated dc servo motor

1. Company name abbreviation
2. Product series model, indicating that the motor is an IDS series, referring to the acronym for integrated DC servo
3. Frame number (42/57/60/80), expressed in millimeters by the dimensions of the motor casing and mounting plate
4. Control method optional (P/R/C) P represents pulse, R represents RS485, and C represents CANopen bus
5. The motor model, such as (01/02/03/04/05/06), represents the model of the motor 6.Encoder type: A represents a 17 bit single turn absolute encoder

Characteristics of Integrated Dc Servo Motor

1. Compact: Integrated design of integrated drive motor Easy installation, small footprint, and simple wiring.

2. Multiple motion control modes: Supports the CiA402 standard protocol, including Relative position mode, absolute position mode, speed Mode, torque mode, and CHINAMFG regression mode.

3. low-power consumption: Adopting low internal resistance MOS to ensure motor performance Excellent torque utilization while reducing motor power consumption And heat generation, effectively extending the service life of

the motor.

4. control mode: Supports pulse/RS485/CANopen.

5. Multi segment position speed function: With multi segment position function and multi segment speed function.

6. Safe and reliable: Driver built-in in place and alarm output signal Convenient for upper computer detection and control built-in Multiple alarm functions such as over differential, over undervoltage, and over temperature Can ensure the safe operation of processing equipment.

Integrated solution for precision control motors

Traditional split solution

Features:

1. Adopting a new 32-bit M4+core with 120M or 240M main frequency
2. Stable torque characteristics from low to high speeds, with high speed and precision
3. Equipped with brake resistor interface to prevent damage to the electromechanical braking system
4. Wide speed range, low temperature rise, and high efficiency
5. Integrated motor and drive, compact size, simple wiring, and drive Good compatibility with the motor
6. Equipped with overcurrent, overvoltage, over temperature, and over differential protection functions
7. Configure a 17bit single turn absolute encoder

Communication method:

1. Pulse type

2. RS485 MOdbus RTU network type

3. CANopen network type

Protection level:

Waterproof type: IP30, IP54, IP65, optional

Usage:

Medical equipment, logistics transportation, industrial automation, textile machinery, laser, drawing, traditional Chinese
medicine ingredient industry, etc

Product Parameters

42mm Integrated Servo Motor (Gearbox optional)

Model	Power (W)	Rated Voltage (VDC)	Rated Current (A)	Rated Speed (rpm)	Rated Torque (N.m)	Total height L (mm)	Encoder	Control method (optional)
JKIDS42-P01A	26	24	1.8	4000	0.0625	61	17bit	Pulse	RS485	CANopen
JKIDS42-P02A	53	24	3.3	4000	0.125	81	17bit	Pulse	RS485	CANopen
JKIDS42-P03A	78	24	4.5	4000	0.185	101	17bit	Pulse	RS485	CANopen
JKIDS42-P04A	78	24	4.5	3000	0.25	120	17bit	Pulse	RS485	CANopen

Product Drawing
Product Images

57mm Integrated Servo Motor (Gearbox / Brake optional)

Model	Power (W)	Rated Voltage (VDC)	Rated Current (A)	Rated Speed (rpm)	Rated Torque (N.m)	Total height L (mm)	Encoder	Control method (optional)
JKIDS57-P01A	91	24/36	3.5	3000	0.29	101	17bit	pulse	RS485	CANopen
JKIDS57-P02A	140	24/36	5.4	3000	0.45	121	17bit	pulse	RS485	CANopen
JKIDS57-P03A	200	36/48	7.5	3000	0.64	141	17bit	pulse	RS485	CANopen

Product Drawing
Product Images

60mm Integrated Servo Motor (Gearbox / Brake / Cooling Fan optional)

Model	Power (W)	Rated Voltage (VDC)	Rated Current (A)	Rated Speed (rpm)	Rated Torque (N.m)	Total height L (mm)	Encoder	Control method (optional)
JKIDS60-P01A	200	24	12	3000	0.64	94	17bit	pulse	RS485	CANopen
JKIDS60-P02A	400	48	11	3000	1.27	112	17bit	pulse	RS485	CANopen

Product Drawing
Product Images

80mm Integrated Servo Motor (Gearbox / Brake / Cooling Fan optional)

Model	Power (W)	Rated Voltage (VDC)	Rated Current (A)	Rated Speed (rpm)	Rated Torque (N.m)	Total height L (mm)	Encoder	Control method (optional)
JKIDS80-P01A	750	48/72	19/12	3000	2.4	155	17bit	pulse	RS485	CANopen
JKIDS80-P02A	1000	72	17	3000	3.2	175	17bit	pulse	RS485	CANopen

Product Drawing
Product Images

Company Profile

HangZhou CHINAMFG Co., Ltd was a high technology industry zone in HangZhou, china. Our products used in many kinds of machines, such as 3d printer CNC machine, medical equipment, weaving printing equipments and so on.
JKONGMOTOR warmly welcome ‘OEM’ & ‘ODM’ cooperations and other companies to establish long-term cooperation with us.
Company spirit of sincere and good reputation, won the recognition and support of the broad masses of customers, at the same time with the domestic and foreign suppliers close community of interests, the company entered the stage of stage of benign development, laying a CHINAMFG foundation for the strategic goal of realizing only really the sustainable development of the company.

Equipments Show:

Production Flow:

Certification:

/* 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

Application:	Industrial, Power Tools, Medical Equipment
Operating Speed:	High Speed
Excitation Mode:	Shunt

Samples:	US$ 90/Piece 1 Piece(Min.Order) \| Order Sample need to confirm the cost with seller

Customization:	Available \|

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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.

brushless motor

How do brushless motors compare to brushed motors in terms of lifespan and reliability?

When comparing brushless motors to brushed motors, there are notable differences in terms of lifespan and reliability. Here’s a detailed explanation of how brushless motors compare to brushed motors in these aspects:

1. Lifespan:

Brushed motors typically have a shorter lifespan compared to brushless motors. This is primarily due to the mechanical wear and tear associated with brushed motors. In brushed motors, the brushes and commutator make physical contact, causing friction, heat generation, and eventual wear. Over time, the brushes wear down and the commutator may become worn or damaged, leading to degraded motor performance and eventual failure. On the other hand, brushless motors do not have brushes or commutators, eliminating the mechanical wear components. As a result, brushless motors generally have a longer lifespan and can operate for thousands of hours with minimal maintenance.

2. Reliability:

Brushless motors are generally considered more reliable than brushed motors. The absence of brushes and commutators in brushless motors reduces the risk of failure due to mechanical wear and associated issues like brush sparking and arcing. The elimination of these moving parts also leads to reduced friction, less heat generation, and lower chances of electrical or mechanical failures. Additionally, brushless motors often benefit from advanced control systems that can monitor and protect against various operating conditions, enhancing their overall reliability.

3. Operating Conditions:

Brushless motors are better suited for demanding operating conditions compared to brushed motors. The absence of brushes and commutators in brushless motors means there are no physical contacts that can generate sparks or cause electrical arcing. This makes brushless motors more suitable for applications where sparks or electrical noise can be problematic, such as in explosive or sensitive electronic environments. Furthermore, brushless motors can operate at higher speeds and handle higher torque loads than brushed motors, making them more versatile in a wide range of applications.

4. Maintenance:

Brushless motors generally require less maintenance compared to brushed motors. Brushed motors often require periodic maintenance to replace worn-out brushes and address commutator issues. Additionally, the presence of brushes can lead to carbon dust buildup, requiring regular cleaning and maintenance. In contrast, brushless motors have no brushes or commutators to replace or clean, significantly reducing the maintenance requirements. However, it’s important to note that brushless motors may still require periodic inspections, especially for cooling systems or bearings, to ensure optimal performance and reliability.

5. Efficiency:

Brushless motors are typically more efficient than brushed motors. The absence of brushes and commutators in brushless motors reduces energy losses associated with friction and electrical resistance. This improved efficiency results in several benefits, such as reduced power consumption, longer battery life (in battery-powered applications), and less heat generation. Brushless motors are known for their high power-to-weight ratio and can deliver higher torque output per unit of input power compared to brushed motors.

In summary, brushless motors generally offer a longer lifespan and higher reliability compared to brushed motors. The absence of brushes and commutators reduces mechanical wear and associated failures, making brushless motors more durable. They are better suited for demanding operating conditions, require less maintenance, and offer improved efficiency. These factors have made brushless motors increasingly popular in various applications, including robotics, electric vehicles, industrial automation, and aerospace, where reliability and longevity are essential.

brushless motor

Can brushless motors be used in both low-power and high-power applications?

Yes, brushless motors can be used in both low-power and high-power applications. The versatility and scalability of brushless motor technology allow them to be employed across a wide range of power requirements. Here’s how brushless motors are utilized in both low-power and high-power applications:

1. Low-Power Applications:

In low-power applications, brushless motors offer several advantages over other motor types. They are capable of delivering efficient and precise motion control even at low power levels. Some examples of low-power applications where brushless motors are commonly used include:

Consumer Electronics: Brushless motors are employed in devices such as drones, camera gimbals, computer cooling fans, and electric toothbrushes. These applications require compact and lightweight motors with low power consumption and precise control.
Home Appliances: Brushless motors find applications in various home appliances, including refrigerators, washing machines, air conditioners, and fans. They provide energy-efficient operation and contribute to the overall performance and longevity of these appliances.
Office Equipment: Brushless motors are used in printers, scanners, copiers, and other office equipment. They offer quiet operation, precise movement, and low power consumption, making them suitable for these applications.
Automotive Systems: Brushless motors are increasingly utilized in automotive systems, including HVAC blowers, power windows, seat adjustment mechanisms, and electric power steering. They provide efficient and reliable operation while minimizing power consumption.

2. High-Power Applications:

Brushless motors are also capable of meeting the demands of high-power applications, offering excellent performance and reliability. They are suitable for applications that require high torque, rapid acceleration, and precise control at elevated power levels. Some examples of high-power applications where brushless motors are commonly used include:

Electric Vehicles (EVs): Brushless motors are extensively employed in electric vehicles for propulsion and drivetrain systems. They offer high torque output, efficient power conversion, and precise control, enabling EVs to achieve high performance and extended range.
Aerospace and Aviation: Brushless motors find applications in aircraft systems such as flight control surfaces, landing gear actuation, and environmental control systems. These applications require high-power motors with reliable and precise motion control capabilities.
Industrial Automation: Brushless motors are utilized in industrial machinery and automation systems, including CNC machines, robotics, and conveyor systems. They provide high torque density, fast response times, and accurate positioning, enabling efficient and precise control in demanding industrial environments.
Marine and Propulsion Systems: Brushless motors are used in marine applications, such as electric propulsion systems for boats and ships. They offer high power output, durability, and resistance to harsh environmental conditions.

These examples demonstrate that brushless motors are versatile and can be applied across a wide spectrum of power requirements. Whether in low-power or high-power applications, brushless motors provide advantages such as high efficiency, precise control, low maintenance, and improved performance. The specific power requirements and performance criteria of an application will determine the selection and customization of brushless motors to ensure optimal performance and reliability.

brushless motor

In which industries are brushless motors commonly employed, and what are their key roles?

Brushless motors find applications in a wide range of industries, thanks to their numerous advantages and capabilities. Here are some of the industries where brushless motors are commonly employed and their key roles:

1. Automotive Industry:

In the automotive industry, brushless motors are used in electric vehicles (EVs) and hybrid electric vehicles (HEVs). They play a crucial role in providing propulsion for these vehicles, driving the wheels and ensuring efficient power delivery. Brushless motors offer high efficiency, precise control, and fast acceleration, making them ideal for electric drivetrains. Additionally, they are employed in various automotive subsystems such as electric power steering, HVAC systems, cooling fans, and braking systems.

2. Aerospace and Aviation:

Brushless motors have significant applications in the aerospace and aviation sectors. They are used in aircraft systems such as flight control surfaces, landing gear actuation, fuel pumps, and environmental control systems. Brushless motors provide reliable and precise motion control in critical aerospace applications, contributing to the safety and efficiency of aircraft operations. Their high power-to-weight ratio, compact size, and high-speed capabilities make them well-suited for aerospace requirements.

3. Robotics and Automation:

Brushless motors are extensively employed in robotics and automation systems. They power robotic arms, joints, and grippers, enabling accurate and controlled movements. Brushless motors offer high torque, precise position control, and rapid acceleration, making them vital for industrial robotics, collaborative robots (cobots), and automated manufacturing processes. Their compact size and efficiency also contribute to the design and performance of robotic systems.

4. Industrial Machinery and Equipment:

Brushless motors play a crucial role in various industrial machinery and equipment. They are used in machine tools, conveyors, pumps, compressors, and other industrial automation applications. Brushless motors provide reliable and efficient motion control, contributing to the productivity and performance of industrial processes. Their ability to handle high loads, operate at high speeds, and offer precise control makes them valuable in demanding industrial environments.

5. Medical and Healthcare:

6. Consumer Electronics:

These are just a few examples of the industries where brushless motors are commonly employed. Their efficiency, reliability, precise control, compact size, and high-performance characteristics make them versatile and valuable in many other sectors as well. As technology continues to advance, brushless motors are likely to find new applications and play increasingly important roles in various industries.

China Best Sales RS485 Canopen Pulse Optional RoHS CE Reach 17bit Absolute Encoder Driver 0.64nm Integrated 3000rpm 400W 48V Brushless DC Servo Motor with Gearbox Brake Fan vacuum pump diy
editor by CX 2024-05-13

China Best Sales Customizable Electric Brushed Brushless DC Motor 12V 18V 24V 36V 48V 310V PMDC/BLDC Planetary/Worm Gear Motor 12 24 36 48 Volt 15W 50W 100W 200W 300W 500W 800W vacuum pump oil

Product Description

Brushed or Brushless DC Motors, Customized Specifications, OEM/ODM

Option for :
Customized shaft, performance, voltage, mounting, lead wires..

Option for :
Electric Brake, Planetary Gearbox, Worm Gearbox, Encoder, Controller Integrated

1. BRUSHED DC MOTOR :

Voltage 12v, 24v, 36v, 48v, upto 310vdc

power 5w to 1000w

speed 1pm upto 10000rpm

Dia. 30mm, 32mm, 36mm, 38mm, 42mm, 52mm, 54mm, 63mm, 70mm, 76mm, 80mm, 90mm, 110mm

Belows are some typical models,

2. BRUSHLESS DC MOTOR :

Voltage 12v, 24v, 36v, 48v, upto 380vdc

power 5w to 2000w

speed 1pm upto 15000rpm

Size 28mm, 30mm, 36mm, 42mm, 57mm, 60mm, 63mm, 70mm, 80mm, 86mm, 110mm

Bearing	High quality ball bearing
Poles	4- poles 8-poles 12-poles
Protection class	IP40 IP55 option
Insulation class	class: F

Belows are some typical models,

Below are only some typical models for reference.

63ZYT Series Permanent magnet Brushed Dc Motors

57HBL Series Brushless Dc Motors

56JXE300K. 63ZYT Series Dc Planetary Gear Motor

56JXE300K. 57HBL Series Brushless Dc Planetary Gear Motor

/* 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

Application:	Universal, Industrial, Household Appliances, Car, Power Tools, Machine, Robot
Operating Speed:	Constant Speed
Excitation Mode:	Pm
Function:	Control, Driving
Casing Protection:	Closed Type
Number of Poles:	2

Customization:	Available \|

brushless motor

How do brushless motors compare to brushed motors in terms of lifespan and reliability?

1. Lifespan:

2. Reliability:

3. Operating Conditions:

4. Maintenance:

5. Efficiency:

brushless motor

What is the significance of commutation in brushless motor operation, and how is it achieved?

Commutation is a critical aspect of brushless motor operation as it determines the timing and sequence of current flow in the motor windings. It is the process by which the motor’s magnetic field is switched to generate continuous rotation. The significance of commutation lies in its ability to maintain proper alignment between the magnetic field produced by the stator and the rotor’s permanent magnets, resulting in smooth and efficient motor operation. Here’s a detailed explanation of the significance of commutation in brushless motor operation and how it is achieved:

1. Magnetic Field Alignment: Commutation ensures that the magnetic field produced by the motor’s stator windings is properly aligned with the permanent magnets on the rotor. This alignment is crucial for generating the necessary torque to drive the rotor and produce rotation. By switching the current flow in the motor windings at the right time and in the right sequence, commutation ensures that the stator’s magnetic field interacts effectively with the rotor’s magnets, producing continuous and smooth rotation.

2. Efficient Power Conversion: Commutation plays a vital role in efficient power conversion within the brushless motor. As the current flows through the motor windings, commutation switches the current path to maintain the desired direction of rotation. By timely switching the current flow, commutation minimizes power losses and maximizes the energy transfer between the power supply and the motor. This efficient power conversion results in improved motor performance, higher energy efficiency, and reduced heat generation.

3. Elimination of Brushes and Commutators: Unlike brushed motors that rely on mechanical brushes and commutators for current switching, brushless motors achieve commutation electronically. This eliminates the need for brushes and commutators, which are prone to wear, friction, and electrical arcing. By replacing these mechanical components with solid-state electronic commutation, brushless motors offer several advantages, including reduced maintenance requirements, longer lifespan, and improved reliability.

4. Precise Speed Control: Commutation in brushless motors enables precise speed control. By accurately timing and sequencing the current flow in the motor windings, the control system of a brushless motor can regulate the motor’s rotational speed. This precise speed control is crucial in applications that require specific speed requirements, such as robotics, electric vehicles, and industrial automation.

5. Commutation Methods: Brushless motors achieve commutation through various methods, the most common being sensor-based commutation and sensorless commutation. Sensor-based commutation utilizes position sensors, such as Hall effect sensors or encoders, to detect the rotor’s position and determine the appropriate timing and sequence of current switching. Sensorless commutation, on the other hand, estimates the rotor position based on the back electromotive force (EMF) generated in the motor windings. Advanced control algorithms and signal processing techniques are employed to accurately estimate the rotor position and achieve precise commutation without the need for additional sensors.

In summary, commutation is of significant importance in brushless motor operation. It ensures proper alignment of the magnetic fields, enables efficient power conversion, eliminates mechanical wear components, allows for precise speed control, and contributes to the overall performance and reliability of brushless motors. Through sensor-based or sensorless commutation methods, brushless motors achieve accurate and timely switching of current flow, resulting in smooth rotation and optimal motor performance.

brushless motor

Can you explain the working principle of brushless motors and how they generate motion?

Brushless motors operate based on the principles of electromagnetism and electronic commutation. Here’s an explanation of the working principle of brushless motors and how they generate motion:

1. Stator and Rotor:

A brushless motor consists of two main components: a stationary stator and a rotating rotor. The stator contains multiple coils or windings arranged in a specific pattern. These windings are typically made of copper wire and are evenly spaced around the inner circumference of the motor housing. The rotor, on the other hand, contains permanent magnets that are magnetized in a specific pattern.

2. Electronic Commutation:

The key difference between brushless motors and brushed motors is the method of commutation. In brushed motors, commutation is achieved mechanically through brushes and a commutator. However, in brushless motors, commutation is electronic. The commutation process is managed by an external controller or electronic speed controller (ESC).

3. Rotor Position Detection:

To determine the rotor’s position, brushless motors use sensors or Hall effect devices embedded in the stator. These sensors detect the position of the permanent magnets on the rotor as it rotates. The sensor information is sent to the controller, which uses it to determine the timing and sequence of current flow in the stator windings.

4. Current Distribution:

Based on the rotor position information, the controller determines which stator windings need to be energized to generate the desired motion. The controller then sends electric currents to the appropriate windings in a specific sequence. By energizing different windings at different times, the controller can create a rotating magnetic field in the stator.

5. Magnetic Field Interaction:

As the rotating magnetic field is generated in the stator, it interacts with the permanent magnets on the rotor. The interaction between the rotating magnetic field and the permanent magnets causes the rotor to rotate. The controller continuously adjusts the timing and amplitude of the currents flowing through the stator windings to maintain the rotation and control the motor’s speed and torque.

6. Continuous Rotation:

Brushless motors achieve continuous rotation by continuously updating the rotor position using the sensors and adjusting the current flow in the stator windings accordingly. The electronic commutation process ensures that the currents are switched at the right time and in the right sequence to maintain the rotation and provide precise control over the motor’s operation.

By using electronic commutation and precise control over the currents in the stator windings, brushless motors generate motion with high efficiency, reliability, and accuracy. They offer advantages such as higher speed capabilities, smoother operation, reduced maintenance requirements, and improved overall performance compared to brushed motors. These characteristics make brushless motors widely used in various applications, ranging from small consumer electronics to large industrial machinery.

China Best Sales Customizable Electric Brushed Brushless DC Motor 12V 18V 24V 36V 48V 310V PMDC/BLDC Planetary/Worm Gear Motor 12 24 36 48 Volt 15W 50W 100W 200W 300W 500W 800W vacuum pump oil
editor by CX 2024-05-09

China supplier Customizable Electric Brushed Brushless DC Motor 12V 18V 24V 36V 48V 310V PMDC/BLDC Planetary/Worm Gear Motor 12 24 36 48 Volt 15W 50W 100W 200W 300W 500W 800W vacuum pump and compressor

Product Description

Brushed or Brushless DC Motors, Customized Specifications, OEM/ODM

Option for :
Customized shaft, performance, voltage, mounting, lead wires..

Option for :
Electric Brake, Planetary Gearbox, Worm Gearbox, Encoder, Controller Integrated

1. BRUSHED DC MOTOR :

Voltage 12v, 24v, 36v, 48v, upto 310vdc

power 5w to 1000w

speed 1pm upto 10000rpm

Dia. 30mm, 32mm, 36mm, 38mm, 42mm, 52mm, 54mm, 63mm, 70mm, 76mm, 80mm, 90mm, 110mm

Belows are some typical models,

2. BRUSHLESS DC MOTOR :

Voltage 12v, 24v, 36v, 48v, upto 380vdc

power 5w to 2000w

speed 1pm upto 15000rpm

Size 28mm, 30mm, 36mm, 42mm, 57mm, 60mm, 63mm, 70mm, 80mm, 86mm, 110mm

Bearing	High quality ball bearing
Poles	4- poles 8-poles 12-poles
Protection class	IP40 IP55 option
Insulation class	class: F

Belows are some typical models,

Below are only some typical models for reference.

63ZYT Series Permanent magnet Brushed Dc Motors

57HBL Series Brushless Dc Motors

56JXE300K. 63ZYT Series Dc Planetary Gear Motor

56JXE300K. 57HBL Series Brushless Dc Planetary Gear Motor

/* 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

Application:	Universal, Industrial, Household Appliances, Car, Power Tools, Machine, Robot
Operating Speed:	Constant Speed
Excitation Mode:	Pm
Function:	Control, Driving
Casing Protection:	Closed Type
Number of Poles:	2

Customization:	Available \|

brushless motor

Where can individuals find reliable information and resources for learning more about brushless motors?

Individuals seeking reliable information and resources to learn more about brushless motors have several options available. Here are some recommended sources:

1. Manufacturer Websites:

Visit the websites of reputable brushless motor manufacturers. Manufacturers often provide detailed information about their products, including specifications, application guidelines, technical documentation, and educational resources. These websites can be a valuable source of accurate and up-to-date information about brushless motors.

2. Industry Associations and Organizations:

Explore industry associations and organizations related to electric motors, automation, or specific applications of brushless motors. These associations often provide educational materials, technical publications, webinars, and conferences that cover various aspects of motor technology. Examples include the Institute of Electrical and Electronics Engineers (IEEE), the American Society of Mechanical Engineers (ASME), or industry-specific associations like the Robotics Industries Association (RIA) or the Electric Motor Education and Research Foundation (EMERF).

3. Technical Forums and Online Communities:

Participate in technical forums and online communities focused on motors and related technologies. Platforms like Stack Exchange, Reddit, or specialized engineering forums often have dedicated sections where individuals can ask questions, learn from experts, and access valuable resources. Engaging with these communities can provide insights into real-world experiences and practical knowledge about brushless motors.

4. Books and Publications:

Consult books, textbooks, and technical publications that cover electric motors and motor control theory. Look for titles that specifically address brushless motor technology or broader topics such as electromechanical systems, power electronics, or mechatronics. Libraries, online bookstores, and academic institutions are good sources for finding relevant publications.

5. Online Tutorials and Courses:

Explore online tutorials and courses offered by educational platforms, engineering schools, or specialized training providers. Platforms such as Coursera, Udemy, or Khan Academy may offer courses related to electric motors, motor control, or mechatronics. These resources often provide structured learning experiences with video lectures, practical exercises, and assessments.

6. Research Papers and Technical Journals:

Access research papers and technical journals focused on electrical engineering, motor technology, or related fields. Platforms like IEEE Xplore, ResearchGate, or academic databases provide access to a wide range of scholarly articles and technical papers. These sources can offer in-depth knowledge about the latest advancements, research findings, and technical details related to brushless motors.

7. Industry Trade Shows and Exhibitions:

Attend industry trade shows and exhibitions that feature motor manufacturers, suppliers, and technology providers. These events often showcase the latest products, innovations, and advancements in motor technology. They also provide opportunities to interact with industry experts, attend technical presentations, and gather valuable information about brushless motors.

8. Online Product Catalogs and Datasheets:

Review online product catalogs and datasheets provided by motor manufacturers. These documents typically contain detailed specifications, performance data, and application notes for specific motor models. They can help individuals understand the capabilities, limitations, and features of different brushless motors.

Remember to critically evaluate the information obtained from various sources and cross-reference multiple resources to ensure accuracy and reliability. Brushless motor technology is a dynamic field, so staying updated with the latest research and industry developments is essential for gaining comprehensive knowledge.

brushless motor

Are there different configurations of brushless motors, and how do they differ?

Yes, there are different configurations of brushless motors, each designed to meet specific application requirements and operating conditions. These configurations differ in terms of the arrangement of the motor components, such as the rotor, stator, and magnet configuration. Here’s a detailed explanation of the various configurations of brushless motors and how they differ:

Outrunner Configuration: In an outrunner configuration, the rotor is located on the outside of the stator. The rotor consists of a ring-shaped permanent magnet assembly with multiple magnetic poles, while the stator contains the motor windings. The outrunner configuration offers several advantages, including high torque output, robust construction, and efficient heat dissipation. Outrunner motors are commonly used in applications that require high torque and moderate speed, such as electric vehicles, robotics, and aircraft propulsion systems.
Inrunner Configuration: In an inrunner configuration, the rotor is located on the inside of the stator. The rotor typically consists of a solid cylindrical core with embedded permanent magnets, while the stator contains the motor windings. Inrunner motors are known for their compact size, high speed capabilities, and precise speed control. They are commonly used in applications that require high-speed rotation and compact form factors, such as drones, small appliances, and industrial automation equipment.
Internal Rotor Configuration: The internal rotor configuration, also known as an internal rotor motor (IRM), features a rotor located inside the stator. The rotor consists of a laminated core with embedded magnets, while the stator contains the motor windings. Internal rotor motors offer high power density, efficient heat dissipation, and excellent dynamic response. They are commonly used in applications that require high-performance and compact size, such as electric vehicles, industrial machinery, and robotics.
External Rotor Configuration: The external rotor configuration, also known as an external rotor motor (ERM), features a rotor located on the outside of the stator. The rotor consists of a magnet assembly with multiple magnetic poles, while the stator contains the motor windings. External rotor motors offer high torque density, compact size, and high starting torque capabilities. They are commonly used in applications that require high torque and compact design, such as cooling fans, HVAC systems, and small electric appliances.
Radial Flux Configuration: In a radial flux configuration, the magnetic flux flows radially from the center to the periphery of the motor. This configuration typically consists of a disc-shaped rotor with magnets on the periphery and a stator with motor windings arranged in a radial pattern. Radial flux motors offer high torque density, efficient heat dissipation, and good power output. They are commonly used in applications that require high torque and compact size, such as electric bicycles, electric scooters, and power tools.
Axial Flux Configuration: In an axial flux configuration, the magnetic flux flows axially along the length of the motor. This configuration typically consists of a pancake-shaped rotor with magnets on both faces and a stator with motor windings arranged in an axial pattern. Axial flux motors offer high power density, efficient cooling, and compact design. They are commonly used in applications that require high power output and limited axial space, such as electric vehicles, wind turbines, and aerospace systems.

In summary, different configurations of brushless motors include outrunner, inrunner, internal rotor, external rotor, radial flux, and axial flux configurations. These configurations differ in terms of the arrangement of motor components, such as the rotor and stator, and offer unique characteristics suited for specific applications. Understanding the differences between these configurations is essential for selecting the most suitable brushless motor for a given application.

brushless motor

What are the key components of a brushless motor, and how do they function together?

A brushless motor consists of several key components that work together to generate motion. Here are the key components of a brushless motor and their functions:

1. Stator:

2. Rotor:

3. Hall Effect Sensors:

4. Motor Controller:

5. Power Supply:

6. Commutation Electronics:

7. Bearings:

China supplier Customizable Electric Brushed Brushless DC Motor 12V 18V 24V 36V 48V 310V PMDC/BLDC Planetary/Worm Gear Motor 12 24 36 48 Volt 15W 50W 100W 200W 300W 500W 800W vacuum pump and compressor
editor by CX 2024-05-09

China high quality NEMA 17 23 34 42 57 86mm Brushless DC BLDC Electric Motor with Gearbox / Brake / Encoder / Controller 12V 24V 36V 48V 220V DC Servo Motor for Lawn Mower vacuum pump booster

Product Description

NEMA 57 86mm Brushless BLDC Electric Motor with Gearbox / Brake / Encoder / Controller 12V 24V 36V 48V 220V Dc Servo Motor for Lawn Mower

Product Description

Product Name: Brushless DC Motor

Number of Phase: 3 Phase

Number of Poles: 4 Poles /8 Poles /10 Poles

Rated Voltage: 12v /24v /36v /48v /310v

Rated Speed: 3000rpm /4000rpm /or customized

Rated Torque: Customized

Rated Current: Customized

Rated Power: 23w~2500W

Jkongmotor has a wide range of micro motor production lines in the industry, including Stepper Motor, DC Servo Motor, AC Motor, Brushless Motor, Planetary Gear Motor, Planetary Gearbox etc. Through technical innovation and customization, we help you create outstanding application systems and provide flexible solutions for various industrial automation situations.

42mm 24V Brushless DC Motor Parameters:

Specification	Unit	Model
Specification	Unit	JK42BLS01	JK42BLS02	JK42BLS03	JK42BLS04
Number Of Phase	Phase	3
Number Of Poles	Poles	8
Rated Voltage	VDC	24
Rated Speed	Rpm	4000
Rated Torque	N.m	0.0625	0.125	0.185	0.25
Peak Current	Amps	1.8	3.3	4.8	6.3
Rated Power	W	26	52.5	77.5	105
Peak Torque	N.m	0.19	0.38	0.56	0.75
Peak Current	Amps	5.4	10.6	15.5	20
Back E.M.F	V/Krpm	4.1	4.2	4.3	4.3
Torque Constant	N.m/A	0.039	0.04	0.041	0.041
Rotor Inertia	g.cm2	24	48	72	96
Body Length	mm
Weight	Kg
Sensor	Honeywell
Insulation Class	B
Degree of Protection	IP30
Storage Temperature	-25~+70ºC
Operating Temperature	-15~+50ºC
Working Humidity	85% RH or below (no condensation)
Working Environment	Outdoor (no direct sunlight), no corrosive gas, no flammable gas, no oil mist, no dust
Altitude	1000 CHINAMFG or less

57mm 36V Brushless DC Motor Parameters:

Specification	Unit	Model
Specification	Unit	JK57BLS005	JK57BLS01	JK57BLS02	JK57BLS03	JK57BLS04
Number Of Phase	Phase	3
Number Of Poles	Poles	4
Rated Voltage	VDC	36
Rated Speed	Rpm	4000
Rated Torque	N.m	0.055	0.11	0.22	0.33	0.44
Rated Current	Amps	1.2	2	3.6	5.3	6.8
Rated Power	W	23	46	92	138	184
Peak Torque	N.m	0.16	0.33	0.66	1	1.32
Peak Current	Amps	3.5	6.8	11.5	15.5	20.5
Back E.M.F	V/Krpm	7.8	7.7	7.4	7.3	7.1
Torque Constant	N.m/A	0.074	0.073	0.07	0.07	0.068
Rotor Inertia	g.cm2	30	75	119	173	230
Body Length	mm	37	47	67	87	107
Weight	Kg	0.33	0.44	0.75	1	1.25
Sensor	Honeywell
Insulation Class	B
Degree of Protection	IP30
Storage Temperature	-25~+70ºC
Operating Temperature	-15~+50ºC
Working Humidity	85% RH or below (no condensation)
Working Environment	Outdoor (no direct sunlight), no corrosive gas, no flammable gas, no oil mist, no dust
Altitude	1000 CHINAMFG or less

60mm 48V Brushless DC Motor Parameters:

Specification	Unit	Model
Specification	Unit	JK60BLS01	JK60BLS02	JK60BLS03	JK60BLS04
Number Of Phase	Phase	3
Number Of Poles	Poles	8
Rated Voltage	VDC	48
Rated Speed	Rpm	3000
Rated Torque	N.m	0.3	0.6	0.9	1.2
Rated Current	Amps	2.8	5.2	7.5	9.5
Rated Power	W	94	188	283	377
Peak Torque	N.m	0.9	1.8	2.7	3.6
Peak Current	Amps	8.4	15.6	22.5	28.5
Back E.M.F	V/Krpm	12.1	12.6	12.4	13.3
Torque Constant	N.m/A	0.116	0.12	0.118	0.127
Rotor Inertia	kg.cm2	0.24	0.48	0.72	0.96
Body Length	mm	78	99	120	141
Weight	Kg	0.85	1.25	1.65	2.05
Sensor	Honeywell
Insulation Class	B
Degree of Protection	IP30
Storage Temperature	-25~+70ºC
Operating Temperature	-15~+50ºC
Working Humidity	85% RH or below (no condensation)
Working Environment	Outdoor (no direct sunlight), no corrosive gas, no flammable gas, no oil mist, no dust
Altitude	1000 CHINAMFG or less

80mm 48V BLDC Motor Parameters:

Specification	Unit	Model
Specification	Unit	JK80BLS01	JK80BLS02	JK80BLS03	JK80BLS04
Number Of Phase	Phase	3
Number Of Poles	Poles	4
Rated Voltage	VDC	48
Rated Speed	Rpm	3000
Rated Torque	N.m	0.35	0.7	1.05	1.4
Rated Current	Amps	3	5.5	8	10.5
Rated Power	W	110	220	330	440
Peak Torque	N.m	1.05	2.1	3.15	4.2
Peak Current	Amps	9	16.5	24	31.5
Back E.M.F	V/Krpm	13.5	13.3	13.1	13
Torque Constant	N.m/A	0.13	0.127	0.126	0.124
Rotor Inertia	g.cm2	210	420	630	840
Body Length	mm	78	98	118	138
Weight	Kg	1.4	2	2.6	3.2
Sensor	Honeywell
Insulation Class	B
Degree of Protection	IP30
Storage Temperature	-25~+70ºC
Operating Temperature	-15~+50ºC
Working Humidity	85% RH or below (no condensation)
Working Environment	Outdoor (no direct sunlight), no corrosive gas, no flammable gas, no oil mist, no dust
Altitude	1000 CHINAMFG or less

86mm 48V Dc Brushless Motor Parameters:

Specification	Unit	Model
Specification	Unit	JK86BLS58	JK86BLS71	JK86BLS84	JK86BLS98	JK86BLS125
Number Of Phase	Phase	3
Number Of Poles	Poles	8
Rated Voltage	VDC	48
Rated Speed	Rpm	3000
Rated Torque	N.m	0.35	0.7	1.05	1.4	2.1
Rated Current	Amps	3	6.3	9	11.5	18
Rated Power	W	110	220	330	440	660
Peak Torque	N.m	1.05	2.1	3.15	4.2	6.3
Peak Current	Amps	9	19	27	35	54
Back E.M.F	V/Krpm	13.7	13	13.5	13.7	13.5
Torque Constant	N.m/A	0.13	0.12	0.13	0.13	0.13
Rotor Inertia	g.cm2	400	800	1200	1600	2400
Body Length	mm	71	84.5	98	111.5	138.5
Weight	Kg	1.5	1.9	2.3	2.7	4
Sensor	Honeywell
Insulation Class	B
Degree of Protection	IP30
Storage Temperature	-25~+70ºC
Operating Temperature	-15~+50ºC
Working Humidity	85% RH or below (no condensation)
Working Environment	Outdoor (no direct sunlight), no corrosive gas, no flammable gas, no oil mist, no dust
Altitude	1000 CHINAMFG or less

110mm 310V Brushless Motor Parameters:

Specification	Unit	Model
Specification	Unit	JK110BLS050	JK110BLS75	JK110BLS100	JK110BLS125
Number Of Phase	Phase	3
Number Of Poles	Poles	8
Rated Voltage	VDC	310
Rated Speed	Rpm	3400
Rated Torque	N.m	2.38	3.3	5	6.6
Rated Current	Amps	0.5	0.6	0.8	1
Rated Power	KW	0.75	1.03	1.57	2.07
Back E.M.F	V/Krpm	91.1	91.1	91.1	88.6
Torque Constant	N.m/A	0.87	0.87	0.87	0.845
Body Length	mm	130	155	180	205
Sensor	Honeywell
Insulation Class	H

Stepping Motor Customized

Planetary Gearbox Type:

Detailed Photos

Cnc Motor Kits Brushless dc Motor with Brake

Brushless Dc Motor with Planetary Gearbox Bldc Motor with Encoder

Brushless Dc Motor Brushed Dc Motor Hybrid Stepper Motor

Company Profile

Equipments Show:
Production Flow:
Package:
Certification:

/* 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

Application:	Universal, Industrial, Household Appliances, Car, Power Tools
Operating Speed:	Adjust Speed
Excitation Mode:	Compound

Samples:	US$ 30/Piece 1 Piece(Min.Order) \| Order Sample need to confirm the cost with seller

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.

brushless motor

Where can individuals find reliable information and resources for learning more about brushless motors?

Individuals seeking reliable information and resources to learn more about brushless motors have several options available. Here are some recommended sources:

1. Manufacturer Websites:

2. Industry Associations and Organizations:

3. Technical Forums and Online Communities:

4. Books and Publications:

5. Online Tutorials and Courses:

6. Research Papers and Technical Journals:

7. Industry Trade Shows and Exhibitions:

8. Online Product Catalogs and Datasheets:

brushless motor

What is the significance of commutation in brushless motor operation, and how is it achieved?

brushless motor

What are the primary advantages of using brushless motors in various applications?

Brushless motors offer several advantages that make them preferred choices in various applications. Here are the primary advantages of using brushless motors:

1. High Efficiency:

Brushless motors are known for their high efficiency. The absence of brushes and commutators reduces friction and electrical losses, resulting in improved power conversion and energy efficiency. This efficiency translates into lower power consumption, reduced heat generation, and longer battery life in battery-powered applications. High efficiency makes brushless motors suitable for applications where energy efficiency is crucial, such as electric vehicles, renewable energy systems, and battery-operated devices.

2. Increased Reliability:

Brushless motors offer increased reliability compared to brushed motors. The lack of brushes and commutators eliminates common points of failure in brushed motors. Brushes can wear out and require periodic replacement, while commutators can experience electrical arcing and wear. By removing these components, brushless motors have longer lifespans, reduced maintenance requirements, and higher overall reliability. This advantage is particularly important in critical applications where downtime and maintenance costs must be minimized.

3. Precise Speed and Position Control:

Brushless motors provide precise speed and position control, making them suitable for applications that require accurate motion control. The electronic commutation in brushless motors allows for precise monitoring and adjustment of motor parameters, such as speed, torque, and direction. This level of control enables smooth and precise movements, making brushless motors ideal for robotics, CNC machines, automation systems, and other applications that demand precise positioning and motion control.

4. Compact Size and High Power Density:

Brushless motors have a compact design and high power density, making them suitable for applications where space is limited. The absence of brushes and commutators allows for a more streamlined motor design, reducing the overall size and weight of the motor. This compact size makes brushless motors ideal for applications with size constraints, such as drones, portable devices, and small appliances. Despite their compact size, brushless motors can deliver high power output, making them capable of driving demanding applications.

5. Reduced Electromagnetic Interference (EMI):

Brushless motors generate less electromagnetic interference (EMI) compared to brushed motors. The electronic commutation in brushless motors produces smoother and more controlled current waveforms, resulting in reduced EMI. This advantage is particularly important in applications where EMI can interfere with sensitive electronics or cause electromagnetic compatibility (EMC) issues. Brushless motors are commonly used in medical equipment, telecommunications, and audio/video equipment, where minimizing EMI is critical.

6. Higher Speed and Acceleration Capability:

Brushless motors offer higher speed and acceleration capabilities compared to brushed motors. The absence of brushes reduces friction and allows brushless motors to achieve higher rotational speeds. Additionally, the electronic commutation enables faster switching and control, resulting in faster acceleration and deceleration. These characteristics make brushless motors suitable for applications that require rapid movements, high-speed operation, and quick response times, such as robotics, industrial automation, and electric vehicles.

These advantages make brushless motors a preferred choice in a wide range of applications, including robotics, electric vehicles, aerospace, industrial automation, medical equipment, consumer electronics, and more. Their high efficiency, reliability, precise control, compact size, reduced EMI, and high-speed capabilities contribute to improved performance and enable innovative designs in various industries.

China high quality NEMA 17 23 34 42 57 86mm Brushless DC BLDC Electric Motor with Gearbox / Brake / Encoder / Controller 12V 24V 36V 48V 220V DC Servo Motor for Lawn Mower vacuum pump booster
editor by CX 2024-05-08

China manufacturer Brushless Motor 57bl3a90 36V 24V 48V 8poles 3000rpm 185W 62W 125W 0.2n.M 0.4n.M vacuum pump oil

Product Description

Brushless DC Motor Series 57BL(NEMA 23)
Model			57BL3A50		57BL3A70		57BL3A90
Specification	Unit		-A	-B	-B	-C	-B	-C
Rated voltage	U	V	24	36	36	48	36	48
Rated out power	Pout	W	62	62	125	125	185	185
Rated speed	n N	rpm	3000	3000	3000	3000	3000	3000
Rated current	I N	A	3.3	2.2	4.4	3.2	6.5	4.8
Rated torque	T N	N.m	0.2	0.2	0.4	0.4	0.6	0.6
Peak current	I P	A	10.5	6.5	13.4	9.8	20	14.9
Peak torque	T p	N.m	0.58	0.6	1.29	1.31	1.9	2
Voltage constant	K E	V/ Krpm	6.23	9.5	9.47	12.7	9.45	12.6
Torque constant	K T	N.m/A	0.069	0.11	0.095	0.134	0.097	0.136
Rotor inertia	J	Kg.cm 2	0.3	0.3	0.6	0.6	0.9	0.9
Number of poles	N P		8	8	8	8	8	8
Winding class			B	B	B	B	B	B
Motor weight	Kg		0.65	0.65	1	1	1.4	1.4
Remark	1. Motor are available with different winding and mechanical modification to meet specific applications.
Remark	2. Can match encoder.

FAQ
Q: How to order?
A: send us inquiry → receive our quotation → negotiate details → confirm the sample → sign contract/deposit → mass production → cargo ready → balance/delivery → further cooperation.

Q: How about Sample order?
A: Sample is available for you. please contact us for details.

Q: Which shipping way is avaliable?
A: DHL, UPS, FedEx, TNT, EMS, China Post,Sea are available.The other shipping ways are also available, please contact us if you need ship by the other shipping way.

Q: How long is the deliver?
A: Devliver time depends on the quantity you order. usually it takes 15-25 working days.

Q: My package has missing products. What can I do?
A: Please contact our support team and we will confirm your order with the package contents.We apologize for any inconveniences.

Q: How to confirm the payment?
A: We accept payment by T/T, PayPal, the other payment ways also could be accepted,Please contact us before you pay by the other payment ways. Also 30-50% deposit is available, the balance money should be paid before shipping. /* 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

Application:	Universal, Industrial, Household Appliances
Operating Speed:	Adjust Speed
Excitation Mode:	Shunt
Function:	Driving
Casing Protection:	Closed Type
Number of Poles:	8

Samples:	US$ 75/Piece 1 Piece(Min.Order) \|

Customization:	Available \|

brushless motor

What factors should be considered when selecting a brushless motor for a specific application?

When selecting a brushless motor for a specific application, several factors need to be considered to ensure optimal performance and compatibility. Here are the key factors to take into account:

1. Power and Torque Requirements:

2. Size and Form Factor:

3. Environmental Conditions:

4. Efficiency and Energy Consumption:

5. Control and Feedback Requirements:

6. Operating Voltage and Power Supply:

7. Expected Lifetime and Reliability:

8. Cost and Budget:

9. Application-Specific Considerations:

By carefully considering these factors, you can select a brushless motor that is well-suited for the specific application, ensuring optimal performance, efficiency, reliability, and compatibility.

brushless motor

How does the absence of brushes impact the maintenance requirements of brushless motors?

The absence of brushes in brushless motors has a significant impact on their maintenance requirements. Here’s how the absence of brushes affects the maintenance of brushless motors:

1. Reduced Wear and Tear:

One of the primary advantages of brushless motors is that they do not have brushes that make physical contact with the commutator. In brushed motors, the brushes wear down over time, leading to brush replacement or repair. The absence of brushes in brushless motors eliminates this wear and tear, resulting in reduced maintenance needs. Brushless motors can operate for longer periods without the need for brush replacement or maintenance related to brush wear.

2. Decreased Risk of Brush Failure:

Brushes in brushed motors are subject to wear, heat, and carbon dust accumulation, which can lead to brush failure or arcing. Brush failure can cause motor performance issues, increased electrical noise, and even motor damage. Brushless motors, on the other hand, do not have brushes that can fail. The absence of brushes reduces the risk of brush-related failures, minimizing the need for maintenance and repair associated with brush replacement or troubleshooting brush-related issues.

3. Improved Reliability and Durability:

The elimination of brushes in brushless motors improves their overall reliability and durability. Without brushes, there is no physical contact or friction that can cause wear, heat generation, or electrical resistance. This results in a more robust motor design with fewer components prone to failure. Brushless motors are known for their long service life and high reliability, requiring minimal maintenance to keep them operational.

4. Simplified Maintenance Procedures:

Brushless motors typically require less maintenance compared to brushed motors. The absence of brushes simplifies maintenance procedures since there is no need to inspect, clean, or replace brushes. Routine maintenance for brushless motors usually involves checking the motor’s connections, ensuring proper cooling, and verifying the integrity of the electronic components and wiring. These maintenance tasks are generally less frequent and less labor-intensive compared to maintaining brushed motors.

5. Potential Cost Savings:

The reduced maintenance requirements of brushless motors can result in cost savings over their lifetime. With fewer maintenance tasks and a longer service life, the overall maintenance and repair costs associated with brushless motors are typically lower compared to brushed motors. The reduced need for brush replacement, brush inspections, and related troubleshooting can contribute to cost savings and improved operational efficiency.

In summary, the absence of brushes in brushless motors significantly impacts their maintenance requirements. The elimination of brushes reduces wear and tear, decreases the risk of brush failure, improves reliability and durability, simplifies maintenance procedures, and can potentially lead to cost savings. These advantages make brushless motors an attractive choice in applications where low maintenance and long service life are essential, such as in electric vehicles, industrial automation, and other systems that require reliable and efficient motion control.

brushless motor

What is a brushless motor, and how does it differ from traditional brushed motors?

1. Construction:

2. Commutation:

3. Efficiency:

4. Maintenance:

5. Lifespan:

6. Control and Performance:

China manufacturer Brushless Motor 57bl3a90 36V 24V 48V 8poles 3000rpm 185W 62W 125W 0.2n.M 0.4n.M vacuum pump oil
editor by CX 2024-05-08

China wholesaler High Torque12V 24V 36V 40V 48V 72V 250W 300W 450W 500W 600W 750W 800 Watt 2800rpm 3000 Rpm Permanent Magnet BLDC Brushless Air Cooler DC Motor wholesaler

Product Description

Feature:
A. High power range from 5W to 20KW
B. Rich stock and fast shipping time in 10 working days
C. Easy for speed & direction adjustment
D. 16mm to 220mm size range with low noisy
E. Strong stability for driver/controller
F. Lifetime above continuous 10000 hours
G. IP65 protection rank is available for us
H. Above 90% enery efficiency motor is available
I. 3D file is available if customers needed
J. Permanent magnet brushless dc motor
K.High-performance and stable matching driver and controller
High Speed 12V 24V 36V 40V 48V 72V 250W 300W 450W 500W 600W 750W 800 Watt 2800rpm 3000 Rpm Permanent Magnet BLDC Brushless Air Cooler DC Motor with Controller

Style#	Rated power(W)	Rated voltag(V)	Rated speed(r/min)	Rated torque(N.m)	Peak torque(N.m)	Rated current(A)	L=Motor length(mm)
D5BLD450-48A-30S	450W	DC48V	3000r/min	1.43	4.29	11.7A	90mm

Other Specification form:

For More Details Of Product Specifications,
Please Click here contact us for updated size drawing if you have other different parameter needed. Thanks

More Flange Size

BLDC Motor with Gearbox Range

Company Profile

DMKE motor was founded in China, HangZhou city,Xihu (West Lake) Dis. district, in 2009. After 14 years’ creativity and development, we became 1 of the leading high-tech companies in China in dc motor industry.

We specialize in high precision micro dc gear motors, brushless motors, brushless controllers, dc servo motors, dc servo controllers etc. And we produce brushless dc motor and controller with wide power range from 5 watt to 20 kilowatt; also dc servo motor power range from 50 watt to 10 kilowatt. They are widely used in automatic guided vehicle , robots, lifting equipment,cleaning machine, medical equipment, packing machinery, and many other industrial automatic equipments.

With a plant area of 4000 square meters, we have built our own supply chain with high quality control standard and passed ISO9001 certificate of quality system.

With more than 10 engineers for brushless dc motor and controllers’ research and development, we own strong independent design and development capability. Custom-made motors and controllers are widely accepted by us. At the same time, we have engineers who can speak fluent English. That makes we can supply intime after-sales support and guidance smoothly for our customers.

Our motors are exported worldwide, and over 80% motors are exported to Europe, the United States, Saudi Arabia, Australia, Korea etc. We are looking CHINAMFG to establishing long-term business relationship together with you for mutual business success.

FAQ

Q1: What kind motors you can provide?
A1: For now, we mainly provide permanent magnet brushless dc motor, dc gear motor, micro dc motor, planetary gear motor, dc servo motor, brush dc motors, with diameter range from 16 to 220mm,and power range from 5W to 20KW.

Q2: Is there a MOQ for your motors?
A2: No. we can accept 1 pcs for sample making for your testing,and the price for sample making will have 10% to 30% difference than bulk price based on different style.

Q3: Could you send me a price list?
A3: For all of our motors, they are customized based on different requirements like power, voltage, gear ratio, rated torque and shaft diameter etc. The price also varies according to different order qty. So it’s difficult for us to provide a price list.
If you can share your detailed specification and order qty, we’ll see what offer we can provide.

Q4: Are you motors reversible?
A4: Yes, nearly all dc and ac motor are reversible. We have technical people who can teach how to get the function by different wire connection.

Q5: Is it possible for you to develop new motors if we provide the tooling cost?
A5: Yes. Please kindly share the detailed requirements like performance, size, annual quantity, target price etc. Then we’ll make our evaluation to see if we can arrange or not.

Q6:How about your delivery time?
A6: For micro brush dc gear motor, the sample delivery time is 2-5 days, bulk delivery time is about 15-20 days, depends on the order qty.
For brushless dc motor, the sample deliver time is about 10-15 days; bulk time is 15-20 days.
Pleasecontact us for final reference.

Q7:What’s your warranty terms?
A6: One year

/* 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

Application:	Universal, Industrial, Household Appliances, Power Tools, Pump
Operating Speed:	Adjust Speed
Excitation Mode:	Compound

Samples:	US$ 85/Piece 1 Piece(Min.Order) \| Order Sample brushless dc motor

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.

brushless motor

What role do electronic speed controllers (ESCs) play in brushless motor systems?

brushless motor

How does the absence of brushes impact the maintenance requirements of brushless motors?

The absence of brushes in brushless motors has a significant impact on their maintenance requirements. Here’s how the absence of brushes affects the maintenance of brushless motors:

1. Reduced Wear and Tear:

2. Decreased Risk of Brush Failure:

3. Improved Reliability and Durability:

4. Simplified Maintenance Procedures:

5. Potential Cost Savings:

brushless motor

What are the primary advantages of using brushless motors in various applications?

Brushless motors offer several advantages that make them preferred choices in various applications. Here are the primary advantages of using brushless motors:

1. High Efficiency:

2. Increased Reliability:

3. Precise Speed and Position Control:

4. Compact Size and High Power Density:

5. Reduced Electromagnetic Interference (EMI):

6. Higher Speed and Acceleration Capability:

China wholesaler High Torque12V 24V 36V 40V 48V 72V 250W 300W 450W 500W 600W 750W 800 Watt 2800rpm 3000 Rpm Permanent Magnet BLDC Brushless Air Cooler DC Motor wholesaler
editor by CX 2024-05-08

China OEM Low Noise AC/DC 48V Brushless DC Motor Brushless Dish-Washer Motor for Suction Hoods / Electric Tools/ Air Purifier Motor with IP65 Waterproof vacuum pump oil near me

Product Description

Product Description
Our Company Website http://greatup

1. Stator size is optional
2. Safe, reliable, low noise, good starting, long life
3. Strong power
Rated voltage 110~120V/220~240V-50/60Hz
Typical used: Exhaust fan, air purifier, micro-oven, fan, induction cooker, refrigerator, pump, heater, hood oven, blwer, air conditioner, Heater machines, dehumidifiers
Thermal protector with 1 shot fuse or multi shot fuse

Typical Market

Products for industry and commerce uses motor

Application

Household appliances motor Industrial equipment motor Fan motor

Main Technical Parameters

Vol: 12-36V DC

Rated Speed: 1900-4500RPM

Rated Power: 17-40W

Insulation Class: B F H

Typical application

Heat exchanger

Air exchange fan

Fan

Typical model load performance
Type	Voltage Range(V)	Rated Voltage (V)	Speed (RPM)	Current (A)	Speed (RPM)	Current (A)	P(W)	Max Eff.(%)
BL80404-01	34-38/DC	36/DC	6000	0.3	4500	1.1	40	71
BL80303-01	22-26/DC	24/DC	4700	0.3	3000	0.8	20	63
BL80301-01	22-26/DC	24/DC	3300	0.1	1900	0.7	17	55

Our company FAQ for you

(1) Q: What kind motors you can provide?
A:For now,we mainly provide Kitchen Hood Motor,DC Motor,Gear Motor,Fan Motor Refrigerator Motor,Hair Dryer Motor Blender Motor Mixer Motor,
Shade Pole Motor,Capacitor Motor,BLDC Motor PMDC Motor,Synchronous Motor,Stepping Motor etc.

(2) Q: Is it possible to visit your factory
A: Sure. But please kindly keep us posted a few days in advance. We need to check our
schedule to see if we are available then.

(3) Q: Can I get some samples
A: It depends. If only a few samples for personal use or replacement, I am afraid it will
be difficult for us to provide, because all of our motors are custom made and no stock
available if there is no further needs. If just sample testing before the official order and
our MOQ, price and other terms are acceptable, we’d love to provide samples.

(4) Q: Is there a MOQ for your motors?
A: Yes. The MOQ is between 1000~10,000pcs for different models after sample approval.
But it’s also okay for us to accept smaller lots like a few dozens, hundreds or thousands
For the initial 3 orders after sample approval.For samples, there is no MOQ requirement. But the less the better (like no more than 5pcs) on condition that the quantity is enough in case any changes needed after initial testing.

ABOUT US

CHINAMFG group was set up in 2006.we always focus on micro-motors for household electrical appliance and industry appliance since setting up.currently we have 2 professional micro-motor factories in China which severally located in HangZhou city and HangZhou city.it has an area of 25,000 square CHINAMFG plants and more than 300 employees, annual output is 3 million pcs and has 5 million pcs annual producing capacity.after several years development,we had built a great reputation in the market and got more and more customers’ trust in the world.
We started from shaded pole motors at beginning, up to now,our product included of shaded pole motors,synchronous motors,stepping motors ,capacitor motors, BLDC motors, DC motors and compressors. Our product are widely used for making refrigerators, freezers, micro-wave ovens, air warmers, air exhausters, ventilators,ovens, air filter, massage machines and many other equipments.
As a realiable quality guaranty,Ritscher has complete R&D departement,QC department,producing department,purchase department etc. has perfect producing equipment like Aluminum diecasting, Zinc diecasting, Sheet metal stamping, Plastic injection molding etc. also test/ detection device like multiplex temp measuring device, performance parameter inspection device, Phenol peptide solution pinhole tester,Anechoic room etc.

Endeavoring to provide the best product and service to customers,we always do the most effort to become an outstanding manufacturer of micro motors.
CHINAMFG is always willing to establish sincere business relationship with friends from all over the world.
Welcome contact with us!

Take CHINAMFG ,enjoy modern life!

/* 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

Application:	Industrial
Speed:	Variable Speed
Number of Stator:	Single-Phase
Function:	Driving, Control
Casing Protection:	Protection Type
Number of Poles:	2

Samples:	US$ 0/Piece 1 Piece(Min.Order) \|

Customization:	Available \|

brushless ac motor

What is the role of electronic commutation in brushless AC motors?

Electronic commutation plays a crucial role in the operation of brushless AC motors. It enables precise control over the motor’s performance, including speed, torque, and direction of rotation. Here’s a detailed explanation of the role of electronic commutation:

In a brushless AC motor, the rotor consists of permanent magnets or electromagnets, while the stator contains multiple coils of wire known as windings. The stator windings are energized with alternating current (AC) to create a rotating magnetic field. However, for the motor to rotate smoothly and maintain synchronization with the rotating magnetic field, the current flow in the stator windings must be switched at specific moments.

This is where electronic commutation comes into play. Electronic commutation involves the use of sensors, typically Hall effect sensors, placed inside the motor to detect the position of the rotor magnets. These sensors provide feedback to an electronic controller, which determines the precise timing for switching the current flow in the stator windings.

The electronic controller uses the information from the sensors to determine which windings should be energized and when. It generates signals to activate the appropriate power switches or transistors, which control the current flow in the stator windings. By switching the current flow in a carefully timed manner, the controller ensures that the magnetic force on the rotor magnets is always in the correct direction to generate continuous rotation.

Electronic commutation offers several advantages in brushless AC motors:

Precise Control: Electronic commutation allows for precise control over the motor’s operation. The controller can adjust the timing and duration of current switching to achieve the desired speed, torque, and direction of rotation.
Efficiency: By precisely controlling the current flow, electronic commutation minimizes energy losses and improves overall motor efficiency. The controller can optimize the motor’s performance to match the load requirements, reducing unnecessary power consumption.
Smooth Operation: Electronic commutation results in smoother motor operation compared to mechanical commutation in brushed motors. The absence of physical brushes and commutators eliminates the mechanical limitations and potential sources of friction, leading to quieter and vibration-free operation.
Variable Speed Control: Electronic commutation facilitates variable speed control in brushless AC motors. By adjusting the timing and frequency of current switching, the controller can vary the motor’s rotational speed over a wide range, offering flexibility in different applications.
Improved Reliability: Electronic commutation eliminates the wear and tear associated with brushes and commutators in traditional brushed motors. This contributes to the overall reliability and durability of brushless AC motors, reducing the need for frequent maintenance and replacement of worn-out components.

In summary, electronic commutation plays a vital role in brushless AC motors by providing precise control over the motor’s operation, improving efficiency, enabling variable speed control, ensuring smooth operation, and enhancing overall reliability. It is the key mechanism that allows brushless AC motors to deliver efficient and accurate motor performance in various applications.

brushless ac motor

How does the efficiency of a brushless AC motor compare to other motor types?

The efficiency of a motor refers to its ability to convert electrical power into mechanical power with minimal losses. Brushless AC motors are known for their high efficiency compared to other motor types. Here’s a detailed explanation of how the efficiency of brushless AC motors compares to other motor types:

1. Brushed DC Motors: Brushed DC motors, which use carbon brushes and a commutator, typically have lower efficiency compared to brushless AC motors. The brushes and commutator in brushed DC motors introduce friction and electrical losses, reducing overall efficiency. Additionally, the brush contact can cause sparking and wear over time, further impacting efficiency. Brushless AC motors, which eliminate the brushes and commutator, offer higher efficiency due to reduced friction and electrical losses.

2. Induction Motors: Induction motors are a type of AC motor commonly used in various applications. While induction motors are generally efficient, brushless AC motors can offer even higher efficiency. Brushless AC motors benefit from the absence of rotor windings and the elimination of energy losses associated with rotor resistance in induction motors. Additionally, brushless AC motors can achieve higher power factor and better control, further contributing to their overall efficiency.

3. Brushed AC Motors: Brushed AC motors, which use brushes and a commutator similar to brushed DC motors, typically have lower efficiency compared to brushless AC motors. The brushes and commutator in brushed AC motors introduce friction, wear, and electrical losses, reducing overall efficiency. Brushless AC motors eliminate these components, resulting in higher efficiency and improved performance.

4. Permanent Magnet Synchronous Motors (PMSMs): Brushless AC motors, also known as permanent magnet synchronous motors (PMSMs), are highly efficient compared to other motor types. PMSMs utilize permanent magnets on the rotor, eliminating the need for rotor windings and associated losses. The absence of brushes and commutators, as well as the use of advanced control techniques, contribute to the high efficiency of brushless AC motors. PMSMs are widely used in applications that require high efficiency, such as electric vehicles, industrial automation, and renewable energy systems.

It’s important to note that the efficiency of a motor can also depend on factors such as motor design, size, operating conditions, and control mechanisms. While brushless AC motors generally offer high efficiency, specific motor models and variations may vary in their efficiency performance. It is advisable to refer to the motor manufacturer’s specifications and efficiency data for accurate comparisons and selection of the most suitable motor for a given application.

brushless ac motor

Are there limitations to the size or capacity of brushless AC motors?

Yes, there are limitations to the size or capacity of brushless AC motors. While brushless AC motors offer several advantages over other motor types, such as higher efficiency, better speed control, and longer lifespan, they do have certain limitations that need to be considered. Here’s a detailed explanation of these limitations:

1. Physical Size: Brushless AC motors tend to be larger in size compared to brushed motors of similar power ratings. This is primarily due to the additional components required for the motor’s operation, such as the rotor position sensors and the motor controller. As a result, there may be practical limitations on the size of brushless AC motors that can be used in certain applications where space is limited or where compact motor designs are required.

2. Power Density: Brushless AC motors generally have lower power density compared to some other motor types, such as brushed DC motors or certain types of high-performance motors. Power density refers to the amount of power that can be delivered per unit volume or weight of the motor. This limitation can impact applications where high power-to-size or power-to-weight ratios are critical, such as in aerospace or automotive applications.

3. Cost: Brushless AC motors can be more expensive compared to other motor types, especially for smaller power ratings. The additional components and complex control systems required for brushless AC motor operation contribute to higher manufacturing costs. This cost limitation may make brushless AC motors less economically viable for certain applications, particularly those with low power requirements or strict budget constraints.

4. High-Speed Operation: Brushless AC motors may face challenges when operating at extremely high speeds. The centrifugal forces acting on the rotor components can increase significantly at high speeds, leading to increased mechanical stress and potential issues with rotor balancing. Specialized designs and materials may be required to mitigate these challenges and ensure safe and reliable high-speed operation.

5. Complex Control Systems: Brushless AC motors require sophisticated control systems, such as motor controllers or drives, to operate effectively. These control systems must accurately synchronize the switching of the inverter and the rotor position to achieve optimal motor performance. The design, implementation, and maintenance of these control systems can be complex and may require specialized knowledge and expertise.

Despite these limitations, brushless AC motors are widely used in various applications, ranging from industrial machinery and robotics to electric vehicles and renewable energy systems. Continuous advancements in motor technology and control systems are addressing many of these limitations, allowing brushless AC motors to be applied in a broader range of applications and power capacities.

It’s crucial to consider the specific requirements and constraints of the intended application when selecting a motor type. Consulting with motor experts or engineers can provide valuable insights into the suitability and limitations of brushless AC motors for a given application.

China OEM Low Noise AC/DC 48V Brushless DC Motor Brushless Dish-Washer Motor for Suction Hoods / Electric Tools/ Air Purifier Motor with IP65 Waterproof vacuum pump oil near me
editor by CX 2024-05-07

China Hot selling 48V 72V 5KW 4000RPM, 45n.M BLDC Electric Motorcycle Motor, Electric motorbike Motor for boat, bike, golf carts with CE supplier

Product Description

Convert your gasoline powered motorcycle, scooter into electric version easily!
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Cooling/Air Cooling 48v 5kw bldc motor for Electric Motorcycle.
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Powerful, Efficient and Reliable BLDC Motors
We are leading manufacturer of general-purpose brushless dc (BLDC) motors with power range from 200W to 20KW, and the voltage range from 24V to 120V DC. It has been widely used for many applications, eg., auto industry, battery powered bikes, scooters, electric cars, forklifts, golf buggies, boats etc. It has better performances than other traditional dc motors.

The Specifications of Our BLDC Motor Kit:
1. Voltages: 48/72V/96v/120v
2. Rated power: 3kW-7.5kW
3. CHINAMFG power: 10kW
4. Speed: 3000-5000rpm
5. Rated torque: 13Nm
6. CHINAMFG torque: 45 Nm
7. Efficiency: >90%
8. Dimensions: 21cm diameter, 18cm height
9. Weight: 11Kg(Air),11.35kg(Liquid )
10. Cooling: Air or Liquid Cooling

1.	Voltage	48V/72V/96V/120V
2.	Rated Power	3kW-7.5kW
3.	Peak Power	10kW
4.	Speed	3000-5000rpm
5.	Rated torque	13Nm
6.	Peak torque	45Nm
7.	Efficiency	>90%
8.	Dimensions	21cm diameter, 18cm height
9.	Weight	11Kg(Air),11.35kg(Liquid )
10.	Cooling	Air or Liquid Cooling

Pictures of the 3KW -20KW BLDC Motor

Application of Electric motorcycle Conversion Model

3KW, 5KW, 10KW BLDC Motor for Electric Motorcycle from Our Clients

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6.Warranty :We warrant that this product shall be free from defects in material or workmanship for 1 year from the date of purchase.The warranty of the battery is 1year from the date of purchase.This warranty does not apply to any product that has been subject to misuse,abuse,negligence or neglect.Defects caused by tempering ,alterations and /or repairs are not covered by this warranty.
7.Payment :TT /PAYPAL

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Operating Speed:	High Speed
Function:	Driving

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Shipping Cost: Estimated freight per unit.	about shipping cost and estimated delivery time.

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Currency:	US$

Return&refunds:	You can apply for a refund up to 30 days after receipt of the products.

brushless motor

What role do electronic speed controllers (ESCs) play in brushless motor systems?

brushless motor

Can brushless motors be used in both low-power and high-power applications?

1. Low-Power Applications:

Consumer Electronics: Brushless motors are employed in devices such as drones, camera gimbals, computer cooling fans, and electric toothbrushes. These applications require compact and lightweight motors with low power consumption and precise control.
Home Appliances: Brushless motors find applications in various home appliances, including refrigerators, washing machines, air conditioners, and fans. They provide energy-efficient operation and contribute to the overall performance and longevity of these appliances.
Office Equipment: Brushless motors are used in printers, scanners, copiers, and other office equipment. They offer quiet operation, precise movement, and low power consumption, making them suitable for these applications.
Automotive Systems: Brushless motors are increasingly utilized in automotive systems, including HVAC blowers, power windows, seat adjustment mechanisms, and electric power steering. They provide efficient and reliable operation while minimizing power consumption.

2. High-Power Applications:

Electric Vehicles (EVs): Brushless motors are extensively employed in electric vehicles for propulsion and drivetrain systems. They offer high torque output, efficient power conversion, and precise control, enabling EVs to achieve high performance and extended range.
Aerospace and Aviation: Brushless motors find applications in aircraft systems such as flight control surfaces, landing gear actuation, and environmental control systems. These applications require high-power motors with reliable and precise motion control capabilities.
Industrial Automation: Brushless motors are utilized in industrial machinery and automation systems, including CNC machines, robotics, and conveyor systems. They provide high torque density, fast response times, and accurate positioning, enabling efficient and precise control in demanding industrial environments.
Marine and Propulsion Systems: Brushless motors are used in marine applications, such as electric propulsion systems for boats and ships. They offer high power output, durability, and resistance to harsh environmental conditions.

brushless motor

What is a brushless motor, and how does it differ from traditional brushed motors?

1. Construction:

2. Commutation:

3. Efficiency:

4. Maintenance:

5. Lifespan:

6. Control and Performance:

China Hot selling 48V 72V 5KW 4000RPM, 45n.M BLDC Electric Motorcycle Motor, Electric motorbike Motor for boat, bike, golf carts with CE supplier
editor by CX 2024-05-07