Tag Archives: high speed motor

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 Professional Micro Motor Brushless Motor BLDC Motor Electrical Motor AC Motor Electric Motor DC Motor High Speed Motor High Speed Motor Hair Dryer Motor with Controller vacuum pump electric

Product Description

BLDC Motor is featured with electronically commutation, extremely wide speed range and an outstandingly long life span, and mainly used in applications that low noise and low vibration is a prime requirement, such as consumer robot,coffee grinder, fan&air purifier, vacuum & blower ,etc.

In such cases, BLDC motors are for your products: Your products are designed to apply to a quiet environment. Your projects require a wider life span and higher reliability. Smaller sizes or compact designs of motors can be offered to accommodate various external product designs.
In some cases, controllability is critical, for example, a bldc motor run under closed-loop could output the exact speed as designed.

F8M110 is recommended for household appliances, such as fans and air purifiers. Please keep the following requirements in mind before requesting customization: motor size, controller, motor ratings, gearbox(if any), or other significant factors.

Parameters:

Outer Diameter	42mm	AirSpeed@Rated Speed	3.96m/s	Noise	≤68dB
Rated Power	134±10%W	Weight	130g	Application1	HairDryer
Air Volume@RatedSpeed	31.1L/s	Life	≥1000hrs	Application2	AirPurifier
Rated Voltage	110V/220V	Controller	Yes

Drawing:

Characteristic of BLDC Motor:

Innovative Product Display:

Company Profile

Certifications

Exhibition

FAQ

Q: Can I visit your factory before we place the order?
A: Yes. You are welcome to visit our factory.

Q: Do you accept customization?
A: Of course. We have a strong design team. Any problems will get our technical answer.

Q: How soon can I get the price?
A: Usually we quote within 24 hours after getting your inquiry (Except weekend and holidays). If you are very urgent to get the price, please contact us by email or other way so that we can quote.

Q: What’s the delivery time of samples?
A: 1-3 weeks.

Q: What’s the delivery time of mass production?
A: Normally one month. It depends on your order quantity or other special situation.

Q: What’s your payment terms?
A: T/T, Paypal, Western Union, and other payment ways is available. Please contact us which payment ways you need before placing the order. Payment terms: 30%-50% deposit, the balance before shipment.

Q: What’s the shipping way?
A: We accept shipping way by Express (DHL, UPS, Fedex, etc), by Sea and other shipping way. Please contact us if you need other shipping way before shipment.
/* 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
Operating Speed:	Adjust Speed
Excitation Mode:	Excited
Function:	Control, Driving
Casing Protection:	Protection Type
Number of Poles:	2-6

Samples:	US$ 10/Piece 1 Piece(Min.Order) \|

Customization:	Available \|

brushless motor

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

brushless motor

How does the control system of a brushless motor contribute to precise speed regulation?

The control system of a brushless motor plays a crucial role in achieving precise speed regulation, allowing for accurate and stable motor operation. By utilizing advanced control algorithms and feedback mechanisms, the control system effectively manages the power delivery and motor performance, resulting in precise speed control. Here’s a detailed explanation of how the control system of a brushless motor contributes to precise speed regulation:

Electronic Commutation: Brushless motors employ electronic commutation, which replaces traditional brushes and commutators with solid-state electronic components. The control system utilizes sensors, such as Hall effect sensors or encoders, to accurately detect the rotor position. By knowing the precise rotor position, the control system can switch the power supply to the motor windings at the optimal timing, ensuring smooth rotation and precise speed control.
Pulse Width Modulation (PWM): The control system utilizes pulse width modulation to regulate the power delivered to the motor windings. By adjusting the width of the electrical pulses, the control system can control the average voltage applied to the motor, thereby regulating the motor speed. Precise timing and modulation of the PWM signals allow for fine-grained control over the motor speed, enabling precise speed regulation with minimal speed fluctuations.
Feedback Control: The control system incorporates feedback control mechanisms to monitor and regulate the motor speed. Feedback is typically obtained from position sensors, such as encoders or Hall effect sensors, which provide real-time information about the rotor position. This feedback is compared to the desired speed reference, and any deviations are used to adjust the motor control signals. By continuously comparing the actual speed with the desired speed, the control system makes corrective adjustments to maintain precise speed regulation.
Proportional-Integral-Derivative (PID) Control: Many brushless motor control systems employ PID control algorithms to achieve precise speed regulation. PID control utilizes a combination of proportional, integral, and derivative control actions to minimize speed errors and maintain stable operation. The proportional control component responds to the current speed error, the integral control component integrates past speed errors to eliminate steady-state errors, and the derivative control component anticipates speed changes to improve response time. The PID control algorithm continuously adjusts the motor control signals based on the speed error, contributing to precise speed regulation.
Closed-Loop Control: The control system of a brushless motor typically operates in a closed-loop configuration, where the feedback from position sensors is used to regulate the motor speed. Closed-loop control ensures that the motor speed accurately follows the desired reference speed, even in the presence of external disturbances or varying load conditions. By continuously comparing the actual speed with the desired speed and making real-time adjustments, closed-loop control provides precise speed regulation and improves the motor’s ability to maintain a constant speed under changing operating conditions.
Advanced Control Techniques: The control system may incorporate advanced control techniques, such as field-oriented control (FOC) or vector control, to achieve even higher precision in speed regulation. These techniques involve transforming the motor currents and voltages into a rotating reference frame, allowing for independent control of the magnetizing and torque-producing components. By decoupling these components and controlling them separately, advanced control techniques enable precise control of the motor speed and improve overall performance.

In summary, the control system of a brushless motor contributes to precise speed regulation through electronic commutation, pulse width modulation, feedback control, PID control algorithms, closed-loop control, and advanced control techniques. By utilizing these control strategies, the control system ensures accurate and stable motor operation, allowing for precise speed control and minimizing speed deviations in various applications.

brushless motor

How do brushless motors contribute to energy efficiency compared to brushed motors?

Brushless motors offer several key advantages over brushed motors when it comes to energy efficiency. Here’s how brushless motors contribute to energy efficiency compared to brushed motors:

1. Elimination of Brush Friction:

In brushed motors, the brushes make physical contact with the commutator, resulting in friction and wear. This friction causes energy losses in the form of heat. Brushless motors, on the other hand, do not use brushes or commutators. The absence of brush friction significantly reduces energy losses, resulting in improved energy efficiency. The elimination of brush friction allows brushless motors to operate at higher efficiencies and reduces the amount of wasted energy dissipated as heat.

2. Reduced Electrical Resistance:

Brushed motors rely on the brushes and commutator to transfer electrical current to the rotor windings. However, these components introduce electrical resistance, leading to energy losses in the form of voltage drops and heat generation. In brushless motors, electrical current is transferred to the stator windings through electronic commutation, which eliminates the resistance caused by brushes and commutators. The reduced electrical resistance in brushless motors results in higher energy efficiency and minimizes power losses.

3. Improved Power Conversion:

Brushless motors employ electronic commutation, allowing for more precise control of the current flow in the stator windings. This precise control enables optimized power conversion, ensuring that the electrical energy supplied to the motor is efficiently converted into mechanical power. Brushed motors, on the other hand, rely on mechanical commutation, which is less efficient and leads to power losses in the form of sparks and arcing. The improved power conversion in brushless motors contributes to their higher energy efficiency.

4. Regenerative Braking:

Brushless motors have the capability of regenerative braking, which further enhances their energy efficiency. During braking or deceleration, the motor can act as a generator, converting the kinetic energy of the moving load back into electrical energy. This regenerated energy can be fed back into the power source or stored in batteries or capacitors for later use. Regenerative braking reduces energy wastage and improves overall system efficiency by recovering and reusing energy that would otherwise be dissipated as heat in traditional braking systems.

5. Optimal Sizing and Control:

Brushless motors can be designed and controlled to match the specific requirements of the application, resulting in optimal sizing and operation. By selecting the appropriate motor size, torque rating, and control parameters, the motor can operate at its most efficient operating point. This tailored approach ensures that the motor operates with minimal energy losses and maximizes its energy efficiency. In contrast, brushed motors may be oversized or underutilized for certain applications, leading to less efficient operation and higher energy consumption.

Overall, brushless motors offer higher energy efficiency compared to brushed motors due to the elimination of brush friction, reduced electrical resistance, improved power conversion, regenerative braking capabilities, and the ability to optimize motor sizing and control. These energy-saving features make brushless motors a preferred choice in various applications, particularly those that prioritize energy efficiency, such as electric vehicles, renewable energy systems, and battery-powered devices.

China Professional Micro Motor Brushless Motor BLDC Motor Electrical Motor AC Motor Electric Motor DC Motor High Speed Motor High Speed Motor Hair Dryer Motor with Controller vacuum pump electric
editor by CX 2024-05-13

China OEM High Speed Brushless Motor Diameter AC 230V DC 12V Motor High 110000 Rpm for Hair Dryer with high quality

Product Description

To our esteemed customers who are exploring our products:

Ruiya is a member of the Useful Alliance, a Hong Kong trading group established in 1982. Our alliance consists of over 100 factories in ZheJiang . we have a strong track record in serving major clients and effectively managing complex supply chains.

We offer the following services:

1.Diverse product demand matching service – With our strong supply chain management capabilities, we provide professional end-to-end product demand matching services. This includes customized research, development, and production for various product categories. We ensure both capacity assurance and after-sales support.

2.Dedicated project team support – Our international trade team possesses expertise in marketing, product development, business, design, and operations. Our team members include overseas students from the UK and the US, facilitating seamless language communication and after-sales support. We can assist you in understanding market trends for your country’s products, help formulate product sales plans, and provide product information such as images, videos, and specifications to support your sales activities.

3.Professionally equipped product quality inspection team – Your orders will be closely monitored by a dedicated team to ensure strict control over product production, quality inspection, acceptance, and delivery. We guarantee product quality for you.

4.Multiple logistics channel options – Through our collaboration with various freight and logistics companies, we can help you save on logistics costs and ensure timely product delivery.

We are delighted to explore potential opportunities for collaboration, and we would greatly appreciate it if you could contact us.

The services we can provide include:

About this:

Diameter 28mm,
110,000 rpm,
Patented fan blades,
Brushless Motor,
Wind deflection cone,
0.55mm copper wire,
Durable 2000h.

If you need custom colors or functions, please be sure to contact me.

Product Specification.

APPLICATIONS
Business Machines	intelligent robot.Copiers and Scanners.3D Printers.Tattoo pen.Lampblack machine.New energy charging lock.Advertising machine.
Electric powered equipment	Electric toothbrush,Electric tool,adult erotica products,Electric toy car,Electric curtain.Razor.Electric Drill.Cosmetic instrument.
Smart Home	Intelligent window opener ,vacuum cleaner, Smart coffee Machine,hair drier,Massage Gun,Fan,air cleaner,Hair removal Device,door lock,Intelligent door lock.Water pump.Air Multiplier.
Food and Beverage	Hand Blenders, Blenders, Mixers, Coffee Machines, Food Processors, Juicers, Fryers, Ice Makers, Soy Bean Milk Makers.
Medical	sphygmomanometer, Massaging mattress, Air pump, Urine Analyzer.
Robotics	Sweeping Robot.Servicing robotics, Food delivery robot, Reception robot, Medical serving robot, Convenying robot, Inspection robot.Underwater robot.

Detailed Photos

Motor raw materials

Casing, bearing, iron core, magnetic steel, lead wire, balance mud, copper meson, PCB board, enameled wire, wire frame, graphite meson, drive plate, etc

Company Profile

FAQ

1.What is the main product line of your factory? We specialize in manufacturing turntables or record players.

2.What types of turntables do you produce? We produce a variety of turntable models, including box-style turntables, desktop speakers, floor-standing turntables, cabinet-style turntables, and high-end audiophile turntables.

3.Are your products certified for quality and safety? Yes, our products are certified with CE, EMC, LVD, ROHS, and FCC standards, ensuring quality and safety compliance.

4.Do you offer OEM and ODM services? Yes, we offer both OEM (Original Equipment Manufacturer) and ODM (Original Design Manufacturer) services to meet specific customer requirements.

5.Can I visit your factory to see the production process? Certainly! You are welcome to visit our factory and witness the production process firsthand. Please let us know in advance, so we can make appropriate arrangements.

6.What is the production capacity of your factory? Our factory has a production capacity of (specify the number) turntables per month, depending on the model and specifications.

7.How do you ensure product quality? We have a dedicated team of quality control (QC) staff responsible for inspecting our products at different production stages. In addition, we have obtained ISO9001:2008 certification and have passed BSCI Audit by TUV.

8.What is your export market reach? Our products are exported to various regions, including Europe, America, Asia, and other countries worldwide.

9.How can I place an order? To place an order, please contact our sales team via email or phone. Provide details about your requirements, such as product model, quantity, customization needs, and delivery destination.

10.What are your payment terms? Our preferred payment terms are (specify the accepted payment methods and terms, such as T/T, L/C, etc.). Please discuss with our sales team for further details.

11.What is your delivery time? The delivery time may vary depending on the order quantity and customization requirements. Our sales team will provide you with an estimated delivery time CHINAMFG order confirmation.

12.What is your after-sales service policy? We provide comprehensive after-sales service and support. In case of any product issues or concerns, please contact our customer service team, and we will assist you accordingly.

Please feel free to contact us if you have any other questions or inquiries not covered in this FAQ. We are committed to providing excellent service and meeting your needs to the best of our abilities.

/* 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

Product Name:	Brushless DC Electric Motor
Motor Type:	Permanent Motor
Usage:	Fan, Home Appliance, Cosmetic Instrument, Smart Ho

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 ac motor

In what applications are brushless AC motors commonly used?

Brushless AC motors find extensive application in various industries and sectors due to their numerous advantages. Here are some common applications where brushless AC motors are commonly used:

Industrial Automation: Brushless AC motors are widely employed in industrial automation systems, including conveyor belts, robotic arms, packaging machinery, and CNC machines. Their precise control, high efficiency, and reliability make them suitable for these demanding applications.
Electric Vehicles (EVs): Brushless AC motors are a popular choice for electric vehicles, including electric cars, motorcycles, and scooters. They offer high torque, efficient power conversion, and regenerative braking capabilities, contributing to the overall performance and range of electric vehicles.
HVAC Systems: Heating, ventilation, and air conditioning (HVAC) systems often use brushless AC motors in fans and blowers. The motors provide energy-efficient operation, precise airflow control, and quieter performance compared to traditional brushed motors.
Aerospace and Aviation: Brushless AC motors are employed in various aerospace and aviation applications, such as aircraft actuators, flight control systems, and auxiliary power units. The motors offer lightweight design, high power density, and reliable operation in demanding environments.
Medical Equipment: Many medical devices and equipment, including surgical tools, imaging systems, and laboratory equipment, utilize brushless AC motors. The motors provide precise control, low noise, and long life, ensuring the reliability and effectiveness of medical procedures.
Home Appliances: Brushless AC motors are increasingly used in home appliances such as refrigerators, washing machines, and dishwashers. They offer energy-efficient operation, reduced noise, and enhanced durability compared to traditional brushed motors.
Renewable Energy: Brushless AC motors play a crucial role in renewable energy systems like wind turbines and solar tracking systems. Their high efficiency and precise control contribute to optimizing energy generation and harnessing renewable resources effectively.
Electronics and Computer Cooling: Brushless AC motors are utilized in electronics and computer cooling applications, including fans and heatsinks. The motors provide efficient heat dissipation, reliable cooling, and quiet operation to prevent overheating and ensure the optimal performance of electronic components.

These are just a few examples of the many applications where brushless AC motors are commonly used. Their versatility, efficiency, reliability, and precise control make them an ideal choice across various industries and sectors.

brushless ac motor

Can brushless AC motors be used in both industrial and residential settings?

Yes, brushless AC motors can be used in both industrial and residential settings. The versatility and advantages of brushless AC motors make them suitable for a wide range of applications. Here’s a detailed explanation:

Industrial Applications:

Brushless AC motors are widely used in various industrial applications due to their high efficiency, reliability, and precise control. Some common industrial applications where brushless AC motors are utilized include:

Industrial Machinery: Brushless AC motors are often used in industrial machinery such as conveyor systems, pumps, compressors, and fans. Their high torque, variable speed control, and efficient operation make them suitable for driving heavy loads and providing reliable performance in demanding industrial environments.
Robotics: Brushless AC motors find extensive use in robotics applications. The precise control capabilities of brushless motors, coupled with their compact size and high power density, make them ideal for powering robotic arms, grippers, and other motion control systems.
Automotive: Brushless AC motors are increasingly being employed in electric and hybrid vehicles. They offer high power-to-weight ratios, efficient operation, and regenerative braking capabilities, making them suitable for propulsion systems, power steering, and other automotive applications.
Aerospace: Brushless AC motors are used in aerospace applications, including aircraft systems, control surfaces, and landing gear mechanisms. Their reliability, compactness, and high performance make them suitable for the demanding requirements of the aerospace industry.
Industrial Automation: Brushless AC motors play a critical role in industrial automation systems. They are used in CNC machines, robotic arms, assembly lines, and other automated processes, providing accurate and reliable motion control.

Residential Applications:

Brushless AC motors are also finding increased use in residential settings, thanks to their energy efficiency, quiet operation, and long lifespan. Some common residential applications where brushless AC motors are utilized include:

Appliances: Brushless AC motors are employed in various household appliances such as refrigerators, air conditioners, washing machines, and dishwashers. They offer energy-efficient operation, precise control, and reduced noise levels, enhancing the performance and user experience of these appliances.
HVAC Systems: Brushless AC motors are used in heating, ventilation, and air conditioning (HVAC) systems. They provide efficient and reliable operation for fans, blowers, and pumps, contributing to energy savings and optimal indoor comfort.
Smart Home Devices: Brushless AC motors are integrated into smart home devices, including motorized window blinds, smart locks, and automated lighting systems. They offer quiet operation, precise positioning, and energy efficiency, enhancing the convenience and functionality of these devices.
Power Tools: Brushless AC motors are increasingly used in power tools such as drills, saws, and sanders. They deliver high power output, longer runtime, and longer tool life compared to brushed motors, making them desirable for DIY enthusiasts and professionals alike.

With their versatility, energy efficiency, and reliability, brushless AC motors have become a preferred choice in both industrial and residential settings. They offer numerous benefits, including improved performance, reduced maintenance requirements, and enhanced energy savings, making them suitable for a wide range of applications across various sectors.

brushless ac motor

Can you explain the concept of back electromotive force (BEMF) in brushless AC motors?

Back electromotive force (BEMF) is an important concept in brushless AC motors. It refers to the voltage that is induced in the motor’s windings when the rotor rotates in the magnetic field generated by the stator. BEMF plays a crucial role in the operation and control of brushless AC motors. Here’s a detailed explanation of the concept of BEMF and its significance:

When an electric current flows through the motor’s stator windings, it creates a magnetic field that interacts with the permanent magnets or field windings on the rotor. As the rotor spins, the magnetic field lines cut across the stator windings, inducing a voltage in the windings. This induced voltage opposes the applied voltage and is referred to as the back electromotive force (BEMF).

BEMF is a consequence of Faraday’s law of electromagnetic induction, which states that a changing magnetic field induces an electromotive force in a conductor. In the case of brushless AC motors, the rotating rotor and the fixed stator create a changing magnetic field that induces a voltage in the stator windings.

The magnitude and waveform of the BEMF depend on several factors, including the speed of the motor, the number of winding turns, the strength of the magnetic field, and the design of the motor. At low speeds, the BEMF is relatively low, while at high speeds, the BEMF increases proportionally with the speed of the motor.

The BEMF in brushless AC motors serves several important purposes:

Motor Control: BEMF is used as feedback in motor control systems to determine the rotor position and speed. By measuring the BEMF, the motor controller can accurately synchronize the switching of the inverter to energize the stator windings at the correct time, ensuring optimal motor performance.
Commutation: BEMF provides information about the position of the rotor relative to the stator windings. This information is crucial for determining when to switch the current flow between different windings to generate the rotating magnetic field necessary for motor operation. By monitoring the BEMF, the motor controller can precisely control the commutation sequence, ensuring smooth and efficient motor operation.
Speed Regulation: BEMF is directly related to the speed of the motor. By measuring the BEMF, the motor controller can accurately determine the speed of the motor and adjust the applied voltage or frequency to maintain the desired speed. This speed regulation capability allows brushless AC motors to operate at variable speeds, providing flexibility and energy efficiency in various applications.
Overvoltage Protection: BEMF also plays a role in protecting the motor from overvoltage conditions. If the motor is being driven at high speed and the load suddenly decreases or the motor decelerates rapidly, the BEMF can increase significantly. The motor controller can monitor the BEMF and detect this overvoltage condition, triggering protective measures to prevent damage to the motor or other components.

In summary, back electromotive force (BEMF) is the voltage induced in the stator windings of brushless AC motors as a result of the rotor’s rotation in the magnetic field. BEMF is used for motor control, commutation, speed regulation, and overvoltage protection. Understanding and utilizing BEMF is essential for efficient and precise operation of brushless AC motors.

China OEM High Speed Brushless Motor Diameter AC 230V DC 12V Motor High 110000 Rpm for Hair Dryer with high quality
editor by CX 2024-05-13

China wholesaler Micro Motor Brushless Motor BLDC Motor Electrical Motor AC Motor Electric Motor DC Motor High Speed Motor High Speed Motor Hair Dryer Motor with Controller vacuum pump oil

Product Description

Parameters:

Outer Diameter	42mm	AirSpeed@Rated Speed	3.96m/s	Noise	≤68dB
Rated Power	134±10%W	Weight	130g	Application1	HairDryer
Air Volume@RatedSpeed	31.1L/s	Life	≥1000hrs	Application2	AirPurifier
Rated Voltage	110V/220V	Controller	Yes

Drawing:

Characteristic of BLDC Motor:

Innovative Product Display:

Company Profile

Certifications

Exhibition

FAQ

Q: Can I visit your factory before we place the order?
A: Yes. You are welcome to visit our factory.

Q: Do you accept customization?
A: Of course. We have a strong design team. Any problems will get our technical answer.

Q: What’s the delivery time of samples?
A: 1-3 weeks.

Q: What’s the delivery time of mass production?
A: Normally one month. It depends on your order quantity or other special situation.

Application:	Universal, Industrial, Household Appliances, Power Tools
Operating Speed:	Adjust Speed
Excitation Mode:	Excited
Function:	Control, Driving
Casing Protection:	Protection Type
Number of Poles:	2-6

Samples:	US$ 10/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:

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

How does the control system of a brushless motor contribute to precise speed regulation?

Electronic Commutation: Brushless motors employ electronic commutation, which replaces traditional brushes and commutators with solid-state electronic components. The control system utilizes sensors, such as Hall effect sensors or encoders, to accurately detect the rotor position. By knowing the precise rotor position, the control system can switch the power supply to the motor windings at the optimal timing, ensuring smooth rotation and precise speed control.
Pulse Width Modulation (PWM): The control system utilizes pulse width modulation to regulate the power delivered to the motor windings. By adjusting the width of the electrical pulses, the control system can control the average voltage applied to the motor, thereby regulating the motor speed. Precise timing and modulation of the PWM signals allow for fine-grained control over the motor speed, enabling precise speed regulation with minimal speed fluctuations.
Feedback Control: The control system incorporates feedback control mechanisms to monitor and regulate the motor speed. Feedback is typically obtained from position sensors, such as encoders or Hall effect sensors, which provide real-time information about the rotor position. This feedback is compared to the desired speed reference, and any deviations are used to adjust the motor control signals. By continuously comparing the actual speed with the desired speed, the control system makes corrective adjustments to maintain precise speed regulation.
Proportional-Integral-Derivative (PID) Control: Many brushless motor control systems employ PID control algorithms to achieve precise speed regulation. PID control utilizes a combination of proportional, integral, and derivative control actions to minimize speed errors and maintain stable operation. The proportional control component responds to the current speed error, the integral control component integrates past speed errors to eliminate steady-state errors, and the derivative control component anticipates speed changes to improve response time. The PID control algorithm continuously adjusts the motor control signals based on the speed error, contributing to precise speed regulation.
Closed-Loop Control: The control system of a brushless motor typically operates in a closed-loop configuration, where the feedback from position sensors is used to regulate the motor speed. Closed-loop control ensures that the motor speed accurately follows the desired reference speed, even in the presence of external disturbances or varying load conditions. By continuously comparing the actual speed with the desired speed and making real-time adjustments, closed-loop control provides precise speed regulation and improves the motor’s ability to maintain a constant speed under changing operating conditions.
Advanced Control Techniques: The control system may incorporate advanced control techniques, such as field-oriented control (FOC) or vector control, to achieve even higher precision in speed regulation. These techniques involve transforming the motor currents and voltages into a rotating reference frame, allowing for independent control of the magnetizing and torque-producing components. By decoupling these components and controlling them separately, advanced control techniques enable precise control of the motor speed and improve overall performance.

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 wholesaler Micro Motor Brushless Motor BLDC Motor Electrical Motor AC Motor Electric Motor DC Motor High Speed Motor High Speed Motor Hair Dryer Motor with Controller vacuum pump oil
editor by CX 2024-05-10

China manufacturer New Launching 30kw 15000rpm High Speed Brushless AC Permanent Magnetic Motor vacuum pump

Product Description

New Launching 30KW 15000RPM High Speed Brushless AC Permanent Magnetic Motor
Product Feature
1.Suitable for the 15000rpm high speed
2.Reserve a large margin of security
3.High power & high torque
4.High efficiency
5.Small size
6.Low noise low vibration
7.The autonomous patented cooling structure

Specifications
Model type: SRPM165H4XO30
Voltage: 380V AC
Rated Power: 30KW
Rate Torque : 19.1N.m
Rated speed: 15000rpm
Efficiency: 96.5%
Isolation: H
Water/dust Proof: IP54(IP67 option)
Cooling Method:Oil cooling

Other motors you will be interested in

Motor type	Voltage (V AC)	Rated power (kW)	Rated torque (N.m)	Rated speed (rpm)	Efficiency (%)	Duty type	Insulation	Ingress protection	Pole Number	Weight (kg)	Cooling Method	position signal
SRPM160H4XO15	380	15	5.96	24000	96.5	S1	H/F	IP67	4	12	Oil	Resolver
SRPM160H4XO75	380	75	35.8	20000	96.5	S1	H/F	IP67	4	44	Oil	Resolver
SRPM160H4XO90	380	90	43	20000	96.5	S1	H/F	IP67	4	48	Oil	Resolver
SRPM205H4XO110	380	110	52.5	20000	96.5	S1	H/F	IP67	4	76	Oil	Resolver
SRPM205H4XO160	380	160	76.4	20000	96.5	S1	H/F	IP67	4	86	Oil	Resolver
SRPM205H4XO200	380	200	95.5	20000	96.5	S1	H/F	IP67	4	95	Oil	Resolver

FAQ
1. Can performanent magnet synchronous motor be used as generator?
No. Permanent magnet synchronous motor is absolutely different from generator. It is only ac motor that outputs speed and torque to drive electric devices, but not power supply.

2. Why can not directly use 3 phase ac supply voltage to start permanent magnet synchronous motor?
Becuase rotor is with big innertia, and magetic files spins so fast that static rotor has no way to spin with magetic filed.

3. Any special technical request on this motor’s VFD driver? And Do you have such driver?
Permanent magnet synchronous motor’s driver should be vector control VFD with special inner software, such as CHINAMFG 6SE70 series, Yakawa CR5 series, ABB ACS800 series, CHINAMFG A740 series, B&R P84 and P74 series, etc.. Yes, our MH300 series VFD matches with this motor.

4. Is there any protective measures to defend permanent magnet rotor from failure?
Yes, each permanent magnet rotor passes corrossion resistance, consistency, high temperature demagnetization test, linear demagnetization test, etc. Its demagnetization index is within 2%. But if working environment is serious oxiditive corrosion, kindly advise for higher protection level.

5. Where is this permanent magnet synchronous motor normally used to?
This permanent magnet synchronous motor is normally used to variable frequency speed situation.

/* 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, Compressors, Pumps, Fans
Operating Speed:	High Speed
Operation Mode:	Electric Motor
Magnetic Structure:	Permanent Magnet
Function:	Driving
Structure:	Rotating Pole Type (Armature Fixed)

Customization:	Available \|

brushless ac motor

Can you explain the working principle of a brushless AC motor in simple terms?

A brushless AC motor operates based on the principles of electromagnetism and electronic control. Here’s a simplified explanation of the working principle:

A brushless AC motor consists of two main components: a stator and a rotor. The stator is the stationary part of the motor, while the rotor is the rotating part.

The stator contains multiple coils of wire, known as windings, which are evenly spaced around the inner circumference. These windings are energized with alternating current (AC) from an external power source.

The rotor, on the other hand, consists of permanent magnets or electromagnets. The number of magnets corresponds to the number of windings in the stator.

When the AC power is supplied to the stator windings, it creates a rotating magnetic field. This rotating magnetic field induces a magnetic force on the magnets in the rotor, causing the rotor to rotate.

To ensure the rotor rotates in synchronization with the rotating magnetic field, brushless AC motors employ electronic commutation. Electronic sensors, such as Hall effect sensors, are placed inside the motor to detect the position of the rotor magnets.

Based on the input from the sensors, an electronic controller determines the precise timing to switch the current flow in the stator windings. By switching the current at the right moment, the controller ensures that the magnetic force on the rotor magnets is always in the proper direction to generate continuous rotation.

This process of electronic commutation and precise switching of current in the stator windings allows for accurate control of the motor’s speed, torque, and direction of rotation.

Overall, the working principle of a brushless AC motor involves the creation of a rotating magnetic field in the stator through energized windings, and the use of electronic commutation to accurately control the rotation of the rotor magnets. This combination of electromagnetism and electronic control enables brushless AC motors to provide efficient and precise motor operation in various applications.

brushless ac motor

Can brushless AC motors be used in both industrial and residential settings?

Industrial Applications:

Industrial Machinery: Brushless AC motors are often used in industrial machinery such as conveyor systems, pumps, compressors, and fans. Their high torque, variable speed control, and efficient operation make them suitable for driving heavy loads and providing reliable performance in demanding industrial environments.
Robotics: Brushless AC motors find extensive use in robotics applications. The precise control capabilities of brushless motors, coupled with their compact size and high power density, make them ideal for powering robotic arms, grippers, and other motion control systems.
Automotive: Brushless AC motors are increasingly being employed in electric and hybrid vehicles. They offer high power-to-weight ratios, efficient operation, and regenerative braking capabilities, making them suitable for propulsion systems, power steering, and other automotive applications.
Aerospace: Brushless AC motors are used in aerospace applications, including aircraft systems, control surfaces, and landing gear mechanisms. Their reliability, compactness, and high performance make them suitable for the demanding requirements of the aerospace industry.
Industrial Automation: Brushless AC motors play a critical role in industrial automation systems. They are used in CNC machines, robotic arms, assembly lines, and other automated processes, providing accurate and reliable motion control.

Residential Applications:

Appliances: Brushless AC motors are employed in various household appliances such as refrigerators, air conditioners, washing machines, and dishwashers. They offer energy-efficient operation, precise control, and reduced noise levels, enhancing the performance and user experience of these appliances.
HVAC Systems: Brushless AC motors are used in heating, ventilation, and air conditioning (HVAC) systems. They provide efficient and reliable operation for fans, blowers, and pumps, contributing to energy savings and optimal indoor comfort.
Smart Home Devices: Brushless AC motors are integrated into smart home devices, including motorized window blinds, smart locks, and automated lighting systems. They offer quiet operation, precise positioning, and energy efficiency, enhancing the convenience and functionality of these devices.
Power Tools: Brushless AC motors are increasingly used in power tools such as drills, saws, and sanders. They deliver high power output, longer runtime, and longer tool life compared to brushed motors, making them desirable for DIY enthusiasts and professionals alike.

brushless ac motor

Where can individuals find reliable information on selecting and installing brushless AC motors?

When it comes to selecting and installing brushless AC motors, individuals can find reliable information from various sources. Here are some recommended sources for obtaining accurate and valuable information on this topic:

Manufacturer’s Documentation: The documentation provided by motor manufacturers is a valuable resource for understanding the specifications, features, and application guidelines for specific brushless AC motors. Manufacturers often provide datasheets, technical manuals, and installation guides that offer detailed information on motor selection, installation requirements, and best practices.
Engineering and Motor Associations: Engineering associations and motor-specific organizations often provide resources and guidelines related to motor selection and installation. These associations may offer publications, technical papers, and online resources that cover various aspects of motor technology, including brushless AC motors. Examples of such organizations include the Institute of Electrical and Electronics Engineers (IEEE) and the National Electrical Manufacturers Association (NEMA).
Online Motor Portals and Databases: There are online portals and databases that specialize in providing information and resources related to electric motors. These platforms may include comprehensive motor catalogs, technical articles, motor selection tools, and user forums where individuals can ask questions and seek advice from experts in the field. Examples of such platforms include Engineering360, GlobalSpec, and the Motor Systems Tool Kit.
Industry Publications and Technical Journals: Industry publications and technical journals focusing on electrical engineering, motor technology, or specific industries that extensively use brushless AC motors can be excellent sources of information. These publications often feature articles, case studies, and expert insights on motor selection, installation techniques, and application-specific considerations.
Consulting with Motor Experts: Seeking guidance from motor experts, such as electrical engineers or motor consultants, can provide personalized advice and recommendations based on specific requirements. These professionals have in-depth knowledge and experience in motor selection and installation and can assist in evaluating the application needs, considering factors such as power requirements, environmental conditions, and system integration.

It’s important to verify the credibility and reliability of the information obtained from these sources. Checking the reputation and expertise of the source, referring to multiple reliable sources, and considering up-to-date information are essential for making informed decisions regarding the selection and installation of brushless AC motors.

Ultimately, a combination of thorough research, consultation with experts, and careful consideration of the specific application requirements will help individuals find reliable information and make well-informed decisions when it comes to selecting and installing brushless AC motors.

China manufacturer New Launching 30kw 15000rpm High Speed Brushless AC Permanent Magnetic Motor vacuum pump
editor by CX 2024-05-08

China Good quality Lower Noise High Speed Brushless BLDC Electric Motor for Hair Dryer/Pet Dryer vacuum pump and compressor

Product Description

Parameters:

Outer Diameter	φ42mm	Rated Power	134±10%W	Rated Voltage	110V/220V	Air Volume@Rated Speed	31.1L/s
Lenght	55.3mm	Rated Speed	80000RPM	Air Speed@Rated Speed	3.96m/s	Noise	≤68dB

Drawing:

Product Characteristics

Innovative Product Display

Product Usage

Company Profile

Certifications

Exhibition

FAQ

Q: Can I visit your factory before we place the order?
A: Yes. You are welcome to visit our factory.

Q: Do you accept customization?
A: Of course. We have a strong design team. Any problems will get our technical answer.

Q: How soon can I get the price?
A: Usually we quote within 24 hours after getting your inquiry (Except weekend and holidays). If you are very urgent to get the price, please
contact us by email or other way so that we can quote.

Q: What’s the delivery time of samples?
A: 1-3 weeks.

Q: What’s the delivery time of mass production?
A: Normally one month. It depends on your order quantity or other special situation.

Q: What’s the shipping way?
A: We accept shipping way by Express (DHL, UPS, Fedex, etc), by Sea and other shipping way. Please contact us if you need other shipping
way before shipment.

/* 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, Power Tools
Operating Speed:	Adjust Speed
Excitation Mode:	Excited
Function:	Control, Driving
Casing Protection:	Closed Type
Number of Poles:	2-6

Samples:	US$ 10/Piece 1 Piece(Min.Order) \|

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

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

How do brushless motors contribute to energy efficiency compared to brushed motors?

Brushless motors offer several key advantages over brushed motors when it comes to energy efficiency. Here’s how brushless motors contribute to energy efficiency compared to brushed motors:

1. Elimination of Brush Friction:

2. Reduced Electrical Resistance:

3. Improved Power Conversion:

4. Regenerative Braking:

5. Optimal Sizing and Control:

China Good quality Lower Noise High Speed Brushless BLDC Electric Motor for Hair Dryer/Pet Dryer vacuum pump and compressor
editor by CX 2024-05-06

China factory Water Cooled 10kw 12000rpm High Speed Brushless AC Motor wholesaler

Product Description

Water Cooled 10KW 12000RPM High Speed Brushless AC Motor

Product Feature
1.Suitable for the 12000rpm high speed
2.Reserve a large margin of security
3.High power & high torque
4.High efficiency
5.Small size
6.Low noise low vibration
7.The autonomous patented cooling structure

Specifications
Model type: SRPM112H4W10
Voltage: 230V AC
Rated Power: 10KW
Rated Torque:8N.m
Rated Speed: 12000rpm
Maximum Speed:13500rpm
Isolation: H
Cooling Method: water cooling
Ingress Protection:IP54(IP67 option)
Pole:4

Application
1.Hydrogen Oxygen air compressors
2.Hydrogen circulating system

Other motors you will be interested in

Motor type	Voltage (V AC)	Rated power (kW)	Rated torque (N.m)	Rated speed (rpm)	Efficiency (%)	Duty type	Insulation	Ingress protection	Pole Number	Weight (kg)	Cooling Method	position signal
SRPM160H4XO15	380	15	5.96	24000	96.5	S1	H/F	IP67	4	12	Oil	Resolver
SRPM160H4XO75	380	75	35.8	20000	96.5	S1	H/F	IP67	4	44	Oil	Resolver
SRPM160H4XO90	380	90	43	20000	96.5	S1	H/F	IP67	4	48	Oil	Resolver
SRPM205H4XO110	380	110	52.5	20000	96.5	S1	H/F	IP67	4	76	Oil	Resolver
SRPM205H4XO160	380	160	76.4	20000	96.5	S1	H/F	IP67	4	86	Oil	Resolver
SRPM205H4XO200	380	200	95.5	20000	96.5	S1	H/F	IP67	4	95	Oil	Resolver

/* 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, Compressors, Pumps, Fans
Operating Speed:	High Speed
Operation Mode:	Electric Motor
Magnetic Structure:	Permanent Magnet
Function:	Driving
Structure:	Rotating Pole Type (Armature Fixed)

Customization:	Available \|

brushless ac motor

How does the lack of brushes in brushless AC motors contribute to their longevity?

The absence of brushes in brushless AC motors significantly contributes to their longevity and overall durability. Here’s how:

1. Reduced Wear and Tear: Brushes and commutators in traditional brushed motors are prone to wear and tear due to the constant friction and mechanical contact. As the brushes make contact with the commutator, they experience abrasion and gradually wear down over time. In brushless AC motors, the lack of brushes eliminates this source of wear, resulting in reduced mechanical stress on the motor components.

2. Elimination of Brush Dust Accumulation: Brushed motors generate carbon dust as the brushes wear down. This dust can accumulate on the commutator and other motor parts, potentially causing electrical shorts, sparking, and reduced motor performance. In brushless AC motors, the absence of brushes eliminates the generation of carbon dust, reducing the risk of dust accumulation and related issues.

3. Minimized Brush Sparks: Brushes in brushed motors can produce sparks during operation, leading to electrical arcing and potential damage to the commutator and brushes themselves. These sparks can also introduce electrical noise and interfere with sensitive electronic components. Brushless AC motors, with their brushless design, eliminate the occurrence of brush sparks, resulting in smoother and quieter operation.

4. Improved Commutation: In brushed motors, the commutator is responsible for transferring electrical power to the rotor windings through the brushes. This mechanical commutation introduces limitations in terms of speed, torque, and reliability. In contrast, brushless AC motors employ electronic commutation, which is more precise and efficient. Electronic commutation eliminates the need for physical contact, allowing for greater control over the motor’s performance and reducing the potential for commutation-related issues.

5. Enhanced Electrical Efficiency: Brushes and commutators in brushed motors can cause energy losses due to friction and electrical resistance. These losses result in reduced overall motor efficiency. By eliminating brushes and commutators, brushless AC motors minimize energy losses, leading to improved electrical efficiency and reduced heat generation.

Collectively, these factors contribute to the longevity of brushless AC motors. The absence of brushes reduces mechanical wear, eliminates brush-related issues such as dust accumulation and sparks, allows for more precise electronic commutation, and improves overall electrical efficiency. As a result, brushless AC motors can operate reliably for longer periods with minimal maintenance requirements, making them a durable and long-lasting solution for various applications.

brushless ac motor

Can brushless AC motors be used in both industrial and residential settings?

Industrial Applications:

Industrial Machinery: Brushless AC motors are often used in industrial machinery such as conveyor systems, pumps, compressors, and fans. Their high torque, variable speed control, and efficient operation make them suitable for driving heavy loads and providing reliable performance in demanding industrial environments.
Robotics: Brushless AC motors find extensive use in robotics applications. The precise control capabilities of brushless motors, coupled with their compact size and high power density, make them ideal for powering robotic arms, grippers, and other motion control systems.
Automotive: Brushless AC motors are increasingly being employed in electric and hybrid vehicles. They offer high power-to-weight ratios, efficient operation, and regenerative braking capabilities, making them suitable for propulsion systems, power steering, and other automotive applications.
Aerospace: Brushless AC motors are used in aerospace applications, including aircraft systems, control surfaces, and landing gear mechanisms. Their reliability, compactness, and high performance make them suitable for the demanding requirements of the aerospace industry.
Industrial Automation: Brushless AC motors play a critical role in industrial automation systems. They are used in CNC machines, robotic arms, assembly lines, and other automated processes, providing accurate and reliable motion control.

Residential Applications:

Appliances: Brushless AC motors are employed in various household appliances such as refrigerators, air conditioners, washing machines, and dishwashers. They offer energy-efficient operation, precise control, and reduced noise levels, enhancing the performance and user experience of these appliances.
HVAC Systems: Brushless AC motors are used in heating, ventilation, and air conditioning (HVAC) systems. They provide efficient and reliable operation for fans, blowers, and pumps, contributing to energy savings and optimal indoor comfort.
Smart Home Devices: Brushless AC motors are integrated into smart home devices, including motorized window blinds, smart locks, and automated lighting systems. They offer quiet operation, precise positioning, and energy efficiency, enhancing the convenience and functionality of these devices.
Power Tools: Brushless AC motors are increasingly used in power tools such as drills, saws, and sanders. They deliver high power output, longer runtime, and longer tool life compared to brushed motors, making them desirable for DIY enthusiasts and professionals alike.

brushless ac motor

Can you explain the concept of back electromotive force (BEMF) in brushless AC motors?

The BEMF in brushless AC motors serves several important purposes:

Motor Control: BEMF is used as feedback in motor control systems to determine the rotor position and speed. By measuring the BEMF, the motor controller can accurately synchronize the switching of the inverter to energize the stator windings at the correct time, ensuring optimal motor performance.
Commutation: BEMF provides information about the position of the rotor relative to the stator windings. This information is crucial for determining when to switch the current flow between different windings to generate the rotating magnetic field necessary for motor operation. By monitoring the BEMF, the motor controller can precisely control the commutation sequence, ensuring smooth and efficient motor operation.
Speed Regulation: BEMF is directly related to the speed of the motor. By measuring the BEMF, the motor controller can accurately determine the speed of the motor and adjust the applied voltage or frequency to maintain the desired speed. This speed regulation capability allows brushless AC motors to operate at variable speeds, providing flexibility and energy efficiency in various applications.
Overvoltage Protection: BEMF also plays a role in protecting the motor from overvoltage conditions. If the motor is being driven at high speed and the load suddenly decreases or the motor decelerates rapidly, the BEMF can increase significantly. The motor controller can monitor the BEMF and detect this overvoltage condition, triggering protective measures to prevent damage to the motor or other components.

China factory Water Cooled 10kw 12000rpm High Speed Brushless AC Motor wholesaler
editor by CX 2024-04-30

China Standard Customized 45kw -75kw 12000-24000rpm Brushless AC Permanent Magnet High Speed Electric Motor a/c vacuum pump

Product Description

45KW-75KW 9600-12000 RPM Brushless AC Permanent Magnet Motor

Product Feature
1.Suitable for the 12000rpm high speed
2.High power & high torque
3.High efficiency
4.Small size
5.Low noise low vibration
6.Patented cooling structure
7.Easy maintenance and long life time
8.Durable, reliable

Specifications
Model type: SRPM205M8XO45
Voltage: 380V AC
Rated Power: 45KW
Rate Torque : 36 N.m
Working speed: 12000rpm
Efficiency: 96.3%
Service Factor: S1
Isolation: H/F
Water/dust Proof: IP54(IP67 option)
Pole Number: 8
N Weight: 35KG
Cooling Method: Oil
Position Signal: Resolver (optional)
Installation Method: B35

Customized range:
Rated Power: 5~200KW
Working speed: 10000~24000rpm
Cooling method: oil, air or water based on your projects
Installation: B3, B5, B35, V1 or other options if needed

Application
High-speed Compressors,Fans,Pumps

Other motors you will be interested in

Motor type	Voltage (V AC)	Rated power (kW)	Rated torque (N.m)	Rated speed (rpm)	Efficiency (%)	Service Factor	Insulation	Ingress protection	Pole Number	Weight (kg)	Cooling Method	Position Signal	Installation Method
SRPM151M8XW11	380	11	11	9600	96	S1	H/F	IP67	8	10	Oil circulation	Resolver	B35
SRPM205M8XO45	380	45	36	12000	96.3	S1	H/F	IP67	8	35	Oil circulation	Resolver	B35
SRPM205M8XO55	380	55	43.8	12000	96.3	S1	H/F	IP67	8	38	Oil circulation	Resolver	B35
SRPM205M8XO75	380	75	59.7	12000	96.5	S1	H/F	IP67	8	43	Oil circulation	Resolver	B35
SRPM205M8XO90	380	90	71.6	12000	96.5	S1	H/F	IP67	8	47	Oil circulation	Resolver	B35
SRPM205M8XO110	380	110	87.6	12000	96.5	S1	H/F	IP67	8	75	Oil circulation	Resolver	B35
SRPM205M8XO132	380	132	105	12000	96.5	S1	H/F	IP67	8	80	Oil circulation	Resolver	B35
SRPM205M8XO160	380	160	127.3	12000	96.5	S1	H/F	IP67	8	87	Oil circulation	Resolver	B35
SRPM205M8XO185	380	185	147.2	12000	96.5	S1	H/F	IP67	8	95	Oil circulation	Resolver	B35

FAQ
1. Can performanent magnet synchronous motor be used as generator?
Yes. Permanent magnet synchronous motor can work as a generator because of its special working theory. If it runs CW as a motor, then runs CCW as a generator. But please kindly note, if when you want to work it as a generator, you need to change a suitable motor controller with AFE function

2. Why can not directly use 3 phase ac supply voltage to start permanent magnet synchronous motor?
Becuase rotor is with big innertia, and magetic files spins so fast that static rotor has no way to spin with magetic filed.

3. Any special technical request on this motor’s VFD driver? And Do you have such driver?
Permanent magnet synchronous motor’s driver should be vector control VFD with special inner software, such as CHINAMFG 6SE70 series, Yakawa CR5 series, ABB ACS800 series, CHINAMFG A740 series, B&R P84 and P74 series, etc.. Yes, our MH300 series VFD matches with this motor.

4. Is there any protective measures to defend permanent magnet rotor from failure?
Yes, each permanent magnet rotor passes corrossion resistance, consistency, high temperature demagnetization test, linear demagnetization test, etc. Its demagnetization index is within 2%. But if working environment is serious oxiditive corrosion, kindly advise for higher protection level.

5. Where is this permanent magnet synchronous motor normally used to?
This permanent magnet synchronous motor is normally used to variable frequency speed situation. /* 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, Fans, Pumps, Compressors
Operating Speed:	High Speed
Operation Mode:	Electric Motor
Magnetic Structure:	Permanent Magnet
Function:	Driving
Structure:	Rotating Pole Type (Armature Fixed)

Customization:	Available \|

brushless ac motor

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

A brushless AC motor, also known as a brushless alternating current motor, is a type of electric motor that operates without the use of brushes and commutators found in traditional brushed motors. Instead of using brushes to transfer electrical power to the rotor, brushless AC motors utilize electronic commutation to control the motor’s operation.

The main differences between brushless AC motors and traditional brushed motors are as follows:

Brushes and commutators: In traditional brushed motors, the rotor contains brushes that come into contact with a commutator, which transfers electrical power to the rotor windings. The brushes and commutators introduce friction and wear, requiring regular maintenance and replacement. In contrast, brushless AC motors eliminate the need for brushes and commutators, resulting in reduced friction, lower maintenance requirements, and increased motor lifespan.
Electronic commutation: Brushless AC motors employ electronic commutation through the use of sensors and an electronic controller. The controller monitors the rotor position and switches the current in the motor windings at precise moments to generate the desired rotating magnetic field. This electronic commutation allows for more precise control of the motor’s speed, torque, and direction of rotation.
Efficiency and performance: Brushless AC motors generally offer higher efficiency compared to traditional brushed motors. The elimination of brushes and commutators reduces energy losses, resulting in improved overall motor efficiency. Additionally, brushless AC motors can provide smoother and quieter operation due to their electronic commutation and precise control of the motor’s performance.
Size and weight: Brushless AC motors are often more compact and lightweight compared to traditional brushed motors with similar power ratings. The absence of brushes and commutators allows for a more streamlined motor design, making brushless AC motors suitable for applications with limited space or weight restrictions.
Reliability and lifespan: Brushless AC motors tend to have a longer lifespan and higher reliability due to the absence of brushes that can wear out over time. The elimination of brush-related issues, such as brush sparking and brush dust accumulation, contributes to the improved reliability and durability of brushless AC motors.

Brushless AC motors are widely used in various applications, including industrial automation, robotics, electric vehicles, HVAC systems, and more. Their superior efficiency, precise control, reduced maintenance requirements, and longer lifespan make them a preferred choice in many modern motor-driven systems.

brushless ac motor

Can brushless AC motors be used in both industrial and residential settings?

Industrial Applications:

Industrial Machinery: Brushless AC motors are often used in industrial machinery such as conveyor systems, pumps, compressors, and fans. Their high torque, variable speed control, and efficient operation make them suitable for driving heavy loads and providing reliable performance in demanding industrial environments.
Robotics: Brushless AC motors find extensive use in robotics applications. The precise control capabilities of brushless motors, coupled with their compact size and high power density, make them ideal for powering robotic arms, grippers, and other motion control systems.
Automotive: Brushless AC motors are increasingly being employed in electric and hybrid vehicles. They offer high power-to-weight ratios, efficient operation, and regenerative braking capabilities, making them suitable for propulsion systems, power steering, and other automotive applications.
Aerospace: Brushless AC motors are used in aerospace applications, including aircraft systems, control surfaces, and landing gear mechanisms. Their reliability, compactness, and high performance make them suitable for the demanding requirements of the aerospace industry.
Industrial Automation: Brushless AC motors play a critical role in industrial automation systems. They are used in CNC machines, robotic arms, assembly lines, and other automated processes, providing accurate and reliable motion control.

Residential Applications:

Appliances: Brushless AC motors are employed in various household appliances such as refrigerators, air conditioners, washing machines, and dishwashers. They offer energy-efficient operation, precise control, and reduced noise levels, enhancing the performance and user experience of these appliances.
HVAC Systems: Brushless AC motors are used in heating, ventilation, and air conditioning (HVAC) systems. They provide efficient and reliable operation for fans, blowers, and pumps, contributing to energy savings and optimal indoor comfort.
Smart Home Devices: Brushless AC motors are integrated into smart home devices, including motorized window blinds, smart locks, and automated lighting systems. They offer quiet operation, precise positioning, and energy efficiency, enhancing the convenience and functionality of these devices.
Power Tools: Brushless AC motors are increasingly used in power tools such as drills, saws, and sanders. They deliver high power output, longer runtime, and longer tool life compared to brushed motors, making them desirable for DIY enthusiasts and professionals alike.

brushless ac motor

Can you explain the concept of back electromotive force (BEMF) in brushless AC motors?

The BEMF in brushless AC motors serves several important purposes:

Motor Control: BEMF is used as feedback in motor control systems to determine the rotor position and speed. By measuring the BEMF, the motor controller can accurately synchronize the switching of the inverter to energize the stator windings at the correct time, ensuring optimal motor performance.
Commutation: BEMF provides information about the position of the rotor relative to the stator windings. This information is crucial for determining when to switch the current flow between different windings to generate the rotating magnetic field necessary for motor operation. By monitoring the BEMF, the motor controller can precisely control the commutation sequence, ensuring smooth and efficient motor operation.
Speed Regulation: BEMF is directly related to the speed of the motor. By measuring the BEMF, the motor controller can accurately determine the speed of the motor and adjust the applied voltage or frequency to maintain the desired speed. This speed regulation capability allows brushless AC motors to operate at variable speeds, providing flexibility and energy efficiency in various applications.
Overvoltage Protection: BEMF also plays a role in protecting the motor from overvoltage conditions. If the motor is being driven at high speed and the load suddenly decreases or the motor decelerates rapidly, the BEMF can increase significantly. The motor controller can monitor the BEMF and detect this overvoltage condition, triggering protective measures to prevent damage to the motor or other components.

China Standard Customized 45kw -75kw 12000-24000rpm Brushless AC Permanent Magnet High Speed Electric Motor a/c vacuum pump
editor by CX 2024-04-24

China best High Speed NEMA24 0.318n. M 100W 3000rpm Brushless AC 36V Electric Servo Motor for Robotic Arm with Hot selling

Product Description

High speed nema24 0.318N.m 1; Cel: ;

FAQ:

1. Factory or trader?
We are factory, and have professional R&D team as introduced in company information.

2. How about the delivery?
– Sample: 3-5 days.
– Bulk order: 15-30 days.

3. What is your after-sales services?
1. Free maintenance within 12 months guarantee, lifetime consultant.
2. Professional solutions in installation and maintence.

4. Why choose us?
1. Factory Price & 24/7 after-sale services.
2. From mold customization to material processing and welding, from fine components to finished assembly, 72 processes, 24 control points, strict aging, finished product inspection.

5. Do you get the relevant certification?
All products are made according to ISO9001, CE requirements.

If any terms get your interest, please CLICK BELOW to send a message to us!

/* 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:	Robotic Arm
Speed:	High Speed
Number of Stator:	Three-Phase
Function:	Driving
Casing Protection:	Closed Type
Number of Poles:	10

Samples:	US$ 102/Piece 1 Piece(Min.Order) \|

Customization:	Available \|

brushless ac motor

What are the advantages of using a brushless AC motor over a brushed motor?

When comparing brushless AC motors to traditional brushed motors, several advantages arise from the brushless AC motor design. Here are the key advantages:

Higher Efficiency: Brushless AC motors generally have higher efficiency compared to brushed motors. The absence of brushes and commutators reduces energy losses and minimizes friction, resulting in improved overall motor efficiency. This higher efficiency translates into reduced power consumption and lower operating costs.
Longer Lifespan: Brushless AC motors typically have a longer lifespan compared to brushed motors. The elimination of brushes eliminates the wear and tear associated with brush contact and commutation, leading to less frequent maintenance and longer motor life.
Reduced Maintenance: Brushed motors require regular maintenance to replace worn-out brushes and address commutator issues. In contrast, brushless AC motors have no brushes to replace or commutators to service, reducing the maintenance requirements and associated downtime.
Improved Reliability: The absence of brushes in brushless AC motors eliminates common brush-related problems, such as sparking, brush dust accumulation, and brush wear. This results in improved motor reliability, reduced electrical noise, and enhanced overall system performance.
Precise Control: Brushless AC motors offer precise control over speed, torque, and direction of rotation. Electronic commutation allows for accurate and efficient control of the motor’s performance, making brushless AC motors suitable for applications that require precise motion control and variable speed operation.
Compact and Lightweight: Brushless AC motors are often more compact and lightweight compared to brushed motors with similar power ratings. The absence of brushes and commutators allows for a more streamlined motor design, making brushless AC motors suitable for applications where space and weight are limited.
Reduced Electromagnetic Interference: Brushless AC motors generate less electromagnetic interference (EMI) compared to brushed motors. The electronic commutation in brushless AC motors results in smoother operation and reduced electrical noise, making them suitable for applications where EMI needs to be minimized.
Higher Speeds: Brushless AC motors can typically achieve higher speeds compared to brushed motors. The absence of brushes eliminates the limitations imposed by brush friction and wear, allowing brushless AC motors to operate at higher speeds without compromising motor performance.

Overall, the advantages of using brushless AC motors over brushed motors include higher efficiency, longer lifespan, reduced maintenance, improved reliability, precise control, compact design, reduced EMI, and the ability to attain higher speeds. These advantages make brushless AC motors a preferred choice in many applications, including industrial automation, robotics, electric vehicles, and more.

brushless ac motor

Can brushless AC motors be used in both industrial and residential settings?

Industrial Applications:

Industrial Machinery: Brushless AC motors are often used in industrial machinery such as conveyor systems, pumps, compressors, and fans. Their high torque, variable speed control, and efficient operation make them suitable for driving heavy loads and providing reliable performance in demanding industrial environments.
Robotics: Brushless AC motors find extensive use in robotics applications. The precise control capabilities of brushless motors, coupled with their compact size and high power density, make them ideal for powering robotic arms, grippers, and other motion control systems.
Automotive: Brushless AC motors are increasingly being employed in electric and hybrid vehicles. They offer high power-to-weight ratios, efficient operation, and regenerative braking capabilities, making them suitable for propulsion systems, power steering, and other automotive applications.
Aerospace: Brushless AC motors are used in aerospace applications, including aircraft systems, control surfaces, and landing gear mechanisms. Their reliability, compactness, and high performance make them suitable for the demanding requirements of the aerospace industry.
Industrial Automation: Brushless AC motors play a critical role in industrial automation systems. They are used in CNC machines, robotic arms, assembly lines, and other automated processes, providing accurate and reliable motion control.

Residential Applications:

Appliances: Brushless AC motors are employed in various household appliances such as refrigerators, air conditioners, washing machines, and dishwashers. They offer energy-efficient operation, precise control, and reduced noise levels, enhancing the performance and user experience of these appliances.
HVAC Systems: Brushless AC motors are used in heating, ventilation, and air conditioning (HVAC) systems. They provide efficient and reliable operation for fans, blowers, and pumps, contributing to energy savings and optimal indoor comfort.
Smart Home Devices: Brushless AC motors are integrated into smart home devices, including motorized window blinds, smart locks, and automated lighting systems. They offer quiet operation, precise positioning, and energy efficiency, enhancing the convenience and functionality of these devices.
Power Tools: Brushless AC motors are increasingly used in power tools such as drills, saws, and sanders. They deliver high power output, longer runtime, and longer tool life compared to brushed motors, making them desirable for DIY enthusiasts and professionals alike.

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 best High Speed NEMA24 0.318n. M 100W 3000rpm Brushless AC 36V Electric Servo Motor for Robotic Arm with Hot selling
editor by CX 2024-04-23

China supplier 80mm 48V High Speed High Torque Brushless DC Motor for Medical Equipment vacuum pump oil near me

Product Description

BG 80BL DC Brushless Motor
Environmental Conditions	-20ºC~50ºC
Insulation Clase	B
Protection class	IP44
Noise	≤65dB
Number of Poles/ phases	8/3
Lifespan	>5000h

Electrical Specifications
Model	RATED LOAD					NO LOAD		STALL
	Voltage	Power	Speed	Torque	Current	Speed	Current	Torque	Current
	V	W	rpm	N.m	A	rpm	A	N.m	A
BG 80BL01	48	220	3000	0.7	5.5	4000	1.37	2.1	16.5
BG 80BL02	310	440	6000	0.7	1.7	8000	0.4	2.1	5.1
BG 80BL03	48	400	3000	1.27	10	4000	2.5	30	30
We can also customize products according to customer requirements.

Established in 1994, HangZhou BG Motor Factory is a professional manufacturer of brushless DC motors, brushed DC motors, planetary gear motors, worm gear motors, Universal motors and AC motors. We have a plant area of 6000 square meters, multiple patent certificates, and we have the independent design and development capabilities and strong technical force, with an annual output of more than 1 million units. Since the beginning of its establishment, BG motor has focused on the overall solution of motors. We manufacture and design motors, provide professional customized services, respond quickly to customer needs, and actively help customers to solve problems. Our motor products are exported to 20 countries, including the United States, Germany, Italy, the United Kingdom, Poland, Slovenia, Switzerland, Sweden, Singapore, South Korea etc.
Our founder, Mr. Sun, has more than 40 years of experience in motor technology, and our other engineers also have more than 15 years of experience, and 60% of our staff have more than 10 years of experience, and we can assure you that the quality of our motors is top notch.
The products cover AGV, underwater robots, robots, sewing machine industry, automobiles, medical equipment, automatic doors, lifting equipment, industrial equipment and have a wide range of applications.
We strive for CHINAMFG in the quality of each product, and we are only a small and sophisticated manufacturer.
Our vision: Drive the world CHINAMFG and make life better!

Q:1.What kind of motors can you provide?

A:At present, we mainly produce brushless DC motors, brush DC motors, AC motors, Universal Motors; the power of the motor is less than 5000W, and the diameter of the motor is not more than 200mm;

Q:2.Can you send me a price list?

A:For all of our motors, they are customized based on different requirements like lifetime, noise,voltage,and shaft etc. The price also varies according to annual quantity. So it’s really difficult for us to provide a price list. If you can share your detailed requirements and annual quantity, we’ll see what offer we can provide.

Q:3.Can l get some samples?

A:It depends. If only a few samples for personal use or replacement, I am afraid it’ll be difficult for us to provide because all of our motors are custom made and no stock available if there are 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.

Q4:Can you provide OEM or ODM service?

A:Yes, OEM and ODM are both available, we have the professional R&D dept which can provide professional solutions for you.

Q5:Can l visit your factory before we place an order?

A:welcome to visit our factory, wear every pleased if we have the chance to know each other more.

Q:6.What’s the lead time for a regular order?

A:For orders, the standard lead time is 15-20 days and this time can be shorter or longer based on the different model,period and quantity.

/* 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, Robot Arm
Operating Speed:	Constant Speed
Excitation Mode:	DC

Samples:	US$ 80/Piece 1 Piece(Min.Order) \| Order Sample

Customization:	Available \|

.shipping-cost-tm .tm-status-off{background: none;padding:0;color: #1470cc}

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

Payment Method:
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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

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.

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editor by CX 2024-04-22