Brushless Motor 24VDC
Model No.: 22BL02602
Voltage: 12, 24VDC available
MOQ: 100pcs
No-load Speed: 8900rpm
Speed: 6000rpm
Origin: China
Ambient Temperature: 0~+50℃ (no freezing)
Performance Parameters
Item |
Specification |
Winding Type |
Star |
Hall Effect Angle |
120°(electrical angle) |
Axial play |
0.025mm |
Ambient Temperature |
0~+50℃ (no freezing) |
Ambient Humidity |
<85% (no condensation) |
Max. Radial Force |
10N@10mm from the flange |
Max. Axial Force |
4N |
Insulation Class |
Class B |
Dielectric Strength |
One minute@500VAC. 5mA |
Insulation Resistance |
100MΩMin.@500VDC |
Technical Parameters
Model No. |
Rated |
Speed |
Rated |
Power |
Rated Current |
No-load |
No-load |
Resistance/ |
Inductance/ |
Back EMF Constant |
Length |
22BL02602 |
24 |
6000 |
11 |
7.0 |
0.54 |
8900 |
0.11 |
13.9 |
3.79 |
3.5 |
50 |
22BL02103 |
24 |
10000 |
8 |
8.5 |
1.72 |
14000 |
0.25 |
9.7 |
1.67 |
1.7 |
40 |
Electric Connection
Lead No. |
Lead Color |
Lead Gauge |
Signal |
Description |
1 |
Red |
UL 1061/ 28AWG |
VCC |
Supply Voltage for Hall Sensors |
2 |
Black |
GND |
Ground for Hall Sensor |
|
3 |
Yellow |
Hall A |
||
4 |
White |
Hall B |
||
5 |
Blue |
Hall C |
||
6 |
Orange |
UL 1061/ 28AWG |
Phase U |
|
7 |
Green |
Phase V |
||
8 |
Brown |
Phase W |
Welcome to Rayson Motor, your one-stop destination for a wide range of high-quality brushless motors and related products. Our commitment to innovation and cutting-edge technology has positioned us as a leading supplier in the industry. Whether you're looking for efficient and reliable motors for your robotics, automotive, or industrial applications, Rayson Motor has got you covered. In this article, we'll delve into the world of brushless motors, exploring their basic principles, advantages, and disadvantages, as well as highlighting the benefits of choosing Rayson Motor products.
I. Brushless Motors: The Basics
Definition and Working Principle:
Brushless motors, also known as BLDC (Brushless Direct Current) motors or electronically commutated motors, are an advanced type of electric motor that operates without the need for brushes and commutators. Instead of using mechanical brushes to control the flow of current, these motors utilize electronic commutation to ensure the timely switching of windings. This design allows for more precise control, higher efficiency, and reduced maintenance.
Key Components:
Brushless motors consist of several essential components, including the rotor (permanent magnet or wound), stator (with windings), and electronic controller (ESC - Electronic Speed Controller). The ESC plays a crucial role in providing the right amount of current to the stator windings, thus controlling the motor's speed and direction.
Advantages of Brushless Motors:
a. Efficiency: Brushless motors offer higher efficiency compared to traditional brushed motors since there is no frictional loss associated with brushes. This results in reduced heat generation and longer motor life.
b. Enhanced Durability: The absence of mechanical brushes translates to less wear and tear, making brushless motors more durable and reliable in the long run.
c. Smoother Operation: Electronic commutation enables smooth and precise control over the motor's speed and torque, leading to smoother and quieter operation.
d. Compact Size and Light Weight: Brushless motors are generally more compact and lightweight, making them suitable for applications where space and weight are critical factors.
e. Low Electromagnetic Interference: The electronic commutation process reduces electromagnetic interference, making brushless motors suitable for applications sensitive to EMI.
f. Higher Power-to-Weight Ratio: Brushless motors can achieve higher power outputs relative to their weight, making them ideal for high-performance applications.
II. Comparative Analysis of Brushed and Brushless Motors
Advantages of Brushed Motors:
a. Simplicity and Cost-Effectiveness: Brushed motors have a simpler design and are generally more cost-effective to manufacture.
b. Easier Control: The commutation in brushed motors is mechanically achieved through brushes, making them easier to control in certain applications.
c. Initial Torque: Brushed motors often exhibit higher initial torque, making them suitable for certain starting applications.
Disadvantages of Brushed Motors:
a. Limited Lifespan: The friction between brushes and commutators leads to wear over time, resulting in a limited lifespan and requiring frequent maintenance.
b. Lower Efficiency: Brushed motors are less efficient due to the energy loss caused by brush friction.
c. Higher Electromagnetic Interference: The mechanical commutation in brushed motors generates more electromagnetic interference, making them less suitable for EMI-sensitive applications.
III. Why Choose Rayson Motor Products?
Unmatched Quality: Rayson Motor products are built with the highest quality materials and manufacturing processes, ensuring superior performance and reliability.
Cutting-Edge Technology: Our brushless motors are designed using the latest advancements in motor technology, guaranteeing optimal efficiency and smooth operation.
Extensive Product Range: Rayson Motor offers a diverse selection of brushless motors tailored to meet various application needs, from miniaturized motors for compact devices to high-power motors for industrial use.
Exceptional Customer Support: We pride ourselves on providing top-notch customer support to assist you in selecting the perfect motor for your specific requirements.
Q & A:
Questions: Is customized samples available?
Answer: Yes, will charge upon your request.
Questions: Could you arrange sample shipment by UPS prepaid?
Answer: Yes, please contact us and we will quote case by case.
http://www.raysonmotor.com/