PMDC Motor 6V 9V 12V 24V Micro DC RS 380 Motor RS-380 High Speed 15000RPM 10000RPM
Product Details
Motor Customized Specification, Please contact me.
Reference Drawing
------ RS - 365
------ RS - 385
------ RS - 395
Reference Datasheet
| PMDC MOTOR Technical Date |
| Model |
Rated Voltage (V) |
No-Load |
Rated |
Stall |
| Operating Range |
Nominal |
Speed (RPM) |
Current (A) |
Speed (RPM) |
Current (A) |
Torque (mN.m / gf.cm) |
Power (W) |
Current (A) |
Torque (mN.m / gf.cm) |
| RS-380SH |
4052 |
3.0~6.0 |
4.8VDC |
7800 |
0.32 |
6701 |
1.95 |
9.9/101 |
6.98 |
11.9 |
70.6/720 |
| 3557 |
6.0~12.0 |
12VDC |
21200 |
0.44 |
18367 |
2.85 |
11.26/114.9 |
21.68 |
18.5 |
84.3/860 |
| RS-385SH |
17110 |
6.0~24.0 |
24VDC |
11000 |
0.15 |
9034 |
0.69 |
10.7/109 |
10.12 |
3.16 |
59.8/610 |
| 2267 |
6.0~12.0 |
12VDC |
10000 |
0.17 |
8340 |
0.85 |
7.5/76.5 |
6.53 |
4.29 |
45/459 |
What are the main differences between the RS-380 and RS-385 motor models?
The primary differences lie in their operating voltage ranges, speed configurations, and physical body lengths. The RS-380 is optimized for high-speed performance in lower voltage applications (typically 3V to 12V), while the RS-385 operates efficiently up to 24V, offering higher stall torque and power stability.
Can these micro PMDC motors be customized for specific project requirements?
Yes. Motor technical parameters such as rated voltage, output speed, operating current, torque characteristics, and shaft modifications (length, D-shape, flat edges, or threading) can be tailored to meet your unique application specifications.
What is the typical speed range of the RS-380 motor?
The RS-380 high-speed motor is designed to achieve speeds ranging from 10,000 RPM up to 15,000 RPM or higher under nominal voltages, making it excellent for applications requiring high rotational speeds.
What kinds of applications are these micro DC motors suitable for?
These motors are widely utilized in personal care appliances (hair dryers, massagers), small household electronics, power tools, automotive actuators, smart toys, modeling equipment, and DIY robotic designs requiring high power in a compact layout.
How should I choose the right operating voltage for my motor?
You should choose based on your power supply capability and the desired output speed. Running a motor at a lower voltage reduces speed and torque but extends lifespan, whereas running it at the upper limit of its operating range maximizes speed and torque output. Refer to our reference datasheet above to match your specific performance targets.
TTM Motor
