This precision rotary motor torque sensor offers an accurate torque measurement range from 0.1Nm to 5Nm for a wide range of precision machinery and equipment. Its low non-linearity and hysteresis error of 0.2% ensures a high degree of measurement accuracy. This motor torque sensor has a wide operating voltage range (5~15V DC) and a cable design with a tensile strength of up to 98N, ensuring reliable operation in complex environments.
Specification
Model |
ATO-DYN-202 |
Capacity |
0.1/5 N.m (optional) |
Speed Range |
≤3000 Rpm |
Zero Output |
2%F.S. |
Non-linear |
0.2%F.S. |
Hysteresis |
0.2%F.S. |
Repeatability |
0.2%F.S. |
Creep |
0.03%F.S. (30 minutes) |
Temperature Sensitivity Drift |
0.01%F.S./10°C |
Zero Temperature Drift |
0.01%F.S./10°C |
Response Time |
1.0 ms (50% response) |
Response Frequency |
1 kHz |
Material |
Stainless steel/aluminum |
Annual Stability |
0.3%/year |
Impedance |
700 Ω |
Insulation Resistance |
>5000 MΩ/100V DC |
Operating Voltage |
5~15 V DC |
Operating Current |
0.2 mA |
Current Consumption |
<150 mA |
Operating Environment |
-10°C~50°C, 0~85%RH |
Safety Overload |
1.5 |
Cable Wire Specification |
Φ 2*3m |
Cable Ultimate Pulling Force |
98 N |
Net Weight |
Approx. 0.5kg |
Features
- High-precision Strain Gauge: Industrial-grade high-precision strain gauges with high measurement accuracy, small creep, small thermal hysteresis, and good long-term stability.
- High-quality Stainless Steel Aluminum Alloy: Durable material, not easy to rust, high temperature resistance, wear resistance, high strength and toughness hardenability.
- Wide Application: It can be applied to electric motor, engine, internal combustion engine and other rotating power equipment testing, and can measure the static torque as well as rotating torque.
Rotary Torque Sensor Dimension (unit: mm)
Wiring Drawing
Tips: Micro rotary motor torque sensor basics
A micro rotary motor torque sensor is a sensor that specializes in measuring torque (moment) on a rotating shaft. It provides accurate torque data by detecting the rotational force of a motor or other rotating device. The compact size of this sensor makes it suitable for equipment with limited space or for applications requiring high accuracy. The miniature design not only makes it suitable for installation in small equipment, but also improves measurement sensitivity and response speed. It is often used in power tools, robotics, automotive, and aerospace applications.
When choosing the right motor torque sensor, the first thing to consider is the measurement range, accuracy and response time. The measuring range should be selected based on the maximum torque to be measured in the actual application. Precision, on the other hand, determines the accuracy of the measurement results. Usually the higher the precision, the more expensive the sensor, but in demanding applications, such as precision machinery and robotics, choosing a high-precision sensor is especially important. In addition, response time is also a key factor, especially in high-speed motors or robotic systems, where a fast response ensures real-time and valid data.