Miniature Torque Sensor for Static Torque, 20Nm-200Nm

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$318.15

Miniature static torque sensor features a compact structure, high accuracy with 0.2% F·S nonlinearity and lightweight corrosion-resistant aluminum alloy. Available in 20 N·m–200 N·m ranges, this torque sensor is perfect for static testing on testing machines, torque wrenches, valves and actuators. Shop now for reliable torque measurement solutions.

Measuring Range *

SKU: ATO-TQS-ST

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Delivery date: 6-12 days

Overview

Ideal for static torque measurement in transmissions, valves, and hydraulic systems, this miniature torque sensor offers 20Nm to 200Nm multiple ranges, 150% safe overload, -20~80°C operating temperature, optional TEDS, and 5-15V flexible excitation. Buy your precision static torque sensor today.

Specification

Model	ATO- DYJN-110
Measuring Range	0-200N·m
Output Sensitivity	1.0-2.0mV/V
Zero Output	±2%F·S
Nonlinearity	0.2%F·S
Hysteresis	0.1%F·S
Repeatability	0.1%F·S
Creep (30min)	0.1%F·S
Temperature Sensitivity Drift	0.1%F.S/10℃
Zero Temperature Drift	0.1%F.S/10℃
Response Frequency	1kHz
Material	Aluminum Alloy (Alloy Steel Customizable)
Impedance	350-700Ω
Insulation Resistance	>5000MΩ (100VDC)
Excitation Voltage	5-15V
Operating Temperature Range	-20-80°C
Safe Overload	150%
Ultimate Overload	200%
Cable Ultimate Tensile Strength	10kg
Cable Specification	φ3×2m
TEDS	Optional

Features

Optimized for Static Torque Measurement: Specifically designed for static torque applications, ATO miniture torque sensor ensuring high repeatability (0.1% F.S) and consistent measurement results where stability matters most.
Excellent Long-Term Stability: The precision torque sensor features low creep and minimal temperature drift, maintaining accurate output over long testing periods and varying environments.
Compact Miniature Design: The miniature structure allows this torque sensor to install seamlessly in space-limited systems without compromising performance.
Durable Construction: Built with corrosion-resistant aluminum alloy, the static torque sensor supports up to 150% safe overload, ensuring reliable operation in demanding industrial environments.

Dimension (unit: mm)

Wiring Diagram

Miniature torque sensor wiring diagram

Tips: Static Torque Sensor vs Dynamic Torque Sensor

A static torque sensor is designed to measure torque in non-rotating or quasi-static conditions, focusing on high stability, low drift, and precise steady-state measurement, making it ideal for applications such as calibration systems, torque wrench testing, valve and actuator torque verification, and other static load scenarios.In contrast, a dynamic torque sensor is built for rotating systems, where it measures torque in real time under motion, emphasizing high-speed signal transmission, rotational compatibility (often via slip rings or wireless telemetry), and fast response to changing torque, commonly used in motors, engines, gearboxes, and drivetrain testing.

When selecting a torque sensor, you may want to consider the following:

Choose a static torque sensor when torque is applied without continuous rotation and long-term measurement stability is critical.
Choose a dynamic torque sensor when torque needs to be monitored on a rotating shaft with real-time changes.

In short, static torque sensors prioritize accuracy and stability at rest, while dynamic torque sensors prioritize real-time performance under rotation. The right choice depends on whether your application involves motion or stationary torque measurement.

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