产品详情
BTQ-407C-连续旋转扭矩传感器

产品详情

BTQ-407C-连续旋转扭矩传感器

特点与用途/Features & Applications

  不锈钢/合金钢/铝合金材质,稳定性强

  适用于各种环境,IP67

  电阻应变为敏感元件和集成电路构成的一体产品,精度高,性能稳定可靠。

  没有集流环等磨损件,可高速长时间运转输出正反转扭矩信号,两端均为键/轴连接,安装使用方便

  Made of Stainless Steel/Alloy Steel, Strong stability

  Easily integrates into OEM applications

  Shaft to shaft rotary type

  Designed for Torque auditing

  Uses strain gauge technology

  Rotary torque measurements mainly used for packing scales,hopper scale and industrial measuring system

产品描述/Description

Brans Mini-capacity Rotary Torque Sensor - Non contact shaft to shaft with Encoder offers a unique solution for torque auditing applications. The BTQ-407(A,B,C,D) Rotary Torque Sensor is available in a wide capacity range of 0.1 Nm – 5,00 Nm and has a high speed range of up to 4,000 RPM, thus making it capable to support a wide range of applications. And this series has different design size to meet clients different application space(mini-big size). Applications include automotive braking, engine and transmission dynamometers, torque table, fastener testing, aircraft engine testing, and marine shaft torque measurements with shaft horsepower monitors.

产品参数/Datasheet

配线图/ Wiring Code

安装尺寸/Mounting

  This new series Torque Sensor was manufactured to sustain high peak torques to average torques while producing precise measurements with an integrated overload protection of up to 5,00 Nm and mini capacity to 0.1Nm. This particular torque sensor in conforming to CE standards with a output signal of +/- 5 VDC. Torque signal is contactless from the rotating shaft and is transmitted digitally and is then transformed into an analog output signal. These features allow the 406 series to be used in a wide variety of industries such as: automotive and vehicle engineering, aeronautical, mechanical and process plant engineering, and in electric motor manufacture.

Product Highlights:

  Nominal Torques between +/-0.1 Nm – 500 Nm

  Speed Range up to 4000 RPM

  High Measuring accuracy 0.1%

  Strain Gauge Technology