Optical transmission method flange type torque transmitter TMHSB
Compact size and light weight. Available for high speed measurement by bearing-free structure. (25 000 rpm: 100 Nm ~ 300 Nm, 22 000 rpm: 500 Nm, 1 kNm, 16 000 rpm: 2 kNm, 3 kNm, 14 000 rpm: 5 kNm)
Measurement accuracy of ±0.02 %R.O. in frequency output and ±0.03 %R.O. in voltage output is achieved.
Stator antenna has a split configuration to facilitate mounting and detachment.
The frequency response has been improved from [TMHSA] series: 1kHz⇒6kHz
The torque signal outputs the frequency output and the voltage output at the same time.
Calibraton software provided transfers commands between TMHSA and a PC, and allows users to read TMHSA setting parameter, proceed calibration, or write the number of moving average and the analog filter frequency.
Even when a momentary error occurs because the error log is recorded, the error content can be confirmed.
CE mark is applicable.
High accuracy and low noise are achieved by the digital singnal transmission by the optical transmission method of the patent. (USA PAT No. US6.472.656.B2, Japanese PAT No.3448738, PAT No.3453654)
±100 N･m ~ ±5 kN･m
22 VDC to 24 VDC, Current consumed: 1 A, Rated power consumption: 24 W
Voltage output: ±10 VDC, Frequency output: 10 kHz±5 kHz (Resistive load: 2 kΩ or more, Output capacitance load: 0.1 μF or less.)
Frequency output: ±0.02 %R.O., Voltage output: ±0.03 %R.O. (including linearity, hysteresis and repeatablity.)
Rotor part : Alloy steel, Stator part : Alluminium alloy
Weight <Rotor part>
Weight <Stator part>
* Accuracy safe bending load and accuracy safe thrust load are the load (actual measurement value) which generate output error of 0.05%R.O. * Accuracy safe bending load is the result of applying the load at the position of 200 mm from the flange edge. * All are the gurantee over static load.
Dedicated cable: CAC-176D-*M (φ11, 10-cores shielded cable with connector at the both end). (Selectable from 10 m, 20 m or 30 m), Rotation detector for rotation speed and rotational direction : RPM