Mini Strain Gauge Load Cell, 0-50-500µm/m

Miniature strain gauge load cell is a high-precision, durable sensor suitable for measuring small strains in the range of 0-50/100/500 µm/m. The stainless-steel construction of the SUCH load cell provides excellent durability and corrosion resistance. With an output sensitivity of 1.0-1.5 mV/V, a high response frequency of 1 kHz, and a temperature drift of only 0.2% F.S./10℃, it provides accurate and stable output for both static and dynamic measurements. The sensor supports a safe overload capacity of 150% R.C. and operates in a temperature range of -20℃ to 80℃.

After purchasing one SUCH load cell, you can buy a special digital panel meter to obtain readings directly, or buy a transmitter to output standard signal to PLC, DCS and other systems. Customized output signal is 0-5V, 0-10V, or 4-20mA.

Note: The load cell cannot be connected to both the transmitter and the controller at the same time — only one can be selected.

Feature

• High Accuracy and Stability: High accuracy, long-term stability, compact size, easy installation, and reliable overload protection.
• Industrial-Grade Strain Gauges: Equipped with high-precision strain gauges for improved accuracy and stable operation in extreme environments.
• Wide Applications: Suitable for static and dynamic load monitoring in crane presses, clip presses, and other force measurement systems.

Dimension (Unit: mm)

Installation Case

Cautions:

• The strain gauge load cell is fixed to the measuring object with 4 standard M6 socket head cap screws as shown. For optimal measurement results, we recommend using screws of performance class 12.9, tightened in opposite diagonal order to a tightening torque of 16 N.m.
• Remove any coatings or residual varnish and paint from the sensor mounting area, the
• The surface of the measuring object must be sufficiently smooth (roughness R < 3.2).
• The strain sensor must not rest in the center offset area and must be mounted without deformation.
• Load the load cell to its maximum capacity several times before calibration to stabilize the mounting surface.
• Then tighten the fastening bolts to the nominal (rated) torque.
• If there is a possibility that the load cell may be in an exposed position or there is a risk of mechanical damage, cover the strain gauge load cell with the housing to ensure that it will not be damaged.

Wiring Method