









- Stock: In Stock
- Model: RDDLZ-LC-TSH
- Weight: 1.00
- SKU: RDDLZ-LC-TSH
Available Options
After purchasing one RDDLZ 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.
Good price S type load cell for tension and compression with high accuracy, repeatability and temperature sensitivity, with range 200kg/300kg/500kg/1 ton/2 ton/3 ton, operating voltage range 5-15V, high quality stainless steel for long term stability and extreme overload of 200%. Ideal for industrial and commercial use, this load cell is designed to withstand operating temperatures from -20°C to 80°C.
Specification
Model | RDDLZ-DYTSH |
Capacity | 200kg/300kg/500kg/1 ton/2 ton/3 ton (optional) |
Matched Transmitter | RDDLZ-LCTR-OA (Click it to the transmitter page) |
Matched Display Controller | RDDLZ-DPM-DY800 (Click it to the controller page) |
Output Sensitivity | 2.0~3.0 ±10% mV/V |
Zero Output | ±1%F.S. |
Non-linearity | 0.03 %F.S. |
Hysteresis | 0.03 %F.S. |
Repeatability | 0.03 %F.S. |
Creep | 0.05 %F.S. (30 min) |
Temperature Sensitivity Drift | 0.03 %F.S./10°C |
Zero Temperature Drift | 0.05 %F.S./10°C |
Response Frequency | 1k Hz |
Material | Stainless steel |
Resistance | 350 Ω |
Insulation Resistance | ≥5000 MΩ/100V DC |
Operating Voltage | 5~15 V |
Operating Temperature Range | -20°C~80°C |
Safety Overload | 150 %R.C. |
Limit Overload | 200 %R.C. |
Cable Wire Specification | φ5*6m |
Ultimate Cable Pull | 98 N |
Dimension (unit: mm)
Capacity | A (mm) | B (mm) | C (mm) | D (mm) | E (mm) |
200kg-1 ton | M10*1 | 62 | 80 | 32.5 | 30 |
2 ton | M16*1.5 | 71 | 90 | 40 | 45 |
3 ton | M18*1.5 | 80 | 100 | 41.5 | 50 |
5 ton | M20*2 | 92 | 130 | 57.5 | 58 |
Force Diagram
Application
Tips: What is the working principle of S-type load cell?
The s type load cell is based on the strain gauge measurement principle. When an external force is applied, the elastomer inside the load cell undergoes a slight deformation, and the strain gauges affixed to it are then stretched or compressed, resulting in a change in resistance. This change in resistance is converted into an electrical signal through a Wheatstone bridge and processed by an amplifier circuit and data acquisition system, ultimately outputting weight data proportional to the load.