The advantages of tensile force sensors are high accuracy, wide measuring range, long life, simple structure, good frequency response characteristics, can work in harsh conditions, easy to achieve miniaturization, integration and diversification of varieties, etc.. Its disadvantage is that it has a large nonlinearity for large strains, and the output signal is weak, but certain compensation measures can be taken. Therefore it is widely used in automatic test and control technology.
Capacity | kg |
50 |
Sensitivity | mV/V |
2.0 |
Accuracy | %FS |
±0.2 |
Creep(15min) | %FS | ±0.05 |
Input Resistance | Ω | 380±10 |
Output Resistance | Ω | 350±5 |
Insulation Resistance | M Ω | ≥5000(100VDC) |
Zero Balance | %FS | ±2 |
Temperature Effects on Span | %FS/10℃ | ±0.05 |
Temperature Effect on Zero | %FS/10℃ | ±0.05 |
Rated Temperature Range | ℃ | -10~+60 |
Operating Temperature Range | ℃ | -20~+80 |
Proposed Excitation Voltage | V | 5~12 |
Allowed Excitation Voltage | V | 18 |
Safe Overload | %FS | 150 |
Ultimate Overload | %FS | 200 |
Protection | IP65 | |
Cable specification | mm | Ф1 |
Cable length | m | 1 |
Material | Alloy Steel |