Models
DYYB-001
Features
-
Design Principle: Applied force induces deformation (strain) in the target object, which can be reliably measured using a strain gauge. Since the deformation is proportional to the applied force, the sensor can accurately measure the magnitude of the force.
-
Key Applications: Primarily used for measuring the weight of storage tanks, monitoring fans (airflow), and pressure surveillance.
-
High-Performance Yet Cost-Effective Sensor: Capable of reliably measuring very large forces without affecting the performance of the target object.
Dimensions
Specifications
| Item | Unit | Specification |
|---|---|---|
| Rated Measuring Range | μm/m | 0–500 |
| Output Sensitivity | mV/V | 1.0–2.0 |
| Zero Output | %F.S. | ±3 |
| Non-linearity | %F.S. | 0.5 |
| Hysteresis | %F.S. | 0.5 |
| Repeatability | %F.S. | 0.5 |
| Creep (30 min) | %F.S. | 0.3 |
| Temperature Effect on Sensitivity | %F.S./10℃ | 0.2 |
| Temperature Effect on Zero | %F.S./10℃ | 0.2 |
| Response Frequency | Hz | 10k |
| Material | – | Stainless Steel |
| Impedance | Ω | 1000 |
| Insulation Resistance | MΩ/100V DC | ≥5000 |
| Excitation Voltage | V | 5–15 |
| Operating Temperature Range | ℃ | -20 to 80 |
| Safe Overload | %R.C. | 150 |
| Ultimate Overload | %R.C. | 200 |
| Cable Specification | m | Φ4*3m |
| Max Cable Tension | N | 98 |
| TEDS | – | Optional |
