Based on the newLight optical sensor line, the FS64 tilt sensor is a ruggedized Fiber Bragg Grating (FBG) inclinometer designed to measure very small angle variations towards the vertical. The sensor uses two FBGs in a push-pull configuration for effective temperature compensation. It can be used in a large range of monitoring applications such as sustaining walls, bridge piles, tunnels, or buildings.
FS64TLS
Based on the newLight optical sensor line, the FS64 tilt sensor is a ruggedized Fiber Bragg Grating (FBG) inclinometer designed to measure very small angle variations towards the vertical. The sensor uses two FBGs in a push-pull configuration for effective temperature compensation.
It can be used in a large range of monitoring applications such as sustaining walls, bridge piles, tunnels, or buildings. The measurement of tilt in different directions is possible with the use of multiple sensors.
Effective even under aggressive environments and adverse conditions such as humidity and salt
Fitted for long-term measurements with temperature changes
Cost-effective shared equipment and simpler sensing networks
Code | 名前 |
---|---|
1-FS64TLS-10/2510 | 光学式傾斜センサー FC 1510/FC 1520 |
1-FS64TLS-10/2530 | 光学式傾斜センサー FC 1530/FC 1540 |
1-FS64TLS-10/2550 | 光学式傾斜センサー FC 1550/FC 1560 |
1-FS64TLS-10/2570 | 光学式傾斜センサー FC 1570/FC 1580 |
K-FS64TLS | 構成の指定が可能な光学式傾斜センサー |
newLight FS64 - データシート | Data Sheets | English |
FS64TLS newLight - データシート | Data Sheets | Japanese |
FS64TLS newLight - ユーザマニュアル | 手動 | Japanese |
newLight FS64 - 設置マニュアル | Mounting Instructions | English |
Sales documents
Optical Measurement - ブローシャー | パンフレット | English |
Type/technology | Fiber Bragg Grating |
Measurement range | 10 |
Measurement range | 10 |
Mounting | Bolted |
Environment | Explosive / ATEX, EMI (electromagnetic interference), RFI (radio-frequency interference) |
Cable type | Armor |
Degree of protection | IP65 |
Based on the newLight optical sensor line, the FS64 tilt sensor is a ruggedized Fiber Bragg Grating (FBG) inclinometer designed to measure very small angle variations towards the vertical. The sensor uses two FBGs in a push-pull configuration for effective temperature compensation.
It can be used in a large range of monitoring applications such as sustaining walls, bridge piles, tunnels, or buildings. The measurement of tilt in different directions is possible with the use of multiple sensors.
Effective even under aggressive environments and adverse conditions such as humidity and salt
Fitted for long-term measurements with temperature changes
Cost-effective shared equipment and simpler sensing networks
Optical Fiber Sensors vs. Conventional Electrical Strain Gauges for Infrastructure Monitoring Applications