Jewell Instruments LCF-2330 Series Inclinometer
Rugged, dual axis inclinometer optimized for high accuracy and repeatability
Mo-Th 8am to 5:30pm. Fr 8am to 5pm ET
- Dual axis
- Input ranges: ±1.0°, ±3.0°, ±14.5°, ±30.0°, ±90°
- Micro Radian Resolution
- Internal temperature sensor
- High level ±5 Vdc output
- Low impedance output
- 12 to 18 VDC input voltage
- -40 to 80°C operating temperature range
- Robust design withstand shocks in excess of 1000g and vibration to 20 grms
- Fluid damped
The Jewell Instruments LCF-2330 Series inclinometer is a rugged, dual axis instrument optimized for high accuracy and superior repeatability. With input ranges from ±1 to ±90°, the LCF-2330 utilizes Jewell's fluid damped, flexure suspension, servo technology in a small and convenient package for applications requiring a compact, dual axis solution.
LCF-2330 series inclinometers are solid-state, closed loop meters with accuracy, stability and reliability several orders of magnitude greater than open loop types. They are ideally suited for use in the construction industry for setting tilt of road grading and paving machines, in the geophysics filed for tilt and strong motion studies, in the civil engineering field for evaluation of tilt of supporting walls in dams and other structures, and other application where high-accuracy measurement of tilt is required.
Jewell LCF-2330 series inclinometers are fully self-contained and designed to operate from a standard DC power source. Output is an analog 0 to ±5 VDC signal directly proportional to the sine of the angle of tilt. The heart of the LCF-2330 series is a flexure supported torque balance system, rugged enough to withstand severe shock and vibration and still maintain excellent accuracy. The solid state electronics and sensor are enclosed within the sealed housing, permitting operation in hostile environments.
Applications for the Jewell Instruments LCF-2330 Series Inclinometer:
- 2-axis machine tool leveling
- Bridge structural monitoring
- Submersible control feedback
- Offshore platform stability
- Antenna leveling and orientation
- Weapons platform leveling
- Deviation surveys