Inclinometers, also called tilt sensors, are designed to measure the angle of an object with respect to the force of gravity. These tilt or level meters determine pitch and/or roll angle and output these values via the appropriate electrical interface. Inclinometers are easy to integrate into an application because there is no need for mechanical linkages other than just the installation itself – a real advantage for design engineers. Available as single (up to 360°) or dual axis (up to +/- 90°) outputs, inclinometers are offered in a variety of electrical interfaces and housings which can withstand high pressure wash down or rated for hazardous environments.
POSITAL AKS inclinometers provide smooth data in dynamic environments...
POSITAL ACS Modbus inclinometers are ideal for solar tracking....
The P603 is an affordable, durable, high-accuracy tilt sensor designed for....
The 350bar S623 tilt sensor is an affordable, durable, high-accuracy sensor designed...
The G603 is CSA approved and intrinscially safe for use in potentially explosive gas/vapour atmospheres....
The X603 is ATEX, IECEx approved and intrinscially safe for use in potentially explosive gas/vapour atmospheres....
The E603 is ATEX, IECEx approved and intrinscially safe for use in potentially explosive dust and gas/vapour atmospheres....
The intrinsically safe M603is ATEX and IECEx approved for use in potentially explosive gas/vapour, dust atmospheres and mining...
Tracking systems are crucial for maximizing the efficiency of photovoltaic (PV) solar installations. By continuously adjusting the orientation of solar panels to follow the sun’s movement across the sky, tracking systems significantly increase energy output compared to fixed-mount systems.
Spacecraft launches present a uniquely demanding environment for sensors. The extreme conditions encountered during liftoff require sensors with exceptional ruggedness, reliability, and resistance to harsh environmental factors. For example, rockets generate immense vibrations, sound waves and shock loads during liftoff.
Maintaining the functionality of legacy equipment is often a challenge, especially when critical components become obsolete. The inability to replace a $300 component can make a $30,000 machine inoperable.
When a team began developing a new engine for Le Mans Daytona (LMDh) races they turned to Everight Position and Gill Sensors for critical oil level measurement. Given the weight limit on the engine, 396.8 lbs, Gill 4223’s compact and low weight aluminum construction made for an ideal solution.
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