Søk
Produkter
    Menu Close

    Subminiature Load Cell

    Varenr: 8414-2,5...5N
    i h
    • Especially flat design
    • Small measuring ranges
    • Made of stainless steel
    • High resonance frequencies
    • Accuracy from < 0.5 % F.S.
    • Model 8414 with mechanical overload protection

    These subminiature compression load cells have to be installed very carefully. They must be mounted on a flat andeven surface using contact adhesive, wax or a small laminated spring to hold the sensor body down. Preloads which could have a direct impact on the sensor body, and clamping the sensor on its sheath are to be avoided.

    The measuring force has to be applied centrically and free from lateral forces which have to be kept away from the sensor using levers or guideways. Mounting must always be performed manually without use of power tools. Overload damage during the mounting process can be passively prevented by electrically connecting the sensor and displaying the force value

    Application

    These subminiature compression load cells have to be installed very carefully. They must be mounted on a flat andeven surface using contact adhesive, wax or a small laminated spring to hold the sensor body down. Preloads which could have a direct impact on the sensor body, and clamping the sensor on its sheath are to be avoided.

    The measuring force has to be applied centrically and free from lateral forces which have to be kept away from the sensor using levers or guideways. Mounting must always be performed manually without use of power tools. Overload damage during the mounting process can be passively prevented by electrically connecting the sensor and displaying the force value.

    The subminiature compression load cells are flat, cylindrical discs with covered bottoms. The load application button for receiving the compression forces is an integrated part of the top, which is the sensor‘s membrane. The strain gauges are applied on the back and wired to a full Wheatstone bridge, which results in voltage output proportional to the load applied.

    The connecting cable of the load cell features a covered correction network on a small board. The sensor‘s temperature compensation is installed here.

    Due to its extremely small dimensions, this model is perfect for use in applications with limited space. The small diameters result in high resonance frequencies.

    Description

    The subminiature compression load cells are flat, cylindrical discs with covered bottoms. The load application button for receiving the compression forces is an integrated part of the top, which is the sensor‘s membrane. The strain gauges are applied on the back and wired to a full Wheatstone bridge, which results in voltage output proportional to the load applied.

    The connecting cable of the load cell features a covered correction network on a small board. The sensor‘s temperature compensation is installed here.

    Due to its extremely small dimensions, this model is perfect for use in applications with limited space. The small diameters result in high resonance frequencies.
     
    Brochure
    *
    *
    *