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Multi Axis Force Measurement Sensor 10N 20N 50N 100N 3D Force Transducer

Multi Axis Force Measurement Sensor 10N 20N 50N 100N 3D Force Transducer

    • Multi Axis Force Measurement Sensor 10N 20N 50N 100N 3D Force Transducer
    • Multi Axis Force Measurement Sensor 10N 20N 50N 100N 3D Force Transducer
    • Multi Axis Force Measurement Sensor 10N 20N 50N 100N 3D Force Transducer
    • Multi Axis Force Measurement Sensor 10N 20N 50N 100N 3D Force Transducer
  • Multi Axis Force Measurement Sensor 10N 20N 50N 100N 3D Force Transducer

    Product Details:

    Place of Origin: China
    Brand Name: Forsentek
    Certification: CE
    Model Number: FNZ

    Payment & Shipping Terms:

    Minimum Order Quantity: 1pc
    Packaging Details: Shockproof carton
    Delivery Time: 3-20 working days
    Payment Terms: T/T, Western Union, MoneyGram,Paypal
    Supply Ability: 3160pcs/month
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    Detailed Product Description
    Usage: 3-axis Force Measurement Force Direction: Fx/Fy/Fz
    Type: 3-axis Load Cell Output: Analog
    Range: 10N 20N 50N 100N

    Multi Axis Force Measurement Sensor 10N 20N 50N 100N 3D Force Transducer

    Miniature 3D Load Cell FNZ is made of aluminum based on strain gauge technology offering 10N / 20N / 50N / 100N four measuring ranges for all three axes,each axis is capable of measuring force in both tension and compression direction. 3D force sensor FNZ utilizes independent wheatstone full bridge for each axis to deliver mV/V output which proportional to the applied force and requires no mathematical manipulation,3-channel signal amplifier LC3A can be used to convert the mV signal into 0-5V / 0-10V / 4-20mA output. Taking 3d force transducer FNZ-100N and LC3A(-10-10V)-24V for example,the load-voltage relationship will be 0-100N load in Fx+/Fy+/Fz+ direction VS 0~10V output, 0-100N load in Fx-/Fy-/Fz- direction VS 0~(-10V) output.Typical applications for multi-axis sensor FNZ are for example friction force measurement,force control in robotics,force simulators, force monitoring in handing devices,industrial test benches,and so on.

    3D force transducer 100N 50N 20N 10Nmulti axis sensor 10N 20N 50N 100N

    Ordering code Force Range Load direction
    FNZ-10N 0~10N

    Tension

    and

    Compression

    FNZ-20N 0~20N
    FNZ-50N 0~50N
    FNZ-100N 0~100N

    Specifications

    Rated capacity

    10N / 1kg / 2.2lb

    20N / 2kg / 4.4lb

    50N / 5kg / 11lb

    100N / 10kg / 22lb

    Rated output 1.0 mV/V Compensated temperature 0...+40oC
    Excitation 3-12V Operating temperature -10...+50oC
    Zero balance ±0.1mV/V Temperature shift zero ±0.05% R.O./oC
    Nonlinearity ±0.2% R.O. Temperature shift span ±0.01% R.O./oC
    Hysteresis ±0.2% R.O. Input resistance 350±50 ohms
    Nonrepeatability ±0.1% R.O. Output resistance

    350±10 ohms

    Creep(5min) ±0.1% R.O. Insulation resistance >2000Mohms
    Safe overload 150% F.S. Ingress protection IP62
    Ultimate overload 200% F.S. Material of element Aluminum
    Cable 3 x Ø3*2000mm 4-core
    Wiring

    4-wire connection for each axis

    Red--Power input+     Black--Power input-

    Green--Signal output+    White--Signal output-

     

    Load cell glossary:

    Load Cell:A device which produces an output signal proportional to the applied weight or force.

    Wheatstone Bridge:A Wheatstone bridge is a network of four resistive legs. One or more of these legs can be active sensing elements. The Wheatstone bridge is the electrical equivalent of two parallel voltage divider circuits. R1 and R2 compose one voltage divider circuit, and R4 and R3 compose the second voltage divider circuit. The output of a Wheatstone bridge is measured between the middle nodes of the two voltage dividers.
    Excitation: The voltage applied to the input terminals of the load cell.

    Rated Capacity: The maximum axial load the load cell is designed to measure within its specifications.

    Non-linearity: The maximum deviation of the calibration curve from a straight line drawn between the no-load and rated outputs; expressed as a percentage of the rated output and measured on increasing load only.

    Non-repeatability: The maximum difference between load cell output readings for repeated loadings under identical loading and environmental conditions.

    Hysteresis: The maximum difference between load cell output readings for the same applied load; one reading obtained by increasing the load from zero and the other by decreasing the load from rated output; usually measured at half rated output and expressed in percent of rated output.

    Creep: The change in load cell output occurring with specified period of time, while under load, and with all environmental conditions and other variables remaining constant; usually measured with rated load applied.

    Safe Overload: The maximum load in percent of rated capacity which can be applied without producing a permanent shift in performance characteristics beyond those specified.

    3-Axis Force Measurement Transducer 10N 20N 50N 100N 3D Force Sensor

    3D force sensor 100N 50N 20N 10N

    Click here to download datasheet

    Contact Details
    Force sensor torque transducer

    Contact Person: Mr. Tarik Lu

    Tel: 86-755-84536383

    Send your inquiry directly to us (0 / 3000)

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