Electromagnetic balance type acceleration sensor

An acceleration sensor, balanced technology, applied in the direction of using inertial force for acceleration measurement, etc., can solve the problems such as the support body is easily affected by resistance, the flexible pendulum acceleration sensor has poor impact resistance, and achieves no inter-axis interference, zero The effect of high bit stability and high impact resistance

Inactive Publication Date: 2015-01-14
CHONGQING UNIV
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AI Technical Summary

Problems solved by technology

[0003] Aiming at the disadvantages of the traditional bearing-type electromagnetic balance acceleration sensor support body being easily affected by resistance, and the flexible pendulum type acceleration sensor having poor impact resistance, the invention proposes a design scheme for the electromagnetic balance acceleration sensor supported by suspension wires

Method used

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Embodiment Construction

[0017] The work of the present invention will be described in detail below with reference to the accompanying drawings.

[0018] Such as figure 1 Shown is the top view of the electromagnetic balanced acceleration sensor of the present invention. The electromagnetic balance acceleration sensor includes: a torque device stator (12) composed of a permanent magnet group (121, 122), a coil slot (111), a mover coil (112), a wiring board (113), a foil wire (114) and a displacement metal A torque device mover (11) composed of a sheet (21), a torque device stator (12) and a torque device mover (11) constitute a torque device system (10). A signal sensing system (20) composed of a displacement metal sheet (21), a sensing coil (22) and a sinusoidal excitation signal generating circuit (23), a servo amplifier system (30), and an external support structure (40). The permanent magnet group (121, 122) is directly fixed on the external support structure (40) through the magnet fixing frame, and...

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Abstract

An electromagnetic balance type acceleration sensor comprises a torquer system, a signal sensing system, a servo amplification system and an outer supporting structural body. One side of a torquer rotor is fixed to the outer supporting structural body through a wire, when accelerated speed is input in the sensitive axial direction, the torquer rotor rotates by a small angle with the wire as the fulcrum, a displacement metal sheet fixed to the edge of the torquer rotor generates relative displacement relative to the balance position, the relative displacement is fed back to the servo amplification system by being detected by a signal sensor and is converted to be current magnitude, current is fed back by a foil wire to a torquer moving coil, then ampere force is generated, and the torquer rotor recovers to the balance position under action of ampere force. The electromagnetic balance type acceleration sensor has the advantage of high-precision closed-loop control of a flexible pendulum acceleration sensor, and has the advantages of being high in zero-position stability, free of interference between shafts and the like; meanwhile, influence on material selection from temperature is relatively small, and the electromagnetic balance type acceleration sensor has a small bias temperature coefficient and has the miniaturization and low power consumption potentials.

Description

Technical field [0001] The invention relates to an acceleration sensor, in particular to a closed-loop feedback control suspension wire supporting electromagnetic balance acceleration sensor based on differential displacement detection. Background technique [0002] Traditional acceleration sensors are divided into piezoelectric, piezoresistive, capacitive, pendulum, etc. Piezoelectric acceleration sensor is a self-generating sensor, the output charge is proportional to the input acceleration, relatively small size, long life, but the signal needs greater amplification, the sensor body is easily affected by temperature, and the zero offset is not ideal; The resistive type needs an external power supply to provide excitation, the measurement frequency can be as low as 0HZ, can withstand high shocks and has no zero offset, but the minimum resolution is relatively unsatisfactory; the capacitive acceleration sensor gradually decreases the capacitance area is limited, and the electron...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01P15/13
Inventor 路永乐潘英俊黎蕾蕾
Owner CHONGQING UNIV
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