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Inertial measurement system based on high-integration-level accelerometer

An accelerometer and inertial measurement technology, applied in the field of inertial measurement, can solve the problems of increasing the quality, volume, power consumption and cost of the inertial measurement system, affecting the stability and reliability of the system, and achieving improved integration and reliability, low Power Consumption, Enhanced Stability Effects

Inactive Publication Date: 2014-01-08
ZHEJIANG UNIV
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Problems solved by technology

[0003] However, almost all production units of inertial measurement combined systems are composed of discrete gyroscopes and accelerometers. The fiber optic gyroscopes and accelerometers in three mutually perpendicular directions measure their respective inertial data, which will inevitably increase the overall inertial measurement system. Quality, volume, power consumption and cost also affect the stability and reliability of the system. Data integration and processing are also required in the data terminal, which limits the development of inertial measurement. Therefore, integration and multiplexing are the most important aspects of inertial measurement. development trend

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[0011] Further illustrate the present invention below in conjunction with accompanying drawing.

[0012] Such as figure 1 As shown, the inertial measurement system based on a highly integrated accelerometer includes a light source 1, a 1×3 coupler 2, an X-axis fiber-optic inertial measurement unit 3, a Y-axis fiber-optic inertial measurement unit 4, a Z-axis fiber-optic inertial measurement unit 5, and a detector 6. Signal processing circuit 7; wherein, the 1×3 coupler 2 is respectively connected to the light source 1, the port A1 of the X-axis fiber-optic inertial measurement unit 3, the port A2 of the Y-axis fiber-optic inertial measurement unit 4, and the port A2 of the Z-axis fiber-optic inertial measurement unit 5 The port A3 is connected, the port C1 of the X-axis fiber-optic inertial measurement unit 3, the port C2 of the Y-axis fiber-optic inertial measurement unit 4, and the port C3 of the Z-axis fiber-optic inertial measurement unit 5 are connected to the detector ...

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Abstract

The invention discloses an inertial measurement system based on a high-integration-level accelerometer. The inertial measurement system comprises three orthorhombic all-optical-fiber inertial measurement units, wherein each all-optical-fiber inertial measurement unit consists of an accelerometer and a closed-loop optical fiber gyroscope; the three closed-loop optical fiber gyroscopes share one light source; and a free port of a coupler in each closed-loop optical fiber gyroscope supplies an input light source to the corresponding accelerometer. By adopting a multi-path multiplexing technology, the three accelerometers share one detector, so cross coupling is avoided and five light sources and two detectors are saved, the integration level, the stability and the reliability are improved, and low cost, low power consumption and minimization are realized.

Description

technical field [0001] The invention relates to the field of inertial measurement, in particular to an acceleration-based inertial measurement system. Background technique [0002] In navigation and attitude control systems, the use of fiber optic gyroscopes and accelerometers to measure angular motion in three orthogonal directions has been successful. With the development of inertial technology and civil navigation technology, the requirements for the combined system of fiber optic gyroscopes and accelerometers Also increasingly high precision, miniaturization, low power consumption, and low cost. [0003] However, almost all production units of inertial measurement combined systems are composed of discrete gyroscopes and accelerometers. The fiber optic gyroscopes and accelerometers in three mutually perpendicular directions measure their respective inertial data, which will inevitably increase the overall inertial measurement system. Quality, volume, power consumption...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01C21/10
Inventor 郭文正黄腾超李赓刘承
Owner ZHEJIANG UNIV
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