Digital demodulation system for three-floated gyroscopes

A digital demodulation and gyroscope technology, applied in the field of inertial measurement, can solve the problems of low-pass filter and analog multiplier gain and accuracy decrease, analog phase-sensitive demodulation can not meet the requirements, temperature drift and other problems, to achieve flexible selection, The calculation method is flexible and the effect of flexible changes

Active Publication Date: 2017-10-13
BEIJING INST OF AEROSPACE CONTROL DEVICES
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Problems solved by technology

[0004] As the operating frequency increases, the gain and accuracy of the low-pass filter and the analog multiplier will decrease, resulting in severe distortion of the demodulated data
Moreover, the traditional analog lock-in amplifier circuit has shortcomings such as temperature drift and noise, as well as th

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  • Digital demodulation system for three-floated gyroscopes
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  • Digital demodulation system for three-floated gyroscopes

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Embodiment Construction

[0059] In order to make the purpose, technical solution and advantages of the present invention clearer, the following will further describe the public implementation manners of the present invention in detail with reference to the accompanying drawings.

[0060] refer to figure 1 , shows a structural block diagram of a digital demodulation system for a three-floating gyroscope in an embodiment of the present invention. In this embodiment, the digital demodulation system of the three-floating gyroscope includes: angle sensor 1, signal generator 2, preamplifier 3, A / D conversion circuit 4, constant temperature crystal oscillator 5, FPGA field programmable Logic device 6, RS / 485 interface circuit 7 and upper computer 8.

[0061] The signal generator 2 is used to generate the standard sinusoidal excitation signal.

[0062] For example, the signal generator 2 can generate a standard sinusoidal excitation signal with an effective value of 6V and a frequency of 8KHz.

[0063] The...

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Abstract

The invention discloses a digital demodulation system for three-floated gyroscopes, which comprises an angle sensor, a signal generator, a preamplifier, an A/D conversion circuit, a constant-temperature crystal oscillator, an FPGA field programmable logic device, an RS/485 interface circuit, and a principal computer. The angle sensor is used for loading a collected signal to be measured on a standard sine excitation signal generated by the signal generator to form a sine wave modulation waveform signal. The preamplifier is used for amplifying the signal. The A/D conversion circuit is used for performing analog-to-digital conversion on the signal to get a digital signal to be measured and a standard digital signal. The FPGA field programmable logic device is used for calculating the digital signal to be measured according to the standard digital signal and outputting the calculation result to the principal computer through the RS/485 interface circuit. Through the system of the invention, fast and high-precision digital demodulation of a to-be-measured signal collected by the angle sensor is realized.

Description

technical field [0001] The invention belongs to the technical field of inertial measurement, in particular to a digital demodulation system of a three-float gyroscope. Background technique [0002] Ballistic missiles and launch vehicles usually use the inertial coordinate system as the reference coordinate system, and use the gyro-stabilized platform to establish the inertial coordinate system for the missile (arrow). A typical installation method of the gyro-stabilized platform is: before the projectile (arrow) is launched, the outer frame axis of the platform is perpendicular to the shooting surface and coincides with the pitch axis of the projectile, and the inner frame axis and platform axis are respectively aligned with the projectile rolling axis and yaw axis. Axis coincidence. The inertial coordinate system established by the gyroscope on the platform is used to control the platform frame through the stability loop, so that the platform is stable in the inertial spac...

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Application Information

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IPC IPC(8): G05B19/05
CPCG05B19/054G05B2219/1103
Inventor 朱嘉婧贺栋张沛晗
Owner BEIJING INST OF AEROSPACE CONTROL DEVICES
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