KR960002729B1 - Buzzer Inspection System by Frequency Spectrum Analysis - Google Patents

Abstract

The circuit includes; an input part of buzzer signal(11) which converts a sound signal, generated from detected buzzer, to electrical signal; an amplifier(12) which amplifies input of sound signal of input part of buzzer signal; a low pass filter(13) which cuts off the high frequency band of the sound signal; an analog/digital converter(16) which converts output of the analog sound signal to digital signal; a microprocessor(17) which displays buzzer state on a display device(15) after comparing level of frequency band.

Description

Buzzer Inspection System by Frequency Spectrum Analysis

1 is a block diagram showing a buzzer acceptance test circuit according to the present invention frequency spectrum analysis.

2 is a graph showing one embodiment of a frequency spectrum.

3 is a flow chart according to the present invention.

* Explanation of symbols for main parts of the drawings

5: Buzzer for inspection 11: Buzzer signal input unit

12: Amplifier 13: Low Pass Filter

14 buzzer driving power supply 15 display device

16: Analog / Digital Converter

17: Micro Processor

The present invention relates to a system that can check the quality of the buzzer by frequency spectrum analysis.

In the related art, in order to inspect the quality of a buzzer, an operator listens to the sound of a buzzer by hearing and determines the quality of the buzzer by using it.

Therefore, the buzz determination decision time varies depending on the skill of the operator, and in many cases an error occurs by judging whether the buzzer is judged by the worker's hearing.

Therefore, the present invention has been made to solve such a problem, and by analyzing the frequency band of the sound generated by the buzzer and comparing it with a predetermined reference value to determine whether or not the buzzer by frequency spectrum analysis to ensure the accuracy of the decision Its purpose is to provide a buzzer inspection circuit.

According to the present invention for realizing this, the buzzer sound receiving means for receiving the sound generated by the buzzer and the converting means for converting the received buzzer sound into a signal necessary for the determination of acceptance and the buzzer signal converted by the converting means for each frequency band Comparing judging means for judging whether or not the buzzer is compared with the set reference value.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

1 is a buzzer signal input unit 11 for receiving a sound signal generated by the inspected buzzer 5 and converting the signal into an electrical signal, as shown in the block diagram of the buzzer acceptance test circuit according to the frequency spectrum analysis of the present invention. An amplifier 12 for amplifying the sound signal input of the signal input unit 11, a low pass filter 13 for blocking a high frequency band of the sound signal amplified by the amplifier 12, and the low pass filter 13. The analog / digital converter 16 converts the analog sound signal output of the digital signal into a digital signal, and controls the driving of the driving power supply unit 14 by recognizing a control signal input from the outside, and controls the output of the analog / digital converter 16. After the Fourier transform is performed, the sound signal input amount for each frequency band is read, and the buzzer is judged by comparing the reference value with the frequency band. It has a feature composed of a microprocessor 17 for displaying it in the display field 15.

Referring to the operation effect of the present invention configured as described above is as follows.

In the microprocessor 17 which recognizes a control signal input from a controller (not shown), the buzzer driving power supply 14 is driven to drive the buzzer positive inspection circuit by the initial frequency spectrum analysis, thereby driving the buzzer 5 for inspection. The power is applied to drive the tester's buzzer 5, while a power supply device (not shown) is driven to drive the tester's buzzer inspection circuit by frequency spectrum analysis.

When the inspected buzzer 5 to which the driving power is applied from the buzzer driving power supply unit 14 is driven by the control of the microprocessor 17 to generate a buzzer sound, it is received by the buzzer signal input unit 11 and converted into an electrical signal. It is applied to the amplifier 12.

The buzzer signal applied to the amplifier 12 is amplified to an appropriate size necessary for the buzzer inspection circuit by frequency spectrum analysis and applied to the low pass filter 13, and the low pass filter 13 receives the high frequency of the applied buzzer signal. The band is cut off so that only the frequency band necessary for the determination of goodness and weakness is applied to the analog / digital converter 16 at the rear end.

Subsequently, the analog / digital converter 16 converts the applied analog buzzer signal to digital and outputs the digital buzzer signal to the microprocessor 17.

Referring to the driving of the microprocessor 17 operating as described above in more detail by the flowchart of FIG. 3, the buzzer signal according to the driving of the tester buzzer 5 is analog-to-digital converter 16 as described above. The microprocessor 17 converts the applied buzzer signal into a fast Fourier transform and displays the magnitude of each buzzer signal in the frequency spectrum as shown in FIG.

Subsequently, a buzzer signal having a frequency spectrum for each frequency band is compared with a reference value of a frequency band wall built into the microprocessor 17 or introduced from the outside to compare whether the buzzer signal generated in the test buzzer 5 is similar to the reference value for each frequency band. do.

In this way, in the microprocessor 17 which compares the reference value for each frequency band and the buzzer signal generated by the tester's buzzer 5, the quality of the tester's tester's buzzer 5 is determined based on the comparison value, and then the judgment data is sent to the display device 15. It is indicated so that the inspector can know the quality of the buzzer 5 for inspection.

As described above, the present invention has an effect of accurately determining whether or not the buzzer signal is generated by determining a buzzer signal generated by the buzzer by performing a Fourier transform on a fast spectrum and comparing the result with a reference value for each frequency band.

Claims (1)

A buzzer signal input unit 11 for receiving a sound signal generated by the test buzzer 5 and converting the sound signal into an electrical signal, an amplifier 12 for amplifying the sound signal input of the buzzer signal input unit 11, and the amplifier ( A low pass filter 13 which cuts out a high frequency band of the sound signal amplified by 12), an analog / digital converter 16 which converts the analog sound signal output of the low pass filter 13 into digital, and While controlling the driving of the driving power supply unit 14 by recognizing a control signal input, the output of the analog / digital converter 16 is fast Fourier-transformed to read the sound signal input amount for each frequency band, and then the frequency band reference value and the reading. A frequency having a feature composed of a microprocessor 17 for comparing the values to determine the buzzer status and then displaying them on the display device 15. By spectral analysis buzzer acceptability testing circuit.