KR100216757B1 - Auto-control system of band pass filter of hifi audio signal - Google Patents

Abstract

The present invention relates to a system for automatically adjusting a band pass filter of a hi-fi audio signal processing system, which enables the microprocessor to automatically adjust the band pass filter of a hi-fi audio signal processing system according to a broadcasting system discrimination result of recognizing the synchronization frequency of an input signal. will be.

To this end, the present invention is a phase locked loop for obtaining an output audio signal in phase synchronization with the input audio signal; A synchronization detector for detecting a synchronization signal of an input signal; A microprocessor which determines a broadcast signal processing scheme at the synchronization frequency and generates a control voltage and a clock frequency switching control signal supplied to the voltage controlled oscillator of the phase locked loop; A reference voltage supply unit configured to supply an output voltage to the voltage controlled oscillator by varying an output voltage according to a switching control signal of the microprocessor; And a frequency multiplier for supplying a multiplier frequency of a predetermined ratio with respect to the input synchronization signal as a clock signal of the voltage controlled oscillator according to the switching control signal of the microprocessor.

Description

Bandpass Filter Automatic Adjustment System of Hi-Fi Audio Signal Processing System

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a band pass filter adjustment system for use in an audio signal processing system in which frequency is modulated (hereinafter referred to as FM) of hi-fi VSI, and more particularly, a band pass filter for demodulating a hi-fi audio signal includes a voltage controlled oscillator. In the system for adjusting the reference frequency during demodulation, the voltage controlled oscillator is selectively switched according to the broadcasting system discrimination result recognized by the microprocessor as the vertical synchronization signal of the input signal to automatically adjust the reference frequency of the band pass filter. A system for automatically adjusting a band pass filter of a hi-fi audio signal processing system.

In the conventional high fidelity VSI, the band pass filter adjusting system of the FM audio signal processing system includes a voltage controlled oscillator (VCO) 3 for oscillating by changing the output frequency by voltage control as shown in FIG. 1, and the output frequency of the voltage controlled oscillator. A band pass filter (BPF) 1 for demodulating the FM hi-fi audio signal at a reference frequency, and a reference voltage supply unit supplying an output voltage controlled by an external variable resistor VR1 as a reference voltage of the voltage controlled oscillator 5 And a reference clock oscillator 7 for supplying a clock frequency controlled by the external variable resistor VR2 as a reference clock signal of the voltage controlled oscillator.

On the other hand, the hi-fi audio signal and the video signal have a carrier frequency for a color signal and a luminance signal of a video signal and a left and right channel signal of an audio signal according to a broadcast signal processing system, that is, an NTSC or PAL method. In the case of the ante-sushi method, audio signals of left and right channels are loaded at 1.3 MHz and 1.7 MHz, respectively, and in the case of the arm type, the left and right channels are not shown in the drawing. Each audio signal of the right channel is carried.

However, the conventional hi-fi VSI band pass filter adjustment system as shown in FIG. 1 controls the control voltage and the reference clock frequency of the band pass filter 1 at the reference frequency adjusted by the voltage controlled oscillator 3 to control the FM audio signal. Is demodulated and output.

Therefore, when demodulating a hi-fi audio signal using such a band pass filter, the reference frequency of the band pass filter should also be adjusted according to the broadcast signal processing method. There was a lot of trouble because the frequency of the reference clock signal must be changed at the same time.

Accordingly, the present invention has been made to solve the above problems, and the present invention provides a voltage controlled oscillator for adjusting a band pass filter of a hi-fi audio signal processing system. It is an object of the present invention to provide a system for automatically adjusting a band pass filter of a hi-fi audio signal processing system in which a band pass filter can be automatically adjusted by selectively switching a control voltage and a clock frequency of the voltage controlled oscillator according to the result.

In order to achieve the above object, the present invention comprises a phase locked loop which combines a phase comparator and a voltage controlled oscillator and obtains an output audio signal in phase synchronization with an input audio signal using an integrating controlled negative feedback loop with respect to frequency; A synchronization detector for detecting a synchronization signal of an input signal; A microprocessor that determines a broadcast signal processing scheme based on a synchronization frequency of the input signal and generates a control voltage and a clock frequency switching control signal supplied to the voltage controlled oscillator of the phase locked loop; A reference voltage supply unit configured to supply an output voltage to the voltage controlled oscillator by varying an output voltage according to a switching control signal of the microprocessor; Automatic adjustment of a band pass filter of a hi-fi audio signal processing system comprising a frequency multiplier for supplying a multiplier frequency of a predetermined ratio to an input synchronization signal as a clock signal of the voltage controlled oscillator according to a switching control signal of the microprocessor. Provide a system.

1 is a block diagram of a band pass filter adjusting circuit of a conventional hi-fi audio signal processing system.

2 is a diagram illustrating recording waveforms of a hi-fi audio signal and a luminance signal recorded for each carrier frequency in the NTSC method; FIG.

3 is a block diagram of a band pass filter automatic adjustment circuit of a hi-fi audio signal processing system according to an embodiment of the present invention.

FIG. 4 is a flowchart illustrating an operation of automatically adjusting a band pass filter performed by the microprocessor of FIG. 3 in relation to its peripheral circuit.

* Explanation of symbols for main parts of the drawings

10: Phase Locked Loop (PLL) 11: Band Pass Filter (BPF)

12 low pass filter (LPF) 13 voltage controlled oscillator (VCO)

14: phase comparator 20: microprocessor

30: synchronization detector 40: frequency multiplier

50: reference voltage supply

Hereinafter, a configuration of a band pass filter automatic adjustment system of a hi-fi audio signal processing system according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram of a band pass filter automatic adjustment circuit of a hi-fi audio signal processing system according to an embodiment of the present invention.

As shown in the figure, the phase comparator 14 and the voltage controlled oscillator 13 are combined with the band pass filter 11 and the low pass filter 12 and input audio using a negative feedback loop of integral control over frequency. A phase lock loop (10) capable of obtaining an output audio signal in phase synchronization with the signal; a synchronization detector (30) for receiving an input signal and separating the synchronization signal of the input signal to detect a vertical synchronization signal; A microprocessor which receives the synchronization detection signal of the synchronization detection unit 30 as a count input, counts the synchronization frequency, determines the broadcasting method at the synchronization frequency, and generates a control voltage and a clock frequency switching control signal to the reference voltage supply unit and the frequency multiplier side. 20) is provided.

In addition, the reference voltage supply unit 50 for varying the output voltage according to the control voltage switching control signal of the microprocessor to supply the control voltage to the voltage control oscillator, and the input synchronization signal according to the clock frequency switching control signal of the microprocessor. It is shown that the frequency multiplier 40 is configured by varying the frequency multiplication ratio and supplying the clock signal of the voltage controlled oscillator.

At this time, the microprocessor 20 controls the oscillation frequency of the frequency multiplier and the output voltage of the reference voltage supply unit to be supplied to the voltage controlled oscillator in an ANTSI method when the synchronization frequency is 60 Hz. It is desirable to incorporate a series of control programs for controlling the output voltage of the reference voltage supply to be supplied to the voltage controlled oscillator in an arm manner.

4 is an operation flowchart illustrating a control program executed by the microprocessor of FIG. 3 in relation to a peripheral circuit thereof, as shown in FIG. Determining whether a synchronization signal is detected (S22), checking a frequency of the vertical synchronization signal (S23), and determining a broadcast signal processing method, and if the broadcast method determines that the oscillation frequency is 60 Hz. Controlling the frequency multiplier and controlling the reference voltage supply unit so that the reference voltage suitable for the anti-SSI method is supplied to the voltage controlled oscillator (S26, S27), and if the broadcasting method determines that the arm frequency is the oscillation frequency of the frequency multiplier Controlling the reference voltage to 50 Hz and controlling the reference voltage supply unit so that a reference voltage suitable for the arm method is supplied to the voltage controlled oscillator, and then terminating (S24, S25) is preferred.

The operation of the present invention as described above is as follows.

The present invention first outputs the signal output to the low pass filter 12 by passing the FM audio signal through the carrier frequency band of the audio signal by the band pass filter 11 while passing through the phase-locked loop 10 as a whole, At the same time, a feedback is applied to the voltage output from the low pass filter 12 to be controlled by the voltage controlled oscillator 13 to fix the phase.

At this time, the reference clock of the voltage controlled oscillator 13 supplies a signal multiplied at a predetermined rate through the frequency multiplier 40 by the vertical synchronization signal of the input signal to the clock frequency fo, and also the voltage controlled oscillator 13 The control voltage is selected from the first reference voltage V1 and the second reference voltage V2 supplied from the reference voltage supply unit 50. The clock frequency and the control voltage are broadcast signal processing determined by the microprocessor 20. The switching is automatically controlled according to the method judgment result.

Here, if it is determined whether the arm or the anti-sushi system is determined, the vertical synchronization signal of the input signal is set to 50 Hz in the case of the arm method and 60 Hz in the case of the anti-sense system, so the microprocessor 20 broadcasts the reference. By determining the signal processing method, the band pass filter 11 can be automatically adjusted by switching the reference voltage V1 or V2 or the clock frequency multiplication ratio.

That is, the control operation of the microprocessor 20 will be described step by step. When the synchronization detector 30 separates the vertical synchronization signal of the input signal and supplies it to the microprocessor 20, the microprocessor 20 inputs the signal. In operation S21, it is checked whether the vertical synchronization signal is normally detected (S22), the frequency of the vertical synchronization signal is counted, and the counted result is compared with an arbitrary frequency (S23) to determine the broadcast signal processing method.

As a result of the comparison, if the vertical synchronization signal has a frequency of 60 Hz (NTSC branch of S23), the broadcasting signal processing method is recognized as an anti-SSI method, and the multiplication ratio of the frequency multiplier 40 is controlled to output a multiplication frequency of 60 Hz ( S26), and at the same time, the control voltage supplied to the voltage controlled oscillator 13 through the reference voltage supply unit 50 is varied to control the oscillation frequency of the control voltage oscillator 13 to 60 Hz (S27).

On the other hand, if the vertical synchronization signal has a frequency of 50Hz (PAL branch of S23), the multiplication ratio of the frequency multiplier 40 is controlled so that the multiplication frequency of 50Hz is output by recognizing the broadcast signal processing method as an arm method (S24). At the same time, the control voltage supplied to the voltage controlled oscillator 13 through the reference voltage supply unit 50 is varied to control the oscillation frequency of the control voltage oscillator 13 to 50 Hz (S25).

Therefore, by detecting the vertical synchronizing signal of the input signal as described above, it is determined whether the broadcast signal processing method is the arm type or the anti-shsi method, and automatically switches the reference clock frequency and the control voltage of the voltage controlled oscillator according to the determined signal. This makes it possible to automatically control the band pass filter.

According to the present invention as described above, in the voltage controlled oscillator for adjusting the band pass filter of the hi-fi audio signal processing system, the control voltage of the voltage controlled oscillator according to the broadcasting system discrimination result recognized by the microprocessor as the synchronization frequency of the input signal. And by selectively switching clock frequencies automatically, it is useful to easily handle adjustment of the band pass filter.

Claims (2)

A phase locked loop that combines a phase comparator and a voltage controlled oscillator and obtains an output audio signal in phase synchronization with the input audio signal using an integrating controlled negative feedback loop with respect to frequency; A synchronization detector detecting a vertical synchronization signal of the input signal; A microprocessor that determines a broadcast signal processing scheme based on a synchronization frequency of the input signal and generates a control voltage and a clock frequency switching control signal supplied to the voltage controlled oscillator of the phase locked loop; A reference voltage supply unit configured to supply an output voltage to the voltage controlled oscillator by varying an output voltage according to a switching control signal of the microprocessor; Automatic adjustment of a band pass filter of a hi-fi audio signal processing system comprising a frequency multiplier for supplying a multiplier frequency of a predetermined ratio to an input synchronization signal as a clock signal of the voltage controlled oscillator according to a switching control signal of the microprocessor. system. The oscillator of claim 1, wherein the microprocessor controls the oscillation frequency of the frequency multiplier and the output voltage of the reference voltage supply unit to be supplied to the voltage controlled oscillator in an anticipated manner when the synchronous frequency of the input signal is 60 Hz. A band pass filter automatic adjustment system of a hi-fi audio signal processing system, characterized in that the oscillation frequency of the multiplier and the output voltage of the reference voltage supply are controlled to be supplied to the voltage controlled oscillator in an arm manner.