KR900001534B1 - Optical transmission circuit of digital audio signal - Google Patents

Abstract

By isolating the electric connection between the transmitting device and the receiving device, and by transmitting the signal of basic frequency necessary for the synchronous signal, and with the modulated digital signal in transmitting the digital audio signal through the optical transmission line, the noises in the cables are eliminated, and the distortion of signal is prevented.

Description

Optical transmission circuit of digital audio signal

1 is an overall block diagram of the present invention.

2 is a detailed view of the present invention.

3 is a timing diagram according to the details of the invention.

* Explanation of symbols for main parts of the drawings

1: digital audio signal source 2: system clock oscillation circuit

3: frequency division circuit 4: end gate

5: buffer 6: adder

7 converter 8 light emitting circuit

(m): Optical transmission path 10: Light receiving circuit

11: shear amplifier circuit 12: resistance

13: zener diode 14: low pass filter

15, 16: Schmitt trigger 17: D / A converter

18: control circuit 19: channel separation circuit

20: modulation circuit 22: modulation signal separation circuit

23: modulated signal fraction and control signal generating circuit

24: signal demodulation circuit 25: receiver signal processing circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical transmission circuit of a digital audio signal, in which an apparatus for transmitting a digital audio signal directly to a digital signal is required to transmit a synchronization signal together. In the related art, the noise on the line is transmitted together with the coaxial cable to be electrically connected to the two devices in order to transmit the digital audio signal, and there is a possibility of signal deformation due to the capacity of the line. In the case of transmitting the signal and the synchronization signal, a complicated synchronization detection circuit is required, which leads to a manufacturing difficulty and a defect in which the reliability of the product is lowered due to the unstable operation of the circuit.

The present invention was devised to solve the above-mentioned deficiency, which completely separates the electrical connection between the transmitting device and the receiving device and modulates the digital signal to optically transmit an optical signal using an optical transmission line. By using the method of transmitting the required fundamental frequency signal together, the noise by the cable can be eliminated and the signal can be prevented from being deformed, and the circuit necessary for the synchronous signal is simplified, so the production is simple and the operation state is stable and the reliability of the product is Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall circuit block diagram of the present invention, in a device for transmitting a digital audio signal in the optical transmission method, the digital audio signal source 1 is a signal output from the system clock oscillation circuit (2) of the transmission device In order to set the proper frequency, the frequency division circuit 3 divides the signal through the modulation circuit 20, and then modulates the light through the amplifier 21 and converts the light through the optical transmission line m to the receiver. In the receiver, the signal received through the light receiving circuit 10 converts an electrical signal, and then the signal amplified by the front end amplification circuit 11 demodulates the data through the signal demodulation circuit 24 to process the signal processing circuit of the receiver. And a modulated signal division circuit and a control signal generating circuit 23 by extracting the modulated signal from the output of the shear amplifier circuit 11 through the modulated signal separation circuit 22. Will be described below with the present invention by using a modulation signal synchronous match between data to be transmitted by applying a control signal to the signal processing circuit 25 is a circuit configured to modulate the data to help third-degree waveform.

FIG. 2 is a detailed circuit diagram of the present invention. The digital audio signal source 1 outputs a digital signal such as waveform a of FIG. Is outputted and applied to the AND gate 4 of the modulation circuit 20, and the signal output from the system clock oscillation circuit 2 of the transmitting device passes through the frequency divider circuit 3 in order to make an appropriate frequency. After the divided signal is applied to the buffer 5 of the modulation circuit 20 and simultaneously applied to the AND gate 4, the AND gate 4 logically multiplies the two signals by waveform c of FIG. 3. In this case, the high frequency pulse signal, which is a modulated signal, is maintained at a constant ratio with the transmission speed of the serial transmission data, and is connected to the adder 6 of the modulation circuit 20 and the buffer 5 Change through The adder 6 together with the tuned signal becomes an output signal carrying a modulated signal together, as shown in waveform c of FIG. 3, and this signal passes through the conversion circuit 7 through the conversion circuit 7 to finish the level with an appropriate width. The light emitting circuit 8 converts the electrical signal into a light signal and is applied to the light receiving circuit 10 of the receiver through the optical transmission path m, and the light signal from the light receiving unit 10 is restored to the electrical signal again. This signal becomes the same as the waveform (d) of 3 degrees, and this signal is amplified to the size of the desired signal through the front end amplification circuit (11) and applied to the low pass filter (14) of the demodulation demodulation circuit (24). The signal obtained by extracting only the components of the modulated wave through the amplitude limiting circuit 30 of the signal modulation and separating circuit 22 composed of the diode 13 and the resistor 12 is transmitted through the Schmitt trigger circuit 15 to the waveform g of FIG. Reshape the signal waveform as Since the restored modulated signal has a constant frequency ratio so as to be synchronized with the data signal, various desired control signals can be obtained through the simple modulated signal division circuit and the control circuit 18 of the control signal generation circuit 23. This signal is used as a control signal for controlling the channel separation circuit 19 of the signal processing circuit 25 of the receiver which separates the synchronization signal of the D / A converter 17 and the final analog signal from side to side.

분주 및

분주로 변환신호 및 채널분리신호를 얻을 수 있게 된다.For example, if the data bit transmission rate, set the frequency of the modulating waveform on the serial transmission of the 16-bit when that f _s to 32f _s and using a D / A converter 17 to start the conversion when changing a pulse to a high state In this case, the control circuit 18 of the modulation signal division and control signal generation circuit 23

Dispensing and

By division, a conversion signal and a channel separation signal can be obtained.

On the other hand, the waveform f signal of FIG. 3 obtained by removing the modulated signal through the low pass filter 14 is passed through the Schmitt trigger 16 to remove the direct current (DC) component at the level (0), and the waveform is The signal is restored to the same signal as the waveform g of FIG.

At this time, the threshold voltage of the Schmitt trigger 16 may be placed between the level (0 ') and the level (1') of the waveform (f) signal of FIG.

The recovered signal as described above is converted into an analog signal through the D / A converter 17, and becomes a modulated signal that is synchronized with the channel separation circuit 19.

As described above, the present invention completely separates the electrical connection between the transmitter and the receiver and optically modulates the digital signal to transmit a digital signal using an optical transmission path to transmit a signal having a fundamental frequency necessary for a synchronization signal together. By using the method, the noise of the cable can be removed, the transmission signal can be prevented from being deformed, and the circuit necessary for the synchronous signal is simplified, so that the production is simple and the operation state is stabilized.

Claims (1)

In a device for transmitting digital audio signals, a modulation circuit for modulating a signal of a digital audio signal source (1) and a frequency division circuit (3) connected to a system clock oscillation circuit (2) for generating a clock in order to transmit data in an optical transmission method. The light emitting circuit 3 converts the electrical signal amplified by the amplifier 21 connected to the optical signal 20 into an optical signal and transmits the optical signal through the optical transmission path m, and the optical signal received through the optical transmission path m again. The signal demodulation circuit 24 for demodulating the electrical signal amplified by the shear amplifier circuit 11 connected to the light receiving circuit 10 for converting the electrical signal, and the signal through the shear amplifier circuit 11 is the amplitude limiting circuit 30 Modulated signal separation circuit 22 for modulating and separating the modulation signal, and extracting and dividing the modulated signal, and transmitting the modulated signal division and control signal generation circuit 23 connected to the signal processing circuit 25 of the receiver. An optical transmission circuit of a digital audio signal, characterized in that the data is modulated using a modulation signal that is synchronized with the data.

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