KR100407970B1 - apparatus and method for selecting of audio input signal - Google Patents

Abstract

An apparatus and method for selecting an audio input signal of a digital TV, and in particular, a Schmitt triggering amplifier for amplifying an SPDIF input signal by using an oversampling clock separated by an SPDIF receiver to determine whether an audio signal input to an SPDIF input jack exists. You do not have to use. In addition, the digital audio signal is automatically selected only when an error-free normal audio signal is input to the SPDIF input jack, there is no audio signal input to the SPDIF input jack, or there is an error in the signal input to the SPDIF input jack. It automatically selects the analog audio signal and transmits it to the outside, thereby preventing a mistake and providing convenience for the user.

Description

Apparatus and method for selecting of audio input signal}

The present invention relates to a digital TV, and more particularly, to an apparatus and method for selecting an audio input signal of a digital TV.

Digital TVs are intended to receive video and audio signals from a variety of external sources, such as DVD players, PCs, and set-top boxes (STBs).

In particular, in the case of audio, an analog audio signal and a digital audio signal can be simultaneously input to a digital TV.

1 is a general conceptual diagram showing analog and digital audio signals input from an external device to a digital TV, and outputs analog audio signals through L and R jacks, and outputs digital audio signals through a SPDIF (Sony Phillips Digital Interface) jack. The digital TV 200 which selects one of the audio signal output unit 100 and the analog audio signal or the digital audio signal output from the audio signal output unit 100 according to whether the SPDIF input jack is connected and transmits it to the outside. It consists of.

In FIG. 1 configured as described above, the digital audio signal is output from the SPDIF (Sony Philips Digital Interface) output jack of the audio signal output unit 100 such as a DVD player, an STB, a computer sound card, and the like. It is input to the SPDIF Input Jack of.

In addition, the analog audio signal is output through the L / R jack of the audio signal output unit 100 is input to the L / R jack of the digital TV (200).

Therefore, the user must select one of the analog audio signal and the digital audio signal.

To this end, the conventional A / V amplifier has a menu for allowing the user to select any one of the analog audio signal and the digital audio signal. That is, the user has selected whether to listen to an analog audio signal or a digital audio signal on a menu.

However, in general, most users select and listen to digital audio signals because it is better to receive and receive digital audio signals through SPDIF input terminals than to receive external analog audio signals on digital TVs.

Therefore, conventional digital TV automatically selects a digital audio signal when the RCA plug is plugged into the SPDIF input jack using a jack having a mechanical switch as the SPDIF input jack, and an analog audio signal when the RCA plug is not plugged in. Was selected automatically.

In other words, when the RCA plug is plugged into the SPDIF input jack, it sends a high or low voltage to the CPU (not shown), and the CPU automatically selects the digital audio signal accordingly. . On the contrary, when the RCA plug is not plugged into the SPDIF input jack, a low or high voltage is sent to the CPU, and the CPU automatically selects an analog audio signal.

However, since the above method mechanically determines whether or not the plug is plugged into the SPDIF input jack, the digital TV selects the digital audio signal even when only the plug is plugged in and no signal is input. Therefore, in this case, the user may not hear any sound.

Also, in order to hear analog audio, it was inconvenient to use because the plug plugged into the SPDIF input jack of the back panel of the digital TV was removed.

As a conventional technique for solving this problem, there is a method of amplifying an SPDIF input signal using an amplifier having Schmitt Triggering characteristics and then converting the SPDIF input signal into a DC voltage by integration to determine whether the actual SPDIF input signal is present.

However, such a method requires an amplifier IC having a separate Schmitt triggering characteristic, and there is a problem that automatic switching to a digital input occurs for an errored SPDIF input.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide an audio input signal selection device and method for automatically switching between a digital audio signal and an analog audio signal using an oversampling clock signal input to an SPDIF receiver. In providing.

1 is a general conceptual diagram showing analog and digital audio signals input from an external device to a digital TV

2 is a block diagram of an audio input signal selection device of a digital TV according to the present invention;

3 is an operation waveform diagram of each part of FIG.

Explanation of symbols for main parts of the drawings

201: SPDIF receiver 202: buffer

203: integral part

A feature of the audio input signal selection device of the digital TV according to the present invention for achieving the above object is, the actual audio signal and a plurality of signals from the signal of the SPDIF input jack to receive a digital audio signal and a plurality of clocks synthesized signal After the clock is separated, an SPDIF receiver for outputting any one of the clocks to determine whether an input signal exists, an integrator for temporarily storing and integrating a clock outputted from the SPDIF receiver, and the output of the integrator is equal to or greater than a predetermined value. Only when the digital audio signal is selected, otherwise it is characterized in that it comprises a control unit (for example, CPU) for selecting the analog audio signal.

The clock output from the SPDIF receiver to determine whether an input signal exists is an oversampling clock for decoding an audio signal.

The method for selecting an audio input signal of a digital TV according to the present invention comprises the steps of: separating, amplifying and outputting an oversampling clock from a signal of an SPDIF input jack receiving a digital audio signal, and integrating the oversampling clock output in the step; And selecting the digital audio signal only when the integrated value is equal to or greater than a predetermined value, and otherwise selecting the analog audio signal.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

Hereinafter, with reference to the accompanying drawings illustrating the configuration and operation of the embodiment of the present invention, the configuration and operation of the present invention shown in the drawings and described by it will be described as at least one embodiment, By the technical spirit of the present invention described above and its core configuration and operation is not limited.

2 is a diagram illustrating an embodiment of an apparatus for selecting an audio input signal of a digital TV according to the present invention, wherein an SPDIF receiver 201 and an SPDIF receiver are configured to receive various clock signals together with an actual audio signal through an SPDIF input jack. A buffer 202 for temporarily storing the clock signal received at 201 and an integrator 203 for integrating and outputting the clock signal output through the buffer 202 to the CPU.

The integrator 203 is composed of a diode D turned on / off by a clock signal output from the buffer 202 and an RC element having a parallel configuration for charging and discharging the output voltage of the diode D.

In the audio signal output unit 100 such as a DVD player, an STB, a computer sound card, etc. of the present invention configured as described above, an over sampling clock (MCLK) and a L / R classification clock together with a digital audio signal (data) are included. (LRCLK), clock for data transmission (SCLK), etc., combined into one line through the SPDIF output jack, and the SPDIF receiver 201 of the digital TV receives the signal transmitted through the one line through the SPDIF input jack. Separates the serial audio signal and each clock signal. The separated audio signal is output to an audio decoder (not shown) for decoding, and any one of the clock signals is output to the buffer 202 to determine whether an actual SPDIF audio signal is input.

According to the present invention, one of the three clock signals is used to determine whether an actual SPDIF audio signal is input. The most effective clock is an oversampling clock having the highest frequency. Therefore, according to the present invention, the oversampling clock is used to determine whether or not the actual SPDIF audio signal is input. That is, the SPDIF receiver 201 amplifies an input signal of 0.5Vpp, separates an oversampling clock having a TTL (Transistor-Transistor Logic) level, and outputs it to the buffer 202.

In this case, the present invention does not use a Schmitt triggering amplifier to amplify the 0.5 Vpp SPDIF input signal to a TTL level.

The oversampling clock temporarily stored in the buffer 202 is output to the integrating unit 203 for conversion to a DC voltage.

Here, the oversampling clock is a clock for decoding the audio decoder, and when an error-free audio signal is input through the SPDIF input jack, the oversampling clock has a frequency of 256 * sampling frequency or 384 * sampling frequency. If there is no audio signal input to the SPDIF input jack or an error occurs in the audio signal input to the SPDIF input jack, the oversampling clock is not input.

Therefore, the integrating unit 203 integrates the oversampling clock to a DC voltage and sends it to the CPU, and the CPU automatically selects either an analog audio signal or a digital audio signal using this information.

That is, assuming that the threshold voltage of the diode D of the integrating unit 203 is Vt and the TTL level is 5V, when the oversampling clock is high as shown in FIG. 3A, the diode D is turned on. The value of 5V-Vt is passed to the RC device. Then, charging occurs in the capacitor C as shown in FIG.

If the oversampling clock is low, the diode D is turned off. In this case, the voltage charged in the capacitor C is discharged to the ground GND through the resistor R.

At this time, if the values of R and C are set so that charging is quick and discharge is slow, the capacitor C is charged with a predetermined voltage or more when an oversampling clock is present. In addition, since discharge is slow, a DC voltage (required voltage level) that can be used for identification can be obtained as shown in FIG. The C value should be set to an appropriate value (eg, 1000 pF) and the R value should be set to a large value (eg, 100 kΩ or more).

That is, when the oversampling clock is input as shown in FIG. 3A, the waveform of the voltage delivered to the CPU is as shown in FIG. 3B.

Then, the CPU periodically checks the voltage across the capacitor C and selects the digital audio signal when the voltage is higher than the required voltage level, that is, when it is high, and when it is low, it selects the analog audio signal.

As described above, since the present invention uses the oversampling clock inputted to the SPDIF receiving unit 201, switching to the digital audio signal is performed only when a normal audio signal without an error is input to the SPDIF input jack. If no audio signal is input or there is an error in the signal input to the SPDIF input jack, switching to the analog audio signal is made.

The present invention can be applied to a digital audio input and an analog audio input switching method of a device that simultaneously receives a digital audio input and an analog audio input.

As described above, according to the apparatus and method for selecting an audio input signal of a digital TV according to the present invention, the SPDIF input signal is obtained by using an oversampling clock separated by the SPDIF receiver to determine whether an audio signal input to the SPDIF input jack exists. You do not need to use a Schmitt-triggering amplifier to amplify. In addition, the digital audio signal is automatically selected only when an error-free normal audio signal is input to the SPDIF input jack, there is no audio signal input to the SPDIF input jack, or there is an error in the signal input to the SPDIF input jack. In this case, the analog audio signal is automatically selected and transmitted to the outside, thereby preventing a false positive and providing convenience for the user.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

Claims (4)

In the audio input signal selection device of a digital TV that receives analog and / or digital audio signals from at least one external device, An SPDIF receiver for separating an actual audio signal and a plurality of clocks from a signal of an SPDIF input jack for receiving a signal obtained by combining the digital audio signal and the plurality of clocks, and outputting any one of the clocks to determine whether an input signal exists; An integration unit for temporarily storing and integrating a clock output from the SPDIF receiving unit; And And a controller for selecting the digital audio signal only when the output of the integrator is equal to or greater than a predetermined value, and otherwise selecting the analog audio signal. The method of claim 1, And a clock outputted by the SPDIF receiver to determine whether an input signal is present is an oversampling clock for decoding an audio signal. The method of claim 1, wherein the integral part A diode turned on when the output of the SPDIF receiver is high; When the diode is turned on, the audio input signal comprises a RC element having a parallel configuration that charges a capacitor delivered through the diode to the capacitor, and discharges the charged voltage to ground through a resistor when the diode is turned off. Optional device. In the audio input signal selection method of a digital TV that receives analog and / or digital audio signals from at least one external device, Separating, amplifying and outputting an oversampling clock from a signal of an SPDIF input jack receiving the digital audio signal; Integrating the output oversampling clock; And Selecting the digital audio signal only when the integrated value is equal to or greater than a predetermined value, and otherwise selecting the analog audio signal.