KR0152822B1 - Automatic volume control apparatus of a television - Google Patents

Abstract

The present invention relates to a device for automatically adjusting the volume of a television, and more particularly, to a device for automatically adjusting a volume of a television that can calculate a difference in arrival time of infrared rays and ultrasonic waves transmitted from a remote control and automatically adjust the level of the volume accordingly. In the case of the automatic volume control device, there is a problem that the accuracy of the volume adjustment is lowered by the interference of the signal reflected to other objects besides the viewers. By adjusting the volume by obtaining the distance only to the viewer located closest to the TV, not the distance to the viewer, the viewer far away from the television did not feel satisfactory sound, but in the present invention, By calculating the time difference between the far infrared and the ultrasonic waves and automatically adjusting the volume level accordingly, even if the viewer moves in front of the television after the distance sensing function is activated, the volume is not needed to be adjusted again. Even if it is, the distance is measured based on the specific viewer who has the remote control, and the distance can be freely set. This reduces the accuracy of volume adjustment caused by the interference of signals reflected from other objects other than the viewer. Will be.

Description

TV's volume control

1 is a block diagram showing an automatic volume control device of a television of the present invention.

2 is a flowchart showing a method for automatically adjusting the volume of a television of the present invention.

3 is a view showing a time difference of arrival between infrared and ultrasonic waves.

* Explanation of symbols for main parts of the drawings

100: remote control 200: infrared receiver

210: ultrasonic receiver 220: microcomputer

230: memory 240: amplifier

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for automatically adjusting the volume of a television, and more particularly, to an apparatus for automatically adjusting a volume of a television, which can calculate a difference in arrival time of infrared rays and ultrasonic waves transmitted from a remote controller and automatically adjust the level of the volume accordingly.

In general television, the volume control automatically adjusts the volume by generating an infrared or ultrasonic signal from the television itself and calculating the reflection time of the reflected signal when the signal is returned.

However, by using the reflected wave in such a case, there is a problem that the accuracy of volume adjustment is lowered due to the interference of the signal reflected on other objects besides the viewer, and the distance to a specific viewer when the distance difference is obtained when a large number of people are watching By adjusting the volume by obtaining the distance only to the viewer located closest to the television, the viewer far from the television does not feel satisfactory sound.

Accordingly, the present invention has been made in view of the above-described problems in the related art, and has an object of receiving an infrared signal and an ultrasonic signal transmitted from a remote controller, calculating a difference in arrival time between the two signals, and adjusting the volume accordingly. The invention is explained in detail.

FIG. 1 is a block diagram showing a device for automatically adjusting the volume of a television according to the present invention. As shown in FIG. 1, when a distance sensing command is input from a user through a specific key, the user decodes the infrared signal and an ultrasonic signal corresponding to the same. A remote control unit 100, an infrared ray receiving unit 200 for receiving an infrared signal transmitted by the remote control unit 100, an ultrasonic wave receiving unit 210 for receiving an ultrasonic signal transmitted by the remote control unit 100, and When the infrared signal is received by the infrared receiver 200, it is determined whether the signal is a signal for the distance detection command. If the distance detection command is received, time is counted. When the ultrasonic signal is received by the ultrasonic receiver 210, the time count is terminated. By calculating the time difference of arrival between the signals, the distance data is converted into volume data, and the volume adjustment data for the distance data is stored in the memory 230. The microcomputer 220 outputs the previous data, the memory 230 storing volume adjustment data according to the time difference of arrival between the two signals calculated by the microcomputer 220, and the input audio signal. The amplification unit 240 controls the amplification degree by the volume adjustment data output from the 220 to output to the speaker (SP).

The operation and effects of the present invention configured as described above will be described in detail.

When a distance sensing command is input through a specific key of the key input unit 110 of the remote controller 100, the decoding unit 120 decodes it, and the infrared signal generator 130 and the ultrasonic signal generator 140 in response thereto. At the same time, the infrared and ultrasonic signals are generated and transmitted through the transmitter 150, and the infrared receiver 200 of the television receives the infrared signal transmitted from the remote controller 100 and outputs the signal to the microcomputer 220. In this case, when the signal is input from the infrared receiver 200, the microcomputer 220 determines whether the signal corresponds to the distance sensing command and starts counting time if the distance sensing command is received.

Then, when the ultrasonic signal transmitted from the remote controller 100 is received by the ultrasonic receiver 210 after the adjustment time has passed, the microcomputer 220 detects this and terminates the time coefficient, thereby calculating the time difference of arrival between the two signals. .

Subsequently, the microcomputer 220 converts the arrival time difference into distance data, and reads the volume adjustment data corresponding thereto from the memory 230 and outputs the same to the amplifier 240.

In this case, the memory 230 stores the volume adjustment data for the distance data in advance.

In addition, the amplifier 240 controls the amplification degree by the volume adjustment data output from the microcomputer 220 to the audio signal input through the tuner 250, the intermediate frequency processor 260 and the chroma unit 270 As a result, the volume is automatically adjusted and output through the speaker SP.

Here, the process of obtaining the time difference between the two signals of the infrared signal and the ultrasonic signal will be described in detail with reference to FIG.

The speed of the infrared signal and the ultrasonic signal are fundamentally different from each other. In the case of infrared rays, 3 × 10 ⁸ [m / sec] and ultrasonic waves are 340 [m / sec], so as shown in FIG. Infrared and ultrasonic signals from the remote control 100 at the same time in the (a) after a predetermined time elapses of the infrared signal is received by the infrared receiver 200 at the time of B, the ultrasonic signal is more than the infrared signal (I Delayed by the time of) and is received by the ultrasonic receiver 210 at the time of C.

Therefore, the microcomputer 220 can start counting the time at the time of B and terminate the time count at the time of C, thereby obtaining the time difference of arrival between the infrared signal and the ultrasonic signal.

However, in such a case, since the microcomputer 220 starts counting the time at the time of B, the time (a), which is the time until the infrared signal is received, is the time of the (c), that is, the actual calculation of the ultrasonic wave. I'm out of time to be.

However, since the time required for infrared rays is S / 3 × 10 ⁸ [m / sec] and the time required for ultrasonic waves is S / 340 [m / sec], the difference in speed between these two signals is about one million times higher. The time difference between (b), which is the time counted by (220), and the time required for ultrasonic wave (c), are negligibly negligible, so the time of (b) is equal to the time of (c). none.

As a result, the microcomputer 220 calculates the distance by the time (B) counted above.

As described in detail above, by calculating the time difference of arrival of infrared rays and ultrasonic waves transmitted from the remote controller and automatically adjusting the volume level accordingly, it is necessary to adjust the volume again even if the viewer moves in front of the television after the distance sensing function is activated. On the other hand, even when several people are watching TV, the distance is measured based on the specific viewer who has the remote control, and thus the distance can be freely adjusted, thereby adjusting the volume by disturbing the signal reflected from other objects besides the viewer. There is an effect to solve the problem of falling accuracy.

Claims (1)

When a distance sensing command is input from a user through a specific key, the remote controller may simultaneously decode and generate an infrared signal and an ultrasonic signal corresponding thereto, an infrared receiver for receiving the infrared signal transmitted by the remote controller, and the remote controller. And an ultrasonic receiver for receiving the ultrasonic signal, and when the infrared signal is received by the infrared receiver, determines whether it is a signal for a distance sensing command and starts counting the time when the distance is detected. A microcomputer converting distance data by calculating time difference between two signals by terminating time coefficient and reading volume adjustment data for the distance data from memory and reaching between two signals calculated by the microcomputer Volume adjustment data according to time difference Section and the memory, automatically adjusting the volume of the television device, characterized in that by controlling the degree of amplification by adjusting the volume of data to be output the audio signal inputted from the microcomputer to an amplifier constituted by outputting to the speaker.