KR200152503Y1 - Automatic control circuit of luminescence intensity of light button - Google Patents

Abstract

The present invention relates to an optical button fabricated in combination with a display element to facilitate nighttime identification of a function selection key mounted on the front part of a VSI, in particular, the illuminance of the optical button is relatively low at night. An optical button dimming automatic control circuit that minimizes the discomfort of indoor residents as they feel high.

A feature of the present invention is to install an illuminance sensor for sensing the indoor illuminance on the front of VSI and if the indoor illuminance sensed by the illuminance sensor falls below the reference value, the current supplied to the light emitting element built into the optical button by the microcomputer To reduce the illuminance of the optical button.

When the present invention circuit is applied to the optical button device, it is possible to solve the problem of disturbing watching TV or sleeping by the high illumination of the optical button at night.

Description

Optical Button Illumination Automatic Control Circuit

The present invention relates to an optical button fabricated in combination with a display element to facilitate nighttime identification of a function selection key mounted on the front part of a VSI, in particular, the illuminance of the optical button is relatively low at night. An optical button dimming automatic control circuit that minimizes the discomfort of indoor residents as they feel high.

The basic functions of VSI are divided into the function of reproducing video and audio signals recorded on video tape and the function of recording broadcast signals input from the outside or tuned by the tuner on the video tape. In particular, in order to enable reservation recording, tuning of a broadcast program by a built-in tuner and a signal processing function thereof are provided.

By using the reservation recording function of VSI, it is possible to execute the accurate reservation recording of the desired television broadcast program even when not in the office.

Specifically, a VSI user normally presses a reserved recording setting key to output an on-screen menu on a television screen. Based on this, the user sets a recording schedule for a desired time zone and a desired broadcast channel program. I can do it.

For example, if there is a function selection key input for setting a recording reservation provided on a remote controller or the like, a time setting menu for setting a recording reservation time appears on the television screen.

Following this menu, if you set the current time correctly and press the reservation key, reservation menu screen appears.

If the current time is set in the VSI timer, the reservation setting menu screen is executed without executing the time setting menu.

The setting sequence of channel, start time, and end time appears on the reservation setup menu screen. Accordingly, the recording channel, recording start and end time settings are sequentially executed through key input of the remote control. The setting registration of the reservation recording function is performed. If such a program is registered and registered, the reservation recording is executed as intended by the user through monitoring the current time by a timer.

Most of user value in VSI is selected to be applied to VSI system control unit through remote transmission and reception by selecting key button provided on remote controller, and power on / off key, play on VSI front panel. Only a few important keys, such as keys and stop keys, will be installed.

The power on / off key provided on the front panel of the VSI is equipped with a light emitting element such as an LED in the inside thereof so that the V user can recognize the key position accurately even at night. I'm working.

The optical buttons were designed to improve key operability of the VSI front panel at night.

On the one hand, however, the bright light of these optical buttons can interfere with watching television and even interfere with bedtime.

The purpose of the present invention is to provide a nighttime identification of a power key or other function selection key mounted on the front part of a VSI or a television. It is to provide a light button auto-adjustment circuit that can minimize the discomfort to indoor residents as it feels relatively high.

A feature of the present invention is to install an illuminance sensor for sensing the indoor illuminance on the front of VSI and if the indoor illuminance sensed by the illuminance sensor falls below the reference value, the current supplied to the light emitting element built into the optical button by the microcomputer To reduce the illuminance of the optical button.

1 is a perspective view of a VSI mounted on the front of the optical button.

2 is a circuit diagram of the present invention.

* Description of the symbols for the main parts of the drawings *

10: Micom 11: Tuner

12 synchronous detector 13 illuminance sensor

14: key input section 15: power supply

16 timer 17 light emitting element driver

18: optical button 19: light emitting element

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

FIG. 1 is a view for explaining a mounting position of an optical button using VSI as an example, and shows that an optical button 18 for button positioning is disposed on a front panel.

2 is a circuit configuration diagram of a VSI system including an optical button driving device.

As referred to herein, the VSI system detects a tuner 11 for tuning a general TV broadcast signal received through an antenna and a synchronization signal included in an air broadcast reception signal tuned by the tuner 11. To provide the microcomputer with the synchronous detector 12 for transmitting to the microcomputer 10, the cassette sensor for determining the presence or absence of a tape in the deck, and the preset timing for executing the reserved recording program. A timer 16 for performing a count, a power supply 15 for supplying an operating voltage to the VSI, and an illuminance sensor 13 for sensing and transmitting the illuminance of the room where the key input unit 14 and VSI are installed to the microcomputer And a light emitting device driver 17 for supplying a driving current to the light emitting device 19 installed in the optical button 18 device according to the control value output of the microcomputer 10, and the illuminance of the illuminance sensor 13. In accordance with the change of the singgap it comprises a microcomputer (10) providing an output current limit signal to the light emitting device drive section (17).

As a specific application example of the illuminance sensor 13, a photo transistor or Cds may be used.

The circuit for converting the indoor illuminance into an electrical signal using these illuminance sensors may be composed of a circuit for amplifying differentially through a resistor reference voltage setting circuit and a resistor voltage divider circuit which are well known in the art.

On the other hand, the microcomputer 10 registers an arbitrary value, which is a reference for comparison with the input illuminance detection value, as a reference illuminance setting value in advance in the internal memory.

Referring to the operation relationship of the present invention VSI configured as described above in detail.

First, when the VSIAL power switch is turned on, the power switch on signal is applied to the microcomputer 10 through the key input unit 14. Accordingly, the microcomputer operates the power supply 15 to supply main power to the VSI.

In addition, VSI is basically designed to input the main power by the power supply 15 to all VSI circuits by the switch operation signal of the cassette sensor (not shown) when the tape is inserted into the deck. Even if you don't turn on, VSIAL power is turned on automatically just by inserting the tape into the cassette deck.

Then, when the play (playback) key input by the user is input to the microcomputer 10 through the key input unit 14, the microcomputer sends a playback control signal to the deck to execute a tape playback operation so that the video and audio signals obtained therefrom The output signal is output to a TV or monitor connected to a VSI via a reproduction signal processing circuit.

On the contrary, if there is a key input for selecting the tuner 11 from the key input unit 14, the microcomputer 10 tunes the tuner 11 electronically, and the broadcast signal selected here is output to the TV or monitor via the signal processing circuit.

Since the driving current from the light emitting device driver 17 is supplied to the light emitting device 19 in the optical button 18 in the VSI system operating as described above, the optical button is illuminated internally and displayed externally.

However, unlike daytime, when watching VSI or TV at night, you usually use VSI to watch videos or watch TV programs while the indoor lighting is low or off. If some members are sleeping together when watching together, the illumination of the light button may be directly affected, and the rest of the viewers will be affected by the illumination of the light from the light button. Light button illumination is automatically adjusted.

The optical button automatic illuminance adjustment is first performed by the system control microcomputer 10 of VSIal to receive the data value corresponding to the room illuminance from the illuminance sensor 13 and set it in advance to the reference illuminance value stored in the internal memory. Compare.

If the illuminance value of the current room does not reach the standard illuminance value in the above-described illuminance comparison step, the illuminance sensing data value is read again to execute continuously until the current illuminance value reaches the reference illuminance value.

When the current indoor illuminance value sensed in this way reaches the reference illuminance value, the microcomputer sends an output current limit control signal to the light emitting device driver 17.

As a result, the supply current applied to the light emitting device 19 mounted in the optical button is lowered. As a result, the light intensity of the light emitting device 19 is lowered, and thus the light intensity of the optical button 18 provided on the front panel of the VSI is reduced. As the indoor illuminance is lowered, it is lowered in conjunction.

In addition, when the indoor illuminance increases as time passes, the microcomputer 10 normally controls the light emitting device driver 17 based on the indoor illuminance sensing value input through the illuminance sensor 13, and thus, the light emitting device driver 17 ), The LED driving current output from the light source is increased to increase the light emission intensity of the light emitting device 19 in the optical button 18 to the normal brightness.

Therefore, when the circuit is applied to the optical button device provided on the front panel of VSI or the TV, the light intensity of the optical button is automatically controlled by the illumination sensor at night when the illuminance of the optical button is relatively high compared to the daytime. It is possible to achieve the artificial intelligent optical button illumination control that is lowered by.

As described above, the present invention automatically controls the relative high illuminance at night of the optical button device installed in the front panel of the device by lowering or turning off the indoor lighting while watching a video tape or watching a television program using VSI at night. Since it can be lowered through, a unique effect of solving the problem of disturbing the TV viewing or sleep disturbance caused by the optical button will appear.

Claims (1)

In the VSI provided with the optical button device, an illuminance sensor 13 for sensing indoor illuminance is installed on the front of the VSI and the indoor illuminance sensed by the illuminance sensor 13 is provided to the microcomputer 10. And the illumination control output signal of the microcomputer 10 that is switched on the basis of when the input illuminance value falls below the reference illuminance value is a light emission for supplying a driving current to the light emitting element 19 in the optical button 18. Optical button illuminance automatic adjustment circuit, characterized in that configured to be connected to the element driver 17 applied.