KR920007171B1 - Circuit which controls contrast in a lcd panel by the keyboard - Google Patents

Abstract

The contrast of LCD in laptop computer is adjusted by a combination of keys in keyboard without external variable resiter. The circuit comprises a keyboard (10) for inputting a combination of keys, a microcomputer (20) for detecting scan code of input keys and for generating rectangular wave according to the scan code, and a voltage level changer (30) for generating contrat adjusting voltage according to the rectangular wave.

Description

Luminance Control Circuit of LCD Panel by Keyboard

1 is a conventional circuit diagram.

2 is a circuit diagram of the present invention.

3 is a detailed circuit diagram of the voltage level converter 30 in FIG.

* Explanation of symbols for main parts of the drawings

10: keyboard 20: micom

30: voltage level converter 40: liquid crystal panel

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a laptop computer using a liquid crystal panel as a display. In particular, the brightness of the liquid crystal panel is controlled by a key hit combination of a keyboard. It is about a circuit.

In general, liquid crystal laptop computers realize the brightness control of the panel by controlling an external variable resistor using a regulator integrated circuit. That is, laptop computers using liquid crystal panels at home and abroad are separately attaching variable resistors for contrast and brightness to make the letters or pictures displayed on the panel easier to see depending on the surrounding environment. In the above, the regulator integrated circuit converts the luminance control driving voltage of the liquid crystal panel by adjusting the external variable resistor. As shown in FIG. 1, as shown in FIG. 1, the input voltage Vi is formed by the resistor R1 and the variable resistor VR2 through the regulator integrated circuit 1, as shown in the following formula (1). Since Vo) is changed and used to adjust the brightness of the liquid crystal panel 2, the brightness of the liquid crystal panel 2 is adjusted.

Therefore, there was a problem in that an expensive regulator integrated circuit 1 and a variable resistor VR2 should be used to control the brightness of the liquid crystal panel 2, and in a small product such as a laptop computer, the variable resistor VR2 was attached to the outside. In case of making it difficult to secure the space.

Accordingly, an object of the present invention is to provide a circuit in which a regulator integrated circuit can adjust the brightness of a liquid crystal panel by a key hit combination of a keyboard without a variable resistor.

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

2 is a circuit diagram of the present invention, in which a keyboard 10 capable of inputting a key hit combination and a rectangular pulse waveform corresponding to the scan code are generated by recognizing the scan code according to the key hit combination pressure of the keyboard 10. A voltage level converting unit 30 which is level-converted according to a micom 20 to be output from the microcomputer 20, and outputs a luminance control driving voltage VD corresponding to a key hit combination, and the voltage level. The liquid crystal panel 40 adjusts the luminance according to the output voltage of the converter 30.

FIG. 3 is a detailed circuit diagram of the voltage level converter 30 in FIG. 2, and the transistor Q1 and the resistor R1, the capacitor C1, and the zener diode to change the voltage according to the output signal change of the microcomputer 20. An operational amplifier (OP) and a resistor (R3-R6) to generate a luminance control driving voltage (VD) by amplifying the level converting means (D1), the output signal of the level converting means, and the level adjusted signal; It consists of a brightness control means consisting of a capacitor C2 and a transistor Q2.

The present invention will be described in detail with reference to FIGS. 2 and 3 based on the above-described configuration. First, as shown in FIG. 2, when a user inputs a key hit combination on the keyboard 10 to convert the luminance of the liquid crystal panel 40, the microcomputer 20 recognizes a scan code. At this time, the microcomputer 20 sends a pulse wave square wave having a duty ratio corresponding to the key hit combination to the output port, and receives a negative voltage corresponding to the key hit combination through the voltage level converter 30. Output The negative voltage is supplied to the luminance power supply of the liquid crystal panel 40 by the luminance control driving voltage VD to adjust the luminance of the liquid crystal panel 40.

If a plurality of key hit combinations of the keyboard 10 are taken as described above, square waves having different duty ratios are generated at the output port of the microcomputer 20. The spherical fruit output from the microcomputer 20 is set to be at least 0V and at most 5V according to the duty ratio. Accordingly, the voltage level converter 30 may generate a negative voltage level corresponding to different key hit combinations so that the user can adjust the desired luminance. When the voltage level converter 30 is described in detail, as shown in FIG. 3, when the duty ratio of a square pulse wave, which is an input driving waveform output from the microcomputer 20, changes from 0 to 100%. The transistor (Q1), which is an emitter follower, in which the square pulse is integrated through a resistor (R1) and a capacitor (C1) and connects a first power supply terminal (Vcc1) to the collector terminal of the transistor (01). The base voltage Vo is set to vary between approximately 0-5V. Since the emitter voltage V1 of the transistor Q1 is determined by the base voltage Vo, the voltage V2 through the zener diode D1 having a Zener voltage of 1.3V is an emitter voltage which is an output voltage of the transistor Q1. (V1) is obtained by subtracting the Zener voltage (Vz).

로 저항값을 설정한다. 상기 연산증폭기(OP)의 게인이 2배로 되게끔 저항(R2,R5)값을 설정하는 것은 액정판넬(40)의 휘도조절을 위한 전압범위가 -10V--20V정도되기 때문이다. 상기 트랜지스터(Q2) 에미터단과 제2전원(Vcc2)사이에 저항(R6)을 연결하여, 상기 연산증폭기(OP)의 출력신호에 의해 상기 트랜지스터(Q2)를 구동하는 휘도조절 구동전압(VD)을 발생한다. 그러므로 단순히 키보드(10)의 키 히트 조합에 의해서 액정판넬(40)의 휘도를 조절할 수 있다.Therefore, as the transistor Q1 base voltage Vo is converted from a minimum of 0V to a maximum of 5V, the absolute value change of the voltage V2 also changes from 0-3V. The voltage V2 is applied to the inverting input terminal of the operational amplifier OP through the resistor R2, and the resistors R3 and R4 are connected in series between the second power supply terminal Vcc2 of -21V and the ground terminal. The reference level is set by the values of the resistors R3 and R4 and applied to the non-inverting input terminal (+) of the operational amplifier OP. At this time, by setting the values of the resistors R3 and R4, the reference level may be varied to obtain a luminance control voltage range of the liquid crystal panel 40 desired by the user. A transistor Q2 base terminal is connected to an output terminal of the operational amplifier OP, and a resistor R5 and a capacitor C2 are connected in parallel to the emitter terminal of the transistor Q2 and the inverting input terminal of the operational amplifier OP. To double the gain of the operational amplifier (OP).

Set the resistance value with. Setting the resistors R2 and R5 so that the gain of the operational amplifier OP is doubled is because the voltage range for luminance adjustment of the liquid crystal panel 40 is about -10V--20V. A luminance control driving voltage VD for connecting the resistor R6 between the emitter terminal of the transistor Q2 and the second power supply Vcc2 to drive the transistor Q2 by an output signal of the operational amplifier OP. Occurs. Therefore, the brightness of the liquid crystal panel 40 can be adjusted simply by the key hit combination of the keyboard 10.

As described above, the brightness can be adjusted by the key hit combination of the keyboard, not the brightness of the liquid crystal panel by the control of the external variable resistor, thereby reducing the cost of the product and improving the function of the product.

Claims (5)

In a laptop computer system using the liquid crystal panel 40 as a display, a keyboard 10 capable of inputting a key hit combination and a scan code in response to a key hit combination input of the keyboard 10 recognize the scan value. The liquid crystal panel generates a luminance control driving voltage (VD) corresponding to a key hit combination by level conversion according to the microcomputer 20 generating a rectangular pulse waveform corresponding to the microwave 20 and a rectangular pulse waveform output from the microcomputer 20. A luminance level control circuit of a liquid crystal panel by a keyboard, characterized in that it comprises a voltage level converting section 30 applied to the 40. According to claim 1, wherein the voltage level converting unit 30 level converting means for converting the level of the voltage according to the change of the square pulse waveform generated in the microcomputer 20, and the output signal of the level converting means is a reference level A luminance control circuit of a liquid crystal panel by a keyboard, characterized in that it comprises a luminance control control means for generating an operation voltage amplification by a signal. The transistor Q1 base according to claim 2, wherein the level converting means connects one end of the resistor R1 to the output terminal of the microcomputer 20, connects the capacitor C1 to the other end of the resistor R1, and grounds the transistor Q1. And a zener diode (D1) connected to the emitter terminal of the transistor (Q1) and the first power terminal (Vcc1) to the collector terminal of the transistor (Q1). Control circuit. 4. The control device according to claim 3, wherein the brightness control means connects a resistor R2 to the output terminal of the level converting means and connects it to the operational amplifier OP inverting input terminal, and between the ground terminal and the second power supply terminal Vcc2. (R3, R4) is connected in series to connect the operational amplifier (OP) inverting input terminal to the contact connected to the resistors (R3, R4), the transistor (Q2) base terminal is connected to the operational amplifier (OP) output terminal, The transistor (Q2) collector terminal is grounded, a resistor (R6) is connected between the emitter terminal of the transistor (Q2) and the second power supply terminal (Vcc2), and the inversion of the transistor (Q2) emitter terminal and the operational amplifier (OP) is performed. A luminance control circuit in a liquid crystal panel by a keyboard, characterized in that a resistor (R5) and a capacitor (C2) are connected in parallel between input terminals. 5. The luminance control circuit of claim 4, wherein the resistors (R3, R4) set a luminance adjustment voltage range of a liquid crystal panel (40) desired by a user according to a change in resistance value.

Images