KR0116375Y1 - Photo driver of dot matrix - Google Patents

Abstract

The present invention relates to a dot matrix light emitting device driving circuit capable of serial communication and brightness control with a driving circuit, and provides a dot matrix light emitting device driving circuit that can adjust the brightness of the light emitting device as well as fast image reproduction speed. In order to compensate for parallax by receiving a color image display signal, a buffer unit for temporarily storing image data and a buffer unit connected to the buffer unit decode the image data and divide the image data into a plurality of color row shift signals and a vertical column driving signal. And a plurality of color shift units for generating horizontal sequential driving signals to the light emitting device matrix while directly communicating with the decoder unit, and controlling the current applied to the color shift unit to adjust the brightness of the light emitting diodes. A digital switch and a curl generated from the decoder It consists of a driver for amplifying the image driving signal, so that the brightness of the light emitting diode of the light emitting device matrix can be adjusted so that display can be performed without disturbing disturbance light. It is designed to have an effect that can be expressed without any concern.

Description

Dot matrix light emitting device driving circuit

1 is a block diagram showing a conventional dot matrix driving circuit.

2 is a block diagram showing a dot matrix driving circuit according to the present invention.

Explanation of symbols on the main parts of the drawings

30 buffer part 32 decoder part 34 light emitting element matrix

36: color shift portion 38: light emitting element 40: digital switch

42 drive unit 43 current control unit 44 brightness control unit

45 latch portion 46 pulse generator

The present invention relates to a dot matrix light emitting device driving circuit, and more particularly, to a dot matrix light emitting device driving circuit which enables serial communication and brightness control with the driving circuit.

Conventionally, as shown in FIG. 1, a control program for controlling a light emitting element matrix 10 composed of predetermined horizontal and vertical columns and an image display signal transmitted from a microcomputer in which image data are stored are transmitted through a communication line. Red buffer section 12 and green buffer section 13 and the red buffer section 12 and green buffer section 13 for temporarily storing and driving image signals in a vertical column in color. And a red side shift register 14 and a green axis shift register 15 for sequentially shifting red and green display signals, respectively, and the red and green side shift registers 14 and 15, respectively. The red side and green temporarily store the binary image signal as 0 or 1 number while protecting the binary image signal from noise while the shifted image signal is returned through a cycle. Decode section for driving the vertical column light emitting element matrix 10 which is connected to the D flip-flop 16, 17 and the singer red buffer section 12 or the green buffer section 13 to read and shift the image display signal. Bar 18 and the drive unit 19,

The dot matrix light emitting device driving circuit configured as described above has a problem in that the brightness of the light emitting diodes constituting the light emitting device matrix 10 cannot be adjusted so that it does not flexibly cope with disturbance of the disturbance light, and the light emitting device matrix 10 is driven. Due to the slow speed of the circuit, the screen having to switch images at high speed had a problem that was difficult to use.

An object of the present invention is to provide a dot matrix light emitting device driving circuit capable of adjusting brightness of a light emitting device as well as a fast image reproducing speed.

In order to achieve the object of the present invention to receive a color image display signal to compensate for parallax, while removing the noise of the image data and the original signal level of the distorted signal, and the buffer unit connected to the buffer unit to decode the image data A plurality of color shift registers for serially communicating with a decoder unit for dividing a plurality of color column shift signals and a column drive signal, and temporarily storing data of a column sequential drive signal in a light emitting element matrix And a latch unit for controlling signal data applied from the color shift register unit, a digital switch for transmitting a control signal to a latch unit for adjusting the brightness of the light emitting diode, and receiving a control signal from the digital switch. Luminance control unit to adjust the brightness adjustment signal The dot matrix light emitting device driving circuit includes a pulse generating unit for supplying a pulse necessary to drive the unit, a current control unit for controlling a current flowing through the light emitting diode, and a driving unit for amplifying the color image driving circuit generated from the decoder. Is provided.

Hereinafter, an embodiment of a driving circuit for a dot matrix light emitting device according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, reference numeral 30 is a buffer portion, 32 is a decoder portion for decoding image data, 34 is a light emitting element matrix in which the light emitting elements are arranged horizontally and vertically, and 36 is a horizontal column sequential driving circuit. 38 is a light emitting element, 40 is a digital switch, 43 is a current controller, 44 is a brightness controller, 45 is a latch unit, and 46 is a pulse generator for driving the brightness controller. 42 is a driving unit for finally driving the light emitting diode, and 30, 32, 36, 44, and 45 are made of an application specific semiconductor chip (ASIC).

As described above, the present invention receives a color image display signal to compensate for parallax and temporarily stores image data, and is connected to the buffer unit 30 to decode image data to decode a plurality of color columns. A plurality of color shifts for serially communicating with the decoder unit 32 for dividing the shift signal and the column drive signal, and for generating the column sequential driving circuit in the light emitting element matrix 34. The color image driving circuit generated from the digital switch 40 and the decoder 32 for controlling the brightness of the light emitting diodes 38 by controlling the unit 36 and the current applied to the color shift unit 36. It consists of a drive part 42 for amplifying the furnace.

The operation of the present invention as described above will be described.

When the color image display signal is transmitted to the buffer unit 30, the buffer unit 30 temporarily stores the image data while compensating for the parallax between the microcomputer (not shown) and the driving circuit of the present invention. The plurality of color horizontal shift signals are decoded by the unit 32 and divided into a plurality of color horizontal shift signals and a vertical column driving signal. The plurality of color horizontal shift signals pass through the color shift unit 36 one by one in the horizontal direction. The sequential driving and the vertical column driving signal drive the light emitting element matrix 34 sequentially driven by the decoder unit 32 through the driving unit 42.

On the other hand, when the brightness of the light emitting device matrix 34 is to be adjusted, if the digital switch 40 is adjusted in stages, the driving signal and the digital switch 40 of the pulse generator 46 supplied to the brightness controller 44 are adjusted. By adjusting the signal level is simulated in the brightness adjusting section 44 is made a composite signal that can adjust the brightness.

At this time, when the synthesized signal is at the low level, a desired brightness adjustment pulse is transmitted to the latch unit 45 through the gate. Accordingly, the latch unit 45 includes red and green color data transmitted from the color shift register unit 36. When the latch signal is high, the brightness-adjusted data is output when the latch signal is high due to the pulse width by the step-wise variable adjustment of the digital switch 40. Thus, the amount of current supplied to the light emitting element matrix 34 is automatically adjusted to adjust the brightness. do.

At the same time, the current control unit 43 serves to bypass the brightness adjustment signal output from the latch unit 45 so that a load is not applied to the circuit.

Applying the present invention as described above, it is possible to adjust the brightness of the light emitting diode of the light emitting device matrix can be displayed without disturbing the orange tube, the drive circuit is simpler than conventional circuits (ASIC) Even if the screen is converted to high speed, it can be expressed without any difficulty.

Claims (1)

The present invention relates to a dot matrix light emitting device driving circuit capable of serial communication and brightness control with a driving circuit, and provides a dot matrix light emitting device driving circuit that can adjust the brightness of the light emitting device as well as fast image reproduction speed. In order to compensate for parallax by receiving a color image display signal, a buffer unit for temporarily storing image data and a buffer unit connected to the buffer unit decode the image data and divide the image data into a plurality of color row shift signals and a vertical column driving signal. And a plurality of color shift units for generating horizontal sequential driving signals to the light emitting device matrix while directly communicating with the decoder unit, and controlling the current applied to the color shift unit to adjust the brightness of the light emitting diodes. A digital switch and a curl generated from the decoder It consists of a driver for amplifying the image driving signal, so that the brightness of the light emitting diode of the light emitting device matrix can be adjusted so that display can be performed without disturbing disturbance light, and the driving circuit is simpler than a conventional circuit (ASIC). Dot-matrix light-emitting device driving circuit that has the effect of being able to express even the screen which is converted to high speed without any change.