KR0139556Y1 - Stabilization circuit of backlight drive for camcorder - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

Backlight start stabilization circuit of the camcorder.

2. The technical problem the invention is trying to solve

Ensures initial starting stability of the backlight.

3. Summary of solution of design

The backlight start stabilization circuit of a camcorder having a backlight in the color view finder has expansion means for extending the width of the horizontal synchronization pulse provided from the timing generator at initial power-on and providing it to one end of the conversion coil for driving the backlight. .

4. Important uses of the devise

Camcorder with back rider in color view finder.

Description

Camcorder Backlight Stabilization Circuit

1 is a conventional backlight circuit diagram.

2 is a backlight start stabilization circuit diagram of the present invention.

3 is a timing diagram of an operation according to FIG.

The present invention relates to a camcorder, and more particularly to a backlight start stabilization circuit of a camcorder having a color view finder.

In general, color camcorders have a backlight in a color view pinter made of a liquid crystal display. Such a backlight is responsible for providing a light source for the liquid crystal display to perform a display operation.

As shown in FIG. 1, the conventional backlight driving circuit is composed of a conversion coil 25 for driving the backlight 20 by receiving and amplifying a horizontal synchronization pulse provided from the timing generator 10. As shown in FIG. The horizontal synchronizing pulse is amplified by the conversion coil 25 and used as a signal for driving the backlight 20.

However, when the user of the camcorder places the camcorder in a place where there is no light for a long time, the backlight 20 often does not light up. This is because the initial drive signal of the backlight 20 is still weak initially even if it is amplified by the conversion coil 25. Therefore, in this case, the user cannot see the subject through the color view finder, so there is a problem in that the desired image cannot be recorded quickly.

Accordingly, an object of the present invention is to provide a camcorder that can solve the above-mentioned conventional problems.

Another object of the present invention is to provide a backlight start stabilization circuit of a camcorder having a color view finder.

According to the present invention for achieving the above object, a backlight start stabilization circuit of a camcorder having a backlight in a color view finder extends the width of a horizontal sync pulse provided from a timing generator at initial power-on to provide the backlight. And an expansion means provided at one end of the driving coil. The expansion means may include a first inverter for inverting the horizontal synchronous pulse, an integrator for integrating the output of the first inverter during an initial power on period, and allowing the integrator to operate only during the initial power on period. And an interval setting unit and a second inverter for inverting the output of the integrator and providing an extended output pulse to one end of the conversion coil.

Hereinafter, a circuit according to a preferred embodiment of the present invention will be described with the accompanying drawings. Like reference numerals in the accompanying drawings indicate that the same configuration and function as possible. In the following description, the detailed items for such a configuration are described in detail to provide a more thorough understanding of the present invention. However, it will be apparent to those skilled in the art that the present invention may be practiced without these specific details. In addition, well-known basic device features and known circuit configurations are not described in detail in order not to obscure the present invention.

First, FIG. 2 shows a backlight start stabilization circuit of a camcorder having a color view finder according to the present invention. Referring to FIG. 2, the timing generator 10, the backlight 20, and the conversion coil 25 have the same configuration as in FIG. The expansion unit 30 is provided between the output line A of the timing generator 10 and one end line C of the conversion coil 25 to extend the width of the horizontal synchronization pulse provided from the timing generator 10 at initial power-on, so that the backlight 20 It serves to provide at one end of the conversion coil 25 to drive the.

The expansion unit 30 includes a first inverter 31 for inverting the horizontal sync pulse, an integrator 33 and 34 for integrating the output of the first inverter 31 during an initial power on period, and the integrator operates only during the initial power on period. And a second inverter 38 for inverting the output of the integrator and providing an extended output pulse to one end of the conversion coil 25.

An example of a preferred operation according to the configuration of FIG. 2 will be described in detail with reference to FIG. 3.

In order to more reliably ensure the initial driving of backlight 20, the extension 30 receives waveform A of FIG. 3 from the line A at the initial power-on and makes waveform C of FIG. 3 on the line C. FIG. Here, the signal provided on the line C can be seen that the width of the pulse is extended by the section T is output.

In FIG. 2, when the camcorder is powered on, the timing generator 10 outputs the waveform A to the line A. FIG. The inverter 31 which receives it then inverts the waveform A. On the other hand, the electrolytic capacitor 36 receiving the power supply voltage Vcc provides a high signal to the base of the transistor 35 at the initial power-on. Accordingly, an integrator consisting of a resistor 33 and a capacitor 34 operates to begin to integrate the output of the inverter 31. Accordingly, waveform B of FIG. 3 is generated at the output terminal B of the integrator. The inverter 38 inverts the waveform B again and outputs the waveform C of FIG. 3. Here, it can be seen that the waveform C has a wider width of the pulse than the waveform of the waveform A. Accordingly, the conversion coil 25 converts the waveform C to drive the backlight 20, so that the initial driving is more sure and stabilized. Subsequently, immediately after the backlight 20 is turned on immediately, the electrolytic capacitor 36 performs a charge operation so that its negative terminal is changed to a low signal. Thus, the transistor 35 is turned off and the integrator stops the integration operation. Accordingly, it can be seen that after the initial driving, the waveform A is provided to the line C immediately after the delay of the inverters 31 and 38 to return to the normal state. In Fig. 2, reference numerals 32 and 37, which are not described, are elements that allow the flow of current only in a single direction as diodes respectively.

According to the present invention as described above, there is an effect capable of initially stabilizing the startup of the backlight of the camcorder having a color view finder.

Claims (3)

A backlight start stabilization circuit of a camcorder having a backlight in a color view finder; And expansion means for extending the width of the horizontal synchronizing pulse provided from the timing generator upon initial power-on and providing it to one end of the conversion coil for driving the backlight. 2. The apparatus of claim 1, wherein the expansion means includes a first inverter for inverting the horizontal synchronizing pulse, an integrator for integrating the output of the first inverter during an initial power on period, and the integrator operates only during the initial power on period. And a second inverter for inverting the output of the integrator and providing an extended output pulse to one end of the conversion coil. A camcorder having a backlight for providing a light source for a liquid crystal display in a view finder; Expansion means for extending the width of the horizontal synchronous pulse is applied to one end of the conversion coil for driving the backlight, and the interval setting unit for allowing the expansion means to perform the pulse width expansion operation only during the initial power-on period Circuit characterized in that it has.