KR0150701B1 - Screen brightness control apparatus for tv powered by battery and method therefor - Google Patents

Abstract

The present invention detects the input voltage when the power is supplied to the battery driving TV or when the battery driving TV is operated. If the input voltage is low, the screen brightness is determined and then the output is adjusted to adjust the contrast and bright pulse width modulation data. The present invention relates to a screen brightness adjusting device and a method of controlling a battery driving TV for adjusting the brightness of the battery. A conventional battery driving TV has a change in load of the DC power supply unit 2 when the output voltage of the battery 1 is high. There is no abnormality in the output voltage fluctuation), but when the voltage of the battery 1 is low, the voltage output from the DC power supply unit 2 is severely changed by the sudden change of the load, so that the horizontal drive voltage (B ⁺ ) and There was a problem that the screen is not stable because the flight back transformer voltage is severely fluctuated.

That is, when the contrast and bright voltage output from the microcomputer 5 are high, the level of the signal input from the antenna is suddenly changed and the beam current is rapidly changed. When the battery voltage is low, most of the voltage output from the DC power supply unit 2 is beam current. There was a problem that the screen is not stable due to the weak voltage applied to the deflection or other parts until the beam current stabilizes.

The present invention detects the input voltage during the operation of the battery-driven TV to solve the conventional problems, and determines the brightness of the screen when the input voltage is low, and then adjusts the contrast, bright pulse width modulation data to the screen interlocked with the input voltage This is to adjust the brightness of the application to the TV.

Description

Screen brightness control device and method of battery operated TV

1 is a block diagram of a screen brightness control device of a conventional battery drive TV.

Figure 2 is a block diagram of the screen brightness control device of the battery drive TV of the present invention.

Figure 3 is a flow chart showing a screen brightness adjustment method when the power is supplied to the battery drive TV of the present invention.

4 is a flowchart illustrating a method for adjusting screen brightness when a battery driving TV is operated.

* Explanation of symbols for main parts of the drawings

1: Battery 2: DC power supply

5: microcomputer 9: voltage converter

The present invention detects the input voltage when the power is supplied to the battery driving TV or the operation of the battery driving TV, and determines the brightness of the screen when the input voltage is low, and then adjusts and outputs the contrast and bright pulse width modulation data to interlock with the input voltage. The present invention relates to a screen brightness adjusting device and a method of controlling a battery driven TV.

As shown in FIG. 1, the screen brightness adjusting device of a conventional battery driving TV receives a battery (1) voltage and converts the voltage into a voltage (B ⁺ ) required by the flyback transformer (3). And a voltage (B ⁺ ) for driving the horizontal deflection of the TV and a beam current for determining the screen brightness to the CPT (4) through the resistor (R) by using the voltage converted from the DC power supply unit (2). A flyback transformer 3 and a microcomputer 5 for outputting contrast and bright signals to adjust the screen brightness when a beam current is applied to the CPT 4 through the resistor R, and an output from the microcomputer 5. Contrast PWM (6) and Bright PWM (6A) for receiving the input contrast and bright signal and outputting the pulse width modulation (PWM) To the signal processor 7 and the video signal processor 7 Amplifies the output image signal will be composed of amplifying section 8 for controlling the beam current to be applied to the CPT (4).

As shown in FIG. 1, the screen brightness adjusting device of the conventional battery driving TV configured as described above has the voltage of the battery 1 applied to the DC power supply 2 to the voltage B ⁺ required by the flyback transformer 3. Upon conversion and output, the flyback transformer 3 applies a voltage for driving the horizontal deflection of the TV to the CPT 4 while simultaneously applying a beam current for adjusting the screen brightness to the CPT 4 through the resistor R. .

At this time, when the battery 1 voltage is low, the screen brightness adjustment state displayed on the CPT 4 may not be stable.

Therefore, when the microcomputer 5 applies contrast and bright signals to the PWM 6 and 6A to adjust the screen brightness irrespective of the battery 1 voltage, the PWM 6 and 6A are input contrast. When the signal and the bright signal are respectively pulse-width modulated and applied to the image signal processing unit 7, the image signal processing unit 7 adjusts the internal gain by the input contrast voltage and the bright voltage. The video signal outputted from is changed and applied to the CPT (4) through the amplifier (8), the beam current flowing through the resistor (R) is controlled by the voltage output from the DC power supply (2) to correspond to the input voltage The brightness of the screen is adjusted.

However, in the conventional battery driving TV, when the output voltage of the battery 1 is high, there is no problem in the variation of the output voltage with respect to the load change (rapid change in the beam current) of the DC power supply unit 2, but when the battery 1 voltage is low, As the voltage output from the DC power supply unit 2 is severely changed due to the sudden change, the horizontal drive voltage (B ⁺ ) and the flyback transformer voltage of the TV are severely changed, which causes a problem that the screen is not stable.

That is, when the contrast and bright voltage output from the microcomputer 5 are high, the level of the signal input from the antenna is suddenly changed and the beam current is rapidly changed. When the battery voltage is low, most of the voltage output from the DC power supply unit 2 is beam current. There was a problem that the screen is not stable due to the weak voltage applied to the deflection or other parts until the beam current stabilizes.

The present invention detects the input voltage during the operation of the battery-driven TV to solve the conventional problems, and determines the brightness of the screen when the input voltage is low, and then adjusts the contrast, bright pulse width modulation data to the screen interlocked with the input voltage When explaining the configuration and effect of the present invention by the accompanying drawings to adjust the brightness of the following.

First, Figure 2 shows the configuration of the screen brightness control device of the battery drive TV of the present invention, when the voltage of the battery (1) is applied to the DC power supply unit 2 at the same time detect the voltage of the battery (1) in the microcomputer (5) And a voltage conversion section 9 for converting the voltage to a possible voltage (0-5V) so as to reset the pulse width modulation voltage output from the microcomputer 5 to adjust the screen brightness through the voltage detected by the microcomputer 5. The same parts as in the first drawing of FIG. 1 are denoted by the same reference numerals, and description thereof will not be repeated.

Reference numerals R1-R3 denote resistors, C1 denote capacitors, and ZD1 and ZD2 denote zener diodes.

FIG. 3 is a flowchart illustrating a process of resetting a pulse width modulation voltage when power is supplied to a battery driving TV. When the power-on key signal is input, the voltage conversion unit 9 is connected to the A / D port of the microcomputer 5. The first process of comparing the set voltage reading the battery voltage converted in the previously read screen anxiety, and the current output from the microcomputer 5 when the current read voltage is greater than the previously read set voltage as a result of the comparison A second process of performing a power-on operation after maintaining the contrast and bright pulse width modulation of the current state; and a comparison result of the first process, when the voltage currently read is smaller than the previously read set voltage, the voltage currently read Read the pulse width modulation data corresponding to from the set table and reset the contrast and bright pulse width modulation data. It will be conducted to the third process of performing output to the changed contrast and bright pulse width modulated voltage.

4 is a flowchart showing the process of resetting the pulse width modulation voltage during operation of the battery drive TV when the power is applied. The DC power voltage output from the battery 1 is read at least n times at regular intervals, and the voltage read at least n times is shown. a first process of judging whether the data is the same more than m times; a second process of comparing the read data with the set voltage if the determination result is the same; and a current microcomputer (5) when the data read more than n times as a result of the comparison is greater than the set voltage. Contrast and bright pulse width modulation according to the data when the data read more than n times is smaller than the set voltage as a result of the comparison between the second process and the second process. As a fourth step of resetting the contrast and bright pulse width modulation data for screen adjustment by reading the data from the set table It is going.

The present invention configured as described above shows the screen adjustment when the user applies power to the battery drive TV to watch TV as shown in FIGS. 2 and 4, and the battery drive TV is in operation. As follows.

First, when power is supplied to the battery driving TV, if the voltage of the battery 1 is converted into a voltage that can be detected by the microcomputer 5 by the voltage converter 9, the microcomputer 5 is connected to the A / D port. Read the DC power supply voltage of current battery (1) and compare it with the previous setting voltage which causes screen anxiety.

As a result of comparison, if the current read voltage is higher than the previous set voltage, power-on operation is performed by maintaining the contrast and bright pulse width modulation voltage output from the microcomputer 5 that controls the screen state of the current CPT (4). .

And if the current read voltage is smaller than the previous set voltage, contrast and bright pulse for screen control output from the microcomputer 5 is read from the table where the contrast and bright pulse width modulation data corresponding to the current read voltage value are set. When the voltage output from the battery 1 is low by resetting and outputting the width modulation data, the sudden change of the beam current for adjusting the screen brightness by reducing the voltage output from the DC power supply unit 2 is performed in the DC power supply unit 2. To work.

On the other hand, after the initial power is applied to the battery drive TV, the battery voltage fluctuates due to the load change of the TV itself while the battery drive TV is operating. Therefore, the microcomputer 5 has a certain period of the voltage output from the battery 1 more than n times. It reads through A / D port and compares data more than m times.

As a result of the comparison judgment, when the voltage read more than n times with the same period and the data more than m times is equal, the read data is compared with the setting voltage at which the previous screen anxiety occurs, and the contrast outputted from the microcomputer 5 according to the comparison result and By changing and outputting the bright pulse width modulation data, it is possible to maintain a stable screen even when the input voltage is reduced due to the increase of the load during TV viewing or when the battery 1 consumes the voltage due to the TV load.

As described above, when power is supplied to the battery driving TV or when the battery driving TV is operated, the input voltage is detected, and when the input voltage is low, the brightness of the screen is determined, and then the contrast and bright pulse width modulation data are adjusted and interlocked with the input voltage. By controlling the brightness of the screen to improve the reliability of the product is effective.

Claims (3)

The DC power supply unit 2 receives the battery 1 voltage and converts the voltage into the voltage B ⁺ required by the flyback transformer 3, and the horizontal power of the TV is converted using the voltage converted from the DC power supply unit 2. A flyback transformer (3) for applying a deflection driving voltage (B ⁺ ) and a beam current for determining screen brightness to the CPT (4) through a resistor (R), and a CPT (4) through the resistor (R). Contrast PWM for outputting contrast and bright signals to adjust screen brightness when beam current is applied to the output, and pulse width modulation (PWM) for receiving contrast and bright signals output from the microcomputer 5. (6) and a bright PWM 6A, a video signal processor 7 for receiving the modulated output contrast and bright signal and adjusting a gain to output a video signal, and a video signal output from the video signal processor 7 To adjust the beam current applied to the CPT (4) In a battery driving TV composed of one amplifying unit 8, a voltage at which the microcomputer 5 can detect the voltage of the battery 1 at the same time when the voltage of the battery 1 is applied to the DC power supply unit 2 (0-). Battery driving, characterized in that it is provided with a voltage converter (9) for converting to 5V) and configured to reset the pulse width modulation voltage output from the microcomputer (5) to adjust the screen brightness through the voltage detected by the microcomputer (5). TV brightness control device. When the initial power-on key signal is input to the battery drive TV, the A / D port of the microcomputer 5 reads the battery voltage converted by the voltage converter 9 and compares the set voltage at which the screen anxiety previously read occurs. Step 1 and a second step of performing a power-on operation after maintaining the current contrast and bright pulse width modulation output from the microcomputer 5 when the current read voltage is larger than the previously read set voltage. If the current read voltage is less than the previously read set voltage, the pulse width modulation data corresponding to the current read voltage is read from the set table and the contrast and bright pulse width modulation data are reset. This is the third process of performing the power-on operation to adjust the brightness to output the changed contrast and bright pulse width modulation voltages. Eojin screen brightness control method of a battery powered television (TV). When the battery driving TV is in operation, the DC power supply voltage output from the battery 1 is read at least n times at regular intervals. The second process of comparing the read data with the set voltage, and if the data read more than n times as a result of the comparison, to maintain the contrast and bright pulse width modulation for the screen adjustment currently output from the microcomputer (5) When the data read more than n times as a result of the comparison between the third process and the second process is smaller than the set voltage, the contrast and bright pulse width modulation data for screen adjustment are read from the contrast table and the bright pulse width modulation data according to the data. Method of adjusting the screen brightness of the battery-driven TV (TV) consisting of a fourth process to reset and output.