KR950011653B1 - Tv screen size auto control circuit - Google Patents

Abstract

The screen size of a TV is automatically adjusted according to distance between a viewer and a TV. The circuit comprises a distance detector(11) for detecting distance of a viewer, a microprocessor(12) for generating screen size control signals according to output signal of the distance detector(11), a level controller(13) for changing DC voltage level applied to a vertical deflector, and a DC voltage adjuster(15) for changing DC voltage level applied to a horizontal deflector.

Description

TV screen automatic adjustment circuit

1 is a circuit diagram of a conventional eye protection TV.

2 is a vision protection control flowchart according to FIG.

3 is a TV screen automatic adjustment circuit diagram of the present invention.

4 is a flow chart for controlling the screen size according to the viewing distance of the present invention.

5 is a characteristic diagram of change of current and voltage according to the present invention.

* Explanation of symbols for main parts of the drawings

11: viewing distance detection unit 12: microprocessor

13 level control 14 vertical deflection

15 DC voltage converter 16 vertical deflection

D ₁ , D ₂ : Diode Modulation Diode Cy ₁ , Cy ₂ : Diode Modulation Capacitor

LY: Horizontal deflection coil VY: Vertical deflection coil

The present invention is to automatically control the screen size of the TV, and in particular relates to a TV screen automatic adjustment circuit for automatically changing the screen size according to the viewing distance to protect the eyesight even if the user near the TV will be.

As shown in FIG. 1, the circuit diagram of the conventional vision protection TV includes a viewing distance output unit 1 for obtaining a viewing distance value from an object, converting the viewing distance value into a digital value, and outputting the digital viewing distance value. It consists of a microprocessor (2) which receives the viewing distance of (1), compares it with a reference value, and performs power control according to it, and a relay driver (3) which regulates power according to the output control of the microprocessor (2). .

Looking at the conventional technology configured as described above are as follows.

When the distance sensing unit 104 of the viewing distance output unit 1 applies an ultrasonic wave to the object 101 through the transmitting unit 102, the ultrasonic wave is reflected from the object 101 and received by the receiving unit 103.

When the ultrasonic wave received by the receiving unit 103 is transmitted to the distance detecting unit 104, the distance detecting unit 104 detects the transmitted ultrasonic wave and outputs the detected analog value to the analog / digital converting unit 105. As a result, it is converted into a digital value and input to the input port P1 of the microprocessor 2.

The microprocessor 2 reads the value input from the input port P1 and stores it in variable A. Compares the variable D storing the reference viewing distance value with the variable A and outputting the output port P2 when A is larger than D. Output high.

Therefore, since the high signal is applied to the base of the transistor Q1 through the resistor R1, the transistor Q1 is turned on so that the relay RY is driven and the TV main power is supplied.

If the variable A is smaller than D, the signal A is within the viewing distance reference value, and the low signal is output to the output port P2 of the microprocessor 3.

Accordingly, as the low signal through the resistor R1 is applied to the base of the transistor Q1, the transistor Q1 is turned off and the TV main power is turned off.

Also, when the distance is farther than the reference value, the TV main power is supplied again to operate normally.

The operation flowchart above is the same as in FIG.

However, in the conventional circuit operating as described above, if the TV is close to protect the viewer's eyesight as the TV is turned off, if the object is fixed, the TV is not turned on, and if the children play in front of the TV, the TV is turned off. There was a problem to turn on the TV again.

Accordingly, in order to solve the conventional problem, the present invention changes the screen size of a TV as the object approaches the TV. For example, as the object approaches the TV, the TV screen is made smaller, and the farther away from the TV, the TV screen is made. Invented a TV screen size automatic adjustment circuit to effectively protect the eyes to enlarge, described in detail below with reference to the accompanying drawings.

3 is a TV screen automatic adjustment circuit diagram of the present invention, as shown therein, a viewing distance sensing unit 11 for obtaining a viewing distance value from an object, converting the viewing distance value into digital data, and outputting the same; The microprocessor 12 and the microprocessor 12 that control the respective systems while receiving the viewing distance from the distance detection unit 11, compare the reference value with the reference value, and automatically adjust the TV screen size according to the compared value. A level control unit 13 for controlling the vertical deflection unit 14 by converting a level according to a control output, and a direct current controlling the vertical deflection unit 16 by converting a DC voltage according to the control output of the microprocessor 12. The voltage change part 15 was comprised.

Referring to the operation and effect of the present invention configured as described above in detail.

When the viewer turns on the TV, the microprocessor 12 first outputs a reference signal through its first output port P2 and the second output port P3 to make the TV screen a reference.

Then, the digital / analog converter 1301 of the level controller 13 outputs the voltage value V _DAZ obtained by converting the reference signal into a digital value to the base of the transistor Q1 through the resistor R10. Assuming that there is no vertical drive input V _D , the current i _S flowing to the base of the transistor Q1 by the voltage V _DAZ of the digital / analog converter 1301 is

That is, it can be seen that the base current of the transistor Q1 changes according to the V _DAZ voltage, and as the base current changes, the amplification degree of the transistor Q1 varies as shown in FIG. 5.

Therefore, as the transistor Q1 is turned on and turned on, the voltage Vc on the collector side is an inverted output and thus is inverted once again through the operational amplifier OP1 and gained by the ratio of the resistors R6 and R7. Compensate the gain.

Accordingly, the output Vo of the operational amplifier OP1 is controlled by the output voltage V _DAZ of the digital / analog converter 1301 to be controlled by the gain of the vertical driving input V _D.

In this way, when the output voltage of the operational amplifier OP1 whose gain is adjusted is applied to the vertical driving IC (IC) 1401 of the vertical deflection unit 14, the vertical deflection coil connected to the vertical driving IC (IC) 1401. (VY) is driven by the voltage to adjust the vertical size.

Also, to adjust the vertical size more precisely, use the electronic volume circuit already used.

When the microprocessor 12 outputs a reference value through its second output port P3, the microprocessor 12 is input to the digital / analog converter 1501 of the DC voltage changer 15 to be converted into an analog signal and converted. The output voltage V _DA1 .

In the DC voltage converter 15, the resistors R2-R5 have the same resistance value, and the output impedances of the EW driving input voltage V _EW and the output voltage V _DA1 of the digital / analog converter 1501 are resistors. Assuming large enough for (R ₅ , R ₄ ), the output Vo ₁ through the operational amplifier OP2 is Vo ₁ = V _EW + V _DA1 .

Where V _DA1 appears as the output voltage (Vo ₁₎ of the direct current of the EW waveform V _DA1 with a predetermined DC voltage V, so _EW waveform overlapping operational amplifier (OP2).

The output voltage Vo ₁ of the operational amplifier OP2 is connected to the base resistor R1 of the transistor Q2 of the horizontal deflection unit 16 so that the output voltage Vo ₁ of the operational amplifier OP2 is amplified. It appears in the ethimer of transistor Q2.

Accordingly, the diode modulating diodes D1 and D2 and the diode modulating capacitor Cy1 and Cy2 are driven by the output voltage Vo ₁ of the operational amplifier OP2 and the driving of the transistor Q1 according to the horizontal driving signal. And the horizontal size of the TV screen is changed by the voltage supplied to the horizontal deflection coil (LY) through the flyback transformer (FBT).

There are several ways to adjust the horizontal size of the TV screen, but here the horizontal size is changed by changing the DC value to the E.W drive input.

That is, the horizontal size is adjusted by superimposing the screen size adjusting DC value V _DA1 according to the viewing distance detection on the EW driving input voltage V _EW . When the overlapping value increases, the horizontal size of the TV screen decreases. The horizontal size increases.

The horizontal and vertical sizes are set in the same manner as described above, when the TV is broadcast, the distance detection unit 1104 of the distance detection unit 1104 of the viewing distance detection unit 11 to the object 101 through the transmitter 102. When ultrasonic waves are applied, ultrasonic waves are reflected from the object 1101 and received by the receiver 1103.

The ultrasonic distance detector 1104 reflected from the object 1101 through the receiver 1103 detects the detected value, and converts the detected value into a digital value through the analog / digital converter 1105 to convert the microprocessor 12 into a digital value. Output to the input port (P1).

Then, as shown in the flowchart of FIG. 4 in the microprocessor 12, first, the maximum vertical size (MAXV), the maximum horizontal size (MAXH), the minimum vertical size (MINV), the minimum horizontal size (MINH), After initializing the screen minimum size (LLIM) and screen maximum size (ULIM) variable values, the TV main program is executed.

Then, the analog / digital converter 1105 reads the value input to the input port P1 of the microprocessor 12 and stores it in the variable D. For example, if D≥ULIM (maximum size of the screen), the TV screen is displayed. It is made to the maximum size, which replaces the MAXH (maximum horizontal size) value with the horizontal size variable and the MAXV (maximum vertical size) value with the vertical size variable, respectively, to the output ports P2 and P3 of the microprocessor 12 respectively. Outputs the size value and the horizontal size value so that the TV screen size becomes the maximum size.

Also, if D <ULIM (Maximum Screen Size), it is judged that the viewing distance is not far enough away.Compare D to LLIM (Minimized Screen Size), that is, if D≤LLIM, MINH (Minimum Horizontal Size) In the VSIZE (vertical size) variable, MINV (minimum vertical size) value is substituted and the HSIZE (horizontal size) value and the VSIZE (vertical size) value are output to the microprocessor 12, thereby converting the digital / analog converter 1301 (1501). ) To minimize the screen size.

If D> LLIM, refer to the table previously created with the D value and replace the appropriate value with the HSIZE and VSIZE variables, respectively.

Then, the VSIZE value and the HSIZE value are respectively output to the digital / analog converter through the first and second output ports P2 and P3 of the microprocessor 12.

Then, the digital / analog converters are converted to analog and output horizontal constant DC values to adjust the horizontal and vertical sizes.

As described in detail above, the present invention effectively protects eyesight by automatically adjusting the screen size when the viewer approaches or moves away from the TV.

Claims (2)

Compares the viewing distance and the reference value of the viewing distance output unit 11 which detects the viewing distance from the object, converts the detected value into digital, and outputs the digital screen, and adjusts the size of the TV screen according to the compared value. A microprocessor 12 for controlling the operation, a level controller 13 for converting a DC voltage applied to the vertical deflection unit 14 according to the control output of the microprocessor 12 to adjust the vertical size; TV screen size automatic control circuit, characterized in that consisting of a DC voltage converter 15 for converting the DC voltage applied to the horizontal deflection unit 16 according to the control output of the microprocessor 12 to adjust the horizontal size. The output terminal of the digital / analog converter 1301 connected to the first output port P2 of the microprocessor 12 is connected to the first output port P2 of the transistor Q1 through the resistor R10. The base of the transistor Q1 is connected to a vertical drive input terminal V _D via a resistor R11 and a capacitor C1, and a collector of transistor Q1 having a resistor R9 connected to an emitter. Is connected to the power supply terminal Vcc through a resistor R8, and is connected to the inverting terminal (-) of the operational amplifier OP1 through a resistor R7, and the output terminal of the operational amplifier OP1 is a resistor R6. TV screen size automatic control circuit, characterized in that the feedback is configured via the inverting terminal (-) is configured through.