KR19980043776U - Automatic phase adjustment on television receiver - Google Patents

Abstract

The present invention relates to a device for automatically adjusting the vertical phase in a television receiver that automatically adjusts the vertical phase with respect to the image output to the CRT (Cathode Ray Tube), the OSD for generating a predetermined OSD pattern to output to the CRT A television receiver having a generation unit and a pattern recognition unit for recognizing the OSD pattern output to the CRT; A vertical phase comparator for comparing the vertical phases of the OSD pattern based on the output signal from the pattern recognition part, and a vertical phase for adjusting the vertical phase of the OSD pattern outputted to the CRT based on the output signal from the vertical phase comparator Characterized in that it comprises a phase adjustment unit.

Description

Automatic phase adjustment on television receiver

The present invention relates to a television receiver, and more particularly, to a device for automatically adjusting the vertical phase in a television receiver that enables automatic adjustment of the vertical phase with respect to an image output to a CRT (Cathode Ray Tube).

1 is a block diagram illustrating a vertical phase adjustment operation in a conventional television receiver.

In the drawing, reference numeral 10 denotes a microprocessor as a control unit for controlling the overall apparatus, 11 denotes a deflection data storage unit for storing deflection data for driving vertical and horizontal deflection coils, and 20 is set by the microprocessor 10. It is a deflection IC that outputs a vertical trigger signal based on the deflection data and an auto frequency control signal (AFC) applied from a flyback transformer (FBT) (not shown).

Reference numeral 21 denotes a ramp waveform generator for generating a ramp waveform based on the vertical trigger signal, and 22 drives a vertical deflection coil DY based on an output signal from the ramp waveform generator 21. Vertical deflection driving unit.

Reference numeral DY denotes a vertical deflection coil, and VR1 and VR2 are variable resistors, which are connected to external rotary switches, and vary the resistance according to the operation of the switch to change the vertical size and the center of the image output to the CRT. It is supposed to be adjusted.

Meanwhile, FIG. 2 is a diagram illustrating an OSD pattern output on a screen to correct vertical phase with respect to an output image output to a CRT. As shown in the drawing, the distance (x and y) between the bright OSD pattern and the side of the CRT is shown. After the measurement, the vertical phase can be adjusted by operating the rotary switch.

By the way, as described above, the producer manually adjusts the vertical phase of the output image manually using the vertical phase jig (Jig), not only does the adjustment time increase, but also needs to be confirmed by the human eye to perform the adjustment operation. However, there is a problem that accurate vertical phase adjustment is very difficult to make.

Accordingly, the present invention was created in view of the above circumstances, and provides an automatic device for adjusting the vertical phase in a television receiver that can automatically adjust the vertical phase with respect to the image output to the CRT (Cathode Ray Tube). There is this.

1 is a block diagram for explaining the operation of adjusting the vertical phase in a conventional television receiver.

2 is a view showing a pattern output for vertical phase adjustment output on a CRT.

Figure 3 is a block diagram showing the configuration of the vertical phase automatic adjustment device in a television receiver according to an embodiment of the present invention.

* Brief description of the main parts of the drawing

10, 100: microprocessor 11: deflection data storage unit

20, 110: deflection IC21: ramp waveform generator

22: vertical deflection drive unit 101: OSD generation unit

102: CRT 103: pattern recognition unit

104: size comparison unit 105: position comparison unit

106, 111: bus interface section 112: register

113: processor 114: vertical trigger generator

R1, R2, R3: resistors VR1, VR2: variable resistors

DY: vertical deflection coil

In the television receiver according to the present invention for realizing the above object, the vertical phase automatic adjustment device includes an OSD generating unit for generating a predetermined OSD pattern and outputting it to the CRT, and a pattern recognition unit for recognizing the OSD pattern outputted to the CRT. In a television receiver; A vertical phase comparator for comparing the vertical phases of the OSD pattern based on the output signal from the pattern recognition part, and a vertical phase for adjusting the vertical phase of the OSD pattern outputted to the CRT based on the output signal from the vertical phase comparator Characterized in that it comprises a phase adjustment unit.

That is, according to the above, by automatically processing the vertical phase of the output image internally without using an external test device, it is possible to reduce the test time and maintain the accuracy of the vertical phase adjustment.

Next, an embodiment according to the present invention will be described.

Figure 2 is a block diagram showing the configuration of the automatic phase adjustment device of the television receiver according to an embodiment of the present invention, the same reference numerals are attached to the parts performing the same function as Figure 1, the detailed description thereof will be omitted. do.

In the drawing, reference numeral 100 denotes a microprocessor as a controller for controlling the entire apparatus, 101 denotes an OSD generator for generating and outputting a predetermined OSD pattern, 102 denotes a CRT (Cathode Ray Tube), and 103 denotes a vertical phase. As a device, a pattern recognition unit for recognizing an OSD pattern output on a fluorescent screen of a CRT, 104 is a size comparison for comparing the length of x and y from the OSD data recognized by the pattern recognition unit 103 and output the result 105 is a position comparison unit for outputting a predetermined result signal when the length of x and y is constant from the OSD data recognized by the pattern recognition unit 103, 106 is a control from the microprocessor 100 and A bus interface for transmitting data signals or control and data signals from each device.

Reference numeral 110 denotes a deflection IC for outputting a predetermined trigger signal for deflection control of the vertical deflection coil DY and the water deflection coil (not shown), which is a bus interface for interfacing with the microprocessor 100. The deflection IC 100 based on the control unit 111, a register 112 for storing control data according to the size and position input through the bus interface, and a control signal input through the bus interface unit 111. And a vertical trigger generator 114 for generating a predetermined vertical trigger signal based on the control signal of the processor 113.

Reference numerals R1, R2 and R3 denote resistors and DY denotes vertical deflection coils.

Next, the operation of the device having the above configuration will be described in more detail.

When the producer inputs a predetermined command signal for checking the output position of the vertical phase in the image output to the CRT, the microprocessor 100 causes the OSD generator 101 to operate on the basis of the vertical phase check command. The driving control outputs a predetermined OSD pattern to the CRT.

Subsequently, the producer specifies the lengths of x and y using the jig, and the microprocessor 100 based on the input signal when a predetermined input signal is received from the jig. The size and position comparison unit 104 and 105 are controlled to compare a series of data. That is, when the predetermined enable signal from the microprocessor 100 is input, the size comparison unit 104 compares the lengths of x and y from the OSD pattern recognized by the pattern recognition unit 103, and then The result signal is output to the microprocessor 100.

On the other hand, the position comparison unit 105 compares whether the length of x and y is the same and maintains a constant constant from the input signal from the pattern recognition unit 103 and outputs a predetermined result signal.

Subsequently, the microprocessor 100 outputs the result data input from the size comparing unit 104 or the position comparing unit 105 to the deflection IC 110 through the bus interface unit 106.

Then, the processor 113 on the deflection IC 110 side stores the size and position data input through the bus interface 111 in the register 112 and then draws the data based on the data of the register 112. As shown in Fig. 3, the vertical phase using the OSD pattern can be corrected by outputting predetermined control signals (voltage signals for adjusting the size and position of the OSD pattern output to the CRT) to the R2 and R3 sides.

That is, according to the embodiment, it is possible to maintain the accuracy of the vertical phase adjustment by reducing the test time by automatically processing the vertical phase of the output image internally without using an external test device.

In addition, this invention is not limited to the said Example, It can variously deform and implement within the range which does not deviate from the technical summary of this invention.

As described above, according to the present invention, a vertical phase automatic adjustment device can be realized in a television receiver that can automatically adjust the vertical phase with respect to an image output to a cathode ray tube (CRT).

Claims (1)

A television receiver comprising: an OSD generator for generating a predetermined OSD pattern and outputting the same to a CRT; and a pattern recognition unit for recognizing an OSD pattern output to the CRT; A vertical phase comparison unit comparing the vertical phase of the OSD pattern based on the output signal from the pattern recognition unit; And a vertical phase adjusting unit for adjusting the vertical phase of the OSD pattern output to the CRT on the basis of the output signal from the vertical phase comparing unit.