KR0151974B1 - Brightness signal inspection adjustment apparatus and adjustment method - Google Patents

Abstract

The present invention relates to an apparatus and an adjusting method for inspecting and adjusting a luminance signal output from a printed circuit board for processing a video / audio signal, and the like, and in particular, a luminance signal inspection adjusting device for automatically minimizing chroma components included in the luminance signal. It is about an adjustment method.

Description

Luminance signal inspection adjusting device and adjusting method

1 is a block diagram showing the configuration of a conventional luminance signal inspection adjusting device.

2 is a block diagram showing the configuration of a luminance signal test adjusting device according to the present invention;

3 is a waveform diagram showing luminance signals including chroma components output from the printed circuit board 3 shown in FIG.

4 is a flowchart for explaining a luminance signal inspection adjustment method according to the present invention.

* Explanation of symbols for main parts of the drawings

10: control unit 20: interface control unit

30: data I / O control unit 40: power supply unit

50: pattern generator 60: signal switching unit

70: waveform analysis device 80: motor control unit

The present invention relates to an apparatus and an adjusting method for inspecting and adjusting a luminance signal output from a printed circuit board for processing a video / audio signal, and the like, and in particular, a luminance signal inspection adjusting device for automatically minimizing chroma components included in the luminance signal. It is about an adjustment method.

In general, the process of producing a printed circuit board for processing video and audio signals can be divided into three types. First, the process of mounting the component on the printed circuit board as a component mounter, and the second component is mounted. And a third process of inspecting and adjusting a signal output by inputting a reference signal to the printed circuit board on which the back surface inspection is completed. The present invention relates to an inspection apparatus used in the third process.

The printed circuit board outputs a plurality of signals such as a composite image signal, a luminance signal chroma signal, and an audio signal to a plurality of test points, and selects a signal to be inspected and adjusted from among the plurality of outputted signals, inspects the signal, The volume will be adjusted to the corresponding volume.

In the conventional luminance signal inspection adjusting device, as shown in FIG. 1, the complementary (complementary) printed circuit board 4 to be adjusted is placed on a jig portion (not shown), and the power supply unit 2 is placed on the jig. After the power is supplied from the pattern generator 3, the pattern generator 3 outputs the pattern signal to the jig portion where the printed circuit board 4 to be adjusted is placed.

The printed circuit board 4 is a complementary substrate for adjusting luminance signals by two or more adjusting volumes. The printed circuit board 4 processes a plurality of signals by processing the pattern signals of the pattern generator 3 in the complementary printed circuit board 4. Outputs a test point, and one of the plurality of signals is selected to visually analyze the waveform through the waveform analysis apparatus 5, and when the analyzed waveform is not a standard value, the signal level to be analyzed is a standard value. Manually adjust the volume of the adjustment parts to

Such a device for inspecting and adjusting the waveform of a conventional complementary printed circuit board has a long time to adjust in relation to manually adjusting the volume of an adjustment component on the complementary printed circuit board, and thus the adjustment speed is lowered. As well as the productivity is lowered, there is a problem such as the reliability of the inspection adjustment is lowered because the measured value is not constant depending on the operator.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above problems, and to provide a luminance signal inspection adjusting device, an adjusting method, and an adjusting method for minimizing a chroma component included in the luminance signal.

Another object of the present invention is to provide a luminance signal inspection adjusting device and a method for automatically performing a luminance signal inspection adjusting process for a printed circuit board.

The apparatus according to the present invention as a means for achieving the above object controls the waveform analysis device, the signal generator and the power supply unit through the interface control unit in accordance with a program recorded in advance, and the signal through the data I / O control unit A control unit which controls the switching unit and controls the adjusting device so that the chroma component included in the luminance signal input from the waveform analysis device is minimized; A power supply unit for supplying power to the lower jig facility according to the control of the control unit through the interface control unit; A pattern generator which generates a pattern signal under the control of the controller through the interface controller and outputs the pattern signal to a lower jig facility device on which a printed circuit board is placed; A lower jig facility for providing a pattern signal from the pattern generator to a printed circuit board and detecting a signal from a plurality of test points of the printed circuit board; A signal switching unit that receives a plurality of signals from the lower jig facility by the selection control signal of the controller through the data I / O controller and outputs one of the signals to the waveform analysis device; A waveform analysis device for receiving the selected signal from the signal switching unit under the control of the controller and analyzing and outputting the result to the controller; An adjustment for driving the first and second motors installed in the upper equipment in accordance with the adjustment control signal from the control unit, and adjusting the first and second adjustment volumes of the adjustment parts on the printed circuit board with adjustment bits extending to the rotation shaft of the motor. It is provided with a device.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

2 is a block diagram showing the configuration of the luminance signal test adjusting device according to the present invention.

In FIG. 2, 10 is a control unit, which controls the waveform analysis device 70, the pattern generator 50, and the power supply unit 40 through the interface controller 20, and the data I / O controller 30. The signal switching unit 60 is controlled through the controller, and the control unit controls the adjusting device so that the chroma component included in the luminance signal input from the waveform analysis device 70 is minimized.

20 is an interface control unit, which is a block for controlling a connection device for information processing between the control unit 10 and its peripheral device. In the present invention, GP-IB is used as the interface device. 40 is a power supply unit, which is a power supply unit for applying power to the lower jig facility device JB according to the control of the control unit 10 through the interface control unit 20.

50 is a pattern generation unit 50 for generating a composite image signal having a specific pattern shape, which generates a pattern signal under the control of the control unit 10 through the interface control unit 20, the printed circuit board 4 is placed It is a signal generator for providing a pattern signal to the lower jig facility (JB).

60 is a signal switching unit, which receives a plurality of signals from the lower jig installation device (JB) by the selection control signal of the control unit 10 through the data I / O control unit 30, and analyzes one of the signals by waveform. Output to device 70. 70 is a waveform analysis device, which receives the selected signal from the signal switching unit 60 under the control of the control unit 10 through the interface control unit 20, and analyzes and outputs the result to the control unit 10.

80 is an electric motor control unit, which controls the forward driving of the first and second motors M1 and M2 installed in the upper facility apparatus JA according to the adjustment control signal from the control unit 10 in a PWM manner. M1 and M2 are the first and second motors, which are rotated by the forward control signal of the motor control unit 80, and the first and second motors extend on the rotation shafts of the first and second motors as the first and second motors rotate. Rotation of the adjustment bits D1 and D2 adjusts the first and second adjustment volumes VR1 and VR2 related to the adjustment parts on the printed circuit board 4. JA is an upper installation apparatus, in which first and second motors M1 and M2 are installed. The adjusting device according to the present invention includes the motor control unit 80, the first and second motors (M1, M2) and the upper equipment.

JB is a lower jig facility, which provides a pattern signal from the pattern generator 50 to the printed circuit board 4 and detects a signal from a plurality of test points TP of the printed circuit board 4. do.

FIG. 3 is a waveform diagram showing a luminance signal including chroma components output from the printed circuit board 3 shown in FIG. 2, and FIG. 3 is a flowchart for explaining a luminance signal test adjusting method according to the present invention. .

Hereinafter, the operation and effect according to the present invention will be described with reference to FIGS. 2 to 4.

Referring to FIGS. 2 and 3, the apparatus of the present invention will be described. When the power is turned on for the entire system, the controller 10 initializes the interface controller 20 and its peripheral apparatuses, and then an interface composed of GP-IB. The pattern generator 50 is operated through the control unit 20, and the power supply unit 40 is controlled to supply power to the lower jig installation device JB.

The pattern generator 50 generates a composite video signal in which a color signal becomes a specific pattern, and the pattern signal is output to the lower jig facility device JB.

The pattern signal input from the pattern generator 50 is provided to the printed circuit board 4 to be adjusted, and then a plurality of test points TP of the printed circuit board 4 are detected to detect a plurality of signals. The detected signal is output to the signal switching unit 60.

The plurality of signals output to the plurality of test points TP of the printed circuit board 4 are a composite video signal, a Y / C separated luminance signal (Y signal), a chroma signal, an audio signal, and the like. In general, the luminance signal separated from the printed circuit board 4 is included in the chroma signal as shown in FIG. 3, and the present invention provides two adjustments that are complementary to minimize the chroma component included in the luminance signal. By adjusting the volumes VR1 and VR2, the luminance signals output from the printed circuit board 4 are adjusted to output pure luminance signals.

The signal switching unit 60 selects one signal, that is, a luminance signal, from a plurality of detection signals detected by the lower jig facility device JB under the control of the control unit 10 through the data I / O control unit 30. And output to the waveform analysis device (70). The waveform analysis device 70 often uses an oscilloscope, and measures and analyzes the input signal and transmits the result to the controller 10.

The controller 10 controls the adjusting device according to a pre-recorded program to minimize the chroma component included in the received luminance signal.

Next, with reference to FIGS. 2 and 3 with reference to FIG. 4, the luminance signal inspection adjustment method will be described. When the power to the entire system is turned on in the first step (101, 102), the control unit 10 interfaces. The controller 20 and its peripheral devices are initialized, and the pattern generator 50 controls the pattern signal generation and the power supply 40 through the interface controller 10.

In the second step 103, 104, 105, after the first step, the signal switching unit 60 controls the signal selection through the data I / O control unit 30, and as shown in FIG. After receiving the luminance signal (Y signal), the chroma component included in the luminance signal is extracted, and the first peak value Vp1 of the extracted chroma component is calculated and stored in the internal memory.

In the third step 106, the first motor M1 is driven in the forward direction through the motor controller 80 after the second step.

In the fourth step (107, 108, 109), after receiving the luminance signal from the waveform analysis device (70) 60 after the third step, extracting the chroma component included in the luminance signal and then extracting the second peak value (Vp2) of the extracted chroma component. The electric motor when the first peak value Vp1 is greater than or equal to the second peak value Vp2 by comparing the second peak value Vp2 with the first peak value Vp1 in the second step. After controlling the forward driving of the first motor M1 through the control unit 80, the process proceeds to the third step. When the second peak value Vp2 is larger than the first peak value Vp1, the process proceeds to the next step.

In a fifth step 110, when the second peak value Vp2 is larger than the first peak value Vp1 in the fourth step, the deviation angle of the first adjustment volume VR1 is corrected. In the sixth step 111, the second motor M2 is driven in the forward direction through the motor controller 80 after the fifth step.

In the seventh step (112, 113, 114) after receiving the luminance signal from the waveform analysis device 70, 60 after the sixth step to extract the chroma component included in the luminance signal, the third peak value (Vp3) of the extracted chroma component Calculate and compare the third peak value Vp2 with the second peak value Vp2 in the fourth step, and when the comparison result is greater than or equal to the third peak value Vp3, After controlling the forward driving of the second motor M2 through the control unit 80, the process proceeds to the sixth step. When the third peak value Vp3 is larger than the second peak value Vp2, the process proceeds to the next step.

In the eighth step 115 and 116, when the third peak value Vp3 is greater than the second peak value Vp2 in the seventh step, the deviation angle of the second adjustment volume VR2 is corrected, and the third peak value Vp3 is corrected. ) And the preset reference value (Vref) are compared to proceed to the second step if different, and if it is the same, the inspection adjustment operation is terminated.

As described above, according to the present invention, by providing a luminance signal inspection adjusting device and an adjustment method for automatically minimizing the chroma components included in the luminance signal, the inspection adjustment time is shortened, the production efficiency is increased, and reliability for inspection adjustment. There is a special effect to improve.

Claims (2)

In the luminance signal inspection adjusting device, the waveform analysis device 70, the signal generator and the power supply 40 are controlled through the interface controller 20 according to a program recorded in advance, and the data I / O controller 30 is controlled. A control unit for controlling the signal switching unit 60 through the control unit and controlling the adjustment device such that the chroma components included in the luminance signal input from the waveform analysis device 70 are minimized; A power supply unit 40 for applying power to the lower jig facility according to the control of the control unit through the interface control unit 20; A pattern generator (50) for generating a pattern signal under the control of the controller through the interface controller (20) and outputting the pattern signal to a lower jig installation apparatus on which a printed circuit board is placed; A lower jig facility for providing a pattern signal from the pattern generator 50 to a printed circuit board and detecting a signal from a plurality of test points of the printed circuit board; A signal switching unit 60 which receives a plurality of signals from the lower jig facility by the selection control signal of the control unit through the data I / O control unit 30 and outputs one of the signals to the waveform analysis device 70; A waveform analysis device (70) for receiving the selected signal from the signal switching unit (60) under the control of the controller and measuring and analyzing the result; An adjustment for driving the first and second motors installed in the upper equipment in accordance with the adjustment control signal from the control unit, and adjusting the first and second adjustment volumes of the adjustment parts on the printed circuit board with adjustment bits extending to the rotation shaft of the motor. And a luminance signal inspection adjusting device. In the brightness signal inspection adjustment method, when the power is turned on, the interface controller 20 and its peripheral devices are initialized, and the pattern signal generator 50 and the power supply 40 are supplied to the pattern generator 50 through the interface controller 20. A first step of controlling power supply; After the first step, the signal selection unit 60 controls the signal selection through the data I / O control unit 30, receives the luminance signal from the waveform analysis device 70, and extracts the chroma components included in the luminance signal. A second step of calculating a first peak value of the extracted chroma component and storing it in an internal memory; A third step of driving the first motor in the forward direction through the motor control unit after the second step; After receiving the luminance signal from the waveform analysis device 70 after the third step, extracting the chroma component included in the luminance signal, and calculating the second peak value of the extracted chroma component, in the second peak and the second step After comparing the first peak of, if the first peak value is greater than or equal to the second peak value, the motor proceeds to the third step after controlling the forward drive of the first motor through the motor control unit, and the second peak value is A fourth step of proceeding to the next step if it is greater than the first peak value; A fifth step of correcting a deviation angle of the first adjustment volume when the second peak value is larger than the first peak value in the fourth step; A sixth step of driving the second motor in the forward direction through the motor control unit after the fifth step; After receiving the luminance signal from the waveform analysis device 70 after the sixth step, the chroma component included in the luminance signal is extracted, and the third peak value of the extracted chroma component is calculated, and in the second peak and the fourth step, After comparing the second peak of, if the comparison result is greater than or equal to the third peak, proceed to the sixth step after controlling the forward drive of the second motor through the motor control unit, and the third peak If greater than the second peak, a seventh step of proceeding to the next step; In the seventh step, when the third peak value is larger than the second peak value, the deviation angle of the second adjustment volume is corrected, and when the difference is different from the preset reference value, the process proceeds to the second step. And if it is the same, the eighth step of terminating the inspection adjustment operation.