KR0148982B1 - Video signal level control apparatus and method for eliminating noise - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a video signal level adjusting device and a method of controlling the same, in which noise components are eliminated. Video signal level without noise component that removes noise components and averages the data and recognizes the level value of the video signal to improve the reliability of the equipment in measurement and adjustment. level) and a control method thereof.

Description

Video signal level adjusting device removing noise components and control method thereof

1 is a block diagram of an apparatus for adjusting video signal levels from which noise components are removed according to the present invention.

2 is a flowchart of the control of the video signal level adjusting apparatus in which the noise component is removed according to the present invention.

3 is a graph showing the control of the video signal level adjusting apparatus in which the noise component is removed according to the present invention.

* Explanation of symbols for main parts of the drawings

111: control unit 112: A / D conversion unit

113: signal switching unit 114: digital I / O control unit

115: motor control unit 116: signal supply control unit

117: signal generator 118: power supply

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a video signal level adjusting device and a method of controlling the same, in which noise components are eliminated. Video signal level without noise component that improves the reliability of equipment in measuring and adjusting by removing noise components and averaging the data to recognize the level value of the video signal. level) and a control method thereof.

Generally, it is a process that corresponds to the inspection and adjustment of the entire electronic product. When the PCB arrives on the fixture through the transfer part after the soldering process, it is fixed by the adsorption of the PCB by the vacuum adsorption part. After supplying measurement signal such as analog / digital signal through external measuring instrument, measure and analyze the output signal with external measuring instrument including measuring module and analyzer to check whether it is within the specified range, and if necessary, check analog (ANALOG) ) The device is rotated by the driver bit and the digital adjustment point is used to adjust the standard value of the data value via the internal bus in the computer with the adjustment algorithm (software). To judge the failure.

After power is supplied to the regulated parts of the mounting PCB, when measuring the video signal processed and output by the regulated parts, the Vpeak value provided by the oscilloscope is usually read and used. Noise is included, which can be different from the actual video signal.

In view of this point, the present invention aims to ensure the reliability of the equipment and to ensure the uniformity of the measured and adjusted products by performing noise measurement and adjustment.

Accordingly, an object of the present invention is that the mounting PCB extracts the signal when measuring the video signal for the component to be controlled, removes noise components from the data of each of the A / D converters, and averages the data to process the level of the video signal. The present invention relates to a video signal level adjusting device which eliminates noise components that can be measured and adjusted by recognizing a value, and a control method thereof.

In order to achieve the above object, the device according to the present invention selectively extracts a video signal output from the component to be adjusted of the mounting PCB 10, and then the signal switching unit 113 permitting the input of the signal, and The digital I / O control unit 114 allows the signal switching unit 113 to selectively extract the video signal, and the A / D conversion unit 112 receives and digitalizes the video signal from the signal switching unit 113 for each channel. And a control unit 111 that receives measurement data from the A / D conversion unit 112 and recognizes a level value and determines whether the measured value falls within a standard value, and the PCB under control of the control unit 111. Motor control unit 115 for adjusting the variable element of (10), and a signal supply control unit 116 for controlling to supply measurement signals such as various power sources and analog signals to the PCB 10 under the control of the control unit 111 ) And the signal supply control unit 116 And a signal generator 117 and a power supply 118 for supplying power and measurement signals to the PCB 10 under the control of.

The apparatus according to the present invention configured as described above initializes, inputs data of level '1' to a video signal, removes noise components, calculates averages, and extracts actual data of level '1'. And repeating the process with respect to the data of level '2' in the video signal, determining the difference between the level '2' value and the level '1' value, and determining whether the difference is within a standard value. And the step of repeating the value below the standard value.

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

1 is a block diagram of an apparatus for adjusting video signal levels from which noise components are removed according to the present invention.

111 is a control unit, which controls each unit of the apparatus according to the present invention and performs a predetermined adjustment process by an adjustment algorithm (software) stored in the internal memory.

Reference numeral 112 denotes an A / D converter, which receives a video signal through an analog input terminal provided for each channel by a synchronization signal of the signal generator 117, converts the digital signal into digital data, and then converts the converted measurement data into the controller 111. To transmit.

Reference numeral 113 denotes a signal switching unit which selectively extracts and inputs a video signal from a high frequency signal processed and output by a component to be mounted on the mounting PCB 10, and then transmits the video signal to the A / D conversion unit 112.

114 is a digital I / O control unit, and controls the signal switching unit 113 to switch to another test pointer after measuring the video signal of the component to be adjusted.

115 is a motor controller, and adjusts the variable volume of the variable element of the controlled component mounted on the PCB under the control of the controller 111.

116 is a signal supply control unit, and controls to supply measurement signals such as various power sources and analog signals to the mounting PCB 10 by control signals of the control unit 111.

Reference numeral 117 is a signal generator, which receives a control signal from the signal supply control unit 116, supplies a measurement signal such as an analog signal to the mounting PCB 10, and is processed by the controlled component of the PCB 10.

118 is a power supply unit, and supplies various power supplies, such as a DC power supply, an AC power supply, and a UUT power, to the mounting PCB 10 by control from the signal supply control unit 116.

Hereinafter, the operation and effects of the present invention will be described.

In step 211, when power is supplied to the device to which the present invention is applied, the initialization of each device and the initial value of each device are set.

In operation 212, the signal supply controller 116 is controlled to control the signal generator 117 and the power supply 118 to supply the measurement power and the signal to the mounting PCB 10.

In step 213, the signal switching unit 213 extracts a high frequency signal from the test pointer (TEST point) of the mounting PCB 10, selects the corresponding video signal from the signal, and allows only the signal to be input, and then A / D. It is input to the analog input terminal of the channel '1' of the conversion unit 112 and digitized.

Here, the signal switching unit 113 allows only the input of the corresponding video signal by controlling the selection signal of the digital I / O control unit 114 in the high frequency signal outputted from the plurality of test pointers (TEST points), The signal is input to the channel '1' terminal of the A / D converter 112. For example, if there are eight test pointers, the digital I / O controller 114 outputs a 3-bit digital signal and selects a test pointer for a video signal to be extracted from a plurality of test pointers.

In step 214, as shown in FIG. 3, the data of level '1' is extracted from the video signal, and the process proceeds to step 215, where the digitalized and composed of a plurality of points between start 1 and END 1 at the level '1' The data of 3 degrees A 'are shortened sequentially. In the shortened data, when about 10% is a noise component, the top and bottom are cut by 10%.

In step 216, Σ Data (n) is obtained for the remaining 80% of the data obtained by cutting the top and bottom by 10%, and the actual data obtained by removing the noise component for the level '1' after the average is obtained. .

In step 217, as shown in FIG. 3, data about a level '2' of the video signal is extracted and received through the A / D converter 112, and then the process proceeds to step 218. After sequentially shorting the digitized data between the points, that is, the data composed of a plurality of points such as (B ') of FIG. 3, the noise component was set to about 10% in the above embodiment. Here both ends are cut about 10%.

In step 219, the actual data for the level '2' shown in FIG.

In step 220, the Vpeak = level '2' data value-level '1' data value is obtained, and in step 221, it is determined whether the difference value of the Vpeak, that is, the difference between the two levels, falls within the standard value. By controlling 115, the driver bit (not shown) adjusts the variable volume of the variable element, and then repeats the following process.

In other words, according to the present invention, the average value obtained by removing the noise component for level '2' is obtained, and the stable adjustment value obtained by removing the noise component for level '1' is obtained, respectively, and the difference value, that is, Vpeak, is obtained. Unless you adjust the variable volume, it will come out constant, so it doesn't take long to adjust the motor for correction.

As described above, according to the present invention, the reliability of the measured value can be ensured by a noise removing technique when measuring a video signal, and the measurement value can be stabilized by improving the measuring time and the adjusting time. By the quality is uniformly adjusted, thereby improving productivity.

Claims (3)

A video signal level adjusting device in which a noise component is removed, comprising: a signal switching unit for selectively extracting a video signal output from an adjusted component of a mounting PCB and then allowing the input of the signal; A digital I / O control unit for selectively extracting a video signal, an A / D conversion unit for digitally receiving a video signal from the signal switching unit for each channel, and measuring data from the A / D conversion unit A control unit for receiving the level value and determining whether the level value is within a standard value, a motor control unit for adjusting the variable element of the PCB under control of the control unit, and various power supplies and analog signals to the PCB under control of the control unit; A signal supply control unit for supplying a measurement signal and a power supply and measurement signal to the PCB under control of the signal supply control unit; Removing the noise component, it characterized in that a signal generator and power supply section for supplying a video signal level adjusting unit. In the control method of the video signal level adjusting device removing the noise component, after initializing, inputting data of the level '1' to the video signal, removing the noise component, calculating the average, and then adjusting the level to the level '1'. Extracting the actual data for the data, repeating the process for the data of level '2' in the video signal, and obtaining the difference between the level '2' value and the level '1' value. Determining whether the difference is within a standard value, and repeating the step below when the standard value is out of the standard value. 3. The noise reduction video signal level adjusting device as claimed in claim 2, wherein the noise reduction removes the data for each level sequentially and cuts 10% of the upper and lower portions, respectively. Control method.