KR0143287B1 - Auto tracking control method at slow mode of vcr - Google Patents

Abstract

In the slow mode of the video cassette recorder, the tracking is automatically adjusted according to the DC level of the video signal when the video signals recorded on the first and second light tracks on the video tape are picked up while the capstan motor is stopped in the slow mode. It relates to an automatic tracking adjustment method.

To this end, in the tracking adjustment method of a video cassette recorder having a capstan motor driven by the control of a microprocessor and a video circuit which processes an image signal and transmits the image signal to the microprocessor, it is determined whether the capstan motor is stopped in the slow mode. In the first step of performing a slow operation by the slow tracking data when it is not the stop section, respectively, the first and the second steps in the rising pulse of the switching pulse of the DC envelope supplied from the video circuit when the capstan motor is the stop section. A second step of calculating an average value of the two light tracks; a third step of terminating the tracking control when a value obtained by repeatedly calculating the difference between the average values of the tracks after the second step is within a predetermined range; Increase the tracking adjustment data until the difference in the average value of each track satisfies the predetermined condition. It has been made by the process of claim 4.

Description

How to adjust the automatic tracking in slow mode of video cassette recorder

1 is a block diagram of a typical video cassette recorder.

2 is a noise distribution state included in a video signal in a slow mode of a general video cassette recorder.

3 is a block diagram of a video cassette recorder according to the present invention.

4a, b, Fig. 4 is a flow chart of operation of the automatic tracking of the video cassette recorder according to the present invention.

* Explanation of symbols for the main parts of the drawings

1: video circuit 2: microprocessor

3: capstan motor 4: tracking key

The present invention relates to an automatic tracking adjustment method in a slow mode of a video cassette recorder. In particular, when a video signal recorded on the first and second light tracks of a videotape company is picked up while the capstan motor is stopped in the slow mode. The present invention relates to an automatic tracking adjustment method in a slow mode of a video cassette recorder in which tracking is automatically adjusted according to a DC level of an image signal.

In general, the tracking control device in the video cassette recorder adjusts the tracking proportionally by the tracking adjustment key following the manual operation of the user, as shown in FIG.

That is, when the video signals recorded on the first and second light tracks of the video tape are picked up, as shown in the noise distribution state diagram included in the video signal in the slow mode of the video cassette recorder shown in FIG. When the difference occurs, noise appears on the TV screen, and the tracking is adjusted to adjust the pickup balance of the lights on the video tape as a means of removing the noise.

Therefore, the tracking control device of the conventional video cassette recorder is not only cumbersome because the user has to adjust the tracking control key every time the video tape is replaced, but also depends on the visual effect of the viewer, making accurate tracking adjustment difficult. It is a factor of deterioration of reliability.

In order to solve the above-mentioned problems, the present invention provides a video signal recorded on the first and second light tracks of a video tape during a period in which a switching pulse supplied from a microprocessor to a video circuit in a slow mode is maintained at a high level. When the level of the DC-sided video signal exceeds the set value, the microprocessor automatically increases or decreases the tracking signal proportional to it and removes the noise generated in the slow mode, thereby providing clear image quality. It is an object of the present invention to provide an automatic tracking adjustment method in a slow mode of a video cassette recorder that can contribute to improved reliability.

In order to achieve the above object, the present invention provides a tracking control method of a video cassette recorder having a capstan motor driven by control of a microprocessor and a video circuit for processing and transmitting a video signal to a microprocessor. In the first step of determining whether the capstan motor is in the stop section and performing the slow motion by the slow tracking data when the stop section is not in the stop section, the switching pulse of the DC envelope supplied from the video circuit is increased when the capstan motor is in the stop section. A second step of calculating an average value of each of the first and second light tracks in the section; and ending the tracking control when a value obtained by repeatedly calculating the difference between the average values of the tracks several times after the second step is within a predetermined range. In step 3 and step 3, the difference between the average values of the tracks meets a predetermined condition. The fourth step is to increase or decrease the tracking adjustment data until it is sufficient.

Hereinafter, described in detail by the accompanying drawings as follows.

3 is a block diagram of a video cassette recorder according to the present invention, which outputs a signal for controlling the capstan motor 3 from the microprocessor 2, and from the capstan motor 3 to the speed of the microprocessor 2. The control signal CFG is transmitted.

In addition, the video circuit 1 integrates the video signals recorded on the first and second light tracks of the video tape and transmits the DC signal to the microprocessor 2, and the microprocessor 2 stops the picture. In this state, the switching pulse SWP is applied to the video circuit 1.

4 is a flow chart of the automatic tracking operation of the video cassette recorder according to the present invention. In the slow mode, it is determined whether the capstan motor is in the stop section. And a second process (L2) for calculating an average value of each of the first and second light tracks in the rising section of the switching pulse in the video circuit when the capstan motor is the stop section in the first process (L1); A third step (L3) of terminating the tracking control when a value obtained by repeatedly calculating the difference between the average values of the respective tracks after the second step (L2) within a predetermined range is different from the average value of the respective tracks in the third step (L3). The fourth process (L4) of increasing and decreasing the tracking adjustment data until the predetermined condition is satisfied.

Referring to the tracking automatic adjustment process according to the present invention made as described above with reference to FIGS. 3 to 4, first, a user operates a set key or a remote controller installed in a main body of a video cassette recorder (not shown). If it is selected by the microprocessor 2 (step 101) and transmits a control signal to the capstan motor (3) to make the capstan motor (3) in a slow mode by repeating the stop and rotation at regular intervals.

At this time, if it is determined that there is no end command of the slow mode (step 102), it is checked whether the capstan motor 3 is in the stop section.

That is, when the capstan motor 3 is in the stopped state, the control unit CFG generated from the capstan motor 3 is applied to the microprocessor 2 to determine the stop section (step 103). L1) will be performed.

On the other hand, if the switching pulse SWP output from the microprocessor 2 is applied to the video circuit 1 after performing the first process L1, the switching pulse SWP is half again in the period in which the high level is maintained. By dividing by period (T / 4 cycles), the video signal of the first light track is integrated into DC for ¼ period, and the video signal of the second light track is integrated into DC level for the remaining ¼ period.

At this time, by integrating the video signal recorded on the first and second light tracks of the video tape and transmitting the DC signal to the microprocessor 2, the microprocessor 2 is configured to perform the first and second light tracks. After detecting the DC level (step 104), a second process (2) of calculating the average data value of the DC level corresponding to each of the write and left tracks (step 104-1) is executed.

Therefore, when the microprocessor 2 that has executed the second process L2 determines that the difference between the DC level average values of both tracks is within a predetermined range internally set (step 105), the microprocessor 2 and Step 3 is repeated several times (step 106), and if it is determined that this repeated value is continuously within a predetermined range (step 107), a third step (L3) is performed to recognize that tracking adjustment is not necessary and ends the tracking adjustment process. ).

On the other hand, in step 105 of the third process (L3), it is determined that the average value of the second light track does not exist within a predetermined range of the DC level average values of both tracks and is larger than the average value of the first light track (step 109). If it is determined (step 110) that it has not risen to this limited ascent, the slow tracking is increased by one step (step 111).

Further, in step 105 of the third process (L3), it is determined that the average DC level of both tracks does not exist within a predetermined range, and that the average value of the second light track is smaller than the average value of the first light track, and the tracking is limited to the lower limit width. If it is determined that it is not reached (step 112), the fourth process (L4) of reducing the slow tracking by one step (step 113) is completed.

Therefore, the video signals recorded on the first and second light tracks of the video tape are DC-powered during the period in which the switching pulse is maintained at a high level, and if the difference in the average value of each track does not exist within a predetermined range, this average value is in an appropriate range. Increasing or decreasing the tracking adjustment value until reaching to achieve a clear image quality by removing noise caused by the difference in balance between the picked-up signals.

As described above, according to the present invention, the video signal recorded on the first and second light tracks of the video tape is converted into DC during the period in which the switching pulse supplied to the microprocessor in the slow mode is maintained at a high level. Afterwards, when the level of the DC-sided video signal exceeds the set value, the microprocessor automatically increases or decreases the tracking signal proportional to it and removes the noise generated in the slow mode. It can contribute to improved reliability.

Claims (4)

A tracking control method of a video cassette recorder having a capstan motor driven by the control of a microprocessor and a video circuit which processes an image signal and transmits the image signal to the microprocessor. If the interval is not the first step (L1) to perform a slow operation by the slow tracking data, the first step (L1) in the first step (L1), when the capstan motor is a stop section, each of the rising pulse of the switching pulse of the DC envelope supplied from the video circuit The tracking adjustment is terminated when the second process (L2) for calculating the average value of the first and second light tracks and the value obtained by repeatedly calculating the difference between the average values of the tracks after the second process (L2) several times are within a predetermined range. In the third process (L3), the third process (L3) to adjust the tracking until the difference between the average value of each track meets a predetermined condition When the slow mode of the video cassette recorder, characterized in that the process consists of 4 (L4) automatic tracking control method for increasing or decreasing the other. The method of claim 1, wherein the second process (L2) comprises the steps of: detecting the DC level of the video signal recorded in the first and second lights of the video tape (step 104), respectively, the first and second light tracks. Computing the average data value of the DC level corresponding to (step 104-1), characterized in that the automatic tracking adjustment method in the slow mode of the video cassette recorder. The method of claim 1, wherein the third process (L3), determining whether the difference between the DC level average value of the light and left track is within a predetermined range (step 105), the first and second process (L2) several times Step of repeating (step 106), if it is determined that the value repeated in the step is continuously within a predetermined range to terminate the tracking adjustment process (steps 107, 108) characterized in that the slowing of the video cassette recorder How to adjust auto tracking in mode. The method of claim 1, wherein the fourth process (L4), the step of determining whether the average value of the second light track is greater than the average value of the first light track (step 109), it is determined whether or not the tracking adjustment is raised to a limited ascent Determining (step 110), increasing the slow tracking data by one step if the tracking adjustment is not increased to the limited ascent in the step (step 111); and in step 109, the second light track average value is the average value of the light tracks. If it is determined that the tracking adjustment is less than the limited lower limit width, the slow tracking data is decreased by one step (step 112, 113).