JPH03192886A - Convergence device - Google Patents

Abstract

PURPOSE:To prevent an adjustment time used so far from being wasted even when an input video signal is unexpectedly switched or lost during the adjustment of convergence by holding a convergence data during adjustment and displaying the change of the signal. CONSTITUTION:When a controller 4 is used for the adjustment and an input video signal is switched and a detection circuit 15 detects it, a microprocessor 7 holds data in a RAM 8 as it is as long as it is in the adjustment process and it is displayed on CRTs 11, 12, 13 via a picture display circuit 14. Even when the input video signal is suddenly switched to other video signal during the adjustment of the convergence data of the video signal by the controller 4, since the microprocessor 7 holds the RAM data in a 2nd memory 8 as it is, the adjustment time used so far is not in waste and when the input video signal is restored to the original 1st signal, the convergence data of the 1st video signal is attained succeedingly.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention particularly relates to the R, G, and B convergence adjustment of a projection cathode ray tube (hereinafter abbreviated as CRT), which can be corrected for any of various video signal systems. The present invention relates to a convergence device that aims to perform operations without any problems.

Conventional technology video projectors and high-definition direct-view tube television receivers require convergence adjustment to overlap three beams, R, G, and B, into one screen. Recently, convergence adjustment has also changed from analog to digital, and its accuracy has improved dramatically.

Furthermore, the function as a display can be made from several sources with different video signal formats (for example, NTSC.

It has become necessary to have the ability to receive images (double-density NTSC, PAL, high-visibility, computer, etc.).

To do this, store convergence correction data for each source in memory, determine the video signal format, read the convergence data from memory accordingly, and correct the convergence to obtain the optimal image quality. This means that you can do it.

FIG. 2 shows a conventional convergence device.

There is a video signal input in FIG. Measure the frequency of the horizontal and vertical synchronization signals from the signals of each system and determine the signal system. 31.5
KHz, vertical frequency is 60H2, and which system is used is determined from this horizontal and vertical frequency.

The determined result is sent to the deflection circuit 6 and the microprocessor.
Send to 7. The deflection circuit 6 switches constants according to the signals of each system and outputs the optimum deflection waveform.

Further, the microprocessor 7 stores convergence data according to each method in a first memory, for example, an EEP-ROM.
9, the data is processed and sent to the second memory, for example, RAM 8, and the data is sent to the D/A of block 10.
It is sent to the converter, and further amplified so that it can be sent to the dynamic convergence and static convergence coils, and correction is applied to CRTll and 12.13.

The above operation is performed when receiving a normal video signal. However, when installing the video projector for the first time,
It is necessary to write data for convergence into the memory 9 of. To do this, first display a test pattern on the screen, and then use the controller 4 to
．． We will adjust the convergence of 13. After adjusting one signal system, the signal of the next system is selected by the signal switching circuit 2. Here, regarding the relationship between the first memory 9 and the second memory 8, data is rewritten in the second memory 8 during adjustment. Then, when the adjustment is completed, the first memory 9 containing the old data is cleared, and the second memory 8 is cleared.
If the input signal changes to a signal of a different system or the signal is lost while adjusting one signal system with the controller 4 when writing and saving the contents in the first memory 9, the conventional In the device, the synchronizing signal frequency detection circuit 5 performs a detection operation, and the deflection circuit 6 and the second memory 8 for convergence that contained the data being adjusted are replaced by the data of the new signal system from the first memory 9. If the data is read out and written to the second memory 8, the data being adjusted will be erased.

Problems to be Solved by the Invention As described above, conventional methods have had the problem that when a signal of a different format is input while adjusting convergence, or when the signal is interrupted, the data being adjusted is erased.

The present invention solves the above problems, and when the signal changes or disappears during adjustment, the cause is displayed on the display, the adjustment data is retained, and the signal of the original method is input again. The present invention provides a device that displays the time when the adjustment is made and allows the adjustment to be made intermittently.

Means for Solving the Problems In order to solve the above problems, the convergence device of the present invention extracts the synchronization signal from the signal output from the video signal switching circuit, and converts the video signal from the obtained horizontal synchronization signal and vertical synchronization signal. It has a detection circuit that discriminates the signal format, uses its detection output to control the deflection waveform of the deflection circuit, and also imports the video format discrimination output into the microprocessor, which outputs convergence data corresponding to the video format to the first output.
It is read from the second memory, processed by the microprocessor sensor, transferred to the second memory, and then D/A from the second memory.
During convergence adjustment in a device that transfers data to a converter, amplifies it, and drives a convergence coil,
Even if the format of the input video signal changes and the format discrimination output changes, the first and second memories hold the convergence data unchanged, and display means is provided to indicate that the format of the video signal has changed. The display means also functions to indicate that the video signal format has returned to the one before the change.

The present invention maintains the convergence data being adjusted up to that point even when a signal of a different format is switched and is input during convergence adjustment, or the signal is cut off, and displays that the signal has changed. Furthermore, it is possible to provide a convergence device that displays the fact that the signal has returned to normal and prevents the convergence from being erroneously adjusted in a different signal mode.

EXAMPLE Hereinafter, an example of the present invention will be described based on the drawings.

FIG. 1 is a block diagram of a convergence device in one embodiment of the present invention. In FIG. 1, even if the input video signal is switched and the detection circuit 5 detects this while the controller 4 is making an adjustment, the microprocessor 7 will not read the data in the RAM 8 only during the adjustment. I'm trying to keep it as is. Then, the information is displayed on the CRTll, 12.13 through the screen display circuit 14.

In the above configuration, when a signal of a different system is switched or there is no signal while receiving an image, the same operation as before is performed.

The mode during convergence adjustment, which is a feature of the present invention, will be explained.

In the first video signal mode, the first video signal is output from the signal switching circuit 2. The convergence is adjusted using the controller 4, and the data in the second memory (RAM) 8 is rewritten.

At that time, if a second video signal with a different video signal format is input from the same cable, the synchronization signal frequency detection circuit 5
Then, the deflection circuit 6 enters the second video signal mode as in the conventional case. However, here the microprocessor-7 operates as follows.

(2) Retain the RAM data in the second memory 8 as is.

■Next, a signal indicating that the video signal format has changed from the first to the second video signal is sent to the CRTll, 12.13 through the screen display circuit 14 and the signal processing circuit 3, such as rNTSC-+
It is displayed as PALJ.

■Next, when the video signal format returns to the first video signal, it passes through the screen display circuit 14 and the signal processing circuit 3 again, and sends a message to that effect to the CRT 11, e.g., "rNTSC←".
．． Displayed on 12.13.

On the other hand, if the video signal does not return to the first video signal, the person making the adjustment cancels the data being adjusted in the second memory 8 from the controller 4, and cancels the data being adjusted in the first memory 9. The data in the second video signal storage area is transferred to the second memory 8. If convergence data of the second video signal is already stored in the storage area, the data is read out, subjected to D/A and amplification processing, and applied to the convergence coil.

(2) Next, display on the CRTII-13 (for example, rPAL).

Make it.

In this configuration, when the convergence data of a certain video signal is being adjusted by the controller 4, the input video signal suddenly switches to another video signal, and the microprocessor recognizes that the convergence data of a certain video signal is being adjusted. 7
Since the RAM data in the second memory 8 is retained as is, the adjustment made up to that point is not wasted, and when the input video signal returns to the original first video signal, the first This makes it possible to adjust the convergence data of the video signal. Also, if the input video signal changes,
Since this fact is displayed on the CRTII-13, the adjuster also has the advantage of being able to understand it immediately.

Effects of the Invention As described above, according to the present invention, even if the input video signal suddenly switches or there is no signal during convergence adjustment, the convergence data of the video signal that was being adjusted until then is retained. No need to waste adjustment time. It also displays how the video signal changes,
By looking at this display and returning the video signal to its original state, you can eliminate erroneous operations. Therefore, even if various video signal systems come out in the future, convergence adjustment corresponding to each system can be made without error.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a convergence device according to an embodiment of the present invention, and FIG. 2 is a block diagram of a conventional convergence device. 1... Video signal, 2... Video signal switching circuit, 3...
・Video signal processing circuit, 4...controller, 5...
Synchronous signal frequency detection circuit, 6... Deflection circuit, 7...
Microprocessor-18...Second memory (RAM)
, 9... first memory (ROM), 10... convergence/A converter and amplifier, 11-
13...CRT, 14...Screen display circuit.

Claims (1)

[Claims] It is equipped with a detection circuit that extracts the synchronization signal from the signal output from the video signal switching circuit and determines the video signal format from the obtained horizontal synchronization signal and vertical synchronization signal, and uses the detection output signal to determine the deflection waveform of the deflection circuit. At the same time, the video signal format discrimination detection output signal is input to the microprocessor, convergence data corresponding to the video signal format is read from the first memory, processed by the microprocessor and transferred to the second memory, and further In a device that transfers data from a second memory to a D/A converter, amplifies it, and drives a convergence coil, even if the format of the input video signal changes and the format discrimination detection output signal changes during convergence adjustment, the first A convergence device that retains convergence data of a video signal that has been adjusted by the second memory without changing it, and further comprises display means for indicating that the format of the video signal has changed.