KR830001571B1 - Display device - Google Patents

Abstract

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Description

Display device

1 is a block diagram of a CRT display device showing one embodiment of the present invention.

The present invention relates to a display device, and more particularly, to an improvement of a display device that defines a screen by DFC information.

In a display device, a screen is defined by field information, and generally, a DFC (Define Field Character) is used.

The display of the display is controlled by dividing into several fields, each of which can be freely set in length.

The DFC is stored at the head of the field, and then the display information is stored.

The DFC is read, thereby controlling the display information to be read next.

The DFC is integrated into the screen display data stream, and the DFC, which is general display information and control information, is mixed and stored in the memory.

The distinction of whether or not it is display data is performed by the bits of the DFC.

That is, the data portion whose DFC bit is "0" is display data, and the data portion DFC of "1" is information.

The DFC information is defined as a protective field, a transmission field, a printing field, etc., in addition to ruled lines, blinks, inversions, and high brightness.

In addition, the DFC information is stored in the reproduction memory.

Therefore, when a display command is issued, the program sequentially detects the DFC bits from the head of the reproduction memory, and processes the field data when the required DFC is detected.

When the display memory is updated, the readout memory is read out and written from the program, and the readout is continuously performed by the CRT control circuit to continue the screen display. How to efficiently access such reproduction memory is a major problem in the past.

As one of the prior arts, there is a method of limiting the accessible time from a program to the horizontal or vertical retrace time of screen display scanning.

In this method, a cheap low-speed memory can be used as the reproduction memory, but the display response time is significantly delayed in the display using the DFC.

On the other hand, as a method of speeding up the screen response time, there is a method of dividing the screen character display time into two and simultaneously accessing from the CRT control unit and accessing from the program, but this method requires expensive high-speed memory and hardware. Increases.

SUMMARY OF THE INVENTION An object of the present invention is to eliminate the above-mentioned problems and to provide a display device having the effect of using a low speed memory as a reproducing memory and increasing the screen response time.

A feature of the present invention is a memory having an address indicating the address of the DFC information in order to know the address of the DFC information on the reproduction memory. For example, when the CRT controller performs screen processing, the memory is first checked and the position of the DFC is calculated. After that, the playback memory is accessed at the horizontal or vertical retrace time of the screen or the period allocated to the processor to read detailed DFC information and perform field data processing.

As one of the specific configurations, in addition to storing the DFC defining the display field attributes (high brightness, blink) in the reproducing memory, only bits indicating that are stored in a separate memory (DFC bit memory), and the position detection of the DFC is performed by the DFC bit memory. In this case, the screen response time can be increased by reading the DFC information whose position is cleared from the reproducing memory.

EMBODIMENT OF THE INVENTION Next, the Example of this invention is described in detail using drawing.

1 is a block diagram of a CRT display device according to an embodiment of the present invention.

The CRT display device has a reproducing memory 1, which is accessed by the CRT control circuit 7 and the microprocessor 9 of the control unit 12 via the selector 8. Further, output data of the reproduction memory 1 is applied to the character generator 3 and the DFC control circuit 5 by the multiplex 2, and displayed on the display 6 by the video interface. The control unit 12 also includes a microprocessor 9, a micro program memory 10, and a DFC bit memory 11, and the flexure 2 and the selector 8 by the data line 13 and the address line 14. Connected to each).

Here, the DFC bit memory 11 has a storage area corresponding to the address of the reproduction memory 1, and stores the DFC bits in the address correspondence area.

In the surface display by the display 6, the CRT control circuit 7 accesses the playback memory 1 without interruption, and reads out the corresponding screen day. The read display data is input to a character generator 3 to generate a character pattern.

On the other hand, the read DFC information is inputted to the DFC control circuit 5 to add a formula such as weight, under-dot link and the like to the display data in the video interface 4.

In addition, the microprocessor 9 issues an instruction such as screen data update or reference from the CPU. The microprocessor 9 scans the DFC bit memory 11 and checks the presence or absence of the DFC bit in order from the top, and the DFC bit is " 1 " &Quot; continuously reads the DFC information and display data into the temporary storage memory 15 from the corresponding address of the reproduction memory in detail.

It is checked whether the DFC information read out here is the necessary DFC information that is subject to processing such as an update from the CPU.

If not, the next position of the memory 11 is checked to see if the DFC bit is " 1 ".

In this manner, when the DFC information corresponding to the position of the memory 11 having the DFC bit of "1" is read into the temporary storage memory 15, and the DFC information to be processed is read, the DFC information to be the target or this DFC Update, transmission, etc. of the display data defined as the information are made.

In addition, each time the DFC bit " 1 " is read out, the temporary memory memory 15 is updated with predetermined address data of the DFC bit, and the previous old data is erased.

Here, the capacity of the temporary storage memory 15 may be reduced so that only the DFC information is read out without reading the DFC information and the display data at the same time, and the display data may be read when the DFC information to be processed is read.

It is also possible to adopt a configuration in which the DFC information is stored in the DFC bit memory 11 in advance and the DFC information is read out from the DFC bit memory 11.

When the read memory is accessed during the screen display period, the read timing is delayed until the NOT READY returns to the microprocessor 9 by the playback memory control circuit (not shown) to become READY. When the screen display is horizontal or vertical retrace, during periods, or in the air allocated to the microprocessor 9, the playback memory becomes READY, and the DFC information is read out to the temporary memory memory 15 by the microprocessor 9, thereby providing field data. The processing of

In the present embodiment, the memory 11 has an area corresponding to the address of the reproduction memory 1, but does not correspond to the address of the reproduction memory 1 but corresponds to the DFC bit " 1 " or DFC information. It may be a memory having a structure for storing an address.

Since it is the structure as demonstrated above, in this invention, the following effects can be acquired.

Since another memory is provided using the bit corresponding to the DFC of the reproducing memory as the DFC bit memory, the screen response time can be increased even by using a low-speed low-speed memory as the reproducing memory.

Claims (1)

A display apparatus for storing DFC information defining contents of screen display information in a playback memory, comprising: providing a memory indicative of an address of the DFC information of the playback memory, and detecting the address position of the information by scanning the memory; Display device, characterized in that.

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