KR960004646B1 - Scrolling method using parameter in a crt controller - Google Patents

Abstract

The scrolling is done by scan line units so that fatigue of eyes is decreased. The method comprises the steps of: (A) checking the initial parameter intermission counter(PIC); (B) checking that the interrupt counter value is 17; (C) converting data in a video memory when one scan line is scrolled up; (D) initializing the vertical back porch(VBP) and the vertical front porch(VFP) by 24; (E) resetting the interrupt counter(IC); (F) decreasing the VBP by 1 and increasing VFP by 1; (G) increasing the PIC by 1; (H) comparing the PIC and an user intermission counter; and (I) resetting the PIC when the PIC is larger than the UIC.

Description

Scrolling Method Using Parameters of Cathode Ray Tube Controller

1 is a general video display circuit diagram.

2 is an exemplary view illustrating before and after scrolling by a conventional scrolling method.

3A and 3B are timing diagrams of a video signal and a vertical synchronization signal used in the present invention.

4 is an explanatory diagram of the relationship between the screen and each porch.

5 is a diagram illustrating an operation before and after an interrupt request according to the present invention.

6 is a flowchart illustrating a method for adjusting a parameter spacing of a scrolling speed according to the present invention.

7 is a diagram illustrating a change in the displayed screen according to the porch adjustment.

* Explanation of symbols for main parts of the drawings

1: central processing unit 2: cathode ray tube controller

3: oscillator 4: counter

5: Video memory 6: Font ROM

7: shift register 8: monitor

According to the present invention, scrolling using a parameter of a cathode ray tube controller capable of lowering eye fatigue by executing a scan line unit during scrolling in an image display circuit using a cathode ray tube (hereinafter referred to as a CRT) It is about a method.

A general video display circuit, as shown in FIG. 1, includes a central processing unit 1 for initializing a system, reading and writing data, and processing the interrupt request; A cathode ray tube controller 2 which periodically scans the memory in accordance with the data processed in the central processing unit 1 and outputs vertical and horizontal synchronization signals; An oscillator 3 for generating and outputting a clock signal for producing an image signal; A counter 4 which supplies a divided clock signal in synchronization with a clock signal generated by the oscillator 3; An image memory (5) for storing data to be displayed on the screen by periodic scanning of the cathode ray tube controller (2); A font ROM 6 storing an address corresponding to data stored in the video memory 5; A shift register 7 for latching data stored in the font ROM 6 in parallel in synchronization with a clock signal, and sequentially converting and outputting the data into a serial array by one bit; The monitor 8 is configured to display the signal output from the shift register 7 as a video signal on a cathode ray tube (CRT).

Two methods are widely used for the image display circuit configured as described above, one of which is character mode, and the other is bitmap mode.

In Bitmap Mode, since the memory corresponding to each pixel has an address, scrolling in units of Scan Line is possible, but Bitmap Mode is about 8 times higher in resolution than Character Mode. Therefore, since 16 times as much memory is required, there is a disadvantage that smooth scrolling is not formed unless the high speed central processing apparatus 1 is used.

In Character Mode, a map is formed by character unit, so that scrolling by scan line is impossible, and the scrolling method is used by actual character unit, that is, jump scrolling method.

Here, the method used for scrolling the information displayed on the screen upwards, the method of reading the data in the image memory (5) on a line-by-line basis and writing it back to the image memory (5) corresponding to the upper line, and the second As shown in the figure, there is a method only available in an advanced cathode ray tube controller (CRTC) that changes the upper address of a row table in hardware.

However, such a conventional scrolling method causes a lot of tiredness for a user who works by scrolling a lot of information for a long time by scrolling line by line, and if scrolling is continuous, it does not see the data being scrolled and finds information to be scrolled. There was an uncomfortable problem of not being able to.

In view of the above problems, the present invention is characterized in that scrolling is used as a scan unit so that the scrolling text can be used even in continuous scrolling without eye fatigue.

That is, by adjusting the parameters of the cathode ray tube controller driving the monitor to realize scrolling in units of scan lines, the present invention can be applied regardless of the bitmap mode or the character mode, and can be realized without adding an additional circuit.

When described in detail with reference to the drawings as follows.

A timing parameter as shown in FIG. 3 is used to display information on the cathode ray tube (CRT) using a cathode ray tube controller (hereinafter referred to as CRTC).

That is, the video signal is composed of vertical blanking and active video as shown in FIG. 3a, and the vertical blanking is vertically located before and after the vertical sync signal Vsync as shown in FIG. It consists of a front porch (hereinafter referred to as VFP) and a vertical back porch (hereinafter referred to as VBP), which is shown in FIG.

In the present invention, the vertical back porch (VBP) and the vertical front porch (VFP) parameters are changed to smoothly scroll the information displayed on the screen. However, since the vertical blanking signal must be constant, the VBP + VFP + Vsync = Const condition must be satisfied. In other words, by decreasing one vertical back porch (VBP) and one vertical front porch (VFP) for upscrolling, (VBP-1) + (VFP + 1) + Vsync = Const, gradually lowering each scanline. This is how to achieve upscrolling.

Here, the vertical front porch (VFP) and the vertical back porch (VBP) for scrolling were set in the cathode ray tube controller 2 as follows.

VFP = 24 scan lines

VBP = 24 scan lines

As shown in FIG. 1, the cathode ray tube controller 2 is set to request an interrupt to the central processing unit 1 through the interrupt pin INT of the cathode ray tube controller 2 every 1/60 second. . The cathode ray tube controller 2 requests an interrupt to the central processing unit 1 at the start of the vertical blanking time as in 3a at 1/60 cycles, where the central processing unit 1 is a cathode ray. The following operations are performed via the data bus connected to the tube controller (5). First, the value of the vertical back porch VBP is decreased by 1 to 23 scan lines, and thus the value of the vertical front porch VFP is increased by 1 to make 25 scan lines.

That is, VBP value -1-23 scan lines

VFP value + 1 → 25 scan lines

The figure before and after this operation is shown in FIG.

Next to the interrupt request of the cathode ray tube controller 2

VBP-1 → 22 scan lines

VFP + 1 → 26 scan lines

As shown in Table 1, the vertical back porch (VBP) and the vertical front porch (VFP) are adjusted continuously every 1/60 second.

After the last 16th interrupt processing, the result is displayed as one entire line scrolled up completely.In the 17th interrupt processing routine, after changing the data in the image memory 5, the vertical back porch (VBP) and Change the vertical front porch (VFP) parameters to 24 initial values, respectively.

To adjust the scrolling speed, instead of changing the parameters of the vertical back porch (VBP) and vertical front porch (VFP) every 1/60 second, instead of changing the parameters of 2/60, 3/60, or 4/60 … You can adjust the scrolling speed by slowing down the adjustment interval. For example, if you adjust the scrolling parameters every 1/60 seconds

1/60 second × 16 = 267 [ms]

That is, since scrolling ends at 267 [ms], there is no smooth surface. Therefore, at least about 4/60 seconds allows smoother scrolling to 4/60 seconds x 16 = 1,060 [ms].

The parameter adjusting interval for the scrolling speed can be adjusted according to the user's preference.

The software operation flow chart for realizing this is shown in FIG. 6 as shown in FIG. 6, in which 1/60, 2/60, 3/60,. Determining whether the initial value of the parameter interval counter (hereinafter referred to as PIC), which is an 8-bit counter for adjusting the scrolling speed, is 0 or the like; Determining (1A) whether the initial value of the parameter interval counter (PIC) is 0; Determining whether the value of the parameter interval counter (PIC) and the user interval counter match when the initial value of the parameter interval counter (PIC) is not 0 (1B); If the initial value of the parameter interval counter (PIC) is 0 or the value of the parameter interval counter (PIC) and the value of the user interval counter match, one row consists of 16 scan lines. Determining (IC) the 17-inch value of an interrupt counter (hereinafter referred to as IC) as an 8-bit counter for counting to scroll; When the value of the interrupt counter IC is 17, i.e., converting the data in the image memory 5 after one entire line is completely scrolled up (ID); Initializing the vertical back porch VBP and the vertical front porch VFP to 24 after data movement of the image memory 5; Resetting the interrupt counter IC after initialization (1F); If the value of the interrupt counter (IC) is not 17, the vertical back porch (VBP) is decreased by 1, and the vertical front porch (VFP) is increased by 1 (1G) and: vertical back porch (VBP) and vertical front Increasing (1H) the value of the parameter interval counter (PIC) by 1 after the porch (VFP) adjustment or when the value of the parameter interval counter (PIC) and the value of the user interval counter are different; Increasing the parameter interval counter (PIC) by 1 and comparing the value of the parameter interval counter (PIC) with the value of the user interval counter (1I); When the value of the parameter interval counter PIC is larger than the value of the user interval counter or after the reset of the interrupt counter IC, the step 1J is sequentially performed.

In the above, the up-scrolling method is presented, but the down-scrolling direction is the opposite of the method of adjusting the values of the vertical back porch (VBP) and the vertical front porch (VFP) in the up direction. All others are the same, and the parameter adjustment methods are shown in Table 2.

Meanwhile, the degree of change of the displayed screen according to the adjustment of the vertical back porch VBP and the vertical front porch VFP is shown in FIG. 7.

As described in detail above, the present invention, by simply manipulating the parameters of the cathode ray tube controller to smoothly up / down without implementing a separate hardware additional device, it is possible to prevent eye fatigue caused by scrolling, and to increase the It is effective to develop products in accordance with the trend of value.

Claims (3)

In the image display circuit using a cathode ray tube, the vertical back porch (VBP) and vertical front porch (VFP) parameters of the cathode ray tube controller 2 driving the monitor are adjusted to realize smooth scrolling in units of scan lines. Scrolling method using the parameters of the cathode ray tube controller. The method of claim 1, wherein the vertical back porch (VBP) and the vertical proto porch (VFP) parameters include: (1A) determining whether an initial value of a parameter interval counter (PIC) is '0'; Determining whether or not the value of the parameter interval counter (PIC) and the user interval counter match when the initial value of the parameter interval counter (PIC) is not '0'; When the initial value of the parameter interval counter (PIC) is 0 or the value of the parameter interval counter (PIC) and the value of the user interval counter match, determining whether the value of the interrupt counter (IC) is 17 (1C) )Wow; When the value of the interrupt counter IC is 17, i.e., converting the data in the image memory 5 after one entire line is completely scrolled up (1D); Initializing the vertical back porch VBP and the vertical front porch VFP to 24 after data movement of the image memory 5; Resetting the interrupt counter IC after initialization (1F); When the value of the interrupt counter IC is not 17, increasing the vertical back porch VBP by 1 and increasing the vertical front porch VFP by 1 (1G); Increasing the value of the parameter interval counter (PIC) by 1 after adjusting the vertical back porch (VBP) and the vertical front porch (VFP) or when the value of the parameter interval counter (PIC) and the value of the user interval counter are different (1H). )Wow; Increasing (11) the parameter interval counter (PIC) by 1 and comparing the value of the parameter interval counter (PIC) with the value of the user interval counter; If the value of the parameter interval counter is larger than the value of the user interval counter or reset the interrupt counter (IC) and then reset the parameter interval counter (PIC) (1J), the scrolling speed is adjusted. Scrolling method using the parameters of the cathode ray tube controller. The vertical back porch (VBP) of claim 1, wherein the vertical back porch (VBP) and the vertical front porch (VFP) are adjusted by adjusting the vertical back porch (VBP) in the case of up scrolling according to the scroll direction. VFP) is adjusted by increasing. In contrast, the vertical back porch (VBP) is increased by 1, and the vertical front porch (VFP) is adjusted by 1 to adjust scrolling using the parameters of the cathode ray tube controller. Way.