JPS60222916A - Input-united plane display system - Google Patents

Abstract

PURPOSE:To obtain the input-united plane display system with high man-machine interfacing performance by providing a scrolling function and a reduced display function. CONSTITUTION:Information which indicates which part of a frame memory 8 stored with a large virtual screen is to be processed, i.e. start address is stored in an input part 5 and a display controller 6 so as to have the scrolling function and reduced display function. When there is an indication made by a scroll indicating part 3 and a display controller 6 to an input part 5, input data is written on a corresponding memory 8 according to the start address of the input part 5. When a display part 5 makes a display, data is read out of the memory 8 according to the start address stored in the controller 6 and displayed. Consequently, proper processing is carried out speedily even when a scroll or reduction indication is made by a user at an optional position in the large virtual screen and handwriting input or point input of microcomputer, etc., is performed.

Description

[Detailed Description of the Invention] [Field of Application of the Invention] The present invention provides an input device suitable for man-machine operation, which integrates input and output suitable for amateur handwriting users who are not familiar with keyboards, and enables handwritten input. Regarding the Plane Nice Play System.

[Background of the invention]

Enter characters, figures, etc. by hand on the input surface, and then write them on the same surface.
In an input-integrated flat display device that displays the electrical protection and performs text/graphic input, editing, etc., the display area of the flat display gray is C)1. It has the disadvantage of being smaller than T, and requires scrolling and reduction functions. but,
There is still no device equipped with a scrolling function and a reduction function.

In addition, conventional scrolling functions for display devices other than those mentioned above require multiple button operations to instruct the user to scroll, and the user selects a button or button in the direction he or she wishes to scroll, and then instructs the user to press that button for a period of time proportional to the distance to scroll. In order to continue and select any direction, there were many things that had to be scrolled with a combination of those buttons, which was inconvenient. In addition, there are systems that are used in conjunction with the coordinate input area and the entire scroll instruction area and require a mode switch, that is, systems that display the area by specifying an arbitrary point in the scroll instruction mode, but this does not require a mode switch. However, the operation was troublesome.

[Purpose of the invention]

It is an object of the present invention to provide an input-integrated flat display system which is equipped with a 5-sphere function and a reduced display function, and which is highly man-machine friendly.

[Summary of the invention]

In order to equip the scroll function and reduction function, information instructing which part of the frame memory that stores the virtual large screen is to be processed, i.e., the start address (in the frame memory displayed on the flat display). The smallest number (at) is stored in the input section and the display controller, respectively. By configuring the system to recalculate the two start addresses when a scroll instruction or a reduced display instruction is given in the input section, the input data is changed to the corresponding frame according to the start address of the input section. Write all data into memory. Furthermore, when displaying on one display section, all data can be read out from the frame memory and displayed according to the start address stored in the display controller. As shown in C, even if the user completes the "goal" or "reduction" command at any position on the virtual large screen, and then inputs the point input or icon, etc., it will be displayed accurately and promptly. It can be processed.

There is no need to constantly be aware of which part of the virtual large screen the part that Katsuda Neely is currently displaying is located on, and the user can draw a stroke with the scroll instruction part so that the user can display the entire position of his or her choice.

1. The display screen scrolls depending on the direction, distance and speed. It is possible to provide an input integrated ten-sided disgrain stem with high man-machine friendliness.

[Embodiments of the invention] Two embodiments of the present invention will be described below with reference to the drawings.

In the FR1, numeral 5 is a liquid crystal panel which is a display section, and also serves as an input section for handwritten characters, figures, etc.

Reference numeral 2 denotes a sensing coil print plate 1 for an electromagnetic coupling type tablet for detecting coordinates.1 is a coordinate input medium that makes the surfaces of the liquid crystal panel 5 and other parts on the same plane 7 to facilitate manual writing. This configuration is described in JP-A-49-123239 and JP-A-58-96337. In this example,
Furthermore, a scroll instruction section 3 for moving and displaying a part of the virtual large screen stored in the frame memory 8. It also includes a reduced display instruction section 4 for instructing reduced display so that the entire configuration of the virtual large screen can be seen at a glance. First, by specifying all arbitrary positions on the input section 5 with the coordinate pen 11, the magnetic field passing through the liquid crystal panel 5 can be produced on the sensing coil flint board 2 for the tablet. The detection signal is converted into input coordinates by the electromagnetically coupled tablet controller 9 and sent to the CPU.
It is processed by IO, and is loaded into a point corresponding to the frame memory 8, for example. The liquid crystal display circuit 7 converts the data in the frame memory 8 into a liquid crystal display signal.

Upon receiving this signal, the liquid crystal display controller 6 displays all information at the corresponding output coordinate position of the liquid crystal panel 5. Also, if a reduced display is instructed.

The reduction display command and start address are transferred to the liquid crystal controller 7 via the reduction and start address signal line 7101'z, and the liquid crystal display circuit 7 reduces the information in the frame memory 8 and converts it into a liquid crystal display signal. Furthermore, the scroll instruction signal is applied to the reduction and start address signal line 7.
The signal is transferred to the liquid crystal display circuit 7 via the signal line 101, a memory address of the frame memory 8 is calculated, information corresponding to the address is read from the frame memory 8, converted into a liquid crystal display signal, and transferred to the liquid crystal driver 6.

When giving this scroll instruction, by drawing a stroke on the scroll instruction section 3 with the coordinate input pen 11, the scroll direction and distance are instructed. For example, as shown in Fig. 1(a), when a stroke is drawn with the scroll instruction unit 3, the point is detected by the sensing coil printed board for a magnetically coupled tablet.Two adjacent points are the starting point and the ending point. , the displayed position on the virtual large screen is moved by that direction and distance. ! f. Since the timing at which the tablet detects the signal is fixed, the number of points detected when the scroll instruction section 3 is quickly drawn is 1.
With less stroke force ((+1) right side in Figure 1), scrolling becomes faster. Also, if you pull the wristloaf slowly, more points will be detected (Figure 1 [with]) on the left)
, scrolling becomes slower.

Details of the principle of the electromagnetic coupling tablet are described in the May 1983 issue of Transistor Technology.

FIG. 2 shows a vertical cross-sectional view of the physical configuration where the liquid crystal panel is located. Most conventional liquid crystal modules have a structure in which a liquid crystal driver is installed below a tL crystal panel. However, in order to detect the magnetic field generated by the coordinate input sensor with the sensing coil printed board for the electromagnetically coupled tablet, the distance between the two must be less than 5 cm. If there is a liquid crystal driver etc. between them, noise will occur. Therefore, as shown in FIG. 2, the liquid crystal common driver 604 is installed next to the liquid crystal panel 5 via a flexible flint wiring board. By doing this, the distance from the surface protection plate 501 to the reflection plate 505 becomes less than 5 meters, and a sufficient magnetic field can be detected.

FIG. 3 shows a longitudinal cross-sectional view where the liquid crystal pile 5 is not present. Also in the liquid crystal panel 50 part of Figure 2.

There is a coordinate input medium that has the same surface to facilitate handwritten input.

FIG. 4 shows a cross-section of the input-integrated display. A liquid crystal common driver 604 and a liquid crystal column driver 605 are installed next to the liquid crystal panel 5 and are connected via a flexible printed wiring board 603.

FIG. 5 is a block diagram showing the processing flow of input coordinates in CPU10. First, the input position transferred from the electromagnetically coupled tablet controller 9 is determined. If the input coordinates are in the area of the scroll instruction section 3, the input coordinates are transferred to the start address control 106,
Therefore, information (start address) instructing the display area is transferred to the liquid crystal controller 7 via the reduction and start address signal line 7101. Here, the start address is the address with the smallest number in the frame memory corresponding to the portion to be displayed on the liquid crystal panel 5. Further, if the input coordinates transferred from the electromagnetically coupled tablet controller 9 are in the area of the reduction instruction section, the start address control 106 transfers the reduction command and the start address to the liquid crystal controller 7. Furthermore, if the input coordinates that have been transferred are the input unit 5, the input coordinates (X, yli are converted to output coordinates (X, Y) by the input coordinate-output coordinate conversion 102 using a 7th order formula. Here, a, b is a predetermined constant for converting the coordinate system of the sensing coil printed board 2 for the electromagnetically coupled tablet to the coordinate system of the liquid crystal panel 5, and c
, d are variables based on the start address that change depending on the scroll instruction, and their values are omitted every time there is a scroll or reduction instruction. M is a variable that indicates the magnification of reduction, and the requested coordinates (X, Y), which change by 16 due to the reduction display instruction or cancellation, are sent to the application 104 side and at the same time are also sent to the echo back control 103. Ru. In the echo back control 101, given coordinates (
X, Y), the mode specified at that time is added, and output is requested to the frame memory expansion 105. For example, when displaying a certain dot '(j), the frame memory expansion 105 requests the frame memory 8 to write 1 in the portion corresponding to the (X, Y) coordinates of the frame memory 8.

FIG. 6 is a block diagram showing the data flow in the frame memory 8 and the W crystal controller 7. As shown in FIG. In the frame memory 8, according to a request from the CPU 10, a memory address control circuit 802 calculates a memory address corresponding to the output coordinates to the liquid crystal panel 5, and writes the data of the output coordinates to the liquid crystal panel 5 into that part. . Further, the output coordinate data of the memory address sent from the liquid crystal controller 7 via the memory address signal line 8700 is transferred to the liquid crystal controller 7 via the gold/frame memory read signal line 8700.

The liquid crystal controller 7 stores the reduction display command and start address sent from the CI) UIO via the reduction and start address line in the sequence control circuit 704, and based on this, each of the liquid crystal controllers 7 Control the circuit. The liquid crystal controller 7 reads the output coordinate data from the frame memory 8↓, converts it into a liquid crystal display signal, and sends it to the liquid crystal column driver 605. The liquid crystal panel 5 uses 640 x 256 dots, and when the liquid crystal element is driven by multi-flexing drive and the frame frequency is set to approximately 70 I-Iz, the reaction speed of the liquid crystal element is slow, so the liquid crystal panel 5 is need to be divided. Therefore, all eight liquid crystal display signals corresponding to the output coordinates of one dot on each screen are transmitted simultaneously and in real time to each divided screen.

1. First, based on the start address stored in the sequence fi control circuit 704, the memory address calculation circuit 7
02, the memory address of the frame memory 8 corresponding to the output coordinates of each screen of the liquid crystal panel 5 divided into eight parts is calculated in sequence, and the output coordinate data is requested from the frame memory 8. The output coordinate data is sent to the parallel-to-parallel conversion circuit 7 corresponding to each divided screen via the data register 701.
The signal is sent to the register of 1 in 05, and sent to the liquid crystal column driver 605 as a realistic display signal.

In the case of reduced display, a reduction command and a start address are stored in the sequence control circuit 704, and based on these, the memory address calculation circuit 702 outputs each screen of the eight-divided liquid crystal panel 5. The frame memory 80 memory addresses corresponding to the coordinates are calculated in sequence, and the output coordinate data is requested from the frame memory 8. Here, since the display is limited to 1/2 reduction, four times the amount of output coordinate data is required compared to the same size display. The output coordinate data is sent to the 3 reduction circuit via the data register 701, and the data of the four adjacent points next to the fir tree is ANDed as one point's worth of data, which is then sent to the parallel-to-serial conversion circuit 705 in the same manner as described above. sent to.

The tarock signal that takes the timing here and the tarlock signal sent to the liquid crystal common driver 604 and liquid crystal column driver 605 is sent from -CPUIO to the basic clock signal line 710.
The timing generation circuit 706 generates the timing signal based on the basic clock signal sent through the clock signal 2'i.

In this way, according to the embodiment, formula (1) is used in the input section.
By storing information on a reduction command and a start address in the variables, respectively, and using this equation (1), reduction display and scrolling can be easily performed in the case of f'c. Further, even if the linear densities of the electromagnetically coupled tablet sensing coil printed board 2 and the liquid crystal panel 5 did not match, the input point and the output point could be matched. In addition, in the output section, the LCD controller 7 stores the start address and reduced display command, calculates the display address based on this, and the reduced command and start address of these input and output sections are simultaneously Since it can be rewritten, it is now possible to accurately display the location being processed. (2) By installing the scroll instruction section 3 on the same surface as the liquid crystal panel 5 and making it a scroll-only area, mode switching between scroll instruction and coordinate input instruction is no longer necessary. ■By using an electromagnetically coupled tablet for scrolling instructions, it is now possible to give instructions using strokes and scroll in any direction and at any speed. ■ By installing the liquid crystal common driver 604 and liquid crystal column driver 605 next to the liquid crystal panel 5 using a flexible printed wiring board,
The magnetic field generated by the coordinate input ben 11 can now be detected by the electromagnetic coupling type tablet coil printed board 2.

In Figure 5, 101 is input position determination, 301 to 308 are lightning when the stroke is pulled quickly, points 1309 to 312 detected by the magnetic coupling tablet are points detected when the stroke is pulled slowly, and 601 is the detected point when the stroke is pulled slowly. Printed circuit board for liquid crystal column driver, 602 is printed circuit board for liquid crystal common driver, 603 is flexible printed wiring board, 606 is power supply for liquid crystal, 9200 is tablet detection coordinate signal line, 8101 is frame memory write data signal line, 8102 is output coordinate Signal line, 7102
is a basic clock signal line, 8700 is a memory address signal line, 7800 is a frame memory read data signal line,
6701 is a serial output data signal line, 6702 is a liquid crystal display clock signal line, and 5600 is a liquid crystal display signal line.

〔Effect of the invention〕

According to the present invention, it has become possible to accurately and quickly write and read data into any part of the frame memory.

Additionally, users can now scroll in any direction, distance, and even speed.

[Brief explanation of the drawing]

Fig. 1(a) is a schematic diagram of the input-integrated flat display device and its peripheral circuit, Fig. 1(b) is a diagram showing the points detected by the electromagnetic mold tablet when scrolling is instructed, Fig. 2 and Fig. 3 is a longitudinal cross-sectional view of the input-integrated flat display device, Fig. 4 is a cross-sectional physical configuration diagram thereof, Fig. 5 is a flowchart of processing in CPU10, and Fig. 6 is a block diagram of the liquid crystal controller and frame memory. be. DESCRIPTION OF SYMBOLS 1... Coordinate input medium 2... Sensing coil printed board for electromagnetically coupled tablets, 9... Controller for electromagnetically coupled tablets, 501... Surface retention board, 502...
... Polarizing plate, 503 ... Glass plate, 504 ... Liquid crystal element 2505 ... Reflection plate, 603 ... Flexible printed wiring board, 604 ... Liquid crystal common driver shell / Σ 6 Dano

Claims (1)

[Scope of Claims] 1. An input unit for inputting characters and figures by hand, a microcomputer, etc., a flat display for immediately displaying the handwriting, and a frame for storing a virtual large screen larger than the display screen of the flat display. In an input-integrated flat display system with memory. An input-integrated flat display system having the following features: a scrolling means for freely instructing which part of the frame memory to display; and a reduced display means for understanding the overall configuration. 2. In claim 1, which part of the frame memory is processed in order to accurately and quickly write and read data to and from the frame memory? What is claimed is: 1. An input-integrated flat display system comprising a system for storing instruction information in the input section and the display section. 3. In claim 1, when the user gives a scroll instruction, the user can scroll in any direction by a stroke,
An input-integrated flat display system characterized by being equipped with a scrolling instruction section for instructing distance and speed.