NO840657L - PROCEDURE AND APPARATUS FOR AA MINIMUM CHARACTER PRESENTED ON A SCREEN SCREEN - Google Patents

Description

METHOD AND APPARATUS FOR REDUCING SIGNS PRESENTED

ON A PICTURE SCREEN.

The invention relates to a method and apparatus, when presenting alphanumeric or graphic characters on a picture screen, for producing the characters in a reduced format in relation to a specific normal size.

The German Off.1.schrifter 2715075 and 2727901 deal with various methods for enlarging the characters at their presenta-

tion on picture screens. It is also known to change position-

one and the format of the characters on the picture screen.

As mentioned, the method and apparatus according to the invention relate to the reduction of the size of the characters. The known methods are intended to enlarge the characters and do not include reducing their size.

The method and apparatus which solves the problem in question are characterized by the patent claim, and comprise a symbol or character generator containing a typeface (font) memory CM

in which each character to be presented on a screen la-

res in a given determined normal size in a character matrix, consisting of a number of rows and columns, individually belonging to each of the characters. The character matrix also stores the character design in the form of logical ones and zeros. The presentation on the screen is controlled by a control unit, which in turn is activated by a microprocessor, both manufactured by MOTOROLA, the former designated M6845 and the latter M68000. The principle is that the characters can be formed on the picture screen using closely spaced points, some of which are on and some are off.

The human eye integrates these points into lines that form the desired character image. To enable presentation, the beetle screen unit is divided horizontally and vertically into a number of points, which are lit or extinguished in response to the configuration of the presented character. The information regarding which points (bits) are to be lit on the screen come from said character generator. A document memory DM contains data relating to which character is to be selected in the character generator, and the control circuit M6845 sends synchronization signals so that the correct character address is indicated and the right column is selected. A reduced character is generated by the character generator when, after indication in the typeface memory, a number of rows and columns in the character matrix are skipped according to the desired degree of reduction. If, for example, it is desired to halve the character format, only any column is read from the font memory. With n-fold reduction, every nth column is read out when the character is generated. The information that is read out from the typeface memory CM is compressed in height for the halving process by means of a gate network OR. The result of the reduction operation will be that a character half as large as that stored in the character array is presented on the screen for "halving", and when dividing by n, a character will appear on the screen reduced n times in both height and width . The advantage of the method and apparatus according to the invention is, for example, for halving, that the screen can be used to display twice as many rows and twice as many characters per advice. In addition, of course, you avoid having to store a bit pattern for the half-format and increasing the memory capacity for storing the pattern.

The method and the device according to the invention are described in more detail by means of an embodiment, and with reference to the attached drawings, where

Fig. 1 is a block diagram of the apparatus according to the invention, Fig. 2 shows examples of character structure for normal and halved character size, and Fig. 3 shows a combination of OR circuits (OR) and shift registers according to the invention.

As can be seen from fig. 1, the device according to the invention contains a control circuit CU for controlling the character design on a conventional picture screen. The control circuit is made by MOTOROLA, type MC6845. The principle for controlling the presentation is, as previously mentioned, that the sign can be designed on a picture screen using closely spaced light points, some of which are lit and others are extinguished, and that the human eye integrates these light points into lines that make up the desired sign image. In the inventive application, these lines are created using columns which normally each contain 24 light points. In the example, a location on the screen dedicated to a character may comprise 12 such contiguous columns, although this number is not fixed at 12, and may be varied. Within this exemplified 24x12 matrix, the desired character is created by turning on or off the appropriate light points. The picture screen holds a total of 25 text lines when the characters are presented in their normal size. When presenting an image on the picture screen, the electron beam is controlled so that the beam sweeps vertically starting at the lower left corner of the screen. During the first line sweep, 25 columns appear, one above the other, the first column in the lower left corner of the screen and the last column in the upper left corner. Each of the columns comprises 24 points. These are the first columns for each line of characters presented. After the first sweep, the beam returns to the lower edge of the picture screen and the second sweep starts so that the second column of the character matrix appears. After a completed second swipe, the second column in each row of characters appears on the image screen. In the example, when twelve such sweeps have been completed, the first character in each row of each of the 25 rows has been presented on the display screen.

As an example of character reduction in the apparatus according to the invention, a halving of the character has been chosen for the sake of simplicity, although it is of course possible to carry out reduction by another factor. By selecting every other light dot bit from the typeface memory, and every other column from the control circuit, the designated character can be reduced to half its height and half its width. The choice of a character matrix consisting of 24x12 points versus the normal 16x8 points enables the formation of each character two points thick. By lighting points in pairs both in height and width, a character thickness is thus achieved which guarantees, by the aforementioned halving of the character format, that at least one of the points in the respective pair of points is lit,_.

i.e. the character form is retained. As further appears from fig. 1, the outputs of the control circuit CU are connected to the inputs of a multiplexer Ml, type 745157. To further inputs of the multiplexer Ml are connected the outputs of a microprocessor CP, made by MOTOROLA, type M68000. In a charging step, character information is written in ASCII code via the processor and a first bus switch BS1 of type 74LS245 into a document memory DM from a keyboard TB which is connected to the processor. The memory is thereby loaded with the information to be derived later and presented on the image screen. The processor CP analyzes the ASCII codes from the keyboard and distributes the characters to the right places in the document memory, which is a RAM buffer memory made by Hitachi, type MCM 6665-20. The document memory DM is addressed from the processor CP via the multiplexer Ml and also receives a designation signal from the control unit CU. The memory DM thus selects•which characters are to be presented on the picture screen, and in which position the presentation is to take place. The memory positions thus contain the ASCII codes for the characters to be presented in the positions determined by the address. The bus switch BS1, which is connected to the memory's DM outputs, has the task of controlling, as needed, the direction of the data flow to or from the memory DM. A holding circuit L, type 74LS 377, distributes the ASCll-encoded address from the memory DM to a second multiplexer M", type 74S157. This address information consists of 8 bits, and is the ASCII code for the character to be presented in a certain position on the screen. These eight bits are applied to the address inputs of a type section memory CM, made by HITACHI, type MCM 6665-20, and designate the dot representation for a particular character in the memory CM. In the memory CM, it is consequently determined which points in the dot matrix for a character shall is lit on the picture screen. The ASCII code designates all 288 points (24x12) in the dot matrix. However, the ASCII code is increased in the multiplexer M2 with an additional code of 5 bits which determines which of the 12 adjacent columns are addressed in the character matrix. This column address code is sent from the control unit CU to a column address compression circuit KA, type 74LS569, via said multiplexer M2 to additional address inputs on the type section memory CM.

The circuit KA consists of a controllable shift register as normal

gives the same address on its output as has been received on its inputs when no reduction is desired. This means that in a normal case each of the columns in the character point matrix is indicated. The ASCII code for a particular te.<g>niut is output as an address from the document memory DM to the typeface memory CM, as many times as the number of columns in the character. For 12 columns, each character address is thus output 12 times. The information is read from the outputs of the memory CM in binary

form of the selected point pattern, to the inputs of a second bus switch BS2, type 74LS245, whose task is to determine the data flow direction, i.e. from or to the memory CM. The information is fed from the outputs of the switch BS2 to the inputs of a gate network OR consisting of a number or circuits, type 74LS32. From the OR circuit, the information is fed to the inputs of a number of shift registers SR, type 74LS377. The function of the OR circuits is to feed information to the register SR as to which points are to be lit on the picture screen under the control of signals El, E2, E3, which are supplied from the processor CP to the inputs of the network OR, in response to whether each point or every other point shall be lit,

i.e. whether characters of normal size or characters of reduced size are desired. Fig. 3 shows the combination of OR circuits according to the invention.

When no reduction is desired, the control input E2 is given

a signal from the processor CP, which proves the dot pattern of the selected character to be transferred unchanged to the screen. The control inputs El and E3 are activated during the reduction process, but not E2, so that only every other point is lit in the vertical direction. The sign is then presented at half its height compared to the normal case. In order to also achieve half the character width, a control input E4 is activated on the compression circuit KA, so as to act as a multiplier by the factor 2. A reduction frequency by means of the device according to the invention is carried out in the following way.

Suppose a character comprising 24x12 points in the matrix is to be presented at display matrix address 0 (zero), MA-0. Addresses supplied to the document memory DM via the multiplexer Ml indicate the cell in the memory that contains the ASCII code for the character to be presented in a specific position on the picture screen, which in the selected case is the lower left matrix ( MA-0 ) on the picture screen. The ASCII code is sent via the bus switch BS1 to the holding circuit L. The bus switch BS1 is set in such a position that data flows from the document memory DM

to the holding circuit. The character address is distributed from the holding circuit's outputs to the inputs of the multiplexer M2. This address, which thus constitutes the ASCII code for the character to be presented in position MA-0 on the picture screen, consists of eight bits.

These eight bits indicate a point representation of a special character in the font memory CM. As previously mentioned, a character matrix that is 24 points high and 12 points wide corresponds to this point representation. After output from the multiplexer M2

to the typeface memory CM, the ASCII code indicates all 288 dots

ter in the particular matrix. If there are 12 columns in each character, the ASCII code will be output from the document memory DM

to the address input of the font memory CM twelve times for each character.

In order to determine which of the twelve columns in the matrix is to be activated, the ASCII code in the multiplexer M2 is extended by a further 5 bits, which, when received in the font memory, define which column is to be read out. This complementary address is obtained, as previously mentioned, from the column address circuit KA,

whose inputs are fed from the control unit CU. In normal use of the display equipment, there is no diminution of the characters. The control input E2 of the gate network OR is then activated

host (fig. 3), as the signals from the type section memory CM via the bus switch BS2 to the inputs a-x on the gate network OR pass this without being affected. Thereby, the shift register SR is supplied with a complete, unreduced column comprising 24 points.

The column address compression circuit KA works so that the control input E4 is not activated during normal operation. Each colony

in the character matrix is then designated from this circuit.

When reducing, e.g. halving, double the number of lines and double the number of characters per row read from the document memory DM under control from the control unit CU as an address to the font memory CM. The halving command is triggered from the keyboard TB. The control input E4 is activated on the column compression circuit, and only every other column is designated in the typeface memory. In the case of half-format output, the control input E2 of the gate network OR is deactivated, instead it is activated during a column period (the time required to read out a column from the typeface memory CM. The input E3 of the circuit OR is not activated in this position, and every other bit of the typeface memory's data is output now to the first half of the shift register SR. For the next column time, the input E3 is activated and the input El is deactivated, so that every other bit from this second column is fed to the other half of the shift register. The shift register SR is thus filled with compressed columns from the two vertically adjacent landscape characters. This information is fed in a known manner from the shift register to a screen point memory VOC for further feeding to the screen. The memory VOC is a RAM memory, type MCM 6664-20, and is used as a buffer memory in which information from the shift register SR is written at a low rate and from which readout to the image screen takes place at a high rate.The memory sends update information tion to the monitor CRT. The column address compression circuit KA is activated, as mentioned, for the output of half formats so that when the first sweep line (address - 0) is output, and the control circuit CU sends the address information to the circuit KA for the second vertical line, this address is multiplied by 2, so that the third line (address-0) is instead output from the font memory CM. This consequently means that every other vertical column is output to the shift register SR for presentation of the character image. A character that is reduced to half the normal size stored in the character matrix is thus displayed in the described manner. All clock signals are provided by a clock signal unit CL, not shown, which is common to the system. Reading and writing in the memories has not been described in detail, as this is known technology.

With the aid of the device according to the invention, a large increase in space is achieved on the picture screen without worsening the clarity of the presentation.

Claims (3)

1. Method for presenting characters generated by a character generator which contains a typeface memory for storing characters in normal size in a character matrix made up of a number of rows and columns and individually belonging to each of the characters, to present characters in a format which is less than said normal. size, characterized in that the characters stored in the typeface memory are caused to be fed to the screen in the form of a subset of the memory content for corresponding characters, and that when presenting a given subset it is arranged that adjacent points on the screen .is ignited in accordance with the said subset, in that when the character format is reduced by n times, only every nth row and every nth column from said character matrix are presented on the screen. 2. Method as stated in claim 1, characterized in that said character, for its normal size, is arranged to be presented in the form of double dots. 3. Apparatus for carrying out the method as stated in claim 1, for the presentation on a display unit of characters generated by a character generator containing a typeface memory for storing characters in normal size in a character matrix made up of a number of rows and columns and individually belonging to end of each of the characters, to present in a format smaller than said normal size, characterized in that a document memory (DM), which can be loaded with characters from a processor (CP), is addressed on its address inputs from said processor via a first multiplexer (Ml) , and that the memory, upon indication from a control unit (CU) controlled by said processor, sends on its data outputs, via said first multiplexer, the designated character that is stored in the memory (DM) and determined by the address, in the form of a character- and position-determining binary code, to address inputs on the typeface memory (CM) via a first bus switch (BS1), a holding circuit (L) and a second multiple in the plexor (M2), said binary code forming the address for which the pixel information is to be output from the typeface memory (C) by addressing; that a compression circuit (KA) via a control input (E4) is addressed and controlled from the control unit, said circuit being of the type which, when deactivated, sends the same address on its outputs as it received on its inputs, and when activated, sends said control input the supplied address in compressed form as a complementary address to the typeface memory (CM) for designating which columns of the respective character matrix are to be output from the memory in response to the degree of reduction; that a controllable gate network (OR) is connected to the outputs of the type memory (CM) via a second bus switch (BS2), as said network transmits on its outputs, in response to the activation of a number of control inputs (E1-E3), pixel information to a shift register ( SR) which says which points in a vertical direction are to be presented on the image screen, depending on the degree of reduction, as the register information is written into an image point memory fr/OC) and read out to the image screen so that points are lit on the image screen corresponding to the desired characters, positions and degree of reduction.