|Publication number||US3924225 A|
|Publication date||Dec 2, 1975|
|Filing date||May 30, 1974|
|Priority date||May 30, 1973|
|Also published as||DE2327474A1|
|Publication number||US 3924225 A, US 3924225A, US-A-3924225, US3924225 A, US3924225A|
|Original Assignee||Olympia Werke Ag|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (1), Referenced by (8), Classifications (14)|
|External Links: USPTO, USPTO Assignment, Espacenet|
Langnickel Dec. 2, 1975  Inventor: Wolfgang Langnickel,
Braunschweig, Germany  Assignee: Olympia Werke AG, ABSTRACT Wilhelmshaven, Germany In a data read-out system in which the read-out of  Flled: May 1974 lines of characters is effected by the production of a [21 Appl. No.: 474,863 pattern of dots constituted by a series of dot rows and in which a representation of the dot pattern of each available character is stored in a respective individu [3O] Forelgn Apphcauon Pnomy Data ally addressable location of a character memory, a ca- 30, Germany .4 of reading out each uch line producing either a succession of vertical rows or horizontal rows of U.S- Cl. the dot pattern for an entire line is achieved con-  Int. Cl. l necting to the utputs of the memory to a dot pattern Field Of Search 340/324 M, 324 AD, 324 A; read-0ut device via a vertical row selector and a hori- 178/30 zontal row selector and by enabling only one of the selectors during a given read-out operation.  References Cited UNITED STATES PATENTS 8 Claims, 4 Drawing Figures 3,750,133 7/1973 Helbig, Sr. et a]. 340/324 AD CONTROL UNIT CHARACTERW- ADDRESS 7 DECODER PARTIAL 67 COLUMN SELECTOR 87 PARTIAL LINE SELECTOR 73 COMBI- NATION CIRCUIT CHARACTER DISPLAY DOT RASTER SIGNAL GENERATOR PROVIDED WITH CHARACTER MEMORY gIOLLECTION SWITCH READ-OUT DEVICE Primary Examiner-Marshall M. Curtis Attorney, Agent, or FirmSpencer & Kaye US. Patent Dec. 2, 1975 Sheet 1 of2 3,924,225
PRINTING 50 I-IEAD L 5 IIIII IIIII IIIII IIIII RECORD CARRIER PRINTING HEAD 55 56 57 58 CAR R US. Pamm Dec. 2, 1975 Sheet 2 of2 3,924,225
CONTROL UNIT CHARACTER- MEMORY ADDRESS DECODER PARTIAL 67 COLUMN SELECTOR PARTIAI.
LINE 69 SELECTOR COMBI- NATION CIRCUIT COLLECTION CIRCUIT SWITCH READ-OUT 80 DEVICE CHARACTER DISPLAY DOT RASTER SIGNAL GENERATOR PROVIDED WITH CHARACTER MEMORY BACKGROUND OF THE INVENTION The present invention relates to a character display signal generator for controlling dot raster elements in a data display or data printing device. The invention particularly relates to arrangements in which the character display is in the form of a dot pattern selected from the elements of a dot raster and sections, i.e. parts of lines or parts of columns, of the entire dot raster are pro duced in succession. The invention relates more specificially to character display control systems of the type including a character memory into which is fed address information which determines which character is to be selected and at whose output the complete dot pattern information for the selected character is available; a section selector which is switched from section to section and which selects, from the complete dot pattern information, the sections to be used; and a collection circuit which collects the information signals relating to the selected sections in output lines.
Dot raster printers or mosaic printers, and corresponding display devices, are known in which the print ing head prints the complete dot pattern image simultaneously and the head is moved with respect to the record carrier from location to location.
It is also known to provide a stationary printing head which extends across the full width of the record car rier. With a X 7 mosaic raster for each character location, for example, such a printing head includes five juxtaposed dot printing elements per character printing location so that, in one printing step with the record carrier stationary, one horizontal row of dots constituting a portion of a line of characters can be printed sii multaneously for all character locations. After a full line of dots, or partial character line, has been printed in this way, the record carrier is advanced transversely to the direction of the line and then the next line of dots is printed for all locations. A sequence of seven such printing steps thus produces a complete line of characters.
It is also possible, however, to provide a printing head which has seven printing elements, arranged in the vertical direction, in the case of a 5 X 7 mosaic raster, for example. With the record carrier stationary the printing head is advanced in the direction of the line and prints successive columns, or vertical rows, of dots, or partial character columns. When a complete line has been printed, the record carrier is advanced trans versely to the direction of the printed line and then the next line of characters is printed.
With all these dot raster printers and dot raster display devices the character generation is relatively complicated. Fixed value memories are utilized for this purpose and are addressed via address lines according to the desired character. They then provide signals designating the desired character pattern at their outputs. These fixed value memories, however, are designed either for partial column operation or for partial line op eration, described above, so that different fixed value memories must be provided for the different operational modes.
SUMMARY OF THE INVENTION It is an object of the present invention to overcome this drawback by providing a character display signal generator including a fixed value memory, or a character memory, which can be used for all conceivable modes of operation in dot raster printers.
The character signal generator according to the present invention is distinguished in that it includes two section selectors which operate with common outputs, with one selector acting as a partial vertical row, or column, selector when the column mode is selected and the other selector acting as a partial horizontal row, or line, selector when the line mode is employed; and a collection circuit which combines the output signals of the two section selectors in partial columns in the one mode and in partial lines in the other mode and furnishes them to respective output lines. Such a character generator can be easily switched to any conceivable mode of operation.
An advantageous embodiment of the present invention is characterized in that the output lines for the partial columns and partial lines are combined in a combination circuit and a switch connects either the one or the other output lines to common output lines. In this way the number of output terminals is reduced, which is of considerable advantage in the case of character signal generators arranged on an integrated circuit because the size of the circuit elements which need be accommodated in integrated circuits is usually not limited by the number of individual elements but rather by the number of external leads.
BRIEF DESCRIPTION OF THE DRAWING FIG. 1 is a schematic representation of a dot raster image.
FIG. 2 is a schematic representation of the operation of a dot raster printer which prints partial character lines.
FIG. 3 is a schematic representation of a dot raster printer which printspartial character columns.
FIG. 4 is a block circuit diagram of a preferred embodiment of a display signal generator according to the present invention.
DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a schematic representation of a dot pattern character 40 formed from selected dots of a 5 X 7 raster composed of elements 1 to 35. The raster dots 1 to 5 form the first partial line, raster dots 6 to 10 form the second partial line, etc. Raster dots 1, 6, 11, 16, 21, 26, 31 form the first partial column and raster dots 2, 7, 12, 17, 22, 27, 32 form the second partial column, etc. If the character 2 is to be displayed or printed, the corresponding dot pattern is constituted by dots at the 10- cations of raster elements 2, 3, 4, 6, 10, 15, 19, 23, 27, 31, 32, 33, 34 and 35.
FIG. 2 shows a printing head 50 which, in the present example of a 5 X 7 raster, has five printing elements 51 per character location, and which extends across the entire printing width of a record carrier 54. Technically, such a printing head could print a full partial character line, i.e., a line of dots for every character in the row across carrier 54, at the same moment. However, this would require expensive control circuits for the printing elements 51. For this reason, the following mode of operation is usually selected: The printing elements 51 of the first character location are addressed first and the first partial line 52 of the first mosaic character 41 is printed. Then the printing elements of the second character location are addressed and the first partial line 53 of mosaic character 42 is printed. This process is continued over the full printing width of the record carrier 54 for characters 4349 and thereafter the record carrier is moved by the distance between successive dot raster rows in the direction of arrow 59. Thereafter, the second partial line for all mosaic characters 41 to 49 is printed and after seven such sequences a complete line has been printed. The advancing of the record carrier can be continuous because the sequence of addressing successive character locations is very fast. The switching devices for switching between the individual locations are not part of the present invention and are therefore not shown in detail.
FIG. 3 shows a different mode of operation which is widely used. For this operation, a printing head 55 contains seven printing elements 56 which are arranged transversely to the direction of a line and with which a partial column 57 can be printed simultaneously. In operation, printing head 55 is moved across the record carrier 61 in the direction of the line, as indicated by arrow 60, and after printing of the first partial column 57, partial column 58 is printed. As soon as a full line has been printed, i.e., five columns for each of character locations 41-49, the record carrier 61 is advanced by the space of one line in the direction of arrow 59 and the printing head 55 returns to column 57 and then prints the next full line.
FIG. 4 shows a block circuit diagram of a preferred embodiment of the character signal generator of the present invention and the associated control devices and data emission devices. The dot-dash line 87 indicates the extent of the individual units making up the character generator, which units are preferably all formed in an integrated circuit. The character signal generator 87 is controlled by a control unit 63 and emits its output-signals via outputs 80 to a data read-out device 74 which is either a printer or a display unit.
Character generator 87 includes an address decoder 65 which controls a character memory 66 by delivering signals via its output lines 76. This character memory provides at its output lines 77 the full clot pattern information for a dot pattern character. This information passes through a partial column selector 67 and a partial line selector 69 to a collection circuit 71. A switch 72 selects from the information contained in the collection circuit 71 either the information for printing in partial columns or for printing in partial lines, and the selected information travels through a combination circuit 73 to common outputs 80 for the data read-out device 74.
The operation of such read-out will now be described in detail. The information to be read out reaches the control unit 63 through an input device 62 and the data identifying the characters to appear in a full printed line is stored in a line memory 64. From this memory the signals relating to one character at a time are fed via code lines 75 to the address decoder 65 and the decoder operates to produce an address signal at one of its output lines 76, each such line corresponding to a predetermined character and being connected to a corresponding location in character memory 66. For example, if the character 2 is to be printed, an address signal is produced on the second one from the top of lines 76. By addressing this second line 76 the address is pro- 4 vided to character memory 66 and corresponding character signals pass through the corresponding linkage points to the output lines 77. In the case of 5 X 7 character mosaic rasters, 35 output lines 77 are provided. Each of lines 77 corresponds to one of the raster elements of FIG. 1 and is correspondingly numbered.
It is now assumed that a read-out by partial lines is desired. In this case the partial column selector 67 is made ineffective, i.e., it permits the signals on lines 77 to pass therethrough. The partial line selector 69 is brought into a first position, or selection condition, by control unit 63, by a signal applied via a control line 83, which means that the first line, i.e., the uppermost horizontal line, of the partial line selector 69 is connected to ground potential at grounding point 86. This means that the signals from all lines 77 which are linked with the first line of partial line selector 69 are suppressed. Linking is depicted throughout by solid dots. Thus only the signals from the first five (1-5) lines 77 are permitted to pass; these lines correspond to the first partial line 52 of the first character 41, as shown in FIG. 2. The signals in these first five lines 77 travel via linking points in collection circuit 71 to the partial line outputs 79. Switch 72 is switched to partial line emission by the application of ground potential on control line 81 from control unit 63 and thus suppresses all signals in the partial column outputs 78. The signals in the partial line outputs 79 are transmitted, via linkage points in the combination circuit 73, to the common outputs 80. From there they control the data read-out device 74 which is synchronized by signals delivered via a further control line from control unit 63.
Then line memory 64 furnishes, via code lines 75, signals identifying the character intended for the second character location, i.e., 42 of FIG. 2. The address decoder 65 places an address signal on the appropriate output line 76 and the character memory 66 provides the corresponding output signals at output lines 77. The partial line selector 69 is still in the first position so that only the information in lines 1 to 5 is transmitted to outputs 80. In this way the first partial line 53 of the second character location is printed. This process is repeated until all first partial lines of the mosaic characters 41 to 49 have been printed.
Now the partial line selector 69 is switched to the second partial line, i.e., the second horizontal line from the top, by a switching signal applied via control line 83. The line memory 64 again furnishes the signals identifying the character corresponding to the first character location 41 to the address decoder 65 and the character memory 66 provides the corresponding output pattern at lines 7 7. Since the partial line selector 69 is now in the position of the second partial line, however, only the output signals corresponding to lines 6 to 10 are permitted to pass through to the inputs to circuit 71. These signals pass over the corresponding linkage points in collection circuit 71 and through combination circuit 73 to the common outputs 80. This process is repeated until all partial lines have been printed. Now the line memory 64 can provide the information for the characters to appear in the next full printed line.
For effecting partial column operation, the partial line selector 69 is rendered ineffective. The partial column selector 67 is switched from partial column to partial column by the appropriate control signals delivered via control line 84 from control unit 63. In a manner similar to partial line selector 69 it selects from all the information available at output lines 77 that information which corresponds to the partial column to be printed. While printing the first partial column 57, indicated in FIG. 3, only the information in output lines 1, 6, ll, 16, 21, 26, 31 is permitted to pass and all other signals are suppressed. After printing the first partial column 57 the second partial column 58 of the first character location 41 is printed. This process is repeated until a complete line has been printed. The line memory 64 must, in a corresponding manner, provide information identifying the character at one location after another across the printing line for access for decoder 65.
In this mode of operation switch 72 receives a signal via control line 82 which causes the partial line outputs 79 connected with this line to be short-circuited. In this way the corresponding information will pass only through partial column outputs 78, via combination circuit 73, to the common outputs 80.
It is of course also possible to eliminate the address decoder 65 from the character generator 87 and to address the address lines 76 directly. This is advisable only with a small store of characters, however, because otherwise too many connecting lines would result. It is also possible to obtain the output signals directly depending on the mode of operation employed either at the partial line outputs 79 or at the partial column outputs 78 instead of at lines 80.
In the present example the following assumptions were made to facilitate the description of the character generator according to the present invention: the address decoder 65 is provided with AND elements at its points of linkage, and the character memory 66 has OR elements at its points of linkage. The partial column selector 67 and the partial line selector 69 were described as if they had suppression elements at their points of linkage; the same applies for switch 72. The collection circuit 71 and the combination circuit 73 were described as if they had OR elements at their points of linkage. It is of course also possible to replace these various linkage elements by other linkages, for example NOR linkages.
It will be understood that the above description of the present invention is susceptible to various modifications, changes and adaptations, and the same are intended to be comprehended within the meaning and range of equivalents of the appended claims.
1. In a character signal generator for selecting the dot raster elements to be produced in a data read-out dot raster display device having a plurality of signal inputs in which signals representing, selectively, partial horizontal or vertical rows of an entire dot raster are emitted in succession, the generator including a character memory composed of a plurality of memory locations each containing a representation of a respective character available for read-out and arranged to receive address signals identifying the memory location corresponding to the character to be read out, said memory having a plurality of outputs for presenting signals containing the complete dot raster information of the addressed character, row selector means connected to the memory outputs and arranged to be switched from row to row for selecting, from the complete dot raster information, successive rows to be read out, and a collection circuit having output lines and arranged to collect the information relating to the selected rows at its output lines, the improvement wherein: said selector means comprise first and second row selectors both connected to said selector means output lines, said first row selector being constructed to operate as a vertical row selector when a succession of vertical dot raster rows are to be read out and said second row selector being constructed to operate as a horizontal row selector when a succession of horizontal dot raster rows are to be read out; said generator further comprises means connected for rendering one of said selectors ineffective during any read-out operation; and said collection circuit comprises means connected to link the output signals of a selected one of said row selectors to conduct such signals to corresponding output lines of said collection circuit.
2. An arrangement as defined in claim 1 further comprising an address decoder connected for supplying address signals to said character memory.
3. An arrangement as defined in claim 1 wherein said collection circuit has two sets of output lines, with each being connected to receive the output signals from a respective one of said row selectors, and further comprising: switch means connected to said collection circuit for permitting output signals to appear on only one of said sets of output lines during any read-out operation; and a combination circuit having a group of common output lines and connected to both of said sets of output lines of said collection circuit for conducting the signals appearing on said one set of output lines to said common output lines. I
4. An arrangement as defined in claim 3 wherein said character memory, said first and second row selectors, said collection circuit, said switch means and said combination circuit are together constituted by a matrix composed of intersecting conducting lines and linkage means at selected points of intersection of said conducting lines.
5. An arrangement as defined in claim 4 further comprising an address decoder connected for supplying address signals to said character memory and constituted by a portion of said matrix.
6. An arrangement as defined in claim 4 wherein one set of said conducting lines constitutes the output lines of said character memory and! of said first and second row selectors and the input lines of said collection circuit, and said first and second selector circuits constitute signal suppression circuits.
7. An arrangement as defined in claim 4 wherein said switch means are connected for selectively suppressing signals on that set of output lines on which output signals are not to appear.
8. An arrangement as defined in claim 3 wherein said signal inputs of said display device are connected to said common output lines of said combination circuit and said combination circuit is arranged to supply the signals for a row to be read out simultaneously to said display device signal inputs.
|Cited Patent||Filing date||Publication date||Applicant||Title|
|US3750133 *||Jul 30, 1971||Jul 31, 1973||Rca Corp||Home television receiver modified to operate as video terminal|
|Citing Patent||Filing date||Publication date||Applicant||Title|
|US4090188 *||Jul 6, 1976||May 16, 1978||Fuji Xerox Co., Ltd.||Dot matrix converter|
|US4132979 *||Dec 15, 1976||Jan 2, 1979||Teletype Corporation||Method and apparatus for controlling a programmable logic array|
|US4467448 *||Dec 4, 1981||Aug 21, 1984||International Business Machines Corporation||Image rotate control circuitry|
|US4560980 *||Nov 2, 1982||Dec 24, 1985||Olympia Werke Ag||Method of typing scripts whose characters are arranged next to one another in rows or underneath one another in columns|
|US4566002 *||Dec 16, 1982||Jan 21, 1986||Canon Kabushiki Kaisha||Data output apparatus capable of rotating data output therefrom relative to data input thereto|
|US4691200 *||Oct 1, 1984||Sep 1, 1987||Xerox Corporation||Matrix display with a fast cursor|
|EP0081096A2 *||Nov 12, 1982||Jun 15, 1983||International Business Machines Corporation||Image rotate control circuitry|
|EP0081096A3 *||Nov 12, 1982||Apr 25, 1984||International Business Machines Corporation||Image rotate control circuitry|
|U.S. Classification||345/467, 178/30|
|International Classification||B41J7/00, G06K15/08, B41J2/485, G06K15/02, G06K15/14, B41J7/36, G06F17/21, G06K15/10|
|Cooperative Classification||G06K15/10, G06F17/214|
|European Classification||G06K15/10, G06F17/21F4|