EP0084122B1 - Display-attribute control for an alphanumeric color display - Google Patents

Display-attribute control for an alphanumeric color display Download PDF

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Publication number
EP0084122B1
EP0084122B1 EP19820111571 EP82111571A EP0084122B1 EP 0084122 B1 EP0084122 B1 EP 0084122B1 EP 19820111571 EP19820111571 EP 19820111571 EP 82111571 A EP82111571 A EP 82111571A EP 0084122 B1 EP0084122 B1 EP 0084122B1
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EP
European Patent Office
Prior art keywords
attribute
color
display attributes
attributes
monochrome
Prior art date
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Expired
Application number
EP19820111571
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German (de)
English (en)
French (fr)
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EP0084122A2 (en
EP0084122A3 (en
Inventor
Paul Leroy Millar
Robert Bruce Nowicki
Dennis Lee Reese
John Leon Regehr
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International Business Machines Corp
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International Business Machines Corp
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Publication of EP0084122A2 publication Critical patent/EP0084122A2/en
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    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09GARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
    • G09G5/00Control arrangements or circuits for visual indicators common to cathode-ray tube indicators and other visual indicators
    • G09G5/02Control arrangements or circuits for visual indicators common to cathode-ray tube indicators and other visual indicators characterised by the way in which colour is displayed

Definitions

  • the present invention concerns the display of alphanumeric data for data processing, and relates more specifically to methods and apparatus for displaying character images in accordance with sets of display attributes.
  • attributes can specify any extrinsic property to be associated with one or more codes representing character data to be displayed.
  • Some terminals for example, allow certain characters to be designated as "protected fields"; character codes within these fields cannot be modified or replaced from the keyboard.
  • Display attributes specify the manner in which character images are to be displayed. That is, they provide visually perceptibly different or distinct images each corresponding to the same character code in the terminal. (Protected fields, therefore, are not display attributes, since the associated characters appear the same as in unprotected fields).
  • display attributes are divided into two species, color display attributes and monochrome display attributes.
  • Color display attributes specify the colors in which character images and/or their background areas are to be shown. They are usually expressed in terms of intensities of a set of three or more primary colors such as red, green, and blue.
  • “Monochrome display attributes” (or “color-independent display attributes”) affect the appearance of character images irrespective of color.
  • Examples of monochrome display attributes are reverse image (dark character images on light backgrounds) and column separators (vertical bars or dots on each side of the characters, to mark the extent of a data field).
  • IBM TDB, Vol. 20, No. 10, March 1978, pages 4167 and 4168 discloses a color display which translates three monochrome display attribute bits into a code specifying different colors.
  • An important drawback of this method is that it does not retain the previous display attributes.
  • the present invention provides a meaningful enhancement of an already defined. input set of monochrome display attributes by translating them into both a set of color display attributes and an output set of monochrome display attributes, then controlling the display in accordance with both these sets.
  • a monochrome "blink” attribute by itself is used to attract attention, and may appear in a color display as a "red” image.
  • An "intensify” attribute may appear as "white” (red plus green plus blue) in color.
  • a character having both "blink” and “intensify” appears as a blinking red image, for maximum attention value.
  • the individual monochrome display attributes may be the same for both the input and output sets, they may overlap, or one may be a subset of the other.
  • the object of the invention is to provide a method of operating a color display terminal as defined in claim 1 and a color display terminal as defined in claim 8.
  • the invention can also be conceptualized as a translation or conversion of a smaller set of attributes including only monochrome display attributes to a larger set of attributes including both color and monochrome display attributes.
  • the conversion between sets of attributes is performed by an attribute translator which may comprise a memory, and by monochrome and color logics for controlling the color display.
  • Refresh buffer 16 contains a two-port RAM which receives data bytes from bus 11 under the control of microprocessor 12, and which also transmits these bytes to color display 20 in a predetermined sequence for maintaining the evanescent image on a cathode-ray tube (CRT).
  • the memory, timing and gating logic for buffer 16 are of conventional design.
  • buffer 16 transfers a single data byte at a time to display 20.
  • a data byte may represent either an alphanumeric character whose image is to be displayed, or a display attribute.
  • the display attributes are of two kinds, color and monochrome. Color attributes specify the colors in which a character or its background are to be shown.
  • red, green and blue primaries have either of two intensities, on or off; thus seven colors (plus black) are available.
  • Monochrome attributes affect the appearance of a character irrespective of color; that is, they would be visible in a black-and-white image of the character and its background area.
  • the set of five input monochrome attributes in this embodiment are those previously used in the IBM5250 family of monochrome data-entry workstation terminals.
  • the "column separator” (COLS) attribute marks the beginning and end of each character position, so that an operator entering data into a fixed-length field can see the field extent as characters are placed into it. This attribute is displayed as two dots in the last raster scan of the character box, one dot just to the left of the character, the other just to the right.
  • the "blink” (BLNK) attribute causes the character image to blink on and off about two times per second.
  • "Underscore” (UNSC) places a horizontal line in the last scan of the character box.
  • REV Reverse video
  • Attributes other than display attributes could be utilized as well, if desired. Attributes other than display attributes do not enter into the present context; hence, the term "attribute" by itself shall be taken to refer to display attributes only.
  • Fig. 1 The remaining major components of Fig. 1 are input/output (t/01 adapters 17 and a keyboard 18.
  • the keyboard may be of any conventional design, having either a parallel or serial interface.
  • Adapters 17 receive character bytes or other codes from keyboard 18, and also interface to other internal or external elements not relevant to the present invention, such as curser-position registers or dot-matrix printers.
  • the lines from adapters 17 to display 20 specify certain operating modes, explained below.
  • Fig. 2 shows the portions of color display 20 which pertain to the present invention.
  • Other, conventional functions are not shown; these include, for example, raster-scan generation and timing, color-beam convergence, and video-signal amplification.
  • the present implementation employs a horizontal raster having interlaced "even" and "odd' scan fields, as in television practice.
  • Each character position is 12 scans high (SD-S11, six from each scan field) with 9 possible dot positions along each scan, numbered TO-T8.
  • Most character images occupy dots Tl-T7 of scans S1-S9, the other dots and scans being used for borders.
  • Codes for character images have values X40-XFF ("X" indicates hexadecimal notation), while attributes have values X20-X3F.
  • the attributes are coded as follows (bit 7 is the most significant bit of the code byte):
  • Attributes themselves occupy a character position on the display, but no image is normally displayed for them; they appear as a blank or space character.
  • the attribute code 0010 1110 (YX2E) specifies that the characters following that position shall blink, have an underscore, and be intensified.
  • a new data byte is input from refresh buffer 16 and is received on line 21 each character time of every scan in both scan fields.
  • a conventional character generator 22 receives the data byte and a repetitive scan count on line 23, also as in conventional practice.
  • Lines 24 contain nine bits DO-D8 in parallel representing dot positions TO-T8 of the current scan of a character. (All attributes codes X20-X3F are normally blanked out by logic subsequent to generator 22). Lines 24 are latched in register 25 by the previously mentioned clock 26 occurring every character time.
  • Serializer 27 converts these parallel scan bits into serial video bits on line 28 by means of a dot clock 29 occurring nine times, TO-T8, during each character clock 26.
  • a true/complement (T/C) input controls the selective inversion of the serial binary (light or dark) video signals on line 28.
  • attributes apply to all character positions following them, in the same or succeeding rows of characters on the display. (These are termined "field attributes" in the art).
  • Logic 30 ensures that the correct attribute code will be in force during each character time. Decoder 31 produces a signal on line 32 whenever an attribute code (i.e., X20-X3F) appears on data lines 21. This signal clocks the code on lines 21 into current-attribute register 33. When the attribute code appears during the last scan (S10 in the even scan field or Sl in the odd field), AND gate 34 clocks the code into start-attribute register 35 as well. The last of these attribute codes is retained in latches 33 and 35 until replaced at the appropriate times for the next row of characters.
  • registers are selectively switched to output lines 36 by multiplexer 37, which is controlled by set/reset (SR) latch 38.
  • SR set/reset
  • the presence of an attribute signal on line 32 causes latch 38 and multiplexer 37 to couple current register 33 to line 36; at the right end of every scan a standard horizontal-retrace signal 39 resets latch 38, causing start register 35 to feed lines 36 until latch 38 is again set by line 32.
  • SR set/reset
  • Decoder 40 provides scan-count or location signals used by several other elements of display 20. Specifically, odd-field location signal on line 41 is active during the six scans S1, S3, S5, S7, S9, S11 of the second scan field of each interlaced frame. (The even scan field contains scans numbered S0, S2, S4, S6, S8, S10).
  • Last-scan location signal on line 42 is active during the last scan of each scan field, i.e., during scans S10 and S11.
  • attribute translator 50, 60 and monochrome logic color logic 70 are: (a) to translate an input set of monochrome display attributes into both a set of color attributes and an output set of monochrome attributes, (b) to produce color signals in accordance with the set of color attributes, and (c) to modify the video signals in accordance with the subset of output monochrome attributes.
  • each of the elements 50, 60,70 may perform portions of more than one of these functions, in order to reduce the overall cost of the implementation.
  • the five monochrome attributes input to the system are column separators (COLS), blink (BLNK), underscore (UNSC), intensify (INT), and reverse video (REV).
  • the subset of these which are actually used by the display are COLS, BLNK, UNSC and REV.
  • another output monochrome attribute, "non-display" (NOND) is produced from certain combinations of the input attributes. NOND causes all following characters to be blanked out, i.e., to appear as spaces.
  • the color attributes may be considered to be either the three separate primary-color signals or the seven actual colors produced by combinations of these signals.
  • the primary-color signals are denominated as green (G), red (R) and blue (B).
  • attribute translator 50 The major purpose of attribute translator 50 is to translate the set of input monochrome attributes on lines 36 into signals on lines 51-55 representing the set of output monochrome output attributes and into further signals on lines 56-58 for the primary color attributes.
  • Translator 50 may conveniently be implemented as the lower half of a 1024-byte by 8-bit-wide ROM integrated-circuit module having address lines AO (least significant bit, LSB) through A8 (most significant bit, MSB).
  • the attribute lines 51-58 represent the eight data lines DO (LSB) through D7 (MSB).
  • the five input lines 36 are connected to address lines A2-A6. Lines A7-A8 are mode-control lines not relevant to the present invention. Originating in I/O adapters 17, Fig.
  • the "converge mode” line inhibits lines 51-58 while the CRT is being adjusted for color convergence, while the "2-color mode” line passes the monochrome attributes substantially unchanged to the output monochrome attributes, using the colors only to the extent that, for example, normal intensity characters are green (G), while high-intensity (INT attribute on) characters are in white (R+G+B).
  • Low-order address lines AO-A1 are used to identify the last scan of the odd scan field, i.e., scan S11, for producing underscores and column separators at the proper times, since these shapes are not contained in character generator 22.
  • Table II shows the complete contents of ROM 50 addressed by lines AO-A8.
  • the data lines DO (LSB) through D7 (MSB) occasionally deviate from the values they would be expected to have. This occurs because ROM 50 does more than merely translate attributes; it also aids logics 60 and 70 in the direct production of some attributes.
  • the UNSC output line 54 not always be activated when the UNSC attribute is active, but rather only when both UNSC and COLS attributes are active, in order to simplify logic 60.
  • the UNSC attribute is actually produced by activating REV line 51 and B line 58 during_scan S11, i.e., when AO and A1 both are high; this simplifies color logic 70.
  • Table 11 shows the contents of ROM 50 for the seven-color mode, located in addresses 128 through 255.
  • the leftmost "ATTR” column of Table II contains hex attribute codes.
  • the "ADDR” column contains the first address of a four-byte group of data representing that attribute.
  • the "Data @ A” column is the hexdata contained in each of the four bytes. In some cases, the last byte of the four differs from the other three; the "Data @ A+3" column lists those bytes for the appropriate rows of the table.
  • Monochrome logic 60 basically modifies the displayed character image in accordance with the output set of monochrome attributes COLS, BLNK, UNSC, REV, and "non-display" (NOND). This may be done not only by direct action upon monochrome video signals, but also in concert with translator 50 and/or color logic 70, as will appear.
  • NOND output line 52 is transmitted through OR gate 61 to force a reset in register 25, so as to blank out the parallel video signals from lines 24.
  • leg 32 of OR 61 effectively causes all attribute codes themselves to have an implied NOND attribute, and thus to appear as blanks on the CRT.
  • a third leg implements the BLNK attribute by ANDing output line 53 with any convenient clock signal 62 of several pulses per second in gate 63.
  • COLS line 55 is combined in AND 64 with a signal 65 which is active during dot times TO and T8 of each character of every scan.
  • Translator 50 inhibits COLS except during scan S11 of those characters having the underscore attribute, so that line 66 is active only at the proper dot and scan times of the proper characters.
  • UNSC line 54 as mentioned above, need be active only during those characters for which both the underscore and the column-separator attributes are to be in effect.
  • AND 67 combines lines 54 and 66 to place a signal on line 68 to indicate this situation. Lines 66 and 68 work their will on the video signal by way of logic 70.
  • Color-control logic 70 receives the color-attribute lines 56-58 to specify one of seven colors in which the appropriate characters are to be displayed.
  • Serial video signal on line 28 controls AND gates 71-73 for selective enabling of the color signals.
  • Signals on lines 56-58 are thereby passed unaltered when video signal on line 28 is high, and are turned off when video signal on line 28 is low. The effect of this is to paint the video dots belonging to the character image in one of the seven colors specified by translator 50, and to paint background dots in black, i.e., the absence of all color.
  • the background color is specified by lines 56-58, while character images are black.
  • Gates 74-77 are required to control column-separator color, because the column-separator dots are always displayed in blue, regardless of the color of the character at that position on the CRT.
  • the inverting inputs of ANDs 74 and 75 turn off the G and R color signals whenever the previously described line 66 becomes active. This line also forces the B color on, by means of OR 76.
  • AND 77 cuts off the B color during dot times TO and T8 when line 68-indicates both UNSC and COLS, so that TO and T8 are always black when both UNSC and COLS are active.
  • Conventional color display head 80 includes a color CRT, video signal amplifiers, scan-generation circuits, power supplies and so forth to display alphanumeric character images in the colors specified by color-signal inputs on lines 81-83.
  • Control signals on lines 81-83 at this point represent both the color and the output monochrome attributes specified by the original set of input attributes received on data lines 21.
  • Control signals on lines 81-83 are binary-valued, but could have more than two levels if desired to present a broader range of hues and intensities on the CRT.
  • some conventional color displays are an intensity or luminance control signal separate from the color control signals.
  • ROM 50 can be loaded with more than one mapping of input attributes into output monochrome and color attributes.
  • ROM 50 could be totally or partially replaced with read/write (RAM) memory, so as to allow the loading of custom mappings, either from the host CPU via communications adapter 15, Fig. 1, or from keyboard 18.
  • Fig. 3 shows an example of a conventional video serializer 27 useful in connection with the invention.
  • Ring counter 91 outputs a repetitive sequence of dot signals T0­T8 in response to dot clock on line 29. Each dot signal represents one dot interval of the nine horizontal dots in each character position on the CRT display.
  • TO and T8 are ORed in gate 92 to produce the previously described column-separator signal T08 on line 65.
  • Each dot-time signal TO-T8 conditions both of a pair of ANDs 93, 94.
  • Each pair of gates also receives a corresponding one of the parallel video signals VO-V8 from register 25, Fig. 1.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Computer Hardware Design (AREA)
  • General Physics & Mathematics (AREA)
  • Theoretical Computer Science (AREA)
  • Controls And Circuits For Display Device (AREA)
  • Digital Computer Display Output (AREA)
EP19820111571 1982-01-11 1982-12-14 Display-attribute control for an alphanumeric color display Expired EP0084122B1 (en)

Applications Claiming Priority (2)

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US33882582A 1982-01-11 1982-01-11
US338825 1982-01-11

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EP0084122A2 EP0084122A2 (en) 1983-07-27
EP0084122A3 EP0084122A3 (en) 1983-08-03
EP0084122B1 true EP0084122B1 (en) 1987-11-11

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EP19820111571 Expired EP0084122B1 (en) 1982-01-11 1982-12-14 Display-attribute control for an alphanumeric color display

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EP (1) EP0084122B1 (enrdf_load_stackoverflow)
JP (1) JPS58121092A (enrdf_load_stackoverflow)
BR (1) BR8300060A (enrdf_load_stackoverflow)
CA (1) CA1199436A (enrdf_load_stackoverflow)
DE (1) DE3277654D1 (enrdf_load_stackoverflow)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6271991A (ja) * 1985-09-25 1987-04-02 松下電器産業株式会社 表示装置
US4837710A (en) * 1985-12-06 1989-06-06 Bull Hn Information Systems Inc. Emulation attribute mapping for a color video display
FR2597691B1 (fr) * 1986-04-21 1988-06-10 Bull Sa Decodeur d'attributs video pour affichage couleur ou monochrome en mode videotex ou en mode alphanumerique a haute definition.
EP0269174A3 (en) * 1986-11-17 1989-10-18 Koninklijke Philips Electronics N.V. Logic circuit for expansion of monochrome display patterns to color form and video controller comprising such logic circuit
JPH0544872Y2 (enrdf_load_stackoverflow) * 1989-04-12 1993-11-15

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB1593309A (en) * 1977-12-09 1981-07-15 Ibm Character graphics colour display system

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JPS58121092A (ja) 1983-07-19
CA1199436A (en) 1986-01-14
JPH0242234B2 (enrdf_load_stackoverflow) 1990-09-21
EP0084122A2 (en) 1983-07-27
DE3277654D1 (en) 1987-12-17
BR8300060A (pt) 1983-09-20
EP0084122A3 (en) 1983-08-03

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