US3821727A - Digital display generators - Google Patents

Digital display generators Download PDF

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Publication number
US3821727A
US3821727A US00248042A US24804272A US3821727A US 3821727 A US3821727 A US 3821727A US 00248042 A US00248042 A US 00248042A US 24804272 A US24804272 A US 24804272A US 3821727 A US3821727 A US 3821727A
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Prior art keywords
counter
count
rate
counter means
display
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US00248042A
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English (en)
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F Erickson
J Price
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Northrop Grumman Guidance and Electronics Co Inc
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Litton Systems Inc
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Priority to US00248042A priority Critical patent/US3821727A/en
Priority to DE2320403A priority patent/DE2320403C3/de
Priority to IT49632/73A priority patent/IT980333B/it
Priority to JP4629273A priority patent/JPS5334860B2/ja
Priority to NL7305841A priority patent/NL7305841A/xx
Priority to GB2025073A priority patent/GB1423682A/en
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S7/00Details of systems according to groups G01S13/00, G01S15/00, G01S17/00
    • G01S7/02Details of systems according to groups G01S13/00, G01S15/00, G01S17/00 of systems according to group G01S13/00
    • G01S7/04Display arrangements
    • G01S7/06Cathode-ray tube displays or other two dimensional or three-dimensional displays
    • G01S7/22Producing cursor lines and indicia by electronic means
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S7/00Details of systems according to groups G01S13/00, G01S15/00, G01S17/00
    • G01S7/02Details of systems according to groups G01S13/00, G01S15/00, G01S17/00 of systems according to group G01S13/00
    • G01S7/04Display arrangements
    • G01S7/06Cathode-ray tube displays or other two dimensional or three-dimensional displays
    • G01S7/10Providing two-dimensional and co-ordinated display of distance and direction
    • G01S7/12Plan-position indicators, i.e. P.P.I.
    • G01S7/14Sector, off-centre, or expanded angle display
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01SRADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
    • G01S7/00Details of systems according to groups G01S13/00, G01S15/00, G01S17/00
    • G01S7/02Details of systems according to groups G01S13/00, G01S15/00, G01S17/00 of systems according to group G01S13/00
    • G01S7/28Details of pulse systems
    • G01S7/285Receivers
    • G01S7/295Means for transforming co-ordinates or for evaluating data, e.g. using computers
    • G01S7/298Scan converters

Definitions

  • ABSTRACT A digital display generator generates deflection signals for operating on the deflection circuitry of a display device to move a visual representation, such as a spot generated by the display device, along X and Y axes.
  • a pulse generator is provided to produce pulses at rates representative of the desired rates of movement of the spot in X and Y directions, and counter means is provided for establishing a count representative of the position of the spot along the X and Y axes.
  • Control means is provided for selectively increasing or decreasing the count in the counter means in accordance with the intended direction along the X and Y axes, and converter means is provided for converting the counts to analog signals.
  • offset counter means is provided for determining whether or not the 1 intended display is on or off screen, and means is provided for stepping the offset counter in such a manner that when the intended display reaches the region of the screen, the display device is operated to generate the visual representation.
  • a character display gen- 22 Claims, 8 Drawing Figures swap [NABLE x 52557 /2 ,/0 -/a Z7 32 mam/am 7 XRATE i 1 70 M050 CO/VMOA 5/1/4515 COUN7'ER Ml/U/PL/Ek W l M 30 COUNTER 39 LINE 7 x4x/5 37 ASA/67H mm ADVANCE 04 m 52 r /r 70 Lam/Aye Zm/e .W 5/1 4545 alm/m2 CONVERTER is X PUSH-IONS!
  • This invention relates to digital display generators, andparticularly to digital display generators for generating deflection signals for operating on deflection circuitry of a display device, such as a'cathode ray tube.
  • Another object of the :present invention is to provide display apparatus for displaying visual representations of tracked objects in which thedisplay apparatus is intended to display visual representations of objects in selected sectors of a region, and means is'provided for biasing the deflection circuits of the display apparatus to track the position of objects in all sectors and to operate the video'circuitry when such. objects enter the selected sectors.
  • Yet another object of the present invention resides in the provision of digital circuitry for generation of character display signals.
  • a display generator comprises pulse generator means adaptedto generator pulses at rates representative of the rate of movement of a visualrepresentation along each of two mutually perpendicular axes.
  • Pulse counter means provides for-selectively increasing or decreasing counts representative of the position of the visual-representation along the two axes, the rates of change being dependent upon the respective rates of pulses from said pulse generator means, and the selection of increase or decrease in counts being dependent upon selected positive or negative rnovement of the visual representation along the two axes.
  • Converter means is provided for converting the counts to analog signals for operation on the deflection circuitry of the display device.
  • One feature of the present invention resides in the provision of offset counter means adapted to sense whether or not a particular visual representation is within a quadrant defined by the screen of the display
  • storage means containing information relating to a plurality of strokes for each of aplurality of characters.
  • Address means is provided for addressing the storage means, and stroke generator means is provided for generating digital signals representative of each of the strokes required for a display of a character.
  • FIG. 1 is a block circuit diagram of a display generator in accordance with the presently preferred embodiment of the present invention
  • FIGS. 2-5 are illustrations representative of the operplay generator in accordance with the presently preferred embodiment of the present invention.
  • FIGS. 7-8 are illustrations of the operation of the apparatus illustrated in FIG. 6.
  • a display generator according to the presently preferred embodiment of the present invention having a first digital counter 10 having a plurality of inputs 11 adapted to receive binary information, concerning the length of a line to be displayedfOther inputs to counter 10 include a-sweepenable input 12, a start of line (SOL),input 13, and an enable input 14.
  • the output fromcounter 10 is forwarded through channel 15 to X rate multiplier 16.
  • X rate multiplier 16 has a plurality of inputs 17 adapted to receive X axis advancedata and has an enable input 18.
  • Y Y
  • Line rate control 19 which is a binary multiplier, has a plurality of inputs 20adapted to receive binary data relating to the rate at which lines are to be swept. Enable input 21 and clock input 22 are provided to control 19. Control 19 providesan output via channel 23 to Y rate multiplier 24, to line length counter 10, and to X rate multiplier 16. Y rate multiplier 24 has a plurality of inputs 25 adapted to receive binary data concerning Y axis advance and has an enable input 26. In
  • line length counter 10 is connected to an input of Y rate multiplier 24.
  • channel 15 may also be connected to a Z axis control, if provided.
  • X rate multiplier 16 provides clock outputs via channel 27 to offset counter 28 and to display bit counter 29.
  • a sign bit is included in the data loaded into multiplier 16 which is forwarded via channel 30 to offset counter 28 and to Exclusive OR gate 31.
  • Offset counter 28 has a plurality ofinputs 32 for loading offset data into the offset counter.
  • Offset counter 28 includes an output 33 to a second input of Exclusive OR gate 31.
  • the output from Exclusive OR circuit 31 is connected to an input of display bit counter 29.
  • 'Counter 29 includes a plurality of inputs 34 adapted to receive X position data and includes an enable input 35.
  • An output 36 from display bit counter 29 provides an advance input to offset counter 28.
  • Digital display data from display bit counter 29 is processed through channel 52 to digital-to-analog converter 37 which, in turn, provides an analog signal via channel 38 to the deflection circuits of a cathode ray tube (not shown).
  • digital-to-analog converter 37 which, in turn, provides an analog signal via channel 38
  • an enable control is provided via channel 39 to the video control of the CRT from offset counter 28.
  • the Y rate multiplier 24 provides clock outputs via channel 40 to offset counter 41 and to display bit counter 42.
  • a sign bit is included in the data loaded into multiplier 24 and is forwarded via channel 43 to Exclusive OR gate 44 and to offset counter 41.
  • Y offset data is loaded into offset counter 41 via inputs 45.
  • Offset counter 41 provides an output via channel 46 to Exclusive OR gate 44, which, in turn, provides an output via channel 47 to display bit counter 42.
  • Display bit counter 42 has a plurality of inputs 48 adapted to receive digital data relating to the Y position of a line to be displayed and includes an enable input 49.
  • An output 50 from counter 42 provides an advance input to offset counter 41.
  • the output via channel 51 from counter 42 provides an input to digital-to-analog converter 53 which converts the digital data from counter 42 to an analog signal for processing via channel 54 on the deflection circuits of the cathode ray tube.
  • offset counter 41 also provides an enable output via channel 55 to the video control.
  • an enable signal is applied to counter 10 via channel 14 so that data relating to the length of a line to be displayed may be loaded into counter 10 via inputs 11.
  • This data may indicate a line longer than the width (X axis) or height (Y axis) of the display screen, or it may be shorter than thewidth or height of the display screen.
  • control 19 is enabled via channel 21 so that data relating to the rate at which the line is to be displayed (AL/AT) maY be loaded into counter 19 via inputs 20.
  • the output from control 19 is impressed onto channel 23 to establish a line rate clock pulse series onto counter 10 and multipliers 16 and 24.
  • clock pulses from control 19 begin stepping through the count in counter 10 to produce enable pulse onto channel to X rate multiplier 16, Y rate multiplier 24 and live rate control 19.
  • Control 19 produces clock pulses which are forwarded to multipliers l6 and 24 via channel 23.
  • the pulse rate is multiplied in multiplier 16 by a factor determined by the advance rate loaded onto the multiplier to produce a series of clock pulses on channel 27 to offset counter 28 and to display bit counter 29 representative of the advance of display along the X axis.
  • the pulses from counter 10 are also forwarded to Y rate multiplier 24 to be multiplied by a factor dependent upon the advance rate loaded into multiplier 24 to produce a second series of clock pulses on channel 40 to offset counter 41 and to display bit counter 42 representative of the advance of display along the Y axis.
  • the relative rates of clock pulses on channels 27 and 40 will determine the rates at which the display of a line on the cathode ray tube will advance. For example, if it is desired to display a line at an angle of 30 to the X axis, multiplier 16 is loaded with rate data via channel 17 to produce clock pulses on channel 27 having a rate greater than those on channel 40 to thereby advance the display at the desired 30 angle.
  • region 56 is the region of the display screen of the display device, and assume further that it'is desired to display a line having a slope at +30 from the X axis commencing at point 57.
  • Data is loaded into display bit counters 29 and 42 concerning the initial X-Y position (X0, Y0) of the start point 57.
  • the clock pulses from multipliers 16 and 24 are impressed on display bit counters 29 and 42, respectively, the counts in counters 29 and 42 advance.
  • Digital-to-analog converters 37 and 53 convert the counts in the respective counters to produce increasing voltages to the X and Y deflection circuits to advance the display along line 58 on the display.
  • the rate of advance of the line in. both the X and Y directions is determined by the data loaded into the rate multipliers, as heretofore described.
  • the data supplied to the rate multipliers also includes a sign bit indicative of the direction of advance along a particular axis.
  • the sign bit applied to a rate multiplier is forwarded via a respective channel 30 or 43 to Exclusive OR gates 31 and 44, respectively, to condition the respective. display counter to count positively or negatively.
  • a l sign bit on a channel might cause the respective counter to count positively, whereas an 0 bit on a channel 30 or 43 will condition the respective display counter to count negatively.
  • the line will be displayed on the display screen for a length determined by data supplied to line length counter 10. If the length of the display line is less than the width of the display screen, counter 10 will count down, at the rate determined by the clock pulses from rate control 19, until the count preset in the counter (indicative of the length of the line) is counted out to zero. Thus, as shown in FIG. 3, the line will halt at point 61 due to the end of the count established for the line. If, however, the line to be displayed is longer than the width of the display screen, as shown in FIG. 2, when the display bit counter 29 reaches the maximum count indicative of the right edge of screen 56, display counter 29 provides a signal to offset counter 28 via channel 36 to step the count in counter 28 by 1. This signal is forwarded via video control channel 39 to turn off the video display, as will be more fully understood hereinafter.
  • line length counter 10 is biased to pass clock pulses at the rate established by rate control 19 without present line length.
  • Offset counters 28 and 41 are preloaded with data relating to whether the intended display is on or off screen.
  • the counts in counters 28 and 41 are such that the intended display is on screen and that the least significant bit of each count is a 1.
  • a signal is sent to the respective counter 28 or 41 via channel 36 or 50 to advance the binary count in that counter by l so that the least significant bit in that counter becomes a binary O.
  • FIG. 4 shows the effect of the continuous sweeping of the display generator according to the present invention.
  • both offset counters are threeposition binary counters and that both contain a count of 1 11 (a condition which indicates on screen dis play, as will be more fully described hereinafter)
  • the least significant bit for both counts is a 1.
  • the display line is starting from point X0, Y0 on-screen and is advancing positively along both the X and Y axes.
  • the line is displayed along line 62 until a full count is detected in the X display counter 29, at a point coincident with the right edge of display 56.
  • the count in counter 29 is such as to indicate that the line has reached the right edge of display 56 and counter 29 forwards a signal to counter 28 to add l to the l l 1 count already in counter 28 to set counter 28 to 000.
  • Channels 39 and 55 from offset counters 28 and 41 are preferably connected to the video control circuits of the display to permit display of a line only when both counters contain a l l l binary set.
  • an AND gate (not shown) may be connected to channels 39 and 55 to operate the video circuits when all binary positions of counters 28 and 41 contain l binary signals.
  • counter 28 is reset to 000, the necessary condition for display isnot present.
  • the display line reaches an edge of the display region, the video is turned off.
  • the 0 least significant bit in offset counter 28 biases Exclusive OR gate 31 to change the sign bit delivered to display counter 29 thereby reversing the direction of advance of the apparent line (even though not displayed) in the X direction to bias the deflection circuits as shown by dashed line 64.
  • counter 42 detects a maximum count to thereby reset offset counter 41 to 000 thereby reversing the advance of the apparent display in the Y direction, as shown by dashed lines 65.
  • One feature of the invention resides in thefact that a sweep may be commenced at a point off screen.
  • a plurality of region 56, 56a, 56b, 56c, 56d and 56e are shown, but only data in region 56 is to be displayed.
  • a-display line commences off screen, for example, in region 56c at point 66, the count in offset counter 28 is preset to 101 f (indicating an offset by two regions in the X direction) and the count in offset counter 41 is preset at l (indicating an offset by one region in the Y direction).
  • Data concerning line 67 and 66 is applied directly to the rate multipliers 16 and 24 and to display counters 29 and 42.
  • a 101 code is applied to the X offset counter 28 and a 1 10 code is applied to the Y offset counter 41. Since the line is advancing positively in both the X and Y directions, a 1 sign bit is applied to the rate multipliers. Since the least significant bit in the X offset counter is a l the initial X position of the deflection circuitry is unchanged. Thus, the X position of point 66 in region 56c is the same as the X position of point 66" in region 56.
  • the 0 bit in the least significant position in Y offset counter 41 reverses the initial position data so the distance along the Y axis between points 66 and 66" and the X axis are the same, but the points lie on opposite sides of the X axis. Also, and as heretofore explained, the 0 bit in counter 41 causes a negative advance in the Y direction.
  • bias line 67" advances positively along the X axis and negatively along the Y axis toward the right edge of region 56, where the X offset counter 28 steps l to 110 to reverse the direction of advance of the X bias.
  • both offset counters reach a l l 1 condition, as shown at point 69, the video circuits are operated via channels 39 and 55 ,to display line 67 as it passes through region 56, as heretofore described.
  • the line reaches the right edge of region 56, it would follow line 68 into the next adjacent region.
  • X offset counter 28 steps 1 to 000 thereby turning off the video and reflecting the bias to follow line 68'.
  • the character display generator comprises an address memory having a plurality of inputs 81 adapted to be connected to a data processor for receiving a character code.
  • Channels 82 connect the output of address memory 80 to the input of stroke counter 83, which in turn provides outputs via channels 84 to stroke memory 85.
  • Stroke memory 85 contains binary data relating to the successive strokes to be taken for each character to be displayed. Thus, if a single character requires six consecutive strokes, the stroke memory will contain information as to each stroke for that character.
  • the stroke memory contains stored data, in tabular program form, relating to each character so that by addressing a single character in the stroke memory, the various stroke data for all strokes may be read out in succession.
  • stroke memory 85 The output from stroke memory 85 is forwarded via channels 86 to stroke generator 87 which in turn produces a series of clock pulses on a selected basis for processing by X and Y counters 88 and 89.
  • the output of X counter 88 is connected to digital-to-analog converter 90 to convert the digital signal to an analog signal for processing by the X video deflection circuits connected to output 91.
  • the output of Y counter 89 is connected to digital-to-analog converter 92 to convert the digital signal to an analog signal for processing by the Y deflection circuits connected to output 93.
  • a character timing gate circuit 94 is provided for timing the stroke counter 83 and stroke generator 87 over the length of a single character.
  • Circuit 94 has a first input 95 connected to the data processor for receiving a Start of Character (SOC) code to initiate operation of counter 83 and generator 87, and has a second input 95 connected to the last line from memory 85 for receiving an End of Character (EOC) code to halt operation of counter 83 and generator 87.
  • SOC Start of Character
  • EOC End of Character
  • a binary code, indicative of the character N is received from the data processor via channel 81.
  • the code selects an address code associated with the character from address memory 80.
  • the address code selects that portion of memory 85 containing the data relating to the set of strokes associated with the character
  • gate 94 initiates stroke counter 83 to select from memory 85 data concerning the first stroke of the character to be forwarded to stroke generator 87.
  • a code indicative of a 3 advance on the X axis and *3 advance on the Y axis is forwarded to generator 87 to cause the display bias to move to point 106.
  • video circuits associated with the display device are biased off.
  • the video circuits are operated via channel 104 and a code indicative of advance on the X axis and +3 advance on the Y axis is forwarded to generator 87 to cause 0 clock pulses to be forwarded to X counter 88 and 3n clock pulses to be forwarded to Y counter 89, where n is the number of clock pulses per unit of stroke.
  • a sign bit indicative of advance is also forwarded to Y counter 89 to achieve a forward bias of the Y axis deflection circuits.
  • Converters 90 and 92 convert the signals to analog signals to achieve the advance.
  • a first line 100 is displayed on the display screen.
  • stroke generator 87 Upon completion of the first stroke, stroke generator 87 sends a pulse via advance channel 97 to stroke counter 83 to advance the count in counter 83 to the next position, thereby selecting the next stroke for the character.
  • Memory 85 selects the next stroke data (eg X 0, Y +3) to cause display of line 101. The process continues until completion of the character.
  • a more complex character might be displayed through selective operation of the video circuitry through memory 85.
  • An EOC character will bias the deflection circuits back to the point of origin.
  • the circuit illustrated in FIG. 6 may be combined with that shown in FIG. 1 by summing the signals present on channels 38 and 91 and imposing the result on the X axis video deflection circuit of a CRT and by summing the signals present on channels 54 and 93 and imposing the result on the Y axis. video deflection circuit.
  • alpha-numeric data generated by the circuit shown in FIG. 6 may be displayed along a display line determined by the circuit shown in FIG. 1.
  • the sweep clock input to line length counter 10 may be eliminated if the clock rate for the line counter is established by the line rate control 19.
  • the sweep clock may be used in lieu of the line rate control.
  • means (not shown) is provided for selectively adjusting the line rate data to control 19 so that the rate of display is advanced or retarded as selected by the operator.
  • the present invention thus provides a digital display generator capable of establishing display data, both on and off screen, by digital techniques.
  • handling of display data is simplified, since the matching of attenuation of analog signals is not necessary, thereby providing a simpler, more effective technique for handling display data.
  • the invention is particularly useful in connection with radar display applications wherein a single display is intended to view only selected regions of a scan.
  • a display generator for generating deflection signals for operating on deflection circuitry of a display device for moving a visual representation generated by said display device in an area defined by a plurality of regions in first and second directions parallel to first and second mutually perpendicular axes respectively and said display device is operated to display only visual representations in selected regions, said apparatus comprising:
  • a. clock means producing clock pulses at a predetermined rate
  • first pulse generator means selectively operable to produce first pulses at a rate representative of the rate of movement of said visual representation in said first direction
  • second pulse generator means selectively operable to produce second pulses at a rate representative of the rate of movement of said visual representation in said second direction;
  • said first and second pulse generator means each contains data respecting the selected increase or decrease of count in the respective first and second counter means;
  • first counter means operable to maintain a first count representative of the position of said visual representation along said first axis
  • second counter means operable to maintain a second count representative of the position of said visual representation along said second axis
  • control means connected to said first and second pulse generator means to said first and second counter means and operable in response to said data for selectively increasing or decreasing said first count in said first counter means at the rate of said first pulses and for selectively increasing or decreasing said second count in said second counter means at the rate of said second pulses;
  • fourth counter means containing a predetermined count representative of the location of the region in which the visual representation is positioned, means connecting said first counter means to said fourth counter means to selectively increase or decrease the count insaid fourth counter means whenever the count in said first counter means indicates that the intended visual representation reaches a region edge which intersects said first axis, and means connecting said fourth counter means to said control means to reverse the alteration of counts in said first counter means whenever the count in said fourth counter means is changed, whereby said control means operates on said first counter means to reverse the alteration of count in said first counter means between increasing and decreasing count whenever the count in said first counter means is increased or decreased to a count indicative of a region edge intersecting said first axis; and
  • i. converter means connected to said first and second counter means for producing first and second analog signal representative of the value of said first and second counts respectively.
  • Apparatus according to claim 1 further including said first pulse generator comprising first multiplier means for storing information representative of the rate of movement of said visual display in said first direction, said first multiplier means being connected to said clock means to produce said first pulses at a rate representative of the product of said predetermined rate of said clock pulses and the rate established by the information stored in said first multiplier means; said second pulse generating means comprising second multiplier means for storing information representative of the rate of movement of said visual display in said second direc-.
  • said second multiplier means being connected to said clock means to produce said second pulses at a rate representative of the product of said predetermined rate of said clock pulses and the rate established by the information stored in said second multiplier means.
  • Apparatus according to claim 2 further including input means connected to said first and second multiplier means for storing said information in the respective multiplier means.
  • Apparatus according to claim 2 further including means for selectively adjusting said predetermined rate of said clock pulses.
  • said clock means further includes third counter means having an input for storing a count in said third counter means representative of a predetermined distance of move.- ment of said visual representation, said third counter means producing a predetermined number of said clock pulses at said predetermined rate, the number of said clock pulses being representative of the count stored in said third counter means.
  • Apparatus according to claim 1 further including fifth counter means'containing a predetermined count representative of the location of the region in which the visual representation is positioned, means connecting said second counter means to said fifth counter means to selectively increase or decrease the count in said fifth counter means, whenever the count in said second counter means indicates that the intended visual representation reaches a region edge which intersects said second axis, and means connecting said fifth counter means to said control means to reverse the alteration of counts in said second counter means whenever the count in said fifth counter means is changed, whereby said control means operates on said second counter means to reverse the alteration of count in said second counter means between increasing and decreasing count whenever the count in said second counter means is increased-or decreased to a count indicative of a region edge intersecting said second axis.
  • Apparatus according to claim 6 further including means connected to said fourth and fifth counter means for controlling said display device to prevent display of said visual representation whenever the count in said fourth and fifth counter means is such as to indicate said visual representation is in a region other than said selected quadrants.
  • control means comprises first Exclusive OR gate means having first and second inputs connected to said first pulse generator means and said fourth counter means, respectively, and an output connected to said first counter means, and second Exclusive OR gate means having first and second inputs connected to said second pulse generator means and said fifth counter means, respectively, and an output connected to said second counter means.
  • Apparatus according to claim 6 further including clock means producing clock pulses at a predetermined rate; said first pulse generator comprising first multiplier means for storing information representative of the rate of movement of said visual display in said first direction, said first multiplier means being connected to said clock means to produce said first pulses at a rate representative of the product of said predetermined rate of said clock pulses and the rate established by the information stored in said first multiplier means; said second pulse generator means comprising second multiplier means for storing information representative of the rate of movement of said visual display in said second direction, said second multiplier means being connected to said clock means to produce said second pulses at a rate representative of the product of said predetermined rate of said clock pulses and the rate established by the information stored in said second multiplier means.
  • Apparatus according to claim 8 further including input means connected to said first and second multiplier means for storing said information in the respective multiplier means.
  • Apparatus according to claim 8 further including means for selectively adjusting said predetermined rate of said clock pulses.
  • said clock means further includes third counter means having an input for storing a count in said third counter means representative of a predetermineddistance of movement of said visual representative, said third counter means producing a predetermined number of said clock pulses at said predetermined rate, the number of said clock pulses being representative of the count stored in said third counter means.
  • Apparatus according to claim 1 further including character generator means for generating deflection signals for application to the deflection circuitry of said display device to display a character, said generator means comprising: storage means containing data concerning a plurality of strokes required to display each of a plurality of predetermined characters; address means adapted to receive selected character information concerning a character to be displayed, said address means responding to said character information to select data from said storage means corresponding to the selected character; generator means responsive to selected data from said storage means to generate first and second pulse trains of predetermined length determined by the data selected from said storage means; sixth counter means for selectively advancing or reducing its count in accordance with the length of said first pulse train and second counter means for selectively advancing or reducing its count in accordance with the length of said second pulse train; and second converter means connected to each of said first and second counter means for generating first and second analog signals each having a value representative of the count in the respective counter means.
  • Apparatus according to claim 13 further including stroke counter means connected to said address means for conditioning said storage means to forward to said generator means data related to the stroke of the character associated with the count in said stroke counter means, and means for advancing the count in said stroke counter means upon each generation of pulse trains by said generator means.
  • Apparatus according to claim 14 further including gate means responsive to the selection of data concerning the last stroke of a character to reset said stroke counter means.
  • Apparatus according to claim 13 further including second control means adapted to selectively operate video circuits associated with said display device.
  • Apparatus according to claim 1 further including storage means containing data concerning a plurality of strokes required to display each of a plurality of predetermined characters; and, address means adapted to receive selected character information concerning a character to be displayed, said address means responding to said character information to select data from said storage means corresponding to the selected character; said first and second pulse generator means responsive to selected data from said storage means to generate said respective first and second pulses as pulse trains of predetermined length determined by the data selected from said storage means.
  • Apparatus according to claim 18 further including stroke counter means connected to said address means for conditioning said storage means to forward to said generator means data related to the stroke of the character associated with the count in said stroke counter means, and means for advancing the count in said stroke counter means upon each generation of pulse trains by said generator means.
  • Apparatus according to'claim 19 further including gate means reponsive to the selection of data concerning the last stroke of a character to reset said stroke counter means.
  • Apparatus according to claim 18 further including control means adapted to selectively operate video circuits associated with said display device.
  • control means is selectively operated in accordance with data from said storage means.

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  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Radar, Positioning & Navigation (AREA)
  • Remote Sensing (AREA)
  • Radar Systems Or Details Thereof (AREA)
  • Details Of Television Scanning (AREA)
  • Controls And Circuits For Display Device (AREA)
US00248042A 1972-04-27 1972-04-27 Digital display generators Expired - Lifetime US3821727A (en)

Priority Applications (6)

Application Number Priority Date Filing Date Title
US00248042A US3821727A (en) 1972-04-27 1972-04-27 Digital display generators
DE2320403A DE2320403C3 (de) 1972-04-27 1973-04-21 Bildgenerator
IT49632/73A IT980333B (it) 1972-04-27 1973-04-24 Generatore per dispositivi di presentazione
JP4629273A JPS5334860B2 (it) 1972-04-27 1973-04-25
NL7305841A NL7305841A (it) 1972-04-27 1973-04-26
GB2025073A GB1423682A (en) 1972-04-27 1973-04-27 Display generators

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US00248042A US3821727A (en) 1972-04-27 1972-04-27 Digital display generators

Publications (1)

Publication Number Publication Date
US3821727A true US3821727A (en) 1974-06-28

Family

ID=22937410

Family Applications (1)

Application Number Title Priority Date Filing Date
US00248042A Expired - Lifetime US3821727A (en) 1972-04-27 1972-04-27 Digital display generators

Country Status (6)

Country Link
US (1) US3821727A (it)
JP (1) JPS5334860B2 (it)
DE (1) DE2320403C3 (it)
GB (1) GB1423682A (it)
IT (1) IT980333B (it)
NL (1) NL7305841A (it)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4472707A (en) * 1982-06-18 1984-09-18 Allied Corporation Display processor digital automatic gain control providing enhanced resolution and accuracy
WO1994016408A1 (en) * 1993-01-06 1994-07-21 Palm Computing, Inc. Method and apparatus for editing electronic ink

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4472707A (en) * 1982-06-18 1984-09-18 Allied Corporation Display processor digital automatic gain control providing enhanced resolution and accuracy
WO1994016408A1 (en) * 1993-01-06 1994-07-21 Palm Computing, Inc. Method and apparatus for editing electronic ink

Also Published As

Publication number Publication date
NL7305841A (it) 1973-10-30
DE2320403B2 (de) 1978-03-23
JPS4948247A (it) 1974-05-10
JPS5334860B2 (it) 1978-09-22
DE2320403A1 (de) 1973-11-15
DE2320403C3 (de) 1979-03-29
IT980333B (it) 1974-09-30
GB1423682A (en) 1976-02-04

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