US2269599A - Telautograph system - Google Patents
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- US2269599A US2269599A US371902A US37190240A US2269599A US 2269599 A US2269599 A US 2269599A US 371902 A US371902 A US 371902A US 37190240 A US37190240 A US 37190240A US 2269599 A US2269599 A US 2269599A
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- G—PHYSICS
- G08—SIGNALLING
- G08C—TRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
- G08C21/00—Systems for transmitting the position of an object with respect to a predetermined reference system, e.g. tele-autographic system
Definitions
- My invention relates to improved means and systems whereby writing or tracing movements of a body such as a pen, pencil or stylus in tracing a picture or design may be reproduced at a distance.
- telautograph instruments and systems whereby writing at a distance is made visible are sometimes referred to as telautograph instruments and systems, and while such arrangements have been proposed incorporating a cathode ray tube having a long persistence luminescent screen on which the movements of the stylus are reproduced by a moving cathode ray beam, it has been customary to produce movements of the beam in the cathode ray tube directly from beam deflection potentials applied to a resistance plaque or tablet. For adequate sensitivity of beam deflection the potentials applied to the plaque or tablet are relatively high and become a hazard during use.
- the sensitivity of reproduction may be relatively low and it is therefore an object of my invention to provide a system wherein high sensitivity may be obtained without danger or hazard to those operating the equipment. Another object is to provide such a system wherein no apparatus having points or areas at high potential is exposed and it is a further object to provide a system including a resistance plaque wherein the power loss in the plaque is a minimum.
- I provide a low potential alternating current source which is applied to the writing plaque or tablet of relatively high resistance or semi-conducting material, and derive from this single potential source,
- I provide a resistance plaque or tablet I over which a conducting stylus II is moved, simulating a writing or tracing movement, such movement being indicative of the intelligence for which reproduction is desired at a distant receiving position.
- the plaque or tablet III which may be of rectangular form, is
- conductors l2 and I3 and on its other opposite sides with conductors M-li are provided on two of its opposite sides with conductors l2 and I3 and on its other opposite sides with conductors M-li.
- the conductors l2-l5 do not extend entirely to the corners of the plaque II but are insulated one from the other except for conduction through the plaque or tablet to produce mutually perpendicular voltage gradients across the central portion of the plaque such as the portion enclosed within the dashed lines I6.
- an alternating or pulsating current is applied to the opposite conductors such as between the conductors I2-l3 and l4-l5.
- FIG. 1 which shows one method of applying pulsating voltages to the conductors
- alternating voltage from a source may be applied to two transformers 2
- is provided with a secondary winding 24 and the transformer 2
- pulsating currents are applied alternately or sequentially to the conductors l2-I3 and then to the conductors l4-l5, these pulsating currents being displaced in phase by 180.
- the diode 22 allows current flow in the secondary winding 24, and during the following half cycle the diode 23 allows current flow in the secondary winding 25.
- the energized plaque or tablet in combination with the stylus ll comprises the transmitting portion of the system, whereas the receiving portion, likewise shown in Figure 1, includes a cathode ray tube 30 having means to generate an electron beam, such as a conventional electron gun 3
- Magnetic deflection means may be utilized in place of the plates 33-36 if desired.
- the stylus II is preferably connected directly to two of the deflection plates, such as the plates 34-35 which may be operated at ground potential, and to the input circuits of two amplifiers 40, 4
- the input electrode of the ampliner 40 is connected to one of the plaque conductors. such as the conductor l2, and the input electrode, such as the grid 43 is connected to an adjacent plaque conductor l5.
- the pulsating currents applied between the conductors l2-l3 and ll-li produce substantially mutually perpendicular equi-potential voltage gradients across the central portion of the plaque Ill so that upon movement of the stylus II in contact with'- the central portion of the plaque l potentials applied to the stylus are substantially proportional to the distance over the surface of the plaque from the surrounding conductors.
- Signal pulses will be alternately applied to the amplifiers, such as the triodes 40 and 4
- the output of pulsating wave form, from the amplifier 40 is applied to the deflection plates 33-34 of the tube 30, in series with a uni-directional current limiting device, such as the diode 50.
- is applied to the deflection plates 35-36 through a uni-directional current limiting device, such as the diode 5
- the potentials applied between the opposite conductors on the plaque may be relatively low, such as a peak-to-peak value of 10vo1ts which cannot possibly cause injury to the operator but which is nevertheless suflicient to control the amplifiers fill-4
- the voltages applied across the plaque may be of very small values and need not be suflicient in and of themselves to deflect the electron beam in the tube 30. Since the voltages are small such as 10 volts or less and further since the potentials are intermittently applied, the power loss in the plaque or tablet I0 is a minimum. It will also be apparent that alternate pulsations of voltage similar to th pulsations appearing across the plaque l0 and varying in amplitude in accordance with the position of the stylus on the plaque will be applied to the deflection plates of the cathode ray tube 30.
- the alternating current supply is a 60- cycle supply
- 60 voltage surges will be applied between the deflection plates 33-34, and similarly, 60 voltage surges will be applied across 35-36 a in alternate succession, these voltage surges being representative in amplitude of the positionof the stylus H on the plaque ill.
- the electron beam of the cathode ray tube 30 will therefore be displaced froma neutral position in two mutually perpendicular directions 60 times per second.
- I connect across the plates 33-34 means to damp the pulsations, such as the time constant circuit comprising the resistor 52 and condenser 53, and a second time constant circuit comprising the resistor 54 and condenser 55 in parallel across the plates 35-36.
- the system shown in Figure 1 is particularly advantageous for use with cathode ray tubes having only two free deflection plates wherein two of the plates are operated at a single poten tial, such as at a potential of one of the electron gun electrodes.
- the system of Figure 2 may be used. Referring to Figur 2, the plaque or tablet, together with the conductors partially surrounding the tablet, are similar to those described in connection with Figure 1, and an alternatingcurrent potential is applied across opposite conductors of the plaque through the writing stylus.
- the writing stylus l l is connected in series with a low potential alternating current source, such as the secondary winding of a transformer 60, the stylus being connected the stylus being connected through the transformer secondary through resistors 6I-62 having a value of resistance which is high with respect to the resistance of the plaque In to the opposite conductors l2-I3, and to the conductors M-l5 through similar resistors 63-64.
- a low potential alternating current source such as the secondary winding of a transformer 60
- resistors 6I-62 having a value of resistance which is high with respect to the resistance of the plaque In to the opposite conductors l2-I3, and to the conductors M-l5 through similar resistors 63-64.
- four amplifiers must be utilized, the input electrodes of which are directly connected to the plaque conductors.
- control electrodes such as the grids of the amplifiers 65-66
- the control electrodes may be connected to the opposite conductors l2-I3, and similarly, the grids of the amplifiers 61-68 connected to the other opposite conductors I l-l5.
- the output electrodes of the amplifiers 65-66 are connected through unilateral conducting devices such as the diodes 69-10 to the deflection plates 33-34 of the cathode ray tube 30 and the output electrode of the amplifiers 61-66 are connected through the diodes ll-I2 to the other pair of deflection plates 35-36.
- I utilize two time constant circuits comprising resistors 80-80 and condensers 8l-8I, except that I connect these resistors and condensers between each of the plates 33-34 and ground. Similar resistors 82-62 and condensers 83-83 are connected between the other plates 35-36 and ground. As explained above the value of these elements depend upon the alternating supply frequency and the values given in connection with the circuit of Figure 1 are satisfactory in the circuit of Figure 2.
- a resistance tablet having substantially uniform lateral resistance over an exposed area
- means to apply potentials across said tablet comprising two pairs of electrodes the electrodes of each pair being on opposite sides of said tablet, an electrically conducting stylus adapted to move over in contact with said tablet simulating a writing motion, means to apply a pulsating electric potential of the same frequency of pulsation in two directions across said tablet effective to produce pulsating potential drops across said tablet when said stylus is in contact therewith, a plurality of thermionic amplifiers having input and output electrodes, connections between at least two of said electrodes on adjacent sides of said tablet and the input electrodes of two of said amplifiers, a cathode ray tube including means to generate an electron beam anda luminescent screen, means to deflect the said electron beam in one direction over said luminescent screen, means to deflect the beam in another direction over said luminescent screen, and connections between each of said two lastmentioned means and said two amplifiers to deflect said beam in accordance with the
- a resistance plaque having substantially uniform resistance over an exposed area, two pairs of conductors, the conductors of each pair,being connected to opposite sides of said plaque, a stylus adapted to move over and contact said plaque simulating .
- a writing motion means to apply a pulsating electric potential of the same frequency of pulsation between said stylus and each of said conductors, a plurality of thermionic amplifiers having input and output electrodes, a connection between the input electrode of one amplifier and one of said conductors and a connection between the input electrode of another of said amplifiers and another of said conductors adjacent said first-mentioned conductor, a cathode ray tube having two pair of deflection plates, connections between the output electrode of each of said amplifiers and a plate of each of said pairs of plates and a rectifier interposed in each of said last-mentioned connections to apply to said plates potentials representative of the position of said stylus on said resistance plaque.
- telautograph system a resistance plaque having a substantially uniform resistance" over an exposed area, four conductors electrically connected to said plaque adjacent the periphery.
- a cathode ray tube having means to generate an electron beam and a target adapted to be impinged by said beam, dual beam deflection means to sweep said-beam over said target in mutually perpendicular directions and a connection between the output electrode of each of said two amplifiers and a corresponding one of said dual deflection means to deflect said beam over said target in accordance with the movement of said stylus over said plaque.
- a system as claimed in claim 3 including a time constant circuit including a resistor and capacitor connected across each of said dual means, each of said time constant circuits being of a value to provide a time constant sufliciently long to smooth the pulsations occuring at the frequency of said pulsating current and sufficiently short to follow the movement of said stylus over the central portion of said plaque.
- a resistance plaque having an extended'area, four conductors surrounding said area providing two pairs of two conductors each, the conductors of each pair being on opposite sides of said area, a writing stylus adapted to move over'arrd contact said plaque, a source of alternating current, a pair of transformers with their primary windings the current flow alternately in each transformer to alternate half cycles of the impressed alternating current potential, a resistance plaque, two pairs of conductors surrounding and in contact with four sides of said resistance plaque, a stylus adapted to move over and make contact with'said plaque and derive a pulsating signal representative of the position of said stylus on said plaque, means including a plurality of amplifiers to amplify said pulsating signal, and cathode ray tube means connected to saidplurality of amplifiers to produce a visual representation of the movement of said stylus over said plaque.
- a cathode ray tube including means to generate an electron beam and a luminescent screen, two pairsof deflection plates to deflect said beam over said screen, a connection between each of the plates of said pairs of plates and the output electrode of a correspond-.
- a system as claimed in claim 8 including a time constant circuit comprising a resistor and condenser connected in parallel between each of said deflection plates and an input electrode of said amplifiers.
Description
Jan. 13, 1942. v H. c. MOODEY 2,269,599
TELAUTOGRAPH SYSTEM Filed Dec. 27, 1940 INVENTOR. 72 HANNAH c. MOODEY ATTORNEY.
Patented Jan. 13, 1942 2,269,599 TELAUTOGRAPH SYSTEM Hannah 0. Moodey, Plainfield, N. J., assignor to Radio Corporation of America, a corporation of Delaware Application December 27, 1940, Serial No. 371,902
9 Claims.
My invention relates to improved means and systems whereby writing or tracing movements of a body such as a pen, pencil or stylus in tracing a picture or design may be reproduced at a distance. s
Instruments and systems whereby writing at a distance is made visible are sometimes referred to as telautograph instruments and systems, and while such arrangements have been proposed incorporating a cathode ray tube having a long persistence luminescent screen on which the movements of the stylus are reproduced by a moving cathode ray beam, it has been customary to produce movements of the beam in the cathode ray tube directly from beam deflection potentials applied to a resistance plaque or tablet. For adequate sensitivity of beam deflection the potentials applied to the plaque or tablet are relatively high and become a hazard during use.
In addition, the sensitivity of reproduction may be relatively low and it is therefore an object of my invention to provide a system wherein high sensitivity may be obtained without danger or hazard to those operating the equipment. Another object is to provide such a system wherein no apparatus having points or areas at high potential is exposed and it is a further object to provide a system including a resistance plaque wherein the power loss in the plaque is a minimum.
In accordance with my invention I provide a low potential alternating current source which is applied to the writing plaque or tablet of relatively high resistance or semi-conducting material, and derive from this single potential source,
current or voltage pulses representative of the ratus.
As shown in Figure l, I provide a resistance plaque or tablet I over which a conducting stylus II is moved, simulating a writing or tracing movement, such movement being indicative of the intelligence for which reproduction is desired at a distant receiving position. The plaque or tablet III, which may be of rectangular form, is
provided on two of its opposite sides with conductors l2 and I3 and on its other opposite sides with conductors M-li. The conductors l2-l5 do not extend entirely to the corners of the plaque II but are insulated one from the other except for conduction through the plaque or tablet to produce mutually perpendicular voltage gradients across the central portion of the plaque such as the portion enclosed within the dashed lines I6. In accordance with my inventionan alternating or pulsating current is applied to the opposite conductors such as between the conductors I2-l3 and l4-l5. Referring specifically to Figure 1, which shows one method of applying pulsating voltages to the conductors, altemating voltage from a source may be applied to two transformers 2| and 2| each of which is in series with a uni-directional current limiting device such as the diodes 22-23. The transformer 2| is provided with a secondary winding 24 and the transformer 2| is provided with a secondary winding 25, the winding 24 being connected across the opposite conductors I2- -l3 and the secondary winding 25 being connected across the other pair of opposite conductors M-l5 of the plaque to. In the operation of the above-described circuit, pulsating currents are applied alternately or sequentially to the conductors l2-I3 and then to the conductors l4-l5, these pulsating currents being displaced in phase by 180. During one one-half cycle of the alternating current wave the diode 22 allows current flow in the secondary winding 24, and during the following half cycle the diode 23 allows current flow in the secondary winding 25.
The energized plaque or tablet in combination with the stylus ll comprises the transmitting portion of the system, whereas the receiving portion, likewise shown in Figure 1, includes a cathode ray tube 30 having means to generate an electron beam, such as a conventional electron gun 3|, a luminescent screen 32 preferably of material having relatively long time lag phosphorescent characteristics, and means such as two pair ofdeflection plates 33-34 and 35-36 to deflect the beam from the electron gun 3| over the luminescent screen 32. Magnetic deflection means may be utilized in place of the plates 33-36 if desired. In the showing of Figure 1 the stylus II is preferably connected directly to two of the deflection plates, such as the plates 34-35 which may be operated at ground potential, and to the input circuits of two amplifiers 40, 4| which may be of the triode type as shown. The input electrode of the ampliner 40 is connected to one of the plaque conductors. such as the conductor l2, and the input electrode, such as the grid 43 is connected to an adjacent plaque conductor l5. During operation the pulsating currents applied between the conductors l2-l3 and ll-li produce substantially mutually perpendicular equi-potential voltage gradients across the central portion of the plaque Ill so that upon movement of the stylus II in contact with'- the central portion of the plaque l potentials applied to the stylus are substantially proportional to the distance over the surface of the plaque from the surrounding conductors. Signal pulses will be alternately applied to the amplifiers, such as the triodes 40 and 4|, these impulses having a time and phase rela-' tionship equivalent to a displacement of 180. The output of pulsating wave form, from the amplifier 40 is applied to the deflection plates 33-34 of the tube 30, in series with a uni-directional current limiting device, such as the diode 50. Similarly, the output from the amplifier 4| is applied to the deflection plates 35-36 through a uni-directional current limiting device, such as the diode 5|.
From the foregoing description it will be apparent that the potentials applied between the opposite conductors on the plaque may be relatively low, such as a peak-to-peak value of 10vo1ts which cannot possibly cause injury to the operator but which is nevertheless suflicient to control the amplifiers fill-4| and supply high deflecting potentials to the cathode ray tube through the diodes 50-51.
From the foregoing description it will be appreciated that the voltages applied across the plaque may be of very small values and need not be suflicient in and of themselves to deflect the electron beam in the tube 30. Since the voltages are small such as 10 volts or less and further since the potentials are intermittently applied, the power loss in the plaque or tablet I0 is a minimum. It will also be apparent that alternate pulsations of voltage similar to th pulsations appearing across the plaque l0 and varying in amplitude in accordance with the position of the stylus on the plaque will be applied to the deflection plates of the cathode ray tube 30. Thus if the alternating current supply is a 60- cycle supply, 60 voltage surges will be applied between the deflection plates 33-34, and similarly, 60 voltage surges will be applied across 35-36 a in alternate succession, these voltage surges being representative in amplitude of the positionof the stylus H on the plaque ill. The electron beam of the cathode ray tube 30 will therefore be displaced froma neutral position in two mutually perpendicular directions 60 times per second. However, such operation is disadvantageous and further in accordance with my invention I connect across the plates 33-34 means to damp the pulsations, such as the time constant circuit comprising the resistor 52 and condenser 53, and a second time constant circuit comprising the resistor 54 and condenser 55 in parallel across the plates 35-36. The absolute values of these resistor-condenser combinations are dependent upon the frequency of the alternating current supply applied to the transformer 2|. Thus, the time constants provided by these combinations should be sufficiently long to smooth th pulsations appearing across the respective diodes Ell-5|, but also the time constants should be sufiiciently short to follow the writing speed or movement of the stylus over the central area of the plaque l0. Values of 250,000 ohms and 0.1 microfarad are satisfactory with an alternating current supply of 60 cycles.
The system shown in Figure 1 is particularly advantageous for use with cathode ray tubes having only two free deflection plates wherein two of the plates are operated at a single poten tial, such as at a potential of one of the electron gun electrodes. When utilizing tubes of the type wherein all four deflection plates are provided with leads extending without the cathode ray tube envelope, the system of Figure 2 may be used. Referring to Figur 2, the plaque or tablet, together with the conductors partially surrounding the tablet, are similar to those described in connection with Figure 1, and an alternatingcurrent potential is applied across opposite conductors of the plaque through the writing stylus. Thus the writing stylus l l is connected in series with a low potential alternating current source, such as the secondary winding of a transformer 60, the stylus being connected the stylus being connected through the transformer secondary through resistors 6I-62 having a value of resistance which is high with respect to the resistance of the plaque In to the opposite conductors l2-I3, and to the conductors M-l5 through similar resistors 63-64. In this arrangement four amplifiers must be utilized, the input electrodes of which are directly connected to the plaque conductors. Thus the control electrodes, such as the grids of the amplifiers 65-66, may be connected to the opposite conductors l2-I3, and similarly, the grids of the amplifiers 61-68 connected to the other opposite conductors I l-l5. The output electrodes of the amplifiers 65-66 are connected through unilateral conducting devices such as the diodes 69-10 to the deflection plates 33-34 of the cathode ray tube 30 and the output electrode of the amplifiers 61-66 are connected through the diodes ll-I2 to the other pair of deflection plates 35-36. As in the circuit of Figure 1 I utilize two time constant circuits comprising resistors 80-80 and condensers 8l-8I, except that I connect these resistors and condensers between each of the plates 33-34 and ground. Similar resistors 82-62 and condensers 83-83 are connected between the other plates 35-36 and ground. As explained above the value of these elements depend upon the alternating supply frequency and the values given in connection with the circuit of Figure 1 are satisfactory in the circuit of Figure 2.
While I have indicated the preferred embodiments of my invention of which I am now aware and have also indicated only one specific application for which my invention may be employed, it will be apparent that my invention is by no means limited to the exact forms illustrated or the use indicated, but that many variations may be made in the particular structure used and the til purpose for which it is employed without departing from the scope of my invention as set forth in the appended claims.
I claim:
1. In a telautograph system a resistance tablet having substantially uniform lateral resistance over an exposed area, means to apply potentials across said tablet comprising two pairs of electrodes the electrodes of each pair being on opposite sides of said tablet, an electrically conducting stylus adapted to move over in contact with said tablet simulating a writing motion, means to apply a pulsating electric potential of the same frequency of pulsation in two directions across said tablet effective to produce pulsating potential drops across said tablet when said stylus is in contact therewith, a plurality of thermionic amplifiers having input and output electrodes, connections between at least two of said electrodes on adjacent sides of said tablet and the input electrodes of two of said amplifiers, a cathode ray tube including means to generate an electron beam anda luminescent screen, means to deflect the said electron beam in one direction over said luminescent screen, means to deflect the beam in another direction over said luminescent screen, and connections between each of said two lastmentioned means and said two amplifiers to deflect said beam in accordance with the position of said stylus on said tablet.
2. In a telautograph system a resistance plaque having substantially uniform resistance over an exposed area, two pairs of conductors, the conductors of each pair,being connected to opposite sides of said plaque, a stylus adapted to move over and contact said plaque simulating .a writing motion, means to apply a pulsating electric potential of the same frequency of pulsation between said stylus and each of said conductors, a plurality of thermionic amplifiers having input and output electrodes, a connection between the input electrode of one amplifier and one of said conductors and a connection between the input electrode of another of said amplifiers and another of said conductors adjacent said first-mentioned conductor, a cathode ray tube having two pair of deflection plates, connections between the output electrode of each of said amplifiers and a plate of each of said pairs of plates and a rectifier interposed in each of said last-mentioned connections to apply to said plates potentials representative of the position of said stylus on said resistance plaque.
3. In a telautograph system a resistance plaque having a substantially uniform resistance" over an exposed area, four conductors electrically connected to said plaque adjacent the periphery.
the input circuits of said amplifiers, a connection between each of" two adjacent conductors and said input circuits to complete said input circuits through said resistance plaque, a cathode ray tube having electron beam forming means and a luminescent target, dual means to deflect connected across said source, a uni-directional current limiting device in series with each transformer connected to allow intermittent pulsating current to flow in alternate transformers, connections between the secondary winding of each transformer and a different pair of said conductors, -a plurality of alternating currentamplifiers having input and output electrodes,
a connection between the input electrodes of at least two of said amplifiers and one conductorof each pair of conductors, a cathode ray tube having means to generate an electron beam and a target adapted to be impinged by said beam, dual beam deflection means to sweep said-beam over said target in mutually perpendicular directions and a connection between the output electrode of each of said two amplifiers and a corresponding one of said dual deflection means to deflect said beam over said target in accordance with the movement of said stylus over said plaque.
6. The system claimed in claim 5 including a resistorand condenser connected in parallel sociated with each of said transformers to limit said beam over said target and connections between said each of said dual means and a corresponding one of said amplifier output circuits.
4. A system as claimed in claim 3 including a time constant circuit including a resistor and capacitor connected across each of said dual means, each of said time constant circuits being of a value to provide a time constant sufliciently long to smooth the pulsations occuring at the frequency of said pulsating current and sufficiently short to follow the movement of said stylus over the central portion of said plaque.
5. In a telautograph system a resistance plaque, having an extended'area, four conductors surrounding said area providing two pairs of two conductors each, the conductors of each pair being on opposite sides of said area, a writing stylus adapted to move over'arrd contact said plaque, a source of alternating current, a pair of transformers with their primary windings the current flow alternately in each transformer to alternate half cycles of the impressed alternating current potential, a resistance plaque, two pairs of conductors surrounding and in contact with four sides of said resistance plaque, a stylus adapted to move over and make contact with'said plaque and derive a pulsating signal representative of the position of said stylus on said plaque, means including a plurality of amplifiers to amplify said pulsating signal, and cathode ray tube means connected to saidplurality of amplifiers to produce a visual representation of the movement of said stylus over said plaque.
8. In a telautograph system a resistance plaque,
four conductors conductively associatedwithsaid plaque, a stylus adapted to move and make contact with said plaque, a low potential alternating current potential source connected in series with said stylus and each of said four conductors, four thermionic amplifiers each having input and output electrodes, 2. connection between each of said conductors and an input electrode of a corresponding amplifier, a cathode ray tube including means to generate an electron beam and a luminescent screen, two pairsof deflection plates to deflect said beam over said screen, a connection between each of the plates of said pairs of plates and the output electrode of a correspond-.
ing amplifier and a uni-directional current limiting device in series with the connection between each of said plates and the-said corre sponding amplifier output electrodes.
- 9. A system as claimed in claim 8 including a time constant circuit comprising a resistor and condenser connected in parallel between each of said deflection plates and an input electrode of said amplifiers.
HANNAH C. MOODEY.
Priority Applications (1)
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US371902A US2269599A (en) | 1940-12-27 | 1940-12-27 | Telautograph system |
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US371902A US2269599A (en) | 1940-12-27 | 1940-12-27 | Telautograph system |
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US2269599A true US2269599A (en) | 1942-01-13 |
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US371902A Expired - Lifetime US2269599A (en) | 1940-12-27 | 1940-12-27 | Telautograph system |
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Cited By (13)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2446392A (en) * | 1944-11-09 | 1948-08-03 | Rey Secundino | Luminous teletracing system |
US2557329A (en) * | 1945-10-06 | 1951-06-19 | Honeywell Regulator Co | Telautograph system |
US2586160A (en) * | 1945-10-11 | 1952-02-19 | Us Navy | Reproducing apparatus |
US2704305A (en) * | 1954-06-09 | 1955-03-15 | Donald J Mclaughlin | Resistive surface voltage divider network |
US2900446A (en) * | 1954-03-02 | 1959-08-18 | Donald J Mclaughlin | Telescriber system |
US2919305A (en) * | 1956-01-26 | 1959-12-29 | Western Union Telegraph Co | Telautograph system |
DE1080592B (en) * | 1958-12-19 | 1960-04-28 | Grundig Max | Method and device for remote transmission of movement processes in a flat area |
US2975235A (en) * | 1955-10-17 | 1961-03-14 | Telautograph Corp | Telescribing apparatus |
US3065514A (en) * | 1957-03-04 | 1962-11-27 | Internat Ytong Stabalite Compa | Method for dividing bodies of lightweight concrete or similar material |
US3524022A (en) * | 1966-10-03 | 1970-08-11 | Xerox Corp | Electro-optical display system |
US4220815A (en) * | 1978-12-04 | 1980-09-02 | Elographics, Inc. | Nonplanar transparent electrographic sensor |
US4561183A (en) * | 1984-07-23 | 1985-12-31 | General Dynamics Pomona Division | Tracing aid for computer graphics |
US4622437A (en) * | 1984-11-29 | 1986-11-11 | Interaction Systems, Inc. | Method and apparatus for improved electronic touch mapping |
-
1940
- 1940-12-27 US US371902A patent/US2269599A/en not_active Expired - Lifetime
Cited By (13)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2446392A (en) * | 1944-11-09 | 1948-08-03 | Rey Secundino | Luminous teletracing system |
US2557329A (en) * | 1945-10-06 | 1951-06-19 | Honeywell Regulator Co | Telautograph system |
US2586160A (en) * | 1945-10-11 | 1952-02-19 | Us Navy | Reproducing apparatus |
US2900446A (en) * | 1954-03-02 | 1959-08-18 | Donald J Mclaughlin | Telescriber system |
US2704305A (en) * | 1954-06-09 | 1955-03-15 | Donald J Mclaughlin | Resistive surface voltage divider network |
US2975235A (en) * | 1955-10-17 | 1961-03-14 | Telautograph Corp | Telescribing apparatus |
US2919305A (en) * | 1956-01-26 | 1959-12-29 | Western Union Telegraph Co | Telautograph system |
US3065514A (en) * | 1957-03-04 | 1962-11-27 | Internat Ytong Stabalite Compa | Method for dividing bodies of lightweight concrete or similar material |
DE1080592B (en) * | 1958-12-19 | 1960-04-28 | Grundig Max | Method and device for remote transmission of movement processes in a flat area |
US3524022A (en) * | 1966-10-03 | 1970-08-11 | Xerox Corp | Electro-optical display system |
US4220815A (en) * | 1978-12-04 | 1980-09-02 | Elographics, Inc. | Nonplanar transparent electrographic sensor |
US4561183A (en) * | 1984-07-23 | 1985-12-31 | General Dynamics Pomona Division | Tracing aid for computer graphics |
US4622437A (en) * | 1984-11-29 | 1986-11-11 | Interaction Systems, Inc. | Method and apparatus for improved electronic touch mapping |
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