US3165664A - Signal storage tubes utilizing high and low capacitance storage electrodes - Google Patents

Signal storage tubes utilizing high and low capacitance storage electrodes Download PDF

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Publication number
US3165664A
US3165664A US90667A US9066761A US3165664A US 3165664 A US3165664 A US 3165664A US 90667 A US90667 A US 90667A US 9066761 A US9066761 A US 9066761A US 3165664 A US3165664 A US 3165664A
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United States
Prior art keywords
storage
potential
writing
target
mesh
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Expired - Lifetime
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US90667A
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English (en)
Inventor
Callick Eric Brian Butler
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Teledyne UK Ltd
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English Electric Valve Co Ltd
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J31/00Cathode ray tubes; Electron beam tubes
    • H01J31/08Cathode ray tubes; Electron beam tubes having a screen on or from which an image or pattern is formed, picked up, converted, or stored
    • H01J31/10Image or pattern display tubes, i.e. having electrical input and optical output; Flying-spot tubes for scanning purposes
    • H01J31/12Image or pattern display tubes, i.e. having electrical input and optical output; Flying-spot tubes for scanning purposes with luminescent screen
    • H01J31/18Image or pattern display tubes, i.e. having electrical input and optical output; Flying-spot tubes for scanning purposes with luminescent screen with image written by a ray or beam on a grid-like charge-accumulating screen, and with a ray or beam passing through and influenced by this screen before striking the luminescent screen, e.g. direct-view storage tube

Definitions

  • This invention relates to signal storage tubes and more particularly to so-called directview storage tubes of the kind in which those areas of a foraminous storage target, comprising a dielectric layer on a conducting mesh or grid, which have been subjected to electron bombard merit by means of a writing electron beam controlled in accordance with applied signals, increase in potential with respect to the remaining areas, and in which the number of electrons of a flood beam passing the storage electrode at any point and impinging on a fluorescent screen is determined by the potential of the storage electrode at that point, whereby the displayed image produced by the flood gun is caused to be representative of the applied signals.
  • adirect view storage tube v of the kind referred to comprises, between the normally provided storage target of the tube and the writing and flood guns thereof, an additional storage target which is of low capacitance and is adapted rapidly to acquire a.
  • capacitance as herein used with reference 60 f Patented Jan; l2, 1965 storage tube comprises a writing electron gun; a flood electron gun, said guns being provided at one end of the tube; a fluorescent screen at the other end; a'relatively low capacitance storage target extending across the tube between said guns on the one hand and said screen on theother; a relatively high capacitance storage target adjacent said 10w capacitance electrode and co-extensive therewith and positioned on the side thereof nearer said fluorescent screen, each of said storage targets comprising a conducting grid or mesh having deposited on the side remote from said screen a layer of dielectric material so 'arrangedjas to leave the interstices of-the grid or mesh tended for operation as a half-tone" tube there is preferably provided a further secondary electron collecting electrode positioned between said low capacitance and high capacitance storage targets.
  • a preferred storage tube arrangement adapted for bistable operation of the tube comprises a storage tube in accordance withthe above-mentioned feature of this invention; means for switching the beam of said writing gun on and off; means fordeflecting the beam of said writing gun in accordance with applied signals; means for applying a high negative potential to the cathode of said writing gun, a positive potential to said first mentionedsecondary electron collecting electrode and a high positive potential to said screen; means for applying to the conducting grid or mesh of said relatively low capacij tance storage target potentials in the range from a small negative potential to a small positive potential and means for applying to the conducting grid or mesh of said relatively high capacitance storage target potentials in the range from Zero to a potential in excess of twice the socalled first secondary emission crossover potential of the dielectric layer of that target, all of said potentials being measured in relation to the cathode of said flood gun.
  • a storage tube arrangement adapted for half-tone operation of the tube comprises a storage tube in accordance with the above-mentioned feature of the invention and including the aforesaid further secondary electron collecting electrode; means for deflecting the beam ofsaid writing gun across said low capacitancetarget; means I for modulating said writing beam inaccordance with applied. signals; means for applying a-high negative potential to the cathode of 'said writing gun, a positive'potential to said first mentioned secondary electron collecting electrode, a positive potential, in excess of the first secondary emission crossover potential of the dielectric layer of said relatively high capacitance storage target, to said further secondary electron collecting electrode, and
  • FIGURE 1 is a simplified diagram of a bistable storage tube according to the invention.
  • FIGURE 2 is a simplified diagram of a half-tone storage tube according to the invention.
  • the storage tube 1 has deposited on an end wall thereof a fluorescent screen 2, shown as a thickened line, having a thin metallic backing film (not separately shown).
  • a storage target or electrode 3 which may be as normally provided in known direct view storage tubes and which comprises a metallic mesh 31 on which is deposited, on the side remote from the fluorescent screen, a thinlayer of dielectric material 32 which is so arranged as to leave the interstices of the mesh 31 open and is of such thickness as to present relatively high capacitance between its own surface and the metal mesh 31.
  • a second or additional storage electrode 4 Parallel to the storage electrode 3 and closely spaced therefrom is a second or additional storage electrode 4, comprising a metal mesh 41 and dielectric layer 42, and which is similar to the storage electrode 3 except in respect of the thickness of the dielectric layer 42 which is arranged to be greater than that of the layer 32 so that the capacitance between the surface of the dielectric layer 42 and the metal mesh 41 is considerably smaller than the comparable capacitance of the electrode 3.
  • a secondary electron collector mesh is closely spaced from and parallel to the storage electrode 4 on the side thereof remote from the electrode 3.
  • the electrode 3, 4 and 5 together form a composite storage target, which, for convenience of reference, is labelled T in the drawing, the grids 31, 41 and 5 being arranged in known manner so that the generation of so-called moire patterns is a minimum.
  • a flood electron gun 6, which is arranged to produce an electron beam which spreads evenly across the storage target T, and a writing electron gun 7, which is arranged to produce a substantially cylindrical Writing electron beam which may be switched on or off at will, are arranged at the end of the tube 1 remote from the fluorescent screen 2.
  • These electron guns may be, and as shown are, arranged with the flood gun mounted on the axis of the storage target T and the writing gun arranged at an angle thereto.
  • the tube 1 is, in operation, provided with means (not separately shown) for deflecting the writing beam across the storage target.
  • deflection means may, for example, comprise two pairs of mutually perpendicular deflection plates, one pair of plates being fed with deflection potential from a time base generator and the other pair with the signal to be stored.
  • the time base generator may be arranged to be triggered by the signal to be stored.
  • the cathode of the writing gun 7 and the fluorescent screen 2 are maintained at high negative and positive potentials, respectively, with regard to the flood gun cathode, which may be at earth potential; the mesh 5 is at low positive potential and the potentials of the meshes 31 and 41 are varied in the manner described hereafter.
  • the metal mesh 31 is held at zero potential while the metal mesh 41 is at a small positive potential, say 5 v.-1O v. and the electrons of the flooding beam, which is continously on, stabilise the dielectric layer 42 at the flood gun cathode potential, i.e. zero volts.
  • the mesh 31 is then slowly raised to a potential which is just below the so-called first crossover potential or first secondary emission crossover potential of the dielectric layer 32, is. just below the lowest potential at which the number of secondary electrons given off by the dielectric exceeds the number of bombarding primary electrons, and during this operation the flood electrons pass through 4 the interstices of the storage electrode 4 and maintain the surface of the dielectric layer 32 at zero volts.
  • metal mesh 41 is now reduced to just below zero volts, so cutting off the flood electrons passing to the storage electrode 3, and the metal mesh 31 is raised rapidly to its normal residing potential which is just less than twice the so-called first crossover potential. Because of the capacitance between the mesh 31 and the surface of the dielectric layer 32, the latter increases in potential by an amount equal to the increase in potential of the mesh 31 and so adopts a potential which is just below the first crossover potential.
  • the signal to be stored and the time base voltage are applied to the writing deflection means and at the same time the writing gun is turned on by a control voltage applied to its grid.
  • Those parts of the dielectric layer 42 struck by the writing beam give off more secondary electrons than they receive from the writing beam and hence store a positive charge, the secondary electrons being collected by the collector mesh 5.
  • the bombarded areas of the layer 42 may be raised in potential by a sufficient amount for satisfactory operation of the tube in a very short time.
  • the dielectric layer 42 need only be raised to a positive potential of, say,.two or three volts.
  • the writing speed may be veryhigh and, due to the low capacitance of storage electrode 4, may be in excess of the writing speeds of the so-called half tone storage tubes as at present known.
  • the writing beam is switched on the potential of the metal mesh 31 is increased rapidly by an amount. suflicient to bring the potential of the dielectric layer 32 above the first crossover potential.
  • the electrons of the flood beam will pass through the interstices of the storage electrode 4 at, and only at, the areas which have been bombarded by the writing beam and will strike, as well as pass through the interstices of, the storage electrode 3 at corresponding areas.
  • the electrons which pass through the storage electrode 3 will impinge on the fluorescent screen with high velocity, due to the high positive potential of the screen 2, and display an image thereon corresponding to the charge pattern on the storage electrode 4, while the electrons which land on the dielectric layer 32 will generate secondary electrons in excess of the primary bombarding electrons, causing these areas to increase in potential up to approximately the potential of the metal mesh 31, by which the secondary electrons from the dielectric layer 32 are collected.
  • a storage tube in accordance with this invention and adapted for half-tone operation may be similar to that illustrated in the drawing and described above but with the addition of a further secondary electron collecting mesh disposed between and parallel to the two storage electrodes 3 and 4. Furthermore the writing beam is arranged to be scanned across the additional storage target in predetermined manner, for example, in a television raster, and modulated in accordance with the signals to be stored.
  • the electrodes 2, 4 and 5 and the cathodes of the writing and flood guns are operated at the same potentials as above described with reference to the illustrated tube while the further secondary collecting electrode is preferably held at a potential of about twice the first crossover of the dielectric layer 32.
  • both grids or meshes 31 and 41 are held at a slight positive potential and the dielectric layers 32 and 42 are stabilised at the flood gun potential.
  • the potential applied to layer 41 is then reduced to zero, while that applied to 31 is raised to a value such that the potential of the surface 32 is brought above the first crossover.
  • flood electrons will record a positive charge pattern on the dielectric layer 32 which corresponds to that recorded on 42 by the writing beam.
  • the potential applied to grid or mesh 31 is reduced to zero, so cutting off the flood electrons from the screen, except in those areas where a positive oharge has been deposited on the surface of 32.
  • the potential of the fluorescent screen is held at some suitable low level until the potential applied to 31 is set to zero.
  • a high potential direct current source 8 having its negative terminal connected to the cathode of the gun 7 and its positive terminal connected to the screen 2. From source 8 another connection is taken to grid 5 to render it sufficiently positive with respect to the cathode of gun 7.
  • a further source 9 is provided to apply the necessary potentials to the wire grid 41, while a source 10 is connected to the wire grid 31 to provide it with the necessary operating potentials.
  • the writing of the required information by gun 7 is achieved through the agency of a modulator 11 which is adapted to switch the beam on and off at appropriate times and a deflection system 12 adapted to scan the beam across the target.
  • FIGURE 2 With reference to FIGURE 2, there is shown a tube of basically the same configuration as that shown in FIGURE 1 and similar reference numerals are used in relation to similar elements of the two figures.
  • the principal difference between the two arrangements is that the embodiment of FIGURE 2 is adapted for half-tone storage and has a further conductive mesh '13 inserted between meshes 3 and 4.
  • the source 10 is connected to the further mesh 13 instead of mesh 31 as was the case inFIGURE l.
  • potene mitted' from the insulator 32.
  • a direct View storage tube of the referred to comprising anormally provided relatively high capacitance storage target and Writing and flood guns,'an'- additional storage target which is of relatively low capacitance and is adapted rapidly to acquire a relatively non-persistent charge pattern when traversed by the writ: ing beam between said guns and said normally provided storage target, whereby after such a pattern has been produced on said additional target, a corresponding but relatively persistent charge pattern Will be produced on the said normally provided target by electrons projected to it through said additional target.
  • a direct view storage tube comprising a writing electron gun; a flood electron gun,- said guns being provided at one end of the tube; a fluorescent screen at the other end; a storage target extending across the tube between said guns and said screen; a second storage target adjacent said first mentioned target and co-extensive therewith and positioned on the side thereof nearer said fluorescent screen and having a capacitance higher than said first mentioned storagetarget, each of said storage targets comprising a conducting grid or mesh having deposited on the side remote from said screen a layer of dielectric material so arranged as to leave the interstices of the grid or mesh open; and a secondary electron collecting electrode adapted to collect secondary electrons from said first mentioned storage target.
  • said secondary electron collecting electrode comprises a conducting grid or mesh closely adjacent but spaced from said first mentioned target on the side thereof remote from said fluorescent screen.
  • a tube as claimed in claim 4 means for switching the beam of said writing gun on and off; means for deflecting the beam of said writing gun in accordance with applied signals; means for applying a high negative potential to the cathode of said writing gun, a positive potential to said first mentioned secondary electron collecting electrode and a high positive potential to said screen; means for applying to the conducting grid or mesh of said first mentioned storage target potentials in the range from a small negative potential to a small positive potential and means forapplying to the conduct- 7 ing grid or mesh of said second storage target potentials 7.
  • a tube as claimed in claim 5 mean for deflecting the beam of said writing gun across said first mentioned target; means for modulating said writ ing beam in accordance with applied signals; means for applying a high negative potential to the cathode of said writing gun, a positive potential to said first mentioned secondary electron collecting electrode, a positive potential, in excess of the first secondary emission crossover potential of the dielectric layer.

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  • Image-Pickup Tubes, Image-Amplification Tubes, And Storage Tubes (AREA)
  • Cathode-Ray Tubes And Fluorescent Screens For Display (AREA)
US90667A 1960-03-21 1961-02-21 Signal storage tubes utilizing high and low capacitance storage electrodes Expired - Lifetime US3165664A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
GB9844/60A GB896544A (en) 1960-03-21 1960-03-21 Improvements in or relating to signal storage tubes

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US3165664A true US3165664A (en) 1965-01-12

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US90667A Expired - Lifetime US3165664A (en) 1960-03-21 1961-02-21 Signal storage tubes utilizing high and low capacitance storage electrodes

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US (1) US3165664A (enrdf_load_stackoverflow)
CH (1) CH391120A (enrdf_load_stackoverflow)
DE (1) DE1208418B (enrdf_load_stackoverflow)
FR (1) FR1284424A (enrdf_load_stackoverflow)
GB (1) GB896544A (enrdf_load_stackoverflow)
NL (1) NL262236A (enrdf_load_stackoverflow)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3404308A (en) * 1961-12-04 1968-10-01 Fairchild Camera Instr Co Cathode-ray signal-translating device
US3432717A (en) * 1965-02-05 1969-03-11 Hughes Aircraft Co Moving target visual indicator tube
DE2129909A1 (de) * 1970-06-17 1972-01-27 Tektronix Inc Speicherroehren-Anordnung
US3710179A (en) * 1971-09-14 1973-01-09 Tektronix Inc Storage tube having transmission target with low differential cutoff
DE2303094A1 (de) * 1972-01-24 1973-08-23 Tektronix Inc Verfahren und vorrichtung zum betrieb einer bildspeicherroehre
US3975656A (en) * 1971-04-29 1976-08-17 Westinghouse Electric Corporation Direct view storage tube

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2513743A (en) * 1947-01-15 1950-07-04 Rca Corp Electron storage device with grid control action
US2798185A (en) * 1954-03-09 1957-07-02 Hughes Aircraft Co Direct-viewing storage tube
US2879442A (en) * 1956-09-12 1959-03-24 Bell Telephone Labor Inc Direct view storage tube

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2513743A (en) * 1947-01-15 1950-07-04 Rca Corp Electron storage device with grid control action
US2798185A (en) * 1954-03-09 1957-07-02 Hughes Aircraft Co Direct-viewing storage tube
US2879442A (en) * 1956-09-12 1959-03-24 Bell Telephone Labor Inc Direct view storage tube

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3404308A (en) * 1961-12-04 1968-10-01 Fairchild Camera Instr Co Cathode-ray signal-translating device
US3432717A (en) * 1965-02-05 1969-03-11 Hughes Aircraft Co Moving target visual indicator tube
DE2129909A1 (de) * 1970-06-17 1972-01-27 Tektronix Inc Speicherroehren-Anordnung
US3710173A (en) * 1970-06-17 1973-01-09 Tektronix Inc Direct viewing storage tube having mesh halftone target and nonmesh bistable target
US3975656A (en) * 1971-04-29 1976-08-17 Westinghouse Electric Corporation Direct view storage tube
US3710179A (en) * 1971-09-14 1973-01-09 Tektronix Inc Storage tube having transmission target with low differential cutoff
DE2244967A1 (de) * 1971-09-14 1973-04-12 Tektronix Inc Speicherroehre fuer ladungsbilder
DE2303094A1 (de) * 1972-01-24 1973-08-23 Tektronix Inc Verfahren und vorrichtung zum betrieb einer bildspeicherroehre

Also Published As

Publication number Publication date
CH391120A (fr) 1965-04-30
DE1208418B (de) 1966-01-05
FR1284424A (fr) 1962-02-09
GB896544A (en) 1962-05-16
NL262236A (enrdf_load_stackoverflow)

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