US3290551A - Memory circuit for indicator devices employing four-electrode, four-layer semiconductor switch - Google Patents

Memory circuit for indicator devices employing four-electrode, four-layer semiconductor switch Download PDF

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US3290551A
US3290551A US353960A US35396064A US3290551A US 3290551 A US3290551 A US 3290551A US 353960 A US353960 A US 353960A US 35396064 A US35396064 A US 35396064A US 3290551 A US3290551 A US 3290551A
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zone
indicator
cathode
anode
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Arthur F Cake
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Unisys Corp
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Burroughs Corp
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    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03KPULSE TECHNIQUE
    • H03K21/00Details of pulse counters or frequency dividers
    • H03K21/08Output circuits

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  • Circuits are known for operating indicator or display devices such as neon tubes or glow cathode indicator tubes such as the type 6844A tube, which includes an anode and a plurality of cathode glow elements.
  • such circuits include a separate switch means such as a tube or transistor for operating each cathode indicator element, and a signal applied to the switch means causes the indicator element to glow and provide a visual display of some intelligence.
  • Memory is that ability of the circuit to turn on the indicator device and keep it on even though the applied signal, which caused the device to be turned on, is removed.
  • the objects of the present invention concern the provision of an improved circuit for operating an indicator device, the circuit having the operating characteristic known as memory.
  • the circuit of the invention comprises an indicator device, for example a gaseous indicator tube, which has one or more indicating or display elements or electrodes, to each of which a switching latch circuit is coupled.
  • Each latch circuit utilizes a four-element semiconductor switch device in a novel circuit arrangement which is relatively simple, utilizes a minimum number of circuit components, and is relatively non-critical and uses low operating current.
  • the invention particularly relates to the use of the aforementioned semiconductor switch devices, which are considered low voltage devices, in combination with a glow cathode gaseous indicator tube, which is, by comparison, a relatively high voltage device.
  • semiconductor switch devices which are considered low voltage devices
  • glow cathode gaseous indicator tube which is, by comparison, a relatively high voltage device.
  • FIG. 1 is a schematic representation of a circuit embodying the invention.
  • FIG. 2 is a schematic representation of a semiconductor switch used in each latch circuit shown in FIG. 2.
  • a circuit embodying the invention includes an indicator device 14 which, for purposes of illustration, is a glow cathode gaseous indicator tube such as the type 6844A tube.
  • a glow cathode gaseous indicator tube such as the type 6844A tube.
  • Such a tube includes a gas-filled envelope 18 which contains an anode electrode 20 and a plurality of cathode indicator electrodes 22, only three of which are shown, and which may be in the form of numeral or alphabet characters or the like.
  • the cathodes may also be separate elements which can be combined to represent characters.
  • Each cathode 22 can be caused to glow by the application of a suitable potential between it and the anode 20. This potential is generally of the order of 170 volts for tubes of this type.
  • a memory latch circuit 26 is provided for each cathode electrode 22, and each such circuit includes a multiple zone semiconductor switch device 30 shown as an SCS device.
  • An SCS semiconductor switch 30, shown in different form in FIG. 1, includes four alternating zones 34, 35, 36, 37 of P-type and N-type semiconductor material, with adjacent zones be- However, there is no such circuit "ice ing separated by a P-N junction 38. Each zone is provided with a lead for applying signals thereto or extracting signals therefrom.
  • the first zone 34 is known as the anode of the device, and the next adjacent zone 35 is used as a control zone for the anode and is known as the anode gate.
  • the fourth zone 37 is known as the cathode, and the third zone 36 adjacent to the cathode is used as a control for the cathode and is known as the cathode gate.
  • the anode zone 34 is coupled through a suitable resistor 40 to a common lead 44 which is connected to a relatively low voltage power sourve V1 which may be of the order of 12 volts.
  • the adjacent zone 35 which is the anode gate, is coupled both to one of the cathode indicator electrodes 22 of the indicator tube and through a resistor 48 to a bus 50 which is connected to a relatively high voltage power source V2 which may be of the order of volts or higher.
  • the cathode gate zone 36 is coupled through a resistor 56 to a terminal 60 to which input information signals 61 may be applied.
  • the terminals 60 are adapted to carry a negative potential, about 12 volts, to represent the absence of signal information, and a more positive potential, for example zero volts, to represent the presence of signal information.
  • the cathode gate zone is coupled to a source of control signals 62 for operating the semiconductor switch. This control signal includes negative and positive steps of about 12 volts each and is used to turn off and to turn on the semiconductor switch, depending on the presence or absence of signal information at the cathode gate.
  • the control signal 62 can also be used to clear the swtiches 30 'at any time in a cycle of operation.
  • the anode 20 of indicator tube 14 is connected through a resistor 63 to power source V2.
  • the cathodes of the indicator tube are elements which are combined in groups to represent characters, then, to energize a group of such elements, signal information would be applied to more than one terminal 60 and more than one semiconductor switch 30, and the corresponding indicator cathodes would be turned on at the same time.
  • each latch circuit provides the desired energization and latching of an indicator cathode electrode 22 with a minimum number of circuit components.
  • the arrangement of each latch circuit 26 is such that the turn-on current flow path from cathode gate to cathode in each semiconductor switch 30 is operated at low potential and low current, even though the circuit in general requires relatively high potential for operating the anode of the indicator tube and to insure that the potentials are proper for achieving full indicator cathode glow.
  • dash lines represent glow cathodes and latch circuits which might be added to an operating circuit but which are omitted to simplify the drawing.
  • a circuit for operating indicator devices comprising an indicator tube including a gas-filled envelope which contains an anode electrode and a plurality of cathode indicator electrodes, each of which provides a visual character indication,
  • a multiple junction semiconductor switching device including first, second, third, and fourth zones of P- type and N-type semiconductor material which alternate in conductivity type with a PN junction between adjacent zones,
  • said first zone comprising an anode
  • said second zone comprising an anode gate
  • said third zone comprising a cathode gate
  • said fourth zone comprising a cathode
  • said first zone being connected to a source of relatively low bias voltage
  • said second zone being connected both to one of said indicator electrodes in said tube and through a resistor to a source of relatively high bias voltage
  • said fourth zone being coupled to a source of control signals for turning the semiconductor device off and on, and
  • said third zone being coupled to a source of signal information, the entry of which in said indicator tube is controlled by said control signals.
  • a circuit for operating indicator devices including an indicator tube including a gas-filled envelope which contains an anode electrode and a plurality of cathode indicator electrodes, each of which provides a visual character indication,
  • a multiple junction semiconductor device including first, second, third, and fourth zones of P-type and N-type semiconductor material which alternate in conductivity type with a P-N junction between adjacent zones,
  • said first zone comprising an anode
  • said second zone comprising an anode gate
  • said third zone comprising a cathode gate
  • said fourth zone comprising a cathode
  • said first zone being connected to a source of relatively low bias voltage
  • said second zone being connected both to one of said indicator electrodes in said tube and through a resistor to a source of relatively high bias voltage which is also coupled to the anode of said indicator device,
  • said fourth zone being coupled to a source of erase and write signals for turning the semiconductor device off and on, and
  • said third zone being coupled to a source of signal information, the entry of which in said indicator device is controlled by said source of erase and write signals.
  • a circuit for operating an indicator device comprising an indicator tube including a gas-filled envelope which contains an anode electrode and a plurality of cathode indicator electrodes, each of which provides a visual character indication,
  • a multiple junction semiconductor device including first, second, third, and fourth zones of alternating P-type and N-type semiconductor material having a PN junction between adjacent zones,
  • said first zone comprising an anode
  • said second zone comprising an anode gate
  • said third zone comprising a cathode gate
  • said fourth zone comprising a cathode
  • said second zone being coupled to a cathode electrode

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Description

Om C2D 3,290,551 PLOYING Dec. 6, 1956 CAKE MEMORY CIRCUIT FOR INDICATOR DEVICES EM FOUR-ELECTRODE. FOUR-LAYER SEMICONDUCTOR SWITCH Filed March 23, 1954 ARTHUR F. CQKE ATTORNEY United States Patent 3,290,551 MEMORY CIRCUIT FOR INDICATOR DEVICES EMPLOYING FOUR-ELECTRODE, FOUR-LAYER SEMICONDUCTOR SWITCH Arthur F. Cake, Orange, N.J., assignor to Burroughs Corporation, Detroit, Mich, a corporation of Michigan Filed Mar. 23, 1964, Ser. No. 353,960 3 Claims. (Cl. 315-846) This invention relates to indicator devices and to circuits for operating them and, particularly, to such circuits having memory.
Circuits are known for operating indicator or display devices such as neon tubes or glow cathode indicator tubes such as the type 6844A tube, which includes an anode and a plurality of cathode glow elements. Generally, such circuits include a separate switch means such as a tube or transistor for operating each cathode indicator element, and a signal applied to the switch means causes the indicator element to glow and provide a visual display of some intelligence. which is relatively simple in construction and which has memory. Memory is that ability of the circuit to turn on the indicator device and keep it on even though the applied signal, which caused the device to be turned on, is removed.
Accordingly, the objects of the present invention concern the provision of an improved circuit for operating an indicator device, the circuit having the operating characteristic known as memory.
Briefly, the circuit of the invention comprises an indicator device, for example a gaseous indicator tube, which has one or more indicating or display elements or electrodes, to each of which a switching latch circuit is coupled. Each latch circuit utilizes a four-element semiconductor switch device in a novel circuit arrangement which is relatively simple, utilizes a minimum number of circuit components, and is relatively non-critical and uses low operating current.
The invention particularly relates to the use of the aforementioned semiconductor switch devices, which are considered low voltage devices, in combination with a glow cathode gaseous indicator tube, which is, by comparison, a relatively high voltage device. The combining of two such different devices presents problems for which the prior art provides no satisfactory teaching.
The invention is described in detail below with reference to the drawing wherein:
FIG. 1 is a schematic representation of a circuit embodying the invention; and
FIG. 2 is a schematic representation of a semiconductor switch used in each latch circuit shown in FIG. 2.
A circuit embodying the invention (FIG. 1) includes an indicator device 14 which, for purposes of illustration, is a glow cathode gaseous indicator tube such as the type 6844A tube. Such a tube includes a gas-filled envelope 18 which contains an anode electrode 20 and a plurality of cathode indicator electrodes 22, only three of which are shown, and which may be in the form of numeral or alphabet characters or the like. The cathodes may also be separate elements which can be combined to represent characters. Each cathode 22 can be caused to glow by the application of a suitable potential between it and the anode 20. This potential is generally of the order of 170 volts for tubes of this type.
According to the invention, a memory latch circuit 26 is provided for each cathode electrode 22, and each such circuit includes a multiple zone semiconductor switch device 30 shown as an SCS device. An SCS semiconductor switch 30, shown in different form in FIG. 1, includes four alternating zones 34, 35, 36, 37 of P-type and N-type semiconductor material, with adjacent zones be- However, there is no such circuit "ice ing separated by a P-N junction 38. Each zone is provided with a lead for applying signals thereto or extracting signals therefrom. The first zone 34 is known as the anode of the device, and the next adjacent zone 35 is used as a control zone for the anode and is known as the anode gate. The fourth zone 37 is known as the cathode, and the third zone 36 adjacent to the cathode is used as a control for the cathode and is known as the cathode gate.
In each latch circuit 26, the anode zone 34 is coupled through a suitable resistor 40 to a common lead 44 which is connected to a relatively low voltage power sourve V1 which may be of the order of 12 volts. The adjacent zone 35, which is the anode gate, is coupled both to one of the cathode indicator electrodes 22 of the indicator tube and through a resistor 48 to a bus 50 which is connected to a relatively high voltage power source V2 which may be of the order of volts or higher. The cathode gate zone 36 is coupled through a resistor 56 to a terminal 60 to which input information signals 61 may be applied. The terminals 60 are adapted to carry a negative potential, about 12 volts, to represent the absence of signal information, and a more positive potential, for example zero volts, to represent the presence of signal information. The cathode gate zone is coupled to a source of control signals 62 for operating the semiconductor switch. This control signal includes negative and positive steps of about 12 volts each and is used to turn off and to turn on the semiconductor switch, depending on the presence or absence of signal information at the cathode gate. The control signal 62 can also be used to clear the swtiches 30 'at any time in a cycle of operation.
The anode 20 of indicator tube 14 is connected through a resistor 63 to power source V2.
In operation of the circuit of the invention 10, assuming that initially none of the semiconductor switches 30 is on and none of the cathodes 22 is energized, if the input signal applied to one of the terminals is zero, which represents certain intelligence, and the control or command signal 62 is applied to the cathode; then current flows from the cathode gate 36 to the cathode 37, and the semiconductor switch is turned on. When the switch is turned on, the anode gate 35 assumes approximately zero potential, and the cathode 22 to which it is con nected is thereby caused to glow.
At the same time, all of the other input terminals 60 have no intelligence applied thereto, and, as a result, they carry a potential of about -12 volts. When the command or control signal 62 is applied, and it is applied to the cathode zones of the semiconductor switches 30 associated with these terminals, the switches are not turned on and the associated cathodes 22 do not glow.
If the cathodes of the indicator tube are elements which are combined in groups to represent characters, then, to energize a group of such elements, signal information would be applied to more than one terminal 60 and more than one semiconductor switch 30, and the corresponding indicator cathodes would be turned on at the same time.
One of the important advantages of the circuit of the invention lies in the fact that each latch circuit provides the desired energization and latching of an indicator cathode electrode 22 with a minimum number of circuit components. In addition, the arrangement of each latch circuit 26 is such that the turn-on current flow path from cathode gate to cathode in each semiconductor switch 30 is operated at low potential and low current, even though the circuit in general requires relatively high potential for operating the anode of the indicator tube and to insure that the potentials are proper for achieving full indicator cathode glow.
In FIG. 1, the dash lines represent glow cathodes and latch circuits which might be added to an operating circuit but which are omitted to simplify the drawing.
What is claimed is:
1. A circuit for operating indicator devices comprising an indicator tube including a gas-filled envelope which contains an anode electrode and a plurality of cathode indicator electrodes, each of which provides a visual character indication,
a multiple junction semiconductor switching device including first, second, third, and fourth zones of P- type and N-type semiconductor material which alternate in conductivity type with a PN junction between adjacent zones,
said first zone comprising an anode, said second zone comprising an anode gate, said third zone comprising a cathode gate, and said fourth zone comprising a cathode,
said first zone being connected to a source of relatively low bias voltage,
said second zone being connected both to one of said indicator electrodes in said tube and through a resistor to a source of relatively high bias voltage,
said fourth zone being coupled to a source of control signals for turning the semiconductor device off and on, and
said third zone being coupled to a source of signal information, the entry of which in said indicator tube is controlled by said control signals.
2. A circuit for operating indicator devices including an indicator tube including a gas-filled envelope which contains an anode electrode and a plurality of cathode indicator electrodes, each of which provides a visual character indication,
a multiple junction semiconductor device including first, second, third, and fourth zones of P-type and N-type semiconductor material which alternate in conductivity type with a P-N junction between adjacent zones,
said first zone comprising an anode, said second zone comprising an anode gate, said third zone comprising a cathode gate, and said fourth zone comprising a cathode,
current flow through said semiconductor device being from said first zone to said fourth zone with said second and third zones being operable as current control zones,
said first zone being connected to a source of relatively low bias voltage,
said second zone being connected both to one of said indicator electrodes in said tube and through a resistor to a source of relatively high bias voltage which is also coupled to the anode of said indicator device,
said fourth zone being coupled to a source of erase and write signals for turning the semiconductor device off and on, and
said third zone being coupled to a source of signal information, the entry of which in said indicator device is controlled by said source of erase and write signals.
3. A circuit for operating an indicator device comprising an indicator tube including a gas-filled envelope which contains an anode electrode and a plurality of cathode indicator electrodes, each of which provides a visual character indication,
a multiple junction semiconductor device including first, second, third, and fourth zones of alternating P-type and N-type semiconductor material having a PN junction between adjacent zones,
said first zone comprising an anode, said second zone comprising an anode gate, said third zone comprising a cathode gate, and said fourth zone comprising a cathode,
said second zone being coupled to a cathode electrode,
a turn-on current flow path between said third and fourth zones with means for applying information signals to said third zone and means for applying control switching signals to said fourth zone, the combination of information and control signals applied simultaneously causing the semiconductor device to turn on and thereby to cause the cathode electrode to which the second zone is connected to glow.
References Cited by the Examiner UNITED STATES PATENTS 2,655,610 10/1953 Ebers 30788.5 3,135,875 6/1964 Leightner 30788.5 3,165,647 1/1965 DeBottari et al. 307--88.5 3,183,404 5/1965 Kitz et al 31584.6 3,225,215 12/1965 Winter 30788.5 3,240,986 3/1966 Cullis 315-846 ARTHUR GAUSS, Primary Examiner.
J. S. HEYMAN, Assistant Examiner.

Claims (1)

1. A CIRCUIT FOR OPERATING INDICATOR DEVICES COMPRISING AN INDICATOR TUBE INCLUDING A GAS-FILLED ENVELOPE WHICH CONTAINS AN ANODE ELECTRODE AND A PLURALITY OF CATHODE INDICATOR ELECTRODES, EACH OF WHICH PROVIDES A VISUAL CHARACTER INDICATION, A MULTIPLE JUNCTION SEMICONDUCTOR SWITCHING DEVICE INCLUDING FIRST, SECOND, THIRD, AND FOURTH ZONES OF PTYPE AND N-TYPE SEMICONDUCTOR MATERIAL WHICH ALTERNATE IN CONDUCTIVITY, TYPE WITH A P-N JUNCTION BETWEEN ADJACENT ZONES, SAID FIRST ZONE COMPRISING AN ANODE, SAID SECOND ZONE COMPRISING AN ANODE GATE, SAID THIRD ZONE COMPRISING A CATHODE GATE, AND SAID FOURTH ZONE COMPRISING A CATHODE, SAID FIRST ZONE BEING CONNECTED TO A SOURCE OF RELATIVELY LOW BIAS VOLTAGE, SAID SECOND ZONE BEING CONNECTED BOTH TO ONE OF SAID INDICATOR ELECTRODES IN SAID TUBE AND THROUGH A RESISTOR TO A SOURCE OF RELATIVELY HIGH BIAS VOLTAGE, SAID FOURTH ZONE BEING COUPLED TO A SOURCE OF CONTROL SIGNALS FOR TURNING THE SEMICONDUCTOR DEVICE OFF AND ON, AND SAID THIRD ZONE BEING COUPLED TO A SOURCE OF SIGNAL INFORMATION, THE ENTRY OF WHICH IN SAID INDICATOR TUBE IS CONTROLLED BY SAID CONTROL SIGNALS.
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3373419A (en) * 1965-03-09 1968-03-12 Burroughs Corp Multi-mode memory and display system
US3506816A (en) * 1965-07-01 1970-04-14 Burroughs Corp Electronic decoder circuit
US3508255A (en) * 1967-08-30 1970-04-21 Bell Telephone Labor Inc Plural order visual indicator
US3660698A (en) * 1970-02-03 1972-05-02 Peripheral Dynamics Photo-scr card reader circuits
US3676759A (en) * 1969-09-26 1972-07-11 Agfa Gevaert Ag On-off motor control push button switch for photographic apparatus

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2655610A (en) * 1952-07-22 1953-10-13 Bell Telephone Labor Inc Semiconductor signal translating device
US3135875A (en) * 1961-05-04 1964-06-02 Ibm Ring counter employing four-layer diodes and scaling resistors to effect counting
US3165647A (en) * 1962-06-20 1965-01-12 Alpha Tronics Corp Ring counter with no feedback comprising silicon controlled rectifier stages
US3183404A (en) * 1965-05-11 Control circuits for multicathode indicating devices
US3225215A (en) * 1962-07-23 1965-12-21 Anadex Instr Bistable switching circuit employing opposite conductivity transistors
US3240986A (en) * 1961-10-31 1966-03-15 Burroughs Corp Control circuit for gaseous indicator tubes

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3183404A (en) * 1965-05-11 Control circuits for multicathode indicating devices
US2655610A (en) * 1952-07-22 1953-10-13 Bell Telephone Labor Inc Semiconductor signal translating device
US3135875A (en) * 1961-05-04 1964-06-02 Ibm Ring counter employing four-layer diodes and scaling resistors to effect counting
US3240986A (en) * 1961-10-31 1966-03-15 Burroughs Corp Control circuit for gaseous indicator tubes
US3165647A (en) * 1962-06-20 1965-01-12 Alpha Tronics Corp Ring counter with no feedback comprising silicon controlled rectifier stages
US3225215A (en) * 1962-07-23 1965-12-21 Anadex Instr Bistable switching circuit employing opposite conductivity transistors

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3373419A (en) * 1965-03-09 1968-03-12 Burroughs Corp Multi-mode memory and display system
US3506816A (en) * 1965-07-01 1970-04-14 Burroughs Corp Electronic decoder circuit
US3508255A (en) * 1967-08-30 1970-04-21 Bell Telephone Labor Inc Plural order visual indicator
US3676759A (en) * 1969-09-26 1972-07-11 Agfa Gevaert Ag On-off motor control push button switch for photographic apparatus
US3660698A (en) * 1970-02-03 1972-05-02 Peripheral Dynamics Photo-scr card reader circuits

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