US2730658A - Circuit for counting pulses - Google Patents

Circuit for counting pulses Download PDF

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US2730658A
US2730658A US304811A US30481152A US2730658A US 2730658 A US2730658 A US 2730658A US 304811 A US304811 A US 304811A US 30481152 A US30481152 A US 30481152A US 2730658 A US2730658 A US 2730658A
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voltage
ignition
tube
cathode
series
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US304811A
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Six Willem
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Hartford National Bank and Trust Co
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Hartford National Bank and Trust Co
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    • HELECTRICITY
    • H03ELECTRONIC CIRCUITRY
    • H03KPULSE TECHNIQUE
    • H03K23/00Pulse counters comprising counting chains; Frequency dividers comprising counting chains
    • H03K23/82Pulse counters comprising counting chains; Frequency dividers comprising counting chains using gas-filled tubes
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J17/00Gas-filled discharge tubes with solid cathode
    • H01J17/38Cold-cathode tubes
    • H01J17/48Cold-cathode tubes with more than one cathode or anode, e.g. sequence-discharge tube, counting tube, dekatron
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J2893/00Discharge tubes and lamps
    • H01J2893/007Sequential discharge tubes

Definitions

  • the anodes of the discharge paths are connected to a positive terminal of a source of supply, each cathode being connected by way of a resistor to a negative terminal of the source of supply. Furthermore, the cathodes are connected galvanically to the ignition electrode of a subsequent discharge path and connected capacitively to the cathode of this subsequent path. In such circuits the pulses to be counted are supplied by way of a condenser to the ignition electrode. Since an ignited gaseous dis- 7 charge path constitutes a comparatively low resistance,
  • the ignition electrodes must be connected by way of a resistor to the cathode of the preceding discharge path, in order to permit sulficient variation in the voltage of the ignition electrodes.
  • the object of the invention is to provide a pulse counting circuit in which the number of capacitive and resistive coupling elements may be about half of that in known circuits of the above-described type.
  • the circuit according to the invention has the characteristic that the source of pulses is connected in series with the source of supply.
  • the ignition electrodes may be connected directly to a main electrode of the preceding path, which is particularly advantageous if the discharge path is housed in a common envelope, since the said connection may be established at the interior thereof and specific supply wires to the ignition electrodes are not required.
  • FIG. 1 shows schematically one preferred embodiment of the invention
  • Fig. 2 illustrates a modification of the embodiment shown in Fig. l.
  • the anodes a1 to as of a series of gaseous discharge tubes B1-B5 are connected to the positive terminal of a battery Ba, the negative terminal of which is grounded.
  • the battery voltage in this example is 140 volts.
  • the cathodes k1 to Ice are connected by way of resistors R1 to R5 to a common conductor L, which is connected by way of a resistor R6 to the negative terminal of battery Ba.
  • the cathodes of successive tubes are interconnected by way of condensers C1 to C4. Furthermore, the cathodes are connected to ignition electrodes f2 to f5 of the succeeding tube.
  • a voltage of 60 volts is supplied to the ignition electrode f1 of the first tube B1 by way of v a voltage divider R7Ra.
  • the resistor R7 is of the voltage-dependent type, such that its value varies in the opposite sense to the voltage applied. Such resistors may be manufactured, for example, from silicon carbide.
  • the excitation voltage between the anode and the cathode of the tubes is about 2,730,658 Patented Jan. 10, 1956 160 volts and is higher than the battery voltage increased by the amplitude of the pulses to be counted.
  • the pulses to be counted which are generated by the source of pulses 1, are supplied with negative polarity and an amplitude of 20 volts by way of a condenser C5 to the conductor L and then transmitted by way of the resistors R1 to R5 to the cathodes of the tubes.
  • the ignition electrodes f2 to f5 of the tubes B2 to B5 and the cathodes k1 to its of all tubes are at ground potential.
  • the potential of the conductor L and hence that of the cathodes and of the ignition electrodes f2 to f5 is decreased to -20 volts.
  • the voltage of the ignition electrode f1 of tube B1 varies only slightly, this electrode being connected by way of a condenser C6 to a point of constant potential.
  • the voltage between the ignition electrode f1 and the cathode In of tube B1 then increases to volts.
  • the ignition voltage between the ignition electrode and the cathode of the tubes is 70 volts. Consequently, the tube B1 is ignited by the first pulse.
  • the voltage of the cathode k1 and of the conductor L increases to 80 volts respectively.
  • a voltage of 60 volts is thus set up between the ignition electrode f2 and the cathode kg of the tube B2, which voltage is somewhat'lower than the ignition voltage, whereas the corresponding voltage of the tubes B3 to B5 remains zero.
  • the voltage of the ignition electrode f1 of tube B1 invariably has a potential of about 60 volts.
  • the voltage of conductor L and that of the cathodes of the tubes B2 to B5 is decreased to ground potential.
  • the voltage of the ignition electrodes is to f5 follows that of the cathodes of the preceding tubes.
  • the pulse is introduced in series with the main discharge path of tube B1 and occurs between the anode a1 and conductor L, so that the current traversing tube B1 and resistor R1 increases.
  • the voltage between the anode a1 and the cathode k1 remains equal to the operating voltage, so that a voltage variation of 20 volts occurs at resistor R1 and, consequently, the voltage between the ignition electrode f2 and the cathode k2 of tube Bz becomes 80 volts.
  • tube B2 With the second pulse, tube B2 will thus ignite.
  • the voltage of the cathode k2 of this tube increases to 80 volts, a strong positive pulse being transmitted by way of condenser C1 to the cathode k1 of tube B1, due to which tube B1 extinguishes.
  • the voltage of conductor L is again decreased to ground potential, causing ignition of tube 133, of which the voltage of the ignition electrode is is now 80 volts.
  • Tube B1 cannot ignite again, since with the third pulse the voltage between the ignition electrode f1 and the cathode k1 increases to only 60 volts. Due to the ignition of tube Be, a strong positive pulse is transmitted by way of condenser C2 to the cathode kg of tube B2, so that the latter extinguishes. At the same time, the voltage of the ignition electrode f4 of tube B4 is increased to 80 volts, so that this tube comes into a preferred position for excitation by a subsequent pulse.
  • the ignition electrodes may be connected directly to a main electrode of the preceding path, which construction is particularly advantageous if the discharge paths are housed in a common envelope.
  • a construction is shown in Fig. 2, wherein the discharge systems shown as individual tubes in Fig. 1, are contained within a single envelope in Fig. 2.
  • the circuit may be modified in difierent ways within the scope of the invention.
  • the source of pulses may be connected to the other side of the battery Ba.
  • the ignition electrodes are in the form of auxiliary anodes.
  • the ignition electrodes may be auxiliary cathodes in which event the cathodes and the anodes and also the connections to the battery are required to be interchanged.
  • Apparatus for counting pulses derived from a pulse source comprising a series of gaseous discharge paths each provided with first and second main electrodes and an ignition electrode, and a circuit for igniting said paths in succession by said pulses, said circuit including a voltage supply having one terminal thereof connected to the first main electrode of each path, a series of resistors each connecting a respective second main electrode to the other terminal of said supply, means galvanically connecting each second main electrode to the ignition electrode of the succeeding path in the series, means capacitively connecting each second main electrode to the second main electrode of the succeeding path in the series, and means for interposing said pulse source in series with said voltage supply.
  • Apparatus for counting pulses produced by a pulse source comprising a series of gaseous discharge paths each provided with cathode, anode and ignition electrodes, and a circuit for igniting said paths in succession in response to said pulses, said circuit including a direct voltage supply having its positive terminal connected to the anode of each path, a series of resistors each connecting a respective cathode of said paths to the negative terminal of said supply, the cathode of each path in said series being directly connected to the ignition electrode of the succeeding path, a series of capacitors each connecting the cathode of a path to the cathode of a succeeding path in the series, and means interposing said pulse source in series with said voltage supply.
  • Apparatus as set forth in claim 3, further including a voltage divider connected across the series connected supply and pulse source, said voltage divider being constituted by a fixed resistance in series with a voltage responsive resistance, the junction of said resistances being connected to the ignition electrode of the first path in said series.
  • #"apparatus as set forth in claim 4, further including a capacitance connected across said voltage responsive resistance, said voltage responsive resistance having a characteristic at which its value varies inversely as the applied voltage.

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Description

Filed Aug. 16 1952 WGZ.
7 a a h be J L B 5 I DDDDDDDDD 1 P d 5 f 4 "Q 8 4 4 V a a 83 5 R20 a I b b b b b I 1 n? z 3 2 .5 a #1" .R/ R1 W R INVENTOR' wmum SIX AGENT United States Patent CIRCUIT FOR coUNTnvG PULSES Willem Six, Eindhoven, Netherlands, assignor to Hartford National Bank and Trust Company, Hartford, Conn.,
as trustee ApplicationAugust 16, 1952, Serial No. 304,311
Claims priority, application Netherlands September 24, 1951 and more particularly to a pulse counting circuit comprising a plurality of gaseous discharge paths excited in succession by pulses, each path comprising a first and a second main electrode and an ignition electrode.
In circuits of this kind heretofore known, the anodes of the discharge paths are connected to a positive terminal of a source of supply, each cathode being connected by way of a resistor to a negative terminal of the source of supply. Furthermore, the cathodes are connected galvanically to the ignition electrode of a subsequent discharge path and connected capacitively to the cathode of this subsequent path. In such circuits the pulses to be counted are supplied by way of a condenser to the ignition electrode. Since an ignited gaseous dis- 7 charge path constitutes a comparatively low resistance,
the ignition electrodes must be connected by way of a resistor to the cathode of the preceding discharge path, in order to permit sulficient variation in the voltage of the ignition electrodes.
The object of the invention is to provide a pulse counting circuit in which the number of capacitive and resistive coupling elements may be about half of that in known circuits of the above-described type.
The circuit according to the invention has the characteristic that the source of pulses is connected in series with the source of supply.
The ignition electrodes may be connected directly to a main electrode of the preceding path, which is particularly advantageous if the discharge path is housed in a common envelope, since the said connection may be established at the interior thereof and specific supply wires to the ignition electrodes are not required.
In order that the invention may be more clearly understood, it will now be described more fully with reference to the accompanying drawing, in which Fig. 1 shows schematically one preferred embodiment of the invention, and Fig. 2 illustrates a modification of the embodiment shown in Fig. l.
The anodes a1 to as of a series of gaseous discharge tubes B1-B5 are connected to the positive terminal of a battery Ba, the negative terminal of which is grounded. The battery voltage in this example is 140 volts. The cathodes k1 to Ice are connected by way of resistors R1 to R5 to a common conductor L, which is connected by way of a resistor R6 to the negative terminal of battery Ba. The cathodes of successive tubes are interconnected by way of condensers C1 to C4. Furthermore, the cathodes are connected to ignition electrodes f2 to f5 of the succeeding tube. A voltage of 60 volts is supplied to the ignition electrode f1 of the first tube B1 by way of v a voltage divider R7Ra.
The resistor R7 is of the voltage-dependent type, such that its value varies in the opposite sense to the voltage applied. Such resistors may be manufactured, for example, from silicon carbide. The excitation voltage between the anode and the cathode of the tubes is about 2,730,658 Patented Jan. 10, 1956 160 volts and is higher than the battery voltage increased by the amplitude of the pulses to be counted. The pulses to be counted which are generated by the source of pulses 1, are supplied with negative polarity and an amplitude of 20 volts by way of a condenser C5 to the conductor L and then transmitted by way of the resistors R1 to R5 to the cathodes of the tubes.
In the rest position of the circuit, the ignition electrodes f2 to f5 of the tubes B2 to B5 and the cathodes k1 to its of all tubes are at ground potential. With the first pulse, the potential of the conductor L and hence that of the cathodes and of the ignition electrodes f2 to f5 is decreased to -20 volts. The voltage of the ignition electrode f1 of tube B1 varies only slightly, this electrode being connected by way of a condenser C6 to a point of constant potential.
The voltage between the ignition electrode f1 and the cathode In of tube B1 then increases to volts. The ignition voltage between the ignition electrode and the cathode of the tubes is 70 volts. Consequently, the tube B1 is ignited by the first pulse.
Owing to the current now flowing through the resistors R1 and Re, the voltage of the cathode k1 and of the conductor L increases to 80 volts respectively. A voltage of 60 volts is thus set up between the ignition electrode f2 and the cathode kg of the tube B2, which voltage is somewhat'lower than the ignition voltage, whereas the corresponding voltage of the tubes B3 to B5 remains zero. As a result of the action of resistor R7, the voltage of the ignition electrode f1 of tube B1 invariably has a potential of about 60 volts.
With the second pulse the voltage of conductor L and that of the cathodes of the tubes B2 to B5 is decreased to ground potential. The voltage of the ignition electrodes is to f5 follows that of the cathodes of the preceding tubes. The pulse is introduced in series with the main discharge path of tube B1 and occurs between the anode a1 and conductor L, so that the current traversing tube B1 and resistor R1 increases. However, the voltage between the anode a1 and the cathode k1 remains equal to the operating voltage, so that a voltage variation of 20 volts occurs at resistor R1 and, consequently, the voltage between the ignition electrode f2 and the cathode k2 of tube Bz becomes 80 volts. With the second pulse, tube B2 will thus ignite. In this case the voltage of the cathode k2 of this tube increases to 80 volts, a strong positive pulse being transmitted by way of condenser C1 to the cathode k1 of tube B1, due to which tube B1 extinguishes.
With the third pulse, the voltage of conductor L is again decreased to ground potential, causing ignition of tube 133, of which the voltage of the ignition electrode is is now 80 volts. Tube B1 cannot ignite again, since with the third pulse the voltage between the ignition electrode f1 and the cathode k1 increases to only 60 volts. Due to the ignition of tube Be, a strong positive pulse is transmitted by way of condenser C2 to the cathode kg of tube B2, so that the latter extinguishes. At the same time, the voltage of the ignition electrode f4 of tube B4 is increased to 80 volts, so that this tube comes into a preferred position for excitation by a subsequent pulse.
As previously pointed out, the ignition electrodes may be connected directly to a main electrode of the preceding path, which construction is particularly advantageous if the discharge paths are housed in a common envelope. Such a construction is shown in Fig. 2, wherein the discharge systems shown as individual tubes in Fig. 1, are contained within a single envelope in Fig. 2.
The circuit may be modified in difierent ways within the scope of the invention. Thus, the source of pulses may be connected to the other side of the battery Ba.
In the embodiment shown, the ignition electrodes are in the form of auxiliary anodes. However, as an alternative, the ignition electrodes may be auxiliary cathodes in which event the cathodes and the anodes and also the connections to the battery are required to be interchanged.
What I claim is:
1. Apparatus for counting pulses derived from a pulse source. comprising a series of gaseous discharge paths each provided with first and second main electrodes and an ignition electrode, and a circuit for igniting said paths in succession by said pulses, said circuit including a voltage supply having one terminal thereof connected to the first main electrode of each path, a series of resistors each connecting a respective second main electrode to the other terminal of said supply, means galvanically connecting each second main electrode to the ignition electrode of the succeeding path in the series, means capacitively connecting each second main electrode to the second main electrode of the succeeding path in the series, and means for interposing said pulse source in series with said voltage supply.
2. Apparatus, as set forth in claim 1, wherein said discharge paths are enclosed in a common envelope and wherein said galvanic connections between said ignition electrodes and said second main electrodes is within the interior of said envelope.
3. Apparatus for counting pulses produced by a pulse source, comprising a series of gaseous discharge paths each provided with cathode, anode and ignition electrodes, and a circuit for igniting said paths in succession in response to said pulses, said circuit including a direct voltage supply having its positive terminal connected to the anode of each path, a series of resistors each connecting a respective cathode of said paths to the negative terminal of said supply, the cathode of each path in said series being directly connected to the ignition electrode of the succeeding path, a series of capacitors each connecting the cathode of a path to the cathode of a succeeding path in the series, and means interposing said pulse source in series with said voltage supply.
4. Apparatus, as set forth in claim 3, further including a voltage divider connected across the series connected supply and pulse source, said voltage divider being constituted by a fixed resistance in series with a voltage responsive resistance, the junction of said resistances being connected to the ignition electrode of the first path in said series.
5. #"apparatus, as set forth in claim 4, further including a capacitance connected across said voltage responsive resistance, said voltage responsive resistance having a characteristic at which its value varies inversely as the applied voltage.
References Cited in the file of this patent UNITED STATES PATENTS 2,373,134 Massonneau Apr. 10, 1945 2,468,086 Meacham et al. Sept. 24, 1946 2,454,782 De Rosa Nov. 30, 1948 2,560,691 Hagen July 17, 1951
US304811A 1951-09-24 1952-08-16 Circuit for counting pulses Expired - Lifetime US2730658A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2822471A (en) * 1955-09-26 1958-02-04 Gen Dynamics Corp Pulse counting circuit
US2851635A (en) * 1954-09-16 1958-09-09 Bell Telephone Labor Inc Pulse initiator
US2921220A (en) * 1956-01-25 1960-01-12 Electronique & Automatisme Sa Pulse distributing devices
US3022442A (en) * 1959-06-24 1962-02-20 Burroughs Corp Pulse generating circuits

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2373134A (en) * 1942-08-06 1945-04-10 Bell Telephone Labor Inc Signaling system
US2408086A (en) * 1941-06-05 1946-09-24 Bell Telephone Labor Inc Impulse system
US2454782A (en) * 1942-12-08 1948-11-30 Standard Telephones Cables Ltd Adjustable expanded sweep for radar oscilloscopes
US2560691A (en) * 1949-06-14 1951-07-17 Northrop Aircraft Inc Voltage regulated multiple amplifier for pulses

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2408086A (en) * 1941-06-05 1946-09-24 Bell Telephone Labor Inc Impulse system
US2373134A (en) * 1942-08-06 1945-04-10 Bell Telephone Labor Inc Signaling system
US2454782A (en) * 1942-12-08 1948-11-30 Standard Telephones Cables Ltd Adjustable expanded sweep for radar oscilloscopes
US2560691A (en) * 1949-06-14 1951-07-17 Northrop Aircraft Inc Voltage regulated multiple amplifier for pulses

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2851635A (en) * 1954-09-16 1958-09-09 Bell Telephone Labor Inc Pulse initiator
US2822471A (en) * 1955-09-26 1958-02-04 Gen Dynamics Corp Pulse counting circuit
US2921220A (en) * 1956-01-25 1960-01-12 Electronique & Automatisme Sa Pulse distributing devices
US3022442A (en) * 1959-06-24 1962-02-20 Burroughs Corp Pulse generating circuits

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