US3035207A - Circuit arrangement for operating electric discharge lamp - Google Patents

Circuit arrangement for operating electric discharge lamp Download PDF

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US3035207A
US3035207A US1951A US195160A US3035207A US 3035207 A US3035207 A US 3035207A US 1951 A US1951 A US 1951A US 195160 A US195160 A US 195160A US 3035207 A US3035207 A US 3035207A
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Prior art keywords
electrodes
arc
source
lamp
electric discharge
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US1951A
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Beeson Eric John George
Nichols John Winfrith De Lisle
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A E I LAMP AND LIGHTING Co Ltd
A E I LAMP AND LIGHTING COMPAN
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A E I LAMP AND LIGHTING COMPAN
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B41/00Circuit arrangements or apparatus for igniting or operating discharge lamps
    • H05B41/02Details
    • H05B41/04Starting switches
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J61/00Gas-discharge or vapour-discharge lamps
    • H01J61/02Details
    • H01J61/04Electrodes; Screens; Shields
    • H01J61/10Shields, screens, or guides for influencing the discharge
    • H01J61/106Shields, screens, or guides for influencing the discharge using magnetic means

Definitions

  • This invention relates to the operation of electric discharge lamps of the gas filled type in conditions in which the discharge through the lamp is required to be intermittently interrupted.
  • the gas filling may be supplemented with metallic vapour.
  • the present invention makes use of this well-known efiect to provide for the interruption of the arc, whereby to enable the use of an expensive circuit breaker for the purpose of interrupting the arc current to be dispensed with.
  • magnetic field producing means capable of producing a magnetic field of sufiicient intensity to blow-out an are between the electrodes of a lamp, the magnetic field producing means being provided with an energising coil connected through a control switch to a source of voltage so that the arc can be blown out by operation of the control switch, the lamp being provided with starting means for re-establishing the are when required.
  • the source of voltage to which the coil of the magnetic field producing means is connected is conveniently the source which constitutes the supply for the operation of the lamp.
  • the starting means for re-establishing the are also requires a source of voltage which is conveniently that required for the normal operation of the lamp.
  • the magnetic field producing means is arranged to produce a magnetic field which is at right angles to the axis of the arc path between the electrodes, and when the magnetic field is established by passing current through the energising coil the efiect of the magnetic field is to bow the are from its normal path between the electrodes, thereby lengthening the arc. If the flux density in the magnetic field is sufiiciently high, the lengthening of the are thereby produced may be made to cause the voltage drop across the arc to exceed the voltage present between the electrodes, and the arc goes out.
  • Re-establishment of the arc may be efiected in any convenient manner, e.g. by impressing a high voltage transient between the electrodes, the electrodes being meanwhile connected to their normal source of energising voltage.
  • this source is unidirectional a resistance will normally be connected between one terminal of the source and the one electrode of the lamp, and in such an arrange- 3,035,207 Patented May 15, 1962 ment the magnetic field for extinguishing the arc may be provided by connecting through a push-button, or other switch, the coil of the magnetic field producing means directly between the terminals of the source.
  • the arrangement illustrated uses a source 1 of direct voltage for operating the discharge lamp 2.
  • the source 1 is connected to the electrodes of the lamp by way of a resistance 3 connected in the positive lead.
  • a capacitor 4 charged from the source 1 by way of resistor 5 and a switch 6, is discharged through the primary winding of a step-up high-frequency transformer 7, the secondary winding of which is connected, by way of capacitor 8, between the electrodes of the lamp.
  • a high frequency choke 9 is provided to prevent the oscillations produced from being short-circuited through the source 1.
  • a magnetic field of suflicient intensity to blow-out the arc is produced by energisation of a magnetic-field producing device 10 from the source through a switch 11.
  • the magnetic-field producing device is conventionally shown and it should be understood that the direction of the field produced thereby is such as to bow the are between the electrodes and lengthen it to an extent sufllcient to cause the voltage drop across the arc to exceed that present between the electrodes.
  • the advantage of using this magnetic blow out of the arc to break the current in the lamp circuit is to eliminate any mechanical series switch or the oxidation of the contacts of the contactor or switch, since these are now replaced by an are being extinguished in an inert atmosphere. Furthermore, a switch, contactor, or circuitbreaker is susceptible to the efiect of gravity, while a magnetic field is not. The arrangement of the invention may thus be employed in airborne equipment, where a high value of G may be experienced, without its operation being aflected.
  • the illustrated embodiment of the invention utilises direct voltage for its operation, the arrangement may be modified to use an AC. supply, if desired, an alternating current supplied to the device 10 being satisfactory for blowing out the are if a sufiiciently high flux density is employed.
  • an electric discharge lamp compris-' ing a sealed envelope containing an ionizable medium and having spaced electrodes defining a normal arc path and between which an arc discharge is adapted to take place when operating voltage is applied between said electrodes, a magnetic core, an energizing coil on said core, said core being located adjacent to said envelope and arranged to produce a magnetic field at right angles to the axis of the arc path between said electrodes sufiicient to bow said are discharge from said are path to produce a potential drop across said are greater than the operating voltage applied thereto and thereby interrupt said are discharge, means including a control switch for energizing said coil, and starting means for the re-establishment of said arc on opening of said control switch.
  • said starting means comprises means for impressing a transient of high voltage between said electrodes separately of the operating voltage.
  • an electric discharge lamp comprising a sealed envelope containing an ionizable medium and having spaced electrodes between which an arc discharge is adapted to take place when a source of operating voltage is connected between said electrodes, a magnetic core,
  • an energizing coil on said core said core being located adjacent to said envelope and arranged to produce a magnetic field at right angles to the axis of the arc path between said electrodes sufficient to bow said are discharge from said are path to produce a potential drop across said are greater than the operating voltage applied thereto and thereby interrupt said are discharge, means including a control switch connected to said coil to control the energization of said coil from the same source as that for energizing said lamp electrodes, and starting means for the 're-establishment of said are on opening of said control switch.
  • an electric discharge lamp comprising a sealed envelope containing an ionizable medium and having spaced electrodes defining a normal arc path and between which an arc discharge is adapted to take place, a source of direct current voltage connected between said electrodes, a magnetic core, an energizing coil on said charge, a control switch connected between said source and said coil to control the energization of sad coil from said source, a first capacitor, a step-up frequency transformer having primary and secondary Winding portions, switching means for selectively connecting said capacitor to said source and to the primary winding of said transformer, a second capacitor, the secondary winding of said transformer being connected through said second capacitor between said electrodes whereby to impress between said electrodes a transient high voltage for re-establishing an are between said electrodes upon discharge of said first capacitor by connection thereof to said primary winding through said switching means, and a high frequency choke connected between said source and said electrodes to precore, said core being located adjacent to said envelope vent said transient high voltage from passing through said source.

Description

May 15, 1962 E. J. G. BEESON ETAL 3,035,207
CIRCUIT ARRANGEMENT FOR OPERATING ELECTRIC DISCHARGE LAMP Filed Jan. 12, 1960 INVENTOR E/P/C JOHN GEORGE BEESON JOHN W/NFFP/TH dc L/dlwbj ATTORNEY United States Patent 3,035,207 CIRCUIT ARRANGEMENT FOR OPERATING ELECTRIC DISCHARGE LAMP Eric John George Beeson, Leicester, and John Winfrith de Lisle Nichols, Risley, near Warrington, England, as-
signors to A.E.I. Lamp and Lighting Company Limited,
London, England, a company of Great Britain, and Corporation of Trinity House, London, England Filed Jan. 12, 1960, Ser. No. 1,951
Claims priority, application Great Britain Jan. 14, 1959 4 Claims. (Cl. 315-267) This invention relates to the operation of electric discharge lamps of the gas filled type in conditions in which the discharge through the lamp is required to be intermittently interrupted. The gas filling may be supplemented with metallic vapour.
When the current flowing through a high power electric discharge lamp is required to be interrupted owing to the heavy current passing through the lamp and to the inductive nature of the current when the lamp is operated from an alternating current supply, a large circuit breaker is normally essential.
It is well-known that the are between the electrodes is responsive to the action of a magnetic field. Indeed it is common practice to employ magnetic blow-out for suppressing the arc in direct current circuit breakers, and high pressure mercury vapor lamps required to be operated in a horizontal position have been provided with magnetic field producing devices energised by a coil through which the arc current is passed to act on and prevent bowing of the are by convection current set up in the gas and vapour filling by the heat of the arc.
The present invention makes use of this well-known efiect to provide for the interruption of the arc, whereby to enable the use of an expensive circuit breaker for the purpose of interrupting the arc current to be dispensed with.
According to the invention, there is associated with a high pressure electric discharge lamp, magnetic field producing means capable of producing a magnetic field of sufiicient intensity to blow-out an are between the electrodes of a lamp, the magnetic field producing means being provided with an energising coil connected through a control switch to a source of voltage so that the arc can be blown out by operation of the control switch, the lamp being provided with starting means for re-establishing the are when required.
The source of voltage to which the coil of the magnetic field producing means is connected is conveniently the source which constitutes the supply for the operation of the lamp. The starting means for re-establishing the are also requires a source of voltage which is conveniently that required for the normal operation of the lamp.
The magnetic field producing means is arranged to produce a magnetic field which is at right angles to the axis of the arc path between the electrodes, and when the magnetic field is established by passing current through the energising coil the efiect of the magnetic field is to bow the are from its normal path between the electrodes, thereby lengthening the arc. If the flux density in the magnetic field is sufiiciently high, the lengthening of the are thereby produced may be made to cause the voltage drop across the arc to exceed the voltage present between the electrodes, and the arc goes out.
Re-establishment of the arc may be efiected in any convenient manner, e.g. by impressing a high voltage transient between the electrodes, the electrodes being meanwhile connected to their normal source of energising voltage. When this source is unidirectional a resistance will normally be connected between one terminal of the source and the one electrode of the lamp, and in such an arrange- 3,035,207 Patented May 15, 1962 ment the magnetic field for extinguishing the arc may be provided by connecting through a push-button, or other switch, the coil of the magnetic field producing means directly between the terminals of the source.
A typical circuit arrangement which may be employed in carrying out the invention is illustrated in the accompanying drawing.
The arrangement illustrated uses a source 1 of direct voltage for operating the discharge lamp 2. The source 1 is connected to the electrodes of the lamp by way of a resistance 3 connected in the positive lead. For starting the discharge a capacitor 4, charged from the source 1 by way of resistor 5 and a switch 6, is discharged through the primary winding of a step-up high-frequency transformer 7, the secondary winding of which is connected, by way of capacitor 8, between the electrodes of the lamp. A high frequency choke 9 is provided to prevent the oscillations produced from being short-circuited through the source 1.
In order to interrupt the discharge through the lamp, a magnetic field of suflicient intensity to blow-out the arc is produced by energisation of a magnetic-field producing device 10 from the source through a switch 11. The magnetic-field producing device is conventionally shown and it should be understood that the direction of the field produced thereby is such as to bow the are between the electrodes and lengthen it to an extent sufllcient to cause the voltage drop across the arc to exceed that present between the electrodes.
The advantage of using this magnetic blow out of the arc to break the current in the lamp circuit is to eliminate any mechanical series switch or the oxidation of the contacts of the contactor or switch, since these are now replaced by an are being extinguished in an inert atmosphere. Furthermore, a switch, contactor, or circuitbreaker is susceptible to the efiect of gravity, while a magnetic field is not. The arrangement of the invention may thus be employed in airborne equipment, where a high value of G may be experienced, without its operation being aflected.
While the illustrated embodiment of the invention utilises direct voltage for its operation, the arrangement may be modified to use an AC. supply, if desired, an alternating current supplied to the device 10 being satisfactory for blowing out the are if a sufiiciently high flux density is employed.
What We claim is:
1. In combination, an electric discharge lamp compris-' ing a sealed envelope containing an ionizable medium and having spaced electrodes defining a normal arc path and between which an arc discharge is adapted to take place when operating voltage is applied between said electrodes, a magnetic core, an energizing coil on said core, said core being located adjacent to said envelope and arranged to produce a magnetic field at right angles to the axis of the arc path between said electrodes sufiicient to bow said are discharge from said are path to produce a potential drop across said are greater than the operating voltage applied thereto and thereby interrupt said are discharge, means including a control switch for energizing said coil, and starting means for the re-establishment of said arc on opening of said control switch.
2. The combination as claimed in claim 1, in which said starting means comprises means for impressing a transient of high voltage between said electrodes separately of the operating voltage.
3. In combination, an electric discharge lamp comprising a sealed envelope containing an ionizable medium and having spaced electrodes between which an arc discharge is adapted to take place when a source of operating voltage is connected between said electrodes, a magnetic core,
an energizing coil on said core, said core being located adjacent to said envelope and arranged to produce a magnetic field at right angles to the axis of the arc path between said electrodes sufficient to bow said are discharge from said are path to produce a potential drop across said are greater than the operating voltage applied thereto and thereby interrupt said are discharge, means including a control switch connected to said coil to control the energization of said coil from the same source as that for energizing said lamp electrodes, and starting means for the 're-establishment of said are on opening of said control switch.
4. In combination, an electric discharge lamp comprising a sealed envelope containing an ionizable medium and having spaced electrodes defining a normal arc path and between which an arc discharge is adapted to take place, a source of direct current voltage connected between said electrodes, a magnetic core, an energizing coil on said charge, a control switch connected between said source and said coil to control the energization of sad coil from said source, a first capacitor, a step-up frequency transformer having primary and secondary Winding portions, switching means for selectively connecting said capacitor to said source and to the primary winding of said transformer, a second capacitor, the secondary winding of said transformer being connected through said second capacitor between said electrodes whereby to impress between said electrodes a transient high voltage for re-establishing an are between said electrodes upon discharge of said first capacitor by connection thereof to said primary winding through said switching means, and a high frequency choke connected between said source and said electrodes to precore, said core being located adjacent to said envelope vent said transient high voltage from passing through said source.
References Cited in the file of this patent UNITED STATES PATENTS 1,286,882 Hewitt Dec. 3, 1918 1,816,168 Berthold July28, 1931 2,261,507 Strobel Nov. 4, 1941 2,269,338 Edgerton Jan. 6, 1942 2,700,120 Germeshausen Jan. 18, 1955
US1951A 1959-01-14 1960-01-12 Circuit arrangement for operating electric discharge lamp Expired - Lifetime US3035207A (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3235769A (en) * 1962-12-27 1966-02-15 Gen Electric Starting circuit for discharge lamps
US4088929A (en) * 1975-07-26 1978-05-09 English Electric Valve Company Limited Electric circuit interrupting devices
US20070244148A1 (en) * 2003-12-22 2007-10-18 Bondy Steven S Imidazo 4,5-C Pyridine Compounds and Methods of Antiviral Treatment

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1286882A (en) * 1918-04-16 1918-12-03 Peter Cooper Hewitt Electric translating apparatus.
US1816168A (en) * 1925-10-16 1931-07-28 Siemens Schuckertwerke Gmbh Gas discharge tube switch
US2261507A (en) * 1940-02-03 1941-11-04 Howard M Strobel Magnetically controlled discharge device
US2269338A (en) * 1939-09-27 1942-01-06 Edgerton Harold Eugene Flash-producing system
US2700120A (en) * 1947-03-03 1955-01-18 Kenneth J Germeshausen Electric system

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1286882A (en) * 1918-04-16 1918-12-03 Peter Cooper Hewitt Electric translating apparatus.
US1816168A (en) * 1925-10-16 1931-07-28 Siemens Schuckertwerke Gmbh Gas discharge tube switch
US2269338A (en) * 1939-09-27 1942-01-06 Edgerton Harold Eugene Flash-producing system
US2261507A (en) * 1940-02-03 1941-11-04 Howard M Strobel Magnetically controlled discharge device
US2700120A (en) * 1947-03-03 1955-01-18 Kenneth J Germeshausen Electric system

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3235769A (en) * 1962-12-27 1966-02-15 Gen Electric Starting circuit for discharge lamps
US4088929A (en) * 1975-07-26 1978-05-09 English Electric Valve Company Limited Electric circuit interrupting devices
US20070244148A1 (en) * 2003-12-22 2007-10-18 Bondy Steven S Imidazo 4,5-C Pyridine Compounds and Methods of Antiviral Treatment

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