US3688123A - Emergency fluorescent lighting apparatus - Google Patents

Emergency fluorescent lighting apparatus Download PDF

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US3688123A
US3688123A US3688123DA US3688123A US 3688123 A US3688123 A US 3688123A US 3688123D A US3688123D A US 3688123DA US 3688123 A US3688123 A US 3688123A
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lamp
transistor
battery
input terminals
circuit
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Alec H B Walker
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CBS Corp
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Westinghouse Electric Corp
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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J9/00Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting
    • H02J9/04Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source
    • H02J9/06Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source with automatic change-over, e.g. UPS systems
    • H02J9/062Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source with automatic change-over, e.g. UPS systems for AC powered loads
    • H02J9/065Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source with automatic change-over, e.g. UPS systems for AC powered loads for lighting purposes

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  • References Cited plied across an LC circuit The lamp is connected in parallel with one of the elements of the LC circuit.
  • the very high voltage initially generated across the individual elements of the LC circuit causes the lamp to strike, and after operation of the lamp is initiated, the current through the lamp is constant for any given applied battery voltage.
  • Standby emergency lighting apparatus is normally used in many public buildings, among other uses.
  • Such apparatus normally comprises an incandescent lamp which is energized from a storage battery, with the battery being trickle charged when the normal electrical supply is not interrupted.
  • An incandescent lamp is a relatively inefiicient source of luminous energy as compared to a fluorescent lamp, and fluorescent lamp portable sources are known, such as described in US. Pat. No. 3,435,206, dated Mar. 25, 1969.
  • the present invention comprises an apparatus from operating a discharge lamp, such as a fluorescent lamp, from a battery.
  • a discharge lamp such as a fluorescent lamp
  • the fluorescent lamp when operated, displays a nega tive volt-ampere characteristic.
  • the apparatus comprisesinput terrninalswhich are adapted to be connected across the battery and a low-impedance switching means is connected to the input terminals and is operable to develop square waves of voltage at output terminal means thereof.
  • a series LC circuit is connected across the output terminal means of the switching means and one of the input terminals, and the lamp to be operated is adapted to be effectively connected in parallel with one of the inductive reactive portion and the capacitive reactance portion of the LC circuit.
  • the applied alternating voltage initially develops a very high potential in order to strike or initiate operation of the lamp.
  • the current through the lamp is constant for any given applied battery voltage because of the nature of the circuit, and the lamp current is independent of the negative resistance characteristics of the lamp.
  • the lamp will immediately strike and the circuit arrangement provides efficient ballasting for the lamp.
  • FIG. 1 is a block diagram of the typical fluorescent lighting fixture of the present invention wherein all components are located within the unitized fixture;
  • FIG. 2 is a circuit diagram for a fluorescent lighting apparatus constructed in accordance with the present invention.
  • FIG. 1 the confines of the fixtureare represented by a dashed line.
  • the fluorescent lamp is a conventional watt lamp which is adapted to be energized by the ballasting and low-impedance switching network 12. This network in turn is operated from a sealed storage battery 14 which is maintained in a charged state by a battery charger 16. When the line voltage is not interrupted, the operation of the low-impedance switching network is maintained inoperative by the inhibit circuit 18.
  • a conventional test button 20 is provided, as is a disconnect switch 22 which can be opened in order that the apparatus can be transported.
  • the battery charger may be a constant-rate trickle charger which is left on permanently, or a taper-charge device, or a two-rate charger, depending upon the requirements desired for speed of recharge.
  • the sealed storage battery 14 which has an open circuit potential of 40 volts, for example, is trickle charged through D,, R, and D
  • the battery has input terminals 24 across which the low-impedance switching means comprising the transistors Q and Q and their associated circuitry, are adapted to be connected.
  • the inhibit winding T no longer prevents the operation of the lowimpedance switching means. Under these conditions, the flow of battery current to C is blocked by diode D
  • the starting circuit C trigger diode D and R insures reliable starting, with C, being kept discharged by R until Q, fires.
  • the lamp is effectively connected in autotransformer relationship across L although the lamp 10 could also be connected across
  • the circuit because of a low impedance, low voltage square waves which are applied to the resonant LC circuit, there is initially developed across the lamp 10 a very high potential such as in the order of 500 volts, which causes it to strike immediately. Thereafter, the current (1,) through the lamp 10 is equal to battery voltage (E) times a constant (K) times 1/ C/L, i.e., I EK V C/L.
  • E battery voltage
  • K constant
  • I EK V C/L i.e., I EK V C/L
  • the transformer T is a current transformer with one end of the primary winding T, connected to the output terminal 26 of the transistor network and the other end of winding T, is connected to the LC circuit.
  • the transistor network in the embodiment as shown comprises two transistors, the collector of one of thetransistors Q being connected to the emitter of transistor Q with the remaining collector and emitter of the transistors connected across the input terminals 24.
  • the driver windings T, and T of the current transformer T are connected across the base and emitter of each of the Element Type O, and Q, PNP TlP30A 60V 1A Q PNP 2N2219A 40V 0.5A D, and D, 1N5397 600V 0.4A D, 35 volt DB 4-1N536 50V 0.75A C, 0.168 mfd 600V C, 0.22 fd 75V C, 0.1 mfd Lamp 20W F20T12 R, 1K 25 watt Battery NiCd Sealed Cell
  • the foregoing transistor switching network will operate with a frequency of approximately 20 KHz.
  • the operating frequency can be varied and because of the nature of the circuit, the effective ballasting of the lamp is independent of the negative volt-ampere operating characteristics of the lam A: an alternative embodiment, if the present circuit is utilized to operate a discharge lamp which has a relatively slow warm-up period, such as a high-pressure mercury-vapor lamp, the ballasting and switching network 12 can operate at alltimes with a sealed storage battery floated across the input of the switching network. Upon failure of the main power supply, the sealed storage battery will continue to operate the switching network and the lamp, and when the power is restored, the battery will be automatically recharged.
  • cathode heater windings wound on L can readily be provided for the fluorescent lamp 10, although for the intended application they are not needed since long lamp life is not a factor in an emergency lighting apparatus.
  • Apparatus for operating a discharge lamp from a battery said lamp when operated displaying a negative volt-ampere characteristic, said apparatus comprising:
  • low-impedance switching means connected across said input terminals and operable to develop square waves of voltage at output terminal means thereof;
  • a series LC circuit connected across said output terminal means of said switching means and one of said input terminals, and said lamp adapted to be effectively connected to parallel with one of the inductive reactance portion and the capacitive reactance portion of said LC circuit; whereby the applied alternating voltage initially develops a very high potential across said lamp to initiate operation of said lamp, and after operation of said lamp is initiated, the current through said lamp is constant for any given applied battery voltage and is independent of the negative resistance characteristics of said lamp.
  • Apparatus for operating a fluorescent lamp from a battery said lamp when operated displaying a negative volt-ampere characteristic, said apparatus comprising:
  • low-impedance switching transistor-network means connected across said input terminals and operable to develop at an output terminal thereof an output signal comprising square waves of voltage, said output terminal of said transistorswitching means connected to one end of the primary winding of a current transformer, and said current transformer having small driver secondary windings connected to said transistor-network means to control the switching of same;
  • a series LC circuit connected across the other end of said current transformer primary winding and one of said input terminals, and said fluorescent lamp adapted to be effectively connected in parallel with one of the inductive reactance portion and the capacitive reactance portion of said LC circuit; whereby the applied alternating voltage initially develops a very high potential across said lamp to initiate the operation of said lamp, and after operation of said lamp is initiated, the current through said lamp is constant for any given applied battery voltage and is independent of the negative resistance characteristic of said lamp.
  • said transistor-network switching means comprises two transistors, the collector of one of said transistors connects to the emitter of the other of said transistors and to said output terminal, the remaining collector and emitter of said transistors connect across said input terminals, and said driver secondary windings of said current transformers connect across the base and emitter of each of said transistors.
  • transistor-network inhibit means is connected to both said DC supply and to said transistor network means to energize said transistor network means when electrical energy is not available at said AC main.

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  • Business, Economics & Management (AREA)
  • Emergency Management (AREA)
  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Stand-By Power Supply Arrangements (AREA)

Abstract

Fluorescent lamp apparatus for emergency lighting comprises a battery-operated low-impedance transistor network which when energized develops square waves of voltage. The generated voltage is applied across an LC circuit. The lamp is connected in parallel with one of the elements of the LC circuit. The very high voltage initially generated across the individual elements of the LC circuit causes the lamp to strike, and after operation of the lamp is initiated, the current through the lamp is constant for any given applied battery voltage.

Description

United States Patent Walker Aug. 29, 1972 [54] EMERGENCY FLUORESCENT 3,356,891 12/1967 Godard ..307/66X LIGHTING APPARATUS 72 Inventor: Alec H. B. Walker, Trafford, Pa. Xfi Q ZTQ ggkii D S Bu [73] Assignee: Westinghouse Electric Corporation, leza I I I I Pittsburgh, Pa. 22 Filed: March 17, 1971 [571 ABSTRACT [21] APPL NOS 125,117 Fluorescent lamp apparatus for emergency lighting comprises a battery-operated low-impedance transistor network which when energized develops (g1. ..307/66, 307/126; square waves of voltage The generated voltage is [58] Field of Search ..307/64, 65, 66, 43, 81, 85, 307/86, 87, 125, 139, 149, 157; 315/86, 87; 240/1 1.4
References Cited plied across an LC circuit. The lamp is connected in parallel with one of the elements of the LC circuit. The very high voltage initially generated across the individual elements of the LC circuit causes the lamp to strike, and after operation of the lamp is initiated, the current through the lamp is constant for any given applied battery voltage.
6 Claims, 2 Drawing Figures BALLAST 8 LOW IMPEDANCE SWITCHING NETWORK BATTERY CHARGER LINE I IZOV SUPPLY EMERGENCY FLUORESCENT LIGHTING APPARATUS BACKGROUND OF THE INVENTION This invention relates to fluorescent lamp emergency lighting apparatus and, more particularly, to a very compact and efficient emergency lighting apparatus which will operate in a very positive and rapid fashion upon failure of the electrical power.
Standby emergency lighting apparatus is normally used in many public buildings, among other uses. Such apparatus normally comprises an incandescent lamp which is energized from a storage battery, with the battery being trickle charged when the normal electrical supply is not interrupted. An incandescent lamp is a relatively inefiicient source of luminous energy as compared to a fluorescent lamp, and fluorescent lamp portable sources are known, such as described in US. Pat. No. 3,435,206, dated Mar. 25, 1969.
SUMMARY OF THE INVENTION The present invention comprises an apparatus from operating a discharge lamp, such as a fluorescent lamp, from a battery. As is customary with discharge lamps, the fluorescent lamp, when operated, displays a nega tive volt-ampere characteristic. The apparatus comprisesinput terrninalswhich are adapted to be connected across the battery and a low-impedance switching means is connected to the input terminals and is operable to develop square waves of voltage at output terminal means thereof. A series LC circuit is connected across the output terminal means of the switching means and one of the input terminals, and the lamp to be operated is adapted to be effectively connected in parallel with one of the inductive reactive portion and the capacitive reactance portion of the LC circuit. When the apparatus is initially energized, the applied alternating voltage initially develops a very high potential in order to strike or initiate operation of the lamp. After the operation of the lamp is initiated, the current through the lamp is constant for any given applied battery voltage because of the nature of the circuit, and the lamp current is independent of the negative resistance characteristics of the lamp. Thus the lamp will immediately strike and the circuit arrangement provides efficient ballasting for the lamp.
BRIEF DESCRIPTION OF THE DRAWINGS For a better understanding of the invention, reference may be had to the preferred embodiment, exemplary of the invention, shown in the accompanying drawings, in which:
FIG. 1 is a block diagram of the typical fluorescent lighting fixture of the present invention wherein all components are located within the unitized fixture; and
FIG. 2 is a circuit diagram for a fluorescent lighting apparatus constructed in accordance with the present invention. I
DESCRIPTION OF THE PREFERRED EMBODIMENT With specific reference to the form of the invention shown in the drawings, in FIG. 1 the confines of the fixtureare represented by a dashed line. The fluorescent lamp is a conventional watt lamp which is adapted to be energized by the ballasting and low-impedance switching network 12. This network in turn is operated from a sealed storage battery 14 which is maintained in a charged state by a battery charger 16. When the line voltage is not interrupted, the operation of the low-impedance switching network is maintained inoperative by the inhibit circuit 18. A conventional test button 20 is provided, as is a disconnect switch 22 which can be opened in order that the apparatus can be transported. Loss of the volt line supply will remove the inhibit signal from the low-impedance switching network and the lamp will operate from the battery until the power supply is restored or the battery is totally discharged. Restoration of the 120 volt line supply at any time will render inoperative the ballasting and lowimpedance switching network 12 through the inhibit circuit 18 and place the battery on charge. The battery charger may be a constant-rate trickle charger which is left on permanently, or a taper-charge device, or a two-rate charger, depending upon the requirements desired for speed of recharge.
With reference to the circuit diagram as shown in FIG. 2, when the 120 volts line supply is not interrupted, the sealed storage battery 14, which has an open circuit potential of 40 volts, for example, is trickle charged through D,, R, and D The battery has input terminals 24 across which the low-impedance switching means comprising the transistors Q and Q and their associated circuitry, are adapted to be connected. When the 120 volt line supply is interrupted, the inhibit winding T, no longer prevents the operation of the lowimpedance switching means. Under these conditions, the flow of battery current to C is blocked by diode D The starting circuit C trigger diode D and R insures reliable starting, with C, being kept discharged by R until Q, fires. Upon starting, current initially flows through 0,, through the primary winding T, of transformer T, then through C, and L. Because of the lowimpedance nature of the transistor switching network, square waves of voltage are developed at the output terminal means 26 of this network. This provides a sine wave of current and when the current passes through zero, T turns Q, off and Q, is turned on, and C, discharges through 0, There is thus formed a Boucherot constant current system for feeding the lamp 10 which is effectively connected across one of C, or L. In the embodiment as shown, the lamp is effectively connected in autotransformer relationship across L although the lamp 10 could also be connected across By way of further explanation of the circuit, because of a low impedance, low voltage square waves which are applied to the resonant LC circuit, there is initially developed across the lamp 10 a very high potential such as in the order of 500 volts, which causes it to strike immediately. Thereafter, the current (1,) through the lamp 10 is equal to battery voltage (E) times a constant (K) times 1/ C/L, i.e., I EK V C/L. Thus the fluorescent lamp which operates with a negative volt-ampere characteristic is automatically ballasted by the circuit combination and the current through the lamp 10 is constant for any given applied battery voltage and is independent of the negative resistance characteristics of the fluorescent lamp 10.
Further considering the foregoing circuit, the transformer T is a current transformer with one end of the primary winding T, connected to the output terminal 26 of the transistor network and the other end of winding T, is connected to the LC circuit. The transistor network in the embodiment as shown comprises two transistors, the collector of one of thetransistors Q being connected to the emitter of transistor Q with the remaining collector and emitter of the transistors connected across the input terminals 24. The driver windings T, and T of the current transformer T are connected across the base and emitter of each of the Element Type O, and Q, PNP TlP30A 60V 1A Q PNP 2N2219A 40V 0.5A D, and D, 1N5397 600V 0.4A D, 35 volt DB 4-1N536 50V 0.75A C, 0.168 mfd 600V C, 0.22 fd 75V C, 0.1 mfd Lamp 20W F20T12 R, 1K 25 watt Battery NiCd Sealed Cell The foregoing transistor switching network will operate with a frequency of approximately 20 KHz. It should be understood that the operating frequency can be varied and because of the nature of the circuit, the effective ballasting of the lamp is independent of the negative volt-ampere operating characteristics of the lam A: an alternative embodiment, if the present circuit is utilized to operate a discharge lamp which has a relatively slow warm-up period, such as a high-pressure mercury-vapor lamp, the ballasting and switching network 12 can operate at alltimes with a sealed storage battery floated across the input of the switching network. Upon failure of the main power supply, the sealed storage battery will continue to operate the switching network and the lamp, and when the power is restored, the battery will be automatically recharged.
As another alternative embodiment, cathode heater windings wound on L can readily be provided for the fluorescent lamp 10, although for the intended application they are not needed since long lamp life is not a factor in an emergency lighting apparatus.
I claim:
1. Apparatus for operating a discharge lamp from a battery, said lamp when operated displaying a negative volt-ampere characteristic, said apparatus comprising:
a. input terminals adapted to be connected across said battery;
b. low-impedance switching means connected across said input terminals and operable to develop square waves of voltage at output terminal means thereof;
c. a series LC circuit connected across said output terminal means of said switching means and one of said input terminals, and said lamp adapted to be effectively connected to parallel with one of the inductive reactance portion and the capacitive reactance portion of said LC circuit; whereby the applied alternating voltage initially develops a very high potential across said lamp to initiate operation of said lamp, and after operation of said lamp is initiated, the current through said lamp is constant for any given applied battery voltage and is independent of the negative resistance characteristics of said lamp.
2. Apparatus for operating a fluorescent lamp from a battery, said lamp when operated displaying a negative volt-ampere characteristic, said apparatus comprising:
a. input terminals adapted to be connected across said battery;
low-impedance switching transistor-network means connected across said input terminals and operable to develop at an output terminal thereof an output signal comprising square waves of voltage, said output terminal of said transistorswitching means connected to one end of the primary winding of a current transformer, and said current transformer having small driver secondary windings connected to said transistor-network means to control the switching of same;
c. a series LC circuit connected across the other end of said current transformer primary winding and one of said input terminals, and said fluorescent lamp adapted to be effectively connected in parallel with one of the inductive reactance portion and the capacitive reactance portion of said LC circuit; whereby the applied alternating voltage initially develops a very high potential across said lamp to initiate the operation of said lamp, and after operation of said lamp is initiated, the current through said lamp is constant for any given applied battery voltage and is independent of the negative resistance characteristic of said lamp.
3. The apparatus as specified in claim 2, wherein said transistor-network switching means comprises two transistors, the collector of one of said transistors connects to the emitter of the other of said transistors and to said output terminal, the remaining collector and emitter of said transistors connect across said input terminals, and said driver secondary windings of said current transformers connect across the base and emitter of each of said transistors.
4. The apparatus as specified in claim 2, wherein said input terminals are connected to an AC main through a rectifier means and current limiting means to provide a DC supply for a trickle charging said battery when electrical energy is available at said AC main.
5. The apparatus as specified in claim 4, wherein transistor-network inhibit means is connected to both said DC supply and to said transistor network means to energize said transistor network means when electrical energy is not available at said AC main.
put portion of said diode bridge is connected to a shorting winding portion of said current transformer to render said transistor network means inoperative when electrical energy is available at said AC main.
* l I i

Claims (6)

1. Apparatus for operating a discharge lamp from a battery, said lamp when operated displaying a negative volt-ampere characteristic, said apparatus comprising: a. input terminals adapted to be connected across said battery; b. low-impedance switching means connected across said input terminals and operable to develop square waves of voltage at output terminal means thereof; c. a series LC circuit connected across said output terminal means of said switching means and one of said input terminals, and said lamp adapted to be effectively connected in parallel with one of the inductive reactance portion and the capacitive reactance portion of said LC circuit; whereby the applied alternating voltage initially develops a very high potential across said lamp to initiate operation of said lamp, and after operation of said lamp is initiated, the current through said lamp is constant for any given applied battery voltage and is independent of the negative resistance characteristics of said lamp.
2. Apparatus for operating a fluorescent lamp from a battery, said lamp when operated displaying a negative volt-ampere characteristic, said apparatus comprising: a. input terminals adapted to be connected across said battery; b. low-impedance switching transistor-network means connected across said iNput terminals and operable to develop at an output terminal thereof an output signal comprising square waves of voltage, said output terminal of said transistor-switching means connected to one end of the primary winding of a current transformer, and said current transformer having small driver secondary windings connected to said transistor-network means to control the switching of same; c. a series LC circuit connected across the other end of said current transformer primary winding and one of said input terminals, and said fluorescent lamp adapted to be effectively connected in parallel with one of the inductive reactance portion and the capacitive reactance portion of said LC circuit; whereby the applied alternating voltage initially develops a very high potential across said lamp to initiate the operation of said lamp, and after operation of said lamp is initiated, the current through said lamp is constant for any given applied battery voltage and is independent of the negative resistance characteristic of said lamp.
3. The apparatus as specified in claim 2, wherein said transistor-network switching means comprises two transistors, the collector of one of said transistors connects to the emitter of the other of said transistors and to said output terminal, the remaining collector and emitter of said transistors connect across said input terminals, and said driver secondary windings of said current transformers connect across the base and emitter of each of said transistors.
4. The apparatus as specified in claim 2, wherein said input terminals are connected to an AC main through a rectifier means and current limiting means to provide a DC supply for a trickle charging said battery when electrical energy is available at said AC main.
5. The apparatus as specified in claim 4, wherein transistor-network inhibit means is connected to both said DC supply and to said transistor network means to energize said transistor network means when electrical energy is not available at said AC main.
6. The apparatus as specified in claim 5, wherein said inhibit means comprises an inhibit circuit transistor having its base and emitter connected to said DC supply through current limiting means, the input portion of a diode bridge is connected to the emitter and collector of said inhibit circuit transistor, and the output portion of said diode bridge is connected to a shorting winding portion of said current transformer to render said transistor network means inoperative when electrical energy is available at said AC main.
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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3758877A (en) * 1972-05-09 1973-09-11 G Schiffner Power supply for carbon dioxide lasers
US3860829A (en) * 1973-08-10 1975-01-14 Keene Corp Fluorescent fixture auxiliary light
US3869639A (en) * 1973-08-24 1975-03-04 Gen Electric Emergency lighting system using dim to bright flashing operation
US3899632A (en) * 1973-10-23 1975-08-12 Materials Division General Ele Retrofit emergency lighting package
US4029993A (en) * 1975-12-18 1977-06-14 General Electric Company Two level inverter circuit
US4682078A (en) * 1985-01-28 1987-07-21 Radiant Illumination, Inc. Wireless emergency lighting unit
US5004953A (en) * 1989-06-30 1991-04-02 The Bodine Company Emergency lighting ballast for compact fluorescent lamps with integral starters
US5986407A (en) * 1998-04-01 1999-11-16 Tasua Electronics Co., Ltd. Control apparatus for permitting operation of an ac-powered lamp unit as an emergency lighting device
US6339296B1 (en) * 1999-05-11 2002-01-15 Jerzy M. Goral Low profile emergency ballast

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3356891A (en) * 1965-06-02 1967-12-05 Accumulateurs Fixes Automatic substitution of a standby power source rendered operative only when the lamps are connected
US3448335A (en) * 1966-07-22 1969-06-03 Trak Microwave Corp High frequency ac-dc fluorescent lamp driver circuit

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3356891A (en) * 1965-06-02 1967-12-05 Accumulateurs Fixes Automatic substitution of a standby power source rendered operative only when the lamps are connected
US3448335A (en) * 1966-07-22 1969-06-03 Trak Microwave Corp High frequency ac-dc fluorescent lamp driver circuit

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3758877A (en) * 1972-05-09 1973-09-11 G Schiffner Power supply for carbon dioxide lasers
US3860829A (en) * 1973-08-10 1975-01-14 Keene Corp Fluorescent fixture auxiliary light
US3869639A (en) * 1973-08-24 1975-03-04 Gen Electric Emergency lighting system using dim to bright flashing operation
US3899632A (en) * 1973-10-23 1975-08-12 Materials Division General Ele Retrofit emergency lighting package
US4029993A (en) * 1975-12-18 1977-06-14 General Electric Company Two level inverter circuit
US4682078A (en) * 1985-01-28 1987-07-21 Radiant Illumination, Inc. Wireless emergency lighting unit
US5004953A (en) * 1989-06-30 1991-04-02 The Bodine Company Emergency lighting ballast for compact fluorescent lamps with integral starters
US5986407A (en) * 1998-04-01 1999-11-16 Tasua Electronics Co., Ltd. Control apparatus for permitting operation of an ac-powered lamp unit as an emergency lighting device
US6339296B1 (en) * 1999-05-11 2002-01-15 Jerzy M. Goral Low profile emergency ballast

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