Abstract: A mercury vapor discharge fluorescent lamp is provided that has a mercury barrier. The mercury barrier is effective to inhibit mercury atoms from absorbing into the glass envelope and amalgamating with sodium atoms in the envelope. The mercury barrier is substantially non-mercury absorptive, both when the lamp is on and when it is off.

Abstract: A low-wattage fluorescent lamp is provided. The lamp has at least one mercury cold spot region effective to maintain the mercury in the lamp at less than 30° C., preferably 25° C., in an enclosed lamp fixture. The lamp also features a reduced distance between electrodes resulting in less power being required to sustain an electric arc discharge during operation of the lamp. The lower power electric arc generates less heat to raise the temperature of mercury vapor within the lamp.

Abstract: A mercury vapor discharge fluorescent lamp is provided that has a mercury barrier. The mercury barrier is effective to inhibit mercury atoms from absorbing into the glass envelope and amalgamating with sodium atoms in the envelope. The mercury barrier is substantially non-mercury absorptive, both when the lamp is on and when it is off.

Abstract: A low-wattage fluorescent lamp is provided. The lamp has at least one mercury cold spot region effective to maintain the mercury in the lamp at less than 30° C., preferably 25° C., in an enclosed lamp fixture. The lamp also features a reduced distance between electrodes resulting in less power being required to sustain an electric arc discharge during operation of the lamp. The lower power electric arc generates less heat to raise the temperature of mercury vapor within the lamp.

Abstract: A sealed lamp unit for a fluorescent lamp system includes first and second lamp electrodes located at respective end points of the sealed lamp unit. The lamp electrodes extend into the sealed lamp unit. A first lead wire extends into the sealed lamp unit. A first extended wire connection has a first end electrically connected to the first lamp electrode and a second end electrically connected to the first lead wire. A first capacitive impedance, electrically connected in series between the first and second ends of the first extended wire connection, limits a current flow through the first extended wire connection. A breakdown voltage path within the sealed lamp unit is modified as a function of a position of the first lead wire.

Abstract: A light source system includes a heat sink. A base connector receives electrical power. A housing is secured to the base connector. A ballast unit is secured within the housing and electrically connected to the base connector. At least one electrical component is both mechanically and electrically connected to the ballast unit. The at least one electrical component is driven by the electrical power received by the base connector. A lamp unit is secured to the housing and electrically connected to the ballast unit. An additional electrical component includes a portion which contacts an inside wall of the housing. The additional electrical component is electrically connected to the ballast unit and has a life span which decreases as an operating temperature of the additional electrical component increases. The inside wall of the housing acts as the heat sink for the additional electrical component.

Abstract: A sealed lamp unit for a three-way fluorescent lamp system comprises first and second lamp electrodes located at respective end points of, and extending into, the sealed lamp unit. The sealed lamp unit comprises at least one gas, which breaks-down when an electrical voltage potential is created within the sealed lamp unit. A third lamp electrode is located between the first and second lamp electrodes and extends into the sealed lamp unit. A brightness level of light output from the sealed lamp unit is a function of energizing selected electrodes. A color of the light is independent of the brightness level. A first extended wire connection is electrically connected between the first and second lamp electrodes. A first capacitive impedance, electrically connected in series along the first extended wire connection, limits a current flow through the first extended wire connection. A breakdown voltage path within the sealed lamp unit is modified as a function of a position of the third lamp electrode.

Abstract: A compact fluorescent lamp system includes a housing and an external base connector mounted in the housing. The external base connector receives electrical power from an external source. A ballast unit is secured within the housing and is electrically connected to the external base connector. The ballast unit controls the electrical power received from the external source. A lamp unit defines an interior volume. The lamp unit includes first and second lamp electrodes extending into the lamp unit. The lamp unit contains a gas which breaks-down permitting electrical current to pass through the lamp unit. An interior of the lamp unit is coated with a material which fluoresces when the gas within the sealed lamp unit ionizes. An electrically conductive hollow cylinder is located within the interior volume. A breakdown voltage path within the lamp unit is modified by the electrically conductive hollow cylinder.

Abstract: A compact fluorescent lamp system includes a housing. An external base connector is mounted in the housing. The external base connector receives electrical power from an external source. A ballast unit is secured within the housing and electrically connected to the external base connector. The ballast unit controls the electrical power received from the external source. The compact fluorescent lamp system also includes a lamp unit. The lamp unit includes an amalgam ball pellet within the lamp unit, first and second lamp electrodes extending into the lamp unit, and a gas which breaks-down, permitting an electrical current to pass through the lamp unit. An inside wall of the lamp unit is coated with a material which fluoresces when the gas within the sealed lamp unit ionizes. The lamp unit also includes an extended wire connection having a first end electrically connected to one of the first and second lamp electrodes and a second end located near another point on the lamp unit.

Abstract: Disclosed is a power-level selection circuit in combination with a lamp circuit including a fluorescent lamp having first and second cathodes with resistive-heating filaments each spaced at a respective end of a lamp tube; first and second power leads for respectively connecting the cathodes to an a.c. power source whose power can be selectively enabled and interrupted by a main power switch; and a ballast inductor in serial circuit with one of the power leads and including a plurality of filament-heating windings for supplying power to the cathodes. The power-level selection circuit is interposed between a first cathode and a filament-heating winding, and includes a power-receiving circuit coupled to the filament-heating winding to receive power therefrom. Further included is a filament-supply circuit for continuously supplying available power to the first cathode.

Abstract: A compact fluorescent lamp having a lamp envelope with a plurality of lamp ends disposed within a housing or base configuration, utilizes an enhanced adhesive material for securing the lamp envelope to the housing or base that is reflective. The adhesive material has a reflective material added thereto that allows for the light typically absorbed or otherwise lost in the housing, to be reflected back out thereby improving the luminous efficiency of such lamp. The adhesive material is also effective for blocking UV radiation from entering the area in which electronic components of the ballast circuit may be disposed.

Abstract: A UV absorbing soda-lime glass containing specific amounts of cerium oxide and iron oxide permits the use of significantly less CeO.sub.2 than is used in prior art glass. The amount of cerium oxide and iron oxide present is 0.02-0.07 wt. % and 0.02-0.06 wt. %, respectively, with a combined total typically no more than 0.13 wt. %. This glass is useful for fluorescent lamp envelopes in absorbing UVB radiation having a wavelength between 280-320 nm, while being transparent to visible light radiation without effecting the color of the light emitted by the lamp.

Abstract: An improved, more energy efficient reactor-type ballasting circuit for fluorescent lamps includes an inductive ballasting coil for directly applying an AC line voltage to the cathodes of a lamp without an intermediate autotransformer and also includes a glow type thermal switch in series with a positive temperature coefficient (PTC) resistor for electrical connection across the cathodes of the lamp to conduct pre-heating current to the lamp cathodes. The PTC resistor will effectively remove the glow switch from the ballast circuit if the switch fails to open after an appropriate time delay.

Abstract: An improved ballast circuit for fluorescent lamps includes an electronic bilateral triggering device and a capacitor connected in series combination across the secondary winding output terminals of a ballasting transformer and in shunt with the fluorescent lamps. The triggering device and the capacitor operate to produce high frequency oscillations superimposed on the high AC voltage applied across the lamp cathodes to improve the capacitive coupling between the lamps and their mounting fixture during starting. The triggering device becomes nonconductive to effectively remove itself and the capacitor from the starting circuit while the lamps are lit.

Abstract: An amalgam of mercury is placed at the anode end of a low-pressure mercury discharge lamp for D.C. operation to counteract mercury vapor depletion at the anode end of the lamp. The amalgam attracts mercury vapor to the anode end of the lamp when the lamp is turned off to maintain uniform mercury vapor distribution in the lamp.

Abstract: A low pressure gas discharge lamp ballast circuit is provided for three series-connected low energy gas discharge lamps, in which a first starting capacitor provides a starting voltage to one of the lamps, and a second starting capacitor provides a starting voltage to a second one of the lamps in sequence, so that the ballast losses can be minimized by reducing the ratio of the voltage applied across the three lamp system to the total lamp voltage, while still maintaining the light output and not having to use expensive lamp bases and lampholders.

Abstract: Two or more fluorescent lamps having a total length of about 96 inches and each having a diameter of one and a half inches and consuming less than 10 watts power per foot of length are connected in electrical series combination, one cathode of each lamp being connected to that of another lamp. An end of each remaining cathode of the combination is respectively connected to one of a pair of input electrical power terminals for a 50 or 60 hertz a-c line voltage in the range of 200 to 300 volts, one of the latter connections being via a ballast inductor. A starter switch is connected across the other ends of the remaining cathodes, and a secondary winding on the ballast inductor is connected across the interconnected cathodes. The lamp designs are specified such that they will start and operate in the circuit from the a-c line voltage.

Abstract: A discharge lamp comprising an elongated bulb shaped so that the ends thereof are substantially closer together than if the bulb were straight and containing electrodes respectively near said ends thereof, and a starting air comprising conductive members respectively adjacent to said bulb behind the plane of each of said electrodes, and means electrically interconnecting said conductive members.

Abstract: A pair of 48-inch long preheat fluorescent lamps, each one and a half inches diameter and consuming less than 10 watts power per foot of length, are connected in series with each other and with a ballast, for operation from 50 or 60 hertz a-c line voltage in the range of 200 to 300 volts. A starter switch is connected in parallel across each lamp. The lamp designs are specified such that they will start and operate in the circuit from the a-c line voltage.

Abstract: Electrical lamp ballast system for starting and operating fluorescent lamps with improved efficiency. System includes high leakage reactance autotransformer having primary and secondary windings, and a ballast capacitor connected in series with the secondary winding and two serially connected fluorescent lamps of low starting and operating voltage, the secondary circuit being connected to a tap on the primary winding for reducing the ratio of the ballast power input to the lamp light output. The system provides for reduced lamp current crest factor, thereby improving life and operating characteristics of the lamps.