HU190862B - High-pressure discharge lamp with favourable colour reproduction - Google Patents

Abstract

The present invention relates to a high-color, high-pressure discharge source having an electronic ballast, which is a functional unit. The light source discharge vessel consists of a transparent or translucent high melting point, preferably Al2O3. The hermetically sealed discharge vessel is provided with current conductors at two ends, the discharge vessel having noble gas, preferably xenon, argon and / or neon and sodium algam. In the discharge vessel of the light source, the partial pressure of sodium vapor is 20-80 kPa, the pressure of the noble gas is 1-50 kPa, and the sodium molar ratio of 60-85%. The light source is connected via an electronic ballast either directly to a DC power source or via a rectifier and filter capacitor to an AC power source. The color rendering high pressure discharge lamp according to the invention is characterized in that one of the points (11) of the supply voltage is connected to one of the light sources (9a) of the light source via a switching element (7) and inductance (8), the supply voltage (9b) of the light source is the supply voltage. connected to another point (12) and a current input (9a) of the light source is connected to a control point (5b) of a pulse generator (5) controlled by a fill factor, and a pulse generator output point (5a) through a switching element (6) to another switching element (7) join. Figure 1 -1-

Description

BACKGROUND OF THE INVENTION The present invention relates to a high-color, high-pressure discharge light source with electronic ballast having a transparent or translucent high melting point material, preferably Al ₂ O ₃ ; or neon and sodium amalgam charge, partial discharge of sodium vapor in the light source discharge vessel 20-80 kPa, charge pressure of noble gas 1-50 kPa, sodium molar fraction 60-85% in sodium amalgam, direct current via electronic ballast or direct current, or is connected to an AC power source through a rectifier and a filter capacitor.

Such a high-pressure discharge lamp is disclosed in Dutch Patent Application No. 78 01 927. The essential feature of these lamps is that they emit essentially white light with a color temperature of 2300-2750 K and a color rendering index (Ra) of 60-85.

These discharge lamps have no particular requirements for the operating ballast and ignition unit, so that a conventional series-connected, iron-core inductive ballast and an electronic or glimmer-type igniter can be used.

The disadvantage of using a light source operated by a conventional iron-core or electronic ballast according to the aforementioned Dutch Patent Application No. 78 01 927 is that the warm-up time is unfavorably long. Because of the increased cold chamber temperature, even longer than the operation of the high pressure sodium lamp base design with a series inductive ballast, to provide an increased color rendering index, the US patent 3,248,590. This circumstance is particularly unfavorable for the light source according to the aforementioned Dutch Patent Application No. 78 01 927, because in its intended use, due to its improved color rendering properties, the fast warm-up is an essential requirement.

It is an object of the present invention to overcome this problem, that is, to provide a high-pressure discharge light source with good color rendering that warms up faster than any prior art known light source. The achievement of the objective or SUMMARY OF THE INVENTION The object of the present invention has been solved by recognizing that the discharge light source is operated at a substantially higher current than the operating current during the warm-up phase by properly switching the electronic ballast. In this case, the warming up is accelerated due to the increased electric energy input.

In accordance with this task, a high-pressure discharge light source has been developed, the ballast and ignition device of which are structurally (spatially) integrated with the light source, or separate as required, but functionally integrated with it. The increase of the light source operating current during the ignition phase according to the invention is achieved by the electronic ballast "monitoring the lamp's burning voltage and, if this value is below the specified operating value, the slope of the voltage current curve automatically interpreted in its own effective value. above the operating value, preferably 1.01 ^ 1-fold.

The high-color discharge light source according to the invention thus comprises an electronic ballast which forms a functional unit therewith. The discharge vessel of the light source consists of a transparent or translucent high melting point material, preferably Al, O 1. The hermetically sealed discharge vessel has current conductors at both ends and contains noble gas, preferably xenon, argon and / or neon, and sodium amalgam. In the light source discharge vessel, the partial pressure of the sodium vapor in the operating state is 20-80 kPa, the pressure of the noble gas charge is 1-50 kPa, and the molar fraction of sodium in the sodium amalgam is 6085%. The light source is connected via an electronic ballast or directly to a DC power source or to an alternating current source through a rectifier and a filter capacitor.

The high color high pressure discharge light source according to the invention is characterized in that one point of the supply voltage is connected via a switching element and an inductor to one of the light source inputs, the other source of the light source is connected to another point of the supply voltage and controlled pulse generator control point, and the pulse generator output point is connected to another switching element via a switching element.

The present invention, which is essentially a periodic increase of the voltage-current curve of an electronic ballast which is functionally integrated with the light source, so that the lamp and / or the electronic ballast. controlling the pulse fill factor of the pulse-type ballast by the light source's combustion voltage, described in detail below with reference to FIG. Figure 1 shows a circuit arrangement according to the invention. The symbols in the figure are: 1 - voltage source, 2 - rectifier, 3 - buffer capacitor, 3a and 3b - buffer capacitor terminals, 4 - limiting resistor, 5 - pulse generator, 5a - pulse generator output, 5b - pulse generator control point, 7 - switching element, 8 - inductance, 9 - light source, 9a - one current source of the light source, 9b - other current source of the light source, 10 - wire, 11 - one point of the power supply, 12 - the other point of the power supply.

The voltage of the 50 or 60 Hz AC voltage source 1 is rectified via a rectifier 2 to a buffer capacitor 3, terminals 3a and 3b of which are supplied by a circuit consisting of a limiting resistor 4, a pulse generator 5, switching elements 6 and 7 and an inductor 8. For ease of reference, the supply voltage is marked separately in the drawing

190,862, which are the terminals of the DC power supply, if applicable. The voltage-controlled pulse generator 5 is supplied via a limiting resistor 4, the control voltage of the light source 9 being monitored and the pulse voltage setting via a line 10 which is connected to the pulse generator control point 5b. The signal appearing at the output of the pulse generator 5a is amplified and coupled to a circuit consisting of inductors 8 and 9 light sources.

After the voltage source 1 is switched on and the light source 9 is lit, the burning voltage measured at the current inputs 9a and 9b of the light source 9 is low, this low voltage passes through the control point of the pulse generator 5b to the pulse generator 5. As a result, the effective current of 9 light sources will be greater than the operating current. During the warm-up, the combustion voltage of the light source 9 increases, which continuously or stepwise changes the fill factor of the pulse generator 5 through the line 10 and thereby the current of the light source 9.

Claims (1)

Claims Good color rendering, high pressure discharge light source with electronic ballast, consisting of a transparent or translucent high melting point material, preferably Al, O, with a sealed discharge vessel at both ends of the discharge vessel, in the discharge vessel of a noble gas or argon and sodium amalgam charge, the partial discharge pressure of the light source in the discharge vessel is 20-80 kPa, the charge pressure of the noble gas is 1-50 kPa, the molar fraction of sodium in the amalgam is 60-85%, via a direct current or a direct current source and connected via a filter capacitor to an AC voltage source, characterized in that one point of the supply voltage (11) is connected via a switching element (7) and an inductance (8) to a current source (9a) of the light source; and its other current input (9b) is connected to the other point (12) of the supply voltage, and one of the light source current supply (9a) is connected to the control point (5b) of a pulse generator (5) controlled by a fill factor and a switch (5a) ) is connected to another switching element (7).