| High Pressure Mercury Lamp |
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Information AboutHigh Pressure Mercury Lamp |
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Mercury vapor lamps (and their relatives) are often used because they are relatively Efficient while still offering better Color Rendition than either high- or low-pressure pressure Sodium Vapor Lamp s. They also offer a very long lifetime. THEORY AND RELATIONS The mercury vapor lamp is a Negative Resistance device and requires auxiliary Electronics to prevent it from destroying itself. The auxiliary electronics are substantially similar to the ballasts used with Fluorescent Lamp s. Also like fluorescent lamps, mercury vapor lamps usually require a starting aid. In this case, though, the starting aid is usually contained within the mercury vapor lamp itself. A third Electrode is mounted near one of the main electrodes and connected through a Resistor to the other main electrode. When power is applied, there is sufficient Voltage to strike an arc between the starting electrode and the adjacent main electrode. This arc discharge eventually provides enough Ionized mercury to strike an arc between the main electrodes. Occasionally, a thermal switch will also be installed to short the starting electrode to the adjacent main electrode, completely suppressing the starting arc once the main arc strikes. Variation: Metal halide A closely-related lamp design called the Metal Halide Lamp uses various other elements in an Amalgam with the mercury. Sodium Iodide and Scandium Iodide are commonly in use. These lamps can produce much better quality light without resorting to phosphors. If they use a starting electrode, there is always a thermal shorting switch to eliminate any electrical potential between the main electrode and the starting electrode once the lamp is lit. (This electrical potential in the presence of the halides can cause the failure of the glass/metal seal). More modern metal halide systems do not use a separate starting electrode; instead, the lamp is started using high Voltage pulses as with high-pressure sodium vapor lamps. "MetalArc" is Osram Sylvania 's trademark for their metal halide lamps; "Arcstream" and "MultiVapor" are General Electric 's trademark. Besides their use in traditional outdoor lighting, these lamps now appear in most computer and Video Projector s. OPERATION When the lamp is first turned on, mercury-vapor lamps will produce a dark Blue glow because only a small amount of the mercury is ionized and the gas pressure in the arc tube is very low (so much of the light is produced in the Ultraviolet mercury bands). As the main arc strikes and the gas heats up and increases in pressure, the light shifts into the Visible Range and the high gas pressure causes the mercury emission bands to broaden somewhat, producing a light that appears more- White to the human eye (although it is still not a Continuous Spectrum ). Even at full intensity, the light from a mercury vapor lamp with no phosphors is distinctly bluish in color. Color considerations To correct the bluish tinge, many mercury vapor lamps coat the inside of the outer bulb with a Phosphor that converts some portion of the ultraviolet emissions into red light. This helps to fill in the otherwise very-deficient red end of the Electromagnetic Spectrum . These lamps are generally called "color corrected" lamps. Most modern mercury vapor lamps have this coating. One of the original complaints against mercury lights was they tended to make people look like "bloodless corpses" because of the lack of light from the red end of the spectrum. LIGHT POLLUTION CONSIDERATIONS For placements where Light Pollution is of prime importance (for example, an Observatory Parking Lot ), low pressure sodium is preferred. As it emits light on only one wavelength, it is the easiest to filter out. Mercury vapor lamps without any phosphor are second best; they produce only a few distinct mercury lines that need to be filtered out. ULTRAVIOLET HAZARDS All mercury vapor lamps (including metal halide lamps) must contain a feature (or be installed in a fixture that contains a feature) that prevents in the presence of air. SEE ALSO EXTERNAL LINKS REFERENCES |
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