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LVD Magnetic Induction Lamps FAQS
Q: What is the induction lamp system and how does induction lighting work? A: The induction lamp system uses a revolutionary technology
of light generation that combines the basic principles of induction and
gas discharge. Void of electrodes this new technology delivers an unprecedented
60,000 - 100,000 hours of high quality white light. Q: What are the components of the system? A: The system is comprised of three components; the generator, the power coupler and lamp. The power coupler transfers energy from the HF generator to the discharge inside the glass bulb using an antenna that contains the primary induction coil and its ferrite core. The power coupler also has a heat conducting rod with mounting flange. The mounting flange allows the Induction lamp system to be mechanically attached to the luminaire. Q: Why Induction Lighting? A: Induction lamps offer an amazing 60,000 -100,000 hours life making it virtually maintenance free. It offers crisp white light with 80+ CRI and a choice of 3K, 4K, 5K and 6K color temperatures. The high CRI light makes colors look brighter, more vibrant and more attractive. It produces up to 150 pupil lumens of light for each watt of energy. This 150 PLPW efficacy makes it more energy efficient than any other light source. Induction lamps offer high reliability and instant on and off. With less heat output. The long life and low power consumption per lumen makes the LVD magnetic induction lamps the least expensive and greenest light source on the planet. Click here to Compare LVD Bulbs to Other Types Q: Is the LVD induction lamp dimmable? A: Yes. The patented LVD integrated circuit board ballast
allows for full dimming of all LVD lamps, which can increase energy savings
and provide smooth light transition from ignition to full burn. Other brands
of induction lamps do not yet have this useful feature. Q: Do induction lamps need a dedicated fixture? A: No. LVD induction lamps can be used in any standard E27 lamp style screw based fixure. Q: Can running a lamp interfere with computers or any other electronic device? A: No. It runs at a low 210KHz and complies with FCC rules with no interference under normal circumstances. Q: Will the induction lighting system interfere with telecommunication equipment? A: No. The FCC standards are in place to protect navigation and radio communications. The system will not interfere with portable or cellular/mobile phones. Q: Is the light output of an induction lamp affected by low temperatures? High temperatures? A: The lamp’s amalgam fill technology and the heat conduction rod in the center create stable light output over a wide range of ambient temperatures, maintaining at least 85% of nominal lumens from -30° F to 130° F (for an enclosed fixture with heatsink). Induction lamps can start at temperatures as low as -40° F. Q: Is the induction lamp system vibration-resistant? A: Yes. The fact that induction lamps have no electrodes make them more reliable in high-vibration and windy applications. The induction lamp system has proven its durability in bridges, tunnels, and roadway applications. Q: What, if any, is the effect of voltage supply fluctuations on the performance of the induction system? A: Due to the built-in pre-conditioner in the HF generator, which provides a well stabilized internal supply voltage (a wide operating voltage range of +/- 20V) to the HF generator, the light output, consumed power and system efficacy (efficiency) of lamp system vary by less than 2% as a result of mains voltage fluctuations. There is no noticeable effect (visual or measurable) on the color performance (color temperature, color rendering, etc.) due to supply voltage fluctuation. Q: Will induction lighting fade or damage materials? A: The amount of ultraviolet light generated by an 80W lamp is roughly equivalent to that of a regular fluorescent lamp per 1000 lux. The permissible exposure time (PET) is +40 hours per 1000 lux, generously above the norm (24 hours per 1000 lux). The damage factor for materials is rated at a low 0.3 so induction lamps can be used in open luminaries without any front glass. Q: At the end of life, must all components be replaced? A: All three components are separately replaceable, however, induction lights are almost always supplied as a three-component system, even for relamping. End of life usually means the generator must be replaced, and at the time, it is usually recommended to replace the bulb, as phosphor degeneration at 100,000 hours lowers lumen output up to 37%. Q: Why would I pay more for LVD induction lighting technology? A: LVD Induction lighting systems offer five to ten times the life of HID and fluorescent lighting systems for only two to three times the cost. The LVD light bulbs use 90% less power than conventional light bulbs and 50% less power than compact fluorescent bulbs. The long life and low power consumption per lumen makes the LVD magnetic induction lamps the least expensive and greenest light source on the planet. Click here to Compare LVD Bulbs to Other Types Q: What’s new with Induction Lighting? A: LVD Lamps are dimmable have an industry low operating frequency of only 210KHz which reduces interference and increases life span. Plans for a wider range of voltages forms and wattages now expand applications into residential, off grid, solar and larger/higher outdoor uses. |
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