ARTIFICIAL LIGHT

1. ARTIFICIAL LIGHT

2. 3 MAJOR TYPES OF ARTIFICIAL LIGHT SOURCES: • INCANDESCENT • FLUORESCENT • HIGH INTENSITY DISCHARGE (HID) AND COLD CATHODE

3. INCANDESCENT LIGHT:THE LIGHT IS PRODUCED FROM THE HEATING OF THE “TUNGSTEN FILAMENT” INSIDE THE LIGHT BULB WITH AN ELECTRIC CURRENT UNTIL IT GLOWS.*SIZES VARY FROM 15 WATTS TO 200 WATTS*BULBS ARE AVAILABLE IN BLUE, PINK, YELLOW, GREEN.*SHAPES AND FINISHES VARYADVANTAGES: IT IS LESS EXPENSIVE , MORE FLEXIBLE, EASY TO CHANGE, MAY BE RECYCLED INTO CERAMIC TILESDISADVANTAGE: IT TAKES MORE ENERGY AND GENERATES MORE HEAT THAN FLUORESCENT LIGHT.

4. Tungsten Halogen • A TungstenHalogen Lamp is a typeincandescent lampwith a tungsten filament contained within an inert gas and a small amount of a halogen such as iodine or bromine. • The filament of the small lamp is surrounded with halogen gas. As the tungsten burns off, the halogen reacts with the tungsten (called Halogen Cycle), creating a bright light.

5. Advantages and Disadvantages: Tungsten halogen costs more than common incandescent lighting but last three times longer, burn 10 percent brighter, and are closer to the natural spectrum. But produce more heat.

6. FLUORESCENT LIGHT: • THE TUBE IS FILLED WITH VERY LOW PRESSURE MERCURY VAPOR (OR XENON) AND A SPECIAL POWDER COAT INSIDE THE TUBE. WHEN THE CATHODES AT EACH END OF THE TUBE ACTIVATE THE VAPOR, THEY CAUSE THE FLUORESCENT COATING TO PRODUCE LIGHT. • SHAPES AVAILABLE: STRAIGHT, TUBULAR, CIRCULAR, U SHAPED • ADVANTAGES: IT LASTS LONGER, PRODUCES LESS GLARE, LESS HEAT, COSTS LESS. • DISADVANTAGE: COLOR QUALITY. DIFFICULT TO MAINTAIN.

7. Fluorescent light is a relatively shadowless, even light, making it ideal for general lighting of environments where tasks are performed but where task lighting would be impractical or undesirable. • They are commonly used in luminous ceiling panels, under-the-cabinet lighting over the counters, in bathroom lighting and over work surfaces in offices. • With this type of light, work can take place for hours without lighting-caused fatigue.

8. Compact Fluorescent Lamps CFL • These are initially more expensive , yet they consume almost one-fifth of the power and last up to sixteen times longer than incandescent lamps. Basically, CFLs use less power and have a longer rated life.

9. METAMERISM: 1. SAME MATERIAL LOOKS DIFFERENT UNDER DAYLIGHT AND ARTIFICIAL LIGHT Looking

10. 2. TWO MATERIALS LOOK ALIKE UNDER DAYLIGHT, BUT DIFFERENT UNDER ARTIFICIAL LIGHT

11. HIGH INTENSITY DISCHARGE (HID): • High Intensity Discharge (HID) HID lighting combines some of the advantagesof incandescent and fluorescent. The lamps give point or near-point light; they are cheap and efficient to run, have a very long life, and some types(especially when used in combination) have good color characteristics. On the other hand, there is a high initial cost for both the lamp and the specialized fixture, and they require a bulky and expensive transformer. There are several types of readily available HID lamps: • LIGHT IS PRODUCED BY DISCHARGING ELECTRIC CURRENT THROUGH HIGH PRESSURE VAPOR

12. HIGH INTENSITY DISCHARGE • HID is used for bright interior and exterior lighting. HID lamps establish an arc between two vey close electrodes set in opposite ends of small, sealed, transclusent or transparent glass tubes. • HID lamps are used to “uplight” exteriors of large buildings and sometimes in interiors of nonresidential buildings.

13. Other Light Sources: – Neon. These tubes are familiar to us in illuminated signs, are available in a full range of colors, including whites. Neon tube life is very long (several years); it is limited by low efficiency, and usually considered for special, decorative applications. – Cold Cathode. This type is very similar to neon, and is sometimes useful in situations such as indirect lighting coves of irregular shape. – Fiber Optics. Strands of glass fibers, usually bundled, can convey light from any source to one or more remote locations, where the light then emerges from the fibers. Various experimental applications are under development, but the only uses available in interior design are decorative. – Laser Light. This is a process in which light is concentrated and emitted in an intense beam. Although laser light can be used in decorative and display functions, it does not yet have extensive practical application.

15. TYPES OF LIGHTING DEVICES: • All lighting devices fall into one of two mounting types: architectural or portable. Architectural lighting is fixed by building in or attaching fixtures to the structure of the building. Fixtures are often recessed, and more or less concealed. Correct architectural lighting is planned and is installed as a space is built or renovated. Portable lighting includes lamps and other moveable lighting devices that are plugged into outlets and can be moved about or replaced at will.

16. Types of Floor, Table, Desk and Specialty Lamps • Shaded Lamps. This is probably the most familiar and useful, portable fixture type. The bulb or bulbs are surrounded by a shade,which reduces glare but disperses direct light up, down or both. They can be fitted with incandescent or the new compact fluorescent lamps for energy efficiency. Because such lamps deliver excellent lighting, they are often selected as task lamps to illuminate small areas in offices and residences.

17. Reflector Lamps. These enclose a regular or reflector bulb, either incandescent or halogen, in an opaque reflector that directs light in one direction. They make good reading or work lights but can produce excessive brightness contrast unless fill light is provided from another source. The most familiar version is the cantilever, adjustable neck reflectors that are used as desk lamps. They have become a popular, inexpensive solution to many home and office lighting problems.

18. Globe Lamps. • In these, glass replaces the shade; this reduces the brightness of the enclosed incandescent lamp, and delivers diffused light. • Globes are made of clear, frosted, smoked, or colored glass, and the fixtures are either wall-mounted or chandelier. • Globe lamps tend to form a spot of glare and deliver unattractive, flat lighting.

19. Uplights andTorchieres. These are usually floor lamps that aim all light output upward to use the ceiling plane as a reflector, providing indirect, general lighting. The source light is usually incandescent, but halogen and HID versions are becoming increasingly popular.

20. POINTS TO BE CONSIDERED WHEN CHOOSING A LAMP: • SHOULD BE STABLE AND WELL BALANCED • DIFFUSED LIGHT GIVES LESS GLARE • LAMP SHADES SHOULD BE SIMILAR IN COLOR, TEXTURE, OR CONTRAST • HEIGHT COULD BE ADJUSTABLE OR TILTABLE • A FLOOR LAMP SHOULD BE PLACED SO THAT LIGHT COMES FROM BEHIND THE SHOULDER OF THE READER. LEFT OR RIGHT, BUT NOT DIRECTLY BEHIND THE READER. • FOR READING PURPOSES: • LOWER EDGE OF SHADE SHOULD BE ABOUT 1 M FROM FLOOR FOR TABLE LAMP • LOWER EDGE OF SHADE SHOULD BE ABOUT 1.20 M – 1.25 M FROM FLOOR FOR FLOOR LAMP

21. Types of Architectural Fixtures • Surface-Mounted, Hanging and Recessed Luminaires. These widely used architectural lighting devices, typically fitted with fluorescent lamps, provide general lighting. By spacing according tocalculations (which are discussed later in this guide), they can deliver predictable levels of consistent light. Unfortunately, low-cost versions of such fixtures are responsible for the glaring ceiling light all too common in offices and other large facilities.

23. Track Lighting. This system uses an electrical track that is usually ceiling mounted. The track can be fitted with many types of adjustable lighting units, both general and spot lighting, which can be moved about with relative ease. This system is particularly useful for display and gallery lighting, and is often used in residential applications.

27. Downlights. These can-type housings are among the most widely used incandescent architectural lighting devices; usually selected to illuminate a horizontal plane or to provide general lighting. They are typically used with a lens or shield to prevent direct glare. They may be recessed, surface-mounted or hung on a stem. HID versions are coming into use for large spaces with high ceilings. Downlights can be effectively mixed with other ceiling lighting systems to highlight circulation areas.

28. Eyeballs and Wall-washers. These are similar to downlights, but offer concentratedlight that can be adjusted to any angle. Wall-washers direct light from the ceiling to an adjacent wall; the glazing, angled light brings out texture in finishes and vertical surfaces.

30. Hanging Fixtures or Chandeliers. These widely used decorative fixtures may imitate historic designs or take on a contemporary look. To provide general light, they may be directed up, down, or both; many are height-adjustable. Residential versions are usually incandescent; fluorescent is used for office and store lighting.

34. Pendants. Suspended from the ceiling, a pendant light directs its light down, typically over a table or kitchen island. A pendant can enhance the decorative style of a room. Pendants can provide ambient or task lighting.

36. Sconces. These fixtures can provide uplight, downlight, patterns and/or color, and are used as both a functional and decorative design elements. Most often, they are wall-mounted.

38. Reflectors. These are similar in application to ceiling-mounted can lights. Many have swivel mountings that provide adjustability for display lighting, or reading in a fixed place.

40. Cove Lighting. Lighting by means of sources shielded by a ledge or horizontal recess that distributes light over the ceiling and upper wall. This system requires a cove, or pocket, to be built into the ceiling or wall. The light units, typically fluorescent or cold cathode, are concealed from view and provide indirect light.

43. cornice lighting Lighting by means of light sources shielded by a panel parallel to the wall and attached to the ceiling

47. soffit lightingThe underside of a structural component, such as a beam, arch, staircase, or cornice.A light built into a soffit.