In the United States and Canada, lamps are typically identified by a code such as FxxTyy, where F is for fluorescent, and the first number (xx) indicates either the power in watts for bi-pin lamps, length in inches for single-pin and high-output lamps, and for circular bulbs, the diameter of the circular bulb. The T indicates that the shape of the bulb is tubular, and the last number (yy) is the
diameter in eighths of an inch (sometimes in millimeters, rounded up to the nearest millimeter). Typical diameters are T12 or T38 () for larger, often less efficient lamps, T8 or T26 () for smaller and often energy-saving lamps, and T5 or T16 () for very small lamps, which may even operate from a battery-powered device. For T2–T12 and T17, the number indicates the tube diameter in inches, e.g. T2 → in and T17 → in. Whereas for T16 and T26–T38, the number indicates the approximate tube diameter in millimeters.
Reflectors Some lamps have an internal opaque reflector. Coverage of the reflector ranges from 120° to 310° of the lamp's circumference. Reflector lamps are used when light is only desired to be emitted in a single direction, or when an application requires the maximum amount of light. For example, these lamps can be used in
tanning beds or in backlighting electronic displays. An internal reflector is more efficient than standard external reflectors. Another example is color matched aperture lights (with about 30° of opening) used in the food industry for robotic quality control inspection of cooked goods. Aperture lamps have a clear break in the phosphor coating, typically of 30°, to concentrate light in one direction and provide higher
brightness in the beam than can be achieved by uniform phosphor coatings. Aperture lamps include reflectors over the non-aperture area. Aperture lamps were commonly used in photocopiers in the 1960s and 1970s where a bank of fixed tubes was arranged to light up the image to be copied, but are rarely found nowadays. Aperture lamps can produce a concentrated beam of light suitable for
edge-lit signs.
Single-pin lamps Single-pin lamps (Also generically called "Slimline" in the United States) operate on an instant start ballast in the United States and Canada or on a series choke without a starter in 220-240V countries.
High-output/very high output lamps High-output lamps are brighter and are driven at a higher
electric current. They have a recessed double contact (R17d) base on each end, rather than a standard bi-pin base, which prevents them from being installed into the wrong fixture. Since about the early to mid-1950s to today,
General Electric has developed and improved the
Power Groove lamp. These lamps are recognizable by their large diameter () and grooved tube shape.
Colors Colors using a calcium halophosphate formulation are usually indicated by WW for warm white, W for (neutral) white, CW for cool white, and D for the bluish daylight white.
Philips and
Osram use numeric color codes for tri-phosphor and multi-phosphor colors. The first digit indicates the
color rendering index (CRI) of the lamp. If the first digit on a lamp says
8, then the CRI of that lamp will be approximately 85. The last two digits indicate the
color temperature of the lamp in kelvins (K). For example, if the last two digits on a lamp say
41, that lamp's color temperature will be 4100 K, which is a common tri-phosphor cool white fluorescent lamp. BL is used for ultraviolet lamps commonly used in
bug zappers. BLB is used for
blacklight-blue lamps employing a
Wood's glass envelope to filter out most visible light, commonly used in nightclubs. Other non-standard designations apply for
plant lights or
grow lights. ==Common tube ratings==