Early underwater lights were fixed electric flood lamps or portable lamps with dry batteries for use by divers in
standard diving dress.
Siebe Gorman & Company Ltd developed a model of portable lamp with a parabolic lens and attached to the divers corselet via a ball and socket joint allowing the diver to use both hands while working. In 1906, the
tungsten filament was introduced and used to produce 200 to 3,000
candlepower incandescent dive lights. The Siebe Gorman & Company introduced a 250-watt mercury vapor hand lamp in 1919 that could produce as much as 18,000 candles. For diving in turbid water, 45-watt Sodium hand lamps became the preferred choice. These early lights had to be turned on underwater to avoid cracking the heated glass as it entered cold water. The first lantern available to the US Navy had 150 candlepower. The early testing showed a need to increase the length of cable on the
US Navy Standard Lantern from 125 feet to 250 feet in 1915 to allow for greater operational range. The
United States Navy Experimental Diving Unit continues to evaluate dive lights for wet and dry
illumination output, battery duration, watertight integrity, as well as maximum operating depth.
Halogen bulbs came into use in the latter decades of the 20th century as they produced more light for the power used. They were followed by
high intensity discharge lamps and later, light emitting diodes, both singly and in arrays. Surface supplied divers could use power from a cable in the umbilical, but scuba divers need lights that are independent of a connection to the surface to make best use of their mobility advantage. The portable power sources progressed from
lead–acid batteries for rechargeable lights and
zinc–carbon batteries for disposable power supplies, to
alkaline batteries,
Nickel–cadmium (NiCad),
Nickel-metal hydride (NiMH), and most recently, rechargeable
lithium–ion batteries Waterproof miners lights were found to be suitable for moderate depths and were popular for cave diving. For greater depths, home made, and later professionally manufactured canister lights continued the tradition of a powerful but heavy and bulky power supply, connected to a lightweight, easily carried light-head, which could be carried in the hand or suspended from a clip or round the neck when both hands were needed for a task. The Goodman handle was developed to allow the light head to be carried on the back of the hand, which freed up the fingers for other tasks. This was later developed into the Goodman glove, a soft partial glove which supports the light in the same way as a Goodman handle. As of 2000, canister lights with sealed lead-acid batteries(12V 7AH) were standard for primary cave lights, with HID also popular for caving as they were more efficient, using lower wattage for equivalent lumens – an 18W HID would be brighter and burn longer than 50W halogen. The disadvantage of HID was that it could not be turned off then immediately on again and was much more expensive. There has been a continuous increase in lumen output for lower power of light sources, and increased power density of batteries. By the second decade of the 21st century compact hand held lights with several thousand lumens output were available in wide and narrow beam configurations, sometimes combined and sometimes combined with red LEDs and flashing sequences similar to strobes. These lights are often also suitable for use as video lights and can substitute for strobes for still photography, at a price. Some LED lights are also available with ultraviolet output for viewing and photography of
fluorescent organisms. Both narrow beam spotlights and wide beam flood lights and combinations have been available since the early years. Some of the light heads had reflectors which could be slid along the axis to focus the beam, but more recent lights simply provide a separate set of LEDs for narrow and wide beam, and switch from one to the other as needed. Variable power output is also common on these lights and the power selected allows low brightness for a long burn time or higher brightness and shorted burn. An early canister light attributed to Frank Martz around 1965 used sealed beam automotive lights. Later cave lights used test tube light heads. These were made commercially in the early 1970s by Lamar English (English Engineering), and later Mark Leonard produced a range of canister lights with both circular and rectangular section canisters in acrylic and aluminium. Mark Leonard co-founded Dive-Rite, and American Underwater Lighting took over from English Engineering, Bill Gavin modified the English light with quick disconnect cables, which AUL produced as the Spectrum 1000 Extreme Exposure. NiCad batteries were in use in a few canister lights by 2000. ==Modern sources==