amdx said:
I have a friend that has a Tuna boat, he uses two Metal Halide lights to
light up the deck. The boat has a 3 phase generator onboard.
These lights have voltage taps on them like 208V, 220V, 230, 240V.
From your descriptions above, it seems like the lights run on inductive
ballasts. These are notorious for extinguishing arcs at the slightest
voltage sag and generally only work well in an environment where the voltage
is well regulated and the lamps are never exposed to vibration (yes, shaking
a HQI lamp strong enough will sometimes extinguish it). Both conditions are
hardly to be expected on a boat, rather the contrary.
Note however that both problems are much less pronounced with lamps operated
with an electronic ballast. These devices contain circuitry that essentially
amounts to a regulated switchmode power supply with active PFC. Unless the
voltage sags are particularly severe, the PFC should be able to maintain a
reasonable internal rail voltage. Also electronic ballasts run the lamps at
considerably higher operating frequencies and use a square-ish waveform thus
shortening the intervals during which the lamp current goes near zero. This
makes the arc more resistant to irregular supply as well as vibration.
While it is certain that some other backup lighting system (possibly with a
lower total power) will still be necessary to ensure the availability of
light in an emergency, your captain friend may be able to keep the metal
halides as the primary system if he replaces the inductive ballasts with
electronic ones.
Tim
