Thermal Runaway is self destructive. It is a condition where a semiconductor device starts heating and is generating more power then it can dissipate. This causes it to get even hotter and generating more heat until it fails and quits producing heat usually ending in flames or molten metal.
Dr. Dold states in the “Analysis of thermal runaway in the ignition process:” “The evolution of a thermal runaway event is studied from the time a self-sustained temperature growth first sets in to the time deflagration flames begin to emerge.”
You can find it on line at
http://eprints.ma.man.ac.uk/806/01/covered/MIMS_ep2007_86.pdf.
Therefore I believe that you did not experience Thermal Runaway but you did get a very hot device.
CFLs (Compact Florescent Lamps) (coiled florescent lamp) take your pick.
Maybe the following will help explain why they get hot. They have an electronic ballast (swotched mode power supply) which is designed for a sinusoidal power waveform (standard AC waveform in the US) input..
Although Compact florescent light bulbs may be more efficient than incandescent lighting, the CFLs contain a very small amount of mercury sealed within the glass tubing - an average of 5 milligrams (roughly equivalent to the tip of a ball-point pen). Mercury is an essential, irreplaceable element in CFLs and is what allows the bulb to be an efficient light source.
Fluorescent light bulbs (including CDLs) are more energy-efficient than regular bulbs because of the different method they use to produce light. Regular bulbs (also known as incandescent bulbs) create light by heating a filament inside the bulb; the heat makes the filament white-hot, producing the light that you see. A lot of the energy used to create the heat that lights an incandescent bulb is wasted as heat. A fluorescent bulb, on the other hand, contains a gas that produces invisible ultraviolet light (UV) when the gas is excited by electricity. The UV light hits the white coating inside the fluorescent bulb and the coating changes it into light you can see. Because fluorescent bulbs don't use heat to create light, they are far more energy-efficient per lumen than regular incandescent bulbs.
The primary difference is in size; compact fluorescent bulbs are made in special shapes (which require special technologies) to fit in standard household light sockets, like table lamps and ceiling fixtures. In addition, most compact fluorescent lamps have”integral" ballast that is built into the light bulb, whereas most fluorescent tubes require a separate ballast independent of the bulb. Both types are basically the same and offer energy-efficient light.
To conclude they get hot because the electronics does not like a chopped sinusoidal wave form which causes the ballast to work harder creating more heat.
Hope this helps
Gil Shultz
