HallsofIvy said:All energy, including electrical, is eventually lost as heat. That's the "second law of thermodynamics".
infomike said:I've never heard it said before but it appears to me that all electrical current that flows in a solid state component system; processors, diodes, transistors, resistors, etc. is eventually dissipated as heat. What are your thoughts about this?
None of those devices do more than temporarily convert electrical energy to something other than heat for more than a few milliseconds, except for the small amount of kinetic energy stored in the spinning disk drive (which over time is inconsequential compared to the continuous loss due to friction).phinds said:Uh ... your computer doesn't have any lights on it? How about a disk drive? How about a screen?
russ_watters said:None of those devices do more than temporarily convert electrical energy to something other than heat for more than a few milliseconds, except for the small amount of kinetic energy stored in the spinning disk drive (which over time is inconsequential compared to the continuous loss due to friction).
infomike said:So it appears to me then, unlike other kinds of circuits where electrical energy is converted to mechanical energy or chemical energy, no actual work is done in most digital circuitry. It only results in heat. I guess that's why you need all those heat sinks and fans blowing on CPUs.
Well almost all of the electrical energy does something useful before being converted to heat. Not just that which is turned into light or mechanical energy.phinds said:Agreed, it was just that he seemed to think ALL went to heat, period, and I wanted to point out that this is not exactly right. Actually, the screen is on all of the time and there's probably a modest amount of energy getting converted to light.
phinds said:Agreed, it was just that he seemed to think ALL went to heat, period, and I wanted to point out that this is not exactly right. Actually, the screen is on all of the time and there's probably a modest amount of energy getting converted to light.
snorkack said:Why do solid state devices need to produce heat?
So, can a solid state device operate just by rearranging the organized energy, and avoid creating heat?
russ_watters said:Every time it "re-arranges" the energy, it has to discard some.
But the screens are so inefficient that most of that energy comes out the screen as heat rather than light.mrspeedybob said:Smart phones use most of their energy to light up the screen.
Electrical energy is converted into heat in solid state electronics through a process called resistive heating. This occurs when the electrical current encounters resistance in a material, causing the electrons to bump into atoms and transfer their kinetic energy, resulting in an increase in temperature.
Yes, there are several measures that can be taken to reduce the amount of heat generated in solid state electronics. This includes using materials with lower resistivity, designing circuits with lower power consumption, and implementing cooling mechanisms such as fans or heat sinks.
Yes, there is a limit to how much heat can be generated in solid state electronics. This is known as the maximum power dissipation, which is determined by the materials and design of the circuit. If this limit is exceeded, it can lead to overheating and potentially damage the electronics.
Yes, there are various applications where the conversion of electrical energy into heat in solid state electronics is beneficial. This includes heating elements in appliances, such as stoves and toasters, and in devices like hair dryers and soldering irons. It can also be used in thermoelectric generators to convert heat into electricity.
The conversion of electrical energy into heat can decrease the overall efficiency of solid state electronics. This is because the heat generated represents energy that is lost and not available for the intended purpose of the circuit. Therefore, it is important for designers to consider heat dissipation and implement strategies to minimize its impact on efficiency.