@almarg ,
Made perfect sense to me. 👍
All the best,
Nonoise
Made perfect sense to me. 👍
All the best,
Nonoise
Can anyone explain in laymans terms why your gear sound better after warm up
So sad to learn of your affliction, almarg. But you did ask: Was there something that wasn't clear in my answer? Which I presume is what passes for humor among engineers? Because here is your "answer" quoted directly from above: For an example of how transistor behavior is a function of temperature see the paragraph entitled "Ebers-Moll model" in this Wikipedia writeup on bipolar transistors, and note the capital "T" (for temperature) in the various equations. The OP specifically asks for "in layman's terms" but you being an engineer are so far removed from that you cannot answer at all without "behavior is a function of temperature see the paragraph entitled "Ebers-Moll model" in (Wiki link) yada yada. In other words almarg your "answer" is so freaking UNCLEAR that instead of making it clear you muddy up the water until its so murky you give up and send the reader off to research links! Okay. I get it. EE humor. Don't quit your day job! And oh by the way, yes I actually do understand your answer. Which is how I know its wrong. Because if it was right all you would have to do is run a blow drier over the SS device, which would warm it up, and it would sound just dandy. Which it don't. Because your EE answer, in addition to being clear as mud, is wrong. |
Temperature is a parameter that is fundamental to the physics of transistors, analog and digital integrated circuits, and other semiconductor devices. Consequently their behavior varies significantly as a function of temperature, and a competent designer will design the product to perform at its best when it has warmed up to a stable internal temperature, while being used in a room that is at a normal room temperature.That's about as layman an explanation one can give, and it was his first paragraph. All the best, Nonoise |