Chroot : "You can't even spell "silicon," and you're telling me a MOSFET has no p-n junctions? Give me a break.
Your link describes a depletion-mode FET, which are practically never used. Look up an enhancement-mode FET, and tell me what you find."
The description offered was of an older depletion mode MOSFET and was entirely consistent to my description (and link ) which is easy to understand and that was the main switching model used in the Intel 8086,8087 (numeric co-processor) and the 8088. These are now primitive examples of the science of fabrication and design but are easily understood. I did not post my answer to be in some sort of pissing contest but rather trying to help a HS student with a project at an ACCESSABLE level. Actually neither type is used any more in the construction of CPUs they use NMOS, PMOS transistor elements that have many active elements of differing meterial and 10 or so masks, what do you think that would mean to a normal student?
Chroot: "I'm an electrical engineer, and I work for National Semiconductor."
Well that's fascinating I'm a double e also and I hope the posts we see here from You are not indicative of the work that You do for your employer. You seem to be defensively argumentative.
Chroot "1) the metal layers for the gate, source, and drain are not connected to the semiconductor through "metal oxide."
Hmm perhaps I made a typo but You demonstrate a consistent inability to read evidently. I did not say they were I said the gate electrode is connected to the silicon block thru a "Metallic oxide". This definition is specific to the rudimentary device I was explaining.
Chroot :"2) the substrate is not "neutral," whatever that means. The substrate cannot be intrinsic (undoped) semiconductor because you wouldn't be able to control current flow through it. It's typically p-type semiconductor, but depends on what kind of tubs you're using to isolate the transistors."
The majority of substrates of modern VLSI circuits are insulators not conductors, SOI ...look it up.
Def: The body or base layer of an integrated circuit onto which other layers are deposited to form the circuit. The substrate is usually Silicon, though Sapphire is used for certain applications, particularly military, where radiation resistance is important. The substrate is originally part of the wafer from which the die is cut. It is used as the electrical ground for the circuit.
The fact that most wafers are grown from N type silicon notwithstanding.
Chroot : "3) the "active parts" of the transistor do not rest above the substrate. They are embedded within it. The substrate is itself an "active part.""
The cross section of NMOS and PMOS structures in CPUs FPGAs, PLAs, are all "built" ( deposited ) on the substrata which, other then a ground plane is NOT a part of the active area of the transistor. The student did not need to know the most complicated details of the latest devices like shallow channel and bifurcated or dual gate structures to explain ..a wall switch.
So once again You are incorrect in interpretation , intent and factually.
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