The document discusses the basics of MOSFET transistors. It introduces MOSFETs and how they are made of crystalline semiconductor substrates with thin oxide gates. There are two types - depletion mode, which requires a gate-source voltage to turn off as the channel is normally on, and enhancement mode, which requires a gate-source voltage to turn on as the channel is normally off. Key parameters that affect MOSFET operation are channel length, width, oxide thickness, threshold voltage and doping levels. Complementary MOS (CMOS) circuits use both n-type and p-type MOSFETs.
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2. INTRODUCTION OF MOSFET
The rapid strides of the semiconductor industry in recent years are due to its
ability to incorporate more and more devices operating at higher and higher speeds in an IC. Metal
Oxide Field Effect Transistor (MOSFET) circuits occupy less silicon area and consume less power than
their bipolar counterparts (BJT) making them ideal choice for VLSI circuits. The MOSFET was the
subject of a patent in 1933, but did not reach commercial maturity until about thirty years later. The
delay was principally due to a lack of understanding of the importance of the oxide/semiconductor
interface, and to the time taken to develop suitable fabrication procedures, notably for the growth of
the thin gate oxide.
• MOSFET’s are made from crystalline semiconductor that forms the host structure called the
BASIC ELECTRICAL PROPERTIES OF MOS CIRCUITS
• MOSFET’s are made from crystalline semiconductor that forms the host structure called the
substrate or bulk of the device. Substrate for nMOS is p-type silicon whereas for the pMOS devices it
is n-type silicon.
• The thin oxide of the transistor electrically isolates the gate from the semiconductor underneath.
The gate oxide is made of oxidized silicon forming non-crystalline, amorphous SiO2. The gate oxide
thickness is typically from near 15 Å to 100 Å.
• Drain and source regions are made from crystalline silicon by implanting a dopant with opposite
polarity to that of the substrate. In pMOS, boran impurities are doped and in nMOS phosphorous
impurities are doped. The gate is fabricated using polysilicon or metal. Since drain and drain dopants
are made of opposite polarity to the substrate (bulk) they form pn junction diodes that are reverse
biased in normal operation of the device.
3. • The gate is the control terminal and the source provides
the electrons (nMOS) or holes (pMOS) that are collected by
the drain.
• The distance from drain to source is a geometrical
parameter called channel length (L) where the conduction
takes place. Another geometrical parameter of the device is
transistor channel width (W ). These two parameters are set
by the circuit engineer.
• Other parameters such as oxide thickness, threshold
• Other parameters such as oxide thickness, threshold
voltage and doping levels depend on the fabrication process
and cannot be changed by the design. They are technology
parameters.
• Complementary Metal Oxide Semiconductor (CMOS) logic
circuits have both nMOS and pMOS devices
4. DEPLETION TYPE – the transistor requires the Gate-Source voltage, ( VGS ) to switch the device “OFF”. The
depletion mode MOSFET is equivalent to a “Normally Closed” switch.
ENHANCEMENT TYPE – the transistor requires a Gate-Source voltage, ( VGS ) to switch the device “ON”. The
enhancement mode MOSFET is equivalent to a “Normally Open” switch.
TWO TYPE OF MOSFET
5. The Depletion-mode MOSFET, which is less common
than the enhancement mode types is normally switched
“ON” (conducting) without the application of a gate bias
voltage. That is the channel conducts
when VGS = 0 making it a “normally-closed” device. The
circuit symbol shown above for a depletion MOS
transistor uses a solid channel line to signify a normally
closed conductive channel.
For the n-channel depletion MOS transistor, a negative
gate-source voltage, -VGS will deplete (hence its name)
Depletion-mode MOSFET
gate-source voltage, -VGS will deplete (hence its name)
the conductive channel of its free electrons switching the
transistor “OFF”. Likewise for a p-channel depletion MOS
transistor a positive gate-source voltage, +VGS will deplete
the channel of its free holes turning it “OFF”.
In other words, for an n-channel depletion mode
MOSFET: +VGS means more electrons and more current.
While a -VGS means less electrons and less current. The
opposite is also true for the p-channel types. Then the
depletion mode MOSFET is equivalent to a “normally-
closed” switch.