Cmos

CMOS

INTRODUCTIONINTRODUCTION

Integrated circuits: many transistors on single chip.

Metal Oxide Semiconductor (MOS) transistor

Fast, cheap, low-power transistors

Complementary: mixture of n- and p-type leads to less power

INTRODUCTIONINTRODUCTION

MOSFET

CMOSPMOSNMOS

SourceDrain

Gate

Metal Oxide Semiconductor Field Effect Transistor

Source ( Phosphorous, Boron)

Drain ( Phosphorous, Boron)

Gate (Aluminum, Polysilicon)

MOSFET

NMOS

P-type substrate

N-type dopant for Source & Drain

Inversion layer is formed to conduct electricity

PMOS

N-type substrate

P-type dopant for Source & Drain

Inversion layer is formed to conduct electricity

CMOS

A combination of both NMOS & PMOS technology

Most basic example: inverter

WELL FORMATIONWELL FORMATION

ISOLATION FORMATIONISOLATION FORMATION

TRANSISTOR MAKINGTRANSISTOR MAKING

INTERCONNECTIONINTERCONNECTION

PROCESS FLOWPROCESS FLOW

CMOS FABRICATION PROCESSCMOS FABRICATION PROCESSwell formationwell formation

Start with clean p-type substrate (p-type wafer)


Grow epitaxy layer (made from SiO2) as mask layer for well formation


By photolithography and etching process, well opening are made

photolithography and etch processes are shown in next slides

Well will be formed here

PHOTOLITHOGRAPHY (CED)PHOTOLITHOGRAPHY (CED)

Photoresist coating (C)

Masking and exposure under UV light(E)

Resist dissolved after developed (D)◦Pre-shape the well pattern at

resist layer

P-substrateSi02

photoresist

P-substrate

mask

UV light

Opaque area

Transparent area

ETCHINGETCHING

Removing the unwanted pattern by wet etching

Resist cleanDesired pattern formed

P-substrate

P-substrate


Ion bombardment by ion implantationSiO2 as mask, uncovered area will exposed

to dopant ion

Phosphorus ion

CMOS FABRICATION PROCESSCMOS FABRICATION PROCESSIsolation formationIsolation formation

Increase SiO2 thickness by oxidation at high temperature

Oxide will electrically isolates nmos and pmos devices

Thick oxide

CMOS FABRICATION PROCESSCMOS FABRICATION PROCESStransistor makingtransistor making

By photolithography and etching process, pmos and nmos areas are defined

pmos will be formed

here

nmos will be formed

here


Grow very thin gate oxide at elevated temperature in very short time

Gate oxide

CMOS FABRICATION CMOS FABRICATION PROCESSPROCESStransistor makingtransistor making

Deposit polisilicon layer

polisilicon


Photolithography (photo) and etching to form gate pattern

gate


Photo process to define the nmos active (source and drain) area and VDD contact

Ion implantation with Arsenic ion for n+ dopant.

Photoresist and polysilicon gate act as mask

photoresist

Arsenic ion


Nmos’s Source and drain with VDD contact formation

Resist removal

source drainVDD

contact


Photo process to define the GND contact and pmos active area (source and drain)

Ion implantation with boron for p+ dopantPhotoresist and gate act as mask

Boron ion

photoresist


Pmos’s source and drain formation with GND contact

Resist removal

GND contact Pmos’

source

Pmos’s drain

CMOS FABRICATION CMOS FABRICATION PROCESSPROCESSinterconnectioninterconnection

Deposit CVD Oxide layer through out wafer surface

CVD

Oxide

Photo and etching process to make contact

CMOS FABRICATION PROCESSInterconnection

contact

CMOS FABRICATION PROCESSCMOS FABRICATION PROCESSinterconnectioninterconnection

Metal 1 deposition throughout wafer surface

Metal 1

CMOS FABRICATION CMOS FABRICATION PROCESSPROCESSinterconnectioninterconnection

Photo and etching processes to pattern interconnection

ADVANTAGESADVANTAGES

High operating speed

Low cost

Very low static power consumption

High degree of noise immunity.

Optical lithography is limited by the light frequency.

Material limitations

Space limitations

DISADVANTAGESDISADVANTAGES

APPLICATIONSAPPLICATIONS

Integrated Circuits

Data converters

Integrated transceivers

Image sensors

Logic circuits

CONCLUSION

CMOS Transistors are stack of gate, oxide, silicon

Build logic gates out of switches

Draw masks to specify layout of transistors

Documents

Cmos