CMOS Fabrication EMT 251.

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CMOS Fabrication EMT 251.

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Presentation transcript:

CMOS Fabrication EMT 251

Objectives To discussed the fundamentals of CMOS fabrication steps. To examined the major steps of the process flow. To overview the cross section view of a circuit

Chip making Process

Introduction MOSFET PMOS NMOS CMOS

MOSFET Metal Oxide Semiconductor Field Effect Transistor Source Drain Gate Metal Oxide Semiconductor Field Effect Transistor Source (Arsenic, Phosphorous, Boron) Drain (Arsenic, Phosphorous, Boron) Gate (Aluminum, Polysilicon) MOSFET

NMOS P-type substrate N-type dopant for Source & Drain Inversion layer is formed to conduct electricity

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

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

PROCESS FLOW WELL FORMATION ISOLATION FORMATION TRANSISTOR MAKING INTERCONNECTION PASSIVATION

CMOS FABRICATION PROCESS well formation Start with clean p-type substrate (p-type wafer)

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

CMOS FABRICATION PROCESS well formation Well will be formed here By *photolithography and etching process, well opening are made *photolithography and etch processes are shown in next slides

Photolithography (CED) photoresist Photoresist coating (C) Masking and exposure under UV light(E) Resist dissolved after developed (D) Pre-shape the well pattern at resist layer Si02 P-substrate UV light mask Opaque area P-substrate Transparent area

etching Removing the unwanted pattern by wet etching Resist clean Desired pattern formed P-substrate P-substrate

CMOS FABRICATION PROCESS well formation Phosphorus ion Ion bombardment by ion implantation SiO2 as mask, uncovered area will exposed to dophant ion

CMOS FABRICATION PROCESS isolation formation Thick oxide Increase SiO2 thickness by oxidation at high temperature Oxide will electrically isolates nmos and pmos devices

CMOS FABRICATION PROCESS transistor making pmos will be formed here nmos will be formed here LOCOS (isolation structure) By photolithography and etching process, pmos and nmos areas are defined

CMOS FABRICATION PROCESS transistor making Gate oxide Grow very thin gate oxide at elevated temperature in very short time

CMOS FABRICATION PROCESS transistor making polisilicon Deposit polisilicon layer

CMOS FABRICATION PROCESS transistor making gate Photolithography (photo) and etching to form gate pattern

CMOS FABRICATION PROCESS transistor making Arsenic ion photoresist Photo process to define the nmos’s active (source and drain) area and VDD contact Ion implantation with Arsenic ion for n+ dophant. Photoresist and polisilicon gate act as mask

CMOS FABRICATION PROCESS transistor making VDD contact source drain Nmos’s Source and drain with VDD contact formation Resist removal

CMOS FABRICATION PROCESS transistor making Boron ion photoresist Photo process to define the GND contact and pmos’s active area (source and drain) Ion implantation with boron ionto have p+ dophant Photoresist and gate act as mask

CMOS FABRICATION PROCESS transistor making GND contact Pmos’s drain Pmos’ source Pmos’s source and drain formation with GND contact Resist removal

CMOS FABRICATION PROCESS interconnection SiO2 Deposit SiO2 layer through out wafer surface

CMOS FABRICATION PROCESS interconnection contact Photo and etching process to make contact

CMOS FABRICATION PROCESS interconnection Metal 1 Metal 1 deposition throughout wafer surface

CMOS FABRICATION PROCESS interconnection Photo and etching processes to pattern interconnection

Mask Layout

Mask Layout

Mask Layout

Mask Layout

A A’ oxide p-substrate n+ N-well p+ Metal 1

Assignment B B’

GLOSSARY Photolithography (photo) Etching Diffusion Ion implantation Process of transferring pattern on mask to photoresist layer on wafer surface (pre-pattern the chip) Etching Process of permanently removed the unwanted part of design on wafer surface to get the desired pattern Diffusion Process of introducing dophant layer by movement of dophant atoms from high concentration to low concentration area at high temperature Ion implantation Process of introducing dophant layer by bombardment of high energy dophant ion in high electric field chamber Oxidation Process of growing thick or thin SiO2 layer depend on oxide application CMP Process to physically grind flat to have a planar surface for better exposure at photo process.

THE END