Presentation is loading. Please wait.

Presentation is loading. Please wait.

EE141 © Digital Integrated Circuits 2nd Manufacturing 1 Manufacturing Process I Dr. Shiyan Hu Office: EERC 518 Adapted and modified from Digital Integrated.

Published byShavonne Blair Modified over 9 years ago

Similar presentations

Presentation on theme: "EE141 © Digital Integrated Circuits 2nd Manufacturing 1 Manufacturing Process I Dr. Shiyan Hu Office: EERC 518 Adapted and modified from Digital Integrated."— Presentation transcript:

1 EE141 © Digital Integrated Circuits 2nd Manufacturing 1 Manufacturing Process I Dr. Shiyan Hu Office: EERC 518 Adapted and modified from Digital Integrated Circuits: A Design Perspective by Jan M. Rabaey, Anantha Chandrakasan, and Borivoje Nikolic. EE4271 VLSI Design

2 EE141 © Digital Integrated Circuits 2nd Manufacturing 2 Silicon Wafer Single die Wafer From http://www.amd.com Going up to 12” (30cm)

3 EE141 © Digital Integrated Circuits 2nd Manufacturing 3 N-Well Process

4 EE141 © Digital Integrated Circuits 2nd Manufacturing 4 Dual-Well Process Dual-Well Trench-Isolated CMOS Process Transistors at bottom Wires on the top

5 EE141 © Digital Integrated Circuits 2nd Manufacturing 5 Circuit Under Design

6 EE141 © Digital Integrated Circuits 2nd Manufacturing 6 Its Layout View

7 EE141 © Digital Integrated Circuits 2nd Manufacturing 7 7 VLSI Design and Fabrication Lithography Process Designed Chip Layout Fabricated Chip

8 EE141 © Digital Integrated Circuits 2nd Manufacturing 8 Chip

9 EE141 © Digital Integrated Circuits 2nd Manufacturing 9 9 Lithography System - Simple View Illumination source Mask Objective Lens Aperture Wafer

10 EE141 © Digital Integrated Circuits 2nd Manufacturing 10 Photo-Lithography Process – Full View oxidation optical mask process step photoresist coatingphotoresist removal (ashing) spin, rinse, dry acid etch photoresist stepper exposure development Typical operations in a single photolithographic cycle (from [Fullman]). Part of layout

11 EE141 © Digital Integrated Circuits 2nd Manufacturing 11 An Example: Patterning of SiO2 Si-substrate (a) Silicon base material (b) After oxidation and deposition of negative photoresist (c) Stepper exposure Photoresist SiO 2 UV-light Patterned optical mask Exposed resist SiO 2 Si-substrate SiO 2 2 (d) After development and etching of resist, chemical or plasma etch of SiO 2 (e) After etching (f) Final result after removal of resist Hardened resist Chemical or plasma etch

12 EE141 © Digital Integrated Circuits 2nd Manufacturing Manufacturing Process 12  Part of the layout is put on a mask (level), so we have many masks.  Each mask level corresponds to different actions in the fabrication process  Each mask level contains non-overlapping polygons, but polygons from different masks may overlap

13 EE141 © Digital Integrated Circuits 2nd Manufacturing An Example 13 A set of masks

14 EE141 © Digital Integrated Circuits 2nd Manufacturing An Example - I 14

15 EE141 © Digital Integrated Circuits 2nd Manufacturing An Example - II 15

16 EE141 © Digital Integrated Circuits 2nd Manufacturing An Example - III 16

17 EE141 © Digital Integrated Circuits 2nd Manufacturing An Example - IV 17

18 EE141 © Digital Integrated Circuits 2nd Manufacturing An Example - V 18

19 EE141 © Digital Integrated Circuits 2nd Manufacturing An Example - VI 19 Active (diffusion) contact Insulator SiO 2 for building metals in next step

20 EE141 © Digital Integrated Circuits 2nd Manufacturing An Example - VII 20

21 EE141 © Digital Integrated Circuits 2nd Manufacturing 21 General CMOS Process Define active areas Etch and fill trenches Implant well regions Deposit and pattern polysilicon layer Implant source and drain regions and substrate contacts Create contact and via windows Deposit and pattern metal layers

22 EE141 © Digital Integrated Circuits 2nd Manufacturing 22 Contact and Via  Contact:  link metal with diffusion (active)  Link metal with gate poly  Via:  Link wire with wire  Overlapping two layers (diffusion, gate poly or metal) and providing a contact hole filled with metal  Substrate Contact and Well Contact:  Link substrate or well to supply voltage

23 EE141 © Digital Integrated Circuits 2nd Manufacturing 23 CMOS Process Walk-Through p + p-epi (a) Base material: p+ substrate with p-epi layer (extended layer) p+ (c) After plasma etch of insulating trenches using the inverse of the active area mask p + p-epi SiO 2 3 SiN 4 (b) After deposition of gate-oxide and sacrificial nitride (acts as a buffer layer)

24 EE141 © Digital Integrated Circuits 2nd Manufacturing 24 CMOS Process Walk-Through SiO (field oxide) 2 (d) After trench filling, CMP planarization, and removal of sacrificial nitride (e) After n-well implants (by adjusting well doping in order to have more donar impurities such as phosphorus) n (f) After p-well implants (by adjusting well doping in order to have more acceptor impurities such as boron) p This implant will only impact the area below the gate oxide but not gate oxide itself

25 EE141 © Digital Integrated Circuits 2nd Manufacturing 25 CMOS Process Walk-Through (g) After polysilicon deposition and etch poly(silicon)

26 EE141 © Digital Integrated Circuits 2nd Manufacturing 26 CMOS Process Walk-Through

27 EE141 © Digital Integrated Circuits 2nd Manufacturing 27 CMOS Polysilicon Aluminum

28 EE141 © Digital Integrated Circuits 2nd Manufacturing 28 Metal

Download ppt "EE141 © Digital Integrated Circuits 2nd Manufacturing 1 Manufacturing Process I Dr. Shiyan Hu Office: EERC 518 Adapted and modified from Digital Integrated."

Similar presentations

EE141 © Digital Integrated Circuits 2nd Wires 1 The Wires Dr. Shiyan Hu Office: EERC 731 Adapted and modified from Digital Integrated Circuits: A Design.

EE141 © Digital Integrated Circuits 2nd Wires 1 The Wires Dr. Shiyan Hu Office: EERC 731 Adapted and modified from Digital Integrated Circuits: A Design.
CMOS Fabrication EMT 251.

CMOS Fabrication EMT 251.
Lecture 0: Introduction

Lecture 0: Introduction
Simplified Example of a LOCOS Fabrication Process

Simplified Example of a LOCOS Fabrication Process
EE141 © Digital Integrated Circuits 2nd Manufacturing 1 Digital Integrated Circuits A Design Perspective Manufacturing Process July 30, 2002.

EE141 © Digital Integrated Circuits 2nd Manufacturing 1 Digital Integrated Circuits A Design Perspective Manufacturing Process July 30, 2002.
CMOS Process at a Glance

CMOS Process at a Glance
VLSI Design Lecture 2: Basic Fabrication Steps and Layout

VLSI Design Lecture 2: Basic Fabrication Steps and Layout
EE141 © Digital Integrated Circuits 2nd Manufacturing 1 CMOS Process Manufacturing Process.

EE141 © Digital Integrated Circuits 2nd Manufacturing 1 CMOS Process Manufacturing Process.
EE141 F. Brewer, adapted from MOSIS Data, Digital Integrated Circuits 2nd Manufacturing 1 ECE 224a Process and Design Rules  Process Overview  Device.

EE141 F. Brewer, adapted from MOSIS Data, Digital Integrated Circuits 2nd Manufacturing 1 ECE 224a Process and Design Rules  Process Overview  Device.
Introduction to CMOS VLSI Design Lecture 0: Introduction

Introduction to CMOS VLSI Design Lecture 0: Introduction
Design and Implementation of VLSI Systems (EN1600) lecture04 Sherief Reda Division of Engineering, Brown University Spring 2008 [sources: Sedra/Prentice.

Design and Implementation of VLSI Systems (EN1600) lecture04 Sherief Reda Division of Engineering, Brown University Spring 2008 [sources: Sedra/Prentice.
Elettronica D. AA 2000-2001 Digital Integrated Circuits© Prentice Hall 1995 Manufacturing Process CMOS Manufacturing Process.

Elettronica D. AA Digital Integrated Circuits© Prentice Hall 1995 Manufacturing Process CMOS Manufacturing Process.
Design and Implementation of VLSI Systems (EN0160) Sherief Reda Division of Engineering, Brown University Spring 2007 [sources: Sedra/Prentice Hall, Saint/McGrawHill,

Design and Implementation of VLSI Systems (EN0160) Sherief Reda Division of Engineering, Brown University Spring 2007 [sources: Sedra/Prentice Hall, Saint/McGrawHill,
Lecture #51 Lecture #5 – VLSI Design Review zPhotolithography zPatterning Silicon zProcess steps used are: yStarts with Si wafer yThermal oxidation yPhotoresist.

Lecture #51 Lecture #5 – VLSI Design Review zPhotolithography zPatterning Silicon zProcess steps used are: yStarts with Si wafer yThermal oxidation yPhotoresist.
7/14/2015 1 Design for Manufacturability Prof. Shiyan Hu Office: EERC 731.

7/14/ Design for Manufacturability Prof. Shiyan Hu Office: EERC 731.
CSE477 L05 IC Manufacturing.1Irwin&Vijay, PSU, 2002 CSE477 VLSI Digital Circuits Fall 2002 Lecture 05: IC Manufacturing Mary Jane Irwin ( www.cse.psu.edu/~mji.

CSE477 L05 IC Manufacturing.1Irwin&Vijay, PSU, 2002 CSE477 VLSI Digital Circuits Fall 2002 Lecture 05: IC Manufacturing Mary Jane Irwin (
Device Fabrication Example

Device Fabrication Example
Introduction Integrated circuits: many transistors on one chip.

Introduction Integrated circuits: many transistors on one chip.
Digital Integrated Circuits © Prentice Hall 1995 Manufacturing Process CMOS Manufacturing Process.

Digital Integrated Circuits © Prentice Hall 1995 Manufacturing Process CMOS Manufacturing Process.
CMOS Process Integration ECE/ChE 4752: Microelectronics Processing Laboratory Gary S. May March 25, 2004.

CMOS Process Integration ECE/ChE 4752: Microelectronics Processing Laboratory Gary S. May March 25, 2004.

Similar presentations

Ads by Google