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Semiconductor Device Fabrication
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5 May 2003
Review Homework 6
Semiconductor Device Fabrication
William Shockley, 1945 The network before the internet
Bell Labs established a group to develop a semiconductor replacement for the vacuum tube. The group led by William Shockley, succeeded in creating an amplifying circuit utilizing a point-contact "transfer resistance" device that later became known as a transistor.By 1954 the transistor was an essential component of the telephone system.
The first Transistor
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Robert Noyce, 1959
Robert Noyce of Fairchild had the idea to evaporate a thin metal layer over discrete circuits. The metal layer connected down to the junctions through the holes in the silicon dioxide and was then etched into a pattern to interconnect the circuit.Robert, Gordon Moore and __ went on to create a new economy.read Hooking Up, by Tom Woolfe.
Vacuum Technologies “Killer App”: Semiconductor processing
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Current State-of-the-Art manufacturing: 300 mm wafers
Properties of Silicon
A Semiconductor (1 of only 4)
Slightly Reactive (required vacuum processing)
easily doped (highly diffusive) EXCEPT when a barrier layer is present
Abundant and easy to purify
Modern Alchemy
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Features that can be fabricated in Silicon
Transistors
Resistors
Diodes (regular and LED)
Capacitors
Micromechanical Structures (MEMS)
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Photo resist Patterning
Ion Implantation to non-resist covered surfaces
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Deep Ultraviolet Lithography
Exposure through the Reticle
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Bake and Develop
A Modern Semiconductor Vacuum Process Tool
Front End Buffer
Load Lock
Robot Handler
Process Modules
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Robot Handler & Process Modules
Inside Process Module
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Process Modules involving Vacuum Technology
Plasma EtchingChemical Vapor Deposition (CVD)Oxides and Nitrides of Silicon Ion ImplantationEpitaxial and Anneal (RTP) Physical Vapor Deposition (PVD)Inspection (Scanning Electron Microscope)
Etch Cluster Tool Example: Applied Materials P5000
consists of four, independently controlled etch Chamber modules which surround a central handler. Chambers A, B, and C are Magnetically-Enhanced Reactive Ion Etch (MERIE) systems, each equipped with optical endpoint detection to allow for more customized etching. The chamber configuration and system software allow control over a wide range of process parameters.
Chamber A: metals (Al/Si, Ti, or TiW) Chamber B: oxides and nitrides; Chamber C: silicon and polysilicon; Chamber D: passivation and strip.
Features: Compatible with 4" wafers. Helium backside cooling on Chamber A-C
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Issues with Etch
Elastomer Degradation (especially dynamic seals)
Consumable costs
Collateral Wafer Damage
Particle shed rate
MTBM, MTTR
Chemical Vapor Deposition (CVD)
Example: Silane for Polysilicon depositionPlasma generation, high Temperatures
Deposition rate ~500 mtorr using silane (SiH4). Deposition temperature is ~620C for polysilicon and ~560C for amorphous silicon. The deposition rate is ~125A/minute.
Base 1x10-5 TorrChallenges:
Deposition RateUniformityMTBM (Mean Time between Maintenance), MTTC(Mean time to clean).
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Oxides and Nitrides
To separate conducting areas from one another, a layer of insulator (Glass) is grown by exposing the silicon surface to high temperature steam.
Growth be suppressed with a nitride mask
Ion ImplantationThe neutral silicon is converted to a negative or positive conductor by the process of ion implantation. Dopant atoms are ionized and then accelerated by an electric field until they impinge on the silicon surface, where they embed themselves. During subsequent thermal treatment, the dopants redistribute
Vacuum level 1x10-7
Torr
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RTP and Anneal
High Temperatures (900°C) at wafer surfaceRepair damage caused from Ion ImplantationDrive (diffusion) implanted dopants into the substrateChallenges: Wafer Uniformity, contaminationPressures x10-6 Torr
Interconnects & Metal Plugs
After the transistors are built in the silicon, they must be interconnected using metal layers above the silicon substrate. First an insulating glass layer is deposited, then contact holes are cut into the glass layer down to the silicon. Metal is deposited on top of the glass, connecting to the devices through the contact holes.
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Physical Vapor Deposition (sputtering, Evaporation)
Inspection
Important for process qualification, yield management, ongoing quality assurance
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Per Wafer Defect Density, Yield
tools for Managing Defects: Clean rooms and Minienvironments
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From Wafer to device
Intel Pentium IV Chip with 47 Million Transistors
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