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INTEGRATED CIRCUITS
Introduction Brief history Scale of integration Types of IC’s Wafer fabrication process IC’s fabrication techniques Advantages Disadvantages Applications Conclusion References
Contents
Integrated circuits
1940’S – Initial stage.
1945’s – Bell labs established a group to develop a semiconductor replacement for vacuum tubes.
1947’s – Transistor invented.
1951’s – Junction transistors invented.
1958’s – Integrated circuits invented.
Brief History
Small scale integration (SSI)
Medium scale integration (MSI)
Large scale integration (LSI)
Very large scale integration (VLSI)
Ultra large scale integration (ULSI)
Scale of integration
Wafer scale integration (WSI)
System on a chip (SOC)
3D IC’s
Analog IC’s
Digital IC’s
Mixed signal IC’s
Types of IC’s
Silicon shaping: Removal of ends Surface grinding Grounding of flats Slicing of ingots Lapping Edge contouring Chemical etching Polishing Chemical cleaning
Wafer preparation
Silicon is a hard & brittle material.
Industrial grade diamond is the most suitable
material for shaping & cutting silicon.
Silicon shaping:
Remove seeds and tang ends.
Metallurgical grade silicon (MGS).
Cutting is done using a circular saw.
Removal of ends:
Rotating diamond grinding tool.
X-ray diffraction techniques.
Surface grinding:
Primary flats
Secondary flats
Grounding of flats:
Inner diameter sawing
Diamond saw
Slicing of ingots:
The wafer flatness produced at this step is
better than 2 micro meter.
Mixture of AL2O3 & glycerin.
Lapping:
Diamond tool.
Prevents defects.
Helps in smooth deposition of photoresist.
Edge contouring:
Acid etching:• acid bath• etchant Alkali etching: mixture of NaOH:H2O or KOH:H2O
Chemical etching:
For smooth surface
Batch wafer process
Single wafer process
Slurry
Polishing:
Silicon wafers are cleaned chemically to remove organic films, heavy metals
Aqueous solution of NH4OH-H2O2, HCL-H2O2.
Chemical cleaning:
Diffusion and ion implantation Oxidation and film deposition Epitaxial growth Lithography Etching Photo resist Deposition
IC fabrication techniques:
Diffusion & ion implantation
Oxides are grown or deposited on the surface of the wafer
Film deposition: thermal oxides dielectric layers polycrystalline oxides metal films
Oxidation & film deposition
The growth of ultra pure layer of crystalline silicon.
Approx 3% of silicon wafer.
Contaminate free for the subsequent construction of transistor.
Epitaxial growth
lithography, Deposition, Etching & photo resist
Small size
Low weight
Easy replacement
High speed
High temperature tolerance
Advantages
Lack of flexibility
High power requirements
Disadvantages
Automobiles
Appliances
computers
Applications
Modern computing, communication, manufacturing and transport system including the internet, all depends on the existence of integrated circuits.
Conclusion
