Planar process

The planar process is a manufacturing process used in the semiconductor industry to build individual components of a transistor, and in turn, connect those transistors together. It is the primary process by which silicon integrated circuit chips are built, and it is the most commonly used method of producing junctions during the manufacture of semiconductor devices.^[1] The process utilizes the surface passivation and thermal oxidation methods.

The planar process was developed at Fairchild Semiconductor in 1959 and process proved to be one of the most important single advances in semiconductor technology.^[1]

Overview

The key concept is to view a circuit in its two-dimensional projection (a plane), thus allowing the use of photographic processing concepts such as film negatives to mask the projection of light exposed chemicals. This allows the use of a series of exposures on a substrate (silicon) to create silicon oxide (insulators) or doped regions (conductors). Together with the use of metallization, and the concepts of p–n junction isolation and surface passivation, it is possible to create circuits on a single silicon crystal slice (a wafer) from a monocrystalline silicon boule.

The process involves the basic procedures of silicon dioxide (SiO₂) oxidation, SiO₂ etching and heat diffusion. The final steps involves oxidizing the entire wafer with an SiO₂ layer, etching contact vias to the transistors, and depositing a covering metal layer over the oxide, thus connecting the transistors without manually wiring them together.

History

Development

In 1955 at Bell Labs, Carl Frosch and Lincoln Derrick accidentally grew a layer of silicon dioxide over a silicon wafer, for which they observed surface passivation properties.^[2] In 1957, Frosch and Derrick were able to manufacture the first silicon dioxide transistors, the first transistors in which drain and source were adjacent at the surface, showing that silicon dioxide surface passivation protected and insulated silicon wafers.^[3]

At Bell Labs, the importance of Frosch's technique was immediately realized. Results of their work circulated around Bell Labs in the form of BTL memos before being published in 1957. At Shockley Semiconductor, Shockley had circulated the preprint of their article in December 1956 to all his senior staff, including Jean Hoerni.^[4]^[5]^[6]^[7] Later, Hoerni attended a meeting where Atalla presented a paper about passivation based on the previous results at Bell Labs.^[7] Taking advantage of silicon dioxide's passivating effect on the silicon surface, Hoerni proposed to make transistors that were protected by a layer of silicon dioxide.^[7]

Jean Hoerni, while working at Fairchild Semiconductor, had first patented the planar process in 1959.^[8]^[9] K. E. Daburlos and H. J. Patterson of Bell Laboratories continued on the work of C. Frosch and L. Derick, and developed a process similar to Hoerni’s about the same time.^[7] Together with the use of metallization (to join together the integrated circuits), and the concept of p–n junction isolation (from Kurt Lehovec), the researchers at Fairchild were able to create circuits on a single silicon crystal slice (a wafer) from a monocrystalline silicon boule.

In 1959, Robert Noyce built on Hoerni's work with his conception of an integrated circuit (IC), which added a layer of metal to the top of Hoerni's basic structure to connect different components, such as transistors, capacitors, or resistors, located on the same piece of silicon. The planar process provided a powerful way of implementing an integrated circuit that was superior to earlier conceptions of the integrated circuit.^[10] Noyce's invention was the first monolithic IC chip.^[11]^[12]

Early versions of the planar process used a photolithography process using near-ultraviolet light from a mercury vapor lamp. As of 2011, small features are typically made with 193 nm "deep" UV lithography.^[13] As of 2022, the ASML NXE platform uses 13.5 nm extreme ultraviolet (EUV) light, generated by a tin-based plasma source, as part of the extreme ultraviolet lithography process.

References

^ ^a ^b Butterfield, Andrew J.; Szymanski, John, eds. (2018). A Dictionary of Electronics and Electrical Engineering. Vol. 1. Oxford University Press. doi:10.1093/acref/9780198725725.001.0001. ISBN 978-0-19-872572-5.
^ Huff, Howard; Riordan, Michael (2007-09-01). "Frosch and Derick: Fifty Years Later (Foreword)". The Electrochemical Society Interface. 16 (3): 29–29. doi:10.1149/2.F02073IF. ISSN 1064-8208.
^ Frosch, C. J.; Derick, L (1957). "Surface Protection and Selective Masking during Diffusion in Silicon". Journal of The Electrochemical Society. 104 (9): 547. doi:10.1149/1.2428650.
^ Moskowitz, Sanford L. (2016). Advanced Materials Innovation: Managing Global Technology in the 21st century. John Wiley & Sons. p. 168. ISBN 978-0-470-50892-3.
^ Christophe Lécuyer; David C. Brook; Jay Last (2010). Makers of the Microchip: A Documentary History of Fairchild Semiconductor. MIT Press. pp. 62–63. ISBN 978-0-262-01424-3.
^ Claeys, Cor L. (2003). ULSI Process Integration III: Proceedings of the International Symposium. The Electrochemical Society. pp. 27–30. ISBN 978-1-56677-376-8.
^ ^a ^b ^c ^d Lojek, Bo (2007). History of Semiconductor Engineering. Springer Science & Business Media. p. 120. ISBN 9783540342588.
^ US 3025589 Hoerni, J. A.: "Method of Manufacturing Semiconductor Devices” filed May 1, 1959
^ US 3064167 Hoerni, J. A.: "Semiconductor device" filed May 15, 1960
^ Bassett, Ross Knox (2007). To the Digital Age: Research Labs, Start-up Companies, and the Rise of MOS Technology. Johns Hopkins University Press. p. 46. ISBN 9780801886393.
^ "1959: Practical Monolithic Integrated Circuit Concept Patented". Computer History Museum. Retrieved 13 August 2019.
^ "Integrated circuits". NASA. Retrieved 13 August 2019.
^ Shannon Hill. "UV Lithography: Taking Extreme Measures". National Institute of Standards and Technology (NIST).

External links

"The silicon engine: A timeline of semiconductors in computing". Timeline: Browse by decade. Computer history museum. 2012. Retrieved 2012-06-03. A compendium of articles and other information on the development of integrated circuits, including the development of oxide masking, photolithography, the advent of silicon, the integrated circuit and the planar process.
The Planar Process
"The history of the integrated circuit". Nobelprize.org. 2003. Retrieved 2012-06-03. An overview of the steps in fabrication of an integrated circuit from the Nobel Prize website. This is a section of the work Techville: The integrated circuit.

[:0-1] Butterfield, Andrew J.; Szymanski, John, eds. (2018). A Dictionary of Electronics and Electrical Engineering. Vol. 1. Oxford University Press. doi:10.1093/acref/9780198725725.001.0001. ISBN 978-0-19-872572-5.

[:02-2] Huff, Howard; Riordan, Michael (2007-09-01). "Frosch and Derick: Fifty Years Later (Foreword)". The Electrochemical Society Interface. 16 (3): 29–29. doi:10.1149/2.F02073IF. ISSN 1064-8208.

[3] Frosch, C. J.; Derick, L (1957). "Surface Protection and Selective Masking during Diffusion in Silicon". Journal of The Electrochemical Society. 104 (9): 547. doi:10.1149/1.2428650.

[Moskowitz-4] Moskowitz, Sanford L. (2016). Advanced Materials Innovation: Managing Global Technology in the 21st century. John Wiley & Sons. p. 168. ISBN 978-0-470-50892-3.

[5] Christophe Lécuyer; David C. Brook; Jay Last (2010). Makers of the Microchip: A Documentary History of Fairchild Semiconductor. MIT Press. pp. 62–63. ISBN 978-0-262-01424-3.

[6] Claeys, Cor L. (2003). ULSI Process Integration III: Proceedings of the International Symposium. The Electrochemical Society. pp. 27–30. ISBN 978-1-56677-376-8.

[Lojek120-7] Lojek, Bo (2007). History of Semiconductor Engineering. Springer Science & Business Media. p. 120. ISBN 9783540342588.

[8] US 3025589 Hoerni, J. A.: "Method of Manufacturing Semiconductor Devices” filed May 1, 1959

[9] US 3064167 Hoerni, J. A.: "Semiconductor device" filed May 15, 1960

[Bassett46-10] Bassett, Ross Knox (2007). To the Digital Age: Research Labs, Start-up Companies, and the Rise of MOS Technology. Johns Hopkins University Press. p. 46. ISBN 9780801886393.

[11] "1959: Practical Monolithic Integrated Circuit Concept Patented". Computer History Museum. Retrieved 13 August 2019.

[12] "Integrated circuits". NASA. Retrieved 13 August 2019.

[13] Shannon Hill. "UV Lithography: Taking Extreme Measures". National Institute of Standards and Technology (NIST).

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Overview

History

Development

See also

References

External links