Fairchild Micrologic 'link' — Must Read
The most famous application of Fairchild Micrologic was in the . Because weight and power consumption were critical for the lunar mission, NASA chose Micrologic for its high reliability and compact form factor.
The Fairchild Micrologic family had several key features and advantages that made it widely popular: fairchild micrologic
In conclusion, the Fairchild Micrologic family was a groundbreaking series of ICs that played a significant role in the development of digital electronics and computing. Its modularity, standardization, reliability, and ease of use made it widely popular among designers and engineers. The Micrologic family's legacy can be seen in the modern digital systems that we use today, from computers and smartphones to communication equipment and industrial control systems. The most famous application of Fairchild Micrologic was
The Micrologic series represents "Generation Zero" of the silicon revolution. It proved that complex logic could be miniaturized and mass-produced. For the collector, it is a holy grail of industrial design. For the historian, it is the moment the "computer" left the lab and entered the product. It proved that complex logic could be miniaturized
Looking at a vintage Micrologic chip today, usually housed in the classic black epoxy potted packages or ceramic flat-packs, the construction is rugged.
The story of Fairchild Micrologic is the defining chapter of the silicon revolution, where a small team of "traitorous" engineers turned a laboratory theory into the microchips that eventually guided humans to the Moon. The "Traitorous Eight" and the Planar Breakthrough The story begins in 1957, when eight young scientists—including Robert Noyce and Gordon Moore —defected from Shockley Semiconductor to form Fairchild Semiconductor . Their mission was to solve the "reliability problem" of early transistors, which were prone to failure from dust and exposure. In 1959, Jean Hoerni invented the Planar Process , which protected delicate silicon junctions under a layer of glass (silicon dioxide). Seeing this, Robert Noyce realized they could do more than just make better transistors—they could interconnect multiple components directly on a single silicon wafer using deposited metal lines. Making it "Micro" 11 sites A Company of Legend: The Legacy of Fairchild Semiconductor * Fairchild overview. Founded in September 1957 in Palo Alto, California, by eight young engineers and scientists from Shockley Se... IEEE Computer Society Building the Future: The Planar Integrated Circuit Jun 8, 2009 —