• DocumentCode
    963373
  • Title

    Micro-Modules: Component Parts and Materials Requirements

  • Author

    Danko, S.F. ; Kublin, V.J.

  • Author_Institution
    U.S. Army Signal Res. and Dev. Lab.
  • Volume
    5
  • Issue
    1
  • fYear
    1959
  • fDate
    8/1/1959 12:00:00 AM
  • Firstpage
    29
  • Lastpage
    38
  • Abstract
    The growth of our microminiaturization capabilities to date is cited as having been random and uncoordinated. The Signal Corps\´ micro-module effort is described as a definite step toward a concept that has depth and scope. A new dimension--a ten-to-one size reduction over the best now realized, is selected as reasonably attainable in 3 to 5 years. Named as providing the background for the present program, are such designs as the Army\´s Korean "Handy-Talkie," the Navy\´s "Tinkertoy," the Bell Telephone Laboratories\´ transistor, and the Army\´s "solder-dipped printed wiring." Also credited as being a major contributor, is the recent trend toward "packaging by function" where standard modular dimensions and a throw-away maintenance philosophy buy us another two-to-one size reduction, to reach a plateau of around 50,000 parts per cubic foot. It is stressed that a positive approach is now needed toward a completely new plateau in size and packaging density, of at least 500,000 parts per cubic foot. Our present capabilities are assessed, and a ten-to-one size reduction is shown for Sprague\´s ceramic printed circuit, and two transistor amplifiers by Centralab. The Army\´s micro-module wafer element (0.3 inch X 0.3 inch X 0.01 inch thick) is announced. A model demonstrating feasibility is shown, where a complete 5-transistor superheterodyne radio receiver is built into an ordinary fountain pen. Present capabilities are displayed for fabricating component parts on the 0.09-squareinch micro element. Specific accomplishments are shown, such as: a precision metal-film resistor, a precision glass capacitor, a flatplate ceramic capacitor, a hermetically-sealed solid-tantalum electrolyte capacitor, and several other special component parts. Five categories of Army equipments (portable, vehicular, missile, projectile, and satellite), and three plateaus of temperature (+85°C, +125°C, and +200°C, above a cold level of --55°C) are selected as meeting present Army environmental requirements. The guiding philosophy, in setting up the program, is described as providing: first, a meaningful step forward based on immediately attainable tangible techniques; and second, a parallel solid-state research effort to impr- ove and mature the concept. To accomplish the "big step forward" in size reduction and "throw-away" maintenance, RCA is announced as leader-contractor to coordinate industry wide activities.
  • Keywords
    Capacitors; Ceramics; Foot; Laboratories; Packaging; Printed circuits; Receivers; Semiconductor device modeling; Telephony; Wiring;
  • fLanguage
    English
  • Journal_Title
    Production Techniques, IRE Transactions on
  • Publisher
    ieee
  • ISSN
    0096-1779
  • Type

    jour

  • DOI
    10.1109/TPGPT.1959.1136047
  • Filename
    1136047