Difference between revisions of "System Module"

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[[Image:PDP-6 mod top.jpg|thumb|right|300px|A System Module used in a [[PDP-6]]; this example has had its [[transistor]]s salvaged from it]]
 
[[Image:PDP-6 mod top.jpg|thumb|right|300px|A System Module used in a [[PDP-6]]; this example has had its [[transistor]]s salvaged from it]]
  
'''System Modules''' (also sometimes known as '''System Building Blocks''') were a [[DEC]] modular digital logic family which preceded the later [[FLIP CHIP]]s. They connected to the units they were plugged into via a set of 22 gold-plated discrete pins along one edge.
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'''System Modules''' (originally name '''System Building Blocks'''; the name was changed about 1961) were a [[DEC]] modular digital logic family which preceded the later [[FLIP CHIP]]s. They connected to the units they were plugged into via a set of 22 gold-plated discrete pins along one edge.
  
 
They used [[transistor]] inverter circuits, with the transistors operating saturated, to avoid dependence on tight tolerances; they ran off -3V. Intended for prototyping as well as production, they included design features intended to avoid damage. They came with design advice which included loading rules, and wiring instructions.   
 
They used [[transistor]] inverter circuits, with the transistors operating saturated, to avoid dependence on tight tolerances; they ran off -3V. Intended for prototyping as well as production, they included design features intended to avoid damage. They came with design advice which included loading rules, and wiring instructions.   

Revision as of 03:20, 17 April 2018

A System Module used in a PDP-6; this example has had its transistors salvaged from it

System Modules (originally name System Building Blocks; the name was changed about 1961) were a DEC modular digital logic family which preceded the later FLIP CHIPs. They connected to the units they were plugged into via a set of 22 gold-plated discrete pins along one edge.

They used transistor inverter circuits, with the transistors operating saturated, to avoid dependence on tight tolerances; they ran off -3V. Intended for prototyping as well as production, they included design features intended to avoid damage. They came with design advice which included loading rules, and wiring instructions.

They were available in three compatible speed lines:

  • 4000-Series: the basic series, speeds ranged from 500 KHz to 1 MHz
  • 1000-Series: used where extra standard output loads, or -3V sources, were needed
  • 6000-Series: higher speeds, 5 MHz to 10 Mhz

In addition, special modules were available for purposes such as I/O converters (to standard internal voltages), bus drivers, lamp and solenoid drivers, A/D conversion, relays, core memory drivers, etc.

Larger assemblies which were part of the same family provided core memory testing devices, and there were also power supplies, mounting panels with slots for the modules, cabinets to hold groups of mounting panels,indicator light panels, etc, etc.

Further reading

  • System Modules, Digital Equipment Corporation, Maynard, 1964