Dual die memory

A double-sized chip assembly and method is provided for two back-to-back integrated-circuit chips which both have the same fabrication mask sets. An electrically-selectable bonding-pad connection option alternatively provides a standard, non-reversed, option NRO for a bonding-pad layout and a non-st...

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1. Verfasser:	CALLAHAN JOHN M
Format:	Patent
Sprache:	eng
Schlagworte:	BASIC ELECTRIC ELEMENTS ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR ELECTRICITY SEMICONDUCTOR DEVICES
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creator	CALLAHAN JOHN M
description	A double-sized chip assembly and method is provided for two back-to-back integrated-circuit chips which both have the same fabrication mask sets. An electrically-selectable bonding-pad connection option alternatively provides a standard, non-reversed, option NRO for a bonding-pad layout and a non-standard, reversed option RO for the layout of the bonding-pads. The double-sized, back-to-back, wire-bonded integrated-circuit chip assembly and method includes a pair of integrated-circuit chips, each having one or more reversible wire-bonding-pads. One of the chips has its wire-bonding-pads electrically reversed such that the wire-bonding pads on both chips are located near each other to accommodate wire-bonding to a common bonding finger of a lead frame. A bonding-option wire-bonding-pad has an external voltage applied to it to indicate whether the integrated-circuit chip is to provide a standard pattern for the reversible wire-bonding-pads, or a reversed pattern for the reversible wire-bonding-pads. A voltage sensor circuit senses the voltage applied to the bonding-option wire-bonding-pad and alternatively generates either a standard NRO gate control signal or a non-standard, reversed RO gate control signal from the voltage state of the bonding-option wire-bonding-pad.
format	Patent
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An electrically-selectable bonding-pad connection option alternatively provides a standard, non-reversed, option NRO for a bonding-pad layout and a non-standard, reversed option RO for the layout of the bonding-pads. The double-sized, back-to-back, wire-bonded integrated-circuit chip assembly and method includes a pair of integrated-circuit chips, each having one or more reversible wire-bonding-pads. One of the chips has its wire-bonding-pads electrically reversed such that the wire-bonding pads on both chips are located near each other to accommodate wire-bonding to a common bonding finger of a lead frame. A bonding-option wire-bonding-pad has an external voltage applied to it to indicate whether the integrated-circuit chip is to provide a standard pattern for the reversible wire-bonding-pads, or a reversed pattern for the reversible wire-bonding-pads. 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An electrically-selectable bonding-pad connection option alternatively provides a standard, non-reversed, option NRO for a bonding-pad layout and a non-standard, reversed option RO for the layout of the bonding-pads. The double-sized, back-to-back, wire-bonded integrated-circuit chip assembly and method includes a pair of integrated-circuit chips, each having one or more reversible wire-bonding-pads. One of the chips has its wire-bonding-pads electrically reversed such that the wire-bonding pads on both chips are located near each other to accommodate wire-bonding to a common bonding finger of a lead frame. A bonding-option wire-bonding-pad has an external voltage applied to it to indicate whether the integrated-circuit chip is to provide a standard pattern for the reversible wire-bonding-pads, or a reversed pattern for the reversible wire-bonding-pads. 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subjects	BASIC ELECTRIC ELEMENTS ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR ELECTRICITY SEMICONDUCTOR DEVICES
title	Dual die memory
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