摘要:
An electrical interconnect structure for connecting a substrate to the next level of packaging or to a semiconductor device. The interconnect structure includes at least two layers of polymeric material, one of the layers having a capture pad and the second of the layers having a bonding pad electrically connected to the capture pad. The bonding pad and the second layer of polymeric material are at the same height so that the bonding pad is level with the second layer of polymeric material. Finally, there is a cap of electrically conducting metallization on the bonding pad and extending beyond the second layer of polymeric material. The cap is of a different composition than the bonding pad.
摘要:
In a multi-level wiring structure wires and vias are formed by an isotropic deposition of a conductive material, such as copper, on a dielectric base, such as a polyimide. In a preferred embodiment of the invention copper is electroplated to a thin seed conducting layer deposited on the surface of the dielectric base in which via openings have been formed. Openings in a resist formed on the surface of the dielectric base over the seed layer forms a pattern defining the wiring and via conductor features. Electroplated copper fills the via openings and wire pattern openings in the resist isotropically so that the upper surfaces of the wiring and vias are co-planar when the plating step is complete. In adding subsequent wiring levels, the resist is removed and the via conductor and wiring pattern covered with another dielectric layer which both encapsulates the conductors of the previous layer and serves as the base for the next level which is formed in the same manner as the previous level.
摘要:
Disclosed is a multilayered metallurgical structure for an electronic component. The structure includes a base metallurgy which includes one or more layers of chromium, titanium, zirconium, hafnium, niobium, molybdenum, tantalum, cooper and/or aluminum. Directly on the base metallurgy is a layer of cobalt. The structure may also include a layer of noble or relatively noble metal such as gold, platinum, palladium and/or tin directly on the cobalt.
摘要:
An electrical conductor is connected to a first microcircuit element having a first connector site axis and a second microcircuit having a second connector site axis. The first microcircuit and the second microcircuit are separated by and operatively associated with a first electrical insulator layer. The conductor and the first microcircuit element are separated by and operatively associated with a second electrical insulator layer. At least one of the first electrical insulator layer and the second electrical insulator layer comprise a polymeric material. The microcircuit includes a UBM and solder connection to a FBEOL via opening. Sufficiently separating the first connector site axis and the second connector site axis so they are not concentric, decouples the UBM and solder connection to the FBEOL via opening. This eliminates or minimizes electromigration and the white bump problems. A process comprises manufacturing the microcircuit.
摘要:
A microcircuit article of manufacture comprises an electrical conductor electrically connected to both a first microcircuit element at a site comprising a first connector site having a first connector site axis and a second microcircuit element at a site comprising a second connector site having a second connector site axis. The first microcircuit element and the second microcircuit element are separated by and operatively associated with a layer comprising a first electrical insulator, whereas the conductor and the first microcircuit element are separated by and operatively associated with a layer comprising a second electrical insulator. At least one of the first electrical insulator layer and the second electrical insulator layer comprise a polymeric electrical insulator. In another embodiment, both electrical insulator layers comprise polymeric insulator layers. The microcircuit includes a UBM and solder connection to a FBEOL via opening. Sufficiently separating the first connector site axis and the second connector site axis so they are not concentric decouples the UBM and solder connection to the FBEOL via opening to substantially eliminate or minimize inter alia, electromigration and the white bump problem typical of lead free solders employed in C4 systems. A process comprises manufacturing this type of microcircuit article.
摘要:
A microcircuit article of manufacture comprises an electrical conductor electrically connected to both a first microcircuit element at a site comprising a first connector site having a first connector site axis and a second microcircuit element at a site comprising a second connector site having a second connector site axis. The first microcircuit element and the second microcircuit element are separated by and operatively associated with a layer comprising a first electrical insulator, whereas the conductor and the first microcircuit element are separated by and operatively associated with a layer comprising a second electrical insulator. At least one of the first electrical insulator layer and the second electrical insulator layer comprise a polymeric electrical insulator. In another embodiment, both electrical insulator layers comprise polymeric insulator layers. The microcircuit includes a UBM and solder connection to a FBEOL via opening. Sufficiently separating the first connector site axis and the second connector site axis so they are not concentric decouples the UBM and solder connection to the FBEOL via opening to substantially eliminate or minimize inter alia, electromigration and the white bump problem typical of lead free solders employed in C4 systems. A process comprises manufacturing this type of microcircuit article.
摘要:
A tamper resistant, integrated circuit (IC) module includes a ceramic-based chip carrier, one or more integrated circuit chips attached to the chip carrier, and a cap structure attached to the chip carrier, covering the one or more integrated circuit chips. A conductive grid structure is formed in the chip carrier and cap structure, the conductive structure having a plurality of meandering lines disposed in an x-direction, a y-direction, and a z-direction. The conductive grid structure is configured so as to detect an attempt to penetrate the IC module.
摘要:
A silicon based package (SBP) is formed starting with a thick wafer, which serves as the base for the SBP, composed of silicon which has a first surface and a reverse surface which are planar. Then form an interconnection structure including multilayer conductor patterns over the first surface. Form a temporary bond between the SBP and a wafer holder, with the wafer holder being a rigid structure. Thin the wafer to a desired thickness to form an Ultra Thin Silicon Wafer (UTSW) for the SBP. Forming via holes which extend through the UTSW, forming metallization in the via holes which extends through the UTSW, making electrical contact to the interconnection structure on the first surface. Then bond the metallization in the via holes to pads of a carrier.
摘要:
A chip carrying module includes a number of engineering change lines buried below the surface of the module. The engineering change lines are interrupted periodically to provide a set of vias extending up to the upper surface of the module between each set of chips where the vias are connected by dumbbell-shaped pads including a narrow link which permits laser deletion or the like. In addition, the dumbbell-shaped pads are located adjacent to the fan-out pads for the chips. Thus, the fan-out pads can be connected to the dumbbell-shaped pads by means of fly-wires. In addition, individual engineering change lines can be connected together to reach every region of the module by connecting a fly-wire from one dumbbell-shaped pad to another. In addition, by deleting the links at such dumbbell-shaped pads, the engineering change connections are limited to the particular path required.
摘要:
The top surface metallurgy of LSI chip carriers is improved by multiple and phased interface of metal layers which enable such metallurgies to be suitable for joining by solder reflow and wire bonding techniques. The modifications result in separating the solder bonding metallurgy from the fan-out conductor metallurgy with an intermediate layer of a metal such as Cr or Ti which prevents the formation of intermetallic alloys which are mechanically weak or brittle and tend to fracture because of thermal fatigue stresses caused by thermal cycling during either multiple (up to 50) solder bonding reflow operations or operation of the circuit. The fan-out metallurgy conductors are preferably composed of Cr-Cu-Cr layers covered by at least one upper metal layer which is separated from the Cu of the conductor by means of a metal such as phased layers of Cr or Ti deposited before the other upper metal layer or layers. Solder ball bonding surfaces are composed of additional metal in the form of Au, Cu and Ni. The solderless bonding surfaces are composed of a metal selected from Au, Cr, Ti, Al and Co.