An optical cable (5, 105) for communication comprising at least one micromodule (1), said micromodule being blocked with respect to the propagation of water is described.
Process for producing an electronic card comprising a micromodule inserted in the card body, wherein one layer of said body, contacting said micromodule, is of polymerised plastic material.
A method for manufacturing an optical cable (5, 105) for communication comprising at least one micromodule (1), said micromodule (1) being blocked with respect to the propagation of water, is described.
It is disclosed an optical cable for Communications comprising at least one micromodule, the micromodule comprising a retaining element and number N of optical fibers housed in said retaining element.
The invention concerns an electronic micromodule (30) comprising a support wafer (2), an integrated circuit chip (1) and at least a flat winding forming a coil (31).
A wire bonding process primarily useful for bonding wires between micro-module contact areas and a microchip having centre-mounted or “in-line” connections pads is disclosed.
A ball-bond is made between the wire and the micro-module contact area and a stitch-bond is made between the wire and the bumped connection pad.
The micro smart module is adhered to the carrier.
The output of an audio and video processing module of said DVD player is connected to a micro projection module.
The novel smart card module comprises a micro smart module and a carrier formed through cutting a carrier tape.
The micropackage has indexing elements to position the substrate frame (12) relative to a machine that can pick the component sites out of the frame.
The pharmacokinetics micro module is adapted to model behavior of the ligand and receptors related to single cell level of ligand-cell interactions, as a stochastic process.