A method of forming a grommet configured to provide support for a cable exiting of a housing is presented herein. The method includes the steps of providing a sleeve and a sealing part and providing one or more reinforcement members in a region of a transition between the sleeve and the sealing part. At least one of the sleeve and the sealing part are made from a material that is softer than a material of said one or more reinforcement members.

A method of forming a grommet configured to provide support for a cable exiting of a housing is presented herein. The method includes the steps of providing a sleeve and a sealing part and providing one or more reinforcement members in a region of a transition between the sleeve and the sealing part. At least one of the sleeve and the sealing part are made from a material that is softer than a material of said one or more reinforcement members.

A conductor arrangement for an electrical energy or data transmission connection includes at least one conductor portion comprising a flexible internal conductor and a thermoplastic hard plastic sheath surrounding the flexible internal conductor. The thermoplastic hard plastic sheath is transformable into a formable state when heated to a threshold temperature defined at a specific softening point, and the thermoplastic hard plastic sheath hardens into a formed state when cooled.

A distribution member includes plural electric wire pairs each including a pair of electric wires, a first fixing member integrally fixing the electric wire pairs, and a second fixing member that is separated from the first fixing member and integrally fixes electric wires of at least one of the electric wire pairs. The first fixing member and the second fixing member each include a holder holding the electric wires and a resin mold part that includes a molding resin and is molded so as to cover a part of the electric wire pairs held by the holder. The holder includes at least one interposed part that is interposed between the held electric wires. The distribution member further includes a combining part that is integrally formed with the holders of the first and second fixing members and combines the holders of the first and second fixing members.

A distribution member includes plural electric wire pairs each including a pair of electric wires, a first fixing member integrally fixing the electric wire pairs, and a second fixing member that is separated from the first fixing member and integrally fixes electric wires of at least one of the electric wire pairs. The first fixing member and the second fixing member each include a holder holding the electric wires and a resin mold part that includes a molding resin and is molded so as to cover a part of the electric wire pairs held by the holder. The holder includes at least one interposed part that is interposed between the held electric wires. The distribution member further includes a combining part that is integrally formed with the holders of the first and second fixing members and combines the holders of the first and second fixing members.

A distribution member includes plural electric wire pairs each including a pair of electric wires, a first fixing member integrally fixing the electric wire pairs, and a second fixing member that is separated from the first fixing member and integrally fixes electric wires of at least one of the electric wire pairs. The first fixing member and the second fixing member each include a holder holding the electric wires and a resin mold part that includes a molding resin and is molded so as to cover a part of the electric wire pairs held by the holder. The holder includes at least one interposed part that is interposed between the held electric wires. The distribution member further includes a combining part that is integrally formed with the holders of the first and second fixing members and combines the holders of the first and second fixing members.

A distribution member includes plural electric wire pairs each including a pair of electric wires, a first fixing member integrally fixing the electric wire pairs, and a second fixing member that is separated from the first fixing member and integrally fixes electric wires of at least one of the electric wire pairs. The first fixing member and the second fixing member each include a holder holding the electric wires and a resin mold part that includes a molding resin and is molded so as to cover a part of the electric wire pairs held by the holder. The holder includes at least one interposed part that is interposed between the held electric wires. The distribution member further includes a combining part that is integrally formed with the holders of the first and second fixing members and combines the holders of the first and second fixing members.

Disclosed is an anhydride-free insulation system for insulating an electrical conductor or a coil of conductors, comprising: (a) a liquid epoxy resin formulation comprising at least 80% by weight, based on the liquid epoxy resin bath formulation, of bisphenol A diglycidyl ether, (b) a mica tape comprising a mica paper adhered by means of a binder to a support (c) an imidazole compound of the formula (I)

##STR00001##

wherein R.sup.1, R.sup.2 and R.sup.3 are individually selected from hydrogen, branched or unbranched C.sub.1-C.sub.4-alkyl, phenyl and benzyl, provided that at least one of R.sup.1 and R.sup.2 is hydrogen.

Disclosed is an anhydride-free insulation system for insulating an electrical conductor or a coil of conductors, comprising: (a) a liquid epoxy resin formulation comprising at least 80% by weight, based on the liquid epoxy resin bath formulation, of bisphenol A diglycidyl ether, (b) a mica tape comprising a mica paper adhered by means of a binder to a support (c) an imidazole compound of the formula (I)

##STR00001##

wherein R.sup.1, R.sup.2 and R.sup.3 are individually selected from hydrogen, branched or unbranched C.sub.1-C.sub.4-alkyl, phenyl and benzyl, provided that at least one of R.sup.1 and R.sup.2 is hydrogen.

Neural interfaces with the peripheral nervous system have been developed to provide a direct communication pathway between peripheral nerves and prosthetic limbs. Described herein is a microchannel integrated neural network device and system which can control the reinnervated muscles and interpret neurological signals. The acquired bioelectrical signals can be used for the interpretation of mind and create a neural map.