Institution
Phoenix Contact
Company•Middletown, Pennsylvania, United States•
About: Phoenix Contact is a company organization based out in Middletown, Pennsylvania, United States. It is known for research contribution in the topics: Terminal (electronics) & Clamping. The organization has 1257 authors who have published 2097 publications receiving 7673 citations. The organization is also known as: Phoenix Contact (Germany).
Papers published on a yearly basis
Papers
More filters
•
09 Aug 2007TL;DR: The spring has a base leg (2) holding a current bar and a metal band (1) with a conductor passage opening arranged in a clamping side of the base leg as mentioned in this paper.
Abstract: The spring has a base leg (2) holding a current bar and a metal band (1) with a conductor passage opening arranged in a clamping side of the base leg. A contact tongue (3) is formed as a single piece with the base leg. The base leg has a recess (12) into which a metal strip (13) with a contact link is inserted, where the link is turned away from the base leg. The strip has higher conductivity than the current bar.
2 citations
•
28 Apr 2014TL;DR: In this article, an electrical interface module (IM) consisting of a storage device (MEM) for storing data and an integrated NFC interface (10), which interface makes data available to an external reading device (RW), is described.
Abstract: The invention relates to an electrical interface module (IM). The electrical interface module (IM) comprises a storage device (MEM) for storing data and an integrated NFC interface (10), which interface makes data available to an external reading device (RW), the electrical interface module (IM) comprising a support (2) on which the storage device (MEM) and the integrated NFC interface (10) are arranged.
2 citations
•
13 Apr 2010TL;DR: In this article, an electric terminal for leading a conductor through a wall is described, comprising a first terminal piece (2) mounted on a first side (3) of the wall, and a second terminal piece(4) to be mounted on the second side (5) of wall (1).
Abstract: The invention relates to an electric terminal for leading a conductor through a wall (1), comprising a first terminal piece (2) to be mounted on a first side (3) of the wall (1), and a second terminal piece (4) to be mounted on the second side (5) of the wall (1). The second terminal piece (4) or the first terminal piece (2) can be fastened to the wall (1) using a fastening means (6) that can be inserted through the wall (1) into the first terminal piece (2) or the second terminal piece (4) from the first side (3) or the second side (5) of the wall (1), and/or the fastening means (6) can be interlocked with the second terminal piece (4) or the first terminal piece (2) in such a way that the second terminal piece (4) or the first terminal piece (2) can be fastened to the wall (1) from the second side (5) or the first side (3) of the wall (1). According to the invention, such an electric terminal for leading a conductor through a wall (1) can be fastened to the wall (1) in a particularly simple fashion.
2 citations
•
13 Oct 2004TL;DR: In this article, an electrical socket is mounted on a circuit board that is fixed to a housing panel, where metal brackets are fixed using threaded holes in flanges against the housing.
Abstract: An electrical socket [4] is mounted on a circuit board [1] that is fixed to a housing panel [2]. Electromagnetic screening elements [8] in the form of metal brackets are fixed using threaded holes [10] in flanges against the housing. The brackets have projecting studs that are soldered onto the board. A plug [5] engages the socket from the other side.
2 citations
•
29 Nov 2007TL;DR: In this paper, a network management channel between an Ethernet compatible field bus device (50) and a management unit (30) that is connected to the communication network (20) is first established using an Ethernet-based network management protocol which is installed in both the field bus devices and the management unit.
Abstract: In the method according to the invention, a network management channel between an Ethernet-compatible field bus device (50) and a management unit (30) that is connected to the communication network (20) is first established using an Ethernet-based network management protocol which is installed in both the field bus device (50) and the management unit (30). The communication protocol stack that is installed in the management unit (30) is then transmitted from the management unit (30) to the Ethernet-compatible field bus device (50) with the help of the predetermined network management protocol and is stored in said field bus device (50).
2 citations
Authors
Showing all 1261 results
Name | H-index | Papers | Citations |
---|---|---|---|
Jurgen Jasperneite | 25 | 139 | 2208 |
Dathan Hamann | 15 | 42 | 639 |
Heinz Reibke | 11 | 58 | 277 |
Eberhard Dipl Ing Lehmann | 11 | 19 | 251 |
Klaus Prof Dr Ing Scheibe | 10 | 19 | 209 |
Thomas Salomon | 8 | 18 | 186 |
Martin Wetter | 8 | 42 | 146 |
Klaus Eisert | 8 | 15 | 155 |
Andreas Schrader | 8 | 28 | 185 |
Gunnar Lessmann | 7 | 34 | 131 |
Feye-Hohmann Juergen | 7 | 26 | 151 |
Rainer Durth | 7 | 25 | 154 |
Dietmar Krumsiek | 7 | 39 | 165 |
Thomas Führer | 7 | 40 | 154 |
Stefan Giefers | 7 | 19 | 184 |