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
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01 Jun 2011TL;DR: In this paper, a metal-frame element is over-molded with the plastic material during injection molding process, and a sealing element is provided at the housing for attaching a contact insert.
Abstract: The arrangement has a housing (10) and fastening screw threads (12) that are provided at the housing for attaching a contact insert. The housing includes a metal-frame element i.e. aluminum-die-cast-frame element, which is partially surrounded by plastic material. Locking elements (18) are provided at two exterior surfaces of the housing and formed at the metal-frame element. The metal-frame element is over-molded with the plastic material during injection molding process. A sealing element is provided at the housing.
5 citations
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TL;DR: In this article, a modular bus system with a support rail and a base module is described, where at least two 1st electrical connectors are arranged in succession relative to an imaginary line that runs perpendicular to the longitudinal direction of the support rail.
Abstract: The invention relates to a modular bus system (100), comprising – a support rail (1), which has a basal area (1a) and a longitudinal axis, – at least one base module (2), mountable on the support rail (1), for electrical connection to at least one input/output functional module (31 – 36) that has a backplane printed circuit board (21) to which at least one group of at least two 1st electrical connectors (70a, 70b) for electrical coupling to an electrical connector (23) of an input/output functional module (31 – 36) is connected, wherein the at least two 1st electrical connectors (70a, 70b) of the at least one group are arranged in succession relative to an imaginary line that runs perpendicular to the longitudinal direction of the support rail (1) and lie in a plane in which the basal area (1a) of the support rail (1) lies or that lies parallel to the basal area, – at least one input/output functional module (31 – 36) that has an electrical connector (23) and an electronic device (120) for communication with the modular bus system, wherein the electrical connector (23) of the input/output functional module (31 – 36) is designed for electrical connection to one of the electrical connectors (70a, 70b) of the at least one base module (2).
5 citations
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10 Apr 2014TL;DR: In this paper, a Stecker (1), insbesondere Ladestecker zum Laden eines Elektrofahrzeugs, mit wenigstens einer Kontaktbuchse (5), die mit einer Schutzabdeckung (10) ausgefuhrt ist, wobei das Blendenelement (16) durch die Feder (18) in eine Schliesposition gehalten wird, in der es eine Einfuhroffnung (14) der
Abstract: Die Erfindung betrifft einen Stecker (1), insbesondere Ladestecker zum Laden eines Elektrofahrzeugs, mit wenigstens einer Kontaktbuchse (5), die mit einer Schutzabdeckung (10) ausgefuhrt ist, wobei in der Kontaktbuchse (5) ein elektrischer Buchsenkontakt (9) angeordnet ist, und die Schutzabdeckung (10) ein verschwenkbar gelagertes Blendenelement (16) und eine diesem zugeordnete Feder (18) umfasst, wobei das Blendenelement (16) durch die Feder (18) in einer Schliesposition gehalten wird, in der es eine Einfuhroffnung (14) der Kontaktbuchse (5) verschliest, und das Blendenelement (14) durch das Einschieben eines Stiftkontaktes (7) gegen die Kraft der Feder (18) in eine Einfuhrposition verschwenkt wird, in der es die Einfuhroffnung (14) freigibt.
5 citations
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31 Aug 2006TL;DR: In this paper, an electrical connection arrangement for electrical connection of an electrical device with a bottom part for holding at least one device-side cable, with a top part for hold one connection side cable, and with a contact body for electrical connections of the device side cable to the connection-side cables, the bottom part and top part being formed essentially of an electrically insulating material.
Abstract: An electrical connection arrangement for electrical connection of an electrical device with a bottom part for holding at least one device-side cable, with a top part for holding at least one connection-side cable and with a contact body for electrical connection of the device-side cable to the connection-side cable, the bottom part and the top part being formed essentially of an electrically insulating material. The connection is improved in that at least one fastening device for fastening at least one device-side cable is formed in the bottom part, that the contact body is located in the top part and has a first contact device and a second contact device, and that, in the joined position of the bottom part to the top part, the contact body makes contact with the device-side cable with the first contact device and makes contact with the connection-side cable with the second contact device.
5 citations
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TL;DR: The tasks of digging ditches and laying cable lines are associated with high costs These costs quickly multiply in view of the expense involved in development and inspection as well as in gaining approval before a project can get underway.
Abstract: The tasks of digging ditches and laying cable lines are associated with high costs These costs quickly multiply in view of the expense involved in development and inspection as well as in gaining approval before a project can get underway Wherever obstacles such as streets, railway tracks or rivers need to be overcome, the industrial radio path offers new solutions at a fraction of the cost
5 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 |