Phoenix Contact

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).

Cable connection component

Abstract: A cable connection component for electrically conductively connecting a cable, having a union nut with an internal thread and a core receiving and guiding part with a plurality of incisions. At least one core and core insulation inserted into the core receiving and guiding part are severed by terminals arranged in the connection body and enter the incisions in the core receiving and guiding part and contact is made with the core conductors when a first thread of the union nut is screwed onto a connection body. A connected cable can be released with less effort by the union nut having a second internal thread with a thread pitch that is less than the thread pitch of the first internal thread. The core receiving and guiding part has a radially running collar which is matched to the profile of the threading of the second internal thread and interacts with it.

Printed circuit board terminal of inverter, has contact elements that are clamped against conductor in terminal portion, and are soldered at top surface or bottom surface of circuit board

Abstract: The printed circuit board terminal has the connection terminal portions (103,104) that are installed at bottom surface (108) of a circuit board (101). A conductor (102) is inserted into the through-holes (113,114) of the terminal portions from the top surface (107) to the bottom surface of the circuit board. A bus bar (115) is contacted with the conductor. The contact elements (121,122) are clamped against the conductor in the terminal portion, and are soldered at the top surface or bottom surface of the circuit board. An independent claim is included for method for manufacturing printed circuit board terminal.

Electrical plug connector coupling

Abstract: An electrical plug connector coupling with first and second plug housings. Each plug housing has a contact and a pair of narrow faces disposed in parallel. At least one of the first and second plug housing includes an insulation material. The electrical plug connector coupling also has a connection device disposed on at least one of the first and at least one of the second narrow faces and operable to connect the first plug housing with the second plug housing in a connected position such that the contacts are connected. A releasing element is disposed on one of the narrow faces. The releasing element has a release position so as to release the first and second plug housings from the connected position when it is moved into the release position. The releasing element is fixable in the release position when the first and second plug housings are in the connected position.

Diagnostic method and diagnostic chip for determining the bandwidth of optical fibers

Abstract: The present invention provides a method for determining the bandwidths of optical fibers, wherein the method provides the coupling of light with a first optical power and a first modulation frequency into an optical fiber, as well as measuring a first signal level as a function of the optical power of the light of the first modulation frequency, coupling light with the second optical power and a second modulation frequency into the optical fiber, measuring a second signal level as a function of the optical power of the light of the second modulation frequency, and determining the bandwidths of the optical fibers as a function of the first and second coupled optical [power and/or] the measured first and second signal levels while using a predetermined specification that describes the frequency-dependent attenuation response of the optical fiber, wherein the first and the second modulation frequencies have essentially the same value.

Cable feedthrough and method for assembling a cable feedthrough

Abstract: A cable feedthrough includes a frame element and a sealing element. The frame element includes at least two frame parts and forms an inner chamber delimited by the frame parts. The sealing element is disposed in the inner chamber, lying adjacent to at least one of another sealing element or at least one of the frame parts. The sealing element is fixed in the frame element by a press fit. The sealing element includes a base body with a passage configured to receive a cable therethrough, and a conical cable bushing formed on the base body to extend the passage. The conical bushing including gradated stepped regions having diameters of different sizes.