A calibration unit for a measurement device for connecting to a connector embodied in a coaxial manner. The calibration unit provides a housing and an inner conductor, whereas the inner conductor (15) is embodied centered within an aperture of the housing. The calibration unit provides a connecting
A calibration unit for a measurement device for connecting to a connector embodied in a coaxial manner. The calibration unit provides a housing and an inner conductor, whereas the inner conductor (15) is embodied centered within an aperture of the housing. The calibration unit provides a connecting element, that the connecting element is inserted into the aperture of the housing and hosts the inner conductor and that the connecting element is embodied in an elastic manner and supports the inner conductor in an elastic manner relative to the housing.
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1. A connector apparatus comprising: a housing and an inner conductor, wherein the inner conductor is positioned approximately centered within an aperture of the housing; anda connecting element positioned within the aperture of the housing,wherein the connecting element comprises at least one narro
1. A connector apparatus comprising: a housing and an inner conductor, wherein the inner conductor is positioned approximately centered within an aperture of the housing; anda connecting element positioned within the aperture of the housing,wherein the connecting element comprises at least one narrowing or conical tapered segment that is configured in a manner whereby it supports the entire inner conductor in a flexible manner relative to the housing,wherein the connecting element hosts the entire inner conductor elastically in a relatively centered position providing for a same distance relative to an outer conductor, such that a minimal, if any, variance in a wave impedance occurs, andwherein the connector apparatus is configured for a connection with a connector structured in a relatively coaxial form. 2. The connector apparatus according to claim 1, wherein a first segment of the connecting element is embodied as one or more of a flange or a cowl, and is one or more of glued, pressed or soldered to the housing in an electrically conductive manner, and wherein the housing is electrically conductive or is coated with at least one electrically conductive layer, and wherein the connecting element comprises an electrically conductive material. 3. The connector apparatus according to claim 1, wherein a second segment of the connecting element comprises an internal diameter, which corresponds to an internal diameter of an outer conductor of the connector with which the connector apparatus is configured to be connected. 4. The connector apparatus according to claim 1, wherein a third segment of the connecting element is embodied in a narrowing, conical manner, whereby the connecting element tapers in its diameter. 5. The connector apparatus according to claim 1, wherein a fourth segment of the connecting element serves as a hosting element for the inner conductor. 6. The connector apparatus according to claim 1, wherein the connector apparatus is further configured for use in loading states comprising one or more of “open”, or “short” or “match”. 7. The connector apparatus according to claim 6, wherein the inner conductor comprises at least two segments in the loading states “open” and “match”, wherein a second of the segments of the inner conductor comprises a dielectric, which, in the case of the loading state “match” is partially coated with one of a thin-film resistor or a thick-film resistor, and an electrically conductive material. 8. The connector apparatus according to claim 7, wherein a first of the segments of the inner conductor comprises a borehole, into which the second segment of the inner conductor is inserted, and wherein both the first and second segments are configured to be electrically connected to one another. 9. The connector apparatus according to claim 8, wherein an end of the second segment of the inner conductor not connected to the first segment is one or more of glued, soldered or clamped to the connecting element. 10. The connector apparatus according to claim 1, wherein the connecting element comprises an electrically conductive material and connects the inner conductor to the housing in an electrically conductive manner. 11. The connector apparatus according to claim 1, wherein the inner conductor is embodied, at an end not connected to the connecting element, as one of a contact plug or a contact socket. 12. The connector apparatus according to claim 11, wherein the end of the inner conductor not connected to the connecting element is embodied as a contact socket and is slotted, and its diameter is embodied in a conical manner. 13. A method for manufacturing a connector apparatus, the method comprising: electroplating a forming template which represents a negative shape of a connecting element; andperforming one or more of etching away the forming template or peeling the connecting element off the forming template,wherein the connecting element comprises at least one narrowing or conical tapered segment that is configured in a manner whereby it hosts and supports an entire inner conductor of the connector apparatus in a flexible manner relative to a housing, andwherein the inner conductor is positioned relatively centered within an aperture of the housing providing for a same distance relative to an outer conductor, such that a minimal, if any, variance in a wave impedance occurs, andwherein the connector apparatus is configured for a connection with a connector structured in a relatively coaxial form. 14. The method according to claim 13, further comprising: manufacturing at least a first segment of the inner conductor via a lathing process; andperforming one or more of electroplating or sputtering the lathed first segment of the inner conductor. 15. The method according to claim 14, wherein the method further comprises: performing one of pressing, sintering or lathing a second segment of the inner conductor with dielectric properties;applying in sections one of a thin-film resistor or a thick-film resistor, and an electrically conductive layer to the second segment of the inner conductor;trimming the thin-film resistor or the thick-film resistor applied to the second segment of the inner conductor by means of a laser;performing one or more of soldering or gluing the second segment of the inner conductor to the first segment of the inner conductor. 16. The method according to claim 15, further comprising: inserting one of the inner conductor or the first and second segments of the inner conductor into the connecting element;inserting the connecting element into the aperture of the housing;performing one or more of soldering or gluing the connecting element to the housing. 17. The method according to claim 13, wherein the connecting element connects the inner conductor to the housing in an electrically conductive manner.
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이 특허에 인용된 특허 (46)
Bradley Donald A. (Morgan Hill CA) Grace Martin I. (San Jose CA) Thornton Douglas R. (Felton CA) Finch David P. (Morgan Hill CA), Apparatus and method for measuring the phase and magnitude of microwave signals.
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