| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 439620030 | Coaxial connector | 12 |
| 20090004918 | RF SHIELDED, SERIES INDUCTOR, HIGH RF POWER IMPEDANCE MATCHING INTERCONNECTOR FOR CO2 SLAB LASER - A RF shielded, series inductor, high power impedance matching network interconnector is provided for connecting an RF power supply to electrodes contained in the shielded, hermetically sealed laser tube housing of a slab laser system. The impedance matching interconnector comprises a short length of co-axial conductor and an impedance matching network that includes two L shaped networks. The inner conductor of the co-axial conductor is connected between the power supply output and the impedance matching network. The outer conductor of the co-axial conductor is grounded. The co-axial conductor has an impedance characteristic to match the power supply output impedance. The first L-shaped network includes a first inductor having a first end connected to the inner conductor of the co-axial conductor and a first capacitor connected to the second end of the first inductor and a second plate connected to ground. The second L shaped network includes a second inductor having a first end connected to the common connection between the second end of the first inductor and the first plate of the first capacitor and a second capacitor having a first plate connected to the second end of the second inductor and a second plate connected to ground. The common connection between the second end of the second inductor and the first plate of the second capacitor is connected through the shielded, hermetically sealed laser tube housing to the electrodes of the slab laser system. The two L-shaped networks may be implemented in a “single capacitor” configuration for lower power applications or in a “multi-capacitor” configuration for higher power applications. | 01-01-2009 |
| 20090142960 | COAXIAL CONNECTOR CONNECTING STRUCTURE AND HIGH- FREQUENCY DEVICE EQUIPPED WITH THE SAME - A coaxial connector connecting structure according to the invention includes a coaxial connector provided on an outer surface of a housing accommodating a module case of a high-frequency circuit. The module case has a thick side wall with a first through-hole to provide a coaxial space forming portion as a pipe structure so as to be separated from the housing. | 06-04-2009 |
| 20090191759 | Connector including media converter - A triaxial connector assembly including a media converter that is used to terminate a fiber optic/electrical hybrid cable is disclosed. The triaxial connector assembly includes a connector with a housing defining a first end and a second end, the first end of the housing defining a triaxial interface adapted to mate with a triaxial connector, the second end of the housing defining a cable termination end. The connector also includes the media converter positioned within the housing, the media converter configured to convert fiber signals and electrical signals carried by a hybrid fiber optic/electrical cable to a coaxial signal carried forward by the triaxial interface. A camera system using the connector and a method of terminating a hybrid cable to a triaxial connector are also disclosed. | 07-30-2009 |
| 20090197469 | MULTIPLE PIECES TYPE BNC AUTOMATIC TERMINATION CONNECTOR - A multiple pieces type BNC automatic termination connector is constituted by coupling a housing to a set of BNC plugs, an insulating rear cover and a conducting ground. The rear cover is disposed with a post body corresponding to the pins of the BNC plugs. The post body is disposed with a plurality of long holes penetrating the upper and lower ends thereof. The pins pass through the long hole and extend to the lower side of the rear cover. The conducting ground is provided with a ground pin. Whereby, the number of ground pins and the assembly time can be reduced to enable the convenient and time-saving assembly due to no structures provided for retaining the pin and for assembling the pin with the housing. | 08-06-2009 |
| 20090269984 | EMI filtering coaxial power connector - An EMI filtering coaxial power connector that is comprised of an open ended conductive outer shell, a conductive member, an interior dielectric support that holds the conductive member, EMI filtering component, and a closure member (“CM”.); in which the interior dielectric support is held within the conductive outer shell and the conductive member is held within the interior dielectric support, and in which the CM has an inner conductive area with a central and an inner non-conductive area outward of the inner conductive area, which inner non-conductive area has an outer conductive area outward of it, which outer conductive area has an outer non-conductive area outward of it, and in which the outer perimeter of the CM fits within the output end of the conductive outer shell such that the output end of the conductive member is through the central opening in the CM and the outer conductive area of the CM is conductively connected to the conductive outer shell, and the CM's inner conductive area is conductively connected to the conductive member, and the EMI filtering component is conductively connected between the inner and outer conductive areas of the CM. | 10-29-2009 |
| 20100178806 | COAXIAL CABLE CONNECTOR WITH AN EXTERNAL SENSOR AND METHOD OF USE THEREOF - A coaxial cable connector structure is provided, the connector structure comprising: a connector; a physical parameter sensing circuit mechanically attached to the connector; and a status output component mechanically attached to the connector. The physical parameter sensing circuit configured to sense a condition of the connector. The status output component configured to report an ascertained physical parameter status to a location outside of the connector. A corresponding method of ascertaining a physical parameter status of a connector connection is disclosed. | 07-15-2010 |
| 20130065443 | Method Of Making A Connector Head Of A Multipolar Lead Of An Active Implantable Medical Device - Forming a connector head for a generator of an active implantable medical device by providing a pin ( | 03-14-2013 |
| 20130090010 | Surge Protector Components Having a Plurality of Spark Gap Members Between a Central Conductor and an Outer Housing - A coaxial connector includes a surge protection component including a plurality of elongated members, a body portion that is configured to receive the surge protection component such that the elongated members extend along an outer surface thereof, and a center conductor disposed inside the body portion and spaced apart from the surge protection component so as to create a gap therebetween | 04-11-2013 |
| 20130171876 | COAXIAL ELECTRICAL CONNECTOR AND COAXIAL ELECTRICAL CONNECTOR ASSEMBLY - A coaxial electrical connector having a shorter height and improved retention strength against mating and removal with a simple structure is provided. A connector mounting portion P | 07-04-2013 |
| 20140154921 | ACTIVE ELECTRICAL COMMUNICATION CABLE ASSEMBLY - An active electric cable assembly suitable for high speed communication (e.g., 10 Gbit/sec) between electronic devices, such as but not limited to a peripheral device (e.g., storage device, docking station, etc.) and a computing platform expansion bus. (e.g., supporting the standards and specifications associated with the trade name Thunderbolt®). In embodiments, through holes, embossments, mechanical stops, micro-coaxial single wires, thermal pads, and dielectric film sheets are utilized in a robust cable assembly. | 06-05-2014 |
| 20140154922 | F-Connector with Integrated Surge Protection - A connector ( | 06-05-2014 |
| 20140248803 | Coaxial Electrical Connector Assembly - Example coaxial connector assemblies are described. In one example, a coaxial connector assembly ( | 09-04-2014 |
