The present disclosure provides an electrical connector connected with a chip connector. The electrical connector comprises a first terminal component, an adapting board, and a cable. The first terminal component comprises a plurality of terminals. The adapting board is disposed at one side of the first terminal component. At least one of the plurality of terminals of the first terminal component is connected with the adapting board. One end of the cable is connected with the adapting board. The other end of the cable is connected with the chip connector. Since the plurality of terminals and the cable of the first terminal component are connected with the adapting board, selectable cables in multiple dimensions would be increased, the soldering process can be simplified, the soldering cost can be reduced, and the stability of the connection between the terminal and the cable would also be enhanced.

The present disclosure provides an electrical connector connected with a chip connector. The electrical connector comprises a first terminal component, an adapting board, and a cable. The first terminal component comprises a plurality of terminals. The adapting board is disposed at one side of the first terminal component. At least one of the plurality of terminals of the first terminal component is connected with the adapting board. One end of the cable is connected with the adapting board. The other end of the cable is connected with the chip connector. Since the plurality of terminals and the cable of the first terminal component are connected with the adapting board, selectable cables in multiple dimensions would be increased, the soldering process can be simplified, the soldering cost can be reduced, and the stability of the connection between the terminal and the cable would also be enhanced.

An electrical connector includes an insulating housing, a number of terminals and a lossy member. The terminals include a number of ground terminals and a number of signal terminals. The ground terminals and the signal terminals are set adjacently to each other but do not contact each other. The ground terminals do not directly contact the lossy member. As a result, installation consistency of the ground terminals can be achieved, thereby improving the electrical performance of the electrical connector.

An electrical connector includes an insulating housing, a number of terminals and a lossy member. The terminals include a number of ground terminals and a number of signal terminals. The ground terminals and the signal terminals are set adjacently to each other but do not contact each other. The ground terminals do not directly contact the lossy member. As a result, installation consistency of the ground terminals can be achieved, thereby improving the electrical performance of the electrical connector.

An electronics component for a cell-contacting system with cell connectors for a battery contains a printed circuit board of a measuring and/or management arrangement for the battery with a communication interface. The printed circuit board can be electrically connected to precisely two of the cell connectors and, for this purpose, has at least one soldering area for each of the cell connectors. At least one electrical connecting element is provided which is areally of strip-like form and can be soldered onto the soldering areas. Wherein a first connecting element for mechanical fastening and/or thermal transfer being of comparatively mechanically rigid and comparatively short design, and a second connecting element for thermal and/or mechanical length compensation being of comparatively mechanically flexible and long design, are provided. A cell-contacting system with cell connectors contains at least one electronics component.

An electronics component for a cell-contacting system with cell connectors for a battery contains a printed circuit board of a measuring and/or management arrangement for the battery with a communication interface. The printed circuit board can be electrically connected to precisely two of the cell connectors and, for this purpose, has at least one soldering area for each of the cell connectors. At least one electrical connecting element is provided which is areally of strip-like form and can be soldered onto the soldering areas. Wherein a first connecting element for mechanical fastening and/or thermal transfer being of comparatively mechanically rigid and comparatively short design, and a second connecting element for thermal and/or mechanical length compensation being of comparatively mechanically flexible and long design, are provided. A cell-contacting system with cell connectors contains at least one electronics component.

A connector device electrically connected to a circuit board includes: a body portion connected externally; a housing surrounding at least a portion of the body portion; a first terminal extending downward from the body portion and connected to a first capacitor of the circuit board; a second terminal extending downward from the body portion to be spaced apart from the first terminal and connected to a second capacitor of the circuit board; and a ferrite core through which the second terminal passes.

A connector device electrically connected to a circuit board includes: a body portion connected externally; a housing surrounding at least a portion of the body portion; a first terminal extending downward from the body portion and connected to a first capacitor of the circuit board; a second terminal extending downward from the body portion to be spaced apart from the first terminal and connected to a second capacitor of the circuit board; and a ferrite core through which the second terminal passes.

An electrical connector includes a metal shell and a cover. The metal shell includes first, second, third, and fourth side walls sequentially connected and defining an accommodating space, a first opening, and a second opening that are sequentially connected. The first side wall is provided with two buckle grooves. The cover includes a flat plate portion covering the first opening and two fixing portions disposed in the accommodating space. Each fixing portion includes a first plate, a curved portion, and a second plate that extend from the flat plate portion and are sequentially connected. Outer surfaces of the curved portions respectively contact the second and fourth side walls. The two first plates are parallel to and in contact with the first side wall. Each first plate is provided with a buckle member buckled in one corresponding buckle groove. A free end of each second plate contacts the third side wall.

An electrical connector includes a metal shell and a cover. The metal shell includes first, second, third, and fourth side walls sequentially connected and defining an accommodating space, a first opening, and a second opening that are sequentially connected. The first side wall is provided with two buckle grooves. The cover includes a flat plate portion covering the first opening and two fixing portions disposed in the accommodating space. Each fixing portion includes a first plate, a curved portion, and a second plate that extend from the flat plate portion and are sequentially connected. Outer surfaces of the curved portions respectively contact the second and fourth side walls. The two first plates are parallel to and in contact with the first side wall. Each first plate is provided with a buckle member buckled in one corresponding buckle groove. A free end of each second plate contacts the third side wall.