A cable assembly may include a cable having a plurality of electrically-conductive wires and an optical port termination at a first end of the cable for terminating the plurality of electrically-conductive wires and configured to electrically couple to an optical network port integral to an information handling system and configured to receive an optical transceiver module.

A cable assembly may include a cable having a plurality of electrically-conductive wires and an optical port termination at a first end of the cable for terminating the plurality of electrically-conductive wires and configured to electrically couple to an optical network port integral to an information handling system and configured to receive an optical transceiver module.

A connector and cabling system is provided. The system includes a plurality of pigtails, each pigtail of the plurality of pigtails are configured to couple to one of a plurality of electronic devices, wherein each electronic device of the plurality of electronic devices has a corresponding box or package. The system includes a cable and a plurality of first connectors. Each first connector of the plurality of first connectors is configured to extend through and attach to a wall of a box or opening of the package with a first port of the first connector inside the box. The first port is coupled to the pigtail, and a second port of the first connector outside the box or package. The second port is coupled to the cable. The plurality of electronic devices is provisioned via the cable, the plurality of first connectors and the plurality of pigtails, with each of the plurality of electronic devices, in the corresponding box or package. A method of preparing electronic devices for shipping is also provided.

A telecommunications assembly includes a tray assembly including a tray and a cable spool assembly rotatably mounted to the tray, a connector holder arrangement for temporarily holding connectors, wherein the connector holder arrangement is mounted for rotation with the cable spool assembly, and cable storage arrangements for individually storing cables from the cable spool assembly to the connector holder arrangement. After a main cable is unwound from the cable spool assembly, a connector can be removed from the connector holder assembly, and cable slack stored in the cable storage arrangement can be removed allowing connection of the connector to equipment.

A telecommunications assembly includes a tray assembly including a tray and a cable spool assembly rotatably mounted to the tray, a connector holder arrangement for temporarily holding connectors, wherein the connector holder arrangement is mounted for rotation with the cable spool assembly, and cable storage arrangements for individually storing cables from the cable spool assembly to the connector holder arrangement. After a main cable is unwound from the cable spool assembly, a connector can be removed from the connector holder assembly, and cable slack stored in the cable storage arrangement can be removed allowing connection of the connector to equipment.

A telecommunications assembly includes a tray assembly including a tray and a cable spool assembly rotatably mounted to the tray, a connector holder arrangement for temporarily holding connectors, wherein the connector holder arrangement is mounted for rotation with the cable spool assembly, and cable storage arrangements for individually storing cables from the cable spool assembly to the connector holder arrangement. After a main cable is unwound from the cable spool assembly, a connector can be removed from the connector holder assembly, and cable slack stored in the cable storage arrangement can be removed allowing connection of the connector to equipment.

A connector and cabling system is provided. The system includes a plurality of pigtails, each pigtail of the plurality of pigtails are configured to couple to one of a plurality of electronic devices, wherein each electronic device of the plurality of electronic devices has a corresponding box or package. The system includes a cable and a plurality of first connectors. Each first connector of the plurality of first connectors is configured to extend through and attach to a wall of a box or opening of the package with a first port of the first connector inside the box. The first port is coupled to the pigtail, and a second port of the first connector outside the box or package. The second port is coupled to the cable. The plurality of electronic devices is provisioned via the cable, the plurality of first connectors and the plurality of pigtails, with each of the plurality of electronic devices, in the corresponding box or package. A method of preparing electronic devices for shipping is also provided.

A pushbutton-equipped patch cord connecting metal terminal is disclosed. The metal terminal has a base on which weld legs are formed. The base has its front part bent backward to form an arc-shaped resilient portion. The arc-shaped resilient portion has its tail end extending backward to form a tilted resilient arm that points the upper rear of the metal terminal. A pushbutton is formed at a lateral of the resilient arm. Also provided is a patch cord connector is composed of the metal terminal and a housing seat. The metal terminal and the connector are structurally simple and easy to use, while ensuring good electrical connection to a patch cord as well as convenient repeated plugging and unplugging of the patch cord.

The present invention discloses a cable distribution device for an intelligent optical distribution network (iODN), comprising a tray and a cable distribution structure for the iODN, where the tray is provided with multiple first interfaces, the cable distribution structure for the iODN includes multiple attachment plates, an upper cover, a circuit board, and a bottom cover, the circuit board is installed on the upper cover, the upper cover is installed on the bottom cover, one end of each attachment plate is installed on the bottom cover, and the other end of each attachment plate is inserted into the first interface of the tray. the cable distribution structure for the iODN may be installed on a tray by using attachment plates, so that an existing ODN can be transformed into an iODN without transforming a structure of the tray and interrupting an optical fiber transmission service.

A connector and cabling system is provided. The system includes a plurality of pigtails, each pigtail of the plurality of pigtails are configured to couple to one of a plurality of electronic devices, wherein each electronic device of the plurality of electronic devices has a corresponding box or package. The system includes a cable and a plurality of first connectors. Each first connector of the plurality of first connectors is configured to extend through and attach to a wall of a box or opening of the package with a first port of the first connector inside the box. The first port is coupled to the pigtail, and a second port of the first connector outside the box or package. The second port is coupled to the cable. The plurality of electronic devices is provisioned via the cable, the plurality of first connectors and the plurality of pigtails, with each of the plurality of electronic devices, in the corresponding box or package. A method of preparing electronic devices for shipping is also provided.