A mobile device includes a speaker element and an antenna element. The speaker element includes a conductive portion and a nonconductive portion. The nonconductive portion has a first surface and a second surface which are opposite to each other. The antenna element is adjacent to the nonconductive portion. The antenna element includes a signal source, a first radiation element, and a second radiation element. The signal source is coupled to a feeding point. The first radiation element is coupled to the feeding point. The first radiation element extends from the first surface onto the second surface. The second radiation element is coupled to the feeding point. The second radiation element is disposed on the second surface. The second radiation element is separate from the first radiation element. A coupling gap is formed between the first radiation element and the second radiation element.

A mobile device includes a speaker element and an antenna element. The speaker element includes a conductive portion and a nonconductive portion. The nonconductive portion has a first surface and a second surface which are opposite to each other. The antenna element is adjacent to the nonconductive portion. The antenna element includes a signal source, a first radiation element, and a second radiation element. The signal source is coupled to a feeding point. The first radiation element is coupled to the feeding point. The first radiation element extends from the first surface onto the second surface. The second radiation element is coupled to the feeding point. The second radiation element is disposed on the second surface. The second radiation element is separate from the first radiation element. A coupling gap is formed between the first radiation element and the second radiation element.

Methods of executing patching connection changes in a patching field are provided in which an electronic work order is received on a display located at the patching field, the electronic work order specifying the patching connection change. A technician may perform the patching connection change. Then, an electronic message may be sent from the patching field indicating that the patching change has been completed.

Methods of executing patching connection changes in a patching field are provided in which an electronic work order is received on a display located at the patching field, the electronic work order specifying the patching connection change. A technician may perform the patching connection change. Then, an electronic message may be sent from the patching field indicating that the patching change has been completed.

A cover is provided for a portable electronic device having a device wireless antenna. The cover includes a housing configured to accommodate the portable electronic device, as well as a cover wireless antenna located within the housing. The cover also includes a shield surrounding the cover wireless antenna, and configured to surround the device wireless antenna when the portable electronic device is placed in the cover. In addition, the cover includes wireless access point (WAP) electronics in communication with the cover wireless antenna, as well as a wired Ethernet connector in communication with the WAP electronics.

A method of operating an RF system, the method including controlling coupling and uncoupling of RF ports included in an M by N radio frequency (RF) switch matrix including N first-side RF ports and M second-side RF ports, wherein each of the first-side RF ports may be selectively coupled to at least one of two or more of the second-side RF ports, such that RF signals are carried between selectively coupled ports; identifying one or more of the second-side RF ports as active ports, the active ports including a first active port; causing the RF switch matrix to couple the first active port to a first signal port included in the first-side RF ports; obtaining a first indication of reduced performance for a first piece of RF communication equipment coupled to the first active port; and causing, in response to the first indication, the RF switch matrix to couple the first signal port to a first spare port, wherein the first spare port is included in the second-side RF ports and is not included in the active ports.

A cabinet monitoring system, method, and apparatus, and an electronic device, and a computer storage medium are provided. Cabinet monitoring devices (KG) acquiring all monitoring data of connected monitored devices (S); generating cabinet control data according to a part of the monitoring data; sending the cabinet control data to the monitored devices (S); uploading a part of the monitoring data to an upper layer monitoring device (KS); receiving upper layer control data of the upper layer monitoring device (KS), and forwarding the upper layer control data to the monitored devices (S); and the upper layer monitoring device (KS) receiving the monitoring data uploaded by each cabinet monitoring device (KG), determining the upper layer control data according to the received monitoring data, and sending the upper layer control data to the cabinet monitoring devices (KG).