The embodiments include a stackable computing device that includes an integrated heatsink and antenna structure and a housing structure. The housing structure includes a housing casing that surrounds the integrated heatsink and antenna structure. The integrated heatsink and antenna structure includes a heatsink base and one or more radio frequency (RF) antenna portions. The heatsink base includes a connector port that provides an interface between components of the computing device and other computing or peripheral devices. For example, the heatsink base may include platform that is configured to have circuitry fixedly secured on a first side of the platform with a connector of the circuitry aligned with an aperture of the connector port such that a connection to the circuitry is accepted by circuitry of another computing device.

In some aspects, the present disclosure provides methods, apparatuses, and systems for efficient thermal mitigation while maintaining wireless device performance on a primary component carrier (PCC). Embodiments described may include implementation of target transceiver module configurations, where bandwidth (e.g., PCC bands and secondary component carrier (SCC) bands) may be monitored by a wireless device based on intra-module target configurations and/or inter-module target configurations. An intra-module target configuration may include a target transceiver module monitoring both PCC bands and SCC bands. An inter-module target configuration may include or refer to a plurality of target transceiver modules together monitoring PCC bands and SCC bands. In scenarios where operating temperatures exceed temperature thresholds, target transceiver module configurations may be implemented to transition PCC bands, SCC bands, or both, from a PCC-resident transceiver module to another transceiver module to reduce the operating temperatures of concern. Various additional and alternative aspects are described herein.

A wireless communication method and a wireless communications apparatus are provided. Implementation of the method includes: when a first wireless communications apparatus uses a first wireless communication capability to communicate with a second wireless communications apparatus, if the first wireless communications apparatus determines to adjust a wireless communication capability of the first wireless communications apparatus, sending, by the first wireless communications apparatus, first adjustment information to the second wireless communications apparatus, and starting a first timer, where the first adjustment information is used to indicate to adjust the wireless communication capability of the first wireless communications apparatus to a second wireless communication capability. In embodiments of this application, the second wireless communication capability is any one of a plurality of wireless communication capabilities of the first wireless communications apparatus except a maximum wireless communication capability and a minimum wireless communication capability.

A mobile device case is described. The mobile device case includes a housing configured to retain a mobile device and an active cooling system integrated into the housing. The active cooling system configured to use vibrational motion to cool a surface of the mobile device.

An antenna assembly comprising a base, a modem, a top lid and a housing is disclosed herein. The base is composed of an aluminum material. The modem is disposed on the base. The top lid is for the base, and the top lid comprises at least one antenna element disposed on an exterior surface. The housing covers the top lid and base. The top lid acts as an electro-magnetic barrier for the modem. A communication cable is connected to the modem at one end and extending to and connected to a vehicle internal router with a vehicle modem at the other end.

An antenna assembly comprising a base, a modem, a top lid and a housing is disclosed herein. The base is composed of an aluminum material. The modem is disposed on the base. The top lid is for the base, and the top lid comprises at least one antenna element disposed on an exterior surface. The housing covers the top lid and base. The top lid acts as an electro-magnetic barrier for the modem. A communication cable is connected to the modem at one end and extending to and connected to a vehicle internal router with a vehicle modem at the other end.

Intelligent thermal and power management in a wireless communications device in a wireless communications system (WCS) is disclosed. In a non-limiting example, the wireless communications device can be a base station (e.g., eNB) in the WCS. The wireless communications device includes a number of sensor circuits each configured to perform a sensory measurement (e.g., temperature measurement) in a specific circuit or at a specific location of the wireless communications device. A control circuit is provided in the wireless communications device support intelligent thermal and power management in the wireless communications device. Specifically, the control circuit determines that the sensory measurement is above an abnormal threshold(s) and performs one or more corrective actions accordingly to reduce the sensory measurement to a desirable threshold. By employing intelligent thermal and power management in the wireless communications device, it is possible to improve performance and reduce size of the wireless communications device.

Intelligent thermal and power management in a wireless communications device in a wireless communications system (WCS) is disclosed. In a non-limiting example, the wireless communications device can be a base station (e.g., eNB) in the WCS. The wireless communications device includes a number of sensor circuits each configured to perform a sensory measurement (e.g., temperature measurement) in a specific circuit or at a specific location of the wireless communications device. A control circuit is provided in the wireless communications device support intelligent thermal and power management in the wireless communications device. Specifically, the control circuit determines that the sensory measurement is above an abnormal threshold(s) and performs one or more corrective actions accordingly to reduce the sensory measurement to a desirable threshold. By employing intelligent thermal and power management in the wireless communications device, it is possible to improve performance and reduce size of the wireless communications device.

An electronic equipment includes: a housing; a cold plate fixed to the housing, a cooling liquid flowing at an interior of the cold plate; a cage that is supported at the housing so as to be movable toward and away from the cold plate, an object of cooling being inserted into the cage; and an elastic member that pushes the cage toward a cold plate side, wherein the cold plate has a contact that is provided at a position of contacting the object of cooling in a state in which the object of cooling is inserted in the cage.

An electronic equipment includes: a housing; a cold plate fixed to the housing, a cooling liquid flowing at an interior of the cold plate; a cage that is supported at the housing so as to be movable toward and away from the cold plate, an object of cooling being inserted into the cage; and an elastic member that pushes the cage toward a cold plate side, wherein the cold plate has a contact that is provided at a position of contacting the object of cooling in a state in which the object of cooling is inserted in the cage.