Abstract:
A mobile terminal (100) includes a casing (10) and a camera module (30). The camera module (30) is received in the casing (10). The camera module (30) includes a camera (33), a flash lamp (34), an electrical connector (31), and a flexible printed circuit (FPC, (32) ). The FPC (32) has a first end (3201) and a second end (3203) opposite to the first end (3201). The camera (33) is coupled to the first end (3201) of the FPC (32), and the electrical connector (31) is coupled to the second end (3203) of the FPC (32). The flash lamp (34) is disposed on the FPC (32). A camera module (33) of the mobile terminal (100) is also provided.
Abstract:
A portion of a complete image is displayed on a mobile device, which includes a display, a processor and may include connectors at defined locations for interconnecting with other devices. The method includes determining a geometry of a composite device including a display, for display of the complete image, based on a spatial location of other device displays relative to the mobile device display, for example, based on the location of the connectors. Bounding coordinates of the mobile device display are determined within the composite display, based on the composite display geometry. The portion of the complete image is determined from the composite display geometry, the bounding coordinates, and the complete image dimensions. The complete image is generated contemporaneously with each of the other devices generating the complete image, and the portion of the complete image is displayed on the mobile device display.
Abstract:
A head-mounted device including a main frame couplable to an electronic device and a support part configured to affix the main frame to a facial side of the user, and an auxiliary input device including a body, an input module disposed on at least one surface of the body and configured to process an input signal for controlling a function of the electronic device, a sensor module disposed in the body and configured to obtain sensing information in accordance with a movement of the auxiliary input device, and a connection part electrically connectable to the electronic device and configured to serve as a path through which the input signal and the sensing information are transmitted to the electronic device is provided.
Abstract:
A multifunction peripheral system (100) generally comprises a belt connector (102), a multifunction core (104), and replaceable cover (106) to be attached to a mobile phone. The cover (106) has multiple ports for different components of the mobile device such as camera port (108), headphone port (110), volume changer port (114), power port (116), microphone port (118), and speaker port (120). Replaceable cover (106) further comprises core recess (124) and belt connector recess (126) which are sized to accommodate core (104 ) and belt connector 102, respectively, when placed therein. The multifunction core (104) preferably has a lighting element, a battery (802), wireless charger (804) and a memory card reader (604) which allows a memory card to be inserted into multifunction core (104) to provide additional memory or have a chip base memory embedded into the core PCBA board. The connection between the multifunction core and the mobile phone is carried out by a belt connector (102).
Abstract:
A method and apparatus are for performing antenna matching and include determining a cable connection state of a cable connector, generating a cable detection signal that indicates the cable connection state, and modifying impedance transform of a tunable matching circuit in response to the cable detection signal. The cable detection signal indicates one of a presence and an absence of a cable connector. The tunable matching circuit couples a transceiver and an antenna. The tunable matching circuit couples the selected impedance transform between the transceiver and the antenna. The apparatus is a radio communication device that includes a transceiver, a processing system, an antenna, a tunable matching circuit, an input/output section, a cable connector, and a sensor.
Abstract:
Disclosed are systems, devices and methods for providing solar lighting and power to a customer by using pay-as-you-go (PAYG) technology. The PAYG technology allows a customer to make incremental payments for a solar energy system that includes a lighting unit. The payments can be made through a smartphone. A cable is used to connect an audio jack of the smartphone and a PV power jack of the lighting unit. Analog AC signals including data about activation, payment, usage and status are transmitted over the cable between the service provider and lighting unit, through a smartphone. The power jack of the lighting unit is also used to connect to a solar panel of a charging unit and a battery of the lighting unit.
Abstract:
Mobile computing devices that include an exterior housing and a port. The housing is configured to form a guide portion of the port. More particularly, the port includes a cavity formed in the housing. The cavity includes interior walls that extend inward from an exterior wall of the housing. The port further includes a connector that is positioned in the cavity. The connector is positioned such that the walls of the cavity form the guide of the connector. The port is further constructed to prevent the ingress of water and/or debris into an interior of the housing.
Abstract:
L'invention a pour objet un équipement (1) pour appareil mobile, cet équipement comprenant des moyens d'émission-réception Li-Fi (9, 10) reliés à un connecteur mâle jack (12) destiné à être engagé dans un connecteur femelle jack de l'appareil mobile, cet équipement comportant une coque protectrice portant le connecteur jack mâle (12) et les moyens d'émission-réception Li-Fi (9, 10). La coque est conformée pour pouvoir conjointement engager la prise jack mâle (12) dans la prise jack femelle et s'encliqueter sur l'appareil mobile de manière à former avec cet appareil mobile un tout.