Abstract: A USB Type-C male connector includes a first terminal assembly including a plurality of first pins and a second terminal assembly including a plurality of second pins. The first pins of the first terminal assembly having an SMD structure are electrically connected to a substrate in the SMT process. The second pins of the second terminal assembly having a DIP structure are electrically connected to the substrate in the SMT process. More pins of the second terminal assembly are used for transmitting data signals, control signals and power signals, thereby improving the signal quality of the USB drive.

Abstract: A semiconductor memory package structure includes at least one semiconductor die and a lead group. The at least one semiconductor die includes a chip enable terminal. The lead group is configured to electrically connect the chip enable terminal to an external circuit board and includes a first pin and a second pin coupled to the chip enable terminal. The at least one semiconductor die and the lead group are formed as an integral entity using an insulating material.

Abstract: An image apparatus management system includes a plurality of image apparatuses, a transmission device, and a processor. Each image apparatus of the plurality of image apparatuses is utilized to record surrounding images and generates at least one image file. The transmission device has a plurality of ports for electrically connecting to the plurality of image apparatuses. The processor is used for selecting at least one image apparatus according to a comparison condition from at least one image apparatus currently connected with the transmission device as at least one standby image apparatus to be utilized.

Abstract: An external storage device includes a memory, a controller, a first interface, a second interface, a first switching module, and a second switching module. The controller is coupled to the memory. The first interface is used to connect to a first electronic device. The second interface used to connect to a second electronic device. The first switching module is coupled to the controller, the first interface, and the second interface. The second switching module is coupled to the controller, the first interface, the second interface, and the first switching module. When the first interface is electrically connected to a first electronic device and the second interface is electrically connected to the second electronic device, the first electronic device charges the controller and the second electronic device through the first switching module, and the first electronic device accesses the memory through the second switching module and the controller.

Abstract: An image-capturing device having infrared filtering switchover functions includes an infrared light emitting diode, an image sensor, an ambient light sensor, an infrared filter member and a switch module. The infrared light emitting diode emits infrared lights outwardly. The image sensor receives a reflection light reflected from an object. The ambient light sensor receives an ambient light. The infrared filter member filters infrared rays from the reflection light at a first location or the ambient light at a second location. The switch module is coupled to the infrared filter member, and can alternatively move the infrared filter member to the first location and the second location. The infrared lights are part of the reflection light and the ambient light.

Abstract: An adaptor connects a dual orientation plug connector and a first circuit board. The dual orientation plug connector includes a second circuit board having first to fifth upper contacts sequentially arranged on a surface and having first to fourth lower contacts sequentially arranged on another surface. The first circuit board has first to sixth endpoints. The adaptor includes first to sixth pins. The first to sixth pins respectively include first to sixth contacting portions respectively configured to connect the first upper contact, the first to fourth lower contact, and the fifth upper contact. The first to sixth pins respectively include first to sixth extending portions respectively connecting the first to sixth endpoints. Widths of the third and fourth pins are smaller than widths of the first, second, fifth, and sixth pins.

Abstract: When performing a read operation on a non-volatile memory device which includes a plurality of memory sections each corresponding to a plurality of data units, the read count of a specific memory section and the error bits of its corresponding data units are monitored for determining whether data relocation should be perform. When the read count of the specific section exceeds a read count threshold and the error bits of any corresponding data unit exceeds an error threshold, data is moved from the specific memory section to another memory section of the non-volatile memory device, thereby preventing read disturbance from occurring in the specific memory sections.

Abstract: A device identification method, a communicative connection method between multiple devices, and an interface controlling method are disclosed herein. The devices include a first device and at least one second device. The first device includes a touch-sensing interface and a first wireless communication module. Each second device comprising a second wireless communication module and physical contacts arranged with a distinct pattern. The communicative connection method includes steps of: sensing a multi-touch input by the touch-sensing interface when one of the second devices is currently placed upon the touch-sensing interface of the first device; identifying the second device currently placed upon the first device by matching the multi-touch input with the distinct pattern; and, forming a wireless communicative connection between the first wireless communication module of the first device and the second wireless communication module of the matched second device.

Abstract: When performing a read operation on a non-volatile memory device which includes a plurality of memory sections each corresponding to a plurality of data units, the read count of a specific memory section and the error bits of its corresponding data units are monitored for determining whether data relocation should be perform. When the read count of the specific section exceeds a read count threshold and the error bits of any corresponding data unit exceeds an error threshold, data is moved from the specific memory section to another memory section of the non-volatile memory device, thereby preventing read disturbance from occurring in the specific memory sections.

Abstract: An image-capturing device having infrared filtering switchover functions includes an infrared light emitting diode, an image sensor, an ambient light sensor, an infrared filter member and a switch module. The infrared light emitting diode emits infrared lights outwardly. The image sensor receives a reflection light reflected from an object. The ambient light sensor receives an ambient light. The infrared filter member filters infrared rays from the reflection light at a first location or the ambient light at a second location. The switch module is coupled to the infrared filter member, and can alternatively move the infrared filter member to the first location and the second location. The infrared lights are part of the reflection light and the ambient light.