Abstract: An optical system affixed to an electronic apparatus is provided, including a first optical module, a second optical module, and a third optical module. The first optical module is configured to adjust the moving direction of a first light from a first moving direction to a second moving direction, wherein the first moving direction is not parallel to the second moving direction. The second optical module is configured to receive the first light moving in the second moving direction. The first light reaches the third optical module via the first optical module and the second optical module in sequence. The third optical module includes a first photoelectric converter configured to transform the first light into a first image signal.

Abstract: A MEMS probe and manufacturing method thereof are provided. The method is mainly to form connected first-level, second-level, and third-level pin grooves on both sides of the silicon substrate through an etching process, followed by two electroplating processes to deposit nickel-cobalt-phosphorus alloy in the first-level pin groove to form the tip of the microprobe, and to deposit nickel-cobalt alloy in the second-level pin groove and the third-level pin to form the pin head and pin arm, thereby forming a three-level microprobe. A circuit substrate made of ceramic material is disposed with at least one window, the surface of the circuit substrate adjacent to the window is provided with a plurality of circuit pads, and the circuit substrate is abutted to the pin arm of the microprobe. The silicon substrate is then removed, to form a plurality of cantilever microprobes made of nickel-cobalt-phosphorus alloy and nickel-cobalt alloy on the circuit substrate.

Abstract: A method includes placing a polisher head on platen, the polisher head including a set of first magnets, and controlling a set of second magnets to rotate the polisher head on the platen, wherein controlling the set of second magnets includes reversing the polarity of at least one second magnet of the set of second magnets to produce a magnetic force on at least one first magnet of the set of first magnets, wherein the set of second magnets are external to the polisher head.

Abstract: The present application discloses a semiconductor structure. The semiconductor structure a top die and a bottom die, and the maximum die size is constrained to reticle dimension. Each die includes (1) core: computation circuits, (2) phy: analog circuit connecting to memory, (3) I/O: analog circuit connecting output elements, (4) SERDES: serial high speed analog circuit, (5) intra-stack connection circuit, and (6) cache memory. This semiconductor structure can be chapleted design for high wafer yield with least tape out masks for cost saving. The intra-stack connection circuit connects the top die and the bottom die in the shortest distance (about tens of micrometers), so as to provide high signal quality and power efficiency.

Abstract: The present application discloses a semiconductor structure and methods for manufacturing semiconductor structures. The semiconductor structure includes a plurality of bottom dies and a top die stacked on the bottom dies. The bottom dies receive power supplies through tiny through silicon vias (TSVs) formed in backside substrates of the bottom dies, while the top die receives power supplies through dielectric vias (TDVs) formed in a dielectric layer that covers the bottom dies. By enabling backside power delivery to the bottom die, more space can be provided for trace routing between stacked dies. Therefore, greater computation capability can be achieved within a smaller chip area with less power loss.

Abstract: An optical system affixed to an electronic apparatus is provided, including a first optical module, a second optical module, and a third optical module. The first optical module is configured to adjust the moving direction of a first light from a first moving direction to a second moving direction, wherein the first moving direction is not parallel to the second moving direction. The second optical module is configured to receive the first light moving in the second moving direction. The first light reaches the third optical module via the first optical module and the second optical module in sequence. The third optical module includes a first photoelectric converter configured to transform the first light into a first image signal.

Abstract: A method of wake-up signal transmission for an access point (AP) in a wireless communication system is disclosed. The method comprises transmitting a beacon for notification of a Wi-Fi device in the wireless communication system, and transmitting a wake-up signal to the Wi-Fi device, wherein the wake-up signal is a binary signal for indicating the Wi-Fi device to receive or not to receive a data from the AP.