Abstract: A semiconductor device includes a substrate having a logic region and a magnetoresistive random access memory (MRAM) region, a MTJ on the MRAM region, a metal interconnection on the MTJ, and a blocking layer on the metal interconnection. Preferably, the blocking layer includes a stripe pattern according to a top view and the blocking layer could include metal or a dielectric layer.

Abstract: The present invention discloses an antenna module and an electronic device. The antenna module is used in the electronic device. The electronic device includes a first housing. The antenna module includes a first antenna, a second antenna and a third antenna. The first antenna is disposed in the first housing and operates at a first frequency band. The second antenna is disposed in the first housing and operates at a second frequency band. The third antenna is disposed in the first housing and is located between the first antenna and the second antenna, and operates at a third frequency band. The first frequency band partially overlaps with the second frequency band, and the third frequency band does not overlap with the first frequency band and the second frequency band.

Abstract: The present invention discloses an antenna module and an electronic device. The antenna module is used in the electronic device. The electronic device includes a first housing. The antenna module includes a first antenna, a second antenna and a third antenna. The first antenna is disposed in the first housing and operates at a first frequency band. The second antenna is disposed in the first housing and operates at a second frequency band. The third antenna is disposed in the first housing and is located between the first antenna and the second antenna, and operates at a third frequency band. The first frequency band partially overlaps with the second frequency band, and the third frequency band does not overlap with the first frequency band and the second frequency band.

Abstract: An antenna detection system for detecting an antenna under test is provided. The antenna detection system includes a network analyzer and a test device. The test device includes: a first substrate; a second substrate parallel to the first substrate and carrying the antenna under test removably; and a standard antenna fixedly disposed on the first substrate to receive a test signal from a first port of the network analyzer and send a radiation signal according to the test signal. The antenna under test receives the radiation signal and sends a to-be-measured signal to a second port of the network analyzer. The network analyzer obtains a parameter according to the test signal and the to-be-measured signal and compares the parameter with a theoretical value calculated according to an operating frequency corresponding to the antenna under test and a constant interval to output a detection result of the antenna under test.

Abstract: A multiband antenna is provided. A resonance path is provided by a first connection segment and a low-frequency radiating element with a closed pattern to enable the multiband antenna to support a low frequency band, wherein a first side of the closed pattern is wider than a second side of the closed pattern. The second side of the closed pattern is connected to one end of the first connection segment. The other end of the first connection segment is connected to a feed element.

Abstract: A multiband antenna is provided. A resonance path is provided by a first connection segment and a low-frequency radiating element with a closed pattern to enable the multiband antenna to support a low frequency band, wherein a first side of the closed pattern is wider than a second side of the closed pattern. The second side of the closed pattern is connected to one end of the first connection segment. The other end of the first connection segment is connected to a feed element.

Abstract: A helix antenna device includes a board, a signal output circuit on the board, a column body, a ground wire, a helix antenna, and an annular metal member. The column body includes a passage and a helix trough. A bottom surface of the column body is fastened to the board. The passage is formed along a central axis of the column body. The helix trough is around an annular side surface of the column body. The ground wire passes into the passage. The ground wire is fastened to the board and is connected to the signal output circuit. The helix antenna is around the column body. A part of the helix antenna is disposed in the helix trough. The helix antenna is fastened to the board and is electrically connected to the signal output circuit. The annular metal member is disposed on the board and surrounds the column body.

Abstract: An antenna detection system for detecting an antenna under test is provided. The antenna detection system includes a network analyzer and a test device. The test device includes: a first substrate; a second substrate parallel to the first substrate and carrying the antenna under test removably; and a standard antenna fixedly disposed on the first substrate to receive a test signal from a first port of the network analyzer and send a radiation signal according to the test signal. The antenna under test receives the radiation signal and sends a to-be-measured signal to a second port of the network analyzer. The network analyzer obtains a parameter according to the test signal and the to-be-measured signal and compares the parameter with a theoretical value calculated according to an operating frequency corresponding to the antenna under test and a constant interval to output a detection result of the antenna under test.

Abstract: A helix antenna device includes a board, a signal output circuit, a column body, a ground wire, and a helix antenna. The signal output circuit is disposed on the board. The column body includes a passage and a helix trough. A bottom surface of the column body is fastened to the board. The passage is along a central axis of the column body. The helix trough is formed around an annular side surface of the column body. The ground wire passes into the passage. One end of the ground wire is fastened to the board and is electrically connected to the signal output circuit. The helix antenna is around the column body. A part of the helix antenna is disposed in the helix trough. One end of the helix antenna is fastened to the board and is electrically connected to the signal output circuit.

Abstract: A helix antenna device includes a board, a signal output circuit, a ground wire, and a helix antenna. The board includes first holes and second holes. The first holes are aligned to form a first row, and the second holes are aligned to form a second row. The signal output circuit is disposed on the board. The ground wire disposed on the board is between the first row and the second row and is connected to the signal output circuit. The helix antenna is rotationally passed through the first holes and the second holes so that it can surround a part of the area of the board. One end of the helix antenna is electrically connected to the signal output circuit. Thereby, it is convenient to have the helix antenna assembled to the board, and the structure parameters of the helix antenna are not easily influenced due to deformation.

Abstract: A helix antenna device includes a board, a signal output circuit, a ground wire, and a helix antenna. The board includes first holes and second holes. The first holes are aligned to form a first row, and the second holes are aligned to form a second row. The signal output circuit is disposed on the board. The ground wire disposed on the board is between the first row and the second row and is connected to the signal output circuit. The helix antenna is rotationally passed through the first holes and the second holes so that it can surround a part of the area of the board. One end of the helix antenna is electrically connected to the signal output circuit. Thereby, it is convenient to have the helix antenna assembled to the board, and the structure parameters of the helix antenna are not easily influenced due to deformation.

Abstract: A computer input device has a body that includes a housing that has a top and a lateral side, with an opening provided in the lateral side. A micro switch is positioned inside the housing, with a shaft extending from the housing through the opening. A wheel assembly is located on the lateral side of the body, and extends from the opening of the body in a manner where the wheel assembly can be rotated about an axis defined by the shaft, and can be depressed against the shaft to activate the micro switch.

Abstract: An input device has a main body having a peripheral edge, and a swinging portion pivotally connected to the main body along a rear portion of the peripheral edge, with the swinging portion pivoting between at least two different positions along the rear portion of peripheral edge. The swinging portion can also be extended and retracted with respect to the main body along the longitudinal axis of the main body.

Abstract: The present invention relates to a smart system and method of performing high-resolution frequency order analysis/diagnosis on rotor, in which such system is characterized in that capable of performing order analysis via a Kalman filter or a RLS (Recursive Least Square) algorithm while determining the failure status based on the Fuzzy theory. The smart system of present invention comprises a data acquisition means, a bench data setup means, a STFT time-spectra analysis/re-sampled order tracking means, a Kalman filter or RLS algorithmic means, a fuzzy diagnosis means and a window interface (e.g., GUI) while repeatedly making use the functions of those means so as to achieve the real-time diagnosis on rotor.

Abstract: The present invention relates to a smart system and method of performing high-resolution frequency order analysis/diagnosis on rotor, in which such system is characterized in that capable of performing order analysis via a Kalman filter or a RLS (Recursive Least Square) algorithm while determining the failure status based on the Fuzzy theory. The smart system of present invention comprises a data acquisition means, a bench data setup means, a STFT time-spectra analysis/re-sampled order tracking means, a Kalman filter or RLS algorithmic means, a fuzzy diagnosis means and a window interface (e.g., GUI) while repeatedly making use the functions of those means so as to achieve the real-time diagnosis on rotor.