Abstract: Example embodiments relate to hybrid Doherty power amplifier modules. One embodiment includes a printed circuit board having an input RF terminal and an output RF terminal, and on which printed circuit board a primary Doherty amplifier is integrated. The primary Doherty amplifier includes a primary Doherty splitter arranged on the printed circuit board and configured for splitting an input RF signal received at the input RF terminal into a plurality of RF signal components. The primary Doherty amplifier also includes a plurality of amplifying paths, each amplifying path being partially integrated on a semiconductor die of a first kind mounted on the printed circuit board and partially integrated on a semiconductor die of a second kind mounted on the printed circuit board. Further, the primary Doherty amplifier includes a primary Doherty combiner arranged on the printed circuit board.

Abstract: The technical solution of the present disclosure provides an analytical system and an analytical method, which can quickly and automatically capture, recognize and detect samples using a simpler device structure, improve detection efficiency and reduce costs. The analytical system includes: a fluid system, where solution containing sample particles is stored in or flowing through; an optical tweezer arranged towards the fluid system and configured to capture the sample particles in the fluid system; an optical detector configured to detect optical information of the sample particles in the fluid system; and a mass spectrometer arranged at a succeeding stage of the fluid system. The sample particles in the fluid system are at least partially driven by the optical tweezer toward the mass spectrometer.

Abstract: The technical solution of the present disclosure provides an ion generator for dissociating sample ions for the second time by laser, of which the dissociation efficiency is further improved with a lower cost. The ion generator includes: a desorption device configured to desorb sample particles into a pre-determined area; a light source emitting a light beam and focusing the light beam to the pre-determined area, thereby ionizing, fragmenting or atomizing the sample particles in the pre-determined area; and a focusing reflector for reflecting the light beam that is emitted by the light source and travels through the pre-determined area, and focusing the light beam to the pre-determined area, thereby ionizing, fragmenting or atomizing the sample particles in the pre-determined area at least once again, during which each time the light beam is reflected on the surface of the focusing reflector, the light beam is focused to the pre-determined area correspondingly.

Abstract: The technical solution of the present disclosure provides an ion source apparatus and a mass spectrometer. According to the ion source apparatus, the axial ion guide assembly includes the plurality of multipole segments extending axially, the transmission path of axial ions is straight, and the ion transmission efficiency is substantially unaffected when the axial ion source is used alone. Further, since the ion outlet of the lateral ion guide assembly faces a gap between two adjacent segmented multipoles, the lateral ion guide assembly does not affect axial field, thereby integrating the multiple ion sources while ensuring the ion transmission efficiency and ion constraining of the axial ion source.

Abstract: The present application provides an optical fibre grating sensor and a strain monitoring method and system for a surrounding rock of a deep roadway, which are used for monitoring deformation of the surrounding rock of the deep roadway and are provided with a weak optical fibre grating array large-range strain sensor, which can accurately monitor the strain of the surrounding rock of the deep roadway. The optical fibre grating sensor comprises an optical fibre, the optical fibre comprises an optical fibre core and a plurality of optical fibre gratings inscribed on the optical fibre core, the optical fibre grating is a weak optical fibre grating with a peak reflectivity lower than 1%, and the plurality of optical fibre gratings perform unit discretization on the whole piece of the optical fibre so as to realize quasi-distributed sensing.

Abstract: The present application provides an optical fibre grating sensor and a strain monitoring method and system for a surrounding rock of a deep roadway, which are used for monitoring deformation of the surrounding rock of the deep roadway and are provided with a weak optical fibre grating array large-range strain sensor, which can accurately monitor the strain of the surrounding rock of the deep roadway. The optical fibre grating sensor comprises an optical fibre, the optical fibre comprises an optical fibre core and a plurality of optical fibre gratings inscribed on the optical fibre core, the optical fibre grating is a weak optical fibre grating with a peak reflectivity lower than 1%, and the plurality of optical fibre gratings perform unit discretization on the whole piece of the optical fibre so as to realize quasi-distributed sensing.

Abstract: Example embodiments relate to Doherty amplifiers. One Doherty amplifier includes a packaged main amplifier that includes a main input lead for receiving a main RF signal, a main power transistor for amplifying the main RF signal, and a main output lead for outputting the main RF signal amplified by the main power transistor. The Doherty amplifier also includes a packaged peak amplifier that includes a peak input lead assembly for receiving a peak RF a first peak power transistor configured for amplifying a part of the peak RF signal, a second peak power transistor configured for amplifying a remaining part of the peak RF signal, and a peak output lead for combining the part of the peak RF signal amplified by the first peak power transistor and the remaining part of the peak RF signal amplified by the second peak power transistor into an amplified peak RF signal.

Abstract: The present disclosure relates to certain molecules, pharmaceutical compositions containing them, and methods of using them to treat viral infections.

Abstract: Example embodiments relate to power amplifiers and Doherty amplifiers that include the same. One example embodiment includes a power amplifier. The power amplifier includes one or more radiofrequency (RF) output terminals. The power amplifier also includes a Gallium Nitride (GaN) semiconductor die on which a power field-effect transistor (FET) is integrated. The FET includes a plurality of FET cells that are adjacently arranged in a row. The FET cells are connected either directly or indirectly to the one or more RF output terminals via a respective first inductor. For FET cells arranged at opposing ends of the row of FET cells, a total FET cell gate width and an inductance of the first inductor is larger and smaller than the total FET cell gate width and inductance of the first inductor for one or more FET cells arranged in the middle of the row of FET cells, respectively.

Abstract: Example embodiments relate to hybrid Doherty power amplifier modules. One embodiment includes a printed circuit board having an input RF terminal and an output RF terminal, and on which printed circuit board a primary Doherty amplifier is integrated. The primary Doherty amplifier includes a primary Doherty splitter arranged on the printed circuit board and configured for splitting an input RF signal received at the input RF terminal into a plurality of RF signal components. The primary Doherty amplifier also includes a plurality of amplifying paths, each amplifying path being partially integrated on a semiconductor die of a first kind mounted on the printed circuit board and partially integrated on a semiconductor die of a second kind mounted on the printed circuit board. Further, the primary Doherty amplifier includes a primary Doherty combiner arranged on the printed circuit board.

Abstract: The present disclosure relates to certain molecules, pharmaceutical compositions containing them, and methods of using them to treat viral infections.

Abstract: An overheating indicator system for a power supply includes a detecting device, a control device, and an indicating module coupled to the control device. The detecting device is configured to detect a temperature of a power supply to receive a current value. The control device includes a microcontroller coupled to the detecting device. The microcontroller is configured to set a reference value, compare the current value with the reference value, and send a first drive signal to the indicating module after the current value is greater than the reference value, thereby driving the indicating module to indicate the current value is too high.

Abstract: A hard disc assembly includes a box and a hard disc body slidably mounted to the box. The box comprises a driving unit and a pivoting pole. The hard disc body comprises a disc member and a magnetic arm. A magnetic head is located on the magnetic arm and contacts the disc member. The magnetic arm is connected to the pivoting pole of the driving unit. The driving unit is configured to move the magnetic arm on the disc member. The magnetic head is configured to access data in the disc member when the disc member rotates. The magnetic head remains in contact with the disc member when the disc member stops rotating.