Shoujun
Shoujun Chen, Bedord, MA US
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20100280075 | PACLITAXEL ENHANCER COMPOUNDS - Disclosed is a compound represented by the Structural Formula (I): | 11-04-2010 |
Shoujun Chen, Billerica, MA US
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20090005594 | Synthesis of taxol enhancers - Disclosed is a method of preparing a thiohydrazide product compound from a hydrazide starting compound. The hydrazide starting compound is represented by Structural Formula (I): | 01-01-2009 |
Shoujun Li, Espoo FI
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20120208071 | Method of Producing Thin Batteries - The invention relates to production of thin batteries. In order to achieve a fast and simple production process, the method comprises: bringing into use an anode web comprising anode half cells consisting of multiple material layers applied on top of each other, and which layers are mutually aligned and sized for use in a thin battery, bringing into use a cathode web comprising cathode half cells consisting of multiple material layers applied on top of each other, and which layers are mutually aligned and sized for use in a thin battery, aligning said anode web and said cathode web into a mutual predetermined position, and bringing said anode web and said cathode web into contact with each other in order to attach said anode half cells to corresponding cathode half cells for producing thin batteries. | 08-16-2012 |
Shoujun Sun, Qingdao CN
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20150279203 | METHOD AND DEVICE FOR TRANSMITTING CONTROL SIGNAL OF MULTI-DEVICE SYSTEM - Embodiments of the disclosure provide a method an device for transmitting a control signal in a multi-device system, where a first device determines a second device to be controlled by a remote controller of the first device to be connected with the first device; determines from a received signal a first value of the button for controlling the first device; determines a second value of the button, corresponding to the first value of the button, for controlling the second device; and transmits the second value of the button to the second device, so that the second device operates according to the received second value of the button, and with this technical solution, a multi-device system can be controlled by the remote controller of the single device without infrared learning by the first device to thereby simplify operations of the first device to control the other device. | 10-01-2015 |
Shoujun Yang, Linz AT
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20100225374 | LOW NOISE MIXER - One embodiment relates to a mixer for providing a mixed output signal. The mixer includes a radio-frequency (RF) stage, first and second power dividers, and first and second frequency-conversion stages. The RF stage includes a first differential pair. The first power divider is coupled to a first transistor of the first differential pair, and the second power divider is coupled to a second transistor of the first differential pair. The first frequency-conversion stage, which is adapted to provide a first converted-frequency signal, includes a second differential pair coupled to the second power divider and a third differential pair coupled to the first power divider. The second frequency-conversion stage, which is adapted to provide a second converted-frequency signal, includes a fourth differential pair coupled to the second power divider and a fifth differential pair coupled to the first power divider. Other techniques are also provided. | 09-09-2010 |
20110234292 | LOW NOISE MIXER - One embodiment relates to a mixer for providing a mixed output signal. The mixer includes a radio-frequency (RF) stage, first and second power dividers, and first and second frequency-conversion stages. The RF stage includes a first differential pair. The first power divider is coupled to a first transistor of the first differential pair, and the second power divider is coupled to a second transistor of the first differential pair. The first frequency-conversion stage, which is adapted to provide a first converted-frequency signal, includes a second differential pair coupled to the second power divider and a third differential pair coupled to the first power divider. The second frequency-conversion stage, which is adapted to provide a second converted-frequency signal, includes a fourth differential pair coupled to the second power divider and a fifth differential pair coupled to the first power divider. Other techniques are also provided. | 09-29-2011 |
20130070868 | Low-Loss, Broad Band, LC I/Q Phase Shifter - Some embodiments relate to a phase shifter that includes an I/Q phase shifter and at least one LC balun. Compared to conventional phase shifters, phase shifter has primarily only LC components, thereby limiting losses relative to conventional solutions. In one embodiment, for example, a phase shifter shows a large bandwidth at 77 GHz center frequency (e.g., 1 dB amplitude error bandwidth is approximately 40 GHz; 1° phase error bandwidth is about 16.5 GHz). The inductors included in phase shifter, in contrast to the quarter wave transmission lines used in conventional phase shifters, reduces chip area compared with conventional solutions. In some embodiments, an emitter follower helps to provide a relatively constant output that is largely independent of temperature, input power, VCC, manufacturing variation, and so on. | 03-21-2013 |
Shoujun Zhang, Foshan City CN
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20150214803 | MOTOR STATOR, METHOD FOR PREPARING THE MOTOR STATOR AND MOTOR COMPRISING THE MOTOR STATOR - A motor stator includes a stator core, first and second insulating members and a stator winding. The stator core defines upper and lower ends and has a central through hole and a plurality of stator slots distributed along a circumferential direction of the stator core, and each stator slot includes first and second slot segments. The first insulating member is disposed in the stator slot. The second insulating member is disposed at at least one of the upper and lower ends of the stator core, and defines a central hole and a plurality of grooves corresponding to the plurality of stator slots respectively. A flange is formed on the second insulating member along a peripheral of the groove and fitted within the second slot segment. The stator winding is wound on the stator core and passing through the plurality of stator slots and grooves. | 07-30-2015 |