Patents by Inventor Xikai Sun
Xikai Sun has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20200244105Abstract: A system and method for providing power to independent movers traveling along a track in a motion control system without requiring a fixed connection between the mover and a power source external to the mover. In one embodiment, a sliding transformer transfers power between the track and each mover. In another embodiment, an optical transmitter transfers power between the track and an optical receiver mounted on each mover. In yet another embodiment, a generator includes a drive wheel engaging the track as each mover travels along the track. A power converter on the mover receives the power generated on and/or transmitted to the mover to control an actuator or a sensor mounted on the mover or to activate drive coils mounted on the mover to interact with magnets mounted along the track and, thereby, control motion of each mover.Type: ApplicationFiled: February 19, 2020Publication date: July 30, 2020Inventors: John Floresta, Peter Bruder, Xikai Sun, Peter M. Smit, Oliver C. Haya, Mark R. Cooper, Nanwei Yao
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Publication number: 20200232826Abstract: By configuring an encoder scale as an angled or inclined magnet or pair of oppositely arranged, adjacent magnets, a magnetic field sensor in a travel path of the scale can detect an absolute position of the scale for use in an industrial control system. Due to the angle or incline, when a first side of the scale is proximal to the sensor, the sensor can detect an angle of ?180°. As the scale moves to center with respect to the sensor, the sensor can detect an increasing angle to 0°. Then, as a second side of the scale becomes proximal to the sensor, the sensor can detect an increasing angle to +180°. The angle changes linearly with position. In one aspect, the pair of oppositely arranged magnets can be rotated with respect to the travel path to provide the angle. In another aspect, the pair of oppositely arranged magnets can be magnetized diagonally to provide the angle.Type: ApplicationFiled: April 7, 2020Publication date: July 23, 2020Inventors: Peter M. Smit, Xikai Sun, Jadav Das
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Publication number: 20200200570Abstract: A curvilinear encoder is provided in which an incremental or absolute position for a cart can be detected on a track by applying one or more excitation signals and receiving one or more pick up signals. Analogous to a transformer arrangement, an encoder mover can be placed on the cart moving along the track, and an encoder stator can be placed on the track separated by a gap. The one or more excitation signals can be applied to the one or more excitation coils on the mover or the stator to generate one or more magnetic fields, and the one or more pick up signals can be received by one or more pick up coils on the mover or the stator for sensing changes in the magnetic fields produced by motion of the mover on the track.Type: ApplicationFiled: March 4, 2020Publication date: June 25, 2020Inventors: Xikai Sun, Peter M. Smit, Mark R. Cooper, Oliver C. Haya, Nanwei Yao
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Publication number: 20200195049Abstract: A system and method for providing power to independent movers traveling along a track in a motion control system without requiring a fixed connection between the mover and a power source external to the mover. In one embodiment, a sliding transformer transfers power between the track and each mover. In another embodiment, an optical transmitter transfers power between the track and an optical receiver mounted on each mover. In yet another embodiment, a generator includes a drive wheel engaging the track as each mover travels along the track. A power converter on the mover receives the power generated on and/or transmitted to the mover to control an actuator or a sensor mounted on the mover or to activate drive coils mounted on the mover to interact with magnets mounted along the track and, thereby, control motion of each mover.Type: ApplicationFiled: February 25, 2020Publication date: June 18, 2020Inventors: John Floresta, Peter Bruder, Xikai Sun, Peter M. Smit, Oliver C. Haya, Mark R. Cooper, Nanwel Yao
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Patent number: 10620017Abstract: A curvilinear encoder is provided in which an incremental or absolute position for a cart can be detected on a track by applying one or more excitation signals and receiving one or more pick up signals. Analogous to a transformer arrangement, an encoder mover can be placed on the cart moving along the track, and an encoder stator can be placed on the track separated by a gap. The one or more excitation signals can be applied to the one or more excitation coils on the mover or the stator to generate one or more magnetic fields, and the one or more pick up signals can be received by one or more pick up coils on the mover or the stator for sensing changes in the magnetic fields produced by motion of the mover on the track.Type: GrantFiled: January 31, 2017Date of Patent: April 14, 2020Assignee: Rockwell Automation Technologies, Inc.Inventors: Xikai Sun, Peter M. Smit, Mark R. Cooper, Oliver C. Haya, Nanwei Yao
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Patent number: 10620014Abstract: By configuring an encoder scale as a varying scale with successively increasing or decreasing pitch, sensors in a travel path of the scale can detect a phase difference to determine an absolute position of the scale for use in an industrial control system. Due to the successively increasing or decreasing pitch, each sensor can detect successively increasing or decreasing properties (such as magnetic fields) from the scale in a uniquely identifiable pattern. By taking the difference between readings of adjacent sensors, each sensor detecting properties of the scale, an absolute position of the scale between the sensors can be determined. The principle for feedback for the encoder system is analogous to a Nonius or Vernier principle to determine absolute position.Type: GrantFiled: May 30, 2018Date of Patent: April 14, 2020Assignee: Rockwell Automation Technologies, Inc.Inventors: Peter M. Smit, Xikai Sun, Jadav Das
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Patent number: 10612946Abstract: By configuring an encoder scale as an angled or inclined magnet or pair of oppositely arranged, adjacent magnets, a magnetic field sensor in a travel path of the scale can detect an absolute position of the scale for use in an industrial control system. Due to the angle or incline, when a first side of the scale is proximal to the sensor, the sensor can detect an angle of ?180°. As the scale moves to center with respect to the sensor, the sensor can detect an increasing angle to 0°. Then, as a second side of the scale becomes proximal to the sensor, the sensor can detect an increasing angle to +180°. The angle changes linearly with position. In one aspect, the pair of oppositely arranged magnets can be rotated with respect to the travel path to provide the angle. In another aspect, the pair of oppositely arranged magnets can be magnetized diagonally to provide the angle.Type: GrantFiled: May 30, 2018Date of Patent: April 7, 2020Assignee: Rockwell Automation Technologies, Inc.Inventors: Peter M. Smit, Xikai Sun, Jadav Das
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Patent number: 10608469Abstract: A system and method for providing power to independent movers traveling along a track in a motion control system without requiring a fixed connection between the mover and a power source external to the mover. In one embodiment, a sliding transformer transfers power between the track and each mover. In another embodiment, an optical transmitter transfers power between the track and an optical receiver mounted on each mover. In yet another embodiment, a generator includes a drive wheel engaging the track as each mover travels along the track. A power converter on the mover receives the power generated on and/or transmitted to the mover to control an actuator or a sensor mounted on the mover or to activate drive coils mounted on the mover to interact with magnets mounted along the track and, thereby, control motion of each mover.Type: GrantFiled: September 28, 2017Date of Patent: March 31, 2020Assignee: Rockwell Automation Technologies, Inc.Inventors: John Floresta, Peter Bruder, Xikai Sun, Peter M. Smit, Oliver C. Haya, Mark R. Cooper, Nanwei Yao
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Publication number: 20200044593Abstract: A system and method for wirelessly providing power to independent movers traveling along a track includes a sliding transformer to transfer power between the track and each mover. The sliding transformer includes a primary winding extending along the track and a secondary winding mounted to each mover. Each of the primary and secondary windings may be formed of a single coil or multiple coils. The primary and secondary windings are generally aligned with each other and extend along the track and along the mover in the direction of travel with an air gap present between the windings. A power converter on the mover may regulate the power supplied to the mover to control an actuator or a sensor mounted on the mover or to activate drive coils mounted on the mover to interact with magnets mounted along the track and, thereby, control motion of each mover.Type: ApplicationFiled: October 7, 2019Publication date: February 6, 2020Inventors: Xikai Sun, Peter M. Smit, Oliver C. Haya, Mark R. Cooper, Nanwei Yao
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Publication number: 20190368895Abstract: By configuring an encoder scale as a varying scale with successively increasing or decreasing pitch, sensors in a travel path of the scale can detect a phase difference to determine an absolute position of the scale for use in an industrial control system. Due to the successively increasing or decreasing pitch, each sensor can detect successively increasing or decreasing properties (such as magnetic fields) from the scale in a uniquely identifiable pattern. By taking the difference between readings of adjacent sensors, each sensor detecting properties of the scale, an absolute position of the scale between the sensors can be determined. The principle for feedback for the encoder system is analogous to a Nonius or Vernier principle to determine absolute position.Type: ApplicationFiled: May 30, 2018Publication date: December 5, 2019Inventors: Peter M. Smit, Xikai Sun, Jadav Das
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Publication number: 20190368903Abstract: By configuring an encoder scale as an angled or inclined magnet or pair of oppositely arranged, adjacent magnets, a magnetic field sensor in a travel path of the scale can detect an absolute position of the scale for use in an industrial control system. Due to the angle or incline, when a first side of the scale is proximal to the sensor, the sensor can detect an angle of ?180°. As the scale moves to center with respect to the sensor, the sensor can detect an increasing angle to 0°. Then, as a second side of the scale becomes proximal to the sensor, the sensor can detect an increasing angle to +180°. The angle changes linearly with position. In one aspect, the pair of oppositely arranged magnets can be rotated with respect to the travel path to provide the angle. In another aspect, the pair of oppositely arranged magnets can be magnetized diagonally to provide the angle.Type: ApplicationFiled: May 30, 2018Publication date: December 5, 2019Inventors: Peter M. Smit, Xikai Sun, Jadav Das
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Patent number: 10483895Abstract: A system and method for wirelessly providing power to independent movers traveling along a track includes a sliding transformer to transfer power between the track and each mover. The sliding transformer includes a primary winding extending along the track and a secondary winding mounted to each mover. Each of the primary and secondary windings may be formed of a single coil or multiple coils. The primary and secondary windings are generally aligned with each other and extend along the track and along the mover in the direction of travel with an air gap present between the windings. A power converter on the mover may regulate the power supplied to the mover to control an actuator or a sensor mounted on the mover or to activate drive coils mounted on the mover to interact with magnets mounted along the track and, thereby, control motion of each mover.Type: GrantFiled: August 25, 2017Date of Patent: November 19, 2019Assignee: Rockwell Automation Technologies, Inc.Inventors: Xikai Sun, Peter M. Smit, Oliver C. Haya, Mark R. Cooper, Nanwei Yao
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Patent number: 10480961Abstract: A linear and curvilinear encoder is provided in which absolute mechanical position and high resolution position determination can be obtained using a cart having a mover with “hybrid” teeth, configured in a curvilinear profile or shape, moving along a curvilinear track with a stator having teeth. The absolute mechanical position and high resolution position determination can be detected on the track by applying an excitation signal to a coil surrounding particular teeth of the stator to produce an electromagnetic (EM) field which can be influenced by the profile or shape of the teeth of the mover. A resulting pick-up signal can then be detected in a pick-up coil surrounding particular teeth of the stator with different harmonics in the pick-up signal corresponding to harmonics of the profile or shape of the teeth.Type: GrantFiled: March 5, 2018Date of Patent: November 19, 2019Assignee: Rockwell Automation Technologies, Inc.Inventors: Xikai Sun, Peter M. Smit, Mark R. Cooper, Oliver C. Haya, Aderiano M. da Silva
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Patent number: 10284121Abstract: An IPM motor in which the absolute position of the rotor may be determined is disclosed. The IPM motor includes asymmetries in both the rotor and the stator. The rotor includes an asymmetrical pole configuration for one of the pole pairs in the rotor, and the stator includes a different number of turns for each winding of one phase of the motor. The different number of turns on each winding causes a different magnitude of flux to be generated with each winding. The flux interacts with the asymmetrical pole pair to identify to which winding the asymmetrical pole is proximate. A position sensing routine identifies an angular position with respect to each winding. The position sensing routine, in combination with the flux interaction between the windings and the asymmetrical pole provide an absolute position of the rotor within the IPM motor.Type: GrantFiled: October 27, 2016Date of Patent: May 7, 2019Assignee: Rockwell Automation Technologies, Inc.Inventors: Xikai Sun, Gennadi Sizov, Robert H. Schmidt
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Patent number: 10263497Abstract: A system and method for cooling an enclosed position feedback device mounted to a motor is disclosed. An active cooling device is mounted between the position feedback device and the housing enclosing the position feedback device. A compliant mount is provided to accommodate vibration in the position feedback device. The compliant mount may be a compliant thermal pad positioned between the feedback device and the active cooling device. Optionally, the compliant mount may be provided between the motor and the position feedback device.Type: GrantFiled: January 29, 2016Date of Patent: April 16, 2019Assignee: Rockwell Automation Technologies, Inc.Inventors: Edwin Xikai Sun, Wei Zhu, Shun Feng, Mark R. Cooper, Paul J. Grosskreuz, Robert H. Schmidt
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Publication number: 20190097466Abstract: A system and method for providing power to independent movers traveling along a track in a motion control system without requiring a fixed connection between the mover and a power source external to the mover. In one embodiment, a sliding transformer transfers power between the track and each mover. In another embodiment, an optical transmitter transfers power between the track and an optical receiver mounted on each mover. In yet another embodiment, a generator includes a drive wheel engaging the track as each mover travels along the track. A power converter on the mover receives the power generated on and/or transmitted to the mover to control an actuator or a sensor mounted on the mover or to activate drive coils mounted on the mover to interact with magnets mounted along the track and, thereby, control motion of each mover.Type: ApplicationFiled: September 28, 2017Publication date: March 28, 2019Inventors: John Floresta, Peter Bruder, Xikai Sun, Peter M. Smit, Oliver C. Haya, Mark R. Cooper, Nanwei Yao
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Publication number: 20190068101Abstract: A system and method for wirelessly providing power to independent movers traveling along a track includes a sliding transformer to transfer power between the track and each mover. The sliding transformer includes a primary winding extending along the track and a secondary winding mounted to each mover. Each of the primary and secondary windings may be formed of a single coil or multiple coils. The primary and secondary windings are generally aligned with each other and extend along the track and along the mover in the direction of travel with an air gap present between the windings. A power converter on the mover may regulate the power supplied to the mover to control an actuator or a sensor mounted on the mover or to activate drive coils mounted on the mover to interact with magnets mounted along the track and, thereby, control motion of each mover.Type: ApplicationFiled: August 25, 2017Publication date: February 28, 2019Inventors: Xikai Sun, Peter M. Smit, Oliver C. Haya, Mark R. Cooper, Nanwei Yao
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Patent number: 10218234Abstract: An electric motor in which at least one of the rotor and the stator has an asymmetric design is disclosed. The electric motor is divided into a number of segments, where each segment has an equal number of windings and an equal number of poles. The physical construction of each pole within a segment is identical and the number of turns of each winding within a segment is identical. The asymmetry is formed by varying the physical construction of the either the rotor or the stator within one segment from the corresponding construction of the rotor or stator in the other segments. The asymmetries are designed to improve one or more operating characteristics such as sensorless performance, torque ripple, or cogging torque in the motor.Type: GrantFiled: December 2, 2016Date of Patent: February 26, 2019Assignee: Rockwell Automation Technologies, Inc.Inventors: Xikai Sun, Kun Wei, Gennadi Sizov, Jingbo Liu
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Patent number: 10217555Abstract: For reducing volume requirements and magnetic flux leakage, a compact inductor includes a first planar core with a first core thickness along a first axis orthogonal to a plane of the first planar core. In addition, the inductor includes a second planar core disposed parallel to the first planar core with a second core thickness along the first axis. The inductor further includes a plurality of electrical windings disposed between and adjacent to an inside plane of the first planar core and an inside plane of the second planar core. The electrical windings may include insulated electrical wires. No magnetic teeth may be disposed between the first planar core and the second planar core. The first axis is parallel to a magnetic axis of each electrical winding.Type: GrantFiled: December 17, 2015Date of Patent: February 26, 2019Assignee: Rockwell Automation Technologies, Inc.Inventors: Xikai Sun, Wei Qian, Shaofeng Zhang, Haihui Lu, Lixiang Wei, Yuan Xiao, Jiangang Hu, Richard A. Lukaszewski
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Patent number: 10161970Abstract: The present invention provides a mover traveling along a track, the mover system having a mover frame supporting a mover sensor element and a track frame providing a path for which the mover frame travels and supporting track sensor elements for interacting with the mover sensor element of the mover frame. The interaction between the mover sensor element and track sensor elements provides an identification signal of each mover and the identification signal of each mover on the track is arranged according to a cyclic sequence where unique contiguous substrings occur only once within the sequence.Type: GrantFiled: March 27, 2017Date of Patent: December 25, 2018Assignee: Rockwell Automation Technologies, Inc.Inventors: Xikai Sun, Linglai Li, Peter M. Smit, Oliver C. Haya, Mark R. Cooper, Nanwei Yao