Patents Assigned to CTS
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Patent number: 10343657Abstract: A vehicle pedal sensor assembly for use in a vehicle brake pedal including a base and a pedal arm pivotally mounted to the pedal base. A sensor housing includes a non-contacting pedal position sensor and a contacting pedal force sensor. The sensor housing is mounted to the base of the vehicle brake pedal. A magnet is mounted to the pedal arm. The pedal position sensor senses a change in the magnitude and/or direction of the magnetic field generated by the magnet in response to a change in the position of the pedal arm for determining the position of the pedal arm. A pedal force application member exerts a force against the pedal force sensor in response to the change in the position of the pedal arm for determining the position of the pedal arm. The force sensor may be a piezoelectric element, a load cell, or a strain gauge.Type: GrantFiled: January 22, 2018Date of Patent: July 9, 2019Assignee: CTS CorporationInventors: Steven J. Street, Mike Smith
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Patent number: 10348156Abstract: An actuator comprising a housing defining an interior cavity for a motor, gear assemblies, and a printed circuit overlying the motor and the gear assemblies. An elastomeric seal band is located between the housing and the cover for sealing the interior cavity of the housing. The seal band includes a plurality of compressible elastomeric beads that abut against the cover and exert a force against the printed circuit board respectively for preventing the vibration of the printed circuit board in the housing. A plurality of curved clips are received in respective clip brackets formed on the housing and the cover respectively for clamping a cover to the housing.Type: GrantFiled: February 17, 2017Date of Patent: July 9, 2019Assignee: CTS CorporationInventors: William Shelby Stewart, Eric David Andrina, Lei Zhao
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Patent number: 10333191Abstract: A ceramic monoblock RF filter for the transmission of an RF signal comprising a block of dielectric material including opposed top and bottom surfaces, opposed longitudinal side surfaces, and opposed transverse side surfaces. A plurality of spaced apart through-hole resonators extend through the block and terminate in openings in the top and bottom surfaces of the block. A second plurality of grounded RF signal blocking through-holes extend through the block and terminate in respective openings in the top and bottom surfaces of the block. The grounded through-holes are located and positioned in a relationship off-set and on opposite sides of the first plurality of through-hole resonators for blocking the coupling of the RF signal between RF signal input/outputs and selected ones of the first plurality of resonators and also between non-adjacent ones of the first plurality of resonators.Type: GrantFiled: September 21, 2017Date of Patent: June 25, 2019Assignee: CTS CorporationInventor: Alexandre Rogozine
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Patent number: 10309953Abstract: A filter retentate analysis system and method is disclosed, which provides information to diagnose the current and historical state of a system generating the retentate or through which the retentate has passed. The disclosure describes the analysis of retentate characteristics which may include the composition, amount, distribution, and physical or chemical properties of the retentate useful to monitor or diagnose the state, health, or operating history of a system or sub-system. The analysis is broadly applicable to wide range of systems and process ranging from engines and exhaust systems to production plants and equipment.Type: GrantFiled: October 20, 2015Date of Patent: June 4, 2019Assignee: CTS CORPORATIONInventors: Alexander Sappok, Leslie Bromberg, Paul Ragaller
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Patent number: 10288529Abstract: A vehicle chassis sensor assembly comprising a housing member defining a sensor cartridge slot, a rotatable shaft with a magnet and retained in a sleeve, and a rotatable arm coupled to the shaft. A sensor cartridge is mounted in the slot through the interior of a connector socket and an opening between the slot and the connector socket. A plate on the sensor cartridge covers the opening. The sensor cartridge includes a terminal header and a separate board mounted to the terminal header. The board includes the sensor. Deformable posts on the terminal header and the sensor assembly extend through respective apertures in the board and the terminal header for securing the board and the sensor cartridge to the terminal header and the sensor assembly respectively.Type: GrantFiled: August 13, 2015Date of Patent: May 14, 2019Assignee: CTS CorporationInventors: Daryn L. Waite, Jay Lewis Hinkle
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Publication number: 20190140524Abstract: A rotary position sensor comprising a rotatable patterned ring magnet, which in one embodiment is mounted on the output shaft of an actuator, and includes a plurality of pairs of North and South Pole sections extending around the circumference of the ring magnet in an alternating relationship and defining a plurality of circumferentially extending magnetic field switch points spaced predetermined distances on the ring magnet corresponding to a plurality of predetermined unique positions of the ring magnet adapted for sensing by a switch such as Hall Effect switch. In one embodiment, the ring magnet includes a plurality of pairs of North and South Pole sections and switch points on the ring magnet of different predetermined lengths and predetermined locations respectively corresponding to a plurality of predetermined ring magnet positions to be sensed.Type: ApplicationFiled: November 5, 2018Publication date: May 9, 2019Applicant: CTS CorporationInventor: Kevin C. Wolschlager
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Patent number: 10260400Abstract: A radio frequency system and method for monitoring an engine-out exhaust emission constituent. The system comprises a housing containing the emission constituent, one or more radio frequency sensors extending into the housing and transmitting and receiving radio frequency signals, and a control unit for controlling the radio frequency signals and monitoring changes in the emission constituent based on changes in one or more parameters of the radio frequency signals. In one embodiment, the control unit measures a rate of change in one or more of the parameters of the radio frequency signals for monitoring a rate of change of the emission constituent including for example the emission rate, accumulation rate, and/or depletion rate of the emission constituent.Type: GrantFiled: April 7, 2017Date of Patent: April 16, 2019Assignee: CTS CorporationInventors: Alexander G. Sappok, Paul A. Ragaller, Leslie Bromberg, Andrew D. Herman
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Publication number: 20190097494Abstract: An axial brushless DC motor comprising a stator, a rotor including a magnet, a sleeve bushing extending through the stator and including a pair of opposed distal collars, a motor shaft extends through the sleeve bushing, and a pair of opposed bearings are seated in the respective pair of collars and mount the shaft and a rotor for rotation relative to the sleeve bushing and the stator. The bearings are adapted for thrust, radial support/self-alignment, and angular adjustment of the motor shaft. In one embodiment, a stator overmold member includes a central tube that defines the sleeve bushing and includes a stator shorting ring. In one embodiment, a metal pole piece is seated in a cup-shaped magnet with a rim and the magnetic flux travels through the rim of the magnet and through a magnetic flux sensor.Type: ApplicationFiled: November 30, 2018Publication date: March 28, 2019Applicant: CTS CorporationInventors: Yulanda YHW King, David Kolberg, Douglas E. Cors, Scott Calkins, Eric Andrina, Kevin C. Wolschlager, William S. Stewart
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Publication number: 20190078910Abstract: A vehicle component actuator comprising a housing, an actuator motor in the housing, and a rotatable output gear shaft assembly in the housing including a rotatable output shaft and gear. The output gear includes one or more discontinuities defined therein and each presenting a magnetic flux signature. A position sensor, including for example a Hall Effect position sensor with an integrated magnet, senses the magnetic flux signature of the one or more discontinuities on the output gear for sensing and determining the position of the output gear shaft assembly. The discontinuities can be of the same or different sizes/configuration and equally or unequally spaced from each other. The discontinuities can be slots or projections or any other feature presenting a unique magnetic flux signature that can be sensed by the position sensor.Type: ApplicationFiled: September 7, 2018Publication date: March 14, 2019Applicant: CTS CorporationInventors: Max Rolf James Viebach, Kevin C. Wolschlager, David C. Ajoku, Randy P. Alexander, Han Yang
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Patent number: 10230040Abstract: The present invention generally relates to high frequency piezoelectric crystal composites, devices, and method for manufacturing the same. In adaptive embodiments an improved imaging device, particularly a medical imaging device or a distance imaging device, for high frequency (>20 MHz) applications involving an imaging transducer assembly is coupled to a signal imagery processor. Additionally, the proposed invention presents a system for photolithography based micro-machined piezoelectric crystal composites and their uses resulting in improved performance parameters.Type: GrantFiled: December 8, 2016Date of Patent: March 12, 2019Assignee: CTS CorporatonInventors: Pengdi Han, Jian Tian, Kevin Meneou, Brandon Stone
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Publication number: 20190070547Abstract: A radio frequency sensing, control, and particulate matter diagnostics network and system and method and, more specifically, a radio frequency particulate filter diagnostics system comprising a housing including an inlet connected to a source of particulate matter, a particulate filter in the housing and adapted for filtering the particulate matter, and a radio frequency sensor adapted to detect conditions of abnormal particulate filter or system operation and including at least one radio frequency probe configured to be in contact with the housing for the particulate filter housing and adapted to receive radio frequency signals and a radio frequency control unit in communication with the radio frequency probe.Type: ApplicationFiled: November 1, 2018Publication date: March 7, 2019Applicant: CTS CorporationInventors: Alexander G. Sappok, Paul A. Ragaller, Leslie Bromberg, Andrew D. Herman
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Publication number: 20190067773Abstract: An RF dielectric waveguide duplexer filter module with antenna and lower and upper Tx and Rx signal transmission blocks of dielectric material attached together in a side-by-side and stacked relationship. The blocks are covered with conductive material. Antenna and Tx and Rx input/outputs are defined at opposite ends of the filter module. RF signal transmission windows define direct coupling RF signal transmission paths between the antenna and the Tx and Rx blocks and between the lower and upper Tx and Rx blocks. One or more bridges of dielectric material on the lower Tx and Rx blocks define inductive cross-coupling Tx and Rx signal transmission paths. The Tx signal is transmitted only in the direction of the antenna block or between the upper and lower Tx blocks. The Rx signal is transmitted only in the direction of the Rx RF signal input/output or between the upper and lower Rx blocks.Type: ApplicationFiled: October 26, 2018Publication date: February 28, 2019Applicant: CTS CorporationInventor: Reddy Vangala
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Publication number: 20190016298Abstract: A switch assembly for a vehicle seat belt buckle comprising a switch housing defining an interior and a pocket, a cable extending into the interior and including hook-shaped ends extending around posts in the interior of the switch housing. In one embodiment, the interior of the switch housing includes first and second posts positioned in a co-linear and spaced apart relationship and the hook-shaped ends face each other and extend around the first posts and abut against the second posts. In one embodiment, the Hall Effect sensor is positioned in the pocket of the switch housing in an inclined relationship.Type: ApplicationFiled: July 11, 2018Publication date: January 17, 2019Applicant: CTS CorporationInventor: Gregory Bunin
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Publication number: 20190010975Abstract: A link and ball socket assembly for a vehicle position sensor comprising a first molded member including a link and a first socket and a second molded member including a second socket coupled to the first molded member. The first socket is molded to and integral with a first end of the link and the second socket is coupled to and rotatable relative to a second opposed end of the link. The first socket defines an interior ball receiving pocket. The interior pocket defines a first back pocket portion which opens into a second front ball shaped pocket portion. The ball is received in the first back pocket portion and slid and snapped into the second front pocket portion. A locking pin is inserted into the interior pocket into a relationship abutting against the ball for retaining the ball in the socket.Type: ApplicationFiled: July 2, 2018Publication date: January 10, 2019Applicant: CTS CorporationInventor: Jay L. Hinkle
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Patent number: 10175712Abstract: A vehicle pedal with a pedal base defining a sensor housing and a pedal arm overlying and spaced from and pivotally coupled to the pedal base. A sensor in the sensor housing includes a sensor element that moves in the direction of the pedal base in response to the movement of the pedal arm to generate an electrical signal used to determine to position of the pedal arm. In one embodiment, the sensor includes a strain gage and the sensor element is an actuator that flexes the strain gage. In another embodiment, the sensor includes a Hall Effect sensor and the sensor element is a magnet whose movement results in a magnetic field change sensed by the Hall Effect sensor. In a further embodiment, the sensor element is a cap with wipers that slide against a resistive element.Type: GrantFiled: May 11, 2016Date of Patent: January 8, 2019Assignee: CTS CorporationInventor: Murray Kaijala
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Patent number: 10168358Abstract: A radio-frequency probe system with a transmitting or receiving element integrated into a cable assembly is disclosed. In some embodiments a preferred configuration may contain one or more sensing elements integrated into the transmitting or receiving element. In another embodiment, the radio frequency probe comprises an antenna body fixed to a coaxial cable, in which the center conductor of the coaxial cable serves as the transmitting or receiving element. A method for monitoring, transmitting, or detecting one or more parameters using a single radio frequency probe is also disclosed.Type: GrantFiled: November 7, 2014Date of Patent: January 1, 2019Assignee: CTS CORPORATIONInventors: Alexander Sappok, Roland Smith, III, Leslie Bromberg
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Patent number: 10146246Abstract: A vehicle pedal with a contacting sensor that comprises a pedal arm coupled to and rotatable relative to a pedal housing. A rotor includes a first end coupled to the pedal arm and an opposed end with contactors abutting and adapted to slide against a resistive element in response to the rotation of the pedal arm. A head on the rotor includes means for preventing the over-deflection of the contactors. In one embodiment, the means for preventing the over-deflection of the contactors comprises an extension on the head of the rotor that defines a stop limiting the deflection of the contactors. In another embodiment, the means for preventing the over-deflection of the contactors comprises the combination of a tab on the head of the rotor and a wall in the interior of the pedal housing. The tab abuts against the wall and prevents the movement of the rotor in the direction of the resistive element.Type: GrantFiled: August 21, 2017Date of Patent: December 4, 2018Assignee: CTS CorporationInventors: Nicholas L. Ladocsi, Murray Kaijala, William S. Stewart
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Patent number: 10148152Abstract: An axial brushless DC motor comprising a stator, a rotor including a magnet, a sleeve bushing extending through the stator and including a pair of opposed distal collars, a motor shaft extends through the sleeve bushing, and a pair of opposed bearings are seated in the respective pair of collars and mount the shaft and a rotor for rotation relative to the sleeve bushing and the stator. The bearings are adapted for thrust, radial support/self-alignment, and angular adjustment of the motor shaft. In one embodiment, a stator overmold member includes a central tube that defines the sleeve bushing and includes a stator shorting ring. In one embodiment, a metal pole piece is seated in a cup-shaped magnet with a rim and the magnetic flux travels through the rim of the magnet and through a magnetic flux sensor.Type: GrantFiled: February 5, 2016Date of Patent: December 4, 2018Assignee: CTS CorporationInventors: Yulanda YHW King, David Kolberg, Douglas E. Cors, Scott Calkins, Eric Andrina, Kevin C. Wolschlager, William S. Stewart
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Patent number: 10118119Abstract: A radio frequency sensing, control, and particulate matter diagnostics network and system and method and, more specifically, a radio frequency particulate filter diagnostics system comprising a housing including an inlet connected to a source of particulate matter, a particulate filter in the housing and adapted for filtering the particulate matter, and a radio frequency sensor adapted to detect conditions of abnormal particulate filter or system operation and including at least one radio frequency probe configured to be in contact with the housing for the particulate filter housing and adapted to receive radio frequency signals and a radio frequency control unit in communication with the radio frequency probe.Type: GrantFiled: March 16, 2017Date of Patent: November 6, 2018Assignee: CTS CorporationInventors: Alexander G. Sappok, Paul A. Ragaller, Leslie Bromberg, Andrew D. Herman
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Publication number: 20180316078Abstract: A multi-band RF monoblock filter including at least three RF signal filters defined in the monoblock of dielectric material by resonators defined in part by through-holes extending through the block. In one embodiment, two of the RF signal filters are in a co-linear and side-by-side relationship and the third filter is in a parallel and side-by side relationship with one of the two other RF signal filters. A pattern of conductive material defines two end and one interior RF signal input/output on the block top surface. The end RF signal input/outputs are located at opposite ends of the block and the central RF signal input/output is located between the two co-linear and side-by-side RF filters. An RF signal is transmitted through the one end RF signal input/output, the two parallel and side-by-side RF signal filters, and the central RF signal input/output and also through the other end RF signal input/output, one of the co-linear and side-by-side RF filters, and the central RF signal input/output.Type: ApplicationFiled: July 9, 2018Publication date: November 1, 2018Applicant: CTS CorporationInventor: Fred W. Baum