Apparatus and method for data transmissions in a tire pressure monitor
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60C-023/00
B60C-023/04
출원번호
US-0823306
(2015-08-11)
등록번호
US-9776463
(2017-10-03)
발명자
/ 주소
Deniau, Jean-Christophe
Farrell, Brian J
출원인 / 주소
Continental Automotive Systems, Inc.
인용정보
피인용 횟수 :
0인용 특허 :
217
초록▼
A number of frames in a burst is adjusted such that a first optimal number of first frames from a first manufacturer are included in the burst, the first optimal number of frames chosen to enable the detection of the burst by first receivers that are tuned to receive the first frames from the first
A number of frames in a burst is adjusted such that a first optimal number of first frames from a first manufacturer are included in the burst, the first optimal number of frames chosen to enable the detection of the burst by first receivers that are tuned to receive the first frames from the first manufacturer. The number of frames in the burst is adjusted such that a second optimal number of second frames from a second manufacturer are included in the burst, the second optimal number of frames chosen to enable detection of the burst by second receivers that are tuned to receive the second frames from the second manufacturer. The number of frames in the burst maintains a configuration compliant with government regulations regarding one or more of a burst length and a power emission.
대표청구항▼
1. A method of forming a burst of frames for transmission in a tire pressure monitoring system, the method comprising: adjusting a number of frames in a burst such that a first optimal number of first frames from a first manufacturer are included in the burst, the first optimal number of frames chos
1. A method of forming a burst of frames for transmission in a tire pressure monitoring system, the method comprising: adjusting a number of frames in a burst such that a first optimal number of first frames from a first manufacturer are included in the burst, the first optimal number of frames chosen to enable the detection of the burst by first receivers that are tuned to receive the first frames from the first manufacturer; adjusting the number of frames in the burst such that a second optimal number of second frames from a second manufacturer are included in the burst, the second optimal number of frames chosen to enable detection of the burst by second receivers that are tuned to receive the second frames from the second manufacturer; wherein the number of frames in the burst maintains a configuration compliant with government regulations regarding one or more of a burst length and a power emission, wherein the burst configuration cannot be changed by a user without a control program being entirely re-programmed. 2. The method of claim 1, wherein the burst comprises an on-the-air signal and the on-the-air signal does not exceed one second. 3. The method of claim 1, wherein the burst is transmitted at a particular frequency and the average power does exceed 67.5 db uV/m at three meters. 4. The method of claim 1, wherein the burst has a configuration compliant with an industry requirement. 5. A method of forming a burst of frames for transmission in a tire pressure monitoring system, the method comprising: adjusting a number of frames in a burst such that a first optimal number of first frames from a first manufacturer are included in the burst, the first optimal number of frames chosen to enable the detection of the burst by first receivers that are tuned to receive the first frames from the first manufacturer; adjusting the number of frames in the burst such that a second optimal number of second frames from a second manufacturer are included in the burst, the second optimal number of frames chosen to enable detection of the burst by second receivers that are tuned to receive the second frames from the second manufacturer; wherein the number of frames in the burst maintains a configuration compliant with government regulations regarding one or more of a burst length and a power emission, wherein the burst has the configuration compliant with an industry requirement, and wherein the industry requirement relates to the amount of time required to complete a localization process. 6. An apparatus for transmitting tire pressure signals, the apparatus comprising: a transmission buffer configured to store tire pressure monitoring information; a transmitter configured to transmit a signal including the tire pressure monitoring information, the signal comprising: a burst with an adjustable number of frames such that a first optimal number of first frames from a first manufacturer are included in the burst, the first optimal number of frames chosen to enable the detection of the burst by first receivers that are tuned to receive the first frames from the first manufacturer; such that a second optimal number of second frames from a second manufacturer are included in the burst, the second optimal number of frames chosen to enable detection of the burst by second receivers that are tuned to receive the second frames from the second manufacturer; wherein the burst maintains a configuration compliant with government regulations regarding a one or more of a burst length and a power emission, wherein the burst is transmitted at a particular frequency and the average power does exceed 67.5 db uV/m at three meters. 7. The apparatus of claim 6, wherein the burst comprises an on-the-air signal and the on-the-air signal does not exceed one second. 8. An apparatus for transmitting tire pressure signals, the apparatus comprising: a transmission buffer configured to store tire pressure monitoring information; a transmitter configured to transmit a signal including the tire pressure monitoring information, the signal comprising: a burst with an adjustable number of frames such that a first optimal number of first frames from a first manufacturer are included in the burst, the first optimal number of frames chosen to enable the detection of the burst by first receivers that are tuned to receive the first frames from the first manufacturer; such that a second optimal number of second frames from a second manufacturer are included in the burst, the second optimal number of frames chosen to enable detection of the burst by second receivers that are tuned to receive the second frames from the second manufacturer; wherein the burst maintains a configuration compliant with government regulations regarding a one or more of a burst length and a power emission, wherein the burst configuration cannot be changed by a user without a control program being entirely re-programmed. 9. An apparatus for transmitting tire pressure signals, the apparatus comprising: a transmission buffer configured to store tire pressure monitoring information; a transmitter configured to transmit a signal including the tire pressure monitoring information, the signal comprising: a burst with an adjustable number of frames such that a first optimal number of first frames from a first manufacturer are included in the burst, the first optimal number of frames chosen to enable the detection of the burst by first receivers that are tuned to receive the first frames from the first manufacturer; such that a second optimal number of second frames from a second manufacturer are included in the burst, the second optimal number of frames chosen to enable detection of the burst by second receivers that are tuned to receive the second frames from the second manufacturer; wherein the burst maintains a configuration compliant with government regulations regarding a one or more of a burst length and a power emission, wherein the burst has a configuration compliant with an industry requirement, wherein the industry requirement relates to the amount of time required to complete a localization process. 10. A method of forming a burst of frames for transmission in a tire pressure monitoring system, the method comprising: disposing first frames of a first manufacturer at a first position in a burst, and disposing second frames of a second manufacturer at a second position in the burst, the first position being sequentially earlier in time than the second position; wherein the length of the first frames is shorter than the length of the second frames; wherein the burst pattern cannot be changed by a user without a control program being entirely re-programmed. 11. The method of claim 10, wherein the burst comprises an on-the-air signal and the on-the-air signal does not exceed one second. 12. The method of claim 10, wherein the burst is transmitted at a particular frequency and the average power does exceed 67.5 db uV/m at three meters. 13. The method of claim 10, wherein the burst has a configuration compliant with an industry requirement. 14. The method of claim 13, wherein the industry requirement relates to the amount of time required to complete a localization process. 15. An apparatus for transmitting tire pressure signals, the apparatus comprising: a transmission buffer configured to store tire pressure monitoring information; a transmitter configured to transmit a signal including the tire pressure monitoring information when activated externally by a trigger, the signal comprising: a burst with an adjustable number of frames such that a first optimal number of first frames from a first manufacturer are included in the burst in compliance with a periodicity requirement of the first manufacturer, the first optimal number of frames chosen to enable the detection of the burst by a first receiver that is tuned to receive the first frames from the first manufacturer and such that a second optimal number of second frames from a second manufacturer are included in the burst in compliance with a periodicity requirement of the second manufacturer, the second optimal number of frames chosen to enable detection of the burst by a second receiver that is tuned to receive the second frames from the second manufacturer; wherein the burst maintains a configuration compliant with government regulations regarding a one or more of a burst length and a power emission. 16. The apparatus of claim 15, wherein the burst comprises an on-the-air signal and the on-the-air signal does not exceed one second. 17. The apparatus of claim 15, wherein the burst is transmitted at a particular frequency and the average power does exceed 67.5 db uV/m at three meters. 18. The apparatus of claim 15, wherein the burst configuration cannot be changed by a user without a control program being entirely re-programmed. 19. The apparatus of claim 15, wherein the burst has a configuration compliant with an industry requirement.
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Thiesen,Jack; O'Brien,George Phillips, Acoustic wave device with modulation functionality.
Kessler, Ralf; Kühnle, Andreas; Michal, Roland; Normann, Norbert; Schulze, Lothar Gunter, Arrangement for transmitting signals from a device monitoring tire pressure on the wheels of a motor vehicle to an evaluation device arranged in a motor vehicle.
Kronestedt Fredric,SEX ; Beming Per,SEX ; Dam Henrik,SEX, Communicating signaling information in a cellular system that has a tight frequency reuse pattern.
Rineer,Brian C.; Jackson,Brent C.; Gidley,Scott A.; Fisher,Anthony F., Computer-implemented system and method for managing data integrity validation rules.
Stewart,William David; Boudaoud,Idir; Molyneaux,Nevin Robert; Strahan,Samuel Kane; McCall,Alan Kenneth; Jordan,Trevor Anthony, Determination of wheel sensor position using a wireless solution.
Normann Norbert,DEX ; Schulze Gunter Lothar,DEX ; Uhl Gunter,DEX, Device for controlling the tire pressure of automobiles by means of a battery-powered circuit.
Mock Markus (Brunnwiesenstrasse 6 CH-8610 Uster CHX) Vollm Ernst (In Latten 7 CH-8802 Kilchberg CHX), Device for monitoring the air-pressure in pneumatic tires fitted on vehicle wheels.
Taguchi, Akihiro; Itou, Shintarou; Okumura, Ryozo, ID registration method, ID collation system incorporated in a vehicle control system, embodied as a pneumatic tire pressure monitoring apparatus associated with pneumatic pressure sensors, and an ID .
Lin, Xing Ping; Juzswik, David L; Oszust, Michael G., Method and apparatus for determining identifiable tire position location in a tire pressure monitoring system.
Treadway James A. ; Wisor Michael T., Method and apparatus for dynamically displaying and causing the execution of software diagnostic/test programs for the s.
Lim, Alvin Swee Hock; Dwork, Jeffrey, Method and apparatus for generating a plurality of CRC digits for data packets having different prescribed network protocols using one CRC generator.
Eisfeld Eric (San Leandro CA) Long James (Sunnyvale CA) Force Gordon (San Jose CA), Method and apparatus for transmitter for universal garage door opener.
Van Niekerk, Jan; St. Amand, Roger; Uradnik, Joseph A.; Katz, Paul N., Method and apparatus using directional antenna or learning modes for tire inflation pressure monitoring and location determination.
Norbert Normann DE; Roland Michal AT, Method for assigning identifiers, present in signals emitted by transmitters in a tire pressure monitoring system, to the wheels where the transmitters are located.
Normann, Norbert; Michal, Roland; Kessler, Ralf; Kuhnle, Andreas; Schulze, Lothar Gunter, Method for assigning identifying elements in signals emitted by transmitters in a tire pressure indicating system to the wheels on which the transmitters are mounted.
Ralf Kessler DE; Andreas Kuhnle DE; Norbert Normann DE; Gunter Lothar Schulze DE, Method for operating a device for the monitoring and wireless signaling of a pressure change in pneumatic tires of a vehicle.
Normann Norbert,DEX ; Kessler Ralf,DEX ; Schulze Gunter,DEX, Method of allocating transmitters of a tire pressure monitoring system to a particular vehicle.
Mullaly, John Martin; Burleson, Winslow Scott; Henkler, Richard A., Method of directing communication between addressable targets using a generalized pointing device.
Koch Russell W. (Hartville OH) Turner John L. (Nashville TN) Walenga Guy J. (Mt. Juliet TN) Takigawa Hiroyoshi (Nashville TN) Okamoto Keizo (Murfreesboro TN), Method of monitoring conditions of vehicle tires.
Uhl Gunter,DEX ; Normann Norbert,DEX ; Schulze Gunter Lothar,DEX ; Kessler Ralf,DEX, Method of operating a device for monitoring vehicle-tire pressures and indicating changes in pressure by radio.
Cook Alex M. (2290 Soaring La. Lawrenceville GA 30244) Rovira Luis A. (2643 Whiteleigh Ct. Atlanta GA 30345) Kuban Curt M. (1774 Skyland Glen Dr. Snellville GA 30278) McGinty Emory L. (1362 Fireside , Methods and apparatus for communication program data signals via a remote control unit.
Jheng, Yu-Syuan; Wu, Chun-Ying; Liang, Ching-Hsiu, Methods for handling an apparatus terminated communication request and communication apparatuses utilizing the same.
Jheng, Yu-Syuan; Wu, Chun-Ying; Liang, Ching-Hsiu, Methods for handling an apparatus terminated communication request and communication apparatuses utilizing the same.
Acker Liane Elizabeth ; Conner Michael Haden ; Martin Andrew Richard, Object oriented framework for specifying the format of compiler output with a template facility.
Handfield Michael (910 Sherwood Ct. Rochester MI 48307) Laliberte Helene (910 Sherwood Ct. Rochester MI 48307), Pressure transducer for monitoring a pneumatic tire.
Normann Norbert,DEX ; Schulze Gunter Lothar,DEX ; Kessler Ralf,DEX ; Kuhnle Andreas,DEX, Process for evaluating the signals from a tire pressure monitoring system.
Luders Christian,DEX, Process for transmitting data packets from mobile stations to base stations in mobile radio systems operated on the time multiplex system.
Robinson ; III Jerry H. (Matthews NC), Remote tire pressure monitoring system employing coded tire identification and radio frequency transmission, and enablin.
Smith Gregory M. (Colorado Springs CO), System and method for initiating communications between a controller and a selected subset of multiple transponders in a.
Handfield Michael (910 Sherwood Ct. Rochester MI 48307) Laliberte Helene (910 Sherwood Ct. Rochester MI 48307), System and method for monitoring a pneumatic tire.
Handfield Michael (910 Sherwood Ct. Rochester MI 48307) Laliberte Helene (910 Sherwood Ct. Rochester MI 48307), System and method for monitoring a pneumatic tire.
Tang, Qingfeng; Nantz, John S.; Ghabra, Riad; Khreizat, Salman; King, Ronald O.; Kosokowsky, David, System and method for tire pressure monitoring including automatic tire location recognition.
King, Ronald O.; Tang, Qingfeng; Nantz, John S.; Conner, Bruce; Walker, Keith, System and method for tire pressure monitoring providing automatic tire location recognition.
Normann, Norbert; Kühnle, Andreas; Schulze, Gunter Lothar; Kessler, Ralf, System for monitoring and for signaling by radio the pressure in pneumatic tires on motor vehicles.
Wacker Carl E. ; Carver Mona Ann ; Schultz Jeffrey A. ; Scarborough Scott, System to automatically determine wheel position for automotive remote tire monitoring system.
Jan Van Niekerk ; Roger St. Amand ; Joseph A. Uradnik ; Paul N. Katz, Tire inflation pressure monitoring and location determining method and apparatus.
Bowler Paul R. (Surrey CAX) Mackay John (South Durham GB2) Lammers Shawn D. (Delta CAX) Fulton Robert H. (North Delta CAX), Tire monitoring apparatus and method.
Bowler Paul R. (Surrey CAX) Mackay John (South Durham GB2) Lammers Shawn D. (Delta CAX) Fulton Robert H. (North Delta CAX), Tire monitoring apparatus and method.
Juzswik, David Leonard; Wyman, Daniel J.; LeMense, Thomas John, Tire pressure monitoring system with pressure gauge operating mode for indicating when air pressure within a tire is within a predetermined pressure range.
Toyofuku, Masanobu, Tire pressure sensor unit, tire pressure monitoring system, and method of registering identification code of tire pressure sensor unit.
Derbyshire Andrew John,GBX ; Siddons Jeremy Francis,GBX ; Richards John Kitto,GBX ; Gibson Edward Charles,GBX ; Davies Sean Patrick,GBX, Tyre condition monitoring system.
Darbee Paul V. (Santa Ana CA) Ellis Richard E. (Garden Grove CA) Jansky Louis S. (Long Beach CA) Grossman Avram S. (Santa Ana CA), Universal remote control device.
Rumbolt Robin B. (Knoxville TN) McIntyre William R. (Knoxville TN) Goodson Larry E. (Blaine TN), Universal remote control unit with model identification capability.
Normann,Norbert; K체hnle,Andreas, Vehicle wheel comprising a tire and an assembly consisting of a valve a device for measuring the tire pressure and a spring for holding said device in the tire.
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