Claims
- 1. A vehicle comprising:
a tractor including a tractor cab for housing a tractor/trailer operator; a trailer mechanically and electrically connected to said tractor, said trailer including an antilock braking system and an antilock braking system interface responsive to said antilock braking system which produces a data signal representing a status of said antilock braking system; a power bus which distributes electrical power to said antilock braking system; power line carrier communicating means responsive to said antilock braking system interface for producing a data communications signal on said power bus from said data signal, wherein said power line carrier communicating means comprises spread spectrum signal producing means, responsive to the antilock braking system, for producing a spread spectrum data communications signal on said power bus from said data signal; and status determining means responsive to said power bus for determining the status of said antilock braking system from said data communications signal, wherein said status determining means comprises means for determining the status of the antilock braking system from said spread spectrum data communications signal.
- 2. A vehicle according to claim 1, wherein said spread spectrum signal producing means comprises:
a modulator responsive to said antilock braking system which produces said spread spectrum data communications signal from said data signal, said spread spectrum data communications signal being distributed over a predetermined spectrum of frequencies; and electrical coupling means for electrically coupling said modulator to said power bus so that said spread spectrum data communications signal is superposed on said power bus.
- 3. A vehicle according to claim 1, wherein said status determining means further comprises:
spread spectrum signal receiving means, responsive to the power bus, for receiving said spread spectrum data communications signal; and means, responsive to said spread spectrum signal receiving means, for determining the status of the antilock braking system from the received spread spectrum data communications signal.
- 4. A vehicle according to claim 1, wherein said status determining means further comprises an indicator which indicates the status of said antilock braking system to a tractor/trailer operator in said tractor cab.
- 5. A vehicle according to claim 1, wherein the power bus comprises:
a first plurality of conductors, positioned in the trailer; a second plurality of conductors, positioned in the trailer; and a connector which electrically connects the first plurality of conductors and the second plurality of conductors; and wherein said status determining means is electrically connected to a conductor of said second plurality of conductors.
- 6. A vehicle according to claim 5, wherein the power bus further comprises a first capacitor disposed between at least two of said first plurality of conductors and a second capacitor disposed between at least two of said second plurality of conductors, and wherein the spread spectrum signal producing means is electrically connected to one of the capacitively coupled conductors of said first plurality of conductors such that the spread spectrum data communications signal is transmitted via each of the capacitively coupled conductors.
- 7. A vehicle according to claim 5, wherein said connector comprises a standardized SAE J560 connector.
- 8. A vehicle according to claim 1 further comprising:
a warning indicator which indicates the status of said antilock braking system, said warning indicator being responsive to said antilock braking system interface; and a trailer warning indicator package, said power line carrier communicating means and said warning indicator being integrated in said trailer warning indicator package, said trailer warning indicator package further including means for mounting said trailer warning indicator package on the trailer so that said warning indicator is viewable by a tractor/trailer operator positioned within said tractor cab.
- 9. A vehicle according to claim 1, wherein said tractor includes a cab having an instrument console positioned therein, and wherein said status determining means further comprises a display mounted on said instrument console which indicates the status of the antilock braking system to an operator positioned in the tractor.
- 10. A vehicle according to claim 1, further comprising:
a tractor communications module housing which houses said status determining means; and means for mounting said tractor communications module housing to said tractor.
- 11. A vehicle according to claim 1, further comprising:
a trailer communications module housing which houses said power line carrier communicating means; and means for mounting said trailer communications module housing to said trailer.
- 12. A communications system for a trailer for communicating a status of a subsystem positioned on the trailer, the system comprising:
a power bus which supplies electrical power to the trailer; spread spectrum signal producing means, responsive to a status signal from the subsystem and positioned on the trailer, for producing a spread spectrum data communications signal representing the status of the subsystem on the power bus, wherein said spread spectrum signal producing means comprises means for producing said spread spectrum data communications signal from the status signal; and status determining means, remotely positioned relative to the trailer and responsive to the power bus, for determining the status of the subsystem from the spread spectrum data communications signal, wherein said status determining means comprises:
spread spectrum signal receiving means, responsive to the power bus, for receiving said spread spectrum data communications signal; and means, responsive to said spread spectrum signal receiving means, for determining the status of the subsystem from the received spread spectrum data communications signal.
- 13. A communications system according to claim 12, wherein the power bus comprises:
a first plurality of conductors, positioned in the trailer; a second plurality of conductors, positioned in a trailer; and a connector which electrically connects the first plurality of conductors and the second plurality of conductors; and wherein said status determining means is electrically connected to a conductor of said second plurality of conductors.
- 14. A communications system according to claim 13, wherein the power bus further comprises a first capacitor disposed between at least two of said first plurality of conductors and a second capacitor disposed between at least two of said second plurality of conductors, and wherein the spread spectrum signal producing means is electrically connected to one of the capacitively coupled conductors of said first plurality of conductors such that the spread spectrum data communications signal is transmitted via each of the capacitively coupled conductors.
- 15. A communications system according to claim 13, wherein said connector comprises a SAE J560 seven-pin connector.
- 16. A communications system according to claim 12, wherein said status determining means comprises an indicator which indicates the status of the subsystem to an operator remote from the trailer.
- 17. A communications system according to claim 12, further comprising:
a tractor communications module housing which houses said status determining means; and means for mounting said tractor communications module housing to a tractor.
- 18. A communications system according to claim 12, further comprising:
a trailer communications module housing which houses said spread spectrum signal producing means; and means for mounting said trailer communications module to said trailer.
- 19. A communications system for connecting to a combination of a tractor and a trailer mechanically and electrically connected to the tractor to communicate a command from the tractor to a subsystem positioned on the trailer, the system comprising:
a power bus which supplies electrical power to the combination of the tractor and the trailer; spread spectrum signal producing means, positioned on the tractor, for producing a spread spectrum data communications signal representing the command on said power bus, wherein said spread spectrum signal producing means comprises means for producing said spread spectrum data communications signal from the command; and controlling means, positioned on the trailer, for controlling the subsystem based on the spread spectrum data communications signal, wherein said controlling means comprises:
spread spectrum signal receiving means, positioned on the trailer and responsive to said power bus, for receiving said spread spectrum data communications signal; and means for controlling the subsystem from the received spread spectrum data communications signal.
- 20. A communications system according to claim 19, wherein the power bus comprises:
a first plurality of conductors, positioned in the trailer; a second plurality of conductors, positioned in the tractor; and a connector which electrically connects the first plurality of conductors and the second plurality of conductors; and wherein said spread spectrum signal producing means is electrically connected to a conductor of said second plurality of conductors; and wherein said spread spectrum signal receiving means is electrically connected to a conductor of said first plurality of conductors.
- 21. A communications system according to claim 20, wherein said power bus supplies electrical power to a plurality of electrical loads within the tractor, and wherein said spread spectrum signal producing means is electrically connected to a conductor of said second plurality of conductors at a point nearer said connector than the respective points at which the plurality of electrical loads are electrically connected to said power bus.
- 22. A communications system according to claim 21 further comprising a capacitor disposed between said spread spectrum signal producing means and the respective conductor of said second plurality of conductors to couple the spread spectrum data communications signal to the respective conductor of said second plurality of conductors.
- 23. A communications system according to claim 20, wherein said connector comprises a SAE J560 seven-pin connector.
- 24. A communications system according to claim 19, further comprising operator input means for receiving a command from an operator positioned on the tractor, and wherein said spread spectrum signal producing means comprises means for producing a spread spectrum data communications signal representing the conveyed command.
- 25. A communications system according to claim 19, further comprising:
a tractor communications module housing which houses said spread spectrum signal producing means; and means for mounting said tractor communications module housing to said tractor.
- 26. A communications system according to claim 19, further comprising:
a trailer communications module housing which houses said controlling means; and means for mounting said trailer communications module housing to said trailer.
- 27. A communications system for a trailer for communicating a status of a first subsystem positioned on the trailer, the system comprising:
a power bus which supplies electrical power to the trailer, wherein said power bus supplies power to the first subsystem and each of a plurality of second subsystems; spread spectrum signal producing means, responsive to the first subsystem, for producing a spread spectrum data communications signal representing the status of the subsystem on the power bus; spread spectrum blocking means, associated with respective ones of said second subsystems, for protecting the spread spectrum data communications signal placed on said power bus by said spread spectrum signal producing means from attenuation by the second subsystems; and status determining means, positioned remote from the trailer and responsive to the power bus, for determining the status of the subsystem from the spread spectrum data communications signal.
- 28. A communications system according to claim 27, wherein said spread spectrum blocking means comprises a plurality of inductive elements associated with respective ones of the second subsystems.
- 29. A communications system according to claim 27, wherein said spread spectrum blocking means comprises a plurality of ferrite beads associated with respective ones of the second subsystems.
- 30. A communications system according to claim 27, wherein the subsystem produces a status signal representing the status of the subsystem, wherein said spread spectrum signal producing means comprises means for producing said spread spectrum data communications signal from the status signal, and wherein said status determining means comprises:
spread spectrum signal receiving means, responsive to the power bus, for receiving said spread spectrum data communications signal; and means, responsive to said spread spectrum signal receiving means, for determining the status of the subsystem from the received spread spectrum data communications signal.
- 31. A communications system according to claim 27, wherein the power bus comprises:
a first plurality of conductors, positioned in the trailer; a second plurality of conductors, positioned in a tractor; and a connector which electrically connects the first plurality of conductors and the second plurality of conductors; and wherein said spread spectrum signal producing means is electrically connected to a conductor of said first plurality of conductors; and wherein said status determining means is electrically connected to a conductor of said second plurality of conductors.
- 32. A communications system according to claim 31, wherein the power bus further comprises a first capacitor disposed between at least two of said first plurality of conductors and a second capacitor disposed between at least two of said second plurality of conductors, and wherein the spread spectrum signal producing means is electrically connected to one of the capacitively coupled conductors of said first plurality of conductors such that the spread spectrum data communications signal is transmitted via each of the capacitively coupled conductors.
- 33. A communications system according to claim 31, wherein said connector comprises a SAE J560 seven-pin connector.
- 34. A communications system for at least one trailer, for communicating a respective status of a plurality of subsystems positioned on the at least one trailer, wherein the plurality of subsystems positioned on the at least one trailer communicate according to at least two different protocols, and wherein the communications system comprises:
a power bus which supplies electrical power to the at least one trailer; spread spectrum signal producing means, responsive to the plurality of subsystems and positioned on the trailer, for producing spread spectrum data communications signals representing the status of the plurality of subsystems on the power bus, wherein said spread spectrum signal producing means comprises;
a plurality of protocol specific transmitters associated with respective ones of said subsystems, wherein each protocol specific transmitter receives signals having a predetermined protocol and converts the signals to a standardized format; and means for producing spread spectrum data communications signals representative of the status of respective ones of the subsystems based upon the signals having the standardized format provided by the protocol specific transmitters; and status determining means, responsive to the power bus, for determining the status of respective ones of the plurality of subsystems from the spread spectrum data communications signals.
- 35. A communications system according to claim 34, wherein the plurality of subsystems include a refrigeration system that communicates according to RS-232 protocol and an antilock braking system that communicates according to J-1708 protocol, and wherein said plurality of protocol specific transmitters comprise an RS-232 transceiver and an RS-485 transceiver for converting RS-232 signals and J-1708 signals, respectively, to a standardized format.
- 36. A communications system according to claim 34, wherein said means for producing spread spectrum data communications signals comprises a spread spectrum transceiver that includes means for determining the state of the spread spectrum transceiver such that signals transmitted by the spread spectrum transceiver are not also received and processed by the spread spectrum transceiver.
- 37. A communications system according to claim 34 further comprising a selection input for selecting at least one protocol specific transmitter to receive signals having a predetermined protocol and to convert the signals to the standardized format.
- 38. A communications system according to claim 34, wherein said status determining means comprises:
spread spectrum signal receiving means, responsive to the power bus, for receiving said spread spectrum data communications signal; and means, responsive to said spread spectrum signal receiving means, for determining the status of the antilock braking system from the received spread spectrum data communications signal.
- 39. A communications system according to claim 34, wherein the power bus comprises:
a first plurality of conductors, positioned in the trailer; a second plurality of conductors, positioned in a tractor; and a connector which electrically connects the first plurality of conductors and the second plurality of conductors; and wherein said spread spectrum signal producing means is electrically connected to a conductor of said first plurality of conductors; and wherein said spread spectrum signal receiving means is electrically connected to a conductor of said second plurality of conductors.
- 40. A communications system according to claim 39, wherein the power bus further comprises a first capacitor disposed between at least two of said first plurality of conductors and a second capacitor disposed between at least two of said second plurality of conductors, and wherein the spread spectrum signal producing means is electrically connected to one of the capacitively coupled conductors of said first plurality of conductors such that the spread spectrum data communications signal is transmitted via each of the capacitively coupled conductors.
- 41. A communications system for at least one trailer, for communicating a respective status of a plurality of subsystems positioned on the at least one trailer, the system comprising:
a power bus which supplies electrical power to the at least one trailer; spread spectrum signal producing means, responsive to the subsystems and positioned on the at least one trailer, for producing spread spectrum data communications signals representing the respective status of the subsystems on the power bus, wherein said spread spectrum signal producing means comprises a plurality of spread spectrum transmitters responsive to respective ones of the subsystems for producing spread spectrum communications signals representing the status of the respective subsystem, and wherein said spread spectrum signal producing means comprises self-diagnostic means associated with at least one of said transmitter and for halting further transmission by the respective spread spectrum transmitter to the communications system if said self-diagnostic means determines that the respective spread spectrum transmitter is being provided with inaccurate signals such that the remainder of the communications system will continue to operate; and status determining means, responsive to the power bus, for determining the status of respective ones of the plurality of subsystems from the spread spectrum data communications signals.
- 42. A communications system according to claim 41, wherein said status determining means comprises:
spread spectrum signal receiving means, responsive to the power bus, for receiving said spread spectrum data communications signal; and means, responsive to said spread spectrum signal receiving means, for determining the status of respective ones of the subsystems from the received spread spectrum data communications signal.
- 43. A communications system according to claim 41, wherein the power bus comprises:
a first plurality of conductors, positioned in the trailer; a second plurality of conductors, positioned in a tractor; and a connector which electrically connects the first plurality of conductors and the second plurality of conductors; and wherein said spread spectrum signal producing means is electrically connected to a conductor of said first plurality of conductors; and wherein said status determining means is electrically connected to a conductor of said second plurality of conductors.
- 44. A communications system according to claim 43, wherein the power bus further comprises a first capacitor disposed between at least two of said first plurality of conductors and a second capacitor disposed between at least two of said second plurality of conductors, and wherein the spread spectrum signal producing means is electrically connected to one of the capacitively coupled conductors of said first plurality of conductors such that the spread spectrum data communications signal is transmitted via each of the capacitively coupled conductors.
- 45. A method of monitoring a subsystem positioned on a trailer that produces a data signal representing a status of the subsystem and a power bus which distributes electrical power to the trailer and a tractor connected thereto, the method comprising the steps of:
producing a data communications signal from the data signal; communicating said data communications signal over the power bus, wherein said step of communicating comprises the steps of:
modulating the data communications signal to produce a spread spectrum data communications signal; and superposing the spread spectrum data communications signal on the power bus, at the trailer; and determining the status of the subsystem from the communicated data communications signal, wherein said step of determining comprises the steps of:
receiving the superposed spread spectrum data communications signal; and determining the status of the subsystem from the received spread spectrum data communications signal.
- 46. A method according to claim 45, wherein the step of determining comprises the step of indicating said status of the subsystem to a tractor/trailer operator positioned within a cab of a tractor connected to the trailer.
- 47. A method according to claim 46, wherein said step of determining the status of the subsystem comprises:
producing a data-modulated digital carrier signal including a plurality of transitions from the received data communications signal; and detecting the status of the subsystem from the transitions of said data-modulated digital carrier signal occurring during a predetermined time interval.
- 48. A method of communicating a command from a tractor to a subsystem positioned on a trailer electrically and mechanically connected to the tractor, the tractor and trailer combination including a power bus which supplies electrical power to the tractor and the trailer, the method comprising the steps of:
producing a data communications signal representing the command on the power bus, wherein said step of producing comprises the steps of:
modulating the data communications signal to produce a spread spectrum data communications signal; and superposing the spread spectrum data communications signal on the power bus, at the tractor; receiving the superposed spread spectrum data communications signal, at the trailer; and controlling the subsystem based on the spread spectrum data communications signal.
- 49. A method according to claim 48, wherein said step of communicating is preceded by the step of receiving a command from an operator positioned in the tractor.
- 50. A method according to claim 48, wherein said step of controlling the subsystem comprises the step of producing a command signal from the spread spectrum data communications signal.
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] The present application is a continuation-in-part of U.S. patent application Ser. No. 08/554,907, filed Nov. 9, 1995, and of International Patent Application No. PCT/US96/1658, filed Oct. 14, 1996, the contents of both of which are hereby incorporated by reference.
Divisions (2)
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Number |
Date |
Country |
Parent |
09866207 |
May 2001 |
US |
Child |
09970872 |
Oct 2001 |
US |
Parent |
08976391 |
Nov 1997 |
US |
Child |
09333183 |
Jun 1999 |
US |
Continuations (2)
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Number |
Date |
Country |
Parent |
09970872 |
Oct 2001 |
US |
Child |
10422045 |
Apr 2003 |
US |
Parent |
09333183 |
Jun 1999 |
US |
Child |
09866207 |
May 2001 |
US |
Continuation in Parts (2)
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Number |
Date |
Country |
Parent |
08554907 |
Nov 1995 |
US |
Child |
08976391 |
Nov 1997 |
US |
Parent |
PCT/US96/01658 |
Feb 1996 |
US |
Child |
08976391 |
Nov 1997 |
US |