Automotive Ultrasonic Sensor System with Independent Wire Harness

US 20100245066A1
Filed: 03/19/2010
Published: 09/30/2010
Est. Priority Date: 10/23/2007
Status: Abandoned Application

First Claim

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1. An ultrasonic object detection sensor system for automotive applications, comprising:

a main sensor including, in one enclosure, a master microcontroller functionally connected to a DC/DC voltage regulator, a vehicular communication interface, an internal ultrasonic sensor disposed within the enclosure, and an external sensor interface, wherein the DC/DC regulator has an input receiving a power signal from a vehicular wire harness at a first voltage level and has an output providing a power signal at a different, second voltage level, the DC/DC regulator output being connected to at least the external sensor interface;

a plurality of ultrasonic sensors each disposed external of the enclosure; and

a wire harness interconnecting the external ultrasonic sensors with the main sensor via its external sensor interface, the wire harness operating at the second voltage level and carrying at least one instance of the output power signal;

wherein the master microcontroller controls the internal and external ultrasonic sensors to send and receive ultrasonic bursts in order to detect a potential object within the field of view of each ultrasonic sensor, the master microcontroller consolidating data from the internal and external ultrasonic sensors and communicating the existence of an object to another device within the vehicle via the vehicular communication interface.

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Abstract

A circuit arrangement having a master microcontroller operably connected to a sensor for detecting a parameter. A power communications line is connected between the power source, master microcontroller, and sensor, wherein the power communications line carries power to the sensor as well as communication signals between the sensor and the master microcontroller. An embodiment of an automotive ultrasonic sensor system for object detection is disclosed, where the master microcontroller is connected to a number of external ultrasonic sensors via the circuit arrangement. The circuit arrangement is also advantageous in enabling a separate wire harnesses to be configured for the external ultrasonic sensors that operates at logic power levels (e.g., 5V) rather than the vehicular accessory drive voltage (typically 12V) present in the vehicular wire harness that interfaces the master microcontroller with other controllers in the vehicle.

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14 Claims

1. An ultrasonic object detection sensor system for automotive applications, comprising:
- a main sensor including, in one enclosure, a master microcontroller functionally connected to a DC/DC voltage regulator, a vehicular communication interface, an internal ultrasonic sensor disposed within the enclosure, and an external sensor interface, wherein the DC/DC regulator has an input receiving a power signal from a vehicular wire harness at a first voltage level and has an output providing a power signal at a different, second voltage level, the DC/DC regulator output being connected to at least the external sensor interface;
  
  a plurality of ultrasonic sensors each disposed external of the enclosure; and
  
  a wire harness interconnecting the external ultrasonic sensors with the main sensor via its external sensor interface, the wire harness operating at the second voltage level and carrying at least one instance of the output power signal;
  
  wherein the master microcontroller controls the internal and external ultrasonic sensors to send and receive ultrasonic bursts in order to detect a potential object within the field of view of each ultrasonic sensor, the master microcontroller consolidating data from the internal and external ultrasonic sensors and communicating the existence of an object to another device within the vehicle via the vehicular communication interface.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
- - 2. The system according to claim 1, wherein the wire harness includes at least one power communication wire for connecting the plurality of external ultrasonic sensors, each power communication wire being connected to the external sensor interface and carrying both power and digital communication signals at the second voltage level between the external ultrasonic sensor and the external sensor interface.
  - 3. The system according to claim 2, wherein digital values are delineated by selective arrangement of the on and off flow of power over each power communication wire.
  - 4. The system according to claim 3, wherein each external ultrasonic sensor includes a diode and a capacitor operably connected between the at least one power communications wire and a power supply input for the external sensor in order to continuously supply power to the external sensor when no power flows over the at least one power communications wire.
  - 5. The system according to claim 4, wherein the external sensor interface includes:
    - a low impedance line connected between the DC/DC voltage regulator output and the at least one power communications wire;
      
      a high impedance line connected between the DC/DC voltage regulator output and the at least one power communications wire, the high impedance line having a greater resistance than the low impedance line; and
      
      an impedance switch in the low impedance line, the impedance switch being controlled by the master microcontroller to control the flow of power through the impedance line.
  - 6. The system according to claim 5, wherein the external ultrasonic sensors are connected together in daisy chain fashion to the external sensor interface by a single power communications wire;
    - there being a single low impedance line.
  - 7. The system according to claim 6, including a communications protocol for uniquely addressing each ultrasonic sensor.
  - 8. The system according to claim 5, wherein the plurality of external ultrasonic sensors are connected in parallel to the external sensor interface by a plurality of power communications wires, one for each external ultrasonic sensor;
    - there being a plurality of low impedance lines, one for each external ultrasonic sensor.
  - 9. The system according to claim 5, wherein the at least one power communications wire is connected to at least one input of the external ultrasonic sensor and the at least one power communications wire is also connected to a ground signal via a first switch controlled by the master microcontroller, thereby enabling the master microcontroller to communicate digital data to the ultrasonic sensor.
  - 10. The system according to claim 9, wherein the at least one power communications wire is connected to an input of the master microcontroller and the at least one power communications wire is also connected to the ground signal via a second switch controlled by the external ultrasonic sensor, thereby enabling the external ultrasonic sensor to communicate digital data to the master microcontroller.
  - 11. The system according to claim 9, wherein the master microcontroller controls the impedance switch to disconnect the DC/DC regulator output from the at least one low impedance line when a communications signal or a portion thereof is transmitted over the at least one power communications line to the at least one ultrasonic sensor.
  - 12. The system according to claim 10, wherein master microcontroller communicates with the external ultrasonic sensors with a master/slave protocol and the master microcontroller controls the impedance switch to disconnect the DC/DC regulator output from the at least one low impedance line when a communications signal or a portion thereof is transmitted over the at least one power communications line to the master microcontroller.
  - 13. The system according to claim 3, wherein a digital bit has a logic value of 0 or 1, wherein when said communication signal value is 1, a pulse at the second voltage level is transmitted across the at least one power communications wire for a first predetermined time period and when the communications signal value is 0, a pulse is transmitted through the at least one power communications wire at the second level for a second predetermined time period.
  - 14. The circuit arrangement of claim 13, wherein said bit is transmitted within a predetermined time window greater than the first or second predetermined pulse periods.

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Current Assignee
Brian J. Winden, Guner R. Sarioglu, Horst Daniel Diessner, Julien Tudor, Ryan Xue
Original Assignee
Brian J. Winden, Guner R. Sarioglu, Horst Daniel Diessner, Julien Tudor, Ryan Xue
Inventors
Sarioglu, Guner R., Xue, Ryan, Winden, Brian J., Diessner, Horst Daniel, Tudor, Julien

Application Number

US12/727,491
Publication Number

US 20100245066A1
Time in Patent Office

Days
Field of Search
US Class Current

340/436
CPC Class Codes

G01S 15/87   Combinations of sonar systems

G01S 15/931   of land vehicles

G01S 2015/938   in the bumper area radar in...

G01S 7/003   Transmission of data betwee...

H04B 2203/5458   Monitor sensor; Alarm systems

H04B 3/548   the power on the line being...

Automotive Ultrasonic Sensor System with Independent Wire Harness

First Claim

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Abstract

111 Citations

14 Claims

Specification

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Automotive Ultrasonic Sensor System with Independent Wire Harness

First Claim

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0 Petitions

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Accused Products

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Abstract

111 Citations

14 Claims

Specification

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Solutions

Use Cases

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