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| United States Patent Application |
20060002568
|
| Kind Code
|
A1
|
|
Cuddihy; Mark
; et al.
|
January 5, 2006
|
AUDIO NOISE CANCELLATION SYSTEM FOR A SENSOR IN AN AUTOMOTIVE VEHICLE
Abstract
An assembly includes a seat 60 having a seat base 64, an occupant sensor
positioned in the seat base, said occupant sensor comprising a fluid
filled bladder coupled to a pressure sensor, said pressure sensor
generating a pressure signal, and an audio system having an electrical
output coupled to a speaker, said speaker positioned near the seat, said
speaker audibly coupled to the bladder. The assembly includes a
compensation circuit (12) for a sensor (22) generating electrical sensor
output near a speaker (18) of an audio system (16) that comprises an
inverting circuit (26) coupled to the electrical output (16) of the audio
system. The inverting circuit (26) generates an inverted electrical
signal corresponding to a speaker audio output. A sensor controller (24)
coupled to the inverting circuit (26) and the sensor (22) generates a
compensated electrical output in response to the electrical sensor output
and the inverted electrical signal.
| Inventors: |
Cuddihy; Mark; (New Boston, MI)
; Brown; Joseph; (Grosse Ile, MI)
; Carr; Kirsten; (Ann Arbor, MI)
|
| Correspondence Name and Address:
|
KEVIN G. MIERZWA;ARTZ & ARTZ, P.C.
28333 TELEGRAPH ROAD, SUITE 250
SOUTHFIELD
MI
48034
US
|
| Assignee Name and Adress: |
FORD GLOBAL TECHNOLOGIES, LLC
600 Parklane Towers East One Parklane Boulevard
Dearborn
MI
|
| Serial No.:
|
161096 |
| Series Code:
|
11
|
| Filed:
|
July 22, 2005 |
| U.S. Current Class: |
381/71.4; 381/71.7; 381/86 |
| U.S. Class at Publication: |
381/071.4; 381/071.7; 381/086 |
| Intern'l Class: |
A61F 11/06 20060101 A61F011/06; G10K 11/16 20060101 G10K011/16; H03B 29/00 20060101 H03B029/00 |
Claims
1. An assembly comprising: a seat having a seat base; an occupant sensor
positioned in the seat base, said occupant sensor comprising a fluid
filled bladder coupled to a pressure sensor, said pressure sensor
generating a pressure signal; an audio system having an electrical output
coupled to a speaker, said speaker positioned near the seat, said speaker
audibly coupled to the bladder; a compensation circuit having an
inverting circuit electrically coupled to the electrical output of the
audio system, said inverting circuit generating an inverted electrical
signal corresponding to a speaker audio output; and a sensor controller
coupled to the inverting circuit and said pressure sensor, said
controller generating a compensated electrical output signal in response
to said electrical sensor output and said inverted electrical signal,
said compensated electrical output signal corrected for an alteration by
the acoustics of the speaker.
2. A compensation circuit as recited in claim 1 wherein said inverting
circuit comprises an operational amplifier.
3. A compensation circuit as recited in claim 1 wherein said speaker
comprises a subwoofer.
4. A compensation circuit as recited in claim 1 wherein said inverting
circuit comprises a delay circuit generating a time delay in said
inverted electrical signal.
5. A compensation circuit as recited in claim 1 wherein said sensor
controller adds the inverted electrical signal and said electrical sensor
output.
6. A compensation circuit as recited in claim 2 wherein said operational
amplifier comprises a resistor coupled to an inverting input and an
output.
7. A compensation circuit for compensating a pressure signal of a pressure
sensor coupled to an occupant sensor positioned in a seat base of a seat,
the occupant sensor having a fluid filled bladder, said pressure sensor
generating a pressure signal, said compensation circuit generating
coupled to an audio system having an electrical output coupled to a
speaker, said speaker positioned near the seat, said speaker audibly
coupled to the bladder, said compensation circuit comprising: a
compensation circuit having an inverting circuit electrically coupled to
the electrical output of the audio system, said inverting circuit
generating an inverted electrical signal corresponding to a speaker audio
output; and a sensor controller coupled to the inverting circuit and said
pressure sensor, said controller generating a compensated pressure output
signal in response to said pressure signal and said inverted electrical
signal, said compensated pressure output signal corrected for an
alteration by the acoustics of the speaker.
8. A compensation circuit as recited in claim 7 wherein said speaker
comprises a subwoofer.
9. A compensation circuit as recited in claim 7 wherein said inverting
circuit comprises a delay circuit generating a delay in said inverted
electrical signal.
10. A compensation circuit as recited in claim 7 wherein said inverting
circuit comprises an operational amplifier.
11. A compensation circuit as recited in claim 10 wherein said operational
amplifier comprises a resistor coupled to an inverting input and an
output.
12. A compensation circuit as recited in claim 7 wherein said sensor
controller adds the inverted electrical output and said electrical sensor
output.
13. A method for compensating for an electrical output of a sensor
comprising: generating an audible signal from a speaker of an audio
system; coupling an audible signal to an occupant sensor and generating a
sensor output signal corresponding to a pressure output altered by the
audible signal; generating an electrical signal at an audio system
output; inverting the electrical signal to form an inverted electrical
signal; and combining the inverted electrical signal and the sensor
output signal to form a compensated electrical output.
14. A method as recited in claim 13 wherein the speaker comprises a
subwoofer.
15. A method as recited in claim 13 further comprising generating a delay
signal, wherein said inverted signal is formed in response to said delay
signal.
16. A method as recited in claim 13 wherein combining comprises adding the
inverted electrical output and said sensor output.
Description
CROSS REFERENCE TO RELATED APPLICATION(S)
[0001] The present application is a Continuation-In-Part of U.S. patent
application Ser. No. 10/065,006, filed Sep. 9, 2002, and incorporated
herein by reference.
TECHNICAL FIELD
[0002] The present invention relates generally to a compensation circuit
for automotive sensors, and more particularly, to a circuit to compensate
the output of a sensor for noise generated by an audio system.
BACKGROUND
[0003] Sensors are used for various applications in automotive vehicles.
Sensors may be located in various locations such as the passenger
compartment.
[0004] Audio systems include various speakers including a subwoofer. The
subwoofer is large and difficult to package. As such, the subwoofer may
be positioned in a close proximity to a sensor.
[0005] The output of the speaker and, in particular, the output of a
subwoofer is a low frequency, high-power signal that generates acoustic
energy that may affect the output of the sensor. In particular, the
output of the sensor may vibrate or move in response to the output of the
subwoofer.
[0006] One proposed solution to compensation is to use a microphone that
receives signals from the speaker and converts the signals to electrical
signals. However, interference from the subwoofer body may be present due
to the location of the microphone. Thus, the circuit may be very
accurate. Also, flexibility of packaging a microphone near the subwoofer
presents difficulties particularly in the limited automotive vehicle
package spaces.
[0007] It would therefore be desirable to remove the influence of the
subwoofer on the output of the sensor.
SUMMARY OF THE INVENTION
[0008] The present invention reduces the influence of the subwoofer on the
output of a sensor from prior known methods. In one aspect of the
invention, an assembly includes a seat having a seat base, an occupant
sensor positioned in the seat base, said occupant sensor comprising a
fluid filled bladder coupled to a pressure sensor, said pressure sensor
generating a pressure signal, an audio system having an electrical output
coupled to a speaker, said speaker positioned near the seat, said speaker
audibly coupled to the bladder, and a compensation circuit for a sensor
generating electrical sensor output is positioned near a speaker of an
audio system and comprises an inverting circuit electrically coupled to
the electrical output of the audio system. The inverting circuit
generates an inverted electrical signal corresponding to a speaker audio
output. A sensor controller is coupled to the inverting circuit and the
sensor. The controller generates a compensated electrical output in
response to the electrical sensor output and the inverted electrical
signal.
[0009] In a further aspect of the invention, a method for compensating for
an electrical output of a sensor includes generating an audible signal
from a speaker of an audio system, coupling an audible signal to an
occupant sensor and generating a sensor output signal corresponding to a
pressure output altered by the audible signal, generating an electrical
signal at an audio system output, inverting the electrical signal to form
an inverted electrical signal, and combining the inverted electrical
signal and the sensor output signal to form a compensated electrical
output.
[0010] One advantage of the invention is that the various sensors may be
packaged without regard to the location of the speakers of the audio
system. Such a system will therefore increase package flexibility in the
limiting packaging space of the automotive vehicle.
[0011] Other advantages and features of the present invention will become
apparent when viewed in light of the detailed description of the
preferred embodiment when taken in conjunction with the attached drawings
and appended claims.
BRIEF DESCRIPTION OF THE DRAWINGS
[0012] FIG. 1 is a schematic view of a compensation circuit according to
the present invention.
[0013] FIG. 2 is a plot of a normal sensor output.
[0014] FIG. 3 is a plot of the output of the subwoofer.
[0015] FIG. 4 is a plot of sensor output that has been affected by the
output of a subwoofer.
[0016] FIG. 5 is an exploded view of a seat assembly according to the
present invention.
[0017] FIG. 6 is a top view of a passenger occupant detection sensor
according to the present invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
[0018] The present invention is described with respect to a sensor and
subwoofer positioned in a passenger compartment of an automotive vehicle.
The present invention may also be used for sensors positioned within the
trunk compartment, engine compartment, or various other locations within
the automotive vehicle.
[0019] Referring now to FIG. 1, a passenger compartment 10 of an
automotive vehicle is illustrated having a compensation circuit 12
according to the present invention. The compensation circuit is
electrically coupled to an audio system 14. Compensation circuit 12 is
preferably coupled to an electrical output 16 of the audio system 14. The
electrical output 16 is used to electrically power a speaker 18. Speaker
18 may, for example, be a subwoofer or other type of speaker. The
electrical signal from the audio system generated by electrical output 16
is used to drive a transducer coil within speaker 18. The speaker 18
generates audible sound signals 20 which may be received and influence a
sensor 22. Thus, the electrical signal corresponds to eventual output of
the speaker. Sensor 22 may be one of a variety of types of sensors
including a pressure sensor. Thus, the output of the pressure sensor 22
is changed according to the audible signals 20 generated by speaker 18.
Sensor 22 is coupled to a sensor controller 24. Controller 24 is
preferably microprocessor-based. However, analog and or digital circuitry
may also act as a controller.
[0020] Compensation circuit 12 includes an inverting circuit 26 that has
an input 28 coupled to the electrical output 16 of audio system 14 and
therefore to the input of speaker 16. To filter out any DC offset,
capacitor C.sub.1 may be employed. Capacitor C.sub.1 is coupled to input
28 and to a resistor R.sub.1. Resistor R.sub.1 is coupled between
capacitor C.sub.1 and the inverting terminal 30 of an operational
amplifier 32. Inverting terminal 30 of operational amplifier 32 may also
be coupled to a feedback resistor R.sub.2 which in turn is coupled to an
output 34 of operational amplifier 32. Operational amplifier 32 may also
have a non-inverting terminal 36 coupled to a resistor R.sub.3 which in
turn is coupled to a reference voltage V 00 2 . By properly
choosing the resistance values of R.sub.1, R.sub.2, and R.sub.3, an
inverted electrical signal is generated at output 34. In one constructed
embodiment, the resistors R.sub.1 R.sub.2 R.sub.3 are equal to obtain
unity gain and was set to R1/2. By way of example, R.sub.1 and R.sub.2
may be 100 k ohms and R.sub.3 may be 50K ohms. The capacitor is sized to
block DC offset and thus depends on the input to which it is attached.
Capacitor C.sub.1 may, for example, be I uF. Of course, the resistor
values may be chosen to amplify the signals as well. Output 34 may be
electrically coupled to a delay circuit 40. Delay circuit 40 is an
optional feature that is used to align the inverting signal temporally
with the output of the sensor. Various types of circuits may be used for
delay circuit 40. Such circuits are well known to those skilled in the
art. The delay circuit generates a delay signal that is added to the
inverted electrical signal from the output 34 of operational amplifier
32. The delayed inverted output signal is coupled to controller 24.
Controller 24 combines the inverted electrical signal and the sensor
output signal to form a compensated output signal at an output 42 of
controller 24. Of course, controller 24 may also use the compensated
signal therein. Controller 24 may merely add the two signals together to
form the compensated electrical output.
[0021] Referring now to FIG. 2, a plot of the normal sensor output versus
time is illustrated.
[0022] In FIG. 3 the subwoofer output versus time is illustrated. This
signal is the electrical output of the audio system.
[0023] FIG. 4 includes the sensor output that has been affected by the
subwoofer output. When the electrical output of the audio system is
inverted and added to FIG. 4, the compensated output signal of the
present invention is thus similar to that of FIG. 2.
[0024] Advantageously, the present invention does not rely on the
positioning of a microphone or other transducer device directly adjacent
to the speaker. Thus, for automotive applications increased flexibility
is achieved in applying the compensation circuit of the present
invention.
[0025] Referring now to FIG. 5, the seat assembly 60 is illustrated having
a seat back 62 and seat base 64. The implementation of the present
invention may be in the passenger seat of an automotive vehicle. However,
various locations including the driver's seat of an automotive vehicle
may be employed.
[0026] A passenger occupant sensor or occupant sensor 66 is illustrated.
The occupant sensor 66 detects an amount of pressure on the seat so that
the presence of and weight of the occupant may be determined. The
occupant sensor may, for example, be a bladder 68 filled with silicone.
The pressure of the silicone determines the presence and weight of the
occupant as will be described below. The seat base 64 may also comprise a
cushion 70 and a backer board 72 placed therebehind. A felt pad 74 may be
disposed adjacent to the backer board 72. The cushion 70, sensor 66,
backer board 72, and felt pad 74 may be disposed upon seat frame 76. As
is illustrated in the figure, a speaker 18 such as a subwoofer may be
placed below the seat. The sound emanating from the speaker 18 induces a
change in the pressure of the occupant sensor and therefore the output of
the pressure sensor coupled to the occupant sensor needs to be adjusted
as described in conjunction with FIG. 1 above.
[0027] The occupant sensor 66 is illustrated in further detail. The
occupant sensor 66 has a pressure port 80 therein. The pressure port 80
receives fluid from the sensor. Fluid travels down the tube 82 and
reaches the pressure sensor 84. An occupant on the occupant sensor 66
creates a pressure in the fluid which is transmitted through the tube 82
and to the pressure sensor 84. Thus, as the pressure sensor output is
altered due to the acoustics of the speaker, the compensation circuit
subtracts an amount equivalent to the induced noise therein.
[0028] While particular embodiments of the invention have been shown and
described, numerous variations and alternate embodiments will occur to
those skilled in the art. Accordingly, it is intended that the invention
be limited only in terms of the appended claims.
* * * * *
