Passive restraint control system for vehicles
First Claim
1. A method of determining passive restraint deployment for a vehicle having an accelerometer mounted therein comprising the steps of:
- generating an acceleration signal from the accelerometer;
feeding the acceleration signal through a high pass filter to create an impact mode signal in a high frequency range;
feeding the acceleration signal through a low pass filter in parallel with the high pass filter to create an impact severity signal in a low frequency range;
comparing the impact mode signal to a predetermined impact mode threshold;
comparing the impact severity signal to a predetermined impact severity threshold; and
sending a deployment signal only if both the impact mode threshold and the impact severity threshold are exceeded.
1 Assignment
0 Petitions
Accused Products
Abstract
An impact system employs an accelerometer (40), which produces an acceleration signal (70), and communicates it with a restraints control module (38) that, in turn, determines when switches (58) for passive restraint actuation will be activated. The restraints control module (38) decomposes the acceleration signal (70) via low (44) and high (46) pass filters into a high frequency signal (74), which is used for impact mode determination (78), and a low frequency signal (76), which is used for impact severity determination (80). The results of the two determinations are then used to make a deployment decision (82) for one or more of the passive restraints (30, 32, 34) in the vehicle (20).
-
Citations
18 Claims
-
1. A method of determining passive restraint deployment for a vehicle having an accelerometer mounted therein comprising the steps of:
-
generating an acceleration signal from the accelerometer;
feeding the acceleration signal through a high pass filter to create an impact mode signal in a high frequency range;
feeding the acceleration signal through a low pass filter in parallel with the high pass filter to create an impact severity signal in a low frequency range;
comparing the impact mode signal to a predetermined impact mode threshold;
comparing the impact severity signal to a predetermined impact severity threshold; and
sending a deployment signal only if both the impact mode threshold and the impact severity threshold are exceeded. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
-
9. A method of determining passive restraint deployment for a vehicle having an accelerometer mounted therein comprising the steps of:
- generating an acceleration signal from the accelerometer;
feeding the acceleration signal through a high pass filter to create an impact mode signal in a high frequency range;
feeding the acceleration signal through a low pass filter in parallel with the high pass filter to create an impact severity signal in a low frequency range;
creating a predetermined impact severity threshold;
adjusting the impact severity threshold based upon the impact mode signal;
comparing the impact severity signal to the adjusted impact severity threshold; and
sending a deployment signal if the impact severity signal exceeds the adjusted impact severity threshold. - View Dependent Claims (10, 11, 12, 13, 14)
- generating an acceleration signal from the accelerometer;
-
15. A system for determining the deployment of passive restraints on a vehicle having a single point impact sensor comprising:
-
an accelerometer mounted within the vehicle for producing an acceleration signal;
a high pass filter for receiving and filtering the acceleration signal to produce an impact mode signal;
a low pass filter in parallel with the high pass filter for receiving and filtering the acceleration signal to produce an impact severity signal; and
a microcomputer operative to receive the impact mode signal and distinguish between at least two different impact modes, receive the impact severity signal and determine an impact severity being experienced by the vehicle, and make a deployment decision based on the impact mode and the impact severity. - View Dependent Claims (16, 17, 18)
-
Specification