Electrostatic occupant detection system
First Claim
1. An electrostatic occupant detection system, comprising:
- an electrostatic sensor including an electrode disposed in a vehicle seat; and
an electronic control unit configured to output a sine wave to the electrostatic sensor to have the electrode generate an electric field, the electronic control unit including a current detection resistor connected to the electrostatic sensor, the electronic control unit detecting an electric current or a voltage at the current detection resistor which changes in accordance with the electric field, the electric control unit determining the presence of an occupant based on the electric current or the voltage, whereinthe electronic control unit is switchable between an occupant determination state in which the electronic control unit outputs a sine wave having a constant amplitude and a diagnosis state in which the electronic control unit maintains a direct current DC voltage of the electrostatic sensor at a constant level, andthe electronic control unit gradually changes at least one of an amplitude and a frequency of the sine wave when the electronic control unit switches from the occupant determination state to the diagnosis state or when the electronic control unit switches from the diagnosis state to the occupant determination state.
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Accused Products
Abstract
An electrostatic occupant detection system includes an electrostatic sensor and an electronic control unit. The electronic control unit is switchable between an occupant determination state in which the electronic control unit outputs a sine wave having a constant amplitude and a diagnosis state in which the electronic control unit maintains a voltage of the electrostatic sensor at a constant level. The electronic control unit gradually changes at least one of an amplitude and a frequency of the sine wave either when the electronic control unit switches from the occupant determination state to the diagnosis state and/or when the electronic control unit switches from the diagnosis state to the occupant determination state.
12 Citations
10 Claims
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1. An electrostatic occupant detection system, comprising:
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an electrostatic sensor including an electrode disposed in a vehicle seat; and an electronic control unit configured to output a sine wave to the electrostatic sensor to have the electrode generate an electric field, the electronic control unit including a current detection resistor connected to the electrostatic sensor, the electronic control unit detecting an electric current or a voltage at the current detection resistor which changes in accordance with the electric field, the electric control unit determining the presence of an occupant based on the electric current or the voltage, wherein the electronic control unit is switchable between an occupant determination state in which the electronic control unit outputs a sine wave having a constant amplitude and a diagnosis state in which the electronic control unit maintains a direct current DC voltage of the electrostatic sensor at a constant level, and the electronic control unit gradually changes at least one of an amplitude and a frequency of the sine wave when the electronic control unit switches from the occupant determination state to the diagnosis state or when the electronic control unit switches from the diagnosis state to the occupant determination state. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An electrostatic occupant detection system, comprising:
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an electrostatic sensor including an electrode disposed in a vehicle seat; and an electronic control unit ECU configured to output a sine wave to the electrostatic sensor to have the electrode generate an electric field, the electronic control unit including a current detection resistor connected to the electrostatic sensor, the electronic control unit detecting an electric current or a voltage at the current detection resistor which changes in accordance with the electric field, the electronic control unit determining the presence of an occupant based on the electric current or the voltage, wherein the ECU is switchable between an occupant determination state in which the ECU outputs a sine wave having a constant amplitude and a diagnosis state in which the ECU maintains a direct current DC voltage of the electrostatic sensor at a constant level, and the ECU gradually changes at least one of an amplitude and a frequency of the sine wave when the ECU switches from the occupant determination state to the diagnosis state or when the ECU switches from the diagnosis state to the occupant determination state, wherein the constant level of the DC voltage of the electrostatic sensor in the diagnosis state is lower than the DC bias voltage level of the sine wave output in the occupant determination state; the ECU includes at least one of a sine wave attenuation portion and a sine wave amplification portion; the sine wave attenuation portion attenuates the amplitude of the sine wave while decreasing the DC bias voltage level of the sine wave by multiplying the sine wave that has the constant amplitude and is output in the occupant determination state by a first output signal that linearly decreases from the DC bias voltage level of the sine wave in the occupant determination state to the constant level of the DC voltage level in the diagnosis state; and the sine wave amplification portion amplifies the amplitude of the sine wave while increasing the DC bias voltage level of the sine wave by multiplying the sine wave that has the constant amplitude and is output in the occupant determination state by a second output signal that linearly increases from the constant level of the DC voltage level in the diagnosis state to the DC bias voltage level of the sine wave in the occupant determination state.
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10. An electrostatic occupant detection system, comprising:
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an electrostatic sensor including an electrode disposed in a vehicle seat; and an electronic control unit ECU configured to output a sine wave to the electrostatic sensor to have the electrode generate an electric field, the electronic control unit including a current detection resistor connected to the electrostatic sensor, the electronic control unit detecting an electric current or a voltage at the current detection resistor which changes in accordance with the electric field, the electronic control unit determining the presence of an occupant based on the electric current or the voltage, wherein the ECU is switchable between an occupant determination state in which the ECU outputs a sine wave having a constant amplitude and a diagnosis state in which the ECU maintains a direct current (DC) voltage of the electrostatic sensor at a constant level, and the ECU gradually changes at least one of an amplitude and a frequency of the sine wave when the ECU switches from the occupant determination state to the diagnosis state or when the ECU switches from the diagnosis state to the occupant determination state, and wherein the constant level of the DC voltage of the electrostatic sensor in the diagnosis state is different from a DC bias voltage level of the sine wave output in the occupant determination state; the ECU includes at least one of a diagnosis state transition portion and an occupant determination state transition portion, wherein the diagnosis state transition portion includes a sine wave attenuation portion that attenuates the amplitude of the sine wave output to the electrostatic sensor for a N-period of the sine wave from the constant amplitude in the occupant determination state to zero by 1/N of the constant amplitude per one period, and a first direct-current shift control portion that decreases or increases the voltage output to the electrostatic sensor to the constant level of the DC voltage in the diagnosis state with a slew rate control after the sine wave attenuation portion attenuates the amplitude to zero, and N is a natural number; wherein the occupant determination state transition portion includes a sine wave amplification portion and a second direct-current shift control portion, wherein the second direct-current shift control portion decreases or increases the voltage output to the electrostatic sensor to the DC bias voltage level of the sine wave in the occupant determination state by a slew rate control while maintaining the amplitude zero; and the sine wave amplification portion amplifies the amplitude of the sine wave output to the electrostatic sensor for the N-period of the sine wave from zero to the constant amplitude in the occupant determination state by 1/N of the constant amplitude per one period while maintaining the voltage decreased or increased by the second direct-current shift control portion.
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Specification