Vehicular power generation control device and method
First Claim
1. A vehicular power generation control device for controlling output voltages of a vehicular power generator having a rotor that has a plurality of field poles, a field winding that magnetizes the field poles, a stator that has stator windings in which an AC voltage is induced by a rotating magnetic field caused by the rotor, and a rectifier that converts an output of the stator windings from AC to DC, comprising:
- a first switching means connected in series with the field winding;
a voltage control means for controlling the output voltage by controlling on/off conditions of the first switching means;
a start detection means detecting a start of an engine by detecting an output voltage waveform of the stator windings thereby to start operations of the voltage control means; and
an ignition switch closure detection means for detecting an ignition switch closure thereby to start operations of the voltage control means, wherein the operations of the start detection means are stopped when the ignition switch closure is detected by the ignition switch closure detection means.
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Accused Products
Abstract
A vehicular power generation control device has a voltage control circuit, a power supply circuit and a power control circuit. The voltage control circuit controls the field current of a power generator by turning on and off a transistor. The power control circuit has an ignition switch closure detection circuit and an engine rotation detection circuit. When a closure of the ignition switch is detected by the ignition switch closure detection circuit, an operation of the rotation detection circuit is stopped. When the closure is not detected, the operation of the rotation detection circuit is started.
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Citations
10 Claims
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1. A vehicular power generation control device for controlling output voltages of a vehicular power generator having a rotor that has a plurality of field poles, a field winding that magnetizes the field poles, a stator that has stator windings in which an AC voltage is induced by a rotating magnetic field caused by the rotor, and a rectifier that converts an output of the stator windings from AC to DC, comprising:
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a first switching means connected in series with the field winding;
a voltage control means for controlling the output voltage by controlling on/off conditions of the first switching means;
a start detection means detecting a start of an engine by detecting an output voltage waveform of the stator windings thereby to start operations of the voltage control means; and
an ignition switch closure detection means for detecting an ignition switch closure thereby to start operations of the voltage control means, wherein the operations of the start detection means are stopped when the ignition switch closure is detected by the ignition switch closure detection means. - View Dependent Claims (2, 3, 4, 5, 6, 7)
a second switching means which connects and disconnects the input terminal to a negative terminal of an onboard battery; and
a switching control means which turns on the second switching means prior to a start of the engine detected by the start detection means.
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4. A vehicular power generation control device as in claim 1, wherein the voltage control means starts passing a field current to the field winding by turning on the first switching means at a predetermined duty ratio when the ignition switch closure is detected by the ignition switch closure detection means.
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5. A vehicular power generation control device as in claim 2, wherein the operations of the voltage control means are stopped when the frequency of the phase voltage waveform becomes below a predetermined value, which is smaller than the predetermined value.
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6. A vehicular power generation control device as in claim 2, wherein the predetermined value is set smaller than twice the frequency corresponding to a number of rotations at which the vehicular power generator starts generating power in a fully energized state.
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7. A vehicular power generation control device as in claim 5, wherein the predetermined value is set smaller than the frequency corresponding to the number of rotations at which the vehicular power generator starts generating a power in a fully energized state.
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8. A vehicular power generation control method comprising steps of:
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detecting a start of operation of an engine from an ignition switch closure;
detecting the start of operation of the engine from a rotation of the engine; and
starting a field current control for a power generator of the engine when the start of operation of the engine is detected from the ignition switch closure or the rotation of the engine, wherein the step of detecting the start of operation of the engine from the rotation of the engine is disabled when the start of operation of the engine is detected from the ignition switch closure. - View Dependent Claims (9, 10)
the step of detecting the start of operation of the engine from the rotation measures a frequency of an output voltage of the power generator; and
the step of starting the field current control starts controlling a field current when the frequency exceeds a predetermined value.
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10. A vehicular power generation control method as in claim 9, wherein the output voltage of the power generator is detected from one of three-phase stator windings of the power generator.
Specification