Driving/electric-power generating system for vehicle
First Claim
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1. A driving/electric-power generating system for vehicle comprising:
- an electric rotating machine comprised of a rotor and a stator having a three-phase winding; and
a three-phase inverter connected to the three-phase winding,wherein the three-phase winding is comprised of a first and second three-phase winding, the first and second three-phase windings are independent three-phase windings,wherein U-phase, V-phase and W-phase windings of the first three-phase winding are electrically displaced with respect to corresponding U-phase, V-phase and W-phase windings of the second three-phase winding, andwherein switching elements for respective phases in the three-phase inverter are connected in parallel by the number of windings in the first and second three-phase windings, each winding of the first and second three-phase windings is individually connected to each of the parallel switching elements by phase, wherein the switching elements of the inverter are divided into three groups corresponding to three phases, and the switching elements of each same group are driven with the same gate signal, andwherein an on-off timing of the three-phase inverter corresponding to the respective U-phase, V-phase and W-phase windings of the first and second three-phase windings is an intermediate timing between induced voltages of the respective U-phase, V-phase and W-phase windings.
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Abstract
An AC generator comprises a rotor and a stator having a three-phase winding. A three-phase inverter is connected to the three-phase winding. Here, the three-phase winding comprises at least two independent three-phase windings. Switching elements for respective phases of the three-phase inverter are connected in parallel by the number of the independent three-phase windings, and in-phase windings are individually connected to their parallel switching elements.
21 Citations
8 Claims
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1. A driving/electric-power generating system for vehicle comprising:
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an electric rotating machine comprised of a rotor and a stator having a three-phase winding; and a three-phase inverter connected to the three-phase winding, wherein the three-phase winding is comprised of a first and second three-phase winding, the first and second three-phase windings are independent three-phase windings, wherein U-phase, V-phase and W-phase windings of the first three-phase winding are electrically displaced with respect to corresponding U-phase, V-phase and W-phase windings of the second three-phase winding, and wherein switching elements for respective phases in the three-phase inverter are connected in parallel by the number of windings in the first and second three-phase windings, each winding of the first and second three-phase windings is individually connected to each of the parallel switching elements by phase, wherein the switching elements of the inverter are divided into three groups corresponding to three phases, and the switching elements of each same group are driven with the same gate signal, and wherein an on-off timing of the three-phase inverter corresponding to the respective U-phase, V-phase and W-phase windings of the first and second three-phase windings is an intermediate timing between induced voltages of the respective U-phase, V-phase and W-phase windings.
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2. A driving/electric-power generating system for vehicle comprising:
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an electric rotating machine comprised of a rotor and a stator having a three-phase winding; and a three-phase inverter connected to the three-phase winding, wherein the three-phase winding is comprised of a first and second three-phase winding, the first and second three-phase windings are independent three-phase windings, wherein U-phase, V-phase and W-phase windings of the first three-phase winding are electrically displaced with respect to corresponding U-phase, V-phase and W-phase windings of the second three-phase winding, and wherein switching elements for respective phases in the three-phase inverter are connected in parallel by the number of windings in the first and second three-phase windings, each winding of the first and second three-phase windings is individually connected to each of the parallel switching elements by phase, wherein the switching elements of the inverter are divided into three groups corresponding to three phases, and the switching elements of each same group are driven with the same gate signal, and wherein the switching elements are MOS-FETs and a timing provided to perform switching to MOS rectification upon an electric power generating operation of the electric rotating machine is produced based on a coil current delayed in phase, of the same phase coils of the independent three-phase windings. - View Dependent Claims (3, 4)
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5. A driving/electric-power generating system for vehicle comprising:
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an electric rotating machine comprised of a rotor and a stator having a three-phase winding; and a three-phase inverter connected to the three-phase winding, wherein the three-phase winding is comprised of a first and second three-phase winding, the first and second three-phase windings are independent three-phase windings, wherein U-phase, V-phase and W-phase windings of the first three-phase winding are electrically displaced with respect to corresponding U-phase, V-phase and W-phase windings of the second three-phase winding, wherein switching elements for respective phases in the three-phase inverter are connected in parallel by the number of windings in the first and second three-phase windings, each winding of the first and second three-phase windings is individually connected to each of the parallel switching elements by phase, wherein each phase winding of the first and second three-phase windings is individually connected to each switching element of the inverter by phase, the each switching elements is controlled by individual gate signals and the inverter is of a 180°
voltage-driven system, andwherein the switching elements are MOS-FETs, and upon the electric power generating operation of the electric rotating machine, the gate signals that drive the MOS-FETs are produced by converting diode currents flowing through individual diodes to voltages, and a reference voltage for producing an on-signal of the gate signals and a reference voltage for producing an off-signal of the gate signals are different from each other in voltage. - View Dependent Claims (6, 7, 8)
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Specification