초록 ▼

A method for controlling voltages in an integrated starter alternator electric machine is provided where the armature windings are manipulated in a Δ/Y/Δ fashion. In particular, the armature windings are arranged in a Δ connection during engine cranking operation, when the electric machine acts as a

A method for controlling voltages in an integrated starter alternator electric machine is provided where the armature windings are manipulated in a Δ/Y/Δ fashion. In particular, the armature windings are arranged in a Δ connection during engine cranking operation, when the electric machine acts as a starter motor. After the engine is cranked, the windings are changed into a Y connection when the ISAD machine changes from motoring to generating and operates a low speeds, such as idle speed. Next, when the engine speed increases above a predetermined winding reconfiguration speed, the windings are switched from Y to Δ connection. If the engine speed falls below the winding reconfiguration speed, the machine again switches the armature windings to a Y connection to take advantage of the efficiencies of the Y connection at that low speed range in the generating state.

대표청구항 ▼

1. An electric machine for use as both a starter and an alternator in an engine, the electric machine operable to run at various speeds including a cranking speed, an idle speed, and a winding reconfiguration speed, the electric machine comprising:a. a stator having three phase stator windings; b. a

1. An electric machine for use as both a starter and an alternator in an engine, the electric machine operable to run at various speeds including a cranking speed, an idle speed, and a winding reconfiguration speed, the electric machine comprising:a. a stator having three phase stator windings; b. a rotor disposed in proximity to the stator such that the rotor is in electromagnetic communication with the stator, the rotor operable to rotate the various speeds; c. a plurality of wye switches connected between the three phase stator windings such that closure of the wye switches will cause the three phase stator windings to be connected in a wye configuration; d. a plurality of delta switches connected between the three stator windings such that closure of the delta switches will cause the three phase stator windings to be connected in a delta configuration; e. a microprocessor in electric communication with the plurality of delta switches and wye switches, the microprocessor operable to communicate instructions to (i) close the delta switches during cranking of the engine, (ii) close the wye switches when the engine has started and the speed of rotor rotation is about equivalent to the idle speed, and (iii) close the delta switches when the speed of rotor rotation is about equivalent to the winding reconfiguration speed. 2. The electric machine of claim 1 wherein the idle speed is about 500 rpm.3. The electric machine of claim 1 wherein the winding reconfiguration speed is a boosted speed.4. The electric machine of claim 1 where the winding reconfiguration speed is about 1.7 times the idle speed.5. The electric machine of claim 1 wherein the plurality of delta switches are bi-directional switches.6. The electric machine of claim 1 wherein the plurality of wye switches are bi-directional switches.7. A method of controlling an electric machine for use in association with an engine, the electric machine having armature windings and a rotor capable of rotating at various speeds, the method comprising:a. connecting the armature windings in a delta connection and operating the electric machine as a cranking motor during engine cranking; b. connecting the armature windings in a wye connection and operating the electric machine as a generator after the engine has started and when the rotor is rotating at a low speed; and c. connecting the armature windings in a delta connection and continuing to operate the electric machine as a generator when the rotor is rotating at a higher electric machine speed. 8. The method of claim 7 where the low speed is near engine idle speed.9. The method of claim 7 wherein the armature windings are connected in a delta connection when the higher electric machine speed is a boosted speed.10. The method of claim 7 wherein the higher electric machine speed is greater than 1.3 times the idle speed.11. The method of claim 7 wherein the higher electric machine speed is greater than 1.7 times the idle speed.12. The method of claim 7 wherein a plurality of delta switches are used to connect the armature windings in a delta connection.13. The method of claim 7 wherein a plurality of wye switches are used to connect the armature windings in a wye connection.14. A method of operating an electric machine for use as both a starter and an alternator in an engine, the electric machine having at least three stator windings and a rotor disposed in proximity to the stator such that the rotor is in electro-magnetic communication with the stator and operable to rotate at a plurality of speeds including a cranking speed, an idle speed, and a winding reconfiguration speed, the method comprising:a. providing a plurality of wye switches connected between the three stator windings such that closure of the wye switches will cause the three stator windings to be connected in a wye configuration; b. providing a plurality of delta switches connected between the three stator windings such that closure of the delta switches will cause the three stator windings to be connected in a delta configuration; c. closing the delta switches so the stator windings are connected in a delta configuration during cranking of the engine; d. closing the wye switches so the stator windings are connected in a wye configuration during idle speed; and e. closing the delta switches so the stator windings are connected in a delta configuration at the winding reconfiguration speed. 15. The method of claim 14 wherein the winding reconfiguration speed is at least 1.3 times the idle speed.16. The method of claim 14 wherein the winding reconfiguration speed is at least 1.7 times the idle speed.17. An electric machine for use as both a starter and an alternator in an engine, the electric machine comprising:a. a stator having at least three stator windings; b. a rotor disposed in proximity to the stator such that the rotor is in electro-magnetie communication with the stator, the rotor operable to rotate at a plurality of speeds including a cranking speed, an idle speed, and a winding reconfiguration speed; c. a microprocessor in electric communication with a plurality of switches, the microprocessor operable to (i) provide a control signal causing the stator windings to be configured in a delta connection when the rotor is rotating at the cranking speed, (ii) provide a control signal causing the stator windings to be configured in a wye connection when the rotor is rotating at the idle speed, and (iii) providing a control signal causing the stator windings to be configured in a delta connection when the rotor is rotating at the winding reconfiguration speed. 18. An integrated starter and alternator for use with an engine and a crankshaft, the integrated starter and alternator operable at a plurality of speeds including a cranking speed, a low speed, and a winding reconfiguration speed, the integrated starter and alternator operable as a cranking motor for the engine before it starts and operable as a generator driven by the engine after the engine starts, the integrated starter and alternator comprising:a. a stator having a plurality of armature windings; b. a rotor in electromagnetic communication with the stator and connected to the crankshaft; c. means for connecting the armature windings in a delta configuration when the rotor is rotating at the cranking speed and the winding reconfiguration speed; and d. means for connecting the armature windings in a wye configuration when the rotor is rotating at a low speed. 19. The method of claim 18 wherein the low speed is a speed near idle speed.20. An integrated starter and alternator for use with an engine, the integrated starter and alternator operable at a plurality of speeds including a cranking speed, a low speed, and a winding reconfiguration speed, the integrated starter and alternator operable as a cranking motor for the engine before it starts and operable as a generator driven by the engine after the engine starts, the integrated starter and alternator comprising:a. a stator having a plurality of armature windings; b. a rotor in electromagnetic communication with the stator and connected to the engine by a belt; c. means for connecting the armature windings in a delta configuration when the rotor is rotating at the cranking speed and the winding reconfiguration speed; and d. means for connecting the armature windings in a wye configuration when the rotor is rotating at a low speed. 21. The method of claim 20 wherein the low speed is a speed near idle speed.