Synchronous machine starting device

The invention claimed is: 1. A synchronous machine starting device comprising: a power conversion unit for converting supplied power into AC power and supplying the AC power to an armature of a synchronous machine; an AC voltage detection unit for detecting AC voltage supplied to or generated at the armature of said synchronous machine; an AC current detection unit for detecting AC current supplied to or generated at the armature of said synchronous machine; a rotor position detection unit for detecting a rotor position of said synchronous machine, based on said detected AC voltage and AC current; and a power conversion control portion for controlling said power conversion unit, based on said detected rotor position, said rotor position detection unit including: a timing detection unit for outputting a first position signal indicating a timing at which a value of said detected AC voltage passes a prescribed reference level; a feedback operation unit for calculating an error of an estimated phase based on said estimated phase indicating said rotor position, an estimated rotational speed of the rotor of said synchronous machine, as well as said detected AC voltage and AC current, updating said estimated phase and said estimated rotational speed based on said calculated phase error, and outputting a second position signal indicating said updated estimated phase; a frequency detection unit for detecting a first frequency corresponding to a rotational speed of the rotor of said synchronous machine at the time of starting of said synchronous machine starting device based on said first position signal, for use as an initial frequency corresponding to an initial value of said estimated rotational speed; and a selector circuit for selecting said first position signal or a position signal obtained based on said first position signal, outputting the selected signal to said power conversion control portion as a signal indicating the rotor position of said synchronous machine, releasing selection of said first position signal or the position signal obtained based on said first position signal, and thereafter selecting said second position signal for output to said power conversion control portion as a signal indicating the rotor position of said synchronous machine. 2. The synchronous machine starting device according to claim 1 , wherein said rotor position detection unit further includes: an initial frequency selection unit for selecting either one of said first frequency and a prescribed second frequency as said initial frequency; said second frequency is a frequency corresponding to a prescribed rotational speed of said rotor during standby of said synchronous machine; said initial frequency selection unit selects said first frequency where an absolute value of said detected AC voltage is a prescribed value or higher at the time of starting of said synchronous machine starting device; and said initial frequency selection unit selects said second frequency where the absolute value of said detected AC voltage does not reach said prescribed value within a prescribed time at the time of starting of said synchronous machine starting device. 3. The synchronous machine starting device according to claim 1 , wherein said rotor position detection unit further includes an initial frequency selection unit for selecting either one of said first frequency and a prescribed second frequency as said initial frequency, said second frequency is a frequency corresponding to a predetermined rotational speed of said rotor during standby of said synchronous machine, said initial frequency selection unit selects said first frequency where the number of times that the value of said detected AC voltage passes said reference level within a prescribed time is a prescribed number or greater at the time of starting of said synchronous machine starting device, and said initial frequency selection unit selects said second frequency where the number of times that the value of said detected AC voltage passes said reference level within said prescribed time is smaller than said prescribed number at the time of starting of said synchronous machine starting device. 4. The synchronous machine starting device according to claim 1 , wherein said selector circuit initially selects said first position signal for output to said power conversion control portion, and then selects said second position signal for output to said power conversion control portion. 5. The synchronous machine starting device according to claim 1 , wherein said rotor position detection unit further includes an AC signal generation unit for outputting a third position signal that is an AC signal having said initial frequency and having a phase adjusted to be synchronized with said first position signal, and said selector circuit selects said first position signal, said third position signal, and said second position signal in this order, for output to said power conversion control portion. 6. The synchronous machine starting device according to claim 1 , wherein said rotor position detection unit further includes an AC signal generation unit for outputting a third position signal that is an AC signal having said initial frequency and having a phase adjusted to be synchronized with said first position signal, and said selector circuit initially selects said third position signal for output to said power conversion control portion, and then selects said second position signal for output to said power conversion control portion. 7. The synchronous machine starting device according to claim 1 , wherein said rotor position detection unit further includes an AC signal generation unit for outputting a third position signal that is an AC signal having said initial frequency and having a phase adjusted to be synchronized with said first position signal, where an absolute value of said detected AC voltage is a prescribed value or higher at the time of starting of said synchronous machine starting device, said selector circuit initially selects said first position signal for output to said power conversion control portion, and then selects said second position signal for output to said power conversion control portion, and where the absolute value of said detected AC voltage does not reach said prescribed value within a prescribed time at the time of starting of said synchronous machine starting device, said selector circuit selects said first position signal, said third position signal, and said second position signal in this order, for output to said power conversion control portion. 8. The synchronous machine starting device according to claim 1 , wherein said rotor position detection unit further includes an AC signal generation unit for outputting a third position signal that is an AC signal having said initial frequency and having a phase adjusted to be synchronized with said first position signal, where the number of times that the value of said detected AC voltage passes said reference level within a prescribed time is a prescribed number or greater at the time of starting of said synchronous machine starting device, said selector circuit initially selects said first position signal for output to said power conversion control portion, and then selects said second position signal for output to said power conversion control portion, and where the number of times that the value of said detected AC voltage passes said reference level within said prescribed time is smaller than said prescribed number at the time of starting of said synchronous machine starting device, said selector circuit selects said first position signal, said third position signal, and said second position signal in this order, for output t