Methods of braking motors and motor starters employing the same

What is claimed is: 1. A method comprising: connecting pairs of phases of an AC power source to pairs of phases of a motor in a first sequence that repeats at a first frequency, wherein connecting pairs of phases of an AC power source to pairs of phases of the motor in the first sequence comprises turning on pairs of switches that connect pairs of phases of the AC power source to pairs of phases of the motor to provide the first sequence; and braking the motor by connecting pairs of phases of the AC power source to pairs of phases of the motor in a second sequence that is reversed with respect to the first sequence and that repeats at a second frequency less than the first frequency, wherein connecting pairs of phases of the AC power source to pairs of phases of the motor in a second sequence comprises turning on pairs of the switches to provide the second sequence. 2. The method of claim 1 , wherein the first frequency is a fundamental line frequency of the AC power source and wherein the second frequency is one fifth or less of the fundamental line frequency of the AC power source. 3. The method of claim 1 , wherein connecting pairs of phases of an AC power source to pairs of phases of the motor in the first sequence is followed by and braking the motor by connecting pairs of phases of the AC power source to pairs of phases of the motor in a second sequence is preceded by blocking current conduction between the AC power source and the motor for a predetermined dwell interval. 4. The method of claim 3 , wherein the dwell interval is greater than a time constant of the motor. 5. The method of claim 3 , wherein the dwell interval is from about 8 seconds to about 12 seconds. 6. The method of claim 1 , wherein turning on pairs of the switches to provide the second sequence comprises incrementally increasing conduction intervals of the switches. 7. The method of claim 6 , wherein incrementally increasing conduction intervals of the switches comprises increasing the conduction intervals until a current provided to the motor reaches a predetermined limit and wherein the method further comprises limiting the conduction intervals responsive to the current reaching the predetermined limit. 8. The method of claim 1 , wherein braking the motor by connecting pairs of phases of the AC power source to pairs of phases of the motor in a second sequence is followed by blocking current conduction between the AC power source and the motor responsive to a speed of the motor meeting a predetermined criterion. 9. The method of claim 8 , further comprising detecting a current of the motor and wherein blocking current conduction between the AC power source and the motor responsive to a speed of the motor meeting a predetermined criterion comprises blocking current conduction between the AC power source and the motor responsive to the detected current. 10. A motor starter configured to perform the method of claim 1 . 11. A method comprising: connecting pairs of phases of an AC power source to pairs of phases of a motor in a first sequence; disconnecting all of the phases of the motor from the AC power source for a predetermined dwell interval having a duration greater than a time constant of the motor; and braking the motor by connecting pairs of phases of the AC power source to pairs of phases of the motor in a second sequence that is reversed with respect to the first sequence, and blocking current conduction between the AC power source and the motor responsive to a speed of the motor meeting a predetermined criterion. 12. The method of claim 11 , wherein the dwell interval is from about 8 seconds to about 12 seconds. 13. The method of claim 11 , wherein braking the motor by connecting pairs of phases of the AC power source to pairs of phases of the motor in a second sequence that is reversed with respect to the first sequence comprises incrementally increasing the intervals during which pairs of phases of the AC power source are connected to pairs of phases of the motor until a current provided to the motor reaches a predetermined limit and wherein the method further comprises limiting the intervals responsive to the current reaching the predetermined limit. 14. The method of claim 11 , wherein the second sequence is reversed with respect to the first sequence. 15. The method of claim 11 , further comprising detecting a current of the motor and wherein blocking current conduction between the AC power source and the motor responsive to a speed of the motor meeting a predetermined criterion comprises blocking current conduction between the AC power source and the motor responsive to the detected current. 16. A motor starter configured to perform the method of claim 11 . 17. A motor starter comprising: a plurality of switches configured to selectively connect phases of an AC power source to phases of motor; and a control circuit configured to operate the plurality of switches to connect pairs of phases of an AC power source to pairs of phases of the motor in a first sequence that repeats at a first frequency to thereby drive the motor and to operate the plurality of switches to connect pairs of phases of the AC power source to pairs of phases of the motor in a second sequence that is reversed with respect to the first sequence and that repeats at a second frequency less than the first frequency to thereby brake the motor, wherein the control circuit is configured to cause the plurality of switches to disconnect all of the phases of the motor from the AC power source for a predetermined dwell interval before initiating the second sequence. 18. The motor starter of claim 17 , wherein the first frequency is a fundamental line frequency of the AC power source and wherein the second frequency is one fifth or less of the fundamental line frequency of the AC power source. 19. The motor starter of claim 17 , wherein the dwell interval is greater than a time constant of the motor. 20. The motor starter of claim 17 , wherein the control circuit is configured to incrementally increase conduction intervals of the switches when producing the second sequence. 21. The motor starter of claim 20 , wherein the control circuit is configured to incrementally increase the conduction intervals when producing the second sequence until a current provided to the motor reaches a predetermined limit and to then limit the conduction intervals responsive to the current reaching the predetermined limit. 22. The motor starter of claim 17 , wherein the control circuit is configured to operate the plurality of switches to disconnect all of the phases of the motor from the AC power source responsive to a speed of the motor meeting a predetermined criterion. 23. The motor starter of claim 22 , wherein the control circuit is configured to detect a current of the motor and to operate the plurality of switches to disconnect all of the phases of the motor from the AC power source responsive to the detected current. 24. A motor starter comprising: a plurality of switches configured to selectively connect phases of an AC power source to phases of motor; and a control circuit configured to operate the plurality of switches to connect pairs of phases of an AC power source to pairs of phases of the motor in a first sequence to thereby drive the motor, to operate the plurality of switches to disconnect all of the phases of the motor from the AC power source for a predetermined dwell interval having a duration g