System and method for detecting loss of input phase by sensing after power rectifier

Having thus described one or more embodiments of the invention, what is claimed as new and desired to be protected by Letters Patent includes the following: 1 . An electric motor system comprising: an electric motor; and a motor control subsystem including a power rectifier operable to receive, rectify, and combine a plurality of spaced-apart sinusoidal input voltage signals to produce an output voltage signal to power the electric motor, a power factor correction circuit electrically connected to the power rectifier so as to receive the output voltage signal and operable to manage power flowing to the motor, a sensing circuit electrically connected between the power rectifier and the power factor correction circuit and operable to sense a voltage level of the output voltage signal, and a microprocessor in communication with the sensing circuit and the power factor correction circuit and operable to receive the sensed voltage level from the sensing circuit, compare the sensed voltage level to a predetermined threshold voltage level, wherein the predetermined threshold voltage level corresponds to at least a decrease in one of the plurality of spaced-apart sinusoidal input voltage signals, and if the sensed voltage level is below the predetermined threshold voltage level, send a signal to the power factor correction circuit to at least limit an output power to the electric motor. 2 . The electric motor system as set forth in claim 1 , wherein the electric motor is a multiple-phase permanent magnet motor. 3 . The electric motor system as set forth in claim 1 , wherein the power factor correction circuit and the sensing circuit each use approximately the same reference voltage. 4 . The electric motor system as set forth in claim 1 , wherein the predetermined threshold voltage level corresponds to a loss of one of the plurality of spaced-apart sinusoidal input voltage signals. 5 . The electric motor system as set forth in claim 1 , wherein the predetermined threshold voltage level is adjustable. 6 . The electric motor system as set forth in claim 1 , wherein the signal sent by the microprocessor causes the electric motor to shut off. 7 . A motor control system operable to control an electric motor, the motor control subsystem comprising: a power rectifier operable to receive, rectify, and combine three spaced-apart sinusoidal input voltage signals to produce an output voltage signal to power the electric motor; a capacitor operable to receive and smooth the output voltage signal; a power factor correction circuit electrically connected between the power rectifier and the capacitor and operable to manage power flowing to the motor; a sensing circuit electrically connected between the power rectifier and the power factor correction circuit and operable to sense a voltage level of the output voltage signal; and a microprocessor in communication with the sensing circuit and the power factor correction circuit and operable to receive the sensed voltage level from the sensing circuit, compare the sensed voltage level to a predetermined threshold voltage level, wherein the predetermined threshold voltage level corresponds to at least a decrease in one of the three spaced-apart sinusoidal input voltage signals, and if the sensed voltage level is below the predetermined threshold voltage level, send a signal to the power factor correction circuit to at least limit an output power to the electric motor. 8 . The motor control system as set forth in claim 7 , wherein the electric motor is a three-phase permanent magnet motor. 9 . The motor control system as set forth in claim 7 , wherein the power factor correction circuit and the sensing circuit each use approximately the same reference voltage. 10 . The motor control system as set forth in claim 7 , wherein the predetermined threshold voltage level corresponds to a loss of one of the three spaced-apart sinusoidal input voltage signals. 11 . The motor control system as set forth in claim 7 , wherein the predetermined threshold voltage level is adjustable. 12 . The motor control system as set forth in claim 1 , wherein the signal sent by the microprocessor causes the electric motor to shut off. 13 . A motor control system operable to control an electric motor, the motor control subsystem comprising: a power rectifier operable to receive, rectify, and combine three spaced-apart sinusoidal input voltage signals to produce an output voltage signal to power the electric motor; a capacitor operable to receive and smooth the output voltage signal; a power factor correction circuit electrically connected between the power rectifier and the capacitor and operable to manage power flowing to the motor; a sensing circuit electrically connected between the power rectifier and the power factor correction circuit and operable to sense a voltage level of the output voltage signal; and a microprocessor in communication with the sensing circuit and the power factor correction circuit and operable to receive the sensed voltage level from the sensing circuit, compare the sensed voltage level to a predetermined threshold voltage level, wherein the predetermined threshold voltage level corresponds to a loss of one of the three spaced-apart sinusoidal input voltage signals, and if the sensed voltage level is below the predetermined threshold voltage level, send a signal to shut off the electric motor. 14 . The motor control system as set forth in claim 13 , wherein the electric motor is a three-phase permanent magnet motor. 15 . The motor control system as set forth in claim 13 , wherein the power factor correction circuit and the sensing circuit each use approximately the same reference voltage. 16 . The motor control system as set forth in claim 13 , wherein the predetermined threshold voltage level is adjustable. 17 . A method of controlling an electric motor, the method comprising: (1) rectifying and combining three spaced-apart sinusoidal input voltage signals using a power rectifier, and producing an output voltage signal to power the electric motor; (2) smoothing the output voltage signal using a capacitor; (3) managing a power flowing to the electric motor using a power correction factor circuit located between the power rectifier and the capacitor; (4) sensing a voltage level of the output voltage signal using a sensing circuit located between the power rectifier and the power correction factor circuit; (5) comparing the sensed voltage level of the output voltage signal to a predetermined threshold voltage level, wherein the predetermined threshold voltage level corresponds to at least a decrease in one of the three spaced-apart sinusoidal input voltage signals; and (6) repeating step (5) a predetermined number of times during a predetermined period of time; and (7) if the sensed voltage level is below the predetermined threshold voltage level for at least the predetermined number of times during the predetermined period of time, sending a signal to at least limit the power flowing to the electric motor. 18 . The method as set forth in claim 17 , wherein the electric motor is a three-phase permanent magnet motor. 19 . The method as set forth in claim 17 , wherein the predetermined threshold voltage level corresponds to a loss of one of the three spaced-apart sinusoidal input voltage signals. 20 . The method as set forth in claim 17 , wherein the signal causes the electric motor to shut off.