Circuit and method for controlling electric power delivered to an electric motor

What is claimed is: 1. A circuit for controlling electric power delivered to an electric motor, comprising: an input port configured to receive a first command and a second command; an output port configured to transmit a first control signal and a second control signal; a sensor of the electric power delivered to the electric motor; and a processor electrically connected to the input port, to the output port and to the sensor, the processor being configured to: cause the output port to transmit the first control signal when the input port receives the first command while a first latch is not set, set the first latch and causing the output port to stop transmitting the first control signal when a level of the electric power delivered to the electric motor exceeds a power threshold while the input port receives the first command, reset the first latch and causing the output port to transmit the second control signal when the input port receives the second command, cause the output port to stop transmitting the first and second control signals when no command is present at the input port, reset a second latch when the input port receives the first control signal, and set the second latch and cause the output port to stop transmitting the second control signal when the level of the electric power delivered to the electric motor exceeds the power threshold while the input port receives the second command. 2. The circuit of claim 1 , wherein the first and second latches are software latches. 3. The circuit of claim 1 , wherein: the sensor comprises a shunt resistor connectable in series with the electric motor and an amplifier of a voltage across the shunt resistor, the amplifier providing an electric current value; and the processor is further configured to determine the level of the electric power delivered to the electric motor based on the electric current value. 4. The circuit of claim 1 , further comprising one or more configuration switches electrically connected to the processor and configured to configure a value of the power threshold. 5. The circuit of claim 1 , wherein the processor is further configured to: start a timer when the input port receives one of the first and second commands; stop the timer after a predetermined time delay; and ignore any additional signal present at the input port while the timer is not stopped. 6. A device for controlling electric power delivered to an electric motor, comprising: the circuit of claim 1 ; a user-operable switch electrically connected to the input port, the user-operable switch having a first position for providing the first command, a second position for providing the second command, and a neutral position; a reversible contactor electrically connected to the output port and configured to selectively connect the electric motor to a power source to cause the electric motor to operate in a first direction when receiving the first control signal at the reversible contactor and to cause the electric motor to operate in a second direction when receiving the second control signal at the reversible contactor. 7. The device of claim 6 , further comprising a bypass switch electrically connected to the input port, wherein the processor is further configured to unconditionally reset the first latch when the bypass switch issues a bypass command. 8. The device of claim 6 , wherein the circuit further comprises an amplifier stage electrically connected to the processor and to the reversible contactor, the amplifier stage having a first amplifier of the first control signal and a second amplifier of the second control signal. 9. The device of claim 8 , wherein the reversible contactor comprises: a first coil electrically connected to the first amplifier and responsive to the amplified first control signal to close a first contactor for causing delivery of electric power to the electric motor to cause the electric motor to operate in the first direction; and a second coil electrically connected to the second amplifier and responsive to the amplified second control signal to close a second contactor for causing delivery of electric power to the electric motor to cause the electric motor to operate in the second direction. 10. A winch, comprising: an electric motor electrically connectable to a battery; a cable roll operatively connected to the electric motor; a cable having one end fixedly attached to the cable roll; and the device of claim 6 ; wherein operating the electric motor in the second direction causes rotating the cable roll in a reverse direction to allow unwinding the cable from the cable roll; and wherein operating the electric motor in the first direction causes the cable roll to be driven in a forward direction for winding the cable on the cable roll. 11. A method implemented in a controller for controlling electric power delivered to an electric motor, comprising: receiving, at the controller, one of a first command and a second command; sensing, at the controller, the electric power delivered to the electric motor; when the second command is received at the controller, resetting a first latch at the controller and transmitting a second control signal from the controller to a reversible contactor electrically connected to the electric motor and to a power source, the second control signal causing the reversible contactor to deliver current from the power source to the electric motor to cause the electric motor to operate in a second direction; when the first command is received at the controller while the first latch is not set, transmitting a first control signal from the controller to the reversible contactor, the first control signal causing the reversible contactor to deliver current from the power source to the electric motor to cause the electric motor to operate in a first direction; setting, at the controller, the first latch and terminating transmission of the first control signal when the level of the electric power delivered to the electric motor exceeds the power threshold while the first command is being received at the controller; terminating, at the controller, transmission of the first and second control signals when none of the first and second command is received; resetting a second latch when the controller receives the first control signal; and setting, at the controller, the second latch and terminating transmission of the second control signal when the level of the electric power delivered to the electric motor exceeds the power threshold while the second command is being received at the controller. 12. The method of claim 11 , wherein the power source comprises a battery. 13. A method of controlling a winch operatively connected to an electric motor, comprising: receiving, at a controller from a user-operable switch, one of a first command and a second command; sensing, at the controller, a level of electric power delivered to the electric motor; when the second command is received at the controller, resetting a first latch at the controller and transmitting a second control signal from the controller to a reversible contactor electrically connected to the electric motor and to a power source, the second control signal causing the reversible contactor to deliver current from the power source to the electric motor to cause the electric motor and the winch to operate in a reverse direction; when the first command is received at the controller while the first latch is not set, transmitting a first control signal from the controller to the reversible contactor, the first control signal causing the reversible contactor to deliver current