Electromechanical drive system

What is claimed is: 1. An apparatus, comprising: a locking assembly having a locked state and an unlocked state; and a drive assembly operable to receive power from a power supply, and including: an electromechanical actuator operable upon receiving power to transition the locking assembly between the locked and unlocked states; an energy storage device electrically coupled to the electromechanical actuator and configured to store electrical power from the power supply when the drive assembly is electrically coupled to the power supply, wherein the energy storage device is different from the power supply; and a control system configured to couple the drive assembly to the power supply in response to a first power condition to provide power to the drive assembly, and to thereafter transmit energy from the energy storage device to the electromechanical actuator upon the occurrence of a second power condition, wherein the second power condition is based at least in part upon a level of energy stored in the energy storage device. 2. The apparatus of claim 1 , wherein the second power condition is further based upon a voltage level of the power received from the power supply. 3. The apparatus of claim 1 , wherein the locking assembly comprises: a helical member operable to rotate in a first rotational direction and a second rotational direction; a link operably connected to the helical member such that rotation of the helical member in the first rotational direction urges the link in a first linear direction, and rotation of the helical member in the second rotational direction urges the link in a second linear direction; a locking member operable in a locking position wherein the locking assembly is in the locked state and an unlocking position wherein the locking assembly is in the unlocked state; wherein the locking member is operably coupled to the link such that movement of the link in the first linear direction urges the locking member toward one of the locking position and the unlocking position, and movement of the link in the second linear direction urges the locking member toward the other of the locking position and the unlocking position; and wherein the electromechanical actuator comprises a rotary motor including a motor shaft rotationally coupled to the helical member, wherein the motor is operable in a first state wherein the motor rotates the helical member in the first rotational direction and in a second state wherein the motor rotates the helical member in the second rotational direction. 4. The apparatus of claim 3 , wherein the helical member is a spring. 5. The apparatus of claim 1 , wherein the locking assembly comprises: a threaded shaft movable in a first linear direction and a second linear direction; a linking assembly operably connected to the threaded shaft such that movement of the threaded shaft in either of the first and second linear directions urges the linking assembly in the same direction; a latch bolt operable in a locking position wherein the locking assembly is in the locked state and an unlocking position wherein the locking assembly is in the unlocked state; wherein the latch bolt is operably coupled to the linking assembly such that movement of the linking assembly in the first linear direction urges the latch bolt toward one of the locking position and the unlocking position, and movement of the linking assembly in the second linear direction urges the latch bolt toward the other of the locking position and the unlocking position; and wherein the electromechanical actuator comprises a rotary motor operable in a first state wherein the motor drives the threaded shaft in the first linear direction and second state wherein the motor drives the threaded shaft in the second linear direction. 6. The apparatus of claim 1 , wherein the second power condition comprises a no-power condition. 7. The apparatus of claim 1 , wherein energy is transmitted exclusively from the energy storage device to the electromechanical actuator, and not from the power supply, upon the occurrence of the second power condition. 8. The apparatus of claim 1 , wherein the electromechanical actuator comprises a rotary motor. 9. An apparatus, comprising: a locking assembly having a locked state and an unlocked state; and a drive assembly operable to receive power from a power supply, and including: an electromechanical actuator operable upon receiving power to transition the locking assembly between the locked and unlocked states; an energy storage device electrically coupled to the electromechanical actuator and configured to store electrical power from the power supply when the drive assembly is electrically coupled to the power supply; and a control system configured to couple the drive assembly to the power supply in response to a first power condition to provide power to the drive assembly, and to thereafter transmit energy from the energy storage device to the electromechanical actuator upon the occurrence of a second power condition, wherein the second power condition is based at least in part upon a level of energy stored in the energy storage device; wherein the electromechanical actuator transitions the locking assembly from one of the locked state and the unlocked state to the other of the locked state and the unlocked state via power provided by the energy storage device during the second power condition. 10. An access control system selectively connectable to a power supply configured to supply power to the access control system, the access control system including a locked state and an unlocked state, the access control system comprising: an electromechanical actuator operable upon receiving the supplied power to transition the access control system between the locked and unlocked states; an energy storage device electrically coupled to the electromechanical actuator and configured to store electrical power from the power supply; and a controller electrically coupled to the electromechanical actuator and to the energy storage device, the controller configured to execute stored program instructions to: determine a power-good condition and a power-fail condition based on the voltage of the supplied power relative to a threshold power supply voltage; in response to the power-good condition: charge, with the supplied power, the energy storage device to a charge not less than a threshold charge, and thereafter powering, at least partially with the supplied power voltage, the electromechanical actuator; and transition, with the electromechanical actuator, the access control system between the locked and unlocked states, wherein the charge is not less than the threshold charge upon completion of the transition; and in response to the power-fail condition: power, with the energy storage device, the electromechanical actuator; and transition, with the electromechanical actuator, the access control system between the locked and unlocked states. 11. The access control system of claim 10 , wherein the energy storage device is a capacitor. 12. The access control system of claim 11 , wherein the capacitor has a rating of less than one Farad. 13. The access control system of claim 10 , wherein the access control system is operable in a fail-safe mode and a fail-secure mode, wherein: in the fail-safe mode, the first state is the locked state; and in the fail-secure mode, the first state is the unlocked state. 14. The access control system of claim 10 , wherein the charge, with the supplied power, includes increase a current of the supplied power, and provide the increased-current power to th