Universal radio receiver apparatus and method

What is claimed is: 1. A universal receiver comprising: a port in communication with a preexisting receiver and configured to receive a control signal from the preexisting receiver in response to receipt by the preexisting receiver of a signal transmitted at a first frequency and that includes a code; a radio antenna configured to receive signals transmitted at different frequencies including the signal transmitted at the first frequency and that includes the code; and a controller operably coupled to the port and the radio antenna, the controller configured to: determine the code of the signal received by the radio antenna; and learn the code in response to a user-independent learning condition being met, the user-independent learning condition being met upon the port receiving the control signal from the preexisting receiver. 2. The universal receiver of claim 1 wherein the user-independent learning condition includes movement of a movable barrier and the controller is configured to learn the code upon the port receiving the control signal and movement of the movable barrier. 3. The universal receiver of claim 1 wherein the controller includes a buffer configured to store the code, the controller being operable to cause the code stored in the buffer to be stored in a non-volatile memory in response to the user-independent learning condition being met. 4. The universal receiver of claim 1 wherein the controller includes a buffer configured to store the code for a predetermined period of time, the controller being operable to cause the code stored in the buffer to be stored in a non-volatile memory in response to the user-independent learning condition being met during the predetermined period of time. 5. The universal receiver of claim 4 wherein the predetermined period of time is in the range of two seconds to ten seconds. 6. The universal receiver of claim 1 further comprising a non-volatile memory, the controller being operable to cause the code to be stored in the non-volatile memory in response to the user-independent learning condition being met. 7. The universal receiver of claim 1 further comprising a network interface, the network interface being operable to facilitate communicating the code to a remote computing device. 8. The universal receiver of claim 1 wherein the radio antenna includes a plurality of antennae each adapted to receive a signal at one of the different frequencies. 9. A system comprising: an access device configured to control entry to at least one of an area and a building; and a universal receiver including: a port in communication with a preexisting receiver and configured to receive a control signal from the preexisting receiver in response to receipt by the preexisting receiver of a signal transmitted at a first frequency and that includes a code, the signal indicative of a request to enter the at least one of the area and the building via the access device; a radio antenna configured to receive signals transmitted at different frequencies including the signal transmitted at the first frequency and that includes the code; a controller operably coupled to the port and the radio antenna, the controller configured to: determine the code of the signal received by the radio antenna; and learn the code in response to a user-independent learning condition being met, the user-independent learning condition being met upon the port receiving the control signal from the preexisting receiver. 10. The system of claim 9 further comprising a sensor operably coupled to the controller and configured to detect movement of a movable barrier, the user-independent learning condition including movement of the movable barrier such that the controller learns the code upon the port receiving the control signal and movement of the movable barrier. 11. The system of claim 9 wherein the controller includes a buffer configured to store the code, the controller being operable to cause the code stored in the buffer to be stored in a non-volatile memory in response to the user-independent learning condition being met. 12. The system of claim 9 wherein the controller includes a buffer configured to store the code for a predetermined period of time, the controller being operable to cause the code stored in the buffer to be stored in a non-volatile memory in response to the user-independent learning condition being met during the predetermined period of time. 13. The system of claim 12 wherein the predetermined period of time is in the range of two seconds to ten seconds. 14. The system of claim 9 further comprising a non-volatile memory, the controller being operable to cause the code to be stored in the non-volatile memory. 15. The system of claim 9 further comprising a network interface, the network interface being operable to facilitate communicating the code to a remote computing device. 16. The system of claim 9 wherein the radio antenna includes a plurality of antennae each adapted to receive a signal at one of the different frequencies. 17. A method comprising: receiving, at a universal receiver, a radio signal for operating an access device that controls entry to at least one of an area and a building, the radio signal transmitted at one of a plurality of different frequencies; determining, at the universal receiver, a code of the radio signal transmitted at any one of the different frequencies; and learning, at the universal receiver, the code in response to a user-independent learning condition being met and without direct interaction between a user and the access control device. 18. The method of claim 17 further comprising sensing movement of a movable barrier associated with the access control device; and wherein the learning is performed in response to movement of the movable barrier. 19. The method of claim 17 further comprising: buffering the code; and causing the code to be stored in non-volatile memory in response to the user-independent learning condition being met. 20. The method of claim 17 further comprising: buffering the code for a predetermined period of time; and causing the code to be stored in a non-volatile memory in response to the user-independent learning condition being met during the predetermined period of time. 21. The method of claim 20 wherein the predetermined period of time is in the range of two seconds to ten seconds. 22. The method of claim 17 further comprising communicating the code to a remote computing device in response to the user-independent learning condition being met.