Isolated digital control device for LED driver using NFC technology

What is claimed is: 1. A luminaire comprising: a driving circuit configured to convert AC mains input power into an output current for driving a lighting load, and comprising a first antenna; a digital control device comprising a second antenna and mounted wherein the second antenna is positioned in operable proximity with the first antenna; and a first controller associated with the driving circuit and configured to generate output current reference signals for regulating the output current from the driving circuit, said output current reference signals corresponding to device configuration data; the digital control device further comprising: a first transceiver circuit coupled to one or more input terminals to communicate with an external device, a second transceiver circuit coupled to the second antenna and comprising a volatile memory interface configured to store the device configuration data, and a second controller configured to process device configuration data received from the external device for selective storage in volatile memory of the second transceiver circuit, wherein the first controller is configured to receive the device configuration data from the second transceiver circuit via the volatile memory interface and the operably linked first and second antennae, and wherein the second controller is configured to process reply data received from the first controller via the volatile memory interface for selective transmittal to the external device. 2. The luminaire of claim 1 , wherein the digital control device comprises a housing detachably mounted in association with the luminaire, the second antenna positioned in operable proximity with the first antenna. 3. The luminaire of claim 2 , wherein the housing of the digital control device comprises at least a fitted portion corresponding to at least a portion of a housing for the driving circuit, wherein upon engagement of the respective portions the first and second antennae are positioned in operable proximity. 4. The luminaire of claim 1 , wherein the digital control device further comprises a power converter coupled to one or more input power terminals and configured to supply output power to the one or more transceiver circuits and the second controller. 5. The luminaire of claim 4 , wherein the driving circuit and the power converter of the digital control device are configured to share mains input power. 6. The luminaire of claim 4 , wherein the driving circuit and the power converter of the digital control device are configured to share input power from an auxiliary power supply. 7. The luminaire of claim 4 , wherein the power converter of the digital control device is configured to receive a lighting load driving current from the driving circuit. 8. The luminaire of claim 4 , wherein the first and second transceiver circuits and the second controller are configured to transfer and receive device configuration data in a bidirectional negotiation with the external device. 9. The luminaire of claim 4 , wherein the first and second transceiver circuits and the second controller are configured to receive push updates of configurable parameters associated with the device configuration data from the external device. 10. The luminaire of claim 4 , wherein the first and second transceiver circuits and the second controller are configured to transmit to the external device real time diagnostic and/or power reporting data received from the driving circuit via the operably linked antennae and stored via the volatile memory interface. 11. A method for providing isolated digital control for a luminaire comprising a light emitting diode (LED) driver having a first antenna, the method comprising: mounting a digital control device comprising a second antenna wherein the second antenna is positioned in operable proximity with the first antenna; delivering device configuration data from an external device to the digital control device, wherein the device configuration data is received and stored in a volatile memory interface associated with the digital control device; selectively delivering at least a portion of the device configuration data from the digital control device to a controller associated with the LED driver via the operably linked first and second antennae; processing reply data received from the LED driver via the operably linked first and second antennae and stored in the volatile memory, for selective transmittal to the external device; and regulating an output current from the LED driver through an associated LED lighting load, based at least in part on the device configuration data. 12. The method of claim 11 , comprising detachably mounting a housing for the digital control device in association with the luminaire and the LED driver, the second antenna positioned in operable proximity with the first antenna. 13. The method of claim 12 , wherein the housing of the digital control device comprises at least a fitted portion corresponding to at least a portion of a housing for the driving circuit, wherein upon engagement of the respective portions the first and second antennae are positioned in operable proximity. 14. The method of claim 11 , further comprising transferring and receiving device configuration data in a bidirectional negotiation with the external device. 15. The method of claim 11 , further comprising receiving push updates of configurable parameters associated with the device configuration data from the external device. 16. The method of claim 11 , further comprising transmitting to the external device real time diagnostic and/or power reporting data received from the LED driver via the operably linked antennae and stored via the volatile memory interface.