LED based illumination system

The invention claimed is: 1. A method of initializing an LED driver to power an LED light engine comprising one or more LEDs, the method comprising: connecting a control terminal of the LED driver to a control terminal of the LED light engine; determining whether the control terminal of the LED light engine is a communication terminal by outputting a communication signal from the control terminal of the LED driver to the control terminal of the LED light engine; establishing that the control terminal of the LED light engine is a communication terminal if a reply communication signal to the communication signal is received within a predetermined period; if the control terminal of the LED light engine is a communication terminal, perform an initialization of the LED driver by exchanging configuration data between the LED driver and the LED light engine; if the control terminal of the LED light engine is not a communication terminal, determining an impedance value observed at the control terminal of the LED light engine and performing an initialization of the LED driver based on the impedance value. 2. The method according to claim 1 , wherein the impedance value is a resistance value, a capacitor values or a combination of a resistance value and a capacitor value. 3. The method according to claim 1 , wherein the communication signal comprises a digital communication signal. 4. The method according to claim 3 , wherein the LED light engine comprises a processing unit or tag and an energy storage element configured to power the processing unit or tag and wherein the communication signal is configured to charge the energy storage element, thereby enabling the LED light engine to provide the reply communication signal. 5. The method according to claim 4 , wherein the energy storage element comprises a capacitor. 6. The method according to claim 1 , wherein the control terminal of the LED driver is a single terminal and wherein the control terminal of the LED light engine is a single terminal. 7. The method according to claim 1 , wherein the method is performed without connecting a supply voltage or power supply to the LED light engine. 8. A method of operating an LED driver, the method comprising: performing the method according to claim 1 ; and connecting a power output terminal of the LED driver to a power input terminal of the LED light engine. 9. The method of operating an LED driver according to claim 8 , further comprising: determining an impedance value observed at the control terminal of the LED light engine; determining a temperature of the LED light engine based on the determined impedance value and controlling a power supply to the LED light engine based on the determined temperature. 10. An LED driver for powering an LED light engine, the LED driver comprising: a control terminal configured to be connected to a control terminal of the LED light engine; a control unit connected to the control terminal of the LED driver, the control unit being configured to determine whether the control terminal of the LED light engine is a digital communication terminal or an analogue terminal by: providing a communication signal to the control terminal of the LED light engine, and establishing that the control terminal of the LED light engine is a communication terminal if a reply communication signal to the communication signal is received within a predetermined period; wherein the control unit is further configured to: if the control terminal of the LED light engine is a communication terminal, perform an initialization of the LED driver by exchanging configuration data between the LED driver and the LED light engine; if the control terminal of the LED light engine is not a communication terminal, determining an impedance value observed at the control terminal of the LED light engine and performing an initialization of the LED driver based on the impedance value. 11. The LED driver according to claim 10 , wherein the LED driver is configured to supply a current to the control terminal of the LED light engine via the control terminal of the LED driver. 12. The LED driver according to claim 11 , wherein the impedance value is determined based on a voltage observed at the control terminal of the LED light engine, when the current is supplied to the LED light engine. 13. The LED driver according to claim 10 , further comprising a power converter configured to power the LED light engine, the power converter comprising a power supply terminal configured to be connected to a power supply terminal of the LED light engine for supplying a power to the LED light engine. 14. The LED driver according to claim 13 , wherein the control unit is configured to, when the power supply terminal of the power converter is connected to the power supply terminal of the LED light engine: determine an impedance value observed at the control terminal of the LED light engine; determine a temperature of the LED light engine based on the determined impedance value and control a power supply to the LED light engine based on the determined temperature.