Driver device and driving method for driving an LED unit

The invention claimed is: 1. A method, comprising: receiving at an input of a driver a periodic supply voltage from an external power supply, providing at an output of the driver at least one of a drive voltage and a drive current for driving a load, alternately operating the driver in one of a first mode and a second mode, including: in the first mode, controlling an input current received by the driver from the external power supply to draw a first power level from the external power supply, the first power level being greater than a power level required for driving the load, and supplying from the input current the at least one of the drive voltage and the drive current to the load, and further supplying electrical energy to charge an energy storage device; and in the second mode, controlling the input current received from the power input terminals to draw no more than a second power level from the external power supply, wherein the second power level is less than the power required for driving the load, and providing the at least one of the drive voltage and the drive current to the load from the energy storage device, wherein alternately operating the driver in one of the first mode and the second mode includes operating only in the first mode for a first set of half cycles of the periodic supply voltage, and operating only in the second mode for a second set of half cycles of the periodic supply voltage immediately subsequent to the first set of half cycles of the periodic supply voltage. 2. The method of claim 1 , wherein alternately operating the driver in one of the first mode and the second mode includes periodically alternating between the first mode and the second mode. 3. The method of claim 1 , wherein a number of half cycles of the periodic supply voltage in the first set is one, and number of half cycles of the periodic supply voltage in the second set is greater than one. 4. The method of claim 1 , wherein a ratio of a total number (N) of half cycles of the periodic supply voltage in the first set and in the second set, to a number of half cycles of the periodic supply voltage in the first set, is equal to a ratio of the first power level to the power level required for driving the load. 5. An apparatus, comprising: a pair of input terminals configured to be connected to an external power supply and to receive therefrom a periodic supply voltage; and a driver coupled to the pair of input terminals, the driver being configured to supply at least one of a drive voltage and a drive current for driving a load, wherein the driver comprises: an energy storage device, and a power stage configured to alternately operate in one of a first mode and a second mode, including: in the first mode, the power stage controlling an input current received by the driver from the external power supply to draw a first power level from the external power supply, the first power level being greater than a power level required for driving the load, and the power stage supplying from the input current the at least one of the drive voltage and the drive current to the load, and further supplying electrical energy to charge the energy storage device; and in the second mode, the power stage controlling the input current received from the power input terminals to draw no more than a second power level from the external power supply, wherein the second power level is less than the power required for driving the load, wherein the energy storage device is configured to provide the at least one of the drive voltage and the drive current to the load when the power stage operates in the second mode, and wherein alternately operating the driver in one of the first mode and the second mode includes operating only in the first mode for a first set of half cycles of the periodic supply voltage, and operating only in the second mode for a second set of half cycles of the periodic supply voltage immediately subsequent to the first set of half cycles of the periodic supply voltage. 6. The apparatus of claim 5 , wherein the power stage includes a switching device configured to be controlled to cause the power stage to switch between the first mode and the second mode. 7. The apparatus of claim 5 , further comprising the load, wherein the load comprises a light assembly comprising one or more light units, including a light emitting diode (LED) light unit comprising one or more LEDs.