Two-wire neutralless digital dimmer for leading-edge dimmable lamp driver and a method of operation thereof

What is claimed is: 1. A dimmer switch adapted to be coupled to an alternating current (AC) source and to a load so as to control an amount of power delivered from the AC source to the load, the dimmer switch comprising: a controllable bidirectional semiconductor switch (CBSS) coupled between the AC source and the load and having a control line (G) which, when triggered, configures the CBSS to conduct so as to deliver a controlled amount of power from the AC source to the load for a corresponding half-cycle of the AC source; first and second triggering circuits coupled to the control line and configured to trigger the CBSS; and a controller which: receives sense information related to characteristics of the AC source, the characteristics including information related to one or more zero-crossings for one or more half cycles of a voltage waveform of the AC source, selects one the first or second triggering circuits to be enabled based upon one or more of the sense information, an operational state of the dimmer, and a dimming selection, and enables the selected first or second triggering circuit to charge wherein when the selected first or second triggering circuit reaches a threshold charge, the selected first or second triggering circuit triggers the CBSS to conduct for a corresponding half-cycle of the one or more half cycles and deliver power from the AC source to the load, wherein the threshold charge is reached substantially when the charge time of the corresponding first or second triggering circuit elapses. 2. The dimmer switch of claim 1 , wherein the charge time for each for each of the first and second triggering circuits is different from each other. 3. The dimmer switch of claim 1 , wherein the dimmer switch comprises only a source line coupled to the AC source and a load line coupled to the load as an input and an output of the dimmer switch, respectively. 4. The dimmer switch of claim 1 , further comprising a capacitor coupled to both of the first and second triggering circuits, wherein when charging, at least one of the first and second triggering circuits charge the capacitor. 5. A method of operating a dimmer switch coupled to an alternating current (AC) source and a load so as to control an amount of power delivered from the AC source to the load, the method comprising acts which are performed by processor, the acts comprising: receiving sense information related to characteristics of the AC source, the characteristics including information related to one or more zero-crossings for one or more half cycles of a voltage waveform of the AC source; selecting the first or second triggering circuits based upon one or more of the sense information, an operational state of the dimmer, and dimming selection; and enabling the selected first or second triggering circuit to charge, wherein when the selected first or second triggering circuit reaches a threshold charge, the selected first or second triggering circuit triggers a controllable bidirectional semiconductor switch (CBSS) to conduct for the corresponding half-cycle of the AC source and deliver power from the AC source to the load, wherein the threshold charge is reached substantially when the charge time of the corresponding first or second triggering circuit elapses. 6. The dimmer switch of claim 5 , wherein the charge time for each of the first and second triggering circuits is set to be different from the other. 7. The method of claim 5 , wherein the act of enabling the selected first or second triggering circuit to charge further comprises an act of modulating the enabling in accordance with one or more of the sense information, an operational state of the dimmer, and the dimming selection. 8. The method of claim 5 , further comprising an act of disabling the triggering circuit which is not the selected triggering circuit of the first and second triggering circuits. 9. The method of claim 5 , further comprising an act of determining a selected dimming state of first and second dimming states in accordance with the dimming selection. 10. The method of claim 9 , the further comprising an act of selecting one of the first and second triggering circuits in the first dimming state and selecting the other of the first and second triggering circuits in the second dimming state. 11. A computer program stored on a computer readable non-transitory memory medium, the computer program configured to operate a dimmer switch (coupled to an alternating current (AC) source and a load so as to control an amount of power delivered from the AC source to the load, the computer program comprising: a program portion configured to: receive sense information related to characteristics of the AC source, the characteristics including information related to a zero-crossing of a voltage waveform of the AC source; select first or second triggering circuits based upon one or more of the sense information, an operational state of the dimmer, and user input information; and enable the selected first or second triggering circuits to charge, wherein when the selected first or second triggering circuit reaches a threshold charge, the selected first or second triggering circuit triggers a controllable bidirectional semiconductor switch (CBSS) to conduct for the corresponding half-cycle of the AC source and deliver power from the AC source to the load, wherein the program portion is further configured to receive the dimming selection from a user interface of the dimmer switch. 12. The computer program of claim 11 , wherein the program portion is further configured to modulate the enabling of the selected first or second triggering circuit in accordance with one or more of the sense information, an operational state of the dimmer, and a dimming selection. 13. The computer program of claim 11 , wherein the program portion is further configured to disable the triggering circuit which is not the selected triggering circuit of the first and second triggering circuits. 14. The computer program of claim 11 wherein the program portion is further configured to determine a selected dimming state of first and second dimming states in accordance with the dimming selection. 15. A dimmer switch adapted to be coupled to an alternating current (AC) source and to a load so as to control an amount of power delivered from the AC source to the load, the dimmer switch comprising: a controllable bidirectional semiconductor switch (CBSS) coupled between the AC source and the load and having a control line (G) which, when triggered, configures the CBSS to conduct so as to deliver a controlled amount of power from the AC source to the load for a corresponding half-cycle of a plurality of half-cycles of the AC source; first and second triggering circuits coupled to the control line and configured to trigger the CBSS, the first triggering circuit being a self balancing triggering circuit configured to trigger the CBSS to conduct for a corresponding half-cycle of the one or more half cycles and deliver power from the AC source to the load when the first triggering circuit reaches a threshold charge; and a controller which: receives sense information related to characteristics of the AC source, the characteristics including information related to a voltage waveform of the AC source, senses a zero-crossing of the voltage waveform of the AC source for at least one half-cycle of the plurality of half-cycles in accordance with the sense information, determines a delay period for phase cut for the at least one half cycle of the plurality of half-cycles in accordance with the sense information and a dimming sel