Power efficient line synchronized dimmer

What is claimed is: 1. A dimmer circuit comprising: a latchable switch having an unlatched OFF state below a holding current level for controlling delivery of power of an AC power source to a load, the dimmer circuit having an input line voltage terminal and a load terminal, the load terminal coupled to the input line voltage terminal by the latchable switch; wherein the dimmer circuit is operative for detecting a first voltage across the input line voltage terminal and the load terminal; wherein based on the first voltage the dimmer circuit is operative to fire the latchable switch at a time that is within a fourth quadrant of a half cycle of an input line voltage; and wherein when current passing from the input line voltage terminal to the load terminal falls below the holding current level, the latchable switch enters an unlatched OFF state. 2. The dimmer circuit of claim 1 , wherein the half cycle is a negative half cycle. 3. The dimmer circuit of claim 1 , wherein the first voltage is provided by detecting a zero crossing of the input line voltage. 4. The dimmer circuit of claim 1 , wherein the first voltage is provided by detecting a zero crossing of the input line voltage, and wherein the time that is within a fourth quadrant of a half cycle of an input line voltage is further based on known characteristics of the input line voltage. 5. The dimmer circuit of claim 1 , wherein the first voltage is provided by detecting a zero crossing of a voltage of the input line voltage based on a voltage exceeding zero volts by a threshold. 6. The dimmer circuit of claim 1 , wherein the first voltage is provided by detecting a voltage during non conducting phase of the input line voltage. 7. The dimmer circuit of claim 1 , wherein the latchable switch comprises a TRIAC. 8. A dimmer circuit comprising: a latchable switch having an unlatched OFF state below a holding current level for controlling delivery of power of an AC power source to a load, the dimmer circuit having an input line voltage terminal and a load terminal, the load terminal coupled to the input line voltage terminal by the latchable switch; wherein the dimmer circuit is operative, during a conducting phase of the latchable switch, to monitor a first voltage across the input line voltage terminal and the load terminal to detect a change in state of the latchable switch from an ON state to an unlatched OFF state when current passing from the input line voltage terminal to the load terminal falls below the holding current level; and wherein based on the change in state being detected, the dimmer circuit is operative to cause the latchable switch to return to an ON state. 9. The dimmer circuit of claim 8 , wherein the dimmer circuit is operative, during a first half cycle of an input line voltage, to store a timing parameter, wherein the dimmer circuit is operative to utilize the timing parameter for firing the latchable switch during a second half cycle of the input line voltage, the second half cycle being subsequent to the first half cycle. 10. The dimmer circuit of claim 9 , wherein the timing parameter is a time difference between an initial firing time of the latchable switch during the first half cycle of the input line voltage and a firing of the latchable switch during the first half cycle of the input line voltage based on the change in state. 11. The dimmer circuit of claim 8 , wherein the dimmer circuit is restricted from being operated to fire the switch based on the change in state being detected unless the switch has initially fired during a current half cycle. 12. The dimmer circuit of claim 8 , wherein the latchable switch comprises a TRIAC. 13. A dimmer circuit comprising: a latchable switch having an unlatched OFF state below a holding current level for controlling delivery of power of an AC power source to a load, the dimmer circuit having an input line voltage terminal and a load terminal, the load terminal coupled to the input line voltage by the latchable switch; wherein when current passing from the input line voltage terminal to the load terminal falls below the holding current level, the latchable switch in an unlatched OFF state enters a non conducting phase; wherein the dimmer circuit within a non conducting phase of the dimmer circuit occurring during a positive half cycle of an input line voltage is operative for detecting a first voltage across the input line voltage terminal and the load terminal; wherein the dimmer circuit within a non conducting phase of the dimmer circuit occurring during a negative half cycle of the input line voltage is operative for detecting a second voltage across the input line voltage terminal and the load terminal; wherein during the positive half cycle of the input line voltage the dimmer circuit is operative to fire the latchable switch based on the detecting a first voltage; and wherein during the negative half cycle of the input line voltage the dimmer circuit is operative to fire the latchable switch based on the detecting a second voltage. 14. The dimmer circuit of claim 13 , further comprising a detector circuit, the detector circuit having a first comparator for use in detecting the first voltage, and a second comparator for use in detecting the second voltage. 15. The dimmer circuit of claim 14 , wherein signal conditioning circuitry of the detector circuit commonly conditions inputs to the first comparator and the second comparator. 16. The dimmer circuit of claim 15 , wherein a node voltage of the dimmer circuit is commonly input to the first comparator and the second comparator. 17. The dimmer circuit of claim 13 , wherein the latchable switch comprises a TRIAC.