Phase control with adaptive parameters

What is claimed is: 1. An apparatus to control an amount of current delivered from an AC power source to an electrical load, the apparatus comprising: a line terminal configured to be connected to the AC power source; a load terminal configured to be connected to the electrical load; a controllably conductive power switch in series electrical connection between the line terminal and the load terminal; and a switching circuit configured to provide phase control of the controllably conductive power switch so as to control the amount of current delivered to the electric load, wherein the switching circuit is also configured to automatically detect at least one of: the conductive state of the controllably conductive power switch; and a type of electrical load connected to the load terminal; wherein the switching circuit is further configured to: apply a control pulse to the controllably conductive power switch at a first firing angle during a first period of time; apply the control pulse to the controllably conductive power switch at a test firing angle during a subsequent, second period of time; sense whether the controllably conductive power switch remains conductive after application of the control pulse at the test firing angle; wherein if the controllably conductive power switch does not remain conductive, incrementing the test firing angle by a predetermined amount and repeating application of a control pulse during a further subsequent period of time and sensing whether the controllably conductive power switch remains conductive; and wherein if the controllably conductive power switch remains conductive, set the test firing angle as a firing angle limit. 2. The apparatus of claim 1 wherein the switching circuit is configured to automatically detect the current flow between the line and load terminals. 3. The apparatus of claim 2 wherein the switching circuit is configured to automatically detect one or more of the maximum and minimum current flow between the line and load terminals. 4. The apparatus of claim 1 , wherein the controllably conductive power switch is selected from the group consisting of a thyristor, a transistor, and a relay. 5. The apparatus of claim 4 wherein the controllably conductive power switch is a thyristor selected from the group consisting of a triac, an SCR, and a gate turn-off thyristor. 6. The apparatus of claim 4 wherein the controllably conductive power switch is a transistor selected from the group consisting of a bi-polar junction transistor and a field effect transistor. 7. The apparatus of claim 1 , wherein the switching circuit includes one or more of measurement and control circuitry. 8. The apparatus of claim 7 wherein the controllably conductive power switch includes a gate and the switching circuit includes a gate drive circuit, the gate drive circuit being configured to apply a control pulse to the gate to control the conductive state of the controllably conductive power switch. 9. The apparatus of claim 1 , wherein when the application of the control pulse during the first period of time further comprises applying the control pulse within one quarter of a half cycle after a zero crossing point of the AC power source waveform to provide a maximum amount of current to the electrical load. 10. The apparatus of claim 1 , wherein when application of the control pulse during the second period of time further comprises applying the control pulse after one quarter of a half cycle after a zero crossing point of the AC power source waveform to provide a lower than maximum amount of current to the electrical load. 11. The apparatus of claim 1 , wherein the test firing angle is greater than the first firing angle. 12. The apparatus of claim 1 , wherein the first firing angle is retrieved from a look up table. 13. The apparatus of claim 1 , further comprising: a current sensor having an output signal indicative of an amount of current flowing through the controllably conductive power switch; and the switching circuit further comprising a controller in electrical communication with the current sensor, the controller configured to receive the output signal and determine a state of the controllably conductive power switch. 14. The apparatus of claim 13 , wherein the controller comprises one of a series sense resistor, a Hall effect detector, and a current transformer. 15. The apparatus of claim 13 , wherein the current sensor is integrated with the controller. 16. The apparatus of claim 13 , wherein the current sensor is separate from the controller. 17. An apparatus to control an amount of current delivered from an AC power source to an electrical load, the apparatus comprising: a line terminal configured to be connected to the AC power source; a load terminal configured to be connected to the electrical load; a controllably conductive power switch in series electrical connection between the line terminal and the load terminal; a switching circuit configured to provide phase control of the controllably conductive power switch so as to control the amount of current delivered to the electric load, wherein the switching circuit is also configured to automatically detect at least one of: the conductive state of the controllably conductive power switch; and a type of electrical load connected to the load terminal; and a wireless interface, the wireless interface configured to establish a wireless communication link with a remote device; wherein the apparatus is further configured to: receive a first mode signal through the wireless communication link; enter into an adjustment mode in response to the received first mode signal; receive, through the wireless communication link, an adjustment to an operational parameter of the apparatus; receive a second mode signal through the wireless communication link; and enter into an operating mode in response to the received second mode signal. 18. The apparatus of claim 17 , wherein the operational parameter of the apparatus is one or more of a dimming level adjustment, a minimum brightness level adjustment, and a maximum brightness level adjustment. 19. An apparatus to control an amount of current delivered from an AC power source to an electrical load, the apparatus comprising: a line terminal configured to be connected to the AC power source; a load terminal configured to be connected to the electrical load; a controllably conductive power switch in series electrical connection between the line terminal and the load terminal; and a switching circuit configured to provide phase control of the controllably conductive power switch so as to control the amount of current delivered to the electric load, wherein the switching circuit is also configured to automatically detect at least one of: the conductive state of the controllably conductive power switch; and a type of electrical load connected to the load terminal wherein the switching circuity is further configured to: apply a high firing angle control pulse to the controllably conductive power switch upon initial power up of the apparatus, wherein the high firing angle control pulse is applied within one quarter of a half cycle before a zero crossing point of an AC source power waveform; sense whether the controllably conductive power switch is conductive; and determine the type of electrical load based upon whether the controllably conductive power switch remains conductive. 20. The apparatus of claim 19 , wherein the controllably conducti