Phase control dimmer circuit

1. A trailing edge phase control dimmer circuit for controlling alternating current (AC) power to a load, the circuit including:

• a switching circuit for controlling delivery of AC power to the load by conducting power to the load in an ON state and not conducting power to the load in an OFF state; and
  
  a switching control circuit for controlling turn-OFF and turn-ON of the switching circuit at each cycle of the AC to control switching of the ON and OFF states of the switching circuit,wherein the switching control circuit controlling turn-OFF of the switching circuit includes controlling a turn-OFF transition of the switching circuit between the ON state and the OFF state of the switching circuit extending for a selected turn-OFF transition time,wherein the switching control circuit further includes a dv/dt feedback circuit for controlling a turn-OFF transition profile indicative of a drain voltage of the switching circuit of the turn-OFF transition and the selected turn-OFF transition time by returning at least some dv/dt feedback current generated by the switching circuit back to the switching circuit, whereby the dv/dt feedback circuit is configured to control said at least some dv/dt feedback current over the turn-OFF transition so as to reduce a rate of change of at least an initial region of the turn-OFF transition profile to minimise harmonics generation by the switching circuit,wherein the switching circuit includes two MOSFETs to control turn-OFF and turn-ON at each half cycle of the AC respectively, and wherein the switching control circuit provides gate drive control of the MOSFETs to control the turn-OFF transition of the MOSFETs,wherein the turn-OFF transition time is proportional to a discharge time of MOSFET gate capacitance of the MOSFETs,wherein the switching control circuit includes a transistor Q2 configured to be pulled low to cause discharge of the MOSFETs gate capacitance via a resistor R3 with a selected resistance to select the discharge time of the MOSFET gate capacitance,wherein the dv/dt feedback circuit includes a transistor Q3 to direct said at least some dv/dt feedback current through a capacitor C1 with a selected capacitance to the gate of the MOSFETs when sufficient voltage across a resistor R4 with a selected resistance occurs in the switching control circuit, wherein the at least some dv/dt feedback current alters the rate of change of the discharge of the MOSFETs gate capacitance to reduce the rate of change of at least the initial region of the turn-OFF profile,and, wherein the dv/dt feedback circuit further includes an RC network in series with the gate of the MOSFETs so that the at least some dv/dt feedback current is directed through the RC network during the turn-OFF transition.