Switched mode power converter and conversion method

1 . A switch mode power converter, comprising: an isolating transformer having an input winding and an output winding; a main control switch (M 1 ) for controlling the flow of current through the input winding; a control circuit for controlling the main control switch; an output circuit connected to the output winding, the output circuit having an output for connection to a load, wherein the switch mode converter comprises a first error amplifier adapted to generate a first, voltage adjustment signal based on the output voltage and a second error amplifier adapted to generate a second, current adjustment signal based on the output current; and an opto-isolator comprising a light source and a light detector, wherein the light source is in series between an output of the first error amplifier and an output of the second error amplifier, and wherein the light detector provides an isolated feedback signal to the control circuit. 2 . A switch mode power converter as claimed in claim 1 , wherein the output circuit comprises a resistive divider (R 1 , R 2 ) for generating an output voltage sense signal. 3 . A switch mode power converter as claimed in claim 2 , wherein the first error amplifier ( 34 ) is arranged to generate the first adjustment signal from the output voltage sense signal and a first reference input (Vref 1 ). 4 . A switch mode power converter as claimed in claim 3 , wherein the converter has a current control mode and a voltage control mode, wherein when in the current control mode the first error amplifier is in saturation. 5 . A switch mode power converter as claimed in claim 1 , wherein the output circuit comprises a current sense resistor (Rsense) for generating an output current sense signal. 6 . A switch mode power converter as claimed in claim 5 , wherein the second error amplifier is arranged to generate the second adjustment signal from the output current sense signal and a second reference input (Vref 2 ). 7 . A switch mode power converter as claimed in claim 6 , wherein the converter has a current control mode and a voltage control mode, wherein when in the voltage control mode the second error amplifier is in saturation. 8 . A switch mode power converter as claimed in claim 1 , comprising a resistor (R 3 ) in series with the light source. 9 . A switch mode power converter as claimed in claim 1 , wherein the control circuit is adapted to apply pulse width modulation or pulse frequency modulation or pulse density modulation to a switch terminal of the main control switch (M 1 ). 10 . A lighting circuit comprising: a switch mode power converter as claimed in claim 1 ; and an LED lighting load connected to the output of the output circuit. 11 . A lighting circuit as claimed in claim 10 , further comprising an AC/DC converter at an input of the switch mode power converter. 12 . A power conversion method using a switch mode power converter, the method comprising: controlling the flow of current through an input winding of an isolating transformer using a main control switch thereby generating a voltage at an output winding of the isolating transformer for application to an output load; generating a first, voltage adjustment signal based on the output voltage and a second, current adjustment signal based on the output current; and controlling a light source of an opto-isolator in series between the first and second adjustment signals; and using a light detector of the opto-isolator to provide an isolated feedback signal for use in controlling the main control switch. 13 . A method as claimed in claim 12 , comprising operating the switch mode power converter in one of a current control mode and a voltage control mode. 14 . A method as claimed in claim 13 , comprising generating the first adjustment signal from an output voltage sense signal and a first reference input using a first error amplifier, wherein when in the current control mode the first error amplifier is in saturation. 15 . A method as claimed in claim 13 , comprising generating the second adjustment signal from an output current sense signal and a second reference input using a second error amplifier, wherein when in the voltage control mode the second error amplifier is in saturation.