Method and apparatus for supplying power to a radiant heating element

That which is claimed: 1 . A method for supplying power to a radiant heating element, wherein said radiant heating element has a first connection being connected to a first terminal of a supply voltage source and has a second connection being connected to a second terminal of said supply voltage source, wherein said first connection to said first terminal is made via an electronic switching means, said radiant heating element and said electronic switching means forming together a series circuit, wherein an interference suppression capacitor is connected in parallel with said series circuit, wherein a feedback circuit is connected between said electronic switching means and said radiant heating element and is connected to said second terminal or to ground, wherein said radiant heating element and said interference suppression capacitor are connected to said second terminal of said supply voltage source or to said ground and are disconnected therefrom by means of a relay, wherein after disconnection of said radiant heating element and said interference suppression capacitor from said second terminal, said interference suppression capacitor is now only connected to said second terminal via said feedback circuit and, depending on the time of disconnection from said second terminal and said polarity of said supply voltage of said supply voltage source present at that time, said interference suppression capacitor is discharged via said feedback circuit, and wherein said discharging results in discharge pulses at said feedback circuit, and wherein said discharge pulses are taken as a signal that said radiant heating element and said interference suppression capacitor are disconnected from said supply voltage source. 2 . The method as claimed in claim 1 , wherein said pulse time is between 0.5 seconds and 15 seconds. 3 . The method as claimed in claim 2 , wherein said pulse time is between 2 seconds and 10 seconds. 4 . The method as claimed in claim 1 , wherein a switching time of said relay at said second terminal for disconnection is such that said relay has a sufficient voltage level for feedback signals to be generated by said interference suppression capacitor at said feedback circuit, wherein, a zero crossing of said supply voltage is monitored. 5 . The method as claimed in claim 1 , wherein an optocoupler with a connection to a controller or a microcontroller is provided in said feedback circuit. 6 . The method as claimed in claim 1 , wherein, during driving of a plurality of said radiant heating elements, a single controller or a single microcontroller is provided, and only one port of said single controller or said single microcontroller is connected to said feedback circuit at a controller or at a microcontroller, wherein in order to check disconnection of said plurality of radiant heating elements from said supply voltage source, all of said electronic switching means are switched off or opened and then are tested individually and successively for their operation. 7 . An apparatus for implementing said method as claimed in claim 1 , wherein said radiant heating element is connectable at a first connection to a first terminal of a supply voltage source and at a second connection to a second terminal of the supply voltage source, wherein said first connection to said first terminal is made via an electronic switching means, said radiant heating element and said electronic switching means forming together a series circuit, wherein an interference suppression capacitor is connected in parallel with said series circuit, wherein a feedback circuit is connected between said electronic switching means and said radiant heating element and is connected to said second terminal or to ground, said radiant heating element and said interference suppression capacitor are connectable to said second terminal of said supply voltage source or to said ground by means of a relay, and after disconnection of said radiant heating element and said interference suppression capacitor from said second terminal, said interference suppression capacitor is now only connected to said second terminal via said feedback circuit for discharge of said interference suppression capacitor via said feedback circuit. 8 . The apparatus as claimed in claim 7 , wherein an optocoupler with a connection to a controller or a microcontroller is provided in said feedback circuit.