Electric surface heating and apparatus therefor

1. Electric single-phase alternating current surface heating apparatus comprising, in combination, two heating elements formed by lengths of wire conductor which are spaced from adjacent wire lengths so as to distribute their heating effect over a surface to be heated, and a single-phase full-wave bridge rectifier circuit component having input connections for the supply of single-phase alternating current and output connections to the heating elements for the supply of unsmoothed full-wave rectified current, whereby ohmic resistance heating of the heating elements is powered primarily by a direct current component, but also by alternating current components at frequencies which are even multiples of the frequency of the single-phase alternating current supplied to the apparatus, said heating elements being connected in parallel so as to be powered from a common single-phase alternating current supply which feeds current for both elements through the common single-phase full-wave rectifier circuit component, the circuits of the two heating element being interconnected to form a bistable system operable to carry current through either of the elements as a function of temperature, the circuit being characterized by there being (a) no reactive components providing current smoothing, whereby the voltage applied across the heating elements is periodically zero-valued and the heating power input fluctuates at twice the power supply frequency, (b) electronically controlled switches in circuit with each of the heating elements, connected to by subject to the control of electric potentials at points of interconnection by cross-connections linking the circuits of the two heating elements, (c) different resistor segments of each of the heating elements comprising materials of different thermal resistance characteristics, whereby the relative electric potentials of the points of interconnection become a function of temperature, the circuit arrangement thereby assuring that both electronically controlled switches are non-conductive at times when the supply voltage is zero-valued and causing the bistable system to be reset at a frequency that is twice the supply frequency but allowing it, when energized, to adopt a state which is a function of temperature.