Method for Controlling a Half-Bridge Circuit and Corresponding Half-Bridge Circuit

A circuit arrangement for operation of lamps, comprising a half-bridge arrangement which has an upper and a lower electronic switch (Q1, Q2), which are connected in series, each have a control connection and form a neutral point (N1) at their connection point; a load circuit in which a load circuit current (IL1) flows is connected to the neutral point (N1); the load circuit includes a reactance network having a resonant frequency, and adapted so that a lamp can be connected thereto; the load circuit is configured such that, during normal operation for a connected lamp after the opening of one of the electronic switches (Q1, Q2), the voltage on the respective other one of the electronic switches (Q1, Q2) tends to zero after a transient time; a feedback device which couples a feedback variable from the load circuit to the control connections of the electronic switches (Q1, Q2), such that the electronic switches (Q1, Q2) are switched on alternately; a stop device, which is coupled to the control connections of the upper and lower electronic switches (Q1, Q2) and has an input to which a stop signal can be applied, with the stop device being configured for preventing the electronic switches (Q1, Q2) from being switched on as long as the stop signal is in an off state; a timer, which is coupled to the input of the stop device and produces the stop signal, which can assume an on state and an off state; a trigger device which in each case emits a trigger signal to the timer after the transient time has elapsed, but at the latest when the load circuit current (ILS) is tending to zero; wherein the timer switches the stop signal to the on state for the duration of an on-time (t_on), a sequence controller configured to preset an on-time (t_on) during the preheating time of the electrodes of the lamps, by means of the timer, which time is shorter than one quarter of the period duration of the resonant frequency of the reactance network and, after the preheating time of the electrodes of the lamps, this on-time is continuously increased until it corresponds at least to one quarter of the period duration of the resonant frequency of the reactance network.