The generation of sufficient acoustical output by smaller loudspeaker systems requires maximum exploitation of usable working range while avoiding any mechanical or thermal overload of the transducer.For example, micro-speaker used on portable and personal audio devices require active electronic means to keep the peak displacement and temperature of the voice coil below permissible limits and to prevent a damage of the transducer.After providing an overview on existing protection schemes based on linear or nonlinear transducer models with adaptive parameter identification the paper focusses on the adjustment (tuning) of the protection system to the particular transducer.A set of relevant transducer characteristics is defined which can be measured during transducer development and end-of-line testing.The new concept is illustrated with a micro-speaker and the data exchange and communication between transducer manufacturer, software provider and system integrator are discussed.