Control facility for a burner system

The invention claimed is: 1. A control facility for a burner system, the burner system having at least a burner, first and second actuators with which a supply of fuel and air to the burner is set, and an ionization electrode disposed in a flame zone, the control facility comprising: at least a flame amplifier disposed at the ionization electrode for generating an ionization signal; a positioning facility, which, in control operation, positions the first actuator and regulates the second actuator by using a corresponding target value for the ionization signal, said positioning facility carrying out the control operation in a first test step, shifts the first and second actuators toward a changed supply ratio and in so doing captures the ionization signal in a second test step, and calculates a target value from the ionization signal and from stored data in a third test step, in the second test step, said positioning facility shifting the first and second actuators toward a supply ratio corresponding to an air coefficient above a stoichiometric value of λ=1, an inverse of the target value is a first order polynomial development of an inverse of the ionization signal and of an inverse of the stored data; and wherein the stored data is a function of at least another ionization signal. 2. The control facility according to claim 1 , wherein in the second test step, said positioning facility changes the air coefficient to a value of λ>1.05. 3. The control facility according to claim 1 , wherein in the second test step, said positioning facility reduces the air coefficient by a value of Δλ<−0.06 to λ>1.05. 4. The control facility according to claim 1 , wherein said positioning facility repeats a test after 3,000 operating hours at a latest. 5. The control facility according to claim 1 , wherein in the second test step, said positioning facility maintains a position of one of the first and second actuators and changes that of the other of the first and second actuators. 6. The control facility according to claim 1 , wherein in the second test step, said positioning facility maintains a position of the second actuator for the supply of the fuel and changes that of the first actuator for the supply of the air. 7. The control facility according to claim 1 , wherein said positioning facility repeats the first, second, and third test steps in a presence of a different supply of the air or the fuel. 8. The control facility according to claim 1 , wherein in a fourth test step, said positioning facility replaces a stored target value characteristic for the ionization signal on a basis of at least one calculated target value and the stored data. 9. The control facility according to claim 1 , wherein in a fourth test step, said positioning facility effects a fault-condition shut-down and closes the second actuator for the supply of the fuel on a basis of a deviation between the stored data and a target value calculated from the ionization signal and from the stored data. 10. The control facility according to claim 8 , wherein the stored data contain at least part of the stored target value characteristic for the ionization signal as captured in a setting process.