Method for adjusting a gas sensor

What is claimed is: 1. A method for adjusting a gas sensor configured to determine a concentration of a gas component in a measuring gas chamber, the gas sensor having at least one hollow chamber which is connected to the measuring gas chamber via a diffusion barrier, and the gas sensor having at least one electrochemical pump cell for electrochemically pumping the gas component into and out of the hollow chamber, the method comprising: providing at least two pumping-in phases in which the gas component is pumped into the hollow chamber by the electrochemical pump cell, wherein a characteristic parameter regarding the pumping-in is predefined differently in the at least two pumping-in phases; providing at least two pumping-out phases in which the gas component is pumped out of the hollow chamber by the electrochemical pump cell; and generating, on the basis of at least one feature of the pump current during the at least two pumping-out phases, an adjustment value of (i) a limiting current of the electrochemical pumping-out from the hollow chamber for a defined measuring gas composition or (ii) a diffusion resistance of the diffusion barrier for a defined measuring gas composition. 2. The method as recited in claim 1 , wherein: at least three pumping-in phases are provided, in which the gas component is pumped into the hollow chamber by the electrochemical pump cell; at least three pumping-out phases are provided, in which the gas component is pumped out of the hollow chamber by the electrochemical pump cell; and the characteristic parameter regarding the pumping-in is predefined differently in the at least three pumping-in phases. 3. The method as recited in claim 1 , wherein the characteristic parameter regarding the pumping-in is: (i) a pump current which is constant during a pumping-in phase; (ii) a pump current which is averaged during the pumping-in phase; (iii) a pump voltage which is constant during the pumping-in phase; (iv) a pump voltage which is averaged during the pumping-in phase; (v) a charge quantity which is pumped in the pumping-in phase; or (vi) a duration of the pumping-in phase. 4. The method as recited in claim 1 , wherein the at least one feature of the pump current during the pumping-out is (i) a charge quantity which is pumped in a pumping-out phase, (ii) a maximum pump current during the pumping-out phase, (iii) an averaged pump current during the pumping-out phase, or (iv) a duration of the pumping-out phase. 5. The method as recited in claim 4 , wherein each pumping-in phase is characterized by a value of the corresponding characteristic parameter, and wherein each pumping-in phase chronologically immediately precedes a corresponding pumping-out phase which is characterized by a value of the at least one feature of the pump current during the pumping-out phase, and wherein the adjustment value for adjusting the gas sensor is generated on the basis of a functional relationship between the at least one feature of the pump current during the pumping-out phases and the characteristic parameter regarding the pumping-in. 6. The method as recited in claim 5 , wherein the functional relationship between values of the at least one feature of the pump current during the pumping-out phases and values of the characteristic parameter regarding the pumping-in is at least a second-order polynomial. 7. The method as recited in claim 6 , wherein the values of the at least one feature of the pump current during the pumping-out phases and the values of the characteristic parameter regarding the pumping-in are taken into account by (i) an unequivocal evaluation of the functional relationship or (ii) an evaluation of the functional relationship with the aid of a regression computation, wherein at least three parameters of the functional relationship are determined. 8. The method as recited in claim 7 , wherein for ascertaining the adjustment value for adjusting the gas sensor, the at least three parameters of the functional relationship are computed with the aid of a computation rule which is a polynomial whose variables are the at least three parameters, and wherein the polynomial has coefficients which are empirically ascertained for the type of the gas sensor. 9. The method as recited in claim 6 , wherein the value of an electrical capacitance of the electrochemical pump cell is computed during the ascertainment of the adjustment value for adjusting the gas sensor. 10. The method as recited in claim 5 , wherein the value of an electrical capacitance of the electrochemical pump cell is computed during the ascertainment of the adjustment value for adjusting the gas sensor. 11. The method as recited in claim 5 , wherein the gas sensor is situated in an exhaust tract of an internal combustion engine or a burner. 12. The method as recited in claim 11 , wherein the method is carried out during a shutdown of the engine or a shutdown of the burner. 13. The method as recited in claim 12 , wherein the method is carried out multiple times at essentially regular intervals. 14. A computer-readable data storage medium storing a computer program having program codes which, when executed on a computer, performs a method for adjusting a gas sensor for determining a concentration of a gas component in a measuring gas chamber, the gas sensor having at least one hollow chamber which is connected to the measuring gas chamber via a diffusion barrier, and the gas sensor having at least one electrochemical pump cell for electrochemically pumping the gas component into and out of the hollow chamber, the method comprising: providing at least two pumping-in phases in which the gas component is pumped into the hollow chamber by the electrochemical pump cell, wherein a characteristic parameter regarding the pumping-in is predefined differently in the at least two pumping-in phases; providing at least two pumping-out phases in which the gas component is pumped out of the hollow chamber by the electrochemical pump cell; and generating, on the basis of at least one feature of the pump current during the at least two pumping-out phases, an adjustment value of (i) a limiting current of the electrochemical pumping-out from the hollow chamber for a defined measuring gas composition or (ii) a diffusion resistance of the diffusion barrier for a defined measuring gas composition. 15. A control unit for adjusting a gas sensor configured to determine a concentration of a gas component in a measuring gas chamber, the gas sensor having at least one hollow chamber which is connected to the measuring gas chamber via a diffusion barrier, and the gas sensor having at least one electrochemical pump cell for electrochemically pumping the gas component into and out of the hollow chamber, the control unit comprising: circuitry that is programmed with a program that, when executed by the circuitry, causes the circuitry to perform the following: control at least two pumping-in phases in which the gas component is pumped into the hollow chamber by the electrochemical pump cell, wherein a characteristic parameter regarding the pumping-in is predefined differently in the at least two pumping-in phases; control at least two pumping-out phases in which the gas component is pumped out of the hollow chamber by the electrochemical pump cell; generate, on the basis of at least one feature of the pump current during the at least two pumping-out phases, an adjustment value of (i) a limiting current of the electrochemical pumping-out from the hollow chamber for a defined measuring gas composition or (ii) a diffusion resistance of the diffusion barrier for a defined measuring g