Controlling a wind farm

The invention claimed is: 1. A method of controlling a wind turbine group having a plurality of wind turbines, comprising: forming a group power output as a sum of wind turbine power outputs of the wind turbine group, wherein each wind turbine of the wind turbine group respectively generates electrical power as a respective wind turbine power output for feeding into an electrical supply network; feeding, by the wind turbine group, the group power output into the electrical supply network at a grid connection point; specifying a maximum group power output for limiting the group power output; to comply with the maximum group power output, sending a control value to each wind turbine of the wind turbine group for limiting the respective wind turbine power output to a maximum value defined by the control value; and determining a control relationship between a plurality of potential control values and a respective plurality of potential group power outputs to specify the control value, wherein the control value is determined using the control relationship and the control value is determined depending on the maximum group power output; and storing the control relationship as a table of value tuples, wherein: each value tuple includes a potential control value and a potential group power output, or the control relationship includes a threshold control value which is representative of an associated control value at which an associated group power output reaches a current maximum value of the associated group power output, and the threshold control value is composed of the associated control value and a reserve value, or the control value is specified as a relative value in relation to a nominal power. 2. The method according to claim 1 , wherein, to generate the control relationship successively for the plurality of potential control values, from a predefinable first potential control value to a predefinable last potential control value, calculating a respective potential group power output for a respective potential control value, wherein: the potential group power output for the respective potential control value is calculated as a sum of power outputs that can be generated by each of the wind turbines of the wind turbine group, and a power output that can be generated by a wind turbine is calculated depending on a nominally limited power output which is calculated using a nominal power of the wind turbine and the potential control value, and an available power output denoting an electrical power output which can currently be generated by the wind turbine. 3. The method according to claim 2 , wherein the nominally limited power output is a product of the nominal power of the wind turbine and the potential control value. 4. The method according to claim 2 , wherein a smaller of the nominally limited power output and the available power output is used as the power output that can be generated. 5. The method according to claim 1 , wherein: the control relationship is updated within predefinable time intervals, wherein, in particular. 6. The method according to claim 5 , wherein the predefinable time intervals are less than one minute. 7. The method according to claim 1 , comprising: determining a reference relationship, wherein: a relationship between potential group power outputs and potential control values is determined as the reference relationship based on the control relationship to obtain a control value from the maximum group power output using the reference relationship. 8. The method according to claim 7 , wherein the relationship is determined for some of the potential control values by using every n-th potential control value from the potential control values of the control relationship, wherein n is an integer from 2 to 100 in order to: find, in a first assignment step, a quick first relationship between a specified group power output and a potential control value assigned in a first approximation; and determine, in a second assignment step based on the potential control value assigned in said first approximation and on the control relationship, a more precisely assigned potential control value and to use the control value. 9. The method according to claim 8 , wherein an interpolation between two potential control values of the control relationship is performed in the second assignment step. 10. The method according to claim 1 , comprising: determining, by a central group computer for the wind turbine group, the control relationship; receiving, by the central group computer, operating values on a regular basis from the plurality of wind turbines of the wind turbine group; and determining, by the central group computer, the control value. 11. The method according to claim 1 , wherein: the control value is composed of a fixed control term and a variable control term, wherein: the fixed control term is determined using the control relationship and as a function of the maximum group power output, the variable control term is determined as a function of a setpoint/actual value comparison between the maximum group power output; and the group power output fed to a grid at the grid connection point, and the variable control term is limited to a maximum of one tenth of the maximum value of the control value. 12. The method according to claim 11 , wherein: setpoint/actual comparison of values are taken into account as a control error, and the variable control term includes an integral term of the control error, wherein: the integral term obtained from the control error is determined by integration using an integration factor. 13. The method according to claim 12 , wherein: the integral term is limited to a fraction of a maximum value of the control value, and the fraction is in a range between 5% and 20% of the maximum value of the control value, or the variable control term, after a change in the specified maximum group power output by a value greater than a specified change limit, is determined or supplied with a time delay, or at least completely determined or supplied with a time delay initially, wherein the time delay ranges between 1 and 20 seconds. 14. The method according to claim 12 , wherein the integration factor depends on an amplitude of the control error, wherein the integration factor is positively correlated with a magnitude of the control error. 15. The method according to claim 11 , wherein the variable control term is determined with an aid of an integrator and an output value of the integrator is reset when there is a change in the maximum group power output. 16. A method of controlling a wind farm having a plurality of wind turbine groups, comprising: controlling each wind turbine group of the plurality of wind turbine groups using the method according to claim 1 ; specifying a maximum farm output power to limit a farm power output fed to a grid at the grid connection point; subdividing the maximum farm output power into a plurality of maximum power output fractions in accordance with a distribution rule; sending, to each wind turbine group of the plurality of the wind turbine groups, one of the plurality of maximum power output fractions as the maximum group power output; and controlling each wind turbine group of the plurality of the wind turbine groups depending on the maximum group power output. 17. The method according to claim 16 , wherein the distribution rule splits the maximum farm output power into the plurality of maximum power output fractions, depending on: a nominal group power output of each wi