Method for the start-up control of an electric vacuum pump

The invention claimed is: 1. A method for controlling a start-up process of an electric vacuum pump for a vacuum system of a vehicle, wherein the start-up process is implemented in two different start-up modes, namely in a standard mode and in a special mode, comprising: selecting between the standard mode and the special mode based on a determination that the electric vacuum pump would consume an amount of power greater than a predetermined value during the start-up process, when in the standard mode, the vacuum pump is started up by connecting the vacuum pump to a supply voltage in a non-pulsed manner, and when in the special mode, the vacuum pump is started up by connecting the vacuum pump to the supply voltage with on/off pulses, with the on/off pulses having in each case defined times T_on and T_off which together form a pulse period, wherein the times T_on and T_off are varied based on a predetermined relationship between values of T_on and T_off and environmental conditions and/or operating parameters, the variation of the times T_on and T_off resulting in a variation of a length of respective pulse periods. 2. The method as claimed in claim 1 , wherein the start-up process of the vacuum pump is conducted in the special mode if a temperature of the vacuum pump is lower than a threshold value T_p. 3. The method as claimed in claim 1 , wherein the start-up process of the vacuum pump is conducted in the special mode if a temperature of an electronic control unit (ECU) is lower than a threshold value T_e. 4. The method claim 1 , wherein the start-up process of the vacuum pump is conducted in the special mode if a temperature of the power driver of the electronic control device is higher than a threshold value T_ 1 . 5. The method as claimed in claim 1 , wherein the start-up process of the vacuum pump is conducted in the special mode if an idle time period of the vacuum pump is longer than a threshold value T_sz, wherein the idle time period immediately precedes with respect to time a point in time of the start-up process. 6. The method as claimed in claim 1 , wherein the start-up process of the vacuum pump is conducted in the special mode if wake-up management information indicates that the vacuum pump has not yet been operated after a wake-up process or after a clamp change. 7. The method as claimed in claim 1 , wherein the start-up process of the vacuum pump is conducted in the special mode if an ambient temperature is lower than a threshold value T_u. 8. The method as claimed in claim 1 , wherein the start-up process of the vacuum pump is conducted in the special mode if a prevailing start-up speed/rotational speed during a start-up process of the vacuum pump is lower than a threshold value v_p. 9. The method as claimed in claim 1 , wherein the start-up process of the vacuum pump is conducted in the special mode if a vacuum that is measured in the vacuum system is lower than a threshold value p_vac_th. 10. The method as claimed in claim 1 , wherein the start-up process of the vacuum pump is conducted in the special mode if a prevailing change in a vacuum that is measured in the vacuum system during the start-up process of the vacuum pump is higher than a threshold value p_vac_grad_th. 11. The method as claimed in claim 1 , wherein multiple different start-up process modes are used, if the environmental conditions and/or operating parameters are below or exceed stepped threshold values and/or predefinable combinations of the threshold values. 12. The method as claimed in claim 1 , wherein the special mode is abandoned as soon as: a process of controlling the vacuum pump in the special mode is already implemented during a time period T_enh, and/or information indicates that the vacuum pump is running within predetermined parameters, with reference to the values of vacuum pump rotational speed, prevailing power/current curves, vacuum pump temperature, vacuum/vacuum gradient. 13. The method as claimed in claim 1 , wherein the times T_on and T_off are established by a model or a characteristic field. 14. The method as claimed in claim 1 , wherein the times T_on are approximately a few seconds and the times T_off are approximately a few hundred milliseconds. 15. The method as claimed in claim 1 , wherein in the case of an activated special mode information for the vehicle driver is output after a predefinable period of time and said information is an acoustic and/or optical warning. 16. The method as claimed in claim 1 , wherein in the case of an activated special other drive systems of the vehicle are informed after a predefinable period of time so that said systems switch into an emergency program. 17. The method as claimed in claim 1 , wherein the determination that the electric vacuum pump would consume an amount of power greater than the predetermined value during the start-up process is based on the environmental conditions and/or operating parameters of the vacuum pump. 18. A method for controlling a start-up process of an electric vacuum pump for a vacuum system of a vehicle, wherein the start-up process is implemented in at least two different start-up modes, namely in a standard mode and in at least one special mode, comprising: selecting between the standard mode and the at least one special mode based on a determination that the electric vacuum pump would consume an amount of power greater than a predetermined value during the start-up process, when in the standard mode, connecting the vacuum pump to a supply voltage in a non-pulsed manner, and when in the at least one special mode, connecting the vacuum pump to the supply voltage in a dynamically pulsed manner, wherein during a defined start-up process period t_a a process of controlling the vacuum pump is performed according to a pattern of the ON/OFF pulses having in each case defined times T_on and T_off, wherein the times T_on and T_off are varied in dependence upon environmental conditions, and wherein the time T_on is selected in dependence upon a value of the supply voltage, wherein T_on is selected in the case of smaller supply voltage values for a longer period of time than in the case of higher supply voltage values. 19. A method for controlling a start-up process of an electric vacuum pump for a vacuum system of a vehicle, wherein the start-up process is implemented in at least two different start-up modes, namely in a standard mode and in at least one special mode, comprising: selecting between the standard mode and the at least one special mode based on a determination that the electric vacuum pump would consume an amount of power greater than a predetermined value during the start-up process, when in the standard mode, connecting the vacuum pump to a supply voltage in a non-pulsed manner, and when in the at least one special mode, connecting the vacuum pump to the supply voltage in a dynamically pulsed manner, wherein during a defined start-up process period t_a a process of controlling the vacuum pump is performed according to a pattern of the ON/OFF pulses having in each case defined times T_on and T_off, wherein the times T_on and T_off are varied in dependence upon environmental conditions, and wherein the time T_on is selected in a variable manner in dependence upon a prevailing measured vacuum pump power and/or a temperature of a motor of the vacuum pump. 20. A method for controlling a start-up process of an electric vacuum pump for a vacuum system of a vehicle, wherein the start-up process is implemented in at least two diffe