Method for electrically connecting a converter to an electrical machine

The invention claimed is: 1. A method for electrically connecting a converter to an electrical machine to be supplied by the converter, the method which comprises: providing each one of a plurality of phases with a connection-closing element for electrically connecting the respective one of the plurality of phases between the converter and the electrical machine; starting from a disconnected state of the electrical connection; and closing the connection-closing element of each one of at least two of the plurality of phases at mutually different times; wherein in the closing step, the connection-closing element of each one of the at least two phases is closed at a zero crossing of a setpoint current of the electrical machine in the respective one of the at least two phases. 2. The method according to claim 1 , wherein, in the disconnected state, the connection-closing elements of all of the plurality of phases are open and the closing step comprises closing the connection-closing element of all of the plurality of phases individually with a temporal offset. 3. The method according to claim 1 , which comprises closing the connection-closing element of three phases of the plurality of phases at immediately successive zero crossings. 4. A method for electrically connecting a converter to an electrical machine to be supplied by the converter, the method which comprises: providing each one of a plurality of phases with a connection-closing element for electrically connecting the respective one of the plurality of phases between the converter and the electrical machine; starting from a disconnected state of the electrical connection; closing the connection-closing element of each one of at least two of the plurality of phases at mutually different times; and closing the connection-closing element of a first phase and the connection-closing element of a second phase at the same time and then closing the connection-closing element of a third phase thereafter. 5. The method according to claim 4 , which comprises closing the connection-closing elements of the first and second phases outside a zero crossing of a setpoint current thereof and closing the connection-closing element of the third phase at a zero crossing of the setpoint current thereof. 6. The method according to claim 4 , wherein, in the case where the connection-closing elements of the first and second phases are closed first, a sum of two integrals over a magnitude of differences between the setpoint current and the actual current becomes minimal. 7. The method according to claim 4 , which comprises, closing the connection-closing element of the second phase at a zero crossing immediately after a zero-crossing in a phase closed first. 8. A machine system, comprising: an electrical machine; a converter for converting an input voltage into a machine voltage having a plurality of phases; a connection-closing switch having a dedicated and individually actuable connection-closing element for at least two of the plurality of phases; and a control unit for switching said converter, said control unit being configured to individually actuate said connection-closing elements for closing the individual phases; said control unit configured for closing the connection-closing element of each one of the at least two of the plurality of phases at a zero crossing of a setpoint current of the electrical machine in the respective one of the at least two phases. 9. The machine system according to claim 8 , wherein each of said connection-closing elements includes a thyristor. 10. A machine system, comprising: an electrical machine; a converter for converting an input voltage into a machine voltage having a plurality of phases; a connection-closing switch having a dedicated and individually actuable connection-closing element for a plurality of phases; and a control unit for switching said converter, said control unit being configured to individually actuate said connection-closing elements for closing the individual phases; said control unit configured for closing the connection-closing element of a first phase and the connection-closing element of a second phase at the same time and then closing the connection-closing element of a third phase thereafter.