Method for operating an on-board electrical network of a motor vehicle

The invention claimed is: 1. A method for operating an on-board electrical network ( 4 ) of a motor vehicle ( 2 ), the method comprising: wherein the on-board electrical network ( 4 ) comprises a first voltage circuit (I) and a second voltage circuit (II), the first voltage circuit (I) having a first operating voltage which is higher than a second operating voltage in the second voltage circuit (II), wherein the first voltage circuit (I) is connected to the second voltage circuit (II) via a DC/DC converter ( 8 ), wherein the first voltage circuit (I) includes a battery ( 10 ) and the second voltage circuit (II) includes a first main battery ( 12 a ) and a second main battery ( 12 b ), and wherein the first main battery ( 12 a ) and the second main battery ( 12 b ) have substantially the same capacity, and energy from the first main battery ( 12 a ) and/or the second main battery ( 12 b ) by activating a switch assembly ( 14 ) to place the on-board electrical network ( 4 ) in a selected one of a standby mode (State L), a start-up mode (State M), or a fail-safe operating mode (State R), wherein in each of the standby mode (State L) and the start-up mode (State M), at least one component of the on-board electrical network ( 4 ) is provided electrical operating energy from the first main battery ( 12 a ) and the second main battery ( 12 b ), and wherein in the fail-safe operating mode (State R) the first main battery ( 12 a ) is disconnected and the at least one component of the on-board electrical network ( 4 ) is provided electrical operating energy from the second main battery ( 12 b ). 2. The method according to claim 1 , wherein the switch assembly ( 14 ) has a 3-way changeover switch ( 16 ). 3. The method according to claim 1 , wherein the switch assembly ( 14 ) has a 2-way changeover switch ( 18 ) and an isolating switch ( 58 ). 4. The method according to claim 1 , wherein the at least one component is one of a transmission control unit ( 20 ), an integrated hybrid controller ( 22 ), and/or or a gear-selection control unit ( 24 ). 5. The method according to claim 1 , wherein in the standby mode (State L), the first main battery ( 12 a ) and the second main battery ( 12 b ) together supply the at least one component with electrical operating energy via a fuse ( 50 ). 6. The method according to claim 5 , wherein in the start-up mode (State M), the first main battery ( 12 a ) and the second main battery ( 12 b ) together supply the at least one component with electrical operating energy, bypassing the fuse ( 50 ), and are disconnected from the rest of the on-board electrical network ( 4 ). 7. A computer program product designed to execute the method according to claim 1 . 8. An on-board electrical network ( 4 ) for a motor vehicle ( 2 ), the on-board electrical network ( 4 ) comprising: a first voltage circuit (I); and a second voltage circuit (II), wherein the first voltage circuit (I) includes a first operating voltage which is higher than a second operating voltage in the second voltage circuit (II), wherein the first voltage circuit (I) is connected to the second voltage circuit (II) via a DC/DC converter ( 8 ), wherein the first voltage circuit (I) includes a battery ( 10 ) and the second voltage circuit (II) includes a first main battery ( 12 a ) and a second main battery ( 12 b ), and wherein the first main battery ( 12 a ) and the second main battery ( 12 b ) have substantially the same capacity. 9. A motor vehicle ( 2 ) having an on-board electrical network ( 4 ) according to claim 8 . 10. The on-board electrical network ( 4 ) according to claim 8 , further comprising: a switch assembly ( 14 ) that is operable to place the on-board electrical network ( 4 ) in a selected one of a standby mode (State L), a start-up mode (State M), or a fail-safe operating mode (State R), wherein in each of the standby mode (State L) and the start-up mode (State M), at least one of the components of the on-board electrical network ( 4 ) is provided electrical operating energy from the first main battery ( 12 a ) and the second main battery ( 12 b ), and wherein in the fail-safe operating mode (State R) the first main battery ( 12 a ) is disconnected and the at least one of the components of the on-board electrical network ( 4 ) is provided electrical operating energy from the second main battery ( 12 b ). 11. The on-board electrical network ( 4 ) according to claim 10 , wherein the switch assembly ( 14 ) has a 3-way changeover switch ( 16 ). 12. The on-board electrical network ( 4 ) according to claim 10 , wherein the switch assembly ( 14 ) has a 2-way changeover switch ( 18 ) and an isolating switch ( 58 ). 13. The on-board electrical network ( 4 ) according to claim 10 , wherein the at least one of the components is one of a transmission control unit ( 20 ), an integrated hybrid controller ( 22 ), and/or or a gear-selection control unit ( 24 ). 14. The on-board electrical network ( 4 ) according to claim 10 , wherein in the standby mode (State L), the first main battery ( 12 a ) and the second main battery ( 12 b ) together supply the at least one of the components with electrical operating energy via a fuse ( 50 ). 15. The on-board electrical network ( 4 ) according to claim 14 , wherein in the start-up mode (State M), the first main battery ( 12 a ) and the second main battery ( 12 b ) together supply the at least one of the components electrical operating energy, bypassing the fuse ( 50 ), and are disconnected from the rest of the on-board network ( 4 ). 16. A vehicle, comprising: an on-board electrical network ( 4 ) comprising a first voltage circuit (I), and a second voltage circuit (II), wherein the first voltage circuit (I) includes a first operating voltage which is higher than a second operating voltage in the second voltage circuit (II), wherein the first voltage circuit (I) is connected to the second voltage circuit (II) via a DC/DC converter ( 8 ), wherein the first voltage circuit (I) includes a battery ( 10 ) and the second voltage circuit (II) includes a first main battery ( 12 a ) and a second main battery ( 12 b), wherein the first main battery ( 12 a ) and the second main battery ( 12 b) have substantially the same capacity. energy from the first main battery ( 12 a) and/or the second main battery ( 12 b). 17. The vehicle according to claim 16 , further comprising: a switch assembly ( 14 ) that is operable to place the on-board electrical network ( 4 ) in a selected one of a standby mode (State L), a start-up mode (State M), or a fail-safe operating mode (State R), wherein in each of the standby mode (State L) and the start-up mode (State M), at least one of the components of the on-board electrical network ( 4 ) is provided electrical operating energy from the first main battery ( 12 a ) and the second main battery ( 12 b ), and wherein in the fail-safe operating mode (State R) the first main battery ( 12 a ) is disconnected and the at least one of the components of the on-board electrical network ( 4 ) is provided electrical operating energy from the second main battery ( 12 b ).