Transmission for a motor vehicle, and drive train for a motor vehicle

The invention claimed is: 1. A transmission (G) for a motor vehicle, comprising: an input shaft (GW 1 ); an output shaft (GW 2 ); a first planetary gear set (P 1 ), a second planetary gear set (P 2 ), a third planetary gear (P 3 ); a plurality of shift elements (A, B, C, D, E); and an electric machine (EM) arranged axially parallel to the input shaft (GW 1 ) and operatively connected to the input shaft (GW 1 ) with a constant transmission ratio via a spur gear drive (STG) or a flexible traction drive mechanism (ZMG), wherein various gear ratios are formable between the input shaft (GW 1 ) and the output shaft (GW 2 ) through the first, second, and third planetary gear sets (P 1 , P 2 , P 3 ) by selectively engaging shift elements of the plurality of shift elements (A, B, C, D, E), wherein elements (E 13 , E 23 , E 33 ) of the third planetary gear set (P 3 ) are arranged, at least partially, radially within an element (STG 1 , ZMG 1 ) of the spur gear drive (STG) or of the flexible traction drive mechanism (ZMG) arranged coaxially to the input shaft (GW 1 ), and together with the spur gear drive (STG) or the flexible traction drive mechanism (ZMG) in a plane (E 1 ) oriented at a right angle with respect to the axis of rotation of the input shaft (GW 1 ). 2. The transmission (G) of claim 1 , further comprising an interface (GA) to a transmission-external drive unit at one end of the transmission (G), the interface (GA) transmitting a turning motion of the transmission-external drive unit to the input shaft (GW 1 ), wherein the spur gear drive (STG) or the flexible traction drive mechanism (ZMG) is arranged on another end of the transmission (G) positioned opposite the interface (GA) to the transmission-external drive unit. 3. The transmission (G) of claim 1 , wherein the spur gear drive (STG) or the flexible traction drive mechanism (ZMG) is directly operatively connected to a ring gear (E 33 ) of the third planetary gear set (P 3 ) which is arranged radially within the element (STG 1 , ZMG 1 ) of the spur gear drive (STG) or of the flexible traction drive mechanism (ZMG). 4. The transmission (G) of claim 3 , wherein the element (STG 1 , ZMG 1 ) of the spur gear drive (STG) or of the flexible traction drive mechanism (ZMG) arranged coaxially to the input shaft (GW 1 ) is formed on the outer diameter of the ring gear (E 33 ) of the third planetary gear set (P 3 ). 5. The transmission (G) of claim 4 , wherein the input shaft (GW 1 ) is axially mounted with respect to a housing (GG) of the transmission (G), and the ring gear (E 33 ) of the third planetary gear set (P 3 ) is permanently rotationally fixed to the input shaft (GW 1 ). 6. The transmission (G) of claim 1 , wherein the spur gear drive (STG) or the flexible traction drive mechanism (ZMG) is directly operatively connected to a planet carrier (E 23 ) of the third planetary gear set (P 3 ) which is arranged radially within the element (STG 1 , ZMG 1 ) of the spur gear drive (STG) or of the flexible traction drive mechanism (ZMG). 7. The transmission (G) of claim 1 , wherein the first and second planetary gear sets (P 1 , P 2 ) together have four shafts with a first shaft (W 1 ), a second shaft (W 2 ), a third shaft (W 3 ), and a fourth shaft (W 4 ), and the third shaft (W 3 ) is an integral part of the output shaft (GW 2 ). 8. The transmission (G) of claim 7 , wherein the third planetary gear set (P 3 ) is an integral part of a shiftable power path between the input shaft (GW 1 ) and one of the four shafts (W 1 , W 2 , W 3 , W 4 ) of the first and second planetary gear sets (P 1 , P 2 ). 9. A drive train for a motor vehicle, comprising the transmission (G) of claim 1 .