Valve group and inlet module of a valve group

What is claimed is: 1. A valve group comprising an inlet module and at least one service module connected to said inlet module, said inlet module having a housing, a pressure port (PP), a pressure gallery (PG), a tank port (TP), a tank gallery (TG), a load sensing port (LS), a high pressure carry over port (HPCO) and a spool movable in said housing to interrupt in a first position (A) a connection between said pressure port (PP) and said pressure gallery (PG) and to connect in a second position (B) said pressure port (PP) and said pressure gallery (PG), wherein said spool in said first position (A) connects said pressure gallery (PG) and said tank gallery (TG), wherein a first pressure transducer is provided to detect a first pressure in said pressure gallery (PG) and a second pressure transducer is provided to detect a second pressure in said tank gallery (TG), said first pressure transducer and said second pressure transducer being connected to a controller determining the position of said spool to be said first position (A) when said first transducer and said second transducer read a same pressure below a predetermined first threshold pressure and to be said second position (B) when said first pressure transducer reads a higher pressure than said second pressure transducer, wherein said spool comprises a first groove and a second groove on the outside, and a channel inside, wherein in said first position said first groove connects said pressure gallery (PG) and said tank gallery (TG) and said second groove connects said tank gallery (TG) and said tank port (TP), and said channel connects said load sensing port (LS), said high pressure carry over port (HPCO) and said tank port (TP). 2. The valve group according to claim 1 , wherein said spool is movable in a third position (C), in which said pressure gallery (PG) is blocked, said high pressure carry over port (HPCO) is connected to said pressure port (PP), and said load sensing port (LS) is connected to said tank gallery (TG), and said controller determines the position of said spool to be said third position (C) when said first pressure transducer reads a pressure lower than said second pressure transducer. 3. The valve group according to claim 2 , wherein said spool is movable in a fourth position (D), in which said pressure port (PP) is connected to said pressure gallery (PG), said high pressure carry over port (HPCO) is blocked, said load sensing port (LS) is connected to said pressure gallery (PG), and to said tank gallery (TG) and said controller determines the position of said spool to be said fourth position (D) when said first pressure transducer and said second pressure transducer read the same pressure higher than a predetermined second threshold pressure. 4. The valve group according to claim 1 , wherein said spool comprises a third groove on the outside, wherein in said second position (B) said second groove connects said tank port (TP) and said tank gallery (TG) and said third groove connects said pressure port (PP) and said pressure gallery (PG). 5. The valve group according to claim 4 , wherein in said second position (B) said channel is isolated from all ports and galleries. 6. The valve group according to claim 5 , wherein in said third position (C) said channel connects said pressure port (PP), said high pressure carry over port (HPCO), said load sensing port (LS) and said tank gallery (TG), and said third groove connects said high pressure carry over port (HPCO) and said pressure port (PP). 7. The valve group according to claim 6 , wherein said spool comprises a fourth groove on the outside, wherein in said fourth position (D) said fourth groove connects said pressure port (PP) and said pressure gallery (PG) and said channel connects said load sensing port (LS) and said tank gallery (TG). 8. The valve group according to claim 1 , wherein said first pressure transducer is arranged in said pressure gallery (PG) and said second pressure transducer is arranged in said tank gallery (TG). 9. The valve group according to claim 2 , wherein said first pressure transducer is arranged in said pressure gallery (PG) and said second pressure transducer is arranged in said tank gallery (TG). 10. The valve group according to claim 3 , wherein said first pressure transducer is arranged in said pressure gallery (PG) and said second pressure transducer is arranged in said tank gallery (TG). 11. The valve group according to claim 4 , wherein said first pressure transducer is arranged in said pressure gallery (PG) and said second pressure transducer is arranged in said tank gallery (TG). 12. The valve group according to claim 5 , wherein said first pressure transducer is arranged in said pressure gallery (PG) and said second pressure transducer is arranged in said tank gallery (TG). 13. The valve group according to claim 6 , wherein said first pressure transducer is arranged in said pressure gallery (PG) and said second pressure transducer is arranged in said tank gallery (TG). 14. The valve group according to claim 7 , wherein said first pressure transducer is arranged in said pressure gallery (PG) and said second pressure transducer is arranged in said tank gallery (TG). 15. A valve group comprising an inlet module and at least one service module connected to said inlet module, said inlet module having a housing, a pressure port (PP), a pressure gallery (PG), a tank port (TP), a tank gallery (TG), a spool movable in said housing to interrupt in a first position (A) a connection between said pressure port (PP) and said pressure gallery (PG) and to connect in a second position (B) said pressure port (PP) and said pressure gallery (PG), wherein said spool in said first position (A) connects said pressure gallery (PG) and said tank gallery (TG), wherein a first pressure transducer is provided to detect a first pressure in said pressure gallery (PG) and a second pressure transducer is provided to detect a second pressure in said tank gallery (TG), said first pressure transducer and said second pressure transducer being connected to a controller determining the position of said spool to be said first position (A) when said first transducer and said second transducer read a same pressure below a predetermined first threshold pressure and to be said second position (B) when said first pressure transducer reads a higher pressure than said second pressure transducer, wherein said inlet module comprises a load sensing port (LS) and a high pressure carry over port (HPCO), wherein said spool is movable in a third position (C), in which said pressure gallery (PG) is blocked, said high pressure carry over port (HPCO) is connected to said pressure port (PP), and said load sensing port (LS) is connected to said tank gallery (TG), and said controller determines the position of said spool to be said third position (C) when said first pressure transducer reads a pressure lower than said second pressure transducer, and wherein said spool is movable in a fourth position (D), in which said pressure port (PP) is connected to said pressure gallery (PG), said high pressure carry over port (HPCO) is blocked, said load sensing port (LS) is connected to said pressure gallery (PG), and to said tank gallery (TG) and said controller determines the position of said spool to be said fourth position (D) when said first pressure transducer and said second pressure transducer read the same pressure higher than a predetermined second threshold pressure. 16. An inlet module for a valve group, the inlet module comprising a housing, a pressure port (PP), a pressure gallery (PG), a tank port (TP), a tank gallery (TG