Process for synchronizing a receiver switching circuit to a received signal containing a pn-code-spread data signal

1. A process for synchronizing a receiver switching circuit to a received signal containing a PN-code-spread data signal, comprising the steps ofa) generating first, second and third PN-code signals shifted in time with respect to one another and controlling said PN-code signals by a controllable timer,b) correlating said second PN-code signal, which is located intermediately with respect to time, in a second correlation path with the received signal for the purpose of data demodulation,c) correlating said first PN-code signal, which is leading in time, in a first correlation path with the received signal and correlating said third PN-code signal, which is trailing in time, in a third correlation path with the received signal for the purpose of controlling the timer,d) comparing a power of the correlated PN-code signals in said second correlation path with a power in said first and third correlation paths, respectively,e) adaptively shifting a control range, which is defined by the position in time of the leading and the trailing PN-code signals, when the power in the second correlation path is lower than in the first or third correlation paths, wherein,f) in case of the power in the second correlation path being lower than in the first correlation path--which indicates a time drift of the data signal in the forward direction-shifting the trailing PN-code signal by a predetermined time interval to a foremost location in time with respect to the remaining two PN-code signals, andg) reassigning the PN-code signals to the correlation paths, wherein said first PN-code signal, which is now located intermediately with respect to time, is correlated in the second correlation path with the received signal for the purpose of data demodulation, and said second PN-code signal, which is now trailing in time, is correlated in the third correlation path with the received signal, and said third PN-code signal, which is now leading in time, is correlated in the first correlation path with the received signal for the purpose of controlling the timer,h) in case of the power in the second correlation path being lower than in the third correlation path--which indicates a time drift of the data signal in the rearward direction-shifting the leading PN-code signal by a predetermined time interval to a rearmost location in time with respect to the remaining two PN-code signals, andi) reassigning the PN-code signals to the correlation paths, wherein said third PN-code signal, which is now located intermediately with respect to time, is correlated in the second correlation path with the received signal for the purpose of data demodulation, and said first PN-code signal, which is now trailing in time, is correlated in the third correlation path with the received signal, and said second PN-code signal, which is now leading in time, is correlated in the first correlation path with the received signal for the purpose of controlling the timer.