A comparison of the mean time to lose lock in coherent/noncoherent DLL´s

Author

Hasson, Jaime ; Bobrovsky, Ben Zion

Author_Institution

Fac. of Eng., Tel Aviv Univ., Israel

fYear

1995

fDate

7-8 March 1995

Abstract

In this paper we present a closed form expression for the MTLL (Mean Time to Lose Lock) of various code tracking DLL´s (Delay Lock Loops). The mutual influence of the channel noise and Doppler shift (due to the platform dynamics) on the loop performance is studied. Our analysis is applied to the non-coherent loop where the IF bandwidth, B/sub IF/, is narrow (this is the case where B/sub IF//spl ap/R/sub b/, the data rate) as well as to the case where B/sub IF//spl Gt/R/sub b/. For comparison, the coherent case is also presented. Using the MTLL, we propose an analytical expression for the threshold. The relationships between the MTLL and the jitter variance at the threshold for all loops are given. These results allows us to perform an analytical calculation of the threshold level for multi-loop receivers like the TDRSS user transponder.

Keywords

Doppler effect; Doppler shift; delay circuits; discriminators; jitter; noise; signal detection; synchronisation; transponders; Doppler shift; TDRSS user transponder; channel noise; code tracking DLL; coherent DLL; delay lock loops; jitter variance; loop performance; mean time to lose lock; multiloop receivers; noncoherent DLL; threshold level; Acceleration; Bandwidth; Doppler shift; Frequency; Signal to noise ratio; Spread spectrum communication; Steady-state; Systems engineering and theory; Tracking loops; Transponders;

fLanguage

English

Publisher

ieee

Conference_Titel

Electrical and Electronics Engineers in Israel, 1995., Eighteenth Convention of

Conference_Location

Tel Aviv, Israel

Print_ISBN

0-7803-2498-6

Type

conf

DOI

10.1109/EEIS.1995.513842

Filename

513842