Publication: Magyar Közlöny
Issue: MK-2007-70 (Year: 2007, Number: 70)
Era: 2004-2010
Section: Melléklet a 2007. évi XLVI. törvényhez
Paragraph Index: 3791

9. Status monitoring and NOTAM 9.1 System status 9.1.1 Degradation of GBAS usually has local effects and affects mainly approach operations. System degradation of GBAS is to be distributed as approach-related information. 9.1.2 Degradation of core satellite constellation(s) or SBAS usually has not only local effects, but additional consequences for a wider area, and may directly affect en-route operations. System degradation of these elements is to be distributed as area-related information. An example is a satellite failure. 9.1.3 Degradation of GRAS may have local effects and/or wide area effects. Therefore, if the degradation has only local effects, GRAS system degradation information is to be distributed in accordance with 9.1.1. If the degradation has wide area effects, GRAS system degradation information is to be distributed in accordance with 9.1.2. 9.1.4 Information is to be distributed to indicate the inability of GNSS to support a defined operation. For example, GPS/SBAS may not support a precision approach operation on a particular approach. This information can be generated automatically or manually based upon models of system performance. ATT D-47 23/11/06 2007/70/II. szám Annex 10 — Aeronautical Communications Volume I Table D-11. GPS tracking constraints for early-late correlators Region 3 dB precorrelation bandwidth, BW Average correlator spacing (chips) Instantaneous correlator spacing (chips) Differential group delay 2 < BW  7 MHz 0.045 – 1.1 0.04 – 1.2  600 ns 7 < BW  16 MHz 0.045 – 0.21 0.04 – 0.235  150 ns 16 < BW  20 MHz 0.045 – 0.12 0.04 – 0.15  150 ns 20 < BW  24 MHz 0.08 – 0.12 0.07 – 0.13  150 ns Table D-12. GLONASS tracking constraints for early-late correlators Region 3 dB precorrelation bandwidth, BW Average correlator spacing range (chips) Instantaneous correlator spacing range (chips) Differential group delay 7 < BW  9 MHz 0.05 – 1.0 0.045 – 1.1 100 ns 9 < BW  15 MHz 0.05 – 0.2 0.045 – 0.22  100 ns 15 < BW  18 MHz 0.05 – 0.1 0.045 – 0.11  100 ns Table D-13. GPS tracking constraints for double-delta correlators Region 3 dB precorrelation bandwidth, BW Average correlator spacing range (chips) Instantaneous correlator spacing range (chips) Differential group delay 2 < BW  7 MHz 0.045 – 0.6 0.04 – 0.65  600 ns 7 < BW  14 MHz 0.045 – 0.24 0.04 – 0.26  150 ns 14 < BW  16 MHz 0.07 – 0.24 0.04 – 0.26  150 ns Table D-14. SBAS ranging function tracking constraints Region 3 dB precorrelation bandwidth, BW Average correlator spacing (chips) Instantaneous correlator spacing (chips) Differential group delay 2 < BW  7 MHz 0.045 – 1.1 0.04 – 1.2  600 ns 7 < BW  20 MHz 0.045 – 1.1 0.04 – 1.2  150 ns 23/11/06 ATT D-48 2007/70/II. szám Attac ment Annex 10 — Aeronautical Communications 9.2 Information on type of degradation The following information is to be distributed:

Source: https://magyarkozlony.hu/hivatalos-lapok/4c6310a937d14bac566ee9c9d944896656c292dd/dokumentumok/5a6ac3c6db12e692ae41096677ad5f072d2cc9f3/letoltes