Publication: Magyar Közlöny
Issue: MK-2007-70 (Year: 2007, Number: 70)
Era: 2004-2010
Section: Melléklet a 2007. évi XLVI. törvényhez
Paragraph Index: 3433

3. Next segment/field identifier values 5 and 7 are reserved for use in approach procedures only. Missed approach and departure procedures may share approach waypoints which use these values, ignoring the data fields for threshold waypoint height, virtual azimuth to threshold distance and missed approach index. ___________________ 23/11/06 A A 22 2007/70/II. szám A E D ECH CA S EC F CA O S FOR HE O A A A O SA E E S S E SS DEF O S A A ground-based augmentation system transmitting an elliptically-polarized VHF data broadcast. A A ground-based augmentation system transmitting a horizontally-polarized VHF data broadcast. eceiver A subsystem that receives GNSS signals and includes one or more sensors. eserved ( its words ields) Bits/words/fields that are not allocated, but which are reserved for a particular GNSS application. are ( its words ields) Bits/words/fields that are not allocated or reserved, and which are available for future allocation. Note All spare bits are set to ero E ERA Note The following technical specifications supplement the provisions of Chapter SS E E E S 3 1 lobal ositioning System S Standard ositioning Ser ice S S 3.1.1 NON-AIRCRAFT ELEMENTS 3.1.1.1 RADI FRE UENC (RF) C ARACTERISTICS 3.1.1.1.1 Carrier phase noise. The carrier phase noise spectral density of the unmodulated carrier shall be such that a phase locked loop of 10 Hz one-sided noise bandwidth is able to track the carrier to an accuracy of 0.1 radian (1 sigma). 3.1.1.1.2 Spurious emissions In-band spurious emissions shall be at least 40 dB below the unmodulated L1 carrier over the allocated channel bandwidth. 3.1.1.1.3 Correlation loss The loss in the recovered signal power due to imperfections in the signal modulation and waveform distortion shall not exceed 1 dB. Note The loss in signal power is the difference between the broadcast power in a M bandwidth and the signal power recovered by a noise free loss free receiver with chip correlator spacing and a M bandwidth ANNEX 10 — VOLUME I A 23/11/06 2007/70/II. szám Annex 10 — Aeronautical Communications Volume I 3.1.1.1.4 Coarse ac uisition (C A) code generation and timing Each C/A code pattern Gi(t) shall be formed by the Modulo-2 sum of two 1 023-bit linear patterns, G1 and G2i. The G2i sequence shall be formed by effectively delaying the G2 sequence by an integer number of chips to produce one of 36 unique Gi(t) patterns defined in Table B-1. The G1 and G2 sequences shall be generated by 10-stage shift registers having the following polynomials as referred to in the shift register input:

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