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BeiDou Signal Plan: Difference between revisions

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Revision as of 09:25, 15 October 2019


FundamentalsFundamentals
Title BeiDou Signal Plan
Author(s) J.A Ávila Rodríguez, University FAF Munich, Germany.
Level Advanced
Year of Publication 2011

Presently, the in-orbit operational BDS satellites providing open services include 5 GEO satellites, 7 IGSO satellites and 21 MEO satellites, which can be further divided as 15 BDS-2 satellites ( 5 BDS-2G, 7 BDS-2I, 3 BDS-2M) and 18 BDS-3 satellites (BDS-3M). In addition to B1I and B2I signals, the B1C and B2a ones have started broadcasting by the BDS-3M satellites[1].


BeiDou B1 Band

The B1I signal is composed of the carrier frequency, ranging code and navigation message. The ranging code and navigation message are modulated on carrier. The B1I signal is expressed as follows[2]:

 SjB1I (t) = AB1ICjB1I(t)DjB1I(t)cos(2πf1t + ѰjB1I)

Where:
• Superscript j: satellite number.
• AB1I : amplitude of B1I.
• CB1I : ranging code of B1I.
• DB1I : data modulated on ranging code of B1I.
• f1 : carrier initial phase of B1I.
• ѰB1I : carrier initial phase of B1I.

To conclude some technical characteristics of the BeiDou B1 signals are given next:

Beidou B1I signal characteristics [3]
Technical KPI High Level Description
Carrier Frequency 1561.098 MHz
Modulation Mode Binary Phase Shift Keying (BPSK)
Polarization Mode Right-Hand Circularly Polarized (RHCP)
Carrier Phase Noise Third-order phase locked loop with 10 Hz one-sided noise bandwidth
Received Power Levels on Ground -163 dBW (measured at the output of a 0 dBi RHCP user receiving antenna when the satellites are above a 5-degree elevation angle)
Signal Multiplexing Mode Code Division Multiple Access (CDMA)
Signal Bandwidth 4092 MHz (centered at the carrier frequency)
Spurious Shall not exceed -50dBc
Signal Coherence The random jitters of the ranging code phase differentials between B1I, B2I and B3I shall be less than 1ns (1σ).
The random jitter of the initial phase differential between the ranging code and the corresponding carrier shall be less than 3° (1σ).
Equipment Group Delay Differential TGD1 (less than 1ns)

BeiDou B2 Band

Similar to the B1 band, not all the technical aspects of the BeiDou signals in B2 have been defined yet. Nonetheless a proposed signal waveform has already been submitted to the ITU [Compass ITU Filing] [4]. Next figure shows the spectral details of the studied option.

Figure 3: Spectra of BeiDou Signals in the B2 band.


As also done for the rest of GNSS bands, we show in the next figure all the systems together.

Figure 4: Spectra of Galileo and BeiDou signals in the E5 - B2 bands.


To conclude, some technical characteristics on the BeiDou B2 signals are presented more in detail in the next table:

Table 2: BeiDou B2 signal technical characteristics [Compass ITU Filing] [4].

BeiDou B3 Band

Finally, the spectral characteristics of the BeiDou B3 signals are also shown here. Similar to the B1 and B2 bands, not all the technical aspects of the BeiDou signals are defined yet. Next figure shows the Power Spectral densities of the proposed BeiDou signals in B3:

Figure 5: Spectra of BeiDou Signals in the E6 - B3 band.


In order to have a better insight on how the Galileo E6 – BeiDou B3 band looks like, the following figure presents all the planned signals together.


Figure 6: Spectra of Galileo and BeiDou Signals in the E6 - B3 band.


To conclude, some technical characteristics on the BeiDou B3 signals are provided next [Compass ITU Filing] [4].

Table 3: BeiDou B3 signal technical characteristics [Compass ITU Filing] [4].

References

  1. ^ [1] BeiDou Navigation Satellite System Open Service Performance Standard(V2.0)
  2. ^ [2]BeiDou Navigation Satellite System Signal In Space Interface Control Document Open Service Signal B1I (Version 3.0)
  3. ^ [3] Beidou B1I signal characteristics
  4. ^ a b c d Cite error: Invalid <ref> tag; no text was provided for refs named COMPASS_ITU


Credits

The information presented in this NAVIPEDIA’s article is an extract of the PhD work performed by Dr. Jose Ángel Ávila Rodríguez in the FAF University of Munich as part of his Doctoral Thesis “On Generalized Signal Waveforms for Satellite Navigation” presented in June 2008, Munich (Germany)