DVB-S2/DVB-RCS satellite system performance assessment for ...
DVB S2 Theory
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Transcript of DVB S2 Theory
![Page 1: DVB S2 Theory](https://reader031.fdocuments.in/reader031/viewer/2022012323/55cf9d62550346d033ad6604/html5/thumbnails/1.jpg)
DVB-S2 Technical Presentation
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A Basic Satellite Theory course
Content:
– Higher modulation schemes
(DVB-DSNG & S-2)• Differences & Advantages
– Related Advantech Wireless Products
– IF versus IF-L: Why
– Nyquist roll-off factors: Advantages
2
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The BIG MOVE
• Why DVB-S2:
New market demands:
A. HDTV/3DTV (large BW) & IPTV (large traffic) spreading rapidly:
Market driver!
B. Need for higher / better compression algorithms (MPEG4)
C. Need for more efficient transportation (DVB-S2)
= 3 master pillars supporting each other
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The squeeze of the poor satellite service provider:
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HDTV
ExpandingCyberspace
VoIP
Terrestrial competition
Failed satellitelaunches
Pressure on C band
Expensive space segment
High margins for rain fade
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What is DVB-S2 ?
5
New DVB standard for digitial satellite communications
Meant to replace DVB-S & DVB-DSNG
Much better spectral efficiency
• New features such as
–Up to 30% bandwidth saving
–Up to 2.5 dB margin gain
–Variable and Adaptive Coding and Modulation
–Generic Mode (no transport stream overhead)
–Support of multiple streams on a single carrier
• So close to the Shannon limit that it could be the last DVB-S standard!
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More BANDWIDTH
More MARGIN
Less AMPLIFIER POWER
Less SATELLITE COST
Less ANTENNA SIZE
More FLEXIBILITY
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QPSK - 8PSK - 16QAM modulation schemes used in DVB-S/DSNG standards
BPSK: 1 b/Hz
0
180
QPSK: 2 b/Hz
0
180
90270
8PSK: 3 b/Hz
0
180
90270
45
135225
315
0
180
90
22.5
67.5
112.5
157.5202.5
247.5
292.5
337.5
270
45
135225
315
16QAM: 4 b/Hz
Eye pattern(after filtering)
phase jitter
Unit Power
Unit Power 3dB
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4 TWTA-friendly modulation schemes:
00
I
Q
10
11 01
000
I
Q
011
111
001
101
010
110
100
text
1100
1101 1111
1110
0000
0100
0101
0001
1001 1011
0011
0111
0110
0010
1010 1000
I
Q
text
10001
10011 10111
10101
00000
10000
10010
00010
00011 00111
00110
10110
10100
00100
00101 00001
I
Q
11000
01000
11001
01001 01101
11101
01100
11100
11110
01110
11111
01111 01011
11011
01010
11010
QPSK2 bits/symbol
8PSK3 bits/symbol
16APSK4 bits/symbol
32APSK5 bits/symbol
What is different in S2 ?
New error correction codes (BCH + LDPC)
New Roll-Off factors (20%, 25% and 35%)
Best case: up to 40% more capacity!
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Performance:
More than 2dB better than DVB-S/DSNG
Less than 1dB from Shannon Limit
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Spectral efficiency:
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New Forward Error Correction codes:
(More powerful, less overhead)
–BCH (Bose-Chaudhuri-Hocquenghem) replaces Reed Solomon outer coding
–LDPC (Low Density Parity Check) replaces Viterbi inner coding
• More inner code rates:
1/4, 1/3, 2/5, 1/2, 3/5, 2/3, 3/4, 4/5, 5/6, 8/9, 9/10
• New Modulation schemes
QPSK, 8PSK, 16APSK, 32APSK
• 3 spectrum shaping factors:
0.2, 0.25, 0.35 %
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Main differences between DVB-S/DSNG and DVB-S2
DVB-S/DSNG
Meant for broadcast only
Fixed 188 byte/packets
One TS / carrier
RS and Viterbi coding
Need of high Rx margin
QPSK /QPSK-8PSK-16QAM
35% 25% Roll-off carrier
Consumer LNB’s work in QPSK only
DVB-S2
• Fully transparent to all data
• Baseband in 16 or 64 kb/s
• CCM/MultiStream-VCM-ACM
• LDPC and BCH coding
• Can work within noise floor
• QPSK-8PSK-16APSK-32APSK
• 20% Roll-off carrier
• Pilot tones for extra synch in 8PSK
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Two major worlds in DVB-S2: Distribution vs. Contribution
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QPSK & 8PSK
Normal frames only (64 kB)
Pilots on/off (8PSK: always On)
• QPSK, 8PSK, 16APSK, 32APSK
• Short & Normal frames
• Pilots on/off
Why Pilots: Replacement of consumer set-top boxes is easy,
but LNB’s is major obstacle => Pilots
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Generic Mode
• In DVB-S the data format was exclusively the MPEG Transport Stream (TS)
• The size of the MPEG transport stream packet (188 bytes) was optimised for the Reed Solomon error correction code, which is no longer used by DVB-S2
• For IP data, the overhead due to TS and MPE was typically 4 to 15%
• -> DVB-S2 includes a new Generic Mode for
• continuous or packetized data
• Advantages:
• Compatible with any type of data (IP, ATM,…)
• No Transport Stream overhead (2%)
• For IP, the efficiency gain could be more than 4%
• DVB-S2 does not define an encapsulation mechanism for IP data such as MPE, but it is being studied by another standardisation group (TM-GBS)
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Variable coding and modulation:
Each frame can be encoded and modulated with different parameters on
the same carrier
3 modes of operation
• CCM Constant Coding and Modulation (Single or MultiStream)
All frames use the same (fixed) parameters
• VCM Variable Coding and Modulation
Different streams/services are coded with different (fixed) parameters on the same carrier
• ACM Adaptive Coding and Modulation
Each frame is coded with its own set of parameters. Parameters are modified dynamically according to the reception conditions for each receiver
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Multiple streams on single carrier (CCM-VCM-ACM)
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• A DVB-S2 modulator can have several physical or logical inputs:
• The data of each each input is processed in separated Base Band frames.
• The BB frames are time-multiplexed at the Physical Layer on the same carrier (no TS multiplexing)
• When no data is present the modulator can pad incomplete BB frames or insert dummy PL frames
• Demodulators can receive and decode individual streams independently from the other streams
TS input 1
TS input 2
IP input
Input
interfaces
Mode and
Stream
Adaptation
(including
padding)
Coding and
modulation
Insertion of
dummy PL
framesBB frames
(16 or 64Kb)
PL frames
Dummy PL frame
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The Belgian DVB-S2 point of view, even tastier
Encapsulation Framing Transport
ID:
ISI value
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Applications: IP Trunking - VCM
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HUB
Example: 30MHz used for Unicast IP trunking to 20 sites with rain margin varying from 2.5 to 5.5
dB depending on location:
...
Fixed modulation and coding selected for each
service according to available Co/No at the receiving site(Avail 99.85%)
16APSK 2/3
QPSK 4/5
8PSK3/5
8PSK2/3
With DVB-S: fixed QPSK 2/3 => total bit rate = 36.87 Mbps (1.84Mbps per site)
With DVB-S2 CCM: all sites with QSPK 4/5
=> total bit rate = 47.61 Mbps (2.38Mbps per site) + 29.1%
With DVB-S2 VCM: between QPSK 4/5 and 16APSK 2/3
=> between 2.38 and 3.96 Mbits/sec per site
=> total bit rate > 61 Mbps > +65 %
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Applications: IP Trunking - ACM
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HUB
Example: 30MHz used for Unicast IP trunking to 20 sites with rain margin varying from 2.5 to 5.5
dB depending on location:
...
Variable modulation and coding selected for each
service according to measured Co/No at the receiving site
16APSK 5/6
8PSK 3/4
16APSK3/4
16APSK2/3CoNo measurements
With DVB-S2 ACM: between 8PSK 3/4 and 16APSK 5/6
=> between 3.34 and 4.95 Mbits/sec per site
=> total bit rate > 85 Mbps > +131 %
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Applications: DSNG-Contribution
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• When combining DVB-S2 with MPEG4 AVC (H.264 Layer 10) technology, it will be possible to transmit contribution quality HDTV in less bandwidth
than SDTV with DVB-S and MPEG2
example:
DVB-S 8PSK 5/6: SD MPEG2 4:2:2@ML at 21.5Mbits/sec (video
19Mbits/sec)
in 11.7MHz
DVB-S2 16APSK 4/5: HD MPEG4/AVC [email protected] at 27.5Mbits/sec (video 25Mbits/sec)
in 10.5 MHz
HDTV:
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Applications: DSNG – Contribution in ACM (cont’d)
20
If a return channel is available from the receiving site to the uplink, ACM can be used to convert the rain margin in
additional video quality (with variable rate video encoder):
DVB-S2 feed
Return channel
Example: carrier at 7.5 MsymbolsCo/No varying between 4 and 10dB
DVB-S: fixed QPSK 1/2 -> 5.5 Mbits/sec
DVB-S2: QPSK 2/3 -> 8.3 Mbits/sec
8PSK 3/4 -> 13.9 Mbits/sec
Receive site
SNG uplink
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Applications: DSNG - Contribution
21
Typical DVB-S transponder usage:
36 MHz transponder
8.3 MHz
Large channels:Data rate = 21.5 Mbits/sec
8PSK 5/6, ROF = 25 %, BW = 11.7 MHzCo/No> 8.3+3.63= 11.9 dB,
Narrow channels:Data rate = 8.445 Mbits/sec
QPSK 3/4, ROF = 35%, BW = 8.5 MHzCo/No> 4.9+1.41= 6.3 dB BW = 8.5 MHz11.7 MHz 11.7 MHz
With DVB-S2 and the same channel conditions:
36 MHz transponder
6.2 MHz
Large channels:Data rate = 21.5 Mbits/sec16APSK 4/5, ROF = 20 %
Co/No> 12.2 dB, BW = 8.2MHz
Narrow channels:Data rate = 8.445 Mbits/sec
QPSK 5/6, ROF = 20% Co/No> 6.2 dB BW = 6.2 MHz8.2 MHz 8.2 MHz8.2 MHz
There is room for 1 additional large channel AND almost 1MHz of extra spare capacity!
Spare capacity (VSAT, coordination channel,…): 4.3 MHz
Spare capacity (VSAT, coordination channel,…): 5.2 MHz
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DVB-S2 and Broadcast applications (DTH)
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SATELLITE EIRP 51 dBW SATELLITE EIRP 53.7 dBW
DVB-S DVB-S2 DVB-S DVB-S2
27.5 Mbauds
(ROF 0.35)
30.9 Mbauds
(ROF 0.20)
27.5 Mbauds
(ROF 0.35)
29.7 Mbauds
(ROF 0.25)
QPSK 2/3 QPSK 3/4 QPSK 7/8 8PSK 23
33.8 Mbps 46 Mbps (+36%) 44.4 Mbps 58.8 Mbps (+32%)
7 SDTV MPEG2
15 SDTV h.264
10 SDTV MPEG2
21 SDTV h.264
10 SDTV MPEG2
20 SDTV h.264
13 SDTV MPEG2
26 SDTV h.264
1 HD MPEG2
3 HD h.264
2 HD MPEG2
5 HD h.264
2 HD MPEG2
5 HD h.264
3 HD MPEG2
6 HD h.264
Typical 36MHz transponder usage with DVB-S and DVB-S2:
Symbol Rate
Roll-Off factor
Modulation
Bit rate
Number of SD channels
Number of HD channels
With identical Transmit / Receive link budget & conditions !
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Advantech DVB-S2 products (1)
• SBM75e Modulator
– DVB-S/DSNG/S2 w. CCM SS/MS, VCM & ACM
– Up to 45 MBaud in QPSK, 8PSK, 16APSK, 32 APSK and 64QAM
– Fully compliant to all DVB-stds.
– Aggregates up to 8 ASI inputs
– IP GSE, routing, bridging, encapsulation etc.
– IF/IFL outp., etc.
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• SBD75e Demodulator
– DVB-S/DSNG/S2 w. CCM SS/MS, VCM & ACM
– Up to 45 MBaud in QPSK, 8PSK, 16APSK, 32 APSK and 64QAM
– Fully compliant to DVB-stds.
– Restitutes up to 6 ASI outputs
– IP outputs, decapsulation, etc.
– Single or dual versions
– Active or passive 19” front panel
– IF/IFL inputs
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Advantech DVB-S2 products (2)
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Advantech DVB-S2 products (3)
• AMT75e MoDem– Combines SMB75e and SBD75ein one chassis
– Accommodates all types of interfaces (Telco, Brdc, IP)
– Best value for price in Market
– Proven reliability
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A few other Nice-to-knows
• Why L-band vs. IF on Tx
• Carrier Roll-off factors
• Hierarchical mode in DVB-S2
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70-140 MHz versus L-band over IF cables
Why is L-band preferred?
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IF vs. IF-L: Frequency Slope & BandWidth
28
IF 32 MHz BW @ 70 MHz
IF 64 MHz BW @ 140 MHz
L-band 950 MHz BW
Freq. slope
Freq. slope
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Sam
e 4
0 M
Hz B
W o
ver I
F a
nd
L-b
an
d:
m
ore d
eg
rad
ati
on
@ I
F
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Roll-Off factors (Nyquist filters) in DVB-DSNG & DVB-S2
30
DVB-S: 35%
DVB-DSNG: 25% & 35%
DVB-S2: 20%
Remark: ADV equipment allows the use of all roll-off factors in all modulation schemes
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20% vs 25% vs 35% roll-off shaping
-3dB
35%
25%
20%
-26dB
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What about existing DVB-S receivers?
DVB-S2 signals are not compatible with DVB-S receivers
DVB-S2 has a special mode called hierarchical modulation, but
Hierarchical modulation is not used in practice because:
high complexitylow gaindegradation of DVB-S performanceMarket obstacle (still no HD,...)
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Our mess in Space: Profile view LEO/MEO & GEO
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Q & A
Thanks for listening34