This article includes a list of general
references, but it lacks sufficient corresponding
inline citations. (January 2018) |
List of digital television broadcast standards |
---|
DVB standards ( countries) |
ATSC standards ( countries) |
|
ISDB standards ( countries) |
DTMB standards ( countries) |
DMB standard ( countries) |
Codecs |
|
Terrestrial Frequency bands |
Satellite Frequency bands |
Digital Video Broadcasting - Satellite - Second Generation (DVB-S2) is a digital television broadcast standard that has been designed as a successor for the popular DVB-S system. It was developed in 2003 by the Digital Video Broadcasting Project, an international industry consortium, and ratified by ETSI (EN 302307) in March 2005. The standard is based on, and improves upon DVB-S and the electronic news-gathering (or Digital Satellite News Gathering) system, used by mobile units for sending sounds and images from remote locations worldwide back to their home television stations.
DVB-S2 is designed for broadcast services including standard and HDTV, interactive services including Internet access, and (professional) data content distribution. The development of DVB-S2 coincided with the introduction of HDTV and H.264 (MPEG-4 AVC) video codecs.
Two new key features that were added compared to the DVB-S standard are:
Other features include enhanced modulation schemes up to 32APSK, additional code rates, and the introduction of a generic transport mechanism for IP packet data including MPEG-4 audio–video streams, while supporting backward compatibility with existing MPEG-2 TS based transmission.
DVB-S2 achieves significantly better performance than its predecessors – mainly allowing for an increase of available bitrate over the same satellite transponder bandwidth. The measured DVB-S2 performance gain over DVB-S is around 30% at the same satellite transponder bandwidth and emitted signal power. When the contribution of improvements in video compression is added, an ( MPEG-4 AVC) HDTV service can now be delivered in the same bandwidth that supported an early DVB-S based MPEG-2 SDTV service only a decade before.
In March 2014, DVB-S2X specification has been published by DVB Project as an optional extension adding further improvements. [1]
Depending on code rate and modulation, the system can operate at a C/N between −2.4 dB (QPSK, 1/4) and 16 dB (32APSK, 9/10) with a quasi-error free goal of a 10−7 TS packet error rate. Distance to the Shannon limit ranges from 0.7 dB to 1.2 dB.
Modes and features of DVB-S2 in comparison to DVB-S:
DVB-S | DVB-S2 | |
---|---|---|
Input interface | Single transport stream (TS) | Multiple transport stream and generic stream encapsulation (GSE) |
Modes | Constant coding & modulation | Variable coding & modulation and adaptive coding & modulation |
FEC | Reed–Solomon (RS) 1/2, 2/3, 3/4, 5/6, 7/8 | LDPC + BCH 1/4, 1/3, 2/5, 1/2, 3/5, 2/3, 3/4, 4/5, 5/6, 6/7, 8/9, 9/10 |
Modulation | Single-carrier QPSK | QPSK, 8PSK, 16APSK, 32APSK |
Interleaving | Bit-interleaving | Bit-interleaving |
Pilots | Pilot symbols | Pilot symbols |
This section needs to be updated. The reason given is: This section is stated as if DVB-S2 was not yet rolled out; it's been rolled out for more than a decade..(April 2023) |
Envisaged scenarios for DVB-S2 by the standard document are:
DVB-S2 is 30% more efficient than DVB-S. It allows a wider range of applications combining DVB-S features (for household tasks), and DVB-DSNG (for professional tasks). DVB-S2 can adapt codification to maximize satellites resources value. It is compatible with last generation.
The main disadvantage, there are many millions of devices deployed using DVB-S over the world which has to be upgraded.
The next table compares both standards.
Satellite EIRP (dBW) | 51 | 53.7 | ||
---|---|---|---|---|
System | DVB-S | DVB-S2 | DVB-S | DVB-S2 |
Modulation and codification | QPSK 2/3 | QPSK 3/4 | QPSK 7/8 | 8PSK 2/3 |
Speed per token | 27.5 (a = 0.35) | 30.9 (a = 0.25) | 27.5 (a = 0.35) | 29.7 (a = 0.25) |
C/N, 27.5 MHz (dB) | 5.1 | 5.1 | 7.8 | 7.8 |
Bitrate (Mbit/s) | 33.8 | 46 (+36%) | 44.4 | 58.8 (+32%) |
№ channels SDTV | 7 MPEG-2, 15 AVC | 10 MPEG-2, 21 AVC | 10 MPEG-2, 20 AVC | 13 MPEG-2, 27 AVC |
№ channels HDTV | 1–2 MPEG-2, 3–4 AVC | 2 MPEG-2, 5 AVC | 2 MPEG-2, 5 AVC | 3 MPEG-2, 6 AVC |
The conversion process from DVB-S to DVB-S2 is being accelerated, due to the rapid increase of HDTV and introduction of 3D-HDTV. The main factor slowing down this process is the need to replace or upgrade set-top boxes, or acquire TVs with DVB-S2 integrated tuners, which makes the transition slower for established operators.
Current direct-to-home broadcasters using DVB-S2 are:
|
|
These broadcasters have used DVB-S2 in their internal broadcast distribution networks, but may not have instituted DVB-S2 transmissions for consumers.
Sisvel, a Luxembourg-based company, administers the licenses for patents applying to this standard, [2] as well as other patent pools.
This article includes a list of general
references, but it lacks sufficient corresponding
inline citations. (January 2018) |
List of digital television broadcast standards |
---|
DVB standards ( countries) |
ATSC standards ( countries) |
|
ISDB standards ( countries) |
DTMB standards ( countries) |
DMB standard ( countries) |
Codecs |
|
Terrestrial Frequency bands |
Satellite Frequency bands |
Digital Video Broadcasting - Satellite - Second Generation (DVB-S2) is a digital television broadcast standard that has been designed as a successor for the popular DVB-S system. It was developed in 2003 by the Digital Video Broadcasting Project, an international industry consortium, and ratified by ETSI (EN 302307) in March 2005. The standard is based on, and improves upon DVB-S and the electronic news-gathering (or Digital Satellite News Gathering) system, used by mobile units for sending sounds and images from remote locations worldwide back to their home television stations.
DVB-S2 is designed for broadcast services including standard and HDTV, interactive services including Internet access, and (professional) data content distribution. The development of DVB-S2 coincided with the introduction of HDTV and H.264 (MPEG-4 AVC) video codecs.
Two new key features that were added compared to the DVB-S standard are:
Other features include enhanced modulation schemes up to 32APSK, additional code rates, and the introduction of a generic transport mechanism for IP packet data including MPEG-4 audio–video streams, while supporting backward compatibility with existing MPEG-2 TS based transmission.
DVB-S2 achieves significantly better performance than its predecessors – mainly allowing for an increase of available bitrate over the same satellite transponder bandwidth. The measured DVB-S2 performance gain over DVB-S is around 30% at the same satellite transponder bandwidth and emitted signal power. When the contribution of improvements in video compression is added, an ( MPEG-4 AVC) HDTV service can now be delivered in the same bandwidth that supported an early DVB-S based MPEG-2 SDTV service only a decade before.
In March 2014, DVB-S2X specification has been published by DVB Project as an optional extension adding further improvements. [1]
Depending on code rate and modulation, the system can operate at a C/N between −2.4 dB (QPSK, 1/4) and 16 dB (32APSK, 9/10) with a quasi-error free goal of a 10−7 TS packet error rate. Distance to the Shannon limit ranges from 0.7 dB to 1.2 dB.
Modes and features of DVB-S2 in comparison to DVB-S:
DVB-S | DVB-S2 | |
---|---|---|
Input interface | Single transport stream (TS) | Multiple transport stream and generic stream encapsulation (GSE) |
Modes | Constant coding & modulation | Variable coding & modulation and adaptive coding & modulation |
FEC | Reed–Solomon (RS) 1/2, 2/3, 3/4, 5/6, 7/8 | LDPC + BCH 1/4, 1/3, 2/5, 1/2, 3/5, 2/3, 3/4, 4/5, 5/6, 6/7, 8/9, 9/10 |
Modulation | Single-carrier QPSK | QPSK, 8PSK, 16APSK, 32APSK |
Interleaving | Bit-interleaving | Bit-interleaving |
Pilots | Pilot symbols | Pilot symbols |
This section needs to be updated. The reason given is: This section is stated as if DVB-S2 was not yet rolled out; it's been rolled out for more than a decade..(April 2023) |
Envisaged scenarios for DVB-S2 by the standard document are:
DVB-S2 is 30% more efficient than DVB-S. It allows a wider range of applications combining DVB-S features (for household tasks), and DVB-DSNG (for professional tasks). DVB-S2 can adapt codification to maximize satellites resources value. It is compatible with last generation.
The main disadvantage, there are many millions of devices deployed using DVB-S over the world which has to be upgraded.
The next table compares both standards.
Satellite EIRP (dBW) | 51 | 53.7 | ||
---|---|---|---|---|
System | DVB-S | DVB-S2 | DVB-S | DVB-S2 |
Modulation and codification | QPSK 2/3 | QPSK 3/4 | QPSK 7/8 | 8PSK 2/3 |
Speed per token | 27.5 (a = 0.35) | 30.9 (a = 0.25) | 27.5 (a = 0.35) | 29.7 (a = 0.25) |
C/N, 27.5 MHz (dB) | 5.1 | 5.1 | 7.8 | 7.8 |
Bitrate (Mbit/s) | 33.8 | 46 (+36%) | 44.4 | 58.8 (+32%) |
№ channels SDTV | 7 MPEG-2, 15 AVC | 10 MPEG-2, 21 AVC | 10 MPEG-2, 20 AVC | 13 MPEG-2, 27 AVC |
№ channels HDTV | 1–2 MPEG-2, 3–4 AVC | 2 MPEG-2, 5 AVC | 2 MPEG-2, 5 AVC | 3 MPEG-2, 6 AVC |
The conversion process from DVB-S to DVB-S2 is being accelerated, due to the rapid increase of HDTV and introduction of 3D-HDTV. The main factor slowing down this process is the need to replace or upgrade set-top boxes, or acquire TVs with DVB-S2 integrated tuners, which makes the transition slower for established operators.
Current direct-to-home broadcasters using DVB-S2 are:
|
|
These broadcasters have used DVB-S2 in their internal broadcast distribution networks, but may not have instituted DVB-S2 transmissions for consumers.
Sisvel, a Luxembourg-based company, administers the licenses for patents applying to this standard, [2] as well as other patent pools.