DVB-C stands for "Digital Video Broadcasting - Cable" and it is the DVB European consortium standard for the broadcast transmission of digital television over cable. This system transmits an MPEG-2 or MPEG-4 family digital audio/digital video stream, using a QAM modulation with channel coding. The standard was first published by the ETSI in 1994, and subsequently became the most widely used transmission system for digital cable television in Europe, Asia and South America. It is deployed worldwide in systems ranging from the larger cable television networks (CATV) down to smaller satellite master antenna TV (SMATV) systems.
With reference to the figure, a short description of the single processing blocks follows.
- Source coding and MPEG-2 multiplexing (MUX): video, audio, and data streams are multiplexed into an MPEG program stream (MPEG-PS). One or more MPEG-PSs are joined together into an MPEG transport stream (MPEG-TS). This is the basic digital stream which is being transmitted and received by home set top boxes (STB) or relevant integrable decoder (e.g.Conax) module. Allowed bitrates for the transported MPEG-2 depend on a number of modulation parameters: it can range from about 6 to about 64 Mbit/s (see the bottom figure for a complete listing).
- MUX adaptation and energy dispersal: the MPEG-TS is identified as a sequence of data packets, of fixed length (188 bytes). With a technique called energy dispersal, the byte sequence is decorrelated.
- External encoder: a first level of protection is applied to the transmitted data, using a nonbinary block code, a Reed-Solomon RS (204, 188) code, allowing the correction of up to a maximum of 8 wrong bytes for each 188-byte packet.
- External interleaver: convolutional interleaving is used to rearrange the transmitted data sequence, such way it becomes more rugged to long sequences of errors.
- Byte/m-tuple conversion: data bytes are encoded into bit m-tuples (m = 4, 5, 6, 7, or 8).
- Differential coding: In order to get a rotation-invariant constellation, this unit shall apply a differential encoding of the two Most Significant Bits (MSBs) of each symbol.
- QAM Mapper: the bit sequence is mapped into a base-band digital sequence of complex symbols. There are 5 allowed modulation modes: 16-QAM, 32-QAM, 64-QAM, 128-QAM, 256-QAM.
- Base-band shaping: the QAM signal is filtered with a raised-cosine shaped filter, in order to remove mutual signal interference at the receiving side.
- DAC and front-end: the digital signal is transformed into an analog signal, with a digital-to-analog converter (DAC), and then modulated to radio frequency by the RF front-end.
The receiving STB adopts techniques which are dual to those ones used in the transmission.
- Front-end and ADC: the analog RF signal is converted to base-band and transformed into a digital signal, using an analog-to-digital converter (ADC).
- QAM Demodulation
- Differential decoding
- Outer interleaving
- Outer decoding
- MUX adaptation
- MPEG-2 demultiplexing and source decoding
- Programmable Transport Stream
On February 18, 2008 it was announced that a new standard – DVB-C2 – would be developed during 2008, and a "Call for Technologies" was issued. Proposals including simulation programs and information on patent rights could be submitted until June 16, 2008.
"The results of the DVB-C2 Study Mission already provided clear indications that technologies are available allowing the performance of the second generation DVB cable transmission system to get so close to the theoretical Shannon Limit that any further improvements in the future would most likely not be able to justify the introduction of a disruptive third generation of cable transmission system." (DVB-C2 CfT)
By using state of the art coding and modulation techniques, DVB-C2 should offer greater than 30% higher spectrum efficiency under the same conditions, and the gains in downstream channel capacity will be greater than 60% for optimized HFC networks.
The final DVB-C2 specification was approved by the DVB Steering Board in April 2009.
DVB-C2 allows bitrates up to 83.1 Mbit/s on an 8 MHz channel bandwidth when using 4096-QAM modulation; future extensions will allow up to 97 Mbit/s and 110.8 Mbit/s per channel using 16384-QAM and 65536-AQAM modulation.
Modes and features of DVB-C2 in comparison to DVB-C:
|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)||LDPC + BCH 1/2, 2/3, 3/4, 3/5, 4/5, 5/6, 6/7, 7/8, 8/9, 9/10|
|Modulation||Single Carrier QAM||absolute OFDM|
|Modulation Schemes||16- to 256-QAM||16- to 4096-QAM|
|Guard Interval||Not Applicable||1/64 or 1/128|
|Inverse Fast Fourier transform (IFFT) size||Not Applicable||4k|
|Interleaving||Bit-Interleaving||Bit- Time- and Frequency-Interleaving|
|Pilots||Not Applicable||Scattered and Continual Pilots|
Countries that use DVB-CEdit
- Bosnia and Herzegovina
- Czech Republic
- Hong Kong
- North Macedonia
- New Zealand
- Sri Lanka
- "DVB-C will surpass US´ cable technologies in 2013 in Latin America". NexTV Latam. 2019-02-22.
- "Second Generation Transmission Technologies for Cable Networks. Call for Technologies" (PDF). www.dvb.org. Archived from the original (PDF) on 2009-02-19. Retrieved 2009-02-19.
- Dr. Dirk Jaeger (2010-09-02). "DVB-C2 Gets Reality - Facts and Figures on a New Transmission Approach". 8th Broadband Technology Conference, Gdynia. ReDeSign Project. Archived from the original on 2011-07-20.
- "ETSI EN 302 769 V1.3.1. Digital Video Broadcasting (DVB); Frame structure channel coding and modulation for a second generation digital transmission system for cable systems (DVB-C2)" (PDF). DVB consortium. 2015-10-01.
- "ETSI TS 102 991 V1.3.1. Digital Video Broadcasting (DVB); Implementation Guidelines for a second generation digital cable transmission system (DVB-C2)" (PDF). DVB consortium. 2016-01-01.
- "DVB-C2 The second generation transmission technology for broadband cable" (PDF). Dirk Jaeger, Philipp Hasse, Joerg Robert, Institut fuer Nachrichtentechnik at Technische Universitaet Braunschweig. 2009-04-08. Archived from the original (PDF) on 2012-04-02. Retrieved 2013-01-24.
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