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Multimedia over Coax Alliance
AbbreviationMoCA
StatusPublished
Year started2004[1]
First publishedFebruary 2006 (2006-02)[2]
Latest version2.5
13 April 2016[3]
Preview version3.0
Related standardsEthernet
DomainComputer networking
LicenseProprietary
Websitemocalliance.org Edit this at Wikidata

The Multimedia over Coax Alliance (MoCA) is an international standards consortium that publishes specifications for networking over coaxial cable. The technology was originally developed to distribute IP television in homes using existing cabling, but is now used as a general-purpose Ethernet link where it is inconvenient or undesirable to replace existing coaxial cable with optical fiber or twisted pair cabling.[4][5]

MoCA 1.0 was approved in 2006, MoCA 1.1 in April 2010, MoCA 2.0 in June 2010, and MoCA 2.5 in April 2016.[3] The most recently released version of the standard, MoCA 3.0, supports speeds of up to 10 Gbit/s. This technology is not yet available to customers.[6]

Membership

The Alliance currently has 45 members including pay TV operators, OEMs, CE manufacturers and IC vendors.[7]

MoCA's board of directors consists of Arris, Comcast, Cox Communications, DirecTV, Echostar, Intel, InCoax, MaxLinear and Verizon.

Technology

Within the scope of the Internet protocol suite, MoCA is a protocol that provides the link layer. In the 7-layer OSI model, it provides definitions within the data link layer (layer 2) and the physical layer (layer 1). DLNA approved of MoCA as a layer 2 protocol.[8] A MoCA network can contain up to 16 nodes for MoCA 1.1 and higher, with a maximum of 8 for MoCA 1.0.[9] The network provides a shared-medium, half-duplex link between all nodes using time-division multiplexing; within each timeslot, any pair of nodes communicates directly with each other using the highest mutually-supported version of the standard.[10]

MoCA technology timeline

Versions

MoCA 1.0
The first version of the standard, MoCA 1.0, was ratified in 2006 and supports transmission speeds of up to 135 Mb/s.[2]
MoCA 1.1
MoCA 1.1 provides 175 Mbit/s net throughputs (275 Mbit/s PHY rate) and operates in the 500 to 1500 MHz frequency range.[11]
MoCA 2.0
MoCA 2.0 offers actual throughputs (MAC rate) up to 1 Gbit/s. Operating frequency range is 500 to 1650 MHz. Packet error rate is 1 packet error in 100 million.[12] MoCA 2.0 also offers lower power modes of sleep and standby and is backward compatible with MoCA 1.1.[13] In March 2017, SCTE/ISBE society and MoCA consortium began creating a new "standards operational practice" (SCTE 235) to provide MoCA 2.0 with DOCSIS 3.1 interoperability. Interoperability is necessary because both MoCA 2.0 and DOCSIS 3.1 may operate in the frequency range above 1 GHz. The standard "addresses the need to prevent degradation or failure of signals due to a shared frequency range above 1 GHz".[14][15]
MoCA 2.5
MoCA 2.5 (introduced April 13, 2016[3]) offers actual data rates up to 2.5 Gbit/s, continues to be backward compatible with MoCA 2.0 and MoCA 1.1, and adds MoCA protected setup (MPS), Management Proxy, Enhanced Privacy, Network wide Beacon Power, and Bridge detection.[16] MoCA Access is intended for multiple dwelling units (MDUs) such as hotels, resorts, hospitals, or educational facilities. It is based on the current MoCA 2.0 standard which is capable of 1 Gbit/s net throughputs, and MoCA 2.5 which is capable of 2.5 Gbit/s.[17]
MoCA 3.0
The MoCA 3.0 standard has been released and increases the maximum throughput to 10 Gbit/s. However, this is not yet available to customers.[18]

Performance profiles

MoCA 1.0 MoCA 1.1 MoCA 2.0 MoCA 2.0
bonded
MoCA 2.1 MoCA 2.1
bonded
MoCA 2.5 MoCA 3.0
Actual throughput (Mbit/s) 100 175 500 1000 500 1000 2500 10,000
Number of channels bonded 2 2 3~5 ≤4
Power save (standby and sleep) Yes Yes Yes Yes Yes Yes
MoCA protected setup; MPS Yes Yes Yes
Management proxy Yes Yes Yes
Enhanced privacy Yes Yes
Network-wide beacon power Yes Yes Yes
Bridge detection Yes Yes Yes

Frequency band plan

Channel Frequency,
center (MHz)[19]
MoCA 1.1
channel
MoCA 2.0
primary
MoCA 2.0
secondary
Beacon
channel
EE1 450     Yes  
EE2 475     Yes  
E1 500 Yes   Yes Yes
E2 525 Yes Yes   Yes
E3 550 Yes Yes   Yes
E4 575 Yes Yes   Yes
E5 600 Yes Yes   Yes
EE3 625   Yes    
EE4 650     Yes  
--- --- --- --- --- ---
F1 675 Yes     Yes
F2 700 Yes Yes Yes Yes
F3 725 Yes Yes   Yes
F4 750 Yes Yes   Yes
F5 775 Yes Yes   Yes
F6 800 Yes Yes   Yes
F7 825 Yes Yes Yes Yes
F8 850 Yes     Yes
--- --- --- --- --- ---
A1 875        
B1 900        
--- --- --- --- --- ---
C1 925        
C2 950        
C3 975        
C4 1000        
--- --- --- --- --- ---
D1 1150 Yes     Yes
D1a 1175   Yes Yes  
D2 1200 Yes Yes Yes Yes
D2a 1225   Yes Yes  
D3 1250 Yes Yes Yes Yes
D3a 1275   Yes Yes  
D4 1300 Yes Yes Yes Yes
D4a 1325   Yes Yes  
D5 1350 Yes Yes Yes Yes
D5a 1375   Yes Yes  
D6 1400 Yes Yes Yes Yes
D6a 1425   Yes Yes  
D7 1450 Yes Yes Yes Yes
D7a 1475   Yes Yes  
D8 1500 Yes Yes Yes Yes
D8a 1525   Yes Yes  
D9 1550   Yes Yes Yes
D9a 1575   Yes Yes  
D10 1600   Yes Yes Yes
D10a 1625   Yes Yes  

Notes:

See also

References

  1. ^ Monk, Anton; Lee, Ronald; Hebron, Yoav (2013-07-12). "The Multimedia Over Coax Alliance". Proceedings of the IEEE. 101 (11): 2322–2338. doi:10.1109/JPROC.2013.2266299. ISSN 0018-9219. S2CID 2950192. Retrieved 2021-01-09.
  2. ^ a b Ovadia, Shlomo (2007-09-09). "MoCA: ubiquitous multimedia networking in the home". In Jain, Raj; Dingel, Benjamin B.; Komaki, Shozo; Ovadia, Shlomo (eds.). Broadband Access Communication Technologies II. Vol. 6776. Boston, MA. pp. 67760C. doi:10.1117/12.726808. Retrieved 2021-01-09.
  3. ^ a b c "Home Networking Gets a New Performance Standard". www.mocalliance.org. Retrieved 2016-04-13.
  4. ^ O'Shea, Dan (2006-11-20). "The IPTV battle enters the home". Telephony. 247 (19). Chicago, United States: Informa: 20–21. eISSN 2161-8690. ISSN 0040-2656. ProQuest 213945879. Retrieved 2021-01-13 – via ProQuest.
  5. ^ Zhou, Shujia; Song, Yingxiong; Lin, Rujian (2011-09-25). FTTB multimedia access solution based on MoCA technology. 2011 IEEE 13th International Conference on Communication Technology. pp. 1037–1040. doi:10.1109/ICCT.2011.6158037. Retrieved 2021-01-13.
  6. ^ Bacon, Kinney (February 20, 2021). "A Preview of 10G Enabling Technologies". Broadband Library.
  7. ^ "MoCA Members". MoCAlliance.org. Retrieved October 16, 2013.
  8. ^ MOCA FAQs
  9. ^ http://www.mocalliance.org/technology/Final_Best-Practices-for-Installation-of-MoCA_170516rev01.pdf [bare URL PDF]
  10. ^ "GoCoax | Support".
  11. ^ "MoCA for Installers :: MoCA FAQs".
  12. ^ "Introducing MoCA 2.0". MoCA website. June 15, 2010. Retrieved May 25, 2012.
  13. ^ "MoCA FAQs". MoCAlliance.org. Retrieved October 17, 2013.
  14. ^ KMCreative. "SCTE/ISBE Standards, MoCA Team Up on New Operational Practice for DOCSIS 3.1-MoCA Interoperability". www.mocalliance.org. Retrieved 2017-03-21.
  15. ^ "SCTE 235, Operational Practice for the Coexistence of DOCSIS 3.1 Signals and MoCA Signals in the Home Environment" (PDF). Society of Cable Telecommunications Engineers Inc. Archived from the original (PDF) on 2017-03-22. Retrieved 2017-03-21.
  16. ^ "MoCA 2.5 News". MoCA web site. Retrieved May 10, 2016.
  17. ^ KMCreative. "MoCA Access™". www.mocalliance.org. Retrieved 2017-10-02.
  18. ^ Bacon, Kinney (February 20, 2021). "A Preview of 10G Enabling Technologies". Broadband Library.
  19. ^ "MoCA 1.1 Specification for Device RF Characteristics" (PDF). MoCAlliance.org. Multimedia over Coax Alliance.
  20. ^ a b Verizon Online FiOS FAQ → 3.2 MOCA