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{{Short description|Type of low-noise block downconverter}}
{{Unsourced|article|date=July 2011}}
{{Multiple issues |
A '''monoblock''' (or '''monobloc''') '''LNB''' is a type of [[low-noise block downconverter]] used in [[communications satellite]] reception, this multiple combined [[Low-noise block downconverter|LNBs]] is the simplest solution to achieve multifeed reception for two, three or four satellites.
{{More citations needed|article|date=January 2021}}
{{Original research|date=September 2022}}
}}


[[Low-noise block downconverter| Low-noise block downconverters (LNBs)]]<ref name="Santoso_Edward_2020">{{cite book |last1= Santoso|first1= K | last2=Edward | first2=I |title= 2020 6th International Conference on Wireless and Telematics (ICWT) |year=2020 | chapter= Low Noise Block Down Converter and Block Up Converter Filters Design for Ku Band|pages= 1–5 |doi= 10.1109/ICWT50448.2020.9243642 |publisher= IEEE 2020 6th International Conference on Wireless and Telematics (ICWT)|isbn= 978-1-7281-7596-6 |s2cid= 226268199 }}</ref> are electronic devices coupled to satellite dishes for TV reception or general telecommunication that convert electromagnetic waves into digital signals that can be used to transform information into human or machine interpretable data, e.g., optical images, video, code, communications, etc.
This design consists of two, three or four independent [[Low-noise block downconverter|LNBs]] in a single case. The two, three or four [[Low-noise block downconverter|LNBs]] can be automatically addressed with any [[DiSEqC]] 1.0 or higher receiver. In some cases, they can also be addressed with ToneBurst/MiniDiSEqC. However, they are only available for satellites with a fixed 3 degree, 4°, 4.3° or 6° other spacing.


'''Monoblock''' (or '''monobloc''') low-noise block downconverters are a special type of LNBs representing a single device that contains several (typically 2–4) LNB units and a [[DiSEqC|Digital Satellite Equipment Control (DiSEqC)]] switch. The latter allows the recipient to receive signals from several neighboring satellites each communicating different channels or signals which increases the potential bandwidth of the receiver.
Most receivers which are sold nowadays are compatible with at least [[DiSeqC|DiSeqC 1.0]] which allows to switch automatically between 4 satellites (all of contemporary [[Monoblock LNB|Monoblock LNBs]]), as user changes channel on remote control.


The two, three, or four [[Low-noise block downconverter|LNBs]] can be automatically addressed with any [[DiSEqC]] 1.0 or higher receiver. In some cases, they can also be addressed with ToneBurst/MiniDiSEqC. However, they are only available for satellites with a fixed 3-degree, 4°, 4.3°, or 6° other spacing.
== Availability Examples ==


Most receivers which are commercially available are compatible with at least [[DiSeqC|DiSeqC 1.0]] allowing dynamic switching between 4 satellites (all of contemporary '''Monoblock LNBs'''), as the recipient manually switches settings, e.g., flipping channels using a TV remote control.
In [[Europe]], for example, there are monoblock single, twin and quad LNBs for the [[Ku band|K<sub>u</sub> band]], which have a pre-defined spacing of 6 degrees (for [[Astra 19.2°E]]/[[Hot Bird 13°E]]).


== Availability examples ==
In March 2007, a new type of monoblock, called the [[Duo LNB]] was introduced by [[CanalDigitaal]] in the [[Netherlands]] for the simultaneous reception of [[Astra 19.2°E]]/[[Astra 23.5°E]] with a spacing of just 4.3 degrees. Unlike most other monoblocks, the [[Duo LNB]] was intended for use with 60&nbsp;cm dishes (most monoblocks require a larger, 80&nbsp;cm or 1&nbsp;m dish).


In [[Europe]], for example, there are monoblock single, twin, and quad LNBs for the [[Ku band|K<sub>u</sub> band]], which have a pre-defined spacing of 6 degrees (for [[Astra 19.2°E]]/[[Hot Bird|Hot Bird 13°E]]).
The [[Duo LNB]] is available in [[Low-noise block downconverter#Dual,_twin,_quad,_and_octo_LNBs|twin and quad]] versions.
Triple monoblock LNBs are available in single, [[Low-noise block downconverter#Dual,_twin,_quad,_and_octo_LNBs|twin and quad]] versions.


In March 2007, a new type of monoblock, called the [[Duo LNB]] was introduced by [[CanalDigitaal]] in the [[Netherlands]] for the simultaneous reception of [[Astra 19.2°E]]/[[Astra 23.5°E]] with a spacing of just 4.3 degrees.<ref>{{Cite web|url=http://www.ijzersterkduo.nl/images/upload/Persbericht.web.pdf|archive-url=https://web.archive.org/web/20071020190001/http://www.ijzersterkduo.nl/images/upload/Persbericht.web.pdf|archive-date=2007-10-20|url-status=dead|title=Persbericht: Satellietontvangst regionale omroep vanaf 1 september a.s. alleen nog via ASTRA 23.5|date=2007-08-09|accessdate=2020-11-19}}</ref><ref>{{cite web|url=http://www.ijzersterkduo.nl/|archive-url=https://web.archive.org/web/20080508040805/http://www.ijzersterkduo.nl/|archive-date=2008-05-08|url-status=dead|title="Marketing campaign "ijzersterk duo" from CanalDigitaal and SES|date=2008-05-08|accessdate=2020-11-19}}</ref> Unlike most other monoblocks, the [[Duo LNB]] was intended for use with 60&nbsp;cm dishes, whereas most monoblocks may require a larger, 80&nbsp;cm or 1&nbsp;m dish.


The [[Duo LNB]] is available in [[Low-noise block downconverter#Dual, twin, quad, and octo LNBs|twin and quad]] versions. Triple monoblock LNBs are available in single, [[Low-noise block downconverter#Dual, twin, quad, and octo LNBs|twin, and quad]] versions.
There are also available triple monoblock LNB units, which enable users to receive signals from three satellites:


for example [[Hot Bird|Hotbird 13°E]], [[Eutelsat|Eutelsat 16°E]] and [[Astra 19.2°E]]
There are also triple monoblock LNB units, which enable users to receive signals from three satellites. For example [[Hot Bird|Hotbird 13°E]], [[Eutelsat|Eutelsat 16°E]] and [[Astra 19.2°E]] can be used for positions [[Eutelsat|Eutelsat 7°E]], [[Eutelsat|Eutelsat 10°E]], and [[Hot Bird|Hotbird 13°E]]. This monoblock can also be used for other positions with the same spacing (3°+3°=6°spacing).
or the same can be used for positions: [[Eutelsat|Eutelsat 7°E]], [[Eutelsat|Eutelsat 10°E]] and [[Hot Bird|Hotbird 13°E]]. This monoblock can be used for other positions with the same spacing (3°+3°=6°spacing).


Other very popular example for different spacing is: [[Astra 19.2°E|Astra 1: 19.2°E]], [[Astra 23.5°E|Astra 3: 23.5°E]] and [[Astra 28.2°E|Astra 2: 28.2°E]] (4.3°+4.7°=9°spacing).
Other popular examples for different spacing are [[Astra 19.2°E|Astra 1: 19.2°E]], [[Astra 23.5°E|Astra 3: 23.5°E]] and [[Astra 28.2°E|Astra 2: 28.2°E]] (4.3°+4.7°=9°spacing).


And there are also available four feed monoblock LNB units, which enable users to receive signals from four satellites, for example [[Eurobird|Eurobird 9°E]], [[Hotbird|Hotbird 13°E]], [[Astra 19.2°E]] and [[Astra 23.5°E]] (4°+6.2°+4.3°=14.5°spacing).
There are four feed monoblock LNB units that enable users to receive signals from four satellites, for example, [[Eurobird|Eurobird 9°E]], [[Hotbird|Hotbird 13°E]], [[Astra 19.2°E]] and [[Astra 23.5°E]] (4°+6.2°+4.3°=14.5°spacing).


== Multiband Monoblock ==
== Multiband Monoblock ==


There are also existing Monoblock LNB to combine [[Low-noise_block_downconverter#Ku-band_LNB|K<sub>u</sub>-band LNBs]] with one of alternative band [[LNB|LNBs]].
There are also existing Monoblock LNBs that combine [[Low-noise block downconverter#Ku-band LNB|K<sub>u</sub>-band LNBs]] with one of the alternative band [[Low-noise block downconverter|LNBs]]. Examples of such bands include
[[Ka band|K<sub>a</sub> band]] that is: [[Low-noise block downconverter#Ka-band LNB|K<sub>a</sub>-band LNBs]] or [[C band (IEEE)|C band]] that is: [[Low-noise block downconverter#C-band LNB|C-band LNBs]].
Available bands are:
[[Ka band|K<sub>a</sub> band]] that is: [[Low-noise_block_downconverter#Ka-band_LNB|K<sub>a</sub>-band LNBs]] or
[[C band (IEEE)|C band]] that is: [[Low-noise_block_downconverter#C-band_LNB|C-band LNBs]]


== Multiple Monoblock on one and the same dish ==
== Possibility of Developments ==


Two monoblock LNB can be connected to one receiving dish using [[Satellite dish#Multi-satellite|Multi-satellite]] techniques. However, the expected results of such connections may vary or be sub-optimal. The results may yield low-level signals from some or all of the satellites or it may work well in certain geographically favorable locations.
Current [[DiSEqC]] technology could allow to build monoblock LNB for even 16 (64 when cascading) satellites positions, but limiting factors are:
market demands, and popularization of narrow directional beams among Tv stations broadcasters who does not really want too broad audiences despite much better relative carbon footprint in this case.


Monoblock LNBs can be connected by adding a [[DiSEqC]] switch with compatibility of cascading, or they can be connected directly to different satellite tuners, e.g., twin tuners with two separate inputs.
Other limiting factor is that for monoblock for 16 satellites positions special shape of antena dish should be used, and that also limits markets possibility.
However, placing several separate single-feed [[Low-noise block downconverter|LNBs]] can lead to better results and more optimal signal levels.


== Future prospects ==
Using [[DiSEqC|DiSEqC 1.1]] 7-8 satellites positions from 24° spacing could be addressed and received with a lot of success by standard size and shape dish in some densely populated parts of globe.


Current [[DiSEqC]] technology could allow building monoblock LNB for parallel 16 or cascading 64 satellites positions. However, the main limiting factors are
The cheapest way would be to expand triple 3°+3°=6° monoblock design to encompass additional satellite positions as there are plany 3° separated satellites.
market demands and the popularization of narrow directional beams among TV stations broadcasters, who generally object to inclusive broad audiences despite the clear advantage of lowering the aggregate carbon footprint of monoblock LNBs.


Another adoption barrier for monoblock LNBs with 16 satellites positions is the need for a special shape of antenna dish, which restricts the market potential.
The greates problem is to design thin 2°,1°or 0.5° monoblock. If that obstacle could be cheaply omitted there would be no limit to design large matrix of multiple [[Low-noise_block_downconverter|LNBs]] into monoblock LNB.


Using [[DiSEqC|DiSEqC 1.1]] 7-8 satellites positions from 24° spacing could be addressed and received with a lot of success by standard size and shape dish in some densely populated areas across the globe. The cheapest way appears to involve expanding the triple-feed 3° monoblock design to encompass additional satellite positions, since there are plenty of 3° separated satellites.
Another limiting factor is low awareness by general population and satellite reception users of [[Satellite dish#Multi-satellite|Multi Feed Multi satellite]], and the fact that it is so easily possible.
That awareness is further crippled by the fact that [[DiSEqC]] and therefore Monoblock is not compatible with [[satellite channel router]] (SCR) or [[unicable (technology)|unicable]] LNBs in a [[single cable distribution]].
So users needs to decide among using multiple receivers trough [[single cable distribution]] with single [[unicable (technology)|unicable]] [[Low-noise block downconverter|LNB]] or using [[Satellite_dish#Multi-satellite|Multi Feed Multi-satellite reception]] by Monoblock LNB in [[Low-noise block downconverter#Dual,_twin,_quad,_and_octo_LNBs|twin and quad]] versions but with two or four cables leaded and plugged to each of receivers for multiroom experience.


The greatest problem is designing a thin 2°,1° or 0.5° monoblockLNB. A cost-effective solution overcoming this obstacle may lead innovative designs of large matricesd of multiple [[Low-noise block downconverter|LNBs]] tightly packed into a single monoblock LNB receiver.
A lot of general population in a lot of countries does not know even that [[Free To Air]] satellite or even terrestrial broadcast exist and are sticking with paid cable tv providers out of convenience.

A state that is highly promoted by paid Tv. (It is not that it is possible to promote non awareness but paid satellite reception is heavily promoted by itself in contrast to scarcity of information repeatedly available about [[Free To Air]])
Another limiting factor is low awareness by the general population and satellite reception users of [[Satellite dish#Multi-satellite|Multi Feed Multi satellite]], and the fact that it is so easily possible. That awareness is further crippled by the fact that [[DiSEqC]] and Monoblock LNBs are not compatible with a [[satellite channel router]] (SCR) or [[unicable (technology)|unicable]] LNBs in a [[single cable distribution]].

Upon signing cable subscriptions, through a [[single cable distribution]], end-users need to choose between multiple incompatible receivers compliant with either a single [[unicable (technology)|unicable]] [[Low-noise block downconverter|LNB]] or a [[Satellite dish#Multi-satellite|Multi Feed Multi-satellite reception]] by Monoblock LNB in [[Low-noise block downconverter#Dual, twin, quad, and octo LNBs|twin and quad]] versions, unless they intend to use two or four separate cables connected to alternative independent receivers intended for a multi-room experiences.

The technical specifications and confusing advertisements tend to overwhelm the general consumer. Many countries offer [[Free To Air]] satellite and terrestrial broadcast services, which are downplayed to promote commercial cable TV providers and pay-per-view systems.


==See also==
==See also==
*[[Duo LNB]]
*[[Duo LNB]]
*[[Universal Satellites Automatic Location System|USALS = Universal Satellites Automatic Location System]]
*[[DiSEqC]]
*[[Satellite_dish#Motor-driven_dish|Motor-driven Satellite dish]]
*[[DiSEqC|DiSEqC = Digital Satellite Equipment Control]]
*[[Sat-IP|SAT&gt;IP]] end-user consumer equipment that can switch different ip streams from different SAT&gt;IP servers and facilitates selection of reception from different satellites
*[[Satellite dish#Motor-driven dish|Motor-driven Satellite dish]]
*[[Automatic Tracking Satellite Dish]]
*[[Automatic Tracking Satellite Dish]]
*[[Astra 19.2°E|Astra 1: 19.2°E]]
*[[Astra 19.2°E|Astra 1: 19.2°E]]
Line 64: Line 70:
*[[Eurobird]]
*[[Eurobird]]


==References==
{{Reflist}}


{{Satcomm|state=uncollapsed}}

{{Telecommunications}}


[[Category:Telecommunications equipment]]
[[Category:Telecommunications equipment]]
[[Category:Consumer electronics]]
[[Category:Satellite broadcasting]]
[[Category:Radio frequency antenna types]]
[[Category:Antennas (radio)]]


[[cs:Low-noise block converter#Monoblock LNB]]
{{tv-tech-stub}}
[[de:Rauscharmer Signalumsetzer#Monoblock-LNB]]

[[fr:Tête universelle#Alternatives en Europe]]
[[cs:Low-noise_block_converter#Nastavení_Monoblock_LNB]]
[[de:Rauscharmer_Signalumsetzer#Monoblock-LNB]]
[[pl:Konwerter satelitarny#Konwerter Monoblock]]
[[pl:Konwerter_satelitarny#Konwerter_Monoblock]]

Latest revision as of 07:50, 3 November 2023

Low-noise block downconverters (LNBs)[1] are electronic devices coupled to satellite dishes for TV reception or general telecommunication that convert electromagnetic waves into digital signals that can be used to transform information into human or machine interpretable data, e.g., optical images, video, code, communications, etc.

Monoblock (or monobloc) low-noise block downconverters are a special type of LNBs representing a single device that contains several (typically 2–4) LNB units and a Digital Satellite Equipment Control (DiSEqC) switch. The latter allows the recipient to receive signals from several neighboring satellites each communicating different channels or signals which increases the potential bandwidth of the receiver.

The two, three, or four LNBs can be automatically addressed with any DiSEqC 1.0 or higher receiver. In some cases, they can also be addressed with ToneBurst/MiniDiSEqC. However, they are only available for satellites with a fixed 3-degree, 4°, 4.3°, or 6° other spacing.

Most receivers which are commercially available are compatible with at least DiSeqC 1.0 allowing dynamic switching between 4 satellites (all of contemporary Monoblock LNBs), as the recipient manually switches settings, e.g., flipping channels using a TV remote control.

Availability examples

[edit]

In Europe, for example, there are monoblock single, twin, and quad LNBs for the Ku band, which have a pre-defined spacing of 6 degrees (for Astra 19.2°E/Hot Bird 13°E).

In March 2007, a new type of monoblock, called the Duo LNB was introduced by CanalDigitaal in the Netherlands for the simultaneous reception of Astra 19.2°E/Astra 23.5°E with a spacing of just 4.3 degrees.[2][3] Unlike most other monoblocks, the Duo LNB was intended for use with 60 cm dishes, whereas most monoblocks may require a larger, 80 cm or 1 m dish.

The Duo LNB is available in twin and quad versions. Triple monoblock LNBs are available in single, twin, and quad versions.

There are also triple monoblock LNB units, which enable users to receive signals from three satellites. For example Hotbird 13°E, Eutelsat 16°E and Astra 19.2°E can be used for positions Eutelsat 7°E, Eutelsat 10°E, and Hotbird 13°E. This monoblock can also be used for other positions with the same spacing (3°+3°=6°spacing).

Other popular examples for different spacing are Astra 1: 19.2°E, Astra 3: 23.5°E and Astra 2: 28.2°E (4.3°+4.7°=9°spacing).

There are four feed monoblock LNB units that enable users to receive signals from four satellites, for example, Eurobird 9°E, Hotbird 13°E, Astra 19.2°E and Astra 23.5°E (4°+6.2°+4.3°=14.5°spacing).

Multiband Monoblock

[edit]

There are also existing Monoblock LNBs that combine Ku-band LNBs with one of the alternative band LNBs. Examples of such bands include Ka band that is: Ka-band LNBs or C band that is: C-band LNBs.

Multiple Monoblock on one and the same dish

[edit]

Two monoblock LNB can be connected to one receiving dish using Multi-satellite techniques. However, the expected results of such connections may vary or be sub-optimal. The results may yield low-level signals from some or all of the satellites or it may work well in certain geographically favorable locations.

Monoblock LNBs can be connected by adding a DiSEqC switch with compatibility of cascading, or they can be connected directly to different satellite tuners, e.g., twin tuners with two separate inputs. However, placing several separate single-feed LNBs can lead to better results and more optimal signal levels.

Future prospects

[edit]

Current DiSEqC technology could allow building monoblock LNB for parallel 16 or cascading 64 satellites positions. However, the main limiting factors are market demands and the popularization of narrow directional beams among TV stations broadcasters, who generally object to inclusive broad audiences despite the clear advantage of lowering the aggregate carbon footprint of monoblock LNBs.

Another adoption barrier for monoblock LNBs with 16 satellites positions is the need for a special shape of antenna dish, which restricts the market potential.

Using DiSEqC 1.1 7-8 satellites positions from 24° spacing could be addressed and received with a lot of success by standard size and shape dish in some densely populated areas across the globe. The cheapest way appears to involve expanding the triple-feed 3° monoblock design to encompass additional satellite positions, since there are plenty of 3° separated satellites.

The greatest problem is designing a thin 2°,1° or 0.5° monoblockLNB. A cost-effective solution overcoming this obstacle may lead innovative designs of large matricesd of multiple LNBs tightly packed into a single monoblock LNB receiver.

Another limiting factor is low awareness by the general population and satellite reception users of Multi Feed Multi satellite, and the fact that it is so easily possible. That awareness is further crippled by the fact that DiSEqC and Monoblock LNBs are not compatible with a satellite channel router (SCR) or unicable LNBs in a single cable distribution.

Upon signing cable subscriptions, through a single cable distribution, end-users need to choose between multiple incompatible receivers compliant with either a single unicable LNB or a Multi Feed Multi-satellite reception by Monoblock LNB in twin and quad versions, unless they intend to use two or four separate cables connected to alternative independent receivers intended for a multi-room experiences.

The technical specifications and confusing advertisements tend to overwhelm the general consumer. Many countries offer Free To Air satellite and terrestrial broadcast services, which are downplayed to promote commercial cable TV providers and pay-per-view systems.

See also

[edit]

References

[edit]
  1. ^ Santoso, K; Edward, I (2020). "Low Noise Block Down Converter and Block Up Converter Filters Design for Ku Band". 2020 6th International Conference on Wireless and Telematics (ICWT). IEEE 2020 6th International Conference on Wireless and Telematics (ICWT). pp. 1–5. doi:10.1109/ICWT50448.2020.9243642. ISBN 978-1-7281-7596-6. S2CID 226268199.
  2. ^ "Persbericht: Satellietontvangst regionale omroep vanaf 1 september a.s. alleen nog via ASTRA 23.5" (PDF). 2007-08-09. Archived from the original (PDF) on 2007-10-20. Retrieved 2020-11-19.
  3. ^ ""Marketing campaign "ijzersterk duo" from CanalDigitaal and SES". 2008-05-08. Archived from the original on 2008-05-08. Retrieved 2020-11-19.
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