The information contained herein may be outdated.
This article presents the equipment available in our offer and well prepared for distributing digital satellite broadcasts in community installations, often called SMATV systems.
Collective reception of satellite digital programs can be implemented in several ways:
Systems with multiswitches allow for distributing satellite signals with both polarizations from one or two satellites to all users. Any user can access (with his satellite receiver) any of available programs, the same way as he had individual satellite installation with his own dish. However, only one shared dish is used, and this solution is generally preferred by developers, owners of apartments for rent, as well as the majority of apartment owners and housing managers. It is much better solution for the aesthetic qualities of the building.
Each subscriber has to be connected to a multiswitch output with coaxial cable. It requires to anticipate the installation on the construction stage, or use optimal solutions in existing buildings.
This kind of installations is usually build for up to 100 subscribers.
The offer of multiswitches on the market is very wide, first of all they differ in number of inputs and outputs. The most popular are those marked 5/4, 5/8, 9/4, 9/8 (the first figure means the number of inputs, the second number of outputs). There are also available 5/12, 5/16, 9/12, 9/16 types.
Popular systems of satellite TV use two polarizations: horizontal and vertical, and two bands: low and high. To enable independent reception from any polarization and band there is the need of using in multiswitch installations quatro converters, instead of fullband types used in individual installations. Quatro converters have four outputs allowing to get four combinations of polarization-band.
Multiswitch connects a subscriber outlet to one of converter's output. The demand for switching is performed by control signals 22 kHz, and 14V/18V. In the case of 9-input multiswitches cooperating with two converters (reception of programs from two satellites) the additional signal required for choice of converter is provided by DiSEqC or Tone Burst.
Aside from satellite television, multiswitches distribute terrestrial TV signals that are also available in each subscriber outlet.
Devices and equipment used in multiswitch installations:
- quatro converters
- satellite TV splitters
- multiswitches and dedicated amplifiers
- TV-SAT outlets
- satellite cables: TRISET
Diagram of installation with multiswitches
Employing amplifiers it is possible to cascade even 20 multiswitches. In the case of bigger installations, a division into sub-networks is advised.
In bigger installations there should be used amplifiers SA-501 R70501
, SA-511 R70511
(for 5-input multiswitches) or SA-901 R70901
, SA-911 (for 9-input multiswitches).
- All programs available for any user
- Changes in broadcast programs, number of transponders etc. do not require any modifications of installation.
- There is possibility of receiving programs from two satellites only
- A little complicated cabling (many sections of cable) - when using more than 20 outlets it is recommended to make a design.
Receiving stations using these digital receivers enable the subscribers to receive digital satellite broadcasts with regular TV sets, due to conversion of the original signals compressed by MPEG-2 method with QPSK modulation into signals with VSB-AM modulation and PAL color system.
The solution is well suited for networks with 200 or more outlets. But it is also suitable for smaller installations, in the case of tailored offer e.g. in boardinghouses, pensions, hotels. It enables the gests to access e.g. several programs, without a risk of problems with satellite receivers.
One module allows for reception of one program. So the system makes possible to choose a selection of programs that are to be distributed.
The needed cabling has simpler structure than in the case of multiswitches - a series connection of outlets, with one cable line.
A receiver (module) allows for conversion of digital satellite program into analog channel within cable band (special channels - hyper band), or VHF/UHF band, which is receivable by any TV set.
Example receiving &distribution set
Devices and equipment used in QPSK-PAL installations:
- satellite converter
- receiver - TP-544 R912061
- frame - MS-011 R91229
- amplifier PA-700
- programmer PS-003
- FA-310 R912046 (one for each 5 receivers)
- splitters/taps (regular ones for terrestrial TV will do)
- outlets BM-100 + wall plates EM-200.
- Easy installation, with one cable line
- Possibility of utilizing current antenna installation
- No additional receivers needed.
- Limitation of the number of received programs to about 60 (the same as in cable TV).
Concept of IF/IF conversion. IF/IF converters of digital satellite broadcasts are used in installations with over 40 outlets, and are suitable for even several hundreds of subscribers. They provide the first satellite IF signals to the outlets, without a need of employing multiswitches. The idea of conversion consists in selecting given transponder - having determined frequency and polarization - and putting it in planned output layout in the 950-2150 MHz band.
This solution allows for distribution signals from several satellites with one cable line. Of course, subscribers need to use DVB receivers. Such installations can provide users with immense number of 240 to 320 digital channels, on the assumption that each transponder transmits eight programs.
Diagram showing the principle of operation
View of IF/IF converters in assembling frame
Diagram of installation with IF/IF converters here
The installation enables a user to receive two digital satellite packages ( as an example: Cyfra+, Polsat Cyfrowy), distributed by one satellite cable line.
For over 40 outlets such system becomes cheaper and easier to implement in comparison to multiswitch installation.
Devices and equipment used in installations with IF/IF converters
- power supply FA-310 R912046 (for 8 panels, i.e. 16 converters),
- IF/IF converters UC-221 R91238 and UC-222 R91239,
- amplifier PA-710 R91217,
- frame MS-011 R91229,
- splitters and taps working in 5-2400 MHz range, depending on the design: FI-243, FI-473, FD-210, FD-213, FD-219, FD-225, FD-410, FD-413, FD-419, FD-425
- satellite outlets: BS-110 R90716 BS-210 R90717 BS-510 R90718 BS-710 R90719
- satellite cables: TRISET-113 - E1015, E1017, E1019, TRISET-11 - E1025, E1027, E1029.
- possibility of receiving programs from Ku and C bands,
- full transparency as regards various kinds of transmission
- capable of working with analog and digital platforms
- free choice of transponders
- only one cable line
- easy installation
- easy extension of existing installation
- the need for selection of distributed programs
- changes of frequencies of transponders require re-programming of receiving station
- maximal capacity of the system: 30 - 32 transponders
IF/IF modules UC-221 &UC222
These modules comprise two satellite IF converters allowing for distribution of signals with various polarizations and from many satellites with one cable line, without use of multiswitches. They permit to choose 27 or 36 MHz bandwidth and switch on/off AFC and AGC circuits.
UC-221 is equipped with one input and loopthrough to the next panel, UC-222 has two inputs and no loopthrough (it is used when there is the need of distributing odd number of transponders from one combination of polarization-band).
|Number of inputs|| |
|Number of converters|| |
|Input frequency range|
|Output frequency range|
|Possible bandwidths of transponders|
|Step of frequency adjustment|
|Input signal level|
|Adjustment of output level|
40 (transponder 36MHz)
30 (transponder 20MHz)
20 (transponder 15MHz)
|Powering of converter|
12/18 (two satellite inputs)
+3.3 +5 +12 +24
200 300 125+LNB (KU BAND)
LNB (18V) C/KU BAND
40 +/- 2.0
-30 +/- 3.0
|Maximal output level|
120 (IMD3 -35dB)
110 (IMD2 -35dB)
8 +/- 1.0
2 +/-1.0 (47...862MHz)
The amplifier is used for final amplification of IF signals after conversion in set of IF/IF converters, before further distribution in the installation.
|Number of outputs||2||4|
|Attenuation IN-OUT [dB]|| || |
| || || |
|Number of outputs||2||2||2||2||4||4||4||4|
|Tap attenuation [dB]|| || || || || || || || |
|Pass-through attenuation [dB]|| || || || || || || || |
| Code|| R90716|| R90717|| R90718|| R90719|
| Frequency range [MHz]||4-2400||4-2400||4-2400||4-2400|
| Pass-through attenuation [dB]|| -|| 2.2-3.2|| 0.8-1.4|| 0.6-1.1|
| Tap attenuation [dB]||3.6-4.7||10||14.5-15||20|
Diagrams of installations
Diagram of the installation with IF/IF converters is here.
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