Specifically designed for the European DTH markets, this LNB provides optimized reception capabilities. It is factory set for easy connectivity with any LO 11.25 Preset Set-top box, fully supports High Definition transmissions and provides excellent Noise Figure performance and enables the reception of signal from one satellite and its distribution to a single tuner Set-top box. Manufactured to the highest industry quality standards and is designed to meet strict specifications this LNB is an ideal solution for the satellite broadcast reception across Europe.

Main Features:
  • LO frequency 11.25 GHz
  • Low phase Noise HDTV-DVBS2 compliant
  • Low Noise figure
  • Low Power consumption
  • High Cross-Pole performance
  • High Frequency stability

Technical specifications
High band input frequency range
12.2 GHz ~ 12.7 GHz
High band output frequency range 950 MHz ~ 1450 MHz
High band LO frequency
11.25 GHz
Noise figure
1.1 dB max.
LO temperature drift ± 3.0 MHz max.
LO initial accuracy ± 1.0 MHz max.
LO phase noise @ 10 kHz
-75 dBc/Hz
Conversion gain
50 dB ~ 62 dB (56 dB typ.)
Gain ripple (over 26 MHz bandwidth) ± 0.5 dB
Gain variation (over full band) ± 2.5 dB max.
Image rejection
40 dB min.
1 dB compression point (@ output) 0.0 dBm min.
Cross talk
22 dB min.
Control signal Ca (V)
11.0 V ~ 14.0 V
Control signal Cb (H)
16.0 V ~ 20.0 V
Output VSWR
2.5 : 1
In band spurious level -55 dBm max.
Current consumption
110 mA max. (11 VDC ~ 20 VDC)
Operating temperature
-25 °C ~ +60 °C
Output impedance
75 Ω (F-type)
Output connector type
F-Type (female)
Weight 130 g
Logistical info
Packaging dimensions (W x D x H) 9.3 cm x 5.2 cm x 11.3 cm
Packaging weight 0.14 Kg
Quantity per Carton 80
Carton dimensions (W x D x H) 41 cm x 40 cm x 30.5 cm
Carton weight 11.43 kg
Quantity per pallet 1440

Q: What is an LNB?
An LNB - Low Noise Block (also called an LNC- Low Noise Converter), it is used for communications (broadcast) satellite reception. The LNB is usually affixed either in or on the satellite dish and its purpose is to collect and amplify the satellite signal received from the dish and then down convert the signal to lower more manageable IF frequency which can then be carried over standard coaxial cabling to the receiver.
Q: What is a feedhorn?

The feedhorn is a part of the LNB and works like a directional horn. Its function is to capture the signals reflected from the dish and to shield the LNB from receiving extraneous radiation from other sources. These collected signals are then passed form the horn to the electronics within the LNB.

Q: What is the difference between a Quad and Quattro LNB?
A quad or quad switch LNB is an LNB where the multi switch is integrated into the LNB and gives 4 independent output ports for the connection of 4 receivers. A Quattro LNB has 4 outputs and each of the output’s is set to one of the differing polarities, the 4 outputs are V/L, V/H, H/L & H/H. A Quattro LNB is normally used to feed a multiswitch which then allows the distribution of the signal to any number of satellite receivers. All four outputs of a Quattro LNB are marked accordingly with V/L, V/H, H/L & H/H to avoid confusion and malfunctions when connecting to the multiswitch.
Q: What is the HsQuare Technology?

HsQuare is a unique waveguide technology which may be coupled with a slightly larger feed horn design to deliver better RF performances compared with common circular microwave waveguides.

Q: What is a monoblock LNB?
This design consists of two independent LNBs in a single housing and allows a user the potential of receiving the signal from two different satellites which are at slightly different orbital opposition from a single dish installation. The switching between the satellitesis achieved via the use of DiSEqC signals or Toneburst (Mini DiSEqC). Monoblock LNB’s are available mostly for satellites with a fixed 4.3° or 6° spacing and the range covers Ku band monoblock switch single, twin and quad outputs.
Example where a 6° monoblock LNB could be used is for the reception of ASTRA 1 (19.2° East) and Hotbird (13° East) or with 4.3° distance for the reception of ASTRA 1 (19.2° East) and ASTRA 3 (23.5° East).
Q: Why can I receive only one satellite with my monoblock LNB?
For dual satellite reception the dish is normally initially aligned to the weaker of the two satellites and then some slight adjustment can be made ensure the best possible reception from both the satellites. A monoblock installation will require a slightly larger dish size than if only one satellite location had been chosen. Monoblock LNBs are designed to work on a specific dish size and it’s important that the correct dish size is installed or both satellites signals may not be picked up at a sufficient level of strength to guarantee reliable reception.
Q: What is a wideband LNB?
With a wideband LNB having only one local oscillator (e.g. 10.4GHz), and captures the full frequency spectrum of the satellite (300MHz to 2350MHz) which are delivered over two outputs from the LNB. One output carries all the vertically polarized signals whilst the second output carries all the horizontally polarized outputs. Whilst most of the current multiswitches on the market do not accept a wideband input the newer multiswitches such as newer Unicable switches are capable of accepting this as their input.
Caution: Wideband LNBs are not conventional twin LNBs. Wideband LNBs can be connected to a Unicable multiswitches that is designed for this purpose, or, if connected directly to a receiver, only with a suitable tuner.
Q: What does Unicable mean?
Unicable is a new method for distributing satellite television. Several receivers (currently up to 32 in accordance with standard EN 50607) can be connected to only one single chain which is not possible with a conventional satellite distribution (star distribution in multi-switch mode). For more information about Unicable, see www.inverto.tv/what-is-unicable-2
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