[13:58 UTC]
[Thu, 28 Mar 2024]

 

"Veni, Vidi, Video."
 

[New OS Tracker]

Humax IRCI 5400 HIC-1.05.00 Plus CAM and ToH 3.0
[down. times]

Nokia MM 9800S MA 2.07-287A
[down. times]

Humax IRCI 5400 HIC-1.05.00 Plus CAM and ToH 2.3
[down. times]

Humax IRCI 5400 HIC-1.05.00 Plus CAM and ToH 2.2
[down. times]

Humax IRCI 5400 HIC-1.05.00 Plus CAM and ToH 2.1
[down. times]


Know of a new OS not included here?
Mail US!


Tech and Mods

  Understanding lnb specifications Page One [15 November 2002]

[This article is also available in .PDF format.]
Click here to download it

Want to know what lnb specifications mean. Well read on!

An lnb, or low-noise block downconverter, picks up the signals collected by your satellite antenna, amplifies them, and converts them to a lower frequency more suited to transmission via a co-axial cable to your receiver's input circuits. Without this frequency down conversion and amplification the signal would have to arrive at your receiver by means of microwave waveguides, a veritable plumber's nightmare of pipework, which would do little to improve your domestic décor and harmony.

The lnb should accomplish this without adding too many spurious signals of its own. 

The following table shows the recommended specifications for lnbs, according to the Eutelsat web site, for users of the Hotbird satellite cluster. The full document is available as a pdf file here http://www.eutelsat.com/fr/satellites/pdf/dealers/info_installer_hot_bird_dvbs.pdf

RF frequency range:      

10.70 - 12.75 GHz

Lower band range          

10.70 - 11.70 GHz

Lower band local oscillator frequency      

9.75 GHz ± 5 MHz

Upper band range

11.70 - 12.75 GHz

Upper band local oscillator frequency

10.6 GHz ± 5 MHz

IF frequency range (minimum)

950 - 2150 MHz

Small signal gain over RF frequency range

40dB Gain 65dB

Max. amplitude variation over IF frequency range

2.0 dB (within any 36 MHz bandwidth)
1.5 dB (within any 27 MHz bandwidth)
8.0 dB (over entire IF range - DTH)
5.0 dB (over entire IF range - SMATV)

Max. group delay variation over IF band

 20 ns (within any 36 MHz bandwidth)

Multi-carrier intermodulation ratio

>=35 dB.

Local oscillator intermodulation products at lnb output

< -60 dBc
(in the frequency band 950 - 2150 MHz)

Local oscillator phase noise

 
 

-50 dBc (1 kHz)

 

-75 dBc (10 kHz)

 

-95 dBc (100 kHz)

Spurious components at LNB output

-60 dBc (in frequency band fc ± 120 kHz)

LNB isolation

> 26 dB

LNB input RF interface:
(optional, if waveguide is employed):

PBR 120 (rectangular), or C120 (circular) with gasket groove

Antenna feed RF interface:
(optional, if waveguide is employed):

UBR 120 (rectangular), or C120 (circular)
without gasket groove

Output IF connector

IEC 169-24 type F, female

IF output characteristic impedance:

75 Ohm

LNB output return loss (this is the recommended value in the ETSI BSS and FSS specifications)

>=8 dB
(over the frequency range 950 - 2150 MHz)

Recommended switching control signals

DiSEqC2.0 e

DC supply voltage
(assuming conventional switching method)

+11.5 to +19 V

maximum current
(assuming conventional switching method)

250 mA (single-band)
300 mA (dual-band)

 But what does it all mean?

The frequency range stuff

This is all pretty self-evident. The lnb has to cover all of the frequencies that the satellite broadcasts on, so a coverage of 10.70 - 12.75 GHz. is essential if you are going to be able to see all the KU band programming. The local oscillator frequency is shown with a tolerance of 5MHz either way. This tolerance is fine for Hotbird, where all of the transponders are wideband ones. Searchers for SCPC narrow bandwidth channels might be better off with a tighter frequency tolerance.

 The local oscillator frequencies of 9.75 and 10.6 GHz are now acknowledged standards for universal lnbs, and all digital satellite receivers with the DVB logo should support them. Some (usually the more expensive) receivers support other local oscillator frequencies, so strict adherence to these frequency values may not be absolutely essential.

The IF frequency range is the range of frequencies that your receiver should tune to if you are going to be able to see all the frequency ranges covered by a universal lnb.

The lnb amplifier details.

This bit describes how well the lnb actually works, and requires a bit of interpretation.

Gain

The lnb gain tells us how much the incoming signal is amplified before being sent off down the coaxial cable to the receiver. The range of gain specified is between 40dB and 65dB (somewhere between 10,000 and 4,000,000 times the incoming signal power). At first sight, the highest gain you can get would be the obvious thing to look for; but that is not the only criterion when it comes to lnbs. 

When you have a big dish looking at a high power cluster of satellites like Hotbird or Astra1 the gain can be so high that the receiver is overloaded with signals. Yes, it is possible to get too much signal!

Even if the receiver itself can handle a massive diet of signal, there can be problems within the lnb itself when large amounts of amplification are employed. This leads to the generation of spurious signals and distortion products, in much the same way as turning up the volume on a transistor radio does. This distortion will interfere with the reception of your signals - there's more on this later further down the spec. 

So unless you have specific reasons to want an ultra high gain lnb, (perhaps you are looking for a weak carrier and you can guarantee the absence of unwanted high power signals on the same satellite) then look for a gain around 50-60dB.

Gain Flatness

To let the demodulator in the receiver work effectively, the gain at all frequencies in the within any broadcast channel should be the same. This isn't a very difficult requirement to meet, except perhaps at the edges of the band, as long as the lnb is constructed properly. Notice that the DTH (direct to home) requirements for the flatness across the entire band are less severe than for the SMATV (satellite master antenna television- e.g. distribution around a block of flats), where we might expect additional splitters, switches and amplifiers in the signal path.

 

   NEXT PAGE -->>

 

© SatCritics 2002 All rights reserved


 

 




Our Reviews in
foreign languages

Micronik TVBox 1200S [SDTV Polish:]

Digiquest P2000 [SDTV Polish:]

Digiquest P2000 [SatIL Hebrew:]

Samsung 9000 Via CI [SatIL Hebrew:]

Force DMaster 1122s [SDTV Polish:]

Force DMaster 1122s [SatIL Hebrew:]

Technisat Technibox Cam 1 Plus [SatIL Hebrew:]

GbSat 2CI 20 [SatIL Hebrew:]


[SatTrack News]

Last change:
[14 September 2008]
by Digis@t






(...Click below for more)

[Lead me to your]
[DX section NOW]


 
www.satcritics.com | © SatCritics 2001-2012 | www.satreviews.com