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GOMEZ, Ramon, 12/12/2015 01:09 PM

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Proposal of structure: 
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Introduction - tell what is the aim of the project
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State of art - talk about how L-band reception systems work currently
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Project - Present our results, discuss them point by point
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-Linearity - what is, show results, compare to the technical specification provided.
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-Intermodulation - what is, show results, explain and compare to coax (theoretically)
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-Phase/noise - what is, show results, explain and compare to coax (theoretically)
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-Application
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/////////////////START OF THE DOCUMENT//////////////////////////////////////////////////
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h1. 1. Introduction
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Earth stations are based on an indoor/outdoor unit architecture. The outdoor unit comprises antennas and the RF frontend (amplifier and up/down converter). The indoor unit includes the receiver, modem and network/application appliances. On typical consumer systems, the outdoor and indoor units are connected by means of a 75-ohm coaxial cable. The cable conveys the intermediate frequency (typically L band) signal between the indoor/outdoor units. 
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This approach, while being cost effective, is not optimal from a signal quality standpoint and might severely impair the end-to-end link budget. For example, typical attenuation values for a coaxial cable at a frequency of 1 GHz are in the order of 15 dB/100 m.
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The objective of this project is to test and evaluate a system that makes possible to convert the L-band RF signal from/to optical and use an optical fibre (up to 10 km) as primary interconnection media.  The signal is converted from optical back to RF in the indoor unit. As such, it is directed to DTH (Direct-To-Home) TV systems.
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!schema.jpg!
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h1. 2. State of the art
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h1. 3. Measures
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h2. 3.1 Linearity
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h2. 3.2 Intermodulation
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h2. 3.3 Phase/Noise
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h1. 4. Results
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h1. 5. Application
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This section explains how the Outdoor system has been installed and the results obtained measuring a real TV signal from a Satellite. 
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h2. 5.1 Preparation
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The optical transmitter has been put in an hermetic box.
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Its interface consists of :
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* The power supply plug to be connected to the mains ;
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* The optical fiber harness (2 fibers) : only the red fiber is actually connected to optical transmitter ; the black fiber is not used, it will enable to have a b ;
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* The type F coaxial cable to connect the Antenna Low Noise Block, LNB, to optical transmitter.
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Optical transmitter is set to :
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* To supply 18 V to LNB, which selects Horizontale polarization ;
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* To provide 0 kHz tone to LNB, which set its Local Oscillator to 9.75 GHz to transpose lower Ku Band from  10.7 to 11.7 GHz into IF Band.
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* This hermetic box has been mounted on Antenna mast. This Antenna is pointing to Astra 1KR/1L/1M/1N colocalized satellites on 19.2° East.
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h2. 5.2 Trials
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h3. 5.2.1 Inter Frequency Spectrum with Optical Link
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RF output from Optical receiver has been analyzed with Rohde & Schwartz FSV spectrum analyzer :
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!rsz_1combine_images.png!
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_IF Band, 1 Channel (with Optical Link)_
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It is possible to distinguish several channels within the Inter Frequency, IF, band. There is a zoom on left side. The 3 dB channel bandwdith is 22 MHz.
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The power is about -32 dBm for the channel centered around 1141 MHz.
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!rsz_tv_channel.png!
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_TV channel at 1141 MHz_
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h3. 5.2.2 Link Quality with Optical link
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First, optical link performance enables to have a good TV quality (for example, Eins Plus on 10744H). More deeply, physical link quality has been assessed with the information provided by IPRICOT SCB router.
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This data has been compared with data from website like [www.lingsat.com] :
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!table_channels.jpg!
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!rsz_ipr_sc.png!
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Physical link parameter at 10744 MHz
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!rsz_ipr_sc2.png!
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Physical link parameter at 11244 MHz
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h1. 6. Conclusions