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  • 2013

    NEE-O1 PEGASUS

    Integrantes:

    Cuchala Ricardo Meneses Diego Morillo Katherine Valladares Mara Jos

    UNIVERSIDAD TCNICA DEL NORTE

    FACULTAD DE INGENIERA EN CIENCIAS APLICADAS

    INGENIERA EN ELECTRNICA Y REDES DE COMUNICACIN

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    1. CONTENT

    1. CONTENT ....................................................................................................................................1

    2. INTRODUCTION ..........................................................................................................................2

    3. BACKGROUND ............................................................................................................................2

    4. DEFINITION .................................................................................................................................5

    5. OBJECTIVES ................................................................................................................................8

    6. MISSION .....................................................................................................................................9

    7. OPERATIONS.............................................................................................................................12

    8. LAUNCH ....................................................................................................................................12

    9. STATE OF NEE-01 PEGASUS ......................................................................................................13

    10. CONSEQUENCES .......................................................................................................................15

    11. BIBLIOGRAFA ..........................................................................................................................18

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    2. INTRODUCTION

    The Ecuador took its first step launching a small satellite from the Jiuquan

    space center, located in Gansu Province, northwest China, this is a process

    of technological innovation of our country that deserves to be celebrated.

    The satellite was designed and built by EXA in Ecuador, on a voluntary,

    private resources and national staff, share the educational use of the

    satellite with the Ecuadorian people transmit satellite signals via the

    Internet using social networks and our servers indicates growth in

    science who is living in Ecuador.

    3. BACKGROUND

    The August 29, 2007, Russian Ambassador in Ecuador, the delegate of the

    General Commander of the FAE and the then present the country ESAA

    project the Ecuadorian civilian space program, with a duration of 10 years

    and 3 phases, aimed at start Ecuadorian space age.

    The CEEC aims to create a Civilian Space Agency, have a microgravity

    laboratory plane, five Ecuadorian manned missions into space, put the

    first satellite into orbit for the moon Ecuadorian and 2020.

    By November 2007, he founded the EXA - The Ecuadorian Civilian Space

    Agency, a civilian non-profit, responsible for managing and implementing

    the CEEC and to develop scientific research in planetary sciences and

    space sciences.

    The September 29, 2008, EXA is accepted by the International

    Astronautical Federation meeting at its 59th annual convention in

    Glasgow, Scotland as a full member with full voting rights in the General

    Assembly, alongside other agencies such as NASA, ESA, JAXA, and

    RossKosmos also developed joint projects that made history and

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    positioned to Ecuador as one of the best countries in the region aerospace

    development.

    In mid-2009, EXA and FAE signed a technical and scientific cooperation in

    the space field.

    The project gave the country DDALO the plane first and only Latin

    American microgravity.

    The project POSEIDON Ecuador reached for the Guinness World

    Record in micro gravity, previously held by NASA, to date, our

    record has not been surpassed.

    These projects were achieved with technology created by EXA and

    collaboration and FAE non-monetary resources, as pilots, expertise

    and ships.

    Figure 1. Missions logo.

    In April 2009 the Board approved the EXA's HERMES project, resulting in

    the construction of CCVE HERMESA / MINOTAURO as a first step for the

    Project PEGASUS.

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    The HERMES target was to provide us with the expertise needed to

    handle satellites, besides ourselves with our own earth station. HERMES

    became the first and so far the only earth station capable of connecting to

    the Internet permanently outer space, was fully funded, built and

    developed in Ecuador by EXA, without foreign aid.

    Figure 2. The sensors array MINOTAURO

    MINOTAURO sensor array has 10 high and 4 meters wide, and contains 7

    radiometric sensors and 2 optical.

    The maximum gain is 470dB MINOTAURO, has been successfully tested

    with targets 22,000 km away, detecting signals as weak as 0.002 watts.

    For this reason, the United Nations decided to present the world HERMES

    September 8, 2009, at the Academy of Cienciasde Austria, for its

    importance to mankind, and invited EXA to instruct scientists and

    engineers from 34 countries on how to use it.

    Because of its capabilities, HERMES is now the core of the program A

    SATELLITE IN THE CLASSROOM, which allows children of all ages to

    connect with scientific satellites in real time and study geography and

    science with the help of satellites billion to its available.

    Currently HERMES is part of the worldwide network of several satellite

    earth stations operating as RAX, SwissCube, RS-30, CO-68, the

    constellation NOAA, GOES, Landsat, Envisat, and others. There have been

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    15 scientific papers from 6 countries and have written three books on

    HERMES.

    4. DEFINITION

    The nations that have built their own satellites have always begun in

    small:

    Sputnik 1, the first artificial satellite in history, Russia, 1957:

    Vanguard 1, the first satellite built by the United States, 1958:

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    Ncube Norwegian first satellite, 2007:

    Libertad 1, first Colombian satellite, 2008:

    SwissCube, first Swiss satellite, 2009:

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    Chasqui 1 first Peruvian satellite, 2010:

    NEE-01 PEGASUS, First Satellite Ecuadorian, filed April 4, 2011:

    The NEE-01 is a 1U cubesat nano satellite specification:

    Weight less than 1330 grams

    Dimensions 10x10x75 cm

    Transmit Power less than 3W

    Frequency ISM

    Figure 3. Pegasuss measures.

    The orbital parameters are:

    H = 500 to 800km

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    I = 78 to 88 degrees

    P between 90 and 100 minutes

    Figure 4. Pegasus

    The NEE-01 PEGASUS meets the following conditions:

    Designed and built entirely in Ecuador, without foreign

    assistance.

    Funded by private industry EXA and national

    (QUICORNACSUNNY)

    Includes 6 new technologies invented by EXA.

    Use free frequency regulation.

    5. OBJECTIVES

    o TECHNOLOGY DEMONSTRATION: We demonstrate the use of new

    technologies in the field of micro satellites that enable a future for

    the domestic manufacture of satellites at very low cost.

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    o SCIENTIFIC EXPERIMENTS: The above point will allow us to

    collect detailed data and scientific knowledge on the basic

    principles of the LEO environment and space navigation.

    o EDUCATION: NEE-01 PEGASUS will be put to use in the Ecuadorian

    youth education, to inspire future generations to achieve scientific

    and technological levels world-class.

    o DEMONSTRATION OF CAPABILITY: We want to show the world

    our ability as a society to take a step as difficult as it is to build and

    operate our own satellite.

    o INSPIRATION: We want to inspire our people to reach their full

    potential, leading by example as build our own satellite without

    foreign aid.

    6. MISSION

    PRIMARY MISSION: National Satellite Technology Test

    o Surviving the space environment and transmit telemetry from LEO

    orbit for at least 1 year.

    o Transmit real-time video and telemetry OSD space

    o Try attenuation capacity shield space environment NEMEA

    o Try the passive display technology multiphase solar panels

    o Try the high technology energy generation nano satellites

    o Try amplification technology matrix hyper ARGOSMINOTAURO

    SECONDARY MISSION: Education from space

    o Serve as a platform for secondary education space

    o Serving as a test platform for space education.

    o Demonstrate the benefits of an educational satellite

    o Inspiring and youth awakening the passion for science and

    technology.

    o Getting the National Anthem Ecuador from space

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    PRIMARY MISSION: Equipment

    o CYCLOPS: The module that handles the radio transmitter, real-time

    video and telemetry transmission. The camera transmits at 520

    lines of resolution and the video has no discernible delay.

    o NEREIDA: Responsible National elHimno transmit the data to the

    educational mission,

    o has 2GB of memory.

    o PMSS: The navigation system of the ship, use the Earth's magnetic

    field for orientation and orbiting navigate using a neodymium core

    magnetic inertial brake and samarium-cobalt.

    o SEAM / N