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SOUTHERN REGIONAL SPACE RESEARCH CENTER - CRS/CIE/INPE - MCT SPACE SCIENCE LABORATORY OF SANTA MARIA - LACESM/CT - UFSM. RADIO QUITE SITE QUALIFICATION FOR THE BRAZILIAN SOUTHERN SPACE OBSERVATORY BY MONITORING THE LOW FREQUENCY 10–240 MHZ ELECTROMAGNETIC SPECTRUM - PowerPoint PPT Presentation
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RADIO QUITE SITE QUALIFICATION FOR THE BRAZILIAN SOUTHERN SPACE RADIO QUITE SITE QUALIFICATION FOR THE BRAZILIAN SOUTHERN SPACE OBSERVATORY BY MONITORING THE LOW FREQUENCY 10–240 MHZ OBSERVATORY BY MONITORING THE LOW FREQUENCY 10–240 MHZ
ELECTROMAGNETIC SPECTRUMELECTROMAGNETIC SPECTRUM
GUILHERME SIMON DA ROSA1, Nelson Jorge Schuch1, Casio Espindola Antunes1, Natanael Rodrigues Gomes2
1. Southern Regional Space Research Center – CRS/CIE/INPE – MCT, in collaboration with the Santa Maria Space Science Laboratory – LACESM/CT – UFSM, Santa Maria, RS, Brazil.
2. Electronic and Computing Department and Space Science Laboratory of Santa Maria –Center for Technology – (DELC/CT - LACESM/CT) -UFSM, Santa Maria, RS, Brazil
[email protected] / Fax: +55-55-3301-2213
SOUTHERN REGIONAL SPACE RESEARCH CENTER - CRS/CIE/INPE - MCTSPACE SCIENCE LABORATORY OF SANTA MARIA - LACESM/CT - UFSM
37TH COSPAR - Committee on Space Research - Scientific AssemblyJULY 13 - 20, 2008 – MONTREAL - CANADA
Fig. 2 – Southern Regional Space Research Center CRS/CIE/INPE - MCT
Santa Maria, RS – Brazil
SOUTHERN REGIONAL SPACE RESEARCH CENTER - CRS/CIE/INPE - MCTSPACE SCIENCE LABORATORY OF SANTA MARIA - LACESM/CT - UFSM
SOUTHERN SPACE OBSERVATORY A RF PASSIVE SITE FOR INSTRUMENTATION SYSTEMS
Fig. 1 – Main gate and buildings 1, 2, 3, 5 and 6 at
São Martinho da Serra, RS, Brazil
Geographic Coordination:
Latitude: 29º 26´ 24” SLongitude: 53º 48´ 38” W
Ellipsoidal Altitude : 488 m
Geomagnetic Coordination:
Latitude: 19º 13´ 48” SLongitude: 16º 30´ E
Inclination or “dip”: 33º STotal Geomagnetic Field: 22,800 nT
METHODOLOGY
A radio interference (RF) data acquisition system kit was installed and operated at the Southern Space Observatory, which is located at São Martinho da Serra, in South of Brazil. The RF system kit consisted of: antenna, spectrum analyzer, GPIB board and controlling PC, as presented in Fig. 3.
SOUTHERN REGIONAL SPACE RESEARCH CENTER - CRS/CIE/INPE - MCTSPACE SCIENCE LABORATORY OF SANTA MARIA - LACESM/CT - UFSM
Omnidirectional antenna
Spectrum Analyzer GPIB interfaceControlling computer
Fig. 3 – Radio interference data acquisition system
THE RESULTS OBTAINED FOR THE LAST 15 YEARS WITH THE ELECTROMAGNETIC RADIO SPECTRUM MONITORING AT THE SSO
SOUTHERN REGIONAL SPACE RESEARCH CENTER - CRS/CIE/INPE - MCTSPACE SCIENCE LABORATORY OF SANTA MARIA - LACESM/CT - UFSM
The RF Spectrum in the frequency range of 20 - 200 MHz observed at SSO, in 1992, is illustrated in Fig. 4.
The 2003 data of the RF Spectrum monitoring at the SSO is presented in Fig. 5, which shows that most of the RF Spectrum is free of electromagnetic radio interference.
Only some signals such as FM band transmission, as expected, were observed.
Fig. 4 – RF Spectrum in the frequency range of 20 – 200 MHz observed at SSO, in 1992
Fig. 5 – a) RF Spectrum in the frequency range of 100 – 110 MHz observed at SSO, in 2003; b) RF Spectrum in the frequency range of 110 – 180 MHz observed at SSO, in 2003
ba
RESULTS AND DISCUSSIONS
SOUTHERN REGIONAL SPACE RESEARCH CENTER - CRS/CIE/INPE - MCTSPACE SCIENCE LABORATORY OF SANTA MARIA - LACESM/CT - UFSM
The 2006 RF Spectrum monitoring at SSO in the frequency range of 20 – 230 MHz is presented in Fig. 6. The observations is for a day of data acquisition, February 4-5, 2006 which are presented in two different formats as diagrams (a) and (b) of Fig. 7.
Fig. 6 – RF Spectrum in the frequency range of
20 – 230 MHz observed at SSO, for 2006
It is observe that the electromagnetic spectrum at the SSO remained free of radio interference in most of the observed frequency range. Basically they are the same signals observed in the past, such as signals from FM transmissions, TV and radio amateur.
Fig. 7 – a) Composition between all the resulting observations for one day of data acquisition, February 4-5, 2006;
b) Different diagram presenting the same results as presented in (a)
a b
CONCLUSIONS
SOUTHERN REGIONAL SPACE RESEARCH CENTER - CRS/CIE/INPE - MCTSPACE SCIENCE LABORATORY OF SANTA MARIA - LACESM/CT - UFSM
The majority of the RF Electromagnetic Spectrum (HF and VHF) at the Southern Space Observatory – SSO/CRS/CIE/INPE-MCT, in São Martinho da Serra, Brazil, RS, is free of intense radio interference and may be used for data acquisition with sophisticated and sensitive passive radio instrumentation and for Radio Astronomy, such as the LOFAR.
• Boonstra, A. J.; Bregman, J. D.; Mohamoud, A. A. LOFAR spectrum monitoring: dynamic range and spectral occupancy issues, SKA workshop, Agosto de 2000, Jodrell Bank, UK.• Ellingson, S. W. Antennas for the Next Generation of Low Frequency Radio Telescopes, IEEE Trans. Antennas and Propagation, Vol. 53, No. 8, Agosto de 2005, p. 2480-2489.• Stewart, K. P.; Hicks, B. C.; Ray, P. S.; Crane, P. C.; Kassim, N. E.; Bradley, R. F.; Erickson, W. C. LOFAR antenna development and initial observations of solar bursts, Planetary & Space Sci., Vol. 1352, no. 15, p. 1351–1355, Dezembro de 2004.
REFERENCES
The authors would like to acknowledge the Program PIBIC/INPE – CNPq/MCT for fellowship and COSPAR 2008 for grant.
ACKNOWLEDGMENTS
