Bibliographic citations
Montejos, M., (2022). Efecto del viento en torres de telecomunicaciones en el Perú y análisis comparativo según las normas TIA/EIA-222-F, ANSI/TIA- 222-G, IS 802 y Eurocode [Pontificia Universidad Católica del Perú]. http://hdl.handle.net/20.500.12404/23061
Montejos, M., Efecto del viento en torres de telecomunicaciones en el Perú y análisis comparativo según las normas TIA/EIA-222-F, ANSI/TIA- 222-G, IS 802 y Eurocode []. PE: Pontificia Universidad Católica del Perú; 2022. http://hdl.handle.net/20.500.12404/23061
@mastersthesis{renati/532069,
title = "Efecto del viento en torres de telecomunicaciones en el Perú y análisis comparativo según las normas TIA/EIA-222-F, ANSI/TIA- 222-G, IS 802 y Eurocode",
author = "Montejos Fidel, Mario Vicente Paul",
publisher = "Pontificia Universidad Católica del Perú",
year = "2022"
}
Today, the Sars-Cov2 virus in Peru has led many people to work and study from home, increasing demand for internet coverage in sectors, such as education, public entities, banking, health, etc. These changes and the new 5G technology, IoT (Internet of things) have led the demand for telecommunications infrastructure constructions to grow. This thesis seeks to standardize the analysis of telecommunications infrastructure design, investigate the effects of antennas on the population and perform a comparative analysis between the American standards EIA-22F, 22G, Indian Standard and European Standard, for self-supporting telecommunications towers in Peru. The analysis will be carried out according to the following parameters: wind speed, maximum wind exposure área and tower height. It is estimated that it is possible to link the international standards for the design of telecommunications structures to the Peruvian reality. In addition, based on what has been analyzed, it is estimated that a standardization of the self-supporting towers can be carried out according to the requested requirements. The procedure used consists of carrying out a comparative analysis of self-supporting towers of 30m, 42m and 54m with a square base of 1.00m, 4.00m and 4.07m, respectively; DMH type face panel for 30m and 42m, and XH type face panel for 54m, analyzed in 3 basic wind speeds: 75, 90 and 110 km/h with an antenna load of 03 APE4516R1v06, 03 RRU5502 , 01 MW A23D06HAC and an additional EPA (effective projected área), all antennas at the top of the tower; the assumed total AEV (wind exposure área) varies according to the height of the tower. FLAT type antennas are considered except for the MW antenna, which is considered SHIELDED type. The structures are subject to their own weight, dead load of equipment, ladders and feeders, live load, and wind load. The analysis will be given according to the TIA/EIA 222-F, ANSI/TIA-222-G, Indian Standard and European Standard. This thesis demonstrates the possibility of being able to improve the Peruvian norm under the standards and calculations used in international norms according to the reality of the region. The verifications and calculations are variable with respect to each standard and according to the characteristics used.
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