1) El documento describe diferentes sistemas de antenas trisectoriales para telefonía móvil que cubren varias bandas como GSM, DCS y UMTS. 2) Incluye especificaciones técnicas de diferentes modelos de antenas trisectoriales así como mástiles de soporte. 3) El documento proporciona información de contacto para realizar pedidos.
This document provides specifications for the Powerwave Triple Broadband Antennas. It lists technical details such as frequency ranges from 824-960 MHz and 1710-2170 MHz, a gain of 17.3/15.2 dBi, horizontal beam width of 65 degrees, and dimensions of 2658x280x125mm. It also includes mechanical details like a weight of 27.7kg with brackets, maximum wind speed of 42m/s, and operating temperature range of -40 to +60 degrees Celsius. Electrical specifications include VSWR of 1.5:1, front-to-back ratio above 25dB, and power handling of 300W average per input.
2015 D-STOP Symposium session by Robert Heath, UT Austin's Wireless Networking & Communications Group.
Get symposium details: http://ctr.utexas.edu/research/d-stop/education/annual-symposium/
This document summarizes the key components and operating principles of radar systems. It discusses the basic outline of radar including the transmitter producing pulses, a duplexer switching between transmit and receive, and a receiver amplifying returned echoes. It describes how radar determines distance based on pulse travel time. Issues like maximum unambiguous range due to pulse repetition are addressed. The document outlines the electromagnetic spectrum used, displays, antennas, emergency beacons, and navtex coding systems.
TRM MINI-LINK TN Presentation By Khalil Al-AlamiKhalil Al-Alami
The document discusses transmission and microwave radio systems. It describes transmission as the process of transmitting traffic like voice, data and video between a source and destination over a medium. Transmission in mobile systems is needed to establish connections between mobile devices and the network to make calls. Microwave radio is used as a wireless transmission system using short wavelength radio signals for point-to-point communication between fixed locations. The document provides details on microwave link components, configurations, protection techniques and specifications.
The document discusses the fundamentals, opportunities, and challenges of massive MIMO technology. Massive MIMO involves using very large antenna arrays (e.g. 100 antennas) at base stations to serve many terminals simultaneously. It has the potential to dramatically improve data rates and reliability while enabling large reductions in transmit power. Key opportunities include achieving high multiplexing and array gains by exploiting favorable propagation conditions. Challenges include acquiring accurate channel state information from limited pilot resources and managing interference with simple linear processing as the array size increases.
This document provides an overview of GSM link budget calculations. It defines key terms used in link budgets such as effective radiated power, antenna gain, diversity gain, receiver sensitivity, path loss, and fade margin. It explains the objectives of calculating a link budget are to estimate maximum allowable path loss, compute required effective isotropically radiated power for a balanced link, estimate coverage design thresholds, and evaluate technology performance. It also provides examples of uplink and downlink link budget calculations for a GSM network and defines indoor, in-car, and outdoor coverage requirements.
The document discusses the shift towards using coherent optical technology at the network edge. It argues that 100G QSFP28 ports using coherent 100ZR technology will dominate the optical edge in the coming years. This will allow for longer transmission reaches of over 300km compared to traditional direct detection. Key advantages of coherent 100ZR include lower power consumption of 5W or less in a QSFP28 form factor, simplified deployment without manual tuning, and compatibility with existing network infrastructure. The technology could enable seamless upgrades to 100G speeds at aggregation points across access networks.
Cellular networks address the problems of spectral congestion and limited user capacity by replacing single high-power transmitters with many low-power transmitters. This allows for frequency reuse, where the same frequencies can be used in cells farther apart due to lower transmission powers. Key aspects of cellular networks include frequency reuse patterns, cell types and sizes, co-channel interference management through techniques like sectorization and microcell deployment, and balancing capacity gains from smaller cells and frequency reuse against infrastructure costs. Cellular networks provide major improvements in spectral efficiency and user capacity over traditional wireless networks.
This document provides specifications for the Powerwave Triple Broadband Antennas. It lists technical details such as frequency ranges from 824-960 MHz and 1710-2170 MHz, a gain of 17.3/15.2 dBi, horizontal beam width of 65 degrees, and dimensions of 2658x280x125mm. It also includes mechanical details like a weight of 27.7kg with brackets, maximum wind speed of 42m/s, and operating temperature range of -40 to +60 degrees Celsius. Electrical specifications include VSWR of 1.5:1, front-to-back ratio above 25dB, and power handling of 300W average per input.
2015 D-STOP Symposium session by Robert Heath, UT Austin's Wireless Networking & Communications Group.
Get symposium details: http://ctr.utexas.edu/research/d-stop/education/annual-symposium/
This document summarizes the key components and operating principles of radar systems. It discusses the basic outline of radar including the transmitter producing pulses, a duplexer switching between transmit and receive, and a receiver amplifying returned echoes. It describes how radar determines distance based on pulse travel time. Issues like maximum unambiguous range due to pulse repetition are addressed. The document outlines the electromagnetic spectrum used, displays, antennas, emergency beacons, and navtex coding systems.
TRM MINI-LINK TN Presentation By Khalil Al-AlamiKhalil Al-Alami
The document discusses transmission and microwave radio systems. It describes transmission as the process of transmitting traffic like voice, data and video between a source and destination over a medium. Transmission in mobile systems is needed to establish connections between mobile devices and the network to make calls. Microwave radio is used as a wireless transmission system using short wavelength radio signals for point-to-point communication between fixed locations. The document provides details on microwave link components, configurations, protection techniques and specifications.
The document discusses the fundamentals, opportunities, and challenges of massive MIMO technology. Massive MIMO involves using very large antenna arrays (e.g. 100 antennas) at base stations to serve many terminals simultaneously. It has the potential to dramatically improve data rates and reliability while enabling large reductions in transmit power. Key opportunities include achieving high multiplexing and array gains by exploiting favorable propagation conditions. Challenges include acquiring accurate channel state information from limited pilot resources and managing interference with simple linear processing as the array size increases.
This document provides an overview of GSM link budget calculations. It defines key terms used in link budgets such as effective radiated power, antenna gain, diversity gain, receiver sensitivity, path loss, and fade margin. It explains the objectives of calculating a link budget are to estimate maximum allowable path loss, compute required effective isotropically radiated power for a balanced link, estimate coverage design thresholds, and evaluate technology performance. It also provides examples of uplink and downlink link budget calculations for a GSM network and defines indoor, in-car, and outdoor coverage requirements.
The document discusses the shift towards using coherent optical technology at the network edge. It argues that 100G QSFP28 ports using coherent 100ZR technology will dominate the optical edge in the coming years. This will allow for longer transmission reaches of over 300km compared to traditional direct detection. Key advantages of coherent 100ZR include lower power consumption of 5W or less in a QSFP28 form factor, simplified deployment without manual tuning, and compatibility with existing network infrastructure. The technology could enable seamless upgrades to 100G speeds at aggregation points across access networks.
Cellular networks address the problems of spectral congestion and limited user capacity by replacing single high-power transmitters with many low-power transmitters. This allows for frequency reuse, where the same frequencies can be used in cells farther apart due to lower transmission powers. Key aspects of cellular networks include frequency reuse patterns, cell types and sizes, co-channel interference management through techniques like sectorization and microcell deployment, and balancing capacity gains from smaller cells and frequency reuse against infrastructure costs. Cellular networks provide major improvements in spectral efficiency and user capacity over traditional wireless networks.
The document provides an overview and description of Huawei's OptiX OSN 1800 Multi-Service Mini-WDM/OTN System. The OSN 1800 combines OTN and WDM features to provide unified transmission of services over WDM/OTN from 2Mbit/s to 10Gbit/s. It is designed for the edge of metropolitan layers and provides a cost-efficient solution for enterprise customers. The OSN 1800 supports multi-service access without limitations on service type, installation size, power supply, or transport capacity and distance. It offers full protection of line, client, and power supply services.
This document provides information about the PASOLINK family of digital microwave relay systems from NEC, including:
- The PASOLINK systems operate at frequency bands between 3.6-40 GHz and provide PDH, SDH, and LAN interfaces.
- The systems consist of indoor and outdoor units connected by coaxial cable and antennas. Configurations include non-protected 1+0 and protected 1+1 hot standby and twin path systems.
- Key features include high reliability, low power consumption, flexible interfaces, frequency agility, system flexibility, and maintenance facilities. Interface options include E1, E3, STM-1, and Ethernet.
WiGig is a new wireless networking technology that provides data rates up to 7Gbps, over 10 times faster than the fastest existing WiFi networks. It operates in the 60GHz frequency band, which provides more available spectrum bandwidth. The WiGig specification defines the physical layer for transmitting data as well as protocol layers to implement interfaces for applications like HDMI and USB wirelessly. It is well suited for applications requiring high speed data transfer such as wireless docking and storage.
This document discusses Huawei's GPON (Gigabit-capable Passive Optical Network) technology. It begins with an overview of GPON's evolution from narrowband to gigaband broadband, describing how access technologies have increased bandwidth capabilities over time. It then covers key aspects of GPON including its advantages over copper networks like longer transmission distances and lower costs. The document explains GPON concepts, parameters, frame encapsulation methods and the ITU-T standards that define GPON. It also provides examples of Huawei's OLT equipment and GPON's role in heterogeneous access networks.
This document provides product specifications for a nine-band, 1.25W-to-2W software-defined remote unit (SDRU) that operates across multiple 3GPP bands from 600MHz to 2.5GHz. The SDRU can be upgraded remotely through software to add new bands or increase power for existing bands. It uses two separate units for low and high bands to take advantage of better propagation for low bands.
The document discusses point-to-multipoint microwave backhaul networks using Cambridge Broadband Networks' VectaStar solution. It provides advantages over traditional point-to-point networks including lower costs, higher throughput with less spectrum usage, and dynamic resource allocation. Case studies show how VectaStar can deliver blanket coverage for cities in Africa and London using less than half the spectrum of point-to-point networks.
WLAN(802.11AX - WI-FI 6) Evolution, frequency band, channels & use casesPramod Kumar
The document discusses Wi-Fi 6 (IEEE 802.11ax), including its evolution, frequency bands, channels, and use cases. It provides information on WLANs, previous Wi-Fi standards such as 802.11n and 802.11ac, the electromagnetic spectrum, and the 2.4GHz, 5GHz, and upcoming 6GHz bands used by Wi-Fi. Examples of Wi-Fi 6 use cases mentioned are access points, wireless data offloading, TV set-top boxes, fixed wireless services, industrial automation, automotive connectivity, gaming/voice applications, and imaging.
Recently, UWB (Ultra Wide Band) has attracted a lot of attention and become one of the most promising successor for short-range wireless communication technologies. The project aims to provide a extensive knowledge about this potential technology. Not only giving a introduction, we also compared advantages and disadvantages of UWB technology with currently used standards like 802.11a/b/g, 2G Cellular, Ethernet, Bluetooth, FastEthernet in terms of power consumption, spectral density, robustness against multipath and penetration capability, data rate in short distance, carrier-less transmission, etc. Additionally, we examine current applications and potential commercial uses of UWB in the future as an evidence for the versatile of this technology.
This document provides product specifications for a nine-band, 10W-20W software-defined remote unit (SDRU) that is part of JMA Wireless' TEKO distributed antenna system platform. The SDRU supports nine 3GPP bands with independent band and power upgrades available remotely. It has features such as automatic gain control, feedforward power amplifiers for interference reduction, and alarm detection for maximum quality of service. The SDRU has an IP66 enclosure rating and supports point-to-point and cascade connections with the master unit with an optical remote link up to 20 km.
The document summarizes key aspects of GSM (Global System for Mobile Communication) technology including its history, specifications, network architecture, components, services, and future developments. Specifically, it discusses the RF spectrum used by GSM, its TDMA access method, modulation techniques, network subsystems like the MSC, HLR, VLR, authentication center, radio subsystems including the BSC and BTS. It also covers mobile station components, mobile identification numbers, call origination and termination processes, and developments like 2.5G and 3G technologies.
The document discusses parameters for planning and designing line-of-sight microwave communication links, including path loss calculations. It covers topics like survey requirements, link budget calculations, transmission concepts, tower heights, earth bulge, fresnel zones, frequency assignments and limitations of line-of-sight systems. Key aspects addressed include determining tower heights to clear obstructions along the signal path based on factors like frequency, distance, earth curvature and fresnel zone radius.
Descripcion de la tecnologia y sistemas de luz para transmitir señales
Sistemas de transmision por fibra optica, equipos de fibra optica para transmision inalambrica
The document summarizes an on-the-move command and control communication system that provides:
1) Easy-to-use, auto-acquire functionality requiring minimal training.
2) Modular and flexible equipment that can mount to a wide range of combat vehicles.
3) Durability tested to military standards to withstand harsh conditions.
La solución FTTH PON proporciona una red de fibra óptica desde el equipo central OLT hasta los equipos terminales ONT en las habitaciones utilizando splitters ópticos pasivos. Esto permite proporcionar ancho de banda alto de hasta 2.5 Gbps por habitación de manera más económica que una red de cobre, sin necesidad de equipos activos intermedios.
Get energy efficient electronic appliancesJosh Keller
Volsen online offers various kitchen appliances like a coffee maker, electric kettle, and blender that use electricity. The document provides details on the power output and features of each appliance. It also gives formulas for calculating the electricity consumption and estimated annual costs of running each appliance based on its wattage and estimated hours of daily use. The document emphasizes unplugging appliances when not in use to avoid vampire power and recommends checking if Volsen products are energy efficient to save money and help the environment.
El documento describe el sistema de transmisión ISDB-TB utilizado en Brasil. El ISDB-TB adoptó el códec MPEG-4 para duplicar la calidad de imagen utilizando la misma cantidad de ancho de banda en comparación con el sistema japonés original ISDB-T, que usa MPEG-2. El sistema transmite señales en 13 segmentos OFDM entrelazados en el tiempo y la frecuencia para proporcionar una codificación robusta y reducir errores para recepción móvil.
This document is an active learning assignment on OFDM (Orthogonal Frequency Division Multiplexing) prepared by Keerthana Nambiar for the subject of Digital Communication under the guidance of Prof. Chintan Patel at Gandhinagar Institute of Technology. It discusses why OFDM is used by explaining how its orthogonal subcarriers eliminate cross-talk. The principles and block diagram of OFDM are presented, along with its advantages like immunity to fading, resilience to interference, and simpler equalization. Disadvantages around high peak-to-average power ratios and sensitivity to carrier offsets are also noted. Applications of OFDM include digital audio/video broadcasting, wireless LAN, WiMAX, Li-Fi, LTE
Vega antena presentation 6.09 sp performance parte 1 2Carlos Yañez
Este documento proporciona especificaciones técnicas para diferentes modelos de antenas VEGA. Describe los parámetros de los reflectores, ganancia de la antena, ancho de haz, polarización y bandas de frecuencia soportadas para los modelos CC07, CC12, CP12 y Mx. También incluye gráficos de patrones de radiación y comparaciones de rendimiento con otras antenas.
Este documento describe las características y aplicaciones de una antena de alta ganancia llamada VEGA. VEGA ofrece alta ganancia, haz estrecho y bajos lóbulos laterales, lo que permite extender el alcance de las estaciones base y mejorar la cobertura en áreas remotas, carreteras y autopistas. El documento también explica cómo VEGA puede utilizarse para eliminar interferencias y mejorar la cobertura en interiores y en redes 3G.
The document provides an overview and description of Huawei's OptiX OSN 1800 Multi-Service Mini-WDM/OTN System. The OSN 1800 combines OTN and WDM features to provide unified transmission of services over WDM/OTN from 2Mbit/s to 10Gbit/s. It is designed for the edge of metropolitan layers and provides a cost-efficient solution for enterprise customers. The OSN 1800 supports multi-service access without limitations on service type, installation size, power supply, or transport capacity and distance. It offers full protection of line, client, and power supply services.
This document provides information about the PASOLINK family of digital microwave relay systems from NEC, including:
- The PASOLINK systems operate at frequency bands between 3.6-40 GHz and provide PDH, SDH, and LAN interfaces.
- The systems consist of indoor and outdoor units connected by coaxial cable and antennas. Configurations include non-protected 1+0 and protected 1+1 hot standby and twin path systems.
- Key features include high reliability, low power consumption, flexible interfaces, frequency agility, system flexibility, and maintenance facilities. Interface options include E1, E3, STM-1, and Ethernet.
WiGig is a new wireless networking technology that provides data rates up to 7Gbps, over 10 times faster than the fastest existing WiFi networks. It operates in the 60GHz frequency band, which provides more available spectrum bandwidth. The WiGig specification defines the physical layer for transmitting data as well as protocol layers to implement interfaces for applications like HDMI and USB wirelessly. It is well suited for applications requiring high speed data transfer such as wireless docking and storage.
This document discusses Huawei's GPON (Gigabit-capable Passive Optical Network) technology. It begins with an overview of GPON's evolution from narrowband to gigaband broadband, describing how access technologies have increased bandwidth capabilities over time. It then covers key aspects of GPON including its advantages over copper networks like longer transmission distances and lower costs. The document explains GPON concepts, parameters, frame encapsulation methods and the ITU-T standards that define GPON. It also provides examples of Huawei's OLT equipment and GPON's role in heterogeneous access networks.
This document provides product specifications for a nine-band, 1.25W-to-2W software-defined remote unit (SDRU) that operates across multiple 3GPP bands from 600MHz to 2.5GHz. The SDRU can be upgraded remotely through software to add new bands or increase power for existing bands. It uses two separate units for low and high bands to take advantage of better propagation for low bands.
The document discusses point-to-multipoint microwave backhaul networks using Cambridge Broadband Networks' VectaStar solution. It provides advantages over traditional point-to-point networks including lower costs, higher throughput with less spectrum usage, and dynamic resource allocation. Case studies show how VectaStar can deliver blanket coverage for cities in Africa and London using less than half the spectrum of point-to-point networks.
WLAN(802.11AX - WI-FI 6) Evolution, frequency band, channels & use casesPramod Kumar
The document discusses Wi-Fi 6 (IEEE 802.11ax), including its evolution, frequency bands, channels, and use cases. It provides information on WLANs, previous Wi-Fi standards such as 802.11n and 802.11ac, the electromagnetic spectrum, and the 2.4GHz, 5GHz, and upcoming 6GHz bands used by Wi-Fi. Examples of Wi-Fi 6 use cases mentioned are access points, wireless data offloading, TV set-top boxes, fixed wireless services, industrial automation, automotive connectivity, gaming/voice applications, and imaging.
Recently, UWB (Ultra Wide Band) has attracted a lot of attention and become one of the most promising successor for short-range wireless communication technologies. The project aims to provide a extensive knowledge about this potential technology. Not only giving a introduction, we also compared advantages and disadvantages of UWB technology with currently used standards like 802.11a/b/g, 2G Cellular, Ethernet, Bluetooth, FastEthernet in terms of power consumption, spectral density, robustness against multipath and penetration capability, data rate in short distance, carrier-less transmission, etc. Additionally, we examine current applications and potential commercial uses of UWB in the future as an evidence for the versatile of this technology.
This document provides product specifications for a nine-band, 10W-20W software-defined remote unit (SDRU) that is part of JMA Wireless' TEKO distributed antenna system platform. The SDRU supports nine 3GPP bands with independent band and power upgrades available remotely. It has features such as automatic gain control, feedforward power amplifiers for interference reduction, and alarm detection for maximum quality of service. The SDRU has an IP66 enclosure rating and supports point-to-point and cascade connections with the master unit with an optical remote link up to 20 km.
The document summarizes key aspects of GSM (Global System for Mobile Communication) technology including its history, specifications, network architecture, components, services, and future developments. Specifically, it discusses the RF spectrum used by GSM, its TDMA access method, modulation techniques, network subsystems like the MSC, HLR, VLR, authentication center, radio subsystems including the BSC and BTS. It also covers mobile station components, mobile identification numbers, call origination and termination processes, and developments like 2.5G and 3G technologies.
The document discusses parameters for planning and designing line-of-sight microwave communication links, including path loss calculations. It covers topics like survey requirements, link budget calculations, transmission concepts, tower heights, earth bulge, fresnel zones, frequency assignments and limitations of line-of-sight systems. Key aspects addressed include determining tower heights to clear obstructions along the signal path based on factors like frequency, distance, earth curvature and fresnel zone radius.
Descripcion de la tecnologia y sistemas de luz para transmitir señales
Sistemas de transmision por fibra optica, equipos de fibra optica para transmision inalambrica
The document summarizes an on-the-move command and control communication system that provides:
1) Easy-to-use, auto-acquire functionality requiring minimal training.
2) Modular and flexible equipment that can mount to a wide range of combat vehicles.
3) Durability tested to military standards to withstand harsh conditions.
La solución FTTH PON proporciona una red de fibra óptica desde el equipo central OLT hasta los equipos terminales ONT en las habitaciones utilizando splitters ópticos pasivos. Esto permite proporcionar ancho de banda alto de hasta 2.5 Gbps por habitación de manera más económica que una red de cobre, sin necesidad de equipos activos intermedios.
Get energy efficient electronic appliancesJosh Keller
Volsen online offers various kitchen appliances like a coffee maker, electric kettle, and blender that use electricity. The document provides details on the power output and features of each appliance. It also gives formulas for calculating the electricity consumption and estimated annual costs of running each appliance based on its wattage and estimated hours of daily use. The document emphasizes unplugging appliances when not in use to avoid vampire power and recommends checking if Volsen products are energy efficient to save money and help the environment.
El documento describe el sistema de transmisión ISDB-TB utilizado en Brasil. El ISDB-TB adoptó el códec MPEG-4 para duplicar la calidad de imagen utilizando la misma cantidad de ancho de banda en comparación con el sistema japonés original ISDB-T, que usa MPEG-2. El sistema transmite señales en 13 segmentos OFDM entrelazados en el tiempo y la frecuencia para proporcionar una codificación robusta y reducir errores para recepción móvil.
This document is an active learning assignment on OFDM (Orthogonal Frequency Division Multiplexing) prepared by Keerthana Nambiar for the subject of Digital Communication under the guidance of Prof. Chintan Patel at Gandhinagar Institute of Technology. It discusses why OFDM is used by explaining how its orthogonal subcarriers eliminate cross-talk. The principles and block diagram of OFDM are presented, along with its advantages like immunity to fading, resilience to interference, and simpler equalization. Disadvantages around high peak-to-average power ratios and sensitivity to carrier offsets are also noted. Applications of OFDM include digital audio/video broadcasting, wireless LAN, WiMAX, Li-Fi, LTE
Vega antena presentation 6.09 sp performance parte 1 2Carlos Yañez
Este documento proporciona especificaciones técnicas para diferentes modelos de antenas VEGA. Describe los parámetros de los reflectores, ganancia de la antena, ancho de haz, polarización y bandas de frecuencia soportadas para los modelos CC07, CC12, CP12 y Mx. También incluye gráficos de patrones de radiación y comparaciones de rendimiento con otras antenas.
Este documento describe las características y aplicaciones de una antena de alta ganancia llamada VEGA. VEGA ofrece alta ganancia, haz estrecho y bajos lóbulos laterales, lo que permite extender el alcance de las estaciones base y mejorar la cobertura en áreas remotas, carreteras y autopistas. El documento también explica cómo VEGA puede utilizarse para eliminar interferencias y mejorar la cobertura en interiores y en redes 3G.
Este documento describe las características y aplicaciones de una antena de alta ganancia llamada VEGA. VEGA ofrece alta ganancia, haz estrecho y bajos lóbulos laterales, lo que permite extender el alcance de las estaciones base y mejorar la cobertura en áreas remotas, carreteras y autopistas. El documento también explica cómo VEGA puede utilizarse para eliminar interferencias y mejorar la cobertura en interiores y aplicaciones marítimas.
Este documento presenta un catálogo de cables que incluye especificaciones técnicas de diferentes tipos de cables como cables multifilares, cables atóxicos, cables para talleres y cables de media y baja tensión. Se proporcionan detalles sobre las aplicaciones, características constructivas, normas aplicables, dimensiones y corrientes máximas admitidas de cada cable. El documento también contiene tablas sobre el dimensionamiento de cables que brindan factores de corrección para el cálculo de la sección de los cables.
El documento describe tres tipos de canales de transmisión para fibra óptica basados en la distancia máxima soportada, así como cuatro tipos de fibra óptica clasificados según sus propiedades ópticas y mecánicas. También resume las variantes Ethernet más comunes soportadas por cada tipo de fibra y canal.
El documento describe los diferentes tipos de fibra óptica y sus especificaciones para su uso en redes Ethernet a diferentes velocidades y distancias. Explica los tres canales de transmisión (OF 300, OF 500, OF 2000) en función de la distancia máxima soportada y las fibras multimodo (OM1, OM2, OM3) y monomodo adecuadas para cada canal. También resume las variantes Ethernet más comunes sobre fibra óptica indicando su velocidad, medio y distancia típica.
Este documento describe los tipos y características de las fibras ópticas, cables de fibra y componentes de conexión. Explica que las fibras ópticas monomodo se utilizan para transmisiones de larga distancia debido a su baja atenuación, mientras que las fibras multimodo se usan para redes locales debido a su menor costo y ancho de banda limitado. También cubre los conceptos clave como la atenuación, las ventanas ópticas, los conectores y las pérdidas en los enlaces de fibra.
Este documento proporciona especificaciones técnicas de varios tipos de cables coaxiales, incluyendo RG-59, RG-58, RG-62 y RG-8. Describe las características de cada cable como su conductor central, aislamiento, malla y cubierta, así como sus aplicaciones típicas, especificaciones eléctricas y mecánicas. El documento provee información detallada sobre las propiedades y usos de diferentes cables coaxiales.
El documento resume los diferentes tipos de fibra óptica, incluyendo fibras multimodo, monomodo y especiales, y describe sus aplicaciones y especificaciones según normativas. Explica que cada tipo de fibra se utiliza para un tipo de enlace en función de su longitud, velocidad de transmisión y otras características. Además, incluye anexos con fichas técnicas detalladas de los diferentes tipos de fibra.
El documento presenta definiciones básicas sobre sistemas de radio propagación y antenas. Explica conceptos como radiocomunicaciones, ondas radioeléctricas, modulación, estaciones transmisoras, emisión, canal radioeléctrico, estaciones receptoras, cobertura, ruido e interferencia. También describe diferentes tipos de cables como Heliax 1/2", LMR 400 y LMR 240 utilizados en sistemas de comunicaciones.
Este documento proporciona especificaciones técnicas para un transmisor FM de 100W. El transmisor EM 100 DIG PLUS tiene una potencia de salida nominal de 100W y un tamaño compacto. Incluye características como generador estéreo, RDS, entrada digital y telemetría web. Ofrece bajos costes de operación, construcción robusta y cumple con regulaciones técnicas.
El documento habla sobre los sistemas de transmisión por fibra óptica. Explica los parámetros de diseño como la longitud de onda, el tipo de fibra óptica y los dispositivos emisor y receptor de luz. También describe las ventajas e inconvenientes de la fibra óptica, así como sus aplicaciones comerciales como en telefonía, televisión por cable e industria. Finalmente, analiza conceptos como la relación señal/ruido y el ruido total en un sistema óptico.
El documento proporciona información sobre cables coaxiales, incluidas sus características, atenuación y especificaciones técnicas. También describe dispositivos pasivos como divisores y acopladores, y dispositivos activos como amplificadores. Explica conceptos como ecualización, control automático de ganancia y diseño de redes de distribución de señal.
Este documento contiene preguntas y respuestas sobre conceptos técnicos relacionados con la instalación de cable coaxial. Se definen términos como radio de curvatura mínimo, función del enhebrador, tensión de tiro y consecuencias de exceder la máxima tensión. También se mencionan 5 tipos de cable coaxial y sus características, así como 5 consideraciones para la instalación de cable coaxial.
Este documento presenta el diseño de una red SDH para dar servicio de 3 STM-1 y dotar a un Call Center de 2E1 por medio de una red Metro Ethernet con tecnología TDMoIP. El diseño incluye la implementación de una fibra óptica de 1240 km entre Quito, Guayaquil y Cuenca con 16 nodos de regeneración. La fibra óptica se instalará usando microzanjas según la recomendación UIT-T L.49. El costo total del proyecto es de aproximadamente $339,924.
El documento describe diferentes componentes básicos de un banco de microondas, incluyendo atenuadores variables y fijos, una T mágica, un acoplador de cruce y un acoplador direccional. También describe las ventajas y desventajas de las guías de ondas, así como diferentes tipos como guías de ondas elípticas flexibles y circulares.
Este documento describe las características y beneficios de una antena de muy alta ganancia llamada VEGA. La antena VEGA ofrece una ganancia más alta que las antenas de sector comunes, lo que permite una cobertura mejorada. También tiene una apertura de haz estrecha y bajos lóbulos laterales. Otras ventajas incluyen la diversidad de polarización, ajuste de inclinación, facilidad de instalación y bajo costo en comparación con otras soluciones. La antena VEGA puede extender el alcance efectivo
Este documento resume los principios básicos de la capa física, incluyendo los medios físicos de transmisión de información, como cables metálicos, coaxiales y de fibra óptica. También explica conceptos como modulación, multiplexación y estándares de comunicaciones como RDSI.
Este documento resume los principios básicos de la capa física, incluyendo los medios físicos de transmisión de información, como cables metálicos, coaxiales y de fibra óptica. También explica conceptos como modulación, multiplexación y estándares de comunicaciones como RDSI.
Este documento proporciona especificaciones técnicas de varios tipos de cables para telefonía interior, incluyendo cables sin blindar de categoría 2 y 3, cables con pares trenzados y cables planos. Se describen los materiales, dimensiones y aplicaciones de cada cable.
Manual de Soporte y mantenimiento de equipo de cómputos
Mimetizados 2018
1. BIV, ECO & SUPER BIV
SISTEMAS INTEGRALES
MIMETIZADOS MOYANO
(SIMMO)
Resumen de contenido:
● Trisectoress GSM / DCS / UMTS monobanda, broadband, side by side, tribanda
● Azimuth fijo o variable
● Remote control unit (RCU) y otros accesorios
● Mástiles soporte BIV, ECO y SUPER BIV a paramento, a pilar y bancada autosoportada
SISTEMAS RADIANTES MOYANO, S.A.
Para pedidos llame al 91 661 07 50
Soluciones para un mundo conectado
JUNIO / 2009
Soluciones para trisectores monobanda, bibanda y
tribanda
2. BANDAS
AMPS GSM 900 GSM 1800 PCS
Digital
CDMA
806/896MHz
Digital
TDMA
870/960MHz
Digital
TDMA
1710-1880MHz
UMTS
Digital
CDMA
1850-1990MHz
Digital
CDMA
1920-2170MHz
Bandas de frecuencias comerciales cubiertas por antenas MOYANO
Página 2
ESTRUCTURAS TRISECTORIALES
El actual desarrollo tecnológico en
telefonía celular demanda nuevas
antenas e infraestructuras compatibles
con el medio ambiente sin afectar el
normal funcionamiento de los sistemas
de antenas.
La solución propuesta por MOYANO
incluye eficaces sistemas de
mimetización de bajo impacto
medioambiental y agrupaciones de
paneles de banda ancha en
estructuras mono, bi o trisector.
Este catálogo autocontenido ofrece
una gama de antenas y soportes
completa para la ampliación o
renovación de BTS´s.
Los productos de MOYANO cubren
todas las bandas actualmente en
servicio a nivel global.
SISTEMAS RADIANTES MOYANO S.A.
Para pedidos llame al 91-6610750
3. Trisector MY-1092
Banda: DCS—UMTS
Dimensiones: Ø245 x 1850mm
Ganancia: 17.5 dBi
Apertura: 3 x 65º
Tilt: 0º – 10º variable
Soporte: Mástil BIV
Modalidades: a pared, pilar y bancada
Trisector MY-1092-ZV
Banda: DCS—UMTS
Dimensiones: Ø350 x 1460mm
Ganancia: 17.5 dBi
Apertura: 3 x 65º
Tilt: 0º – 10º variable
Azimuth variable ±20º
Soporte: Mástil ECO
Modalidades: a pared, pilar y bancada
Antenas Página 3
TRISECTORES BROADBAND
TRISECTORES TRIBANDA
Trisector MY-rocket-3-416
Banda: GSM + (DCS +UMTS) DOBLE
Dimensiones: Ø535 x 3170mm
Ganancia: 17/17.5 dBi
Apertura: 3 x 65º
Tilt: 4º – 12º variable
Azimuth variable ± 12º
Soporte: Mástil SUPER BIV
Modalidades: a pared, pilar y bancada
Trisector MY-rocket-3-415
Banda: GSM + (DCS +UMTS) DOBLE
Dimensiones: Ø535 x 3170mm
Ganancia: 17/17.5 dBi
Apertura: 3 x 65º
Tilt: 2º – 10º variable
Azimuth variable ± 12º
Soporte: Mástil SUPER BIV
Modalidades: a pared, pilar y bancada
4. Trisector MY-rocket-2-401
Banda: (DCS—UMTS) DOBLE
Dimensiones: Ø535 x 1975mm
Ganancia: 17.2 dBi
Apertura: 3 x 65º
Tilt: 2º – 10º variable
Azimuth variable ± 12º
Soporte: Mástil SUPER BIV
Modalidades: a pared, pilar y bancada
Trisector MY-rocket-3-422
Banda: GSM + (DCS +UMTS) DOBLE
Dimensiones: Ø535 x 2155mm
Ganancia: 14/17.5 dBi
Apertura: 3 x 65º
Tilt: 4º – 12º variable
Azimuth variable ± 12º
Soporte: Mástil SUPER BIV
Modalidades: a pared, pilar y bancada
AntenasPágina 4
TRISECTORES SIDE BY SIDE
5. Antenas Página 5
TRISECTORES ESPECIALES
Trisector MY-1775
Banda: GSM + UMTS
Dimensiones: Ø245 x 1950mm
Ganancia: 14/14 dBi
Apertura: 3 x 65º
Tilt: GSM 4ºUMTS: 1º fijo
Soporte: Mástil BIV
Modalidades: a pared, pilar y bancada
Trisector MY-1776
Banda: GSM (OMNI) + DCS—UMTS
Dimensiones: Ø245 x 2100mm
Ganancia: 9/14 dBi
Apertura: 360º / 3 x 65º
Tilt: GSM 4º / DCS—UMTS 0º-10º VAR
Soporte: Mástil BIV
Modalidades: a pared, pilar y bancada
Trisector MY-1777
Banda: GSM + DCS—UMTS
Dimensiones: Ø245 x 2100mm
Ganancia: 14/15 dBi
Apertura: 3 x 65º
Tilt: GSM 4º/ DCS—UMTS 0º-10º VAR
Soporte: Mástil BIV
Modalidades: a pared, pilar y bancada
Trisector MY-rocket 220
Banda: DCS—UMTS
Dimensiones: Ø200 x 1300mm
Ganancia: 17.5 dBi
Apertura: 3 x 65º
Tilt: 4º ó 6º fijo
Soporte: Mástil BIV
Modalidades: a pared, pilar y bancada
6. Mástiles soportePágina 6
SOPORTE BIV BANCADA
Alturas: 1/2/3/4 ó 5 m
Diámetro: Ø220mm
Bases: 2.2/2.5/2.8/3.0 ó 3.3 m
Contrapesada
Tubo de acero galvanizado y pintado
Terminación en sombrerete
Antenas: MY-1775/6/7, 1092 & Rocket-220
SOPORTE BIV PILAR
Alturas: 1/2/3/4 ó 5 m
Diámetro: Ø220mm
Sobre pilar mínimo de 150 Kg/m2
Autosoportado
Tubo de acero galvanizado y pintado
Terminación en sombrerete
Antenas: MY-1775/6/7, 1092 & Rocket-220
SOPORTE BIV PARAMENTO (pared)
Alturas: 1/2/3/4 ó 5 m
Diámetro: Ø220mm
Anclada a muro de hormigón o ladrillo
Salida de cables por la parte inferior
Tubo de acero galvanizado y pintado
Terminación en sombrerete
Antenas: MY-1775/6/7, 1092 & Rocket-220
SOPORTE ECO PARAMENTO (pared) mf-xxpr
Alturas: Tramos de 1 hasta 5m. Base 0.3m
Diámetro: Ø350mm
Sobre azotea mínimo de 150 Kg/m2
Salida de cables por base
Tubo de acero galvanizado y pintado
Terminación en sombrerete
Antenas: MY-1092-ZV
BIV
ECO
7. Mástiles soporte Página 7
SOPORTE SUPER BIV PILAR
Alturas: 1/2/3/4 ó 5 m
Diámetro: Ø535mm
Tubo de acero galvanizado y pintado
Terminación en sombrerete
Antenas: MY-2-401, 3-415, 416 & 422
SOPORTE SUPER BIV PARAMENTO (pared)
Alturas: 1/2/3/4 ó 5 m
Diámetro: Ø535mm
Bases: 2.5/2.8/3.0/3.3/3.6 m
Contrapesada
Tubo de acero galvanizado y pintado
Terminación en sombrerete
Antenas: MY-2-401,3-415, 416 & 422
SOPORTE ECO PILAR mf-xxP
Alturas: Tramos de 1 hasta 5m
Diámetro: Ø350mm
Sobre pilar mínimo de 150 Kg/m2
Salida de cables por base
Tubo de acero galvanizado y pintado
Terminación en sombrerete
Antenas: MY-1092-ZV
SOPORTE ECO BANCADA mf-xxB
Alturas: Tramos de 1 hasta 5m. Base 0.3m
Diámetro: Ø350mm
Sobre azotea mínimo de 150 Kg/m2
Salida de cables por base
Tubo de acero galvanizado y pintado
Terminación en sombrerete
Antenas: MY-1092-ZV
SUPER BIV
8. Mástiles soportePágina 8
AREA DE SERVICIO
Los trisectores pueden albergar en su base una
zona para la conexión de latiguillos, TMA´s o
RCU´s. Para ello se dispone de un área de
servicio.
SOPORTE SUPER BIV BANCADA
Alturas: 1/2/3/4 ó 5 m
Diámetro: Ø535mm
Bases: 2.5/2.8/3.0/3.3 & 3.6m
Contrapesada
Tubo de acero galvanizado y pintado
Terminación en sombrerete
Antenas: MY-2-401,3-415, 416 & 422
AREA DE SERVICIO
10. BASE STATION ANTENNAS GSM900 & DCS & UMTS
CROSS-POLARIZATION
DIRECTIONAL PANEL BROADBAND
TRISECTOR ANTENNA (VET)
TECHNICAL
PERFORMANCE
MY- ROCKET-1092
• Frequency Bands 1710-1880 MHz 1850-1990 MHz 1900 ÷ 2170 MHz
• Gain 17.0 dBi 17.5 dBi 18 dBi
• VSWR < 1.5 ÷ 1
• H Beamwidth 66º 64º 62º
• V Beamwidth 6º 5.7º 5.4º
• Polarization +/- 45º
• Power Handling 160 W
• Impedance 50 Ω
• Isolation intraband > 30 dB
• Isolation intersector >40 dB
• Electrical Tilt (*)
Continuously Adjustable 0º - 10º
• F/B Copolar > 25 dB > 25 dB > 25 dB
• 1st Upper Sidelobe Supp. > 16 dB > 16 dB > 16 dB
• Connector 6 x DIN 7/16 (F) socket at bottom
• Intermodulation (2 x 20 W) <-110dBm
• Lightning Protection DC Grounded
• Dimensions 1850x245 mm
• Weight 25 Kg
• Radome material Grey Styrosun
• Wind Load Side: 95 Kg @ 160 Km/h
(*) RET Ericsson & AISG compliant
11. BASE STATION ANTENNAS
CROSS-POLARIZATION
DUAL POLARISED TRISECTOR
AZIMUTH VARIABLE ANTENNA
ELECTRICAL
PERFORMANCE
MY-1092-ZV
• Frequency Bands 1710 ÷ 2170 MHz
• Gain 3 x 17.5 dBi
• H Beamwidth 65º
• V Beamwidth 6º
• Azimuth Variable ± 20º
• Polarization ± 45º
• Electrical Tilt 0º to 10º
• Power Handling 6 x 200 W
• VSWR < 1.5 ÷ 1
• Isolation > 30 dB
• Impedance 50 Ω
• Front to Back Ratio > 25 dB
• 1
st
Upper Sidelobe Supp. > 15 dB
• Intermodulation < -110 dBm 2 x 20 w
• Connector 6 x DIN 7/16 (F) Bottom
• Lightning Protection DC Grounded
• Length 350 Ø x 1457 mm
• Weight 47 Kg antenna
• Survival wind speed 208 Km/h
• Radome material Grey Fiberglass
• Wind Loading 25 Kg @ 160 Km/h
• Temperature range -55ºC to +70ºC
Azimuth plot showing 3 sectors Vertical pattern for 2º
12. BASE STATION ANTENNAS GSM900 & DCS & UMTS
DUAL POLARIZATION
TRIPLE BAND (870-960/1710-2170/1710-2170)
TRISECTOR ANTENNA
(VARIABLE AZIMUTH)
(*) RET AISG & Ericsson compliant
MECHANICAL SPECIFICATIONS
for MY-Rocket 3-415 VAFS(**)
Reference Azimuth Diam. Weight
Wind Load
@ 160Km/h
Wind
Survival
MY-Rocket 3-415 VAFS
Variable
(±12º)
535
[mm]
155
[Kg]
167
[Kg]
200
[Km/h]
TECHNICAL
PERFORMANCE
MY – ROCKET 3-415
GSM 900 BROADBAND 1 & BROADBAND 2
1710 ÷ 2710
MHz
1710 ÷ 2710
MHz
• Frequency Bands 870 ÷ 960
MHz
DCS UMTS DCS UMTS
• Gain 17.0 dBi
17.3
dBi
17.6
dBi
17.3
dBi
17.6
dBi
• VSWR (50Ω) < 1.6 ÷ 1 (< 1.5 ÷ 1 typ.)
• H Beamwidth (-3dB) 69º±4º 65º±4º 60º±4º 65º±4º 60º±4º
• V Beamwidth (-3dB) 6.8º 6.5º 6.0º 6.5º 6.0º
• Polarization +/- 45º
• Power Handling 6 x 500 W per sector (CW)
• Intraband Isolation > 28 dB (30dB typ)
• Intersector Isolation > 35 dB > 50 dB
• Electrical Tilt(*)
Continuously Adjustable 2º - 10º
Set by hand or by optional RCU (external)
• F/B Copolar > 25 dB
> 25
dB
> 30
dB
> 25
dB
> 30
dB
• 1st Upper Sidelobe > 18 dB
> 20
dB
> 18
dB
> 20
dB
> 18
dB
• Connector 6 x 7/16 (F) DIN per sector (socket at bottom)
• Intermodulation (IM3) (2 x 20 W) < -150dBc
• Lightning Protection DC Grounded
13. BASE STATION ANTENNAS GSM900 & DCS & UMTS
DUAL POLARIZATION
TRIPLE BAND (870-960/1710-2170/1710-2170)
TRISECTOR ANTENNA
(VARIABLE AZIMUTH)
(*) RET AISG & Ericsson compliant
MECHANICAL SPECIFICATIONS
for MY-Rocket 3-416 VAFS(**)
Reference Azimuth Diam. Weight
Wind Load
@ 160Km/h
Wind
Survival
MY-Rocket 3-416 VAFS
Variable
(±12º)
535
[mm]
155
[Kg]
167
[Kg]
200
[Km/h]
TECHNICAL
PERFORMANCE
MY – ROCKET 3-416
GSM 900 BROADBAND 1 & BROADBAND 2
1710 ÷ 2710
MHz
1710 ÷ 2710
MHz
• Frequency Bands 870 ÷ 960
MHz
DCS UMTS DCS UMTS
• Gain 17.0 dBi
17.3
dBi
17.6
dBi
17.3
dBi
17.6
dBi
• VSWR (50Ω) < 1.6 ÷ 1 (< 1.5 ÷ 1 typ.)
• H Beamwidth (-3dB) 69º±4º 65º±4º 60º±4º 65º±4º 60º±4º
• V Beamwidth (-3dB) 6.8º 6.5º 6.0º 6.5º 6.0º
• Polarization +/- 45º
• Power Handling 6 x 500 W per sector (CW)
• Intraband Isolation > 28 dB (30dB typ)
• Intersector Isolation > 35 dB > 50 dB
• Electrical Tilt(*)
Continuously Adjustable 4º - 12º
Set by hand or by optional RCU (external)
• F/B Copolar > 25 dB
> 25
dB
> 30
dB
> 25
dB
> 30
dB
• 1st Upper Sidelobe > 18 dB
> 20
dB
> 18
dB
> 20
dB
> 18
dB
• Connector 6 x 7/16 (F) DIN per sector (socket at bottom)
• Intermodulation (IM3) (2 x 20 W) < -150dBc
• Lightning Protection DC Grounded
14. BASE STATION ANTENNAS GSM900 & DCS & UMTS
DUAL POLARIZATION
TRIPLE BAND (870-960/1710-2170/1710-2170)
TRISECTOR ANTENNA
(VARIABLE AZIMUTH)
(*) RET AISG & Ericsson compliant
MECHANICAL SPECIFICATIONS
for MY-Rocket 3-422 VAFS(**)
Reference Azimuth Diam. Weight
Wind Load
@ 160Km/h
Wind
Survival
MY-Rocket 3-422 VAFS
Variable
(±12º)
535
[mm]
122
[Kg]
114
[Kg]
200
[Km/h]
TECHNICAL
PERFORMANCE
MY – ROCKET 3-422
GSM 900 BROADBAND 1 & BROADBAND 2
1710 ÷ 2710
MHz
1710 ÷ 2710
MHz
• Frequency Bands 870 ÷ 960
MHz
DCS UMTS DCS UMTS
• Gain 14.0 dBi
17.3
dBi
17.6
dBi
17.3
dBi
17.6
dBi
• VSWR (50Ω) < 1.6 ÷ 1 (< 1.5 ÷ 1 typ.)
• H Beamwidth (-3dB) 69º±4º 65º±4º 60º±4º 65º±4º 60º±4º
• V Beamwidth (-3dB) 11º 6.5º 6.0º 6.5º 6.0º
• Polarization +/- 45º
• Power Handling 6 x 500 W per sector (CW)
• Intraband Isolation > 28 dB (30dB typ)
• Intersector Isolation > 35 dB > 50 dB
• Electrical Tilt(*)
Continuously Adjustable 4º - 12º
Set by hand or by optional RCU (external)
• F/B Copolar > 25 dB
> 25
dB
> 30
dB
> 25
dB
> 30
dB
• 1st Upper Sidelobe > 18 dB
> 20
dB
> 18
dB
> 20
dB
> 18
dB
• Connector 6 x 7/16 (F) DIN per sector (socket at bottom)
• Intermodulation (IM3) (2 x 20 W) < -150dBc
• Lightning Protection DC Grounded
15. BASE STATION ANTENNAS DCS+UMTS
DUAL POLARIZATION
DUAL-BROADBAND (1710-2170/1710-2170)
TRISECTOR ANTENNA
(VET – FIXED or VARIABLE AZIMUTH)
TECHNICAL
PERFORMANCE
MY – ROCKET 2-401
• Frequency Bands
Broadband 1
1710 ÷ 2170 MHz
Broadband 2
1710 ÷ 2170 MHz
• Gain 17.2 dBi 17.2 dBi
• VSWR (50Ω) < 1.6 ÷ 1 (< 1.5 ÷ 1 typ.)
• H Beamwidth (-3dB) 65º±5º 65º±5º
• V Beamwidth (-3dB) 7.3º 7.3º
• Polarization +/- 45º
• Power Handling 4 x 500 W per sector (CW)
• Intraband Isolation > 28 dB (30dB typ)
• Intersector Isolation > 50 dB > 50 dB
• Electrical Tilt(*)
Continuously Adjustable 2º - 10º
Set by hand or by optional RCU (external)
• F/B Copolar > 25 dB > 25 dB
• 1st Upper Sidelobe > 18 dB > 18 dB
• Connector
4 x 7/16 (F) DIN per sector (socket at
bottom)
• Intermodulation (IM3) (2 x 20 W) < -150dBc
• Lightning Protection DC Grounded
(*) RET AISG & Ericsson compliant
MECHANICAL SPECIFICATIONS
for MY-Rocket 2-401 VAFS(**)
Reference Azimuth Diam. Length Weight
Wind Load
@ 160Km/h
Wind
Survival
MY-Rocket 2-401 VAFS
Variable
(±12º)
535
[mm]
1975
[mm]
105
[Kg]
103
[Kg]
200
[Km/h]
16. BASE STATION ANTENNAS GSM900 & UMTS
DUAL POLARIZATION
DUAL BAND (870-960/1900-2170)
TRISECTOR ANTENNA
ELECTRICAL
SPECIFICATIONS
MY – ROCKET 1775
• Frequency Bands 870 ÷ 960 MHz 1900 ÷ 2170 MHz
• Gain 14 dBi
• VSWR < 1.5 ÷ 1
• H Beamwidth 3 x 85º 3 x 65º
• V Beamwidth 15º 15º
• Polarization +/- 45º
• Power Handling 4 x 200 W per sector
• Impedance 50 Ω
• Isolation 25 dB typ 25 dB typ
• Electrical Tilt 4º 1º
• Front to Back Ratio > 17 dB > 27 dB
• Upper sidelobe > 18 dB > 15 dB
• Connector 4 x N(F) per sector
• Lightning Protection DC Grounded
• Radome material Glass Fibber
• Temperature range -40ºC to +70ºC
MECHANICAL SPECIFICATIONS (*)
Reference
Mechan.
Interface
Service
Area
Azimuth
Diam.
[mm]
Lenght
Weight
[kg]
Wind Load [Kg]
@ 160Km/h
Wind Survival
[Km/h]
MY-Rocket 1775 FAFS Flange Short Fixed 200 1950 20 48 200
(*) Consult SIMMO Trisectorial Structure Summary
17. BASE STATION ANTENNAS GSM900+DCS/PCS+UMTS
DUAL POLARIZATION
DUAL BAND 870-960 (14dBi) / 1710-2170 (15dBi)
SMALL DIAMETER (245 mm)
DUAL POL OMNIDIRECTIONAL ANTENNA FOR GSM900
DUAL POL TRISECTOR ANTENNA FOR 3G (1710-2170)
ELECTRICAL
SPECIFICATIONS MY – ROCKET 1776
• Frequency Bands 870 ÷ 960 MHz 1710 ÷ 2170 MHz
• Gain 9dBi as OMNI 15dBi Trisector
• VSWR < 1.5 ÷ 1
• H Beamwidth OMNI 360º 3 x 65º
• V Beamwidth 16º 14º
• Polarization +/- 45º
• Power Handling 200 W per connector
• Impedance 50 Ω
• Isolation (Typical)
20 dB Rx band
30 Tx band
30 dB
• Electrical Tilt Fixed 4º Variable 0º-10º
• Front to Back Ratio N/A > 25 dB
• Upper sidelobe > 15 dB > 15 dB
• Connectors 2 x N(F)
2 x 7/16(F) per
sector
• Lightning Protection DC Grounded
• Radome material Fiberglass
• Temperature range -40ºC to +70ºC
MECHANICAL SPECIFICATIONS (*)
Reference Azimuth
Diam.
[mm]
Lenght
Weight
[kg]
Wind Load [Kg]
@ 160Km/h
Survival
Windspeed
[Km/h]
MY-Rocket 1776 Fixed 245 2100 30 80 200
18. BASE STATION ANTENNAS GSM900+DCS/PCS+UMTS
DUAL POLARIZATION
DUAL BAND 870-960 (14dBi) / 1710-2170 (15dBi)
SMALL DIAMETER (245 mm)
FT/VT TRISECTOR ANTENNA
ELECTRICAL
SPECIFICATIONS MY – ROCKET 1777
• Frequency Bands 870 ÷ 960 MHz 1710 ÷ 2170 MHz
• Gain 14dBi 15dBi
• VSWR < 1.5 ÷ 1
• H Beamwidth 3 x 85º 3 x 65º
• V Beamwidth 15º 7º
• Polarization +/- 45º
• Power Handling 200 W per connector
• Impedance 50 Ω
• Isolation 25 dB typ 30 dB typ
• Electrical Tilt Fixed 4º Variable 0º-10º
• Front to Back Ratio > 17 dB > 25 dB
• Upper sidelobe > 18 dB > 15 dB
• Connectors 2 x N(F) per sector
2 x 7/16(F) per
sector
• Lightning Protection DC Grounded
• Radome material Fiberglass
• Temperature range -40ºC to +70ºC
MECHANICAL SPECIFICATIONS (*)
Reference Azimuth
Diam.
[mm]
Lenght
Weight
[kg]
Wind Load [Kg]
@ 160Km/h
Survival
Windspeed
[Km/h]
MY-Rocket 1777 Fixed 245 2100 30 90 200
19. BASE STATION ANTENNAS GSM900 & UMTS
DUAL POLARIZATION
BROADBAND (1710-2170 MHz)
TRISECTOR ANTENNA
MECHANICAL SPECIFICATIONS (*)
Reference Azimuth
Diam
[mm].
Length
[mm]
Weight[
Kg]
Wind Load [Kg]
@ 160Km/h
Wind [Km/h]
Survival
MY-Rocket 220 FAFS Fixed 200 1300 18.5 25 200
ELECTRICAL
PERFORMANCE
MY-ROCKET-220
• Frequency Bands 1710 ÷ 2170 MHz
• Gain 17.5 dBi
• VSWR < 1.4÷ 1
• H Beamwidth 65º
• V Beamwidth 8º
• Polarization +/- 45º
• Power Handling 6 (7/16 (F)) x 200 W
• Impedance 50 Ω
• Isolation > 30 dB
• Isolation Intersector >40 dB
• Electrical Tilt 4º or 6º
• Front to Back Ratio > 28 dB
• Upper Sidelobe > 18 dB >17 dB
• Lightning Protection DC Grounded
• Radome material UV resistant ABS
• Temperature range -55º to +70ºC
20. MOYANO comenzó sus actividades en el año 1960 como empresa
especialista en el diseño y desarrollo de antenas profesionales de gran
potencia para centros emisores y reemisores. Ofrece el diseño,
suministro e instalación de antenas, multiplexores, filtros y componentes
de sistemas radiantes. Dispone de soluciones estándar y a medida para
sistemas de baja, media y alta potencia, obteniendo la ganancia,
alcances y cobertura que se precisan. Su gama de productos abarca:
onda media y bandas I, II, III, IV/V (44-806 MHz), telefonía móvil
multibanda, estructuras metálicas y soluciones de mimetización.
Asímismo ha desarrollado soluciones para DAB y DVB-T/H.
Teléfono: +34-91-6610750
Fax: +34-91-6615447
www.moyano.com
C/ La Cañada, 53 bloque 27
Torrejón de Ardoz
28850 Madrid
España
SISTEMAS RADIANTES MOYANO S.A.
Para pedidos llame al 91-6610750
Vista comparativa de una Solución Mimetizada Moyano (izquierda) junto
con dos BTS tradicionales