Delivering high-speed data from Point A to Point B has never been easier. With the Canopy wireless broadband solutions from Motorola, enterprises, carriers and ISPs can easily connect expansive IP networks to form a cohesive system. Delivering an outstanding ROI and superior performance, the Canopy platform possess exceptional interference mitigation techniques and multiple layers of security. The components can be configured to form point-to-point network connections for use in wireless point-to-point, bridging, channelized T1 (voice & data) and other data applications. Boasting ease of use, fast deployment and remote management, the Canopy point-to-point portfolio is available in two series to meet a variety of connectivity challenges.

Soluciones Punto a Punto con linea de vista (10 y 20 Mbps):

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Make use of Motorola’s proprietary modulation scheme to deliver high-speed bandwidth across distances of up to 35 miles (56 kilometers). These solutions support both DES and AES for enhanced security and are uniquely suited for delivering consistent throughput in line-of-sight configurations. The Line of Sight Point-to-Point are available in a broad range of frequencies (2.4, 5.1, 5.2, 5.4 and 5.7 GHz).


Soluciones Punto a Punto de Canopy OFDM (30, 60, 150 Y 300 Mbps):

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These solutions enable users to achieve greater throughput and reach longer distances in Line of Sight (LoS) environments as well as establish reliable links in challenging near-LoS and Non-LoS conditions. Spanning distances of up to 124 miles (200 kilometers), the OFDM Point-to-Point are available in the 5.7 GHz frequency and feature:

• Dynamic frequency selection, which automatically changes channels to avoid interference and combat link fading without user intervention.
• Adaptive modulation to ensure maximum throughput optimized for the radio path even as path characteristics change.
• Built-in security protection via a complex proprietary signal with scrambling applied.
• Multi-beam space time coding, which transmits two redundant signals spaced in time to bring multi-path signals into phase and resulting in less fade margins than conventional radio