The Cisco uBR MC88V Broadband Processing Engine, part number UBR-MC88V, is a versatile and high-performance cable modem interface specifically designed to meet the demands of modern broadband infrastructure. As an integral component of the Cisco uBR10012 platform, this engine supports the scalable and efficient deployment of broadband services. Designed specifically for cable internet service providers, the uBR MC88V acts as a core processing unit capable of handling substantial broadband traffic, ensuring seamless connectivity and high-speed data transfer.
The uBR MC88V enables high-density broadband aggregation by supporting multiple DOCSIS (Data Over Cable Service Interface Specification) channels. It offers compatibility with both DOCSIS 2.0 and DOCSIS 1.1 standards, along with potential upgrades to DOCSIS 3.0, making it future-proof for evolving network standards. The hardware is built to efficiently manage both downstream and upstream traffic, allowing service providers to offer reliable and fast internet services to multiple households and businesses. Its functionality includes Integrated Forward Error Correction (FEC), ensuring high data integrity and minimising packet loss over long distances.
Physically, the Cisco uBR MC88V is a modular component designed for easy installation into existing systems. Each unit supports up to 8 downstream channels and 8 upstream channels, providing a high level of broadband capacity through a single compact card. This allows for higher transmission rates and improved traffic management in densely populated service areas where demand for bandwidth is consistent. Solid build quality and reliable engineering mean that the uBR MC88V ensures exceptional operational longevity and low maintenance requirements.
EOL Technology Services provides expert support and a comprehensive selection of professional services for Cisco parts like the uBR MC88V. We offer dependable replacement parts, professional installation assistance, and technical advice, ensuring that your broadband network continues to function efficiently with minimal downtime.
