SDMSU
Multi-Services and Signal Processing Unit Solution For Microwave and Millimeter-wave Radios
SDMSU is a flexible, low-cost, feature-rich platform delivering ultra-high capacities while supporting multiple radio transmission technologies
A Flexible, Powerful, and Future-Resilient Multi-Services and Signal Processing Unit Solution
This SDMSU is a flexible, low-cost, feature-rich Multi-Services and Signal Processing Unit solution for microwave and millimeter-wave radios in the global telecommunications market. The SDMSU platform delivers ultra-high capacities while supporting multiple radio transmission technologies, network topologies and deployment configurations.
- • 1RU Standalone for up to 4 Carriers up to 500 MHz each.
- • Modulations up to 4096 QAM.
- • Low Latency.
- • Aggregate Data rates over 10 Gbps
- • 10G/2.5G/1G/100M CPRI/E1/T1/STM-1 Interfaces.
- • Co-Processors for Applications development.
- • Supports Customized NMS, SNMP.
Key Product Benefits
Boost Performance Today, Support Evolving Requirements Tomorrow
Nodal configuration supports a rich set of Carrier Ethernet advanced switching capabilities as well as multi-service TDM transport, enabling operators to boost performance in today’s networks, while providing a cost-effective path to emerging requirements.
Maximize Network Reliability with Flexible Protection Configurations
SDMSU is designed to support flexible payload types and data rates, as well as payload switching, in 1+0 unprotected, 2+0 east/west, 4+0 east/east, and 1+1 protected configurations. Complex trunking networks in 8+0/N+1 configurations are supported.
High Capacity and Frequency Diversity with Minimal Equipment
Supports up to 4 ODUs interfaced in a 1RU chassis. In addition to supporting standard microwave ODUs, optional interfaces include millimeter wave ODU and multi-channel ODUs and supports non-contiguous channels with carrier aggregation.
Supervise SDMSU with Ease
Browser User Interface (BUI) and Simple Network Management Protocol (SNMP) allow convenient remote monitoring and integration into existing networks.
