Cell-Site Gateways

RAD’s ACE-3100 and ACE-3200 cell-site gateways (CSGs) connect one or several base stations (BTSs) and node Bs, over shared access lines, to ATM, SDH/SONET or PSN backbones. Featuring “Any-Service-Any-Port” functionality, RAD’s ACE CSGs incorporate flexible port configuration to allow grooming of circuit-emulated (CES) TDM E1/T1s, fractional E1/T1 UNIs or several IMA links into a single IMA, STM-1/OC-3 or Fast Ethernet network interface. Incorporating pseudowire technology with high precision clock recovery and clock distribution capabilities, they support effective delivery of 2G TDM and 3G ATM services over Ethernet, IP or MPLS networks.

• Expand network capacity and enable controlled introduction of 3G services with no additional capital investments in infrastructure

• Reduce CapEx using economical STM-1/OC-3 ports in the transport network

• Lower OpEx by aggregation and optimization of deployed SDH/ATM equipment, reducing overall number of network links

• Improve network efficiency by employing statistical traffic multiplexing, performance monitoring and end-to-end QoS attributes, requiring fewer technician truck rolls

• Enable cost effective multi-generation service integration and efficient handling of real-time and delay-tolerant traffic over any transport

• Support balanced migration to PSN backhaul

• Save on 2G/3G colocation costs with smallest devices in the market

The ACE-3100 and ACE-3200 connect one or several base stations (BTSs) and node Bs to ATM, SDH/SONET or PSN backbones, over shared access lines. Featuring “any service any port” functionality, RAD’s ACE CSGs incorporate flexible port configuration to allow aggregation of circuit-emulated (CES) TDM E1/T1s, fractional E1/T1 UNIs or several IMA links into a single IMA, STM-1/OC-3 or Fast Ethernet network interface.

This minimizes the number of overall network links and facilitates the use of lower-priced, higher bit-rate STM-1/OC-3 ports in network edge switches, instead of costly E1/T1 links or deployment of additional switches. Mobile operators can therefore allocate their backhaul resources more effectively and reduce the number of leased services required to support their networks, consequently lowering their backhaul capital expenditures (CapEx).

Furthermore, by supporting inherent ATM QoS attributes, RAD’s RAN backhaul solutions enable service differentiation and traffic engineering, including prioritization, shaping and scheduling. Together with ATM’s statistical multiplexing nature, this allows operators to optimize network utilization by implementing overbooking strategies, thereby reducing service costs and operating expenditures (OpEx).