Baicells
Nova 436Q 3.5GHz 1W TDD Outdoor Base Station – LTE Release 13, 1 Watt (30 dBm), 4 Ports, Bands 42/43/48. Carrier Aggregation or Dual Carrier License is Not included and sold separately. CBRS and Part 96 compliant
List Price: $4,999.00
(Request quote for discounted pricing)
In Stock: 4 Available
Nova-436Q Outdoor TDD eNodeB
The Baicells Nova-436Q is a two-carrier outdoor eNodeB (eNB) that operates using standardized Long-Term Evolution (LTE) Time Division Duplexing (TDD) technology. This advanced 4x1W eNB delivers carrier aggregation (CA) across contiguous and non-contiguous channels, as defined by 3GPP. Each carrier can handle up to 20 MHz bandwidth; therefore, when aggregated the total bandwidth is 40 MHz. With Nova-436Q, you can achieve the capabilities of two eNBs with just one hardware unit. The benefits include increased capacity, better coverage, and less footprint.
Note: Future software for the 436Q will support dual carrier (split) mode, where you can run the eNB as two separate carriers, each with up to 20 MHz bandwidth.
Easy Deployment
* Suitable for private and public deployments
* Any IP based backhaul can be used, including public transmission
* Supports GPS synchronization
* Lower power consumption to reduce OPEX
* Plug-and-play with future self-organizing network (SON) capabilities
* IoT with most Evolved Packet Core (EPC) vendors
Better Performance
* Standard LTE TDD Bands 42/43/48
* Complies with 3GPP Release 13 standards
* Supports 5/10/15/20 MHz bandwidth on each carrier
* Supports 2 carriers, and will be software upgradeable to split mode and other features
* Excellent non-line-of-sight (NLOS) coverage
* Aggregate peak rate: (up to) DL 220 Mbps, UL 56 Mbps with 2×20 MHz and using all Cat6/7 UEs
* 32 concurrent users; upgradeable to higher capacity in future software releases
* Supports 4-port antenna or 2 antennas with 2 ports
Easy Management
* GUI-based local and remote Web management
* TR069 network management interface support
* Highly secured with equipment certification against potential intrusion risk