The 3.5GHz CBRS band can be used to improve wireless broadband access and performance in the US. Comprising 150 MHz of 3.5 GHz shared spectrum. Ericsson's CBRS radios are capable of delivering nLos (near line of sight) and NLos (non line of sight) connections.
CBRS enables both traditional service providers and alternative operators/new industry entrants to deliver LTE services. Cable Operators, enterprises, manufacturers, etc. can expand their offerings and deliver LTE networks to their customers, employees, and patrons. |
MICRO 4408
The micro Radio 4408 is part of the Ericsson Radio System portfolio. Radio 4408 has best in class design, superior radio performance and power efficiency when it comes to medium range 3GPP radio products. Radio 4408 has, by use of its small and smart dimensions, support for a wide range of mounting scenarios and has a pioneering flexibility within its product segment. With the Radio 4408, Ericsson evolves the micro radio portfolio to become even more flexible thus making it easier than ever to make small and efficient single and multi-band micro radio installations.
The Radio 4408 supports installations with integrated or external antenna systems and can be connected to any of the efficient Ericsson Baseband LTE modules by use of star or cascade configurations supporting multi sector and multi band. Radio 4408 supports LTE TDD with four duplex TX/RX branches supporting up to 4 x 5 W output power.
The Radio 4408 supports installations with integrated or external antenna systems and can be connected to any of the efficient Ericsson Baseband LTE modules by use of star or cascade configurations supporting multi sector and multi band. Radio 4408 supports LTE TDD with four duplex TX/RX branches supporting up to 4 x 5 W output power.
BANDS
B38A, B40U, B42, B43, B48, B77C HW CAPACITY
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INTERFACE
MECHANICAL
ELECTRICAL Power Supply: -48VDC or 100 - 250 VAC ENVIRONMENTAL
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B48 AIR 6488
Massive Multiple-Input, Multiple-Output (MIMO) is a wireless technology that uses multiple transmitters and receivers. The technology plays an increasingly critical role in the evolution of 4G networks toward 5G, delivering the higher capacity, spectral efficiency, and faster speeds that operators and subscribers are demanding.
- Enhanced coverage - High gain adaptive beam forming
- Enhanced capacity - High order spacial multiplexing and multi-user MIMO
- Advanced RAN features - Vertical and Horizontal beam forming
- Improved network performance - Low inter-cell interference
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