A mobile communication base station is the radio facility that covers a specific area and enables data transmission between mobile phones and the core network. It is the frontline of the entire mobile network.

Across 2G, 3G, 4G, and 5G networks, the typical connection path is:
Mobile Phone → Base Station → Transmission Network → Core Network

The base station is responsible for transmitting, receiving, and coordinating wireless signals. It determines network coverage, capacity, and data rate.

The towers and white antennas seen outdoors are not the full base station.

A complete mobile base station typically includes:

BTS/NodeB/eNodeB/gNodeB (radio transceivers)

BBU (baseband unit) and RRU (remote radio unit)

Power system and backup battery system

Cooling, monitoring, lightning protection, and other infrastructure

Indoor shelter or outdoor telecom cabinet (such as EverExceed Outdoor Integrated Telecom Cabinet)

As mobile generations evolve, the architecture has changed:

2G/3G: BTS/NodeB + BSC/RNC, long feeder cables, large equipment rooms

4G: Widespread BBU + RRU distributed architecture

5G: CU/DU split and AAU with integrated Massive MIMO antennas

2. Basic Structure of a Mobile Communication System

A typical mobile communication system consists of three major subsystems:

1. Radio Subsystem (RSS)

Includes:

BSS (BSC + BTS) / RAN (BBU + RRU/AAU)

Mobile Stations (MS)

It manages the air interface, signal transmission, and radio resource allocation.

2. Network Switching Subsystem (NSS)

Includes MSC, HLR, VLR, etc.
This subsystem is the “brain” of the mobile network and is responsible for:

Call routing

User authentication

Roaming

Data interaction

3. Operation and Support System (OSS)

Responsible for:

Network monitoring

Alarms and maintenance

Equipment status management

3. Evolution of Base Station Architecture (2G → 5G)

 1. 2G/3G: Room-Based Integrated or Distributed Architecture

Antennas on towers, BTS/BBU in equipment rooms

Long feeder cables

High construction cost for equipment rooms

2. 4G: Distributed Architecture + C-RAN Emerges

BBU and RRU separation

BBU pooling becomes possible

Fiber replaces feeder cables, greatly reducing signal loss

3. 5G: CU/DU Separation + AAU Integration

More flexible functional split

AAU integrates antenna + radio unit

Higher requirements for power, thermal management, and equipment integration

4. The Rise of Small Cells: Essential for High-Traffic 5G Scenarios

As 5G brings higher bandwidth and denser user scenarios, macro sites alone cannot meet all capacity demands.
Small cells have therefore become a key supplement.

Key features of small cells:

Compact size and low power consumption

Flexible indoor/outdoor deployment

Improve network capacity and enhance weak coverage

Typical application scenarios:

Shopping malls, office buildings, hotels

Metro stations, airports, railway stations

Stadiums, campuses

Streets, residential communities, parking areas

Small cells are often deployed together with DAS (Distributed Antenna Systems) to further improve coverage and capacity.

5. The Importance of Base Station Infrastructure (Linking to EverExceed Value)

Whether macro sites or small cells, all base stations rely on robust infrastructure including:

Power and backup systems (APS / lithium battery systems)

Cooling systems (air conditioners / heat exchangers)

Lightning, waterproofing, explosion-proof, and corrosion-resistant design

Monitoring and remote management systems

Equipment rooms or outdoor telecom cabinets

As 5G site density increases, traditional equipment rooms are no longer practical—outdoor integrated telecom cabinets have become the mainstream solution.

6. EverExceed Solutions for Modern Base Stations

As a global provider of telecom power systems and outdoor cabinets, EverExceed offers a complete portfolio for base station deployment:

1. Outdoor Integrated Telecom Cabinets

IP55 / IP65 protection level

Supports integration of power, BBU/RRU, transmission equipment

Ideal for macro sites, small cells, and edge sites

2. Telecom Power System

High-efficiency rectifiers

Reliable DC distribution modules

Supports AC/DC hybrid input

3. Lithium Battery Backup Systems

High capacity, long lifecycle, excellent cycling performance

Compatible with 5G small cell and macro station backup requirements

4. Environmental Monitoring System (EMS)

Real-time monitoring of temperature, humidity, door access, smoke, alarms

Supports remote control and maintenance

Reduces O&M cost and minimizes on-site visits

EverExceed’s integrated base station solutions help operators and system integrators achieve faster deployment, lower costs, and long-term network reliability.