Distributed Antenna System (DAS) Market Size, Share, Opportunities, And Trends By Type (Active, Passive, Hybrid), By Component (Hardware, Services), By Distribution Type (Indoor, Outdoor), By Deployment (Airports, Hospitals, Commercial Buildings, Others), And By Geography- Forecasts From 2025 To 2030

Distributed Antenna System (DAS) Market Size:

The Distributed Antenna System (DAS) Market is expected to grow from US$10.166 billion in 2025 to US$14.676 billion in 2030, at a CAGR of 7.62%.

The DAS market is expected to grow at a significant pace owing to the increasing data traffic and the growing trend of connected devices with the advent of the internet of things. The rising demand from consumers for extended network coverage with uninterrupted connectivity is burgeoning the market’s growth in the forecast period. The device is highly capable of providing networks in remote areas; hence, the market holds strong potential in this application. Also, with the growing internet penetration, there is a significant increase in the number of internet subscribers, fueling the market demand in the forecast period.

• Furthermore, with the growing adoption of mobile devices such as smartphones, and tablets, the market is projected to soar in the forecast period.

The system is power efficient, hence, with the growing demand for the installation of power-efficient devices, the DAS system market will continue to grow in the forecast period. The system can be utilized for indoor and outdoor distribution of wireless connectivity. These are deployed in airports, subways, commercial buildings, roadway tunnels, and enterprises, among others. The wireless services offered by the distributed antenna system include cellular, Wi-Fi, police, fire, Personal Communications Service (PCS), and emergency services. With the upcoming 5G technology, the market is expected to thrive in the coming years. DAS is considered to be a promising technology for devices running on 5G technology.

On the basis of geography, the Asia Pacific region is expected to hold a significant market share with the growing infrastructure developments such as smart cities and green buildings, in addition to the construction of other commercial buildings.

• Increased demand for DAS system

This is majorly attributed to increased technological advancements and other creative innovations in this sector. The demand for the DAS system is poised to surge in the coming years with the growing need for connectivity in shopping malls, infrastructure development, and growing disposable income. Innovations such as the integration of well-maintained food courts are quite appealing with a variety of culinary options for the public and that too, at an affordable cost. The food & beverage sections in the malls are slowly capturing high customer traction as visitors enjoy spending their time and having delicious cuisines. Hence, the growth in the development of shopping malls despite the booming online retail sales offers high growth prospects for the market to prosper in the near future.

• DAS is classified as active, passive, or hybrid.

Passive DAS takes the cellular signal from outside and rings it inside and distributes it to the whole building. An active distribution system, on the other hand, helps in the creation of cellular signals for providing coverage. The distribution of the signal is made between a centralized signal source and remote DAS nodes placed around the building. The active system is used for accommodating large areas, for example, airports and arenas, where millions of users can access the internet in a confined space. However, the installation of an active DAS is very complex and requires a huge investment of time, infrastructure, and money.

• CommScope in-building cellular solution comprises a digital distributed antenna system (DAS) for all large and medium enterprises to provide wireless connectivity crucial for employee productivity. For building owners and managers, exceptional wireless connectivity is important for increasing the value of the property. Hence, with the evolving mobile technologies, the system provides flexibility in providing customer satisfaction. The company's digital DAS offering helps in making in-building wireless simpler, and more economical. These are operated on standard IT infrastructure, providing a high capacity of five bars of in-building coverage.

Zinwave offers a streamlined distributed antenna system for indoor connectivity.

The company’s UNItivity 5000 is the latest innovative, streamlined DAS platform manufactured for meeting in-building cellular and public safety connectivity needs. These provide up to 80% space savings in addition to 17% energy efficiency. It consists of a built-in power supply for fewer parts and a universal mounting bracket, which provides easy installation. This DAS platform provides the most cost-effective, flexible, and highest-quality solution in the market. The simple DAS solution comprises five components, which include a primary hub, a secondary hub, an optical module, a service module, and a remote unit.

• ComFlex DAS is designed for indoor distribution for both, commercial public mobile telecommunication networks and private mobile networks. The system contains two main components, namely, the Master Unit (MU), which serves as an interface for the mobile base station, and the Remote Unit (RU), which is known as the amplification unit. The DAS system makes use of a single optical fibre to support multiband and duplex operation.

This innovation is attributed to the company’s international research and development efforts, the ComFlex DAS was developed by the veteran R&D team in the United States. The module is created in Mainland China with the design refined as per customer needs in the Hong Kong R&D center.

Key attributes of the ComFlex system are listed below:

• Modular Design: This is capable of supporting a highly flexible frequency band and redundancy configuration for adapting to different scenarios and requirements, specifically in subways and railway tunnels.
• Flexible System Architecture:  This supports the daisy chain of multiple RU clusters for extension of coverage.
• High power efficient and linear amplifier technologies: patented technologies for supporting multiple technologies, multiple operators, and signal amplification, in addition to minimizing the distortion of the original signal in high-power applications.
• Robust Fanless Mechanical Design: Particularly designed for extremely harsh environments.

Since the launch of the ComFlex DAS system in the market, it has been adopted in Hong Kong’s South Island Line, and Brazil’s 2014 World Cup and 2016 Summer Games stadiums. Also, these are applied in large venues, shopping malls, high-speed railway tunnels, metros, and stadiums at the global level. Furthermore, this provides a wide-ranging wireless connection for mobile users around the globe.

Segmentation:

• By Type
  • Active
  • Passive
  • Hybrid
• By Component
  • Hardware
  • Services
• By Distribution Type
  • Indoor
  • Outdoor
• By Deployment
  • Airports
  • Hospitals
  • Commercial Buildings
  • Others
• By Geography
  • North America
    • USA
    • Canada
    • Mexico
  • South America
    • Brazil
    • Argentina
    • Others
  • Europe
    • UK
    • Germany
    • France
    • Spain
    • Italy
    • Others
  • Middle East and Africa
    • UAE
    • Saudi Arabia
    • Others
  • Asia Pacific
    • Japan
    • China
    • India
    • Australia
    • South Korea
    • Thailand
    • Taiwan
    • Others

CommScope

Corning Incorporated

Comba Telecom Systems Holdings Ltd.

SOLiD Gear, Inc.

American Tower Corporation

Boingo Wireless, Inc.

McWane, Inc.

Anixter International Inc.

TE Connectivity

Tower Bersama Group?