Forecast Period
|
2026-2030
|
Market Size (2024)
|
USD 6.99 Billion
|
Market Size (2030)
|
USD 23.37 Billion
|
CAGR (2025-2030)
|
22.10%
|
Fastest Growing Segment
|
Transportation & Logistics
|
Largest Market
|
South India
|
Market Overview
India 5G Chipset Market was valued
at USD 6.99 Billion in 2024 and is expected to reach USD 23.37 Billion by 2030 with a
CAGR of 22.10% during the forecast period.
A 5G chipset is a specialized semiconductor component
designed to enable devices to connect to and operate within 5G networks, the
fifth generation of wireless communication technology. These chipsets integrate
multiple functions, such as signal processing, modulation, and transmission, to
support faster data speeds, lower latency, and greater connectivity reliability
compared to previous generations like 4G.
The 5G chipset handles both the high-frequency
millimeter waves used in 5G and the lower-frequency bands, making it capable of
offering ultra-fast internet speeds, enhanced mobile broadband, and improved
device connectivity. These chipsets typically feature advanced technologies
like MIMO (Multiple Input, Multiple Output), beamforming, and carrier
aggregation, which enhance network performance and capacity.
In smartphones, tablets, and other devices, the 5G
chipset works in conjunction with software to optimize data traffic, manage
network connections, and ensure seamless communication between devices and the
network. As 5G networks evolve, chipsets also continue to incorporate support
for new 5G standards, offering better energy efficiency and supporting diverse
applications such as IoT (Internet of Things), augmented reality (AR), and
autonomous vehicles. In essence, 5G chipsets play a pivotal role in unlocking
the full potential of 5G technology across industries and consumer devices.
Key Market Drivers
Government Initiatives and Policy Support
The Indian government’s proactive approach toward the
development of 5G technology plays a crucial role in driving the growth of the
5G chipset market. Recognizing the potential of 5G to transform the country's
digital landscape and its economic benefits, the Indian government has rolled
out several initiatives to facilitate the deployment of 5G networks. These
efforts are accelerating the need for 5G chipsets across multiple industries.
One of the key drivers is the National Digital
Communication Policy (NDCP) 2018, which outlines ambitious goals to enhance
broadband connectivity across India. The policy emphasizes the need to
accelerate the adoption of 5G technology to bolster India’s digital
infrastructure. Additionally, the government has prioritized the auctioning of
5G spectrum, creating a conducive environment for telecom operators to roll out
5G networks. This directly impacts the 5G chipset market, as telecom operators
require advanced chipsets to ensure seamless network connectivity.
The Indian government has also supported the
development and manufacturing of indigenous 5G technologies through initiatives
like the Atmanirbhar Bharat (Self-Reliant India) campaign, which seeks to boost
domestic production. Under this initiative, the government is encouraging
research and development in the semiconductor and telecommunications sectors,
including 5G chipsets. By reducing reliance on foreign imports and fostering
local innovation, the policy is expected to drive the growth of the domestic 5G
chipset market. Moreover, the launch of 5G trials and pilot programs by Indian
telecom companies such as Reliance Jio, Airtel, and Vodafone Idea has provided
a practical foundation for the implementation of 5G technology across the
country. These trials are contributing to the early adoption of 5G-enabled
devices, further increasing the demand for 5G chipsets. The government’s active
involvement in both policy creation and infrastructure development provides the
necessary momentum for the 5G chipset market to thrive.
To the regulatory framework, the government’s focus on
the development of 5G use cases such as smart cities, connected transportation,
agriculture, and industrial automation is expected to generate considerable
demand for 5G chipsets. These initiatives align with India's broader economic
goals, aiming to position the country as a leader in digital technology and
innovation.
Proliferation of IoT Devices and Applications
The rapid expansion of the Internet of Things (IoT) is
one of the most significant drivers of the 5G chipset market in India. IoT,
which involves the connection of billions of devices through the internet, is
poised to revolutionize industries ranging from agriculture to healthcare,
manufacturing, and logistics. The proliferation of IoT devices requires
advanced network capabilities that 5G technology can provide, with its
high-speed data transfer and low-latency characteristics.
In India, IoT adoption is growing rapidly, driven by
the demand for smarter, more efficient technologies across various sectors. In
agriculture, for example, IoT applications are enabling smart farming solutions
such as precision irrigation, soil monitoring, and automated machinery. These
IoT systems require reliable, high-bandwidth communication to transmit data
between devices in real time. 5G chipsets, with their ability to handle a
massive number of connections and high-speed data transmission, are crucial for
the widespread deployment of IoT devices in these sectors. Similarly, in smart
cities, IoT applications such as traffic management, energy optimization, and
environmental monitoring rely on constant communication between devices and
sensors. 5G technology is well-suited to handle the massive number of IoT
devices that will be deployed in these environments, providing the necessary
infrastructure to ensure uninterrupted data flow and connectivity. This demand
for 5G-enabled IoT solutions will significantly boost the market for 5G
chipsets in India.
In the industrial sector, IoT is also driving the
demand for 5G chipsets. Industry 4.0, which focuses on automation, real-time
monitoring, and smart manufacturing, depends heavily on 5G networks to ensure
the seamless operation of connected machines and sensors. 5G chipsets are
essential for enabling the low-latency, high-speed data transfer that these
applications require. Furthermore, the growing adoption of wearables, smart
home devices, and connected healthcare technologies also contributes to the
expanding demand for 5G chipsets. As more IoT devices are developed and
deployed, the need for efficient, high-performance chipsets that can support 5G
connectivity will continue to rise, thus driving market growth. By 2025, over 100 million smart home devices, including smart thermostats, security cameras, and appliances, are expected to be deployed in Indian homes. Over 50 million industrial IoT devices (such as sensors, actuators, and connected machinery) are expected to be in use across various sectors, including manufacturing, energy, and logistics.
Technological Advancements and Miniaturization
Technological advancements and the ongoing
miniaturization of semiconductor components are key factors that are shaping
the India 5G chipset market. The development of cutting-edge technologies in
the semiconductor industry has enabled the creation of smaller, more efficient,
and cost-effective 5G chipsets. These advancements are critical in enabling the
wide-scale adoption of 5G devices, such as smartphones, tablets, IoT devices,
and wearable technology.
One of the significant trends in the 5G chipset market
is the shift towards smaller and more powerful chipsets. As semiconductor
manufacturing processes improve, chipmakers can integrate more features into
compact packages. This miniaturization allows for the production of 5G chipsets
that are not only more powerful but also consume less energy, which is
essential for mobile devices and IoT applications. Smaller chipsets also enable
manufacturers to produce more compact and lightweight devices, meeting consumer
demand for sleek and portable products. Additionally, advancements in
semiconductor fabrication technologies, such as 7nm and 5nm process nodes, have
made it possible to produce more efficient chipsets with higher performance
levels. These innovations have a direct impact on the efficiency and
capabilities of 5G chipsets. For example, the use of advanced technologies such
as System-on-Chip (SoC) architecture allows 5G chipsets to combine multiple
functionalities, such as modem, processor, and radio frequency (RF) components,
into a single compact chip. This not only reduces the size and cost of the chip
but also enhances its performance, making it more suitable for a wide range of
5G-enabled devices.
The development of 5G chipsets that support multiple
5G frequency bands and spectrum technologies, such as mmWave and sub-6GHz, also
plays a significant role in driving market growth. As more telecom operators in
India deploy 5G infrastructure, the need for chipsets that can support various
frequency bands becomes essential. This flexibility enhances the marketability
of 5G devices and contributes to the growing adoption of 5G chipsets in India.

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Key Market Challenges
High Cost of 5G Chipsets
One of the key challenges
facing the India 5G chipset market is the high cost of 5G chipsets, which can hinder
widespread adoption, especially in price-sensitive markets. While 5G technology
offers numerous benefits such as faster speeds, lower latency, and better
connectivity, the advanced chipsets required to support these capabilities come
with a significant price tag. This cost challenge affects various stakeholders,
including device manufacturers, telecom operators, and consumers, potentially
slowing the rollout of 5G networks and devices.
For device manufacturers,
the high cost of 5G chipsets directly impacts the price of 5G-enabled
smartphones and other consumer electronics. In India, where a large portion of
the population is highly price-sensitive, the premium associated with 5G-enabled
devices may limit their affordability and accessibility. Many consumers may opt
to stick with their existing 4G devices, which are more affordable and meet
their needs for everyday mobile applications. As a result, the penetration of
5G-enabled devices may be slower than expected, impeding the mass adoption of
5G technology.
The high cost of 5G chipsets
is also a challenge for telecom operators who are tasked with upgrading their
networks to support 5G. Telecom providers need to invest in infrastructure,
including upgrading base stations and adding more fiber optic cables, in
addition to purchasing expensive 5G chipset-equipped equipment. While some
telecom operators have already committed to rolling out 5G services, the high
initial investment costs required to implement 5G infrastructure could delay or
limit the speed of deployment in certain regions of India, particularly in
rural and underserved areas. Furthermore, in a market where India is working to
reduce its dependency on foreign semiconductor manufacturers, the high cost of
importing advanced 5G chipsets from global suppliers adds an additional
financial burden. Local manufacturers may face challenges in scaling production
to meet demand and lowering prices, as they often lack the advanced
manufacturing capabilities that international companies possess. Although the
Indian government has taken steps to encourage local manufacturing, it will
take time to build sufficient domestic capabilities to produce 5G chipsets at
competitive prices.
Thus, the high cost of 5G
chipsets remains a significant barrier to the rapid and widespread adoption of
5G technology in India, making it crucial for both the government and industry
players to find ways to reduce costs through local production, innovation, and
economies of scale.
Limited Availability of 5G Spectrum and Infrastructure
Challenges
Another major challenge for
the India 5G chipset market is the limited availability of 5G spectrum and the
related infrastructure challenges. Although the government has conducted
spectrum auctions for 5G, the process has been slow, and there are still concerns
about the availability and allocation of sufficient spectrum to support
nationwide 5G deployment. In addition, the existing telecommunications
infrastructure in India, particularly in rural and remote areas, is not always
equipped to handle the demands of 5G technology, further complicating the
adoption of 5G chipsets.
The scarcity of available
spectrum is one of the primary reasons for this challenge. Spectrum is a
limited resource, and in India, there is significant competition for different
frequency bands, including those for 5G, which are essential for ensuring smooth
and fast network connectivity. The government needs to allocate enough spectrum
in appropriate frequency ranges, such as mid-band and mmWave, to support
high-speed data transfer and low-latency communication, which are hallmarks of
5G technology. However, the auction process for 5G spectrum has been sluggish,
and the lack of adequate spectrum availability could delay the rollout of 5G
services and, by extension, the widespread adoption of 5G chipsets in India. Additionally,
India's existing telecom infrastructure, particularly in rural and remote
regions, is not fully equipped to handle the high data throughput and
low-latency requirements of 5G networks. To support 5G, telecom operators need
to invest in upgrading base stations, installing additional fiber optic cables,
and deploying advanced equipment, which can be both costly and time-consuming.
In urban areas, where the demand for high-speed data is concentrated, operators
have been able to start deploying 5G networks. However, in rural areas, which account
for a large portion of the Indian population, the lack of sufficient
infrastructure and high costs of upgrading network capabilities will likely
slow the progress of 5G deployment.
This limited infrastructure
and availability of spectrum pose a direct challenge to the India 5G chipset
market. Without a robust 5G network infrastructure, there will be limited
opportunities for devices with 5G chipsets to operate at full capacity. Even if
consumers and businesses adopt 5G-enabled devices, the lack of adequate network
coverage could result in subpar performance, making it difficult to realize the
full potential of 5G technology. Furthermore, telecom operators and device
manufacturers are also facing uncertainty regarding the technical standards and
regulatory frameworks for 5G networks in India. As the 5G ecosystem is still
evolving, there is a need for more clarity in terms of policies, spectrum
pricing, and operational guidelines, which can affect the overall deployment of
both infrastructure and chipsets.
Key Market Trends
Increase in Affordable 5G Devices
A significant market trend in the India 5G chipset
market is the rising availability of affordable 5G-enabled devices. As demand
for 5G connectivity increases among consumers, especially in a price-sensitive
market like India, the ability to provide cost-effective 5G smartphones and
other consumer electronics has become a key focus for manufacturers. Historically,
5G smartphones were priced at a premium, limiting their accessibility to a
small segment of the population. However, with advancements in chipset
technology and economies of scale, the price of 5G devices has begun to
decrease, making them more accessible to a broader range of consumers.
Chipset manufacturers are playing a crucial role in
this trend by producing more affordable and efficient 5G chipsets. Many major
semiconductor players, including Qualcomm, MediaTek, and Samsung, have
developed chipsets designed specifically for the mid-range and budget
smartphone segments, which are expected to be the primary drivers of 5G
adoption in India. For example, Qualcomm’s Snapdragon 4-series and MediaTek’s
Dimensity 700 and 800 series are designed to provide 5G support at a fraction
of the price of their high-end counterparts. These chipsets offer a balance of
performance and cost, making 5G technology more accessible to consumers in
emerging markets. Moreover, as India has one of the largest mobile user bases
in the world, telecom operators and manufacturers are actively collaborating to
lower the price of 5G-enabled devices. As production volumes increase, the cost
per unit is expected to continue decreasing, further driving down the overall
cost of 5G devices. This trend is expected to be particularly important in
India, where affordability is a critical factor in consumer purchasing
decisions. The reduction in prices is expected to stimulate mass adoption of 5G
smartphones, leading to an increase in the demand for 5G chipsets across the
country.
In addition to smartphones, other consumer
electronics, such as tablets, wearables, and IoT devices, are also benefiting
from affordable 5G chipsets. As the demand for connected devices grows, the
need for affordable 5G chipsets that can power these devices will continue to
rise, expanding the market beyond mobile phones. The market for 5G devices in India is expected to reach USD 10 billion by the end of 2025, driven by the growing demand for affordable 5G smartphones and IoT devices. Over 60% of new smartphone sales in India are expected to be 5G-enabled devices, with a significant portion being budget-friendly models by the end of 2025.
Emergence of 5G-Enabled IoT Devices
The growing adoption of the Internet of Things (IoT)
is a major trend driving the demand for 5G chipsets in India. 5G technology
offers a substantial advantage in supporting IoT devices, as it can handle a
large number of devices connected simultaneously with minimal latency and
high-speed data transfer. The rise of smart cities, industrial IoT (IIoT), and
smart home technologies is creating new opportunities for 5G chipsets to be
embedded into a wide range of IoT devices, including sensors, connected vehicles,
wearables, and home appliances.
In India, there is a significant push towards the
development of smart cities, which rely on a robust IoT infrastructure to
improve urban living through technology. For example, smart traffic management
systems, automated waste management, and energy-efficient street lighting are
becoming more common in urban areas, and all of these applications require
high-speed, reliable communication between devices. 5G chipsets are well-suited
for these tasks, as they can support the high device density and low latency
requirements of IoT systems. Furthermore, in sectors like agriculture,
5G-powered IoT devices are being used to implement precision farming
techniques, such as smart irrigation systems and real-time soil monitoring. In
the healthcare sector, the use of IoT-enabled wearable devices for continuous
patient monitoring is on the rise, and these devices also require 5G
capabilities to transmit large amounts of real-time data without delay. As
these applications expand across various sectors, the demand for IoT devices
powered by 5G chipsets will continue to surge.
In the industrial domain, Industry 4.0 applications,
including autonomous manufacturing, robotics, and supply chain automation,
depend heavily on reliable, high-speed communication. 5G chipsets are crucial
for these applications, offering the low-latency and high-bandwidth necessary
for seamless operation. This expansion of 5G-enabled IoT devices presents a
tremendous growth opportunity for the chipset market, with new use cases and
industries driving demand.
The continued proliferation of IoT devices and applications
across both urban and rural areas in India will be a driving force for 5G
chipset growth, as they require advanced, low-power chipsets capable of
supporting a range of connected devices.
Segmental Insights
Deployment Type Insights
The Smartphone held the largest market share in 2024. Smartphones dominated the India 5G chipset market due
to several key factors, primarily driven by the widespread consumer demand for
mobile connectivity, affordability, and the rapid expansion of 5G networks
across the country.
Smartphones are the most commonly used device for
mobile connectivity in India, with the largest mobile user base globally. The
demand for 5G-enabled smartphones has surged as consumers seek faster internet
speeds, improved video streaming quality, and enhanced mobile experiences. As
India transitions to 5G, smartphones are expected to remain the primary device
for accessing high-speed mobile networks, further driving the need for 5G
chipsets. Telecom operators are also aggressively promoting 5G services, which
encourages consumers to upgrade to 5G-compatible smartphones to take full
advantage of the technology.
The availability of affordable 5G smartphones is a
significant factor contributing to the dominance of smartphones in the 5G
chipset market. Leading chipset manufacturers like Qualcomm, MediaTek, and
Samsung have developed cost-effective 5G chipsets, enabling smartphone
manufacturers to produce budget-friendly 5G devices. This aligns with the
price-sensitive nature of the Indian market, where consumers are looking for
value-oriented options. With 5G chipsets now being available for mid-range and
budget smartphones, a larger segment of the population can afford 5G devices,
thus expanding the market size and further solidifying smartphones as the
dominant segment.
Smartphones serve as a gateway to a wide array of
5G-enabled services, including entertainment, gaming, IoT applications, and
digital payments, making them central to India's 5G rollout. The smartphone
remains the most versatile device for consumers to access the full potential of
5G connectivity, reinforcing its dominant role in the chipset market.

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Regional Insights
South India held the largest market
share in 2024. South India dominated the India 5G chipset market due to a combination
of factors related to infrastructure development, technological adoption,
industrial growth, and government support. The region has emerged as a hub for
both technology and manufacturing, which has significantly contributed to its
leadership in the 5G chipset market.
South India is home to several major technology and
semiconductor companies, including large players in the mobile device and
chipset manufacturing sectors. Cities like Bengaluru, Hyderabad, and Chennai
are recognized as key tech hubs with a high concentration of IT companies,
research and development centers, and global tech giants like Qualcomm, Intel,
and MediaTek having significant operations. These centers foster innovation and
technological advancements, making South India a key region for the development
and deployment of 5G chipsets.
Infrastructure readiness in South India plays a pivotal
role. The region has already seen extensive investments in network
infrastructure, including fiber-optic cables and advanced telecom facilities,
which are necessary for 5G deployment. Leading telecom operators, such as
Reliance Jio and Airtel, have launched 5G trials and network rollouts in cities
like Chennai, Hyderabad, and Bengaluru, creating an environment that supports
the mass adoption of 5G technology. This infrastructure advantage accelerates the
demand for 5G chipsets in mobile devices, broadband access gateways, and other
connected devices.
South India's industrial landscape is diverse and
includes manufacturing, automotive, and healthcare sectors, all of which
benefit from 5G technology. The region is increasingly adopting 5G for use
cases such as smart manufacturing, autonomous vehicles, and telemedicine,
further driving demand for 5G-enabled devices and chipsets.
Recent Developments
- In November 2024, at the "5G Open RAN Connect" conference, Viettel announced the commercial rollout of its Open RAN (O-RAN) 5G network, featuring key equipment developed in-house. This marks the world’s first O-RAN 5G network powered by Qualcomm Technologies' 5G RAN platforms. Viettel plans to deploy over 300 sites across multiple provinces in Vietnam by early 2025, with potential for thousands more as part of its nationwide and international expansion initiatives. This achievement positions Viettel as a key leader in the O-RAN community and one of the largest carriers globally to launch a commercial O-RAN network.
- In March 2024, Qualcomm announced its collaboration with India's leading telecom operator, Reliance Jio, and several original equipment manufacturers (OEMs) to develop and launch a new 5G phone. The US-based chipmaker is making significant strides in the Indian market and plans to unveil a new chipset aimed at powering an entry-level 5G smartphone. This affordable chipset could serve as a catalyst for 2G users in India, encouraging them to transition to smartphones with 5G capabilities.
Key Market Players
- Qualcomm
Incorporated
- Samsung
Electronics Co., Ltd.
- Huawei
Technologies Co., Ltd.
- Intel
Corporation
- NVIDIA
Corporation
- Broadcom
Inc.
- Ericsson
AB
- Texas
Instruments Inc.
By Type
|
By Frequency
|
By Deployment Type
|
By End User
|
By Region
|
- Application Specific Integrated Circuit
- Radio Frequency Integrated Circuit
- Millimeter Wave Integrated Circuit
- Cellular Integrated Circuit
|
- Sub-6 GHZ
- 26-39 GHZ
- Above 39 GHZ
|
- Smartphone
- Connected Vehicles
- Connected Devices
- Broadband Access
Gateway Devices
|
- Energy &
Utilities
- Manufacturing
- IT &
Telecommunication
- Media &
Entertainment
- Transportation &
Logistics
- Others
|
- South India
- North India
- West India
- East India
|
Report Scope:
In this report, the India 5G
Chipset Market has been
segmented into the following categories, in addition to the industry trends
which have also been detailed below:
- India
5G
Chipset Market, By Type:
o Application Specific Integrated Circuit
o Radio Frequency Integrated Circuit
o Millimeter Wave Integrated Circuit
o Cellular Integrated Circuit
- India
5G
Chipset Market, By Frequency:
o Sub-6 GHZ
o 26-39 GHZ
o Above 39 GHZ
- India
5G Chipset Market, By Deployment
Type:
o Smartphone
o Connected Vehicles
o Connected Devices
o Broadband Access Gateway Devices
- India
5G Chipset Market, By End User:
o Energy & Utilities
o Manufacturing
o IT & Telecommunication
o Media & Entertainment
o Transportation & Logistics
o Others
- India
5G Chipset Market, By Region:
o South India
o North India
o West India
o East India
Competitive Landscape
Company Profiles: Detailed analysis of the major companies
present in the India 5G Chipset Market.
Available Customizations:
India 5G Chipset Market report with the
given market data, Tech Sci Research offers customizations according to a
company's specific needs. The following customization options are available for
the report:
Company Information
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profiling of additional market players (up to five).
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