Cellular Modem Chipset Market Set to Surge - Key Insights You Must Know

Cellular Modem Chipset Market

The global market for Cellular Modem Chipset was valued at US$ million in the year 2024 and is projected to reach a revised size of US$ million by 2031, growing at a CAGR of %during the forecast period.

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Following a strong growth of 26.2 percent in the year 2021, WSTS revised it down to a single digit growth for the worldwide semiconductor market in 2022 with a total size of US$580 billion, up 4.4 percent. WSTS lowered growth estimation as inflation rises and end markets seeing weaker demand, especially those exposed to consumer spending. While some major categories are still double-digit year-over-year growth in 2022, led by Analog with 20.8 percent, Sensors with 16.3 percent, and Logic with 14.5 percent growth. Memory declined with 12.6 percent year over year. In 2022, all geographical regions showed double-digit growth except Asia Pacific. The largest region, Asia Pacific, declined 2.0 percent. Sales in the Americas were US$142.1 billion, up 17.0% year-on-year, sales in Europe were US$53.8 billion, up 12.6% year-on-year, and sales in Japan were US$48.1 billion, up 10.0% year-on-year. However, sales in the largest Asia-Pacific region were US$336.2 billion, down 2.0% year-on-year.

Report Scope

This report aims to provide a comprehensive presentation of the global market for Cellular Modem Chipset, with both quantitative and qualitative analysis, to help readers develop business/growth strategies, assess the market competitive situation, analyze their position in the current marketplace, and make informed business decisions regarding Cellular Modem Chipset.

The Cellular Modem Chipset market size, estimations, and forecasts are provided in terms of output/shipments (K Units) and revenue ($ millions), considering 2024 as the base year, with history and forecast data for the period from 2020 to 2031. This report segments the global Cellular Modem Chipset market comprehensively. Regional market sizes, concerning products by Type, by Application, and by players, are also provided.

For a more in-depth understanding of the market, the report provides profiles of the competitive landscape, key competitors, and their respective market ranks. The report also discusses technological trends and new product developments.

The report will help the Cellular Modem Chipset manufacturers, new entrants, and industry chain related companies in this market with information on the revenues, production, and average price for the overall market and the sub-segments across the different segments, by company, by Type, by Application, and by regions.

Cellular Modem Chipset Market Trends

Government Telecommunications Infrastructure Initiatives

National governments worldwide are implementing comprehensive programs to deploy advanced cellular networks and expand wireless connectivity to underserved regions. These infrastructure initiatives include spectrum allocation policies, tower construction incentives, and subsidized deployment programs targeting rural and remote areas. Regulatory frameworks increasingly mandate minimum coverage requirements, network resilience standards, and emergency communication capabilities that directly drive cellular modem chipset demand.

Public safety communication systems are transitioning from legacy radio networks to broadband cellular platforms, creating government procurement programs for specialized modem chipsets supporting mission-critical communication requirements. These deployments prioritize reliability, interoperability, and secure communication capabilities distinct from consumer-focused applications.

International development organizations are funding connectivity projects in emerging markets, establishing telecommunications infrastructure as foundational enabler for economic development, education access, and healthcare delivery in regions previously lacking reliable wireless services.

Fifth-Generation Network Deployment Acceleration

The global rollout of fifth-generation cellular networks is fundamentally transforming modem chipset requirements across device categories. Enhanced mobile broadband capabilities, ultra-reliable low-latency communication services, and massive machine-type communication support each demand distinct chipset architectures and radio frequency capabilities.

Network operators are deploying multiple fifth-generation technology variants including sub-six gigahertz implementations, millimeter wave systems, and standalone network architectures. Device manufacturers require modem chipsets supporting diverse frequency band combinations, carrier aggregation schemes, and network configuration options to ensure compatibility across varied deployment scenarios.

The transition period during which fourth-generation and fifth-generation networks coexist requires modem chipsets capable of seamless handoffs between network technologies while maintaining service continuity and optimizing power consumption across different radio access technologies.

Internet of Things and Connected Device Proliferation

Industrial automation, smart city infrastructure, agricultural monitoring, and asset tracking applications are deploying billions of cellular-connected devices across diverse environments and use cases. These applications demand modem chipsets optimized for specific operational profiles, including extended battery life, harsh environment tolerance, and cost-effective implementation at scale.

Narrowband Internet of Things and Long-Term Evolution for machines technologies address connectivity requirements for devices transmitting small data volumes infrequently while operating on battery power for years. The proliferation of these applications creates sustained demand for specialized modem chipsets distinct from smartphone-oriented products.

Edge computing architectures that process data near collection points require modem chipsets integrating cellular connectivity with local processing capabilities, reducing latency and bandwidth consumption compared to centralized cloud processing models.

Automotive Connectivity and Vehicle-to-Everything Communication

Modern vehicle architectures incorporate cellular connectivity for infotainment services, over-the-air software updates, emergency assistance systems, and vehicle-to-everything communication capabilities supporting advanced driver assistance systems and autonomous vehicle functions.

Automotive modem chipsets must satisfy stringent reliability standards, extended temperature operating ranges, and functional safety requirements while supporting high-bandwidth applications and guaranteed latency performance for safety-critical communications.

The automotive industry's transition toward software-defined vehicles with continuous feature updates throughout ownership lifecycle creates demand for modem chipsets supporting multiple cellular technology generations to ensure long-term connectivity as network infrastructure evolves.

Enterprise and Industrial Wireless Solutions

Businesses are deploying private cellular networks within manufacturing facilities, warehouses, ports, and campus environments to support industrial automation, robotics, augmented reality applications, and mission-critical communication systems. These private network deployments require modem chipsets supporting dedicated spectrum allocations, network slicing capabilities, and enterprise-grade security features.

Industrial applications prioritizing deterministic latency, guaranteed bandwidth allocation, and isolated network segments drive demand for modem chipsets with advanced quality-of-service capabilities and integration with edge computing infrastructure.

The convergence of operational technology and information technology systems within industrial environments creates requirements for modem chipsets supporting both conventional data communication and specialized industrial protocols.

Consumer Electronics and Wearable Device Expansion

The proliferation of cellular-connected wearable devices, tablets, laptops, and mobile hotspots beyond traditional smartphone markets creates diverse modem chipset requirements optimized for specific form factors, power budgets, and application profiles.

Smartwatches and fitness trackers with integrated cellular connectivity require ultra-compact modem chipsets with aggressive power optimization to support acceptable battery life within constrained device volumes. These applications prioritize low-bandwidth voice and data services over maximum throughput performance.

Always-connected laptops and tablets targeting enterprise users require modem chipsets balancing performance capabilities with thermal management and battery longevity considerations distinct from smartphone thermal envelopes and usage patterns.

Chipset Integration and System-on-Chip Evolution

Semiconductor manufacturers are integrating cellular modem functionality with application processors, graphics processing units, and specialized accelerators within comprehensive system-on-chip solutions. This integration trend reduces device component counts, lowers power consumption, and enables tighter coordination between modem and application processing functions.

The integration approach creates competitive dynamics between vertically integrated device manufacturers developing proprietary chipset solutions and independent modem chipset suppliers serving diverse customer bases across device categories and market segments.

Technology licensing models and intellectual property frameworks governing cellular communication standards influence chipset development strategies, time-to-market capabilities, and competitive positioning across the modem chipset ecosystem.

Security and Network Authentication Requirements

Escalating cybersecurity threats and privacy concerns are driving regulatory requirements for enhanced device authentication, secure boot processes, and encrypted communication channels. Modem chipsets must incorporate hardware-based security features including secure elements, trusted execution environments, and cryptographic acceleration capabilities.

Network operators are implementing sophisticated fraud detection systems and device verification protocols that require modem chipsets supporting advanced authentication mechanisms and tamper-resistant credential storage.

Enterprise and government applications increasingly mandate certification against specific security standards and compliance with data sovereignty requirements that influence modem chipset design priorities and validation processes.

By Type
• 5 G Chip
• LPWA Chip

By Application
• Electronic Consumer Goods
• Communication

Key Companies
ASR Microelectronics, EigenComm, GCT Semiconductor, HiSilicon, Intel, MediaTek/Airoha, Nordic Semiconductor, Nurlink, Qualcomm, Realtek (Realsil), UNISOC, Semtech, Sequans Communications, Sanechips (ZTE Microelectronics), Sony Semiconductor (Altair Semiconductor), Xinyi Information Technology

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