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Cellular and LPWA IoT Device Ecosystems - 8th Edition

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    Report

  • 120 Pages
  • June 2024
  • Region: Global
  • Berg Insight AB
  • ID: 5345712

Cellular IoT Module Shipments Reached 423 Million in 2023

The Internet of Things is weaving a new worldwide web of interconnected objects. By the end of 2023, about 3.8 billion devices were connected to wide area networks based on cellular or LPWA technologies. The market is highly diverse and divided into multiple ecosystems. This research forecasts that annual shipments of cellular and non-3GPP LPWA IoT modules will grow at a compound annual growth rate (CAGR) of 13.7% from 493 million units in 2023 to 936 million units in 2028.

Market Highlights

The Internet of Things is continuously evolving and expanding into new domains. By the end of 2023, approximately 3.8 billion devices were connected to wide area networks based on cellular or LPWA technologies. The market is highly diverse and divided into multiple ecosystems. This report will focus on the most prominent technology ecosystems for wide area IoT networking - the 3GPP ecosystem of cellular technologies and the LPWA technologies LoRa and Sigfox - as well as a group of emerging LPWA technologies including 802.15.4-based protocols, Wirepas Mesh, DECT-2020 NR (NR+) and Mioty.

The 3GPP family of cellular technologies support the largest ecosystem in wide area IoT networking. The analyst estimates that the global number of cellular IoT subscribers amounted to 3.3 billion at the end of 2023 - corresponding to 28% of all mobile subscribers. Yearly shipments of cellular IoT modules amounted to 423 million units in 2023, down 3% year-on-year. Annual cellular IoT module revenues declined by 9% to US$ 5.9 billion. The five largest cellular module vendors - Quectel, Fibocom, Telit Cinterion, Semtech and u-blox - held a market share of 72% in terms of revenues. Qualcomm, UNISOC and ASR Microelectronics are the main cellular IoT chipset suppliers. Other important cellular IoT chipset providers include Eigencomm, MediaTek, Sony and Xinyi Information Technology.

IoT-optimised 4G LTE technologies dominate the cellular IoT technology landscape as LTE Cat-1/LTE Cat-1 bis, NBIoT and LTE-M replace 2G and 3G technologies in the low to mid market segments. LTE Cat-4 and higher Cat LTE-A technologies remain the main alternative for high-speed IoT devices but will over time be replaced by 5G as network coverage and pricing improves. 5G IoT devices are today largely concentrated to FWA CPEs, IoT routers as well as cars from front-running automotive OEMs. 5G RedCap modules are starting to become generally available and will in time enable a broader set of 5G IoT use cases. Uptake of the technology is expected to be limited in the short-term due to the price gap to 4G LTE Cat-4/6 modules and 5G SA network coverage requirements. Cellular IoT module shipments are forecasted to grow at a compound annual growth rate (CAGR) of 13.2% to reach 786 million units by 2028.

LoRa is gaining momentum as a global connectivity platform for IoT devices. The installed base of LoRa end nodes reached 350 million at the beginning of 2024 with around 20% connected to public networks. The analyst believes the LoRa and LoRaWAN ecosystems will continue to be dominated by private networks. Major volume application segments are smart gas and water metering, where LoRa’s low power consumption matches the requirements for long-life battery operation. LoRa is also gaining traction for metropolitan and local area IoT deployments for networking smart sensors and tracking devices in cities, industrial plants and commercial buildings. Smart home is expected to become a major application area in the coming years, driven by Amazon’s Sidewalk network in the US. The analyst estimates that yearly shipments of LoRa devices amounted to 50 million units in 2023. Until 2028, yearly shipments are forecasted to grow at a CAGR of 16.2% to reach 106 million units.

The Singapore-based Sigfox operator UnaBiz took over as the new owner of Sigfox in 2022, setting a new direction for the Sigfox technology and operating model for the business. At the end of 2023, the installed base of Sigfox devices reached 12.5 million, up 10% from the previous year. The analyst believes that the critical test for Sigfox will be how the technology is received in the asset tracking segment. In addition, sensor solutions in different industries is one of the most promising application areas for the technology. The analyst forecasts that shipments of Sigfox devices will grow at a compound annual growth rate (CAGR) of 33.6% from 1.6 million units in 2023 to 6.6 million units by 2028.

Emerging LPWA device ecosystems such as IEEE 802.15.4, Wirepas Mesh, Mioty and NR+ have the potential to grow into significant IoT networking platforms in the coming years. So far, IEEE 802.15.4 has achieved the most widespread adoption. The technology is the most mature in the group and has gained support from several of the leading smart metering vendors. Wirepas Mesh counts an installed base in the millions and has been used in a number of large-scale projects. Mioty and NR+ represent two even more nascent technologies - the former is so far mainly deployed in pilot projects while the latter is expecting its first deployments of devices during 2024.

Highlights from the Report

  • 360-degree overview of the main IoT wide area networking ecosystems.
  • Comparison of technologies and standards.
  • Updated profiles of the main suppliers of IoT chipsets and modules.
  • Cellular IoT module market data for 2023.
  • Adoption trends for LPWA technologies including NB-IoT, LTE-M, LoRa and Sigfox.
  • Cellular and non-3GPP LPWA IoT device market forecasts until 2028.

This report answers the following questions:

  • How will the IoT wide area networking technology market evolve over the next five years?
  • Who are the new challengers in the cellular IoT module market?
  • Which new mass-volume segments can be addressed by low-cost LPWA technologies?
  • Why are the standards LTE-M and NB-IoT so significant for the cellular IoT ecosystem?
  • Which IoT applications will drive the adoption of 5G?
  • What is the timeline for the introduction of 5G NR Reduced Capability (RedCap) devices?
  • What is the current installed base of LoRa and Sigfox devices?
  • What are the prospects for emerging LPWA technology standards?

Who Should Read this Report?

Cellular and LPWA IoT Device Ecosystems is the foremost source of information about all the major wide area networking technologies for the Internet of Things. Whether you are a chipset or module vendor, software vendor, utility, vehicle manufacturer, telecom operator, investor, consultant, or government agency, you will gain valuable insights from this in-depth research.

Table of Contents


Executive Summary
1. Wide Area Networks for the Internet of Things
1.1 Which things will be connected to wide area networks?
1.1.1 Utility meters
1.1.2 Motor vehicles
1.1.3 Buildings
1.1.4 Low value assets - Industry 4.0 and consumer products
1.1.5 The opportunity to create smarter and safer cities
1.2 What are the technology options?
1.2.1 Network deployment models
1.2.2 Licensed and unlicensed frequency bands
1.2.3 Cost comparison for cellular and LPWA technologies
1.3 Which are the leading technology ecosystems?

2. 3GPP Ecosystem
2.1 Technology characteristics
2.1.1 3GPP Release 13 - Introducing LTE-M and NB-IoT
2.1.2 3GPP Release 14 - IoT enhancements and C-V2X
2.1.3 3GPP Release 15 - The first phase of 5G specifications
2.1.4 3GPP Release 16 - URLLC enhancements, IIoT features and 5G NR C-V2X
2.1.5 3GPP Release 17 - RedCap and non-terrestrial network communications
2.1.6 3GPP Release 18 - The first 5G-Advanced specifications
2.1.7 Network footprint
2.1.8 2G/3G mobile networks
2.1.9 4G mobile networks
2.1.10 4G/5G mobile IoT networks (LTE-M and NB-IoT)
2.1.11 5G mobile networks
2.2 Semiconductor vendors
2.2.1 ASR Microelectronics
2.2.2 Eigencomm
2.2.3 MediaTek
2.2.4 MLINK
2.2.5 Qualcomm
2.2.6 Samsung Electronics
2.2.7 Sequans Communications
2.2.8 Sony
2.2.9 UNISOC
2.2.10 Xinyi Information Technology
2.2.11 Other semiconductor vendors
2.3 Module vendors
2.3.1 Cavli Wireless
2.3.2 China Mobile IoT
2.3.3 Fibocom
2.3.4 Gosuncn WeLink
2.3.5 Kontron
2.3.6 MeiG Smart Technology
2.3.7 Murata
2.3.8 Neoway
2.3.9 Nordic Semiconductor
2.3.10 Quectel
2.3.11 Rolling Wireless (Fibocom)
2.3.12 Semtech
2.3.13 Sunsea AIoT (SIMCom & Longsung)
2.3.14 STMicroelectronics
2.3.15 Telit Cinterion
2.3.16 u-blox
2.3.17 Other cellular IoT module vendors

3. LoRa and LoRaWAN Ecosystem
3.1 Technology characteristics
3.2 Network footprint
3.2.1 Europe
3.2.2 Asia-Pacific
3.2.3 The Americas
3.2.4 Middle East & Africa
3.3 Semiconductor and module vendors
3.3.1 Semtech
3.3.2 Other semiconductor vendors
3.3.3 LoRa module vendors

4. Sigfox Ecosystem
4.1 Technology characteristics
4.2 Network footprint
4.2.1 Europe
4.2.2 The Americas
4.2.3 Asia-Pacific
4.2.4 Middle East & Africa
4.2.5 UnaBiz partners with the LoRaWAN ecosystem
4.2.6 Examples of major Sigfox use cases
4.3 Semiconductor and module vendors
4.3.1 Semiconductor vendors
4.3.2 Sigfox module vendors

5. Emerging LPWA Ecosystems
5.1 IEEE 802.15.4
5.1.1 Connectivity stacks based on 802.15.4
5.1.2 Network footprint
5.2 Wirepas Mesh
5.3 DECT-2020 NR (NR+)
5.4 Mioty
5.5 Chipset and module vendors

6. Market Forecasts and Trends
6.1 Market summary
6.2 The cellular IoT device market
6.2.1 Europe
6.2.2 North America
6.2.3 Latin America
6.2.4 China
6.2.5 Rest of Asia-Pacific
6.2.6 Middle East & Africa
6.3 The LoRa device market
6.4 The Sigfox device market
6.5 Emerging LPWA technologies

List of Acronyms and Abbreviations
List of Figures
Figure 1.1: Top wide area IoT target segments (2023)
Figure 1.2: Building stock by category (EU27+3/US 2023)
Figure 1.3: Unlicensed and reserved radio frequencies available for wireless IoT
Figure 1.4: Cost comparison for wireless modules (2024)
Figure 2.1: Comparison of LTE Cat-1, LTE Cat-1 bis, LTE-M and NB-IoT specifications
Figure 2.2: Comparison of RedCap and eRedCap specifications
Figure 2.3: Technology positioning of RedCap in relation to eMBB, URLLC and mMTC
Figure 2.4: The number of LTE-M and NB-IoT networks (World 2018-2023)
Figure 2.5: IoT solution design options
Figure 2.6: Cost comparison between module and chipset designs
Figure 2.7: Routes to market for cellular IoT chipsets
Figure 2.8: Cellular IoT chipset vendor volume market shares (World 2023)
Figure 2.9: Business activities of key cellular chipset providers (Q2-2024)
Figure 2.10: MLINK’s product portfolio evolution
Figure 2.11: Qualcomm’s IoT modem chipsets (Q2-2024)
Figure 2.12: QCT revenues by segment (2022-2023)
Figure 2.13: Samsung’s automotive chip solutions
Figure 2.14: Sequans’ revenues by product segment (2019-2023)
Figure 2.15: Top cellular IoT module vendors, by revenues and shipments (World 2023)
Figure 2.16: Fibocom’s embedded wireless IoT modules (Q2-2024)
Figure 2.17: Gosuncn WeLink’s embedded cellular IoT modules (Q2-2024)
Figure 2.18: MeiG’s embedded cellular IoT modules (Q2-2024)
Figure 2.19: Neoway’s embedded cellular IoT modules (Q2-2024)
Figure 2.20: Feature comparison of the nRF91 Series SiPs
Figure 2.21: Nordic Semiconductor’s revenues by technology (2020-2023)
Figure 2.22: Quectel’s cellular IoT module series (Q2-2024)
Figure 2.23: Semtech’s device-to-cloud offering
Figure 2.24: Semtech’s embedded cellular modules (Q2-2024)
Figure 2.25: Embedded cellular IoT modules from SIMCom and Longsung (Q2-2024)
Figure 2.26: Telit Cinterion’s embedded cellular IoT modules (Q2-2024)
Figure 2.27: u-blox’ embedded cellular IoT modules (Q2-2024)
Figure 2.28: u-blox Thingstream platform overview
Figure 3.1: LoRaWAN network architecture
Figure 3.2: Public LoRaWAN network operators in Europe (Q2-2024)
Figure 3.3: Public LoRaWAN network operators in Asia-Pacific (Q2-2024)
Figure 3.4: Public LoRaWAN network operators in the Americas (Q2-2024)
Figure 3.5: Amazon Sidewalk network coverage
Figure 3.6: Total onboarded Helium LoRaWAN gateways
Figure 3.7: Public LoRaWAN network operators in Middle East & Africa (Q2-2024)
Figure 3.8: Semtech’s LoRa business KPIs (FY-2021-FY-2024)
Figure 3.9: LoRa module vendors (Q2-2024)
Figure 4.1: Sigfox network architecture
Figure 4.2: Sigfox network partners in Europe (Q1-2024)
Figure 4.3: Sigfox networks in the Americas (Q1-2024)
Figure 4.4: Sigfox networks in Asia-Pacific and MEA (Q1-2024)
Figure 4.5: List of Sigfox module vendors by supported regions (Q1-2024)
Figure 5.1: Major 802.15.4 networking platforms for smart metering (Q1-2024)
Figure 5.2: Technology positioning for NR+ in relation to eMBB, URLLC and mMTC
Figure 5.3: Members of the Mioty Alliance (Q1-2024)
Figure 6.1: Cellular/non-3GPP LPWA IoT device shipments by region (World 2022-2028)
Figure 6.2: Cellular/non-3GPP LPWA IoT device shipments by technology (World 2023)
Figure 6.3: Cellular IoT module shipments by region and vertical (World 2022-2028)
Figure 6.4: Cellular IoT module shipment forecast by technology (World 2022-2028)
Figure 6.5: Cellular IoT module shipment forecast (Europe 2022-2028)
Figure 6.6: Cellular IoT module shipment forecast (North America 2022-2028)
Figure 6.7: Cellular IoT module shipment forecast (Latin America 2022-2028)
Figure 6.8: Cellular IoT module shipment forecast (China 2022-2028)
Figure 6.9: Cellular IoT module shipment forecast (Rest of Asia-Pacific 2022-2028)
Figure 6.10: Cellular IoT module shipment forecast (Middle East & Africa 2022-2028)
Figure 6.11: LoRa device shipments forecast (World 2022-2028)
Figure 6.12: Sigfox device shipments forecast (World 2022-2028)
Figure 6.13: 802.15.4 WAN device shipments forecast (World 2022-2028)

Companies Mentioned (Partial List)

A selection of companies mentioned in this report includes, but is not limited to:

  • Amazon
  • ASR Microelectronics
  • Cavli Wireless
  • China Mobile IoT
  • Eigencomm
  • Fibocom
  • Gosuncn WeLink
  • Kontron
  • MediaTek
  • MeiG Smart Technology
  • Murata
  • Neoway
  • Nordic Semiconductor
  • Qualcomm
  • Quectel
  • Rolling Wireless (Fibocom)
  • Samsung Electronics
  • Semtech
  • Sequans Communications
  • Sony
  • STMicroelectronics
  • Sunsea AIoT (SIMCom & Longsung)
  • Telit Cinterion
  • u-blox
  • UnaBiz
  • UNISOC
  • Wirepas Mesh
  • Xinyi Information Technology

Methodology

 

 

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