The global market for LiDAR-on-Chip was valued at US$ 314 million in the year 2024 and is projected to reach a revised size of US$ 820 million by 2031, growing at a CAGR of 14.7% during the forecast period.
The 2025 U.S. tariff policies introduce profound uncertainty into the global economic landscape. This report critically examines the implications of recent tariff adjustments and international strategic countermeasures on LiDAR-on-Chip competitive dynamics, regional economic interdependencies, and supply chain reconfigurations.
LiDAR-on-Chip (LoC) refers to the integration of Light Detection and Ranging (LiDAR) systems onto a single semiconductor chip, typically using silicon photonics or CMOS-compatible processes. Unlike traditional bulky LiDAR systems that rely on discrete mechanical components and optics, LiDAR-on-Chip devices use miniaturized, solid-state architectures to perform the same functions鈥攅mitting laser pulses, detecting reflections, and computing distances鈥攚ithin a much smaller, cost-effective, and power-efficient footprint.
LiDAR-on-Chip (LoC) systems typically operate at wavelengths of 905鈥痭m or 1550鈥痭m, offering detection ranges from 10 to over 300 meters depending on application, with range accuracy as fine as 卤2鈥痗m and frame rates between 10鈥疕z to 30鈥疕z. Advanced LoC models such as those from Aeva and SiLC can detect velocity directly using FMCW technology and achieve angular resolutions under 0.1掳, with point clouds exceeding 1 million points per second. Field of view (FoV) ranges from narrow 30掳 脳 30掳 for focused detection to wide 120掳 脳 90掳 for panoramic coverage. Power consumption is typically under 5鈥疻 (often below 1鈥疻 in miniaturized chips), and packages can be as compact as <1鈥痗m鲁, making them ideal for embedded applications in automotive ADAS, robotics, and AR/VR devices. Most systems are integrated via CMOS-compatible or photonic IC platforms and comply with Class 1 eye safety standards (IEC 60825-1).
Report Scope
This report aims to provide a comprehensive presentation of the global market for LiDAR-on-Chip, 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 LiDAR-on-Chip.
The LiDAR-on-Chip 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 LiDAR-on-Chip 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 LiDAR-on-Chip 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.
By Company
Aeva
SiLC Technologies
Lumotive
Analog Photonics
Voyant Photonics
Scantinel Photonics
Segment by Type
905 nm Type
1550 nm Type
Segment by Application
Automotive & Drones
Consumer Electronics
Industrial Automation
Smart Cities
Others
Production by Region
North America
Europe
China
Japan
South Korea
Southeast Asia
China Taiwan
Consumption by Region
North America
United States
Canada
Asia-Pacific
China
Japan
South Korea
India
Australia
China Taiwan
Southeast Asia
Europe
Germany
France
U.K.
Italy
Russia
Latin America
Mexico
Brazil
Argentina
Colombia
Middle East and Africa
Turkey
Saudi Arabia
UAE
Chapter Outline
Chapter 1: Introduces the report scope of the report, executive summary of different market segments (by region, by Type, by Application, etc), including the market size of each market segment, future development potential, and so on. It offers a high-level view of the current state of the market and its likely evolution in the short to mid-term, and long term.
Chapter 2: Detailed analysis of LiDAR-on-Chip manufacturers competitive landscape, price, production and value market share, latest development plan, merger, and acquisition information, etc.
Chapter 3: Production/output, value of LiDAR-on-Chip by region/country. It provides a quantitative analysis of the market size and development potential of each region in the next six years.
Chapter 4: Consumption of LiDAR-on-Chip in regional level and country level. It provides a quantitative analysis of the market size and development potential of each region and its main countries and introduces the market development, future development prospects, market space, and production of each country in the world.
Chapter 5: Provides the analysis of various market segments by Type, covering the market size and development potential of each market segment, to help readers find the blue ocean market in different market segments.
Chapter 6: Provides the analysis of various market segments by Application, covering the market size and development potential of each market segment, to help readers find the blue ocean market in different downstream markets.
Chapter 7: Provides profiles of key players, introducing the basic situation of the main companies in the market in detail, including product production/output, value, price, gross margin, product introduction, recent development, etc.
Chapter 8: Analysis of industrial chain, including the upstream and downstream of the industry.
Chapter 9: Introduces the market dynamics, latest developments of the market, the driving factors and restrictive factors of the market, the challenges and risks faced by manufacturers in the industry, and the analysis of relevant policies in the industry.
Chapter 10: The main points and conclusions of the report.
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1 LiDAR-on-Chip 麻豆原创 Overview
1.1 Product Definition
1.2 LiDAR-on-Chip by Type
1.2.1 Global LiDAR-on-Chip 麻豆原创 Value Growth Rate Analysis by Type: 2024 VS 2031
1.2.2 905 nm Type
1.2.3 1550 nm Type
1.3 LiDAR-on-Chip by Application
1.3.1 Global LiDAR-on-Chip 麻豆原创 Value Growth Rate Analysis by Application: 2024 VS 2031
1.3.2 Automotive & Drones
1.3.3 Consumer Electronics
1.3.4 Industrial Automation
1.3.5 Smart Cities
1.3.6 Others
1.4 Global 麻豆原创 Growth Prospects
1.4.1 Global LiDAR-on-Chip Production Value Estimates and Forecasts (2020-2031)
1.4.2 Global LiDAR-on-Chip Production Capacity Estimates and Forecasts (2020-2031)
1.4.3 Global LiDAR-on-Chip Production Estimates and Forecasts (2020-2031)
1.4.4 Global LiDAR-on-Chip 麻豆原创 Average Price Estimates and Forecasts (2020-2031)
1.5 Assumptions and Limitations
2 麻豆原创 Competition by Manufacturers
2.1 Global LiDAR-on-Chip Production 麻豆原创 Share by Manufacturers (2020-2025)
2.2 Global LiDAR-on-Chip Production Value 麻豆原创 Share by Manufacturers (2020-2025)
2.3 Global Key Players of LiDAR-on-Chip, Industry Ranking, 2023 VS 2024
2.4 Global LiDAR-on-Chip Company Type and 麻豆原创 Share by Company Type (Tier 1, Tier 2, and Tier 3)
2.5 Global LiDAR-on-Chip Average Price by Manufacturers (2020-2025)
2.6 Global Key Manufacturers of LiDAR-on-Chip, Manufacturing Base Distribution and Headquarters
2.7 Global Key Manufacturers of LiDAR-on-Chip, Product Offered and Application
2.8 Global Key Manufacturers of LiDAR-on-Chip, Date of Enter into This Industry
2.9 LiDAR-on-Chip 麻豆原创 Competitive Situation and Trends
2.9.1 LiDAR-on-Chip 麻豆原创 Concentration Rate
2.9.2 Global 5 and 10 Largest LiDAR-on-Chip Players 麻豆原创 Share by Revenue
2.10 Mergers & Acquisitions, Expansion
3 LiDAR-on-Chip Production by Region
3.1 Global LiDAR-on-Chip Production Value Estimates and Forecasts by Region: 2020 VS 2024 VS 2031
3.2 Global LiDAR-on-Chip Production Value by Region (2020-2031)
3.2.1 Global LiDAR-on-Chip Production Value by Region (2020-2025)
3.2.2 Global Forecasted Production Value of LiDAR-on-Chip by Region (2026-2031)
3.3 Global LiDAR-on-Chip Production Estimates and Forecasts by Region: 2020 VS 2024 VS 2031
3.4 Global LiDAR-on-Chip Production Volume by Region (2020-2031)
3.4.1 Global LiDAR-on-Chip Production by Region (2020-2025)
3.4.2 Global Forecasted Production of LiDAR-on-Chip by Region (2026-2031)
3.5 Global LiDAR-on-Chip 麻豆原创 Price Analysis by Region (2020-2025)
3.6 Global LiDAR-on-Chip Production and Value, Year-over-Year Growth
3.6.1 North America LiDAR-on-Chip Production Value Estimates and Forecasts (2020-2031)
3.6.2 Europe LiDAR-on-Chip Production Value Estimates and Forecasts (2020-2031)
3.6.3 China LiDAR-on-Chip Production Value Estimates and Forecasts (2020-2031)
3.6.4 Japan LiDAR-on-Chip Production Value Estimates and Forecasts (2020-2031)
3.6.5 South Korea LiDAR-on-Chip Production Value Estimates and Forecasts (2020-2031)
3.6.6 Southeast Asia LiDAR-on-Chip Production Value Estimates and Forecasts (2020-2031)
3.6.7 China Taiwan LiDAR-on-Chip Production Value Estimates and Forecasts (2020-2031)
4 LiDAR-on-Chip Consumption by Region
4.1 Global LiDAR-on-Chip Consumption Estimates and Forecasts by Region: 2020 VS 2024 VS 2031
4.2 Global LiDAR-on-Chip Consumption by Region (2020-2031)
4.2.1 Global LiDAR-on-Chip Consumption by Region (2020-2025)
4.2.2 Global LiDAR-on-Chip Forecasted Consumption by Region (2026-2031)
4.3 North America
4.3.1 North America LiDAR-on-Chip Consumption Growth Rate by Country: 2020 VS 2024 VS 2031
4.3.2 North America LiDAR-on-Chip Consumption by Country (2020-2031)
4.3.3 U.S.
4.3.4 Canada
4.4 Europe
4.4.1 Europe LiDAR-on-Chip Consumption Growth Rate by Country: 2020 VS 2024 VS 2031
4.4.2 Europe LiDAR-on-Chip Consumption by Country (2020-2031)
4.4.3 Germany
4.4.4 France
4.4.5 U.K.
4.4.6 Italy
4.4.7 Netherlands
4.5 Asia Pacific
4.5.1 Asia Pacific LiDAR-on-Chip Consumption Growth Rate by Region: 2020 VS 2024 VS 2031
4.5.2 Asia Pacific LiDAR-on-Chip Consumption by Region (2020-2031)
4.5.3 China
4.5.4 Japan
4.5.5 South Korea
4.5.6 China Taiwan
4.5.7 Southeast Asia
4.5.8 India
4.6 Latin America, Middle East & Africa
4.6.1 Latin America, Middle East & Africa LiDAR-on-Chip Consumption Growth Rate by Country: 2020 VS 2024 VS 2031
4.6.2 Latin America, Middle East & Africa LiDAR-on-Chip Consumption by Country (2020-2031)
4.6.3 Mexico
4.6.4 Brazil
4.6.5 Israel
5 Segment by Type
5.1 Global LiDAR-on-Chip Production by Type (2020-2031)
5.1.1 Global LiDAR-on-Chip Production by Type (2020-2025)
5.1.2 Global LiDAR-on-Chip Production by Type (2026-2031)
5.1.3 Global LiDAR-on-Chip Production 麻豆原创 Share by Type (2020-2031)
5.2 Global LiDAR-on-Chip Production Value by Type (2020-2031)
5.2.1 Global LiDAR-on-Chip Production Value by Type (2020-2025)
5.2.2 Global LiDAR-on-Chip Production Value by Type (2026-2031)
5.2.3 Global LiDAR-on-Chip Production Value 麻豆原创 Share by Type (2020-2031)
5.3 Global LiDAR-on-Chip Price by Type (2020-2031)
6 Segment by Application
6.1 Global LiDAR-on-Chip Production by Application (2020-2031)
6.1.1 Global LiDAR-on-Chip Production by Application (2020-2025)
6.1.2 Global LiDAR-on-Chip Production by Application (2026-2031)
6.1.3 Global LiDAR-on-Chip Production 麻豆原创 Share by Application (2020-2031)
6.2 Global LiDAR-on-Chip Production Value by Application (2020-2031)
6.2.1 Global LiDAR-on-Chip Production Value by Application (2020-2025)
6.2.2 Global LiDAR-on-Chip Production Value by Application (2026-2031)
6.2.3 Global LiDAR-on-Chip Production Value 麻豆原创 Share by Application (2020-2031)
6.3 Global LiDAR-on-Chip Price by Application (2020-2031)
7 Key Companies Profiled
7.1 Aeva
7.1.1 Aeva LiDAR-on-Chip Company Information
7.1.2 Aeva LiDAR-on-Chip Product Portfolio
7.1.3 Aeva LiDAR-on-Chip Production, Value, Price and Gross Margin (2020-2025)
7.1.4 Aeva Main Business and 麻豆原创s Served
7.1.5 Aeva Recent Developments/Updates
7.2 SiLC Technologies
7.2.1 SiLC Technologies LiDAR-on-Chip Company Information
7.2.2 SiLC Technologies LiDAR-on-Chip Product Portfolio
7.2.3 SiLC Technologies LiDAR-on-Chip Production, Value, Price and Gross Margin (2020-2025)
7.2.4 SiLC Technologies Main Business and 麻豆原创s Served
7.2.5 SiLC Technologies Recent Developments/Updates
7.3 Lumotive
7.3.1 Lumotive LiDAR-on-Chip Company Information
7.3.2 Lumotive LiDAR-on-Chip Product Portfolio
7.3.3 Lumotive LiDAR-on-Chip Production, Value, Price and Gross Margin (2020-2025)
7.3.4 Lumotive Main Business and 麻豆原创s Served
7.3.5 Lumotive Recent Developments/Updates
7.4 Analog Photonics
7.4.1 Analog Photonics LiDAR-on-Chip Company Information
7.4.2 Analog Photonics LiDAR-on-Chip Product Portfolio
7.4.3 Analog Photonics LiDAR-on-Chip Production, Value, Price and Gross Margin (2020-2025)
7.4.4 Analog Photonics Main Business and 麻豆原创s Served
7.4.5 Analog Photonics Recent Developments/Updates
7.5 Voyant Photonics
7.5.1 Voyant Photonics LiDAR-on-Chip Company Information
7.5.2 Voyant Photonics LiDAR-on-Chip Product Portfolio
7.5.3 Voyant Photonics LiDAR-on-Chip Production, Value, Price and Gross Margin (2020-2025)
7.5.4 Voyant Photonics Main Business and 麻豆原创s Served
7.5.5 Voyant Photonics Recent Developments/Updates
7.6 Scantinel Photonics
7.6.1 Scantinel Photonics LiDAR-on-Chip Company Information
7.6.2 Scantinel Photonics LiDAR-on-Chip Product Portfolio
7.6.3 Scantinel Photonics LiDAR-on-Chip Production, Value, Price and Gross Margin (2020-2025)
7.6.4 Scantinel Photonics Main Business and 麻豆原创s Served
7.6.5 Scantinel Photonics Recent Developments/Updates
8 Industry Chain and Sales Channels Analysis
8.1 LiDAR-on-Chip Industry Chain Analysis
8.2 LiDAR-on-Chip Raw Material Supply Analysis
8.2.1 Key Raw Materials
8.2.2 Raw Materials Key Suppliers
8.3 LiDAR-on-Chip Production Mode & Process Analysis
8.4 LiDAR-on-Chip Sales and 麻豆原创ing
8.4.1 LiDAR-on-Chip Sales Channels
8.4.2 LiDAR-on-Chip Distributors
8.5 LiDAR-on-Chip Customer Analysis
9 LiDAR-on-Chip 麻豆原创 Dynamics
9.1 LiDAR-on-Chip Industry Trends
9.2 LiDAR-on-Chip 麻豆原创 Drivers
9.3 LiDAR-on-Chip 麻豆原创 Challenges
9.4 LiDAR-on-Chip 麻豆原创 Restraints
10 Research Findings and Conclusion
11 Methodology and Data Source
11.1 Methodology/Research Approach
11.1.1 Research Programs/Design
11.1.2 麻豆原创 Size Estimation
11.1.3 麻豆原创 Breakdown and Data Triangulation
11.2 Data Source
11.2.1 Secondary Sources
11.2.2 Primary Sources
11.3 Author List
11.4 Disclaimer
Aeva
SiLC Technologies
Lumotive
Analog Photonics
Voyant Photonics
Scantinel Photonics
听
听
*If Applicable.
