Canada Street Light Market Overview,2030

The Canada street lighting market is undergoing a transformative shift driven by the country’s strong sustainability culture, smart city vision, and emphasis on energy-efficient infrastructure. Canadian cities like Toronto, Vancouver, and Montreal are leading large-scale LED streetlight replacement projects to reduce carbon emissions and municipal electricity costs, aligning with Canada’s nationwide commitment to achieve net-zero emissions by 2050. Urbanization across provinces such as Ontario, Alberta, and British Columbia has increased demand for intelligent lighting systems capable of adjusting brightness and operational patterns according to traffic, weather, and pedestrian activity. This growing urban density has prompted cities to integrate lighting networks with Internet of Things (IoT) technologies, transforming traditional poles into smart infrastructure hubs supporting sensors, connectivity, and even electric vehicle charging stations. Innovations disrupting the Canadian market include adaptive LED systems, motion-activated lighting, remote monitoring, and connected luminaires with data-driven control platforms that help municipalities optimize energy usage and enhance public safety. Several pilot projects in Canada are testing solar-powered streetlights and LiDAR-based smart lighting to reduce grid dependence and improve responsiveness. According to industry estimates, over 90% of new street lighting installations in Canada now use LEDs, helping cities save up to 60–70% in energy consumption compared to older sodium lamps. Regulatory frameworks, including the Canadian Standards Association (CSA) standards and Dark Sky compliance requirements, ensure lighting minimizes glare, uplight, and environmental disruption to protect nocturnal wildlife and reduce light pollution. Furthermore, the Canadian government has implemented a rule that mandates the registration of products with energy labeling. The government has introduced various initiatives for reducing light energy consumption, such as ENERGY STAR in Canada. Moreover, many regional governments are looking to implement energy-efficient street lights to save costs.

According to the research report, ""Canada Street Lighting Market Overview, 2030,"" published by Bonafide Research, the Canada Street Lighting market is anticipated to add to USD 110 Million by 2025–30. The increasing installation of smart poles equipped with communication modules, 5G antennas, and environmental sensors is reshaping cityscapes in provinces like Quebec and Alberta, providing both efficient lighting and digital connectivity. A rising emphasis on public safety, particularly in suburban and high-traffic areas, is driving demand for adaptive lighting solutions that automatically adjust brightness and color temperature to enhance visibility and reduce accidents. Moreover, the Canadian government’s emphasis on building resilient urban infrastructure under programs like the Green Municipal Fund is generating new investment opportunities for lighting manufacturers and energy service companies. A key growth factor lies in the technological convergence between lighting and artificial intelligence, where predictive maintenance tools now allow real-time fault detection, reducing downtime and operational expenses for cities. Solar and hybrid-powered streetlights are also gaining ground, especially in remote regions where access to grid electricity is limited, creating new opportunities for renewable-focused suppliers. Canadian conferences such as the Smart Energy Event in Halifax and Lightfair International in Toronto are actively supporting innovation by connecting policymakers, engineers, and solution providers to exchange knowledge on smart lighting applications. These events have become catalysts for launching pilot projects, demonstrating cutting-edge lighting technologies, and aligning them with Canada’s sustainability goals. For instance, in March 2021, the City of Laval in Canada gave the green light for a project to convert approximately 37,000 fixtures to LED luminaires with smart controls. This conversion to LED lights is expected to result in annual savings of USD 2.75 million, primarily in energy consumption and maintenance costs. The move toward adopting LEDs is also in line with the strategic vision of 'Urban by Nature,' which aims to make the City a model city in sustainable urban redevelopment.

Smart street lights are increasingly being adopted in major Canadian cities such as Toronto, Vancouver, and Montreal, where municipalities focus on reducing energy consumption, lowering operational costs, and improving public safety. These systems use LED technology integrated with sensors and IoT connectivity, allowing adaptive brightness based on traffic, pedestrian activity, and ambient light, while also enabling remote monitoring and predictive maintenance. Conventional street lights, which mainly rely on high-pressure sodium or mercury vapor lamps, remain widespread in smaller towns, rural areas, and remote communities due to their lower installation costs and simple operation. However, there is a gradual trend toward retrofitting these systems with LED technology to improve energy efficiency and reduce maintenance requirements. Hybrid street lights, combining traditional lighting with renewable energy sources such as solar power, are gaining popularity in off-grid locations, parks, and suburban developments where extending the electrical grid is challenging or expensive. These systems offer energy independence, lower operating costs, and environmental benefits, aligning with Canada’s strong focus on sustainability and renewable energy adoption. Across the country, the demand for street lighting is shaped by smart city initiatives, environmental policies, and the need to balance efficiency, safety, and cost-effectiveness. Municipalities are prioritizing solutions that not only illuminate streets but also integrate with broader urban management systems, such as traffic control and environmental monitoring, creating opportunities for innovative and adaptable lighting infrastructure.

In Canada, the Less Than 50W segment is widely used in residential neighborhoods, pedestrian pathways, parks, and other low-traffic areas where minimal illumination is sufficient. Canadian municipalities favor these fixtures for their energy efficiency, long lifespan, and lower maintenance costs, which help reduce operational expenses while maintaining community safety. Many cities, including Toronto, Vancouver, and Calgary, are integrating smart features such as motion sensors and dimming controls into this segment, allowing lighting to adapt to pedestrian and vehicular activity and further optimize energy usage, reflecting Canada’s commitment to sustainable urban infrastructure. The Between 50W and 150W segment in Canada is primarily deployed along urban streets, medium-traffic roads, commercial zones, and public spaces where higher levels of illumination are necessary to ensure safety and visibility. LED fixtures in this wattage range are commonly adopted in cities like Montreal, Ottawa, and Edmonton because they offer a balance between brightness and energy efficiency. Canadian municipalities are increasingly pairing these lights with smart systems that enable real-time monitoring, remote control, and adaptive dimming based on traffic and pedestrian flow. This approach not only reduces energy consumption but also supports public safety initiatives and aligns with broader smart city programs promoted across Canada, including government-supported energy-efficiency and sustainability initiatives.

For streets and roadways, municipalities are increasingly replacing older high-pressure sodium and metal halide lamps with LED fixtures to reduce energy consumption and lower maintenance costs, while enhancing pedestrian safety and traffic management. Smart lighting systems with adaptive brightness, motion detection, and remote monitoring are becoming more prevalent in Canadian cities, allowing authorities to optimize operational efficiency, minimize light pollution, and improve public safety. On highways, durable, high-performance LED systems are preferred to ensure consistent illumination under harsh weather conditions, heavy snowfall, and varying visibility, which is critical for driver safety. Adaptive highway lighting that adjusts based on traffic patterns and ambient light is gradually being adopted, particularly along major interstates and expressways, to improve visibility and reduce energy use. Other end-use applications, including tunnels, bridges, recreational areas, and parking lots, require specialized lighting solutions that balance safety, aesthetics, and environmental considerations. Tunnel lighting is designed to provide uniform illumination to prevent accidents, while bridge lighting often emphasizes both functionality and architectural appeal. Recreational and pedestrian zones are increasingly equipped with energy-efficient, smart-controlled lighting to enhance security and user experience while minimizing environmental impact. Federal and provincial programs supporting sustainable infrastructure and energy-efficient public lighting have further accelerated the adoption of advanced lighting technologies in Canada.

Considered in this report
• Historic Year: 2019
• Base year: 2024
• Estimated year: 2025
• Forecast year: 2030

Aspects covered in this report
• Street light Market with its value and forecast along with its segments
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation

By Product Type
• Smart Street Lights
• Conventional Street Lights
• Hybrid Street Lights

By Wattage Type
• Less Than 50W
• Between 50W and 150W

By End Use
• Streets & Roadways
• Highways
• Other End-uses Show more