Is the Solar-Powered E-Rickshaw Here to Stay?

Solar-powered rickshaws are becoming increasingly popular across India, offering a promising solution to reduce carbon emissions and promote cleaner transportation. As the country moves towards sustainable energy sources, converting traditional rickshaws into solar e-rickshaws could play a significant role in shaping the future of urban mobility. So, what exactly is a solar e-rickshaw? It's a type of electric rickshaw that uses solar panels installed on its roof to generate electricity, which is then stored in a battery to power the vehicle. This means that instead of relying solely on grid electricity, these rickshaws can harness the sun’s energy during the day, making them more eco-friendly and cost-effective in the long run. However, it's important to understand that while the solar panels help charge the battery, they may not be sufficient to power the entire journey on their own—especially in areas with limited sunlight or for longer routes. That said, the combination of solar charging and regular battery recharging makes these vehicles a practical option for many drivers. One of the main concerns about solar e-rickshaws is the source of the electricity used for charging. In many parts of India, the power grid still relies heavily on coal, which contributes to carbon emissions. To address this, companies are exploring alternatives like solar inverters and better battery technologies to make the system more sustainable. In terms of performance, solar e-rickshaws typically have a top speed of around 25 km/h, which makes them ideal for short-distance travel within cities. While this might not be suitable for high-speed roads, it's more than enough for local transport, especially in crowded urban areas where traffic congestion is common. The environmental benefits are also significant. According to various reports, replacing traditional CNG rickshaws with e-rickshaws could reduce annual carbon emissions by thousands of tonnes. With over 1.5 million e-rickshaws already on the road and more being added every month, the shift toward solar-powered versions seems inevitable. Looking ahead, manufacturers are working on improving the design of solar rickshaws to make them safer, more durable, and more comfortable for both drivers and passengers. Some are even experimenting with battery-swapping systems, allowing drivers to quickly replace depleted batteries with fully charged ones—an idea that could revolutionize how these vehicles are used. Despite the current price range (between INR 1,00,000 and 2,00,000), the long-term savings on fuel and maintenance make solar e-rickshaws an attractive investment. Plus, with government incentives and growing awareness, the adoption of these vehicles is expected to increase rapidly. In conclusion, solar e-rickshaws are not just a passing trend—they represent a meaningful step toward greener, more affordable transportation. For drivers looking to transition from traditional rickshaws, now is the perfect time to explore the possibilities of solar-powered mobility. If you're interested in making the switch, reach out to us today and take the first step toward a cleaner, more sustainable future.

UV Curable Conformal Coating

UV conformal adhesive is an adhesive that can cure quickly under ultraviolet irradiation. It is mainly used to protect electronic components from moisture, dust and chemical substances.It can be used for protection of circuit boards.
 
Characteristics of UV curable conformal coating:
1.Fast curing: Under ultraviolet irradiation, it can be quickly cured in a short time to improve production efficiency.
 
2.Good protective performance: It can effectively prevent moisture, dust and chemical substances from damaging electronic components and extend the service life of electronic equipment.
 
3.High transparency: It has good transparency after curing and does not affect the appearance and marking of electronic components.
 
4.High and low temperature resistance: It can still maintain stable performance in different temperature environments.
5.Environmental protection: generally does not contain harmful solvents and meets environmental protection requirements.
 
Application
1. Consumer Electronics
  • ​Devices: Smartphones, wearables, tablets, laptops, and IoT devices.
  • ​Purpose: Protect PCBs from moisture, dust, and chemical exposure in compact, high-density designs.
  • ​Advantage: Fast curing (<1 minute) supports high-volume production.
​2. Automotive Electronics
  • ​Components: Engine control units (ECUs), sensors, infotainment systems, EV battery management systems (BMS), and ADAS modules.
  • ​Purpose: Shield against temperature extremes, vibration, humidity, and automotive fluids (e.g., oils, fuels).
  • ​Advantage: Low thermal stress prevents damage to heat-sensitive parts.
​3. Aerospace and Defense
  • ​Applications: Avionics, radar systems, satellite electronics, and communication modules.
  • ​Purpose: Ensure reliability in extreme environments (high altitude, radiation, thermal cycling).
  • ​Advantage: Meets stringent MIL-STD and IPC standards for durability.
​4. Medical Devices
  • ​Examples: Implantable devices, diagnostic equipment, wearable monitors, and surgical tools.
  • ​Purpose: Protect against bodily fluids, sterilization processes (e.g., autoclaving), and biocompatibility requirements.
  • ​Advantage: Low-VOC formulations comply with FDA and ISO 13485 standards.
​5. Industrial Electronics
  • ​Applications: Motor drives, robotics, power supplies, and automation controllers.
  • ​Purpose: Resist dust, chemicals, and humidity in harsh factory or outdoor environments.
  • ​Advantage: High dielectric strength prevents short circuits in high-voltage systems.
​6. LED Lighting
  • ​Use Cases: PCB protection in LED drivers, streetlights, and horticultural lighting systems.
  • ​Purpose: Guard against thermal stress, humidity, and UV/IR exposure.
  • ​Advantage: Transparent coatings maintain light output efficiency.
​7. Telecommunications
  • ​Components: 5G infrastructure, base stations, routers, and fiber-optic modules.
  • ​Purpose: Ensure signal integrity and protect against environmental corrosion.
  • ​Advantage: Thin, uniform coatings minimize signal interference.
​8. Military and Ruggedized Systems
  • ​Examples: Battlefield communication devices, unmanned vehicles, and missile guidance systems.
  • ​Purpose: Enhance survivability under shock, vibration, and extreme temperatures.
  • ​Advantage: Rapid field repairs using portable UV lamps.
​9. IoT and Smart Devices
  • ​Applications: Smart home sensors, agricultural monitors, and asset-tracking systems.
  • ​Purpose: Enable long-term reliability in diverse environmental conditions.
  • ​Advantage: Selective coating reduces material waste in small-scale designs.
​10. Renewable Energy Systems
  • ​Components: Solar inverters, wind turbine controllers, and battery storage systems.
  • ​Purpose: Protect against outdoor exposure, temperature fluctuations, and salt spray.
  • ​Advantage: UV resistance prevents yellowing or degradation over time.
 

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Dongguan Shuangzhan Industrial Co.,Ltd , https://www.lingwogroup.com