Solar-powered GPS position tracker vs battery powered
The solar-powered GPS tracker is protected by an IP67 waterproof housing and features a rechargeable battery capable of transmitting up to 10,000 GPS positions on a single charge. The bigprovides enough electricity to charge the integrated rechargeable lithium battery for up to 20 GPS location transmissions each day.
Solar batteries are normally composed of two elements that react inside the battery to store and discharge electricity: lead-acid, a more traditional and less expensive variety, and lithium-ion, the most popular type at the moment.
We have seen substantial advancements in the quality, capacity, and performance of primary cell batteries in recent years. By combining these batteries with smart and flexible firmware features and robust hardware design, we’ve been able to create industry-leading batteries with fewer components and a lower price point.
Solar-powered GPS trackers and battery-powered trackers are the most popular and necessary types of non-powered asset tracking. They are tailored to certain scenarios and requirements. Both sorts are indispensable to one another, and each has its own set of advantages and disadvantages.
Solar-powered GPS position tracker vs battery-powered (Pros & Cons)
The solar panel can supply enough power to the device to enable real-time location updates. This ensures that the battery is never physically recharged. With a reporting interval that is appropriate for your local climate, the battery will remain healthy for years. Indeed, there are occasions when the solar panel receives an excessive amount of energy from the sun and the battery is already fully charged.
Location Updates in Real-Time:
Solar-powered trackers are capable of updating locations significantly more frequently than battery-powered trackers. The inbuilt battery is sufficiently huge to give electricity for months if there is no line of sight to the sun.
Outdoor trackers necessitate a more sophisticated design. Solar trackers are even more efficient than battery trackers. Because there are seams around the solar panel, there is a possibility of a leak if the seams are not robust enough to withstand the changing weather.
Rate of Charging vs. Rate of Discharge:
To achieve a balance between the variable battery consumption rate and the rate of solar panel charging. You don’t want it charging excessively and harming the battery, or charging insufficiently and leaving the battery flat. It necessitates an in-depth knowledge and competence of the battery. This is also the primary component that contributes to battery life degradation when the balance is not maintained precisely and correctly.
Solar Panel Selection:
The latest technology and the type of solar panel used to have a significant impact on the product’s performance. It can convert as much light as possible to energy to maintain the battery charged and is capable of sustaining 1-minute GPS fixes for the duration of the product’s life.
Most fleet tracking software uses battery-powered tracking systems. Solar energy companies have more options than ever before for making the most out of their equipment. The biggest advantage of operating a solar-powered GPS tracking system is that it can continuously recharge the battery over the day. Many countries have started what is called the Solar Tax Credit Extension. Fewer also offers financial incentives for companies that want to switch to solar power. Modern tracking systems come with panels that can tilt themselves to garner maximum sunlight, and are all-weatherproof.