In response to increasing concerns about vehicle safety and performance, EROPGEHADA INC., a company specializing in eco-energy and renewable energy research, has developed a groundbreaking solution called Cardition. This innovative device, which uses far-infrared wave technology to stabilize vehicle battery voltage and current, is set to launch on the global crowdfunding platform Indiegogo on October 29, 2024.
The introduction of Cardition comes at a crucial time when fire incidents in both internal combustion engines and electric vehicles have become a significant safety concern worldwide. EROPGEHADA INC. has identified the growing complexity of electrical systems in modern vehicles, which rely on a single battery, as a key issue. The cyclical nature of battery charging while driving and discharging while idle has been recognized as a factor that can impact battery performance and potentially compromise vehicle safety.
Cardition aims to address these concerns by using far-infrared waves to stabilize and optimize the current and voltage output of the vehicle's battery. This technology is designed to ensure that all onboard electronics operate safely and efficiently, potentially enhancing overall vehicle performance, including the engine and transmission.
The device combines Illite, a material known for its excellent conductivity and far-infrared emission properties, with a proprietary synthetic liquid developed by EROPGEHADA INC. over 12 years. According to the company, these far-infrared waves influence the molecular structure of the battery's current, maintaining battery performance even when the vehicle is idle and delivering stable power output for optimal driving performance when in use.
Internal testing has shown promising results. EROPGEHADA INC. reports that Cardition's far-infrared waves emit continuously across various environmental conditions without requiring an external power source. The device has also passed cesium, radon, radiation, and standard material certification tests, indicating its safety for human exposure. In one test, attaching Cardition to a vehicle increased the maximum output from 167.32 At to 181.10 At. Test participants have reported smoother driving experiences and reduced noise, suggesting potential improvements in overall vehicle operation.
One of the key advantages of Cardition is its simplicity of use. The device can be easily mounted onto the positive battery terminal without the need for additional batteries or wiring. It requires no charging or maintenance, potentially offering a hassle-free solution for optimizing battery performance.
The launch of Cardition on Indiegogo could have significant implications for the automotive industry and vehicle owners. If successful, this technology could contribute to improved vehicle safety by reducing the risk of electrical system-related fires. Additionally, enhanced battery performance could lead to better fuel efficiency in internal combustion engines and extended range in electric vehicles.
For consumers, the potential benefits of Cardition include improved vehicle performance, reduced maintenance costs, and increased peace of mind regarding vehicle safety. The automotive industry may also take note of this innovation, potentially leading to further research and development in the area of vehicle electrical system optimization.
As vehicles become increasingly reliant on complex electrical systems, solutions like Cardition may play a crucial role in ensuring the safety and efficiency of both current and future automotive technologies. The success of this crowdfunding campaign and subsequent market performance of Cardition could signal a new direction in vehicle battery management and electrical system design.
