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Sustainability Goals

The SDGs are a set of 17 global goals adopted by the United Nations in 2015 to address global challenges, including environmental, economic, and social issues. Among these, Goal 7 (Affordable and Clean Energy) and Goal 12 (Responsible Consumption and Production) are particularly relevant for companies that produce electronic devices.

Per un futuro sostenibile

Energy Harvesting

Thermal Management

Smart Batteries

Our Belief

Founded in 2019, Koral Technologies is a research and development-intensive company. We develop critical technologies to enable the innovations of tomorrow.

Through the use of advanced manufacturing technologies and targeted investments in scientific research and Intellectual Property, our goal is to provide innovative solutions for next-generation, energy-efficient electronics.

Investitori

Thermal management

The optimal thermal management of electronics is of fundamental importance to guarantee its nominal performance and to preserve its functionality under operation. We are developing advanced thermal management technologies with the aim to increase the energy efficiency of energy-intensive electronics products. 

Advanced manufacturing – only through advanced manufacturing technologies, we can optimise the available space and achieve high power-to-weight and/or power-to-volume ratios.

Precisely optimised – by exploiting advanced design and optimisation algorithms, we achieve the best possible cooling performance also in presence of a non-uniform or non-constant heat generation.

Wet and dry – we are working on both liquid and air-based cooling solutions, and also on a hybrid platform that can work at the same time in both conditions.

Flexible – our thermal management solutions are designed for a variety of applications in the aerospace, automotive and industrial sectors, but we can satisfy the needs of the client also through customised solutions.

Energy harvesting

The environment in which industrial and consumer devices operate is full of various energy sources that are normally lost: light, heat, vibrations, electromagnetic waves, etc. We are building energy harvesting platforms for making the energy available in the environment usable for end-user applications.

Battery-support – our energy harvesting technologies can be used either to support the use of a battery (e.g., by extending its duration), or to completely replace it thus avoiding the use of scarce raw materials.

Modular – by working on a modular platform, we are able to work with different energy sources and for various applications, with different power range, duty cycle, environment characteristics, etc.

Low-cost – our technologies are based on certified off-the-shelf components and our design is optimised to reach the best performance at the lowest possible cost for the client. 

Flexible – flexibility denotes in our case not only the possibility to realise energy harvesting with flexible electronics, but it derives directly from modularity: we can satisfy the needs of the client also through customised solutions.

Smart battery technologies

We are developing flexible sensing platforms to be integrated in battery cells and battery packs, in order to monitor the state of health (SoH) and the operative conditions. These innovative sensors allow:

– to increase the safety of the battery pack, because it is possible to detect in advance potential wrong operations or critical scenarios, such us those responsible for fires;

– to increase the performance, thanks to a constant monitoring of the SoH and thus to increase the battery life;

– to reduce costs, both for the integration of the sensors themselves and for the maintenance or substitution of the battery pack. We are also developing innovative UPS (Uninterruptible Power Supplies) based on Li- ion supercapacitors and fuzzy logic, for a reliable supply of energy in critical conditions. Our supercapacitors offer a longer life and faster recharge times with respect to batteries. In addition, we are developing hybrid energy storage products that combine the strengths of supercapacitors with those of batteries: high power and high energy density at the same time. Our products are flexible, because they can be easily integrated in smart grids or in standalone applications, and with different performance and size ranges.

Thermal management

The optimal thermal management of electronics is of fundamental importance to guarantee its nominal performance and to preserve its functionality under operation. We are developing advanced thermal management technologies with the aim to increase the energy efficiency of energy-intensive electronics products. 

Advanced manufacturing – only through advanced manufacturing technologies, we can optimise the available space and achieve high power-to-weight and/or power-to-volume ratios.

Precisely optimised – by exploiting advanced design and optimisation algorithms, we achieve the best possible cooling performance also in presence of a non-uniform or non-constant heat generation.

Wet and dry – we are working on both liquid and air-based cooling solutions, and also on a hybrid platform that can work at the same time in both conditions.

Flexible – our thermal management solutions are designed for a variety of applications in the aerospace, automotive and industrial sectors, but we can satisfy the needs of the client also through customised solutions.

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