Summary
Title of Proposal: “Miniaturised Energy harvester for AutoNomous INdustrial, Global retail and FUture smart-city appLications”
Acronym: MEANINGFUL
The MEANINGFUL project will establish the feasibility of using Lightricity’s miniaturised (mm^2 range) Photovoltaic Energy harvesting (EH) patented-technology as a cost-effective renewable energy source for the billions of connected ultra-low power sensors that will be located indoors. Lightricity has already demonstrated up to 6x more power density (under indoor light) than conventional Silicon-based technology, on the macro-scale (~10cm^2 EH devices). The key innovations will be on extreme miniaturisation, implementation of cost-down processes and integration with complementary ultra-low power electronics and sensors.
On the technical side, we will focus on the mass-manufacturability of ultra-high efficient micro-scale EH components and on their 3D compact integration with ultra-low quiescent power management chip-sets, rechargeable storage elements (Lithium-free storage) and ultra-low power embedded microcontrollers (incl. ARM Cortex MCUs) for sensing and RF connectivity. The objective is to achieve the sellable product stage as soon as possible, by offering an ultra-compact, efficient and low-cost battery-less solution.
On the commercial side, we will investigate the technical and cost requirements amongst our end-users (ARM, Cambridge IQ, Ahead-of-the-Curve/AotC) and in the market, in order to validate Lightricity’s technology for the most promising market segments (where there is a strong customer and technology pull): Retail (smart packaging and labels, anti-counterfeiting, smart payment cards), Industrial IoT (asset tracking, monitoring and positioning devices) and smart cities (environmental sensing, smart parking etc.).
The project outcomes are anticipated to be a combination of physical prototypes, technical feasibility (process flow for scale-up) and market research (incl. financial feasibility).
Acronym: MEANINGFUL
The MEANINGFUL project will establish the feasibility of using Lightricity’s miniaturised (mm^2 range) Photovoltaic Energy harvesting (EH) patented-technology as a cost-effective renewable energy source for the billions of connected ultra-low power sensors that will be located indoors. Lightricity has already demonstrated up to 6x more power density (under indoor light) than conventional Silicon-based technology, on the macro-scale (~10cm^2 EH devices). The key innovations will be on extreme miniaturisation, implementation of cost-down processes and integration with complementary ultra-low power electronics and sensors.
On the technical side, we will focus on the mass-manufacturability of ultra-high efficient micro-scale EH components and on their 3D compact integration with ultra-low quiescent power management chip-sets, rechargeable storage elements (Lithium-free storage) and ultra-low power embedded microcontrollers (incl. ARM Cortex MCUs) for sensing and RF connectivity. The objective is to achieve the sellable product stage as soon as possible, by offering an ultra-compact, efficient and low-cost battery-less solution.
On the commercial side, we will investigate the technical and cost requirements amongst our end-users (ARM, Cambridge IQ, Ahead-of-the-Curve/AotC) and in the market, in order to validate Lightricity’s technology for the most promising market segments (where there is a strong customer and technology pull): Retail (smart packaging and labels, anti-counterfeiting, smart payment cards), Industrial IoT (asset tracking, monitoring and positioning devices) and smart cities (environmental sensing, smart parking etc.).
The project outcomes are anticipated to be a combination of physical prototypes, technical feasibility (process flow for scale-up) and market research (incl. financial feasibility).
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/855170 |
| Start date: | 01-05-2019 |
| End date: | 31-10-2019 |
| Total budget - Public funding: | 71 429,00 Euro - 50 000,00 Euro |
Cordis data
Original description
Title of Proposal: “Miniaturised Energy harvester for AutoNomous INdustrial, Global retail and FUture smart-city appLications”Acronym: MEANINGFUL
The MEANINGFUL project will establish the feasibility of using Lightricity’s miniaturised (mm^2 range) Photovoltaic Energy harvesting (EH) patented-technology as a cost-effective renewable energy source for the billions of connected ultra-low power sensors that will be located indoors. Lightricity has already demonstrated up to 6x more power density (under indoor light) than conventional Silicon-based technology, on the macro-scale (~10cm^2 EH devices). The key innovations will be on extreme miniaturisation, implementation of cost-down processes and integration with complementary ultra-low power electronics and sensors.
On the technical side, we will focus on the mass-manufacturability of ultra-high efficient micro-scale EH components and on their 3D compact integration with ultra-low quiescent power management chip-sets, rechargeable storage elements (Lithium-free storage) and ultra-low power embedded microcontrollers (incl. ARM Cortex MCUs) for sensing and RF connectivity. The objective is to achieve the sellable product stage as soon as possible, by offering an ultra-compact, efficient and low-cost battery-less solution.
On the commercial side, we will investigate the technical and cost requirements amongst our end-users (ARM, Cambridge IQ, Ahead-of-the-Curve/AotC) and in the market, in order to validate Lightricity’s technology for the most promising market segments (where there is a strong customer and technology pull): Retail (smart packaging and labels, anti-counterfeiting, smart payment cards), Industrial IoT (asset tracking, monitoring and positioning devices) and smart cities (environmental sensing, smart parking etc.).
The project outcomes are anticipated to be a combination of physical prototypes, technical feasibility (process flow for scale-up) and market research (incl. financial feasibility).
Status
CLOSEDCall topic
EIC-SMEInst-2018-2020Update Date
27-10-2022
Geographical location(s)
Structured mapping
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