Energyra® DeflectIQ
No glare, no flare
Today, solar panels are mainstream in all industrial and civilian areas. In some specific applications the installation of solar panels requires extra care. For instance at airports, military sites or next to highways reflections, glare of flash blindness may be disturbing. Our DeflectIQ panel is made of real anti-reflex glass, rather than a traditional AR coating (which is insufficient).
Airport & Highway Solution
The risk of an ocular impact is a concern for locations such as airports, where pilots, tower personnel and even military personnel may be disturbed by a glint or glare from solar panels.
For the application of solar panels at these locations, a traditional AR coating is not sufficient.
Energrya is proud to present the DeflectIQ panel. No coating, but real anti-reflex, fully deflective glass. With all the advantages and features that entails.
Unique - EU manufactured - deflective glass. No power-harvest concessions. No trade-offs in lifespan. Low carbon footprint. Industry standard mounting. And: a record-breaking power density & redundancy.
This unique product is only available upon special request, since the applied (iron-free, antimony-free, high transmittance) glass is, let's say, not a mainstream product. However: appplied in our module, results are breathtaking. This truly enables solar in traditional no-go area's.
The Energyra DefelectIQ is a certified product and available in a range of 345 to 370 Wattpeak (Wp).
Still compact (1683x1023 mm), light (17,6 kg) and with an incredible power density, DeflectIQ results in maximum power harvest for any demanding environment. Do you prefer a special size? Let us know - we've already seen quite a few special (and sensitive) applications.
All Energyra solar modules combine innovative MWT cell and module technology of the highest quality to achieve high efficiency, excellent weak light performance and durability under dynamic weather conditions.
Picture: Energyra R&D.
A very clear difference: the lack of busbars, tabbers, stringers ensure a more sturdy module while increasing the actual power harvest with architectural design and no reflection.
Some benefits at a glance
MWT - PERC solar cells
More net surface to generate power
Each solar cell converts sunlight into electricity. PERC monocrystalline cells are known for their broader spectral response, allowing them to generate lots of power in the early morning and late afternoon light as well. Combined with MWT (Multi Wrap Through) technology, the cells have a larger working surface that is exposed to the sun than conventional cells. Busbars are unnecessary. Above all: busbar-shading is completely ruled out!
~3%
More working surface
>0.5%
More efficiency
Minimized micro-crack risk
More robust than conventional modules
Small cracks in solar cells are impossible to see with the bare eye, but can really impact the performance of a PV system. Most solar cells are composed of very thin silicon wafers, usually around 0.15 - 0.20 mm thick. Pressure or stress can induce micro-cracks. Newbies in the solar industry often unknowingly create micro-cracks by throwing boxes of gear on top of stacked panels or even balancing panels on their heads as they walk towards a ladder. Standing or kneeling on panels during installation is also a contributor to micro-cracks.
Energyra backcontact modules are more robust than conventional modules because of the integrated Conductive Backsheet (CBS). This innovative copper design ensures optimal contact with an incredible number of contact points across the entire cell. It acts as an additional (metal) environmental barrier to protect the cells and keep them sturdily in place, and actually strengthens the contacting architecture. If a micro-crack should occur, the cell will still be in perfect contact with the copper that conducts the energy, effectively designing the negative effects of microcracks out of the module.
Quality cells combined with high-quality European solar glass and sturdy frames makes Energyra modules virtually immune to micro-cracks in real-life conditions.