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LESS POWER. LESS WASTE. SUSTAINABLE IoT.

Massive IoT Deployments: The Battery Problem

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Actionable data, automation, and efficiency

Drives IoT adoption

End user IoT device requirements

Minimize power, servicing, & waste.

 

Maximize device lifecycle

Barriers to sustainable IoT deployments

Power-hungry wireless connectivity

 

Millions of battery replacements

 

E-waste generation

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Addressing Battery Use: Ultra-Low Power RF for Wi-Fi

Wi-Fi Connected IoT Device

Standard battery life

HaiLa Wi-Fi Connected IoT Device

Hyper-extended battery life

HaiLa Wi-Fi Connected & Ambient Powered IoT Device

No battery: Enable ambient power sources

Harvested energy

Harvested energy sources listed here are used in place of a battery in the IoT device

RF

Solar

Vibration

Thermal

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Supporting Sustainable IoT Connectivity

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Hyper-extended battery life

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Smaller

batteries

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Less battery

waste

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Path to

battery-free

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Repurpose

existing wireless infrastructure

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Reduces GHG emissions & abates landfill waste

Reducing energy for battery production & recycling

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Avoiding energy use for additional infrastructure build out

Jacobs Engineering Life Cycle Analysis (LCA) study based on third party HaiLa device testing

14x 

reduction

in Greenhouse Gas (GHG) emissions

over 10 years

98% 

reduction

in Potentially Disappeared Fraction (PDF) over

10 years

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