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
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
RF
Solar
Vibration
Thermal
Harvested energy sources listed here are used in place of a battery in the IoT device
Supporting Sustainable IoT Connectivity
Hyper-extended battery life
Smaller
batteries
Less battery
waste
Path to
battery-free
Repurpose
existing wireless infrastructure
Reduces GHG emissions & abates landfill waste
Reducing energy for battery production & recycling
Avoiding energy use for additional infrastructure build out
Jacobs Engineering Life Cycle Analysis (LCA) approach environmental study based on third party HaiLa device testing
14x
reduction
estimated for Greenhouse Gas (GHG) emissions
over 10 years
98%
reduction
estimated for Potentially Disappeared Fraction (PDF) over
10 years
