Specifications:
  • Vin 100 mV to 4.5 V
  • Cold start 3 μW @ 275 mV
  • Pin 3 μW to 570mW
  • Pout N/A
  • Source Regulation MPP Tracking
  • Package QFN28; 4 x 4 mm

Ultra-low-power start-up

  • Cold start from 275 mV input voltage and 3 μW input power (typical)

Highly efficient energy extraction

  • Open-circuit voltage sensing for Maximum Power Point Tracking (MPPT);
  • Selectable open-circuit voltage ratios from 60% to 90% or fixed impedance;
  • Programmable MPPT sensing period;
  • MPPT voltage operation range from 100 mV to 4.5 V.

Adaptive and smart energy management

  • Switches automatically between boost, buck-boost and buck operation, to maximize energy transfer from its input to the output

Battery protective features

  • Selectable over-charge and over-discharge protection for any type of rechargeable battery or (super-)capacitor;
  • Fast super-capacitor charging;
  • Dual cell super-capacitor balancing circuit.

Smallest footprint, smallest BOM:

  • Only three external components are required;
  • One 10 μH inductor;
  • Two capacitors: one 10 μF, one 15 μF.

AEM10300 Datasheet Download
AEM10300 Product Brief Download
CAD files about the AEM10300 / Simplified schematic and BOM Download
AEM10300 Configuration Tool Download
The new 24/7 Sensor Node Evaluation board is based upon AEM10300 Energy harvesting Battery charger. It is featuring a unique ‘ambient energy aware’ approach, combining a smart boost sequence and an adaptive sensing phase. A key feature of AEM10300 is a null quiescent current when the energy source is not providing energy. The Sensor node is a complete system embedding the OPV source from Dracula Technology, a Small storage element from Nichicon as well as onsemi RSL10 BLE front-end. Sensors capability include Temperature, Atmospheric pressure, and 3 axis accelerometer.
This EVK can stay broadcasting sensor data for several months in complete darkness. Developers will find all necessary resources to customize storage element and PV size selection. BLE advertising can be displayed with e-peas AEM10300 iOS mobile application or on any android BLE scanner.
• Read the PR about this board here.
The AEM10300 evaluation board is a printed circuit board (PCB) featuring all the needed components to operate the AEM10300 integrated circuit (IC). The AEM10300 evaluation board allows users to test the e- peas IC and analyse its performances in a laboratory-like setting.
It allows easy connections to the energy harvester and the storage element. It also provides all the configuration access to set the device in any one of the modes described in the datasheet. The control and status signals are available on standard pin headers, allowing users to wire for any usage scenario and evaluate the relevant performances.
AEM10300 Quick Start Guide Download
24-7 EVK User guide Download
AEM10300 EVK User guide Download

The new 24/7 Sensor Node Evaluation board is based upon AEM10300 Energy harvesting Battery charger. It is featuring a unique ‘ambient energy aware’ approach, combining a smart boost sequence and an adaptive sensing phase. A key feature of AEM10300 is a null quiescent current when the energy source is not providing energy. The Sensor node is a complete system embedding the OPV source from Dracula Technology, a Small storage element from Nichicon as well as onsemi RSL10 BLE front-end. Sensors capability include Temperature, Atmospheric pressure, and 3 axis accelerometer.
This EVK can stay broadcasting sensor data for several months in complete darkness. Developers will find all necessary resources to customize storage element and PV size selection. BLE advertising can be displayed with e-peas AEM10300 iOS mobile application or on any android BLE scanner.
• Read the PR about this board here.
The AEM10300 evaluation board is a printed circuit board (PCB) featuring all the needed components to operate the AEM10300 integrated circuit (IC). The AEM10300 evaluation board allows users to test the e- peas IC and analyse its performances in a laboratory-like setting.
It allows easy connections to the energy harvester and the storage element. It also provides all the configuration access to set the device in any one of the modes described in the datasheet. The control and status signals are available on standard pin headers, allowing users to wire for any usage scenario and evaluate the relevant performances.
AEM10300 Quick Start Guide Download
24-7 EVK User guide Download
AEM10300 EVK User guide Download

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