e-peas AEM30300 RF Energy Harvesting Battery Charger User Guide

June 6, 2024
e-peas

e-peas AEM30300 RF Energy Harvesting Battery Charger

FEATURES

Connectors

  • 3 screw connectors for the source (1 for the DC and 2 for the AC)
  • 1 screw connector + 1 JST connector for the Storage Element
  • 1 screw connector for the application supply
  • 1 screw connector for RZMPP

Configuration

  • 3 jumpers R_MPP[x] to define the MPP ratio linked to the harvester technology
  • 2 jumpers T_MPP[x] to define the MPP timing
  • 4 jumpers STO_CFG[x] to define the storage element protection levels
  • 4 resistors footprint related to the custom mode (STO_CFG[3:0]=LHHH)
  • 1 jumper to set the dual cell supercapacitor BAL feature
  • 3 jumpers to enable the different modes
  • 2 jumpers to enable the application output supply
  • 1 jumper to select the rectifier

Size

  • 79mm x 49mm
  • 4 x M2.5 Mounting holes

SUPPORT PCB

BOM around the AEM30300e-peas-AEM30300-RF-Energy-Harvesting-Battery-
Charger-fig1 Footprint & Symbol: Informations available on the datasheet

  • STEP 1: AEM30300 Configuratione-peas-AEM30300-RF-Energy-Harvesting-Battery-Charger-fig3
  • STEP 2: Connect the Storage Element
  • STEP 3: Connect the Photovoltaic Cell
    • Internal Boost efficiency Vs. input voltage in Low Power mode:e-peas-AEM30300-RF-Energy-Harvesting-Battery-Charger-fig4
    • Internal Boost efficiency Vs. input voltage in High Power mode:e-peas-AEM30300-RF-Energy-Harvesting-Battery-Charger-fig5
  • STEP 4: Check the Statuse-peas-AEM30300-RF-Energy-Harvesting-Battery-Charger-fig6

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References

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