Bipolar transistors


ESD protection, TVS, filtering and signal conditioning





Analog & Logic ICs

Automotive qualified products (AEC-Q100/Q101)

Energy harvesting power management ICs

The world’s most innovative energy harvesting IC with the smallest footprint

Nexperia energy harvesting solutions powers devices by using energy already available at its location. The ultra-compact, high-performing chipsets features a unique technology for a reduced BOM cost and ultra-fast Maximum Power Point Tracking (MPPT). By continuously harvesting energy from the environment into consumer electronics & IoT devices with clean ambient energy, our energy harvesting PMICs remove the need for battery swaps, contributing to a more sustainable future of electronics.

Key features and benefits

  • Optimized to efficiently harvest energy from a wide range of ambient sources (light, kinetic, temperature variations, radio signals) 
  • Unique inductorless design allowing a reduced BOM cost
  • Ultra-compact chips with <20 mm2 assembly area
  • Designed for low-power applications
  • High power conversion efficiency
  • Ultra-fast MPPT, adapts within up to 0,5 second
  • Basic power management features (e.g. battery protection, USB charging, LDO)
  • Suitable for a wide range of storage elements as well as batteryless designs thanks to cold start

Key applications

  • Wireless IoT devices
  • Remote control units (e.g. TV)
  • Electronic shelf labels
  • Industrial and environmental monitoring 
  • Smart wearables
  • Consumer electronics

Positive Environmental Impact

In certain consumer products and IoT implementations, energy harvesting with rechargeable batteries is a promising field which can significantly increase battery lifespan while reducing the total cost of ownership. Energy harvesting here refers to the efficient utilization of ambient energy sources like solar, temperature gradients, radio frequency and vibrations to power devices. 

Not only does it help the environment by lowering the number of primary batteries being discarded but also by lowering the volume of raw materials being mined because current batteries have a longer lifespan. Our long-term goal should be using natural resources efficiently with the least possible environmental footprint. 

Read the full article here: 

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Energy harvesting power management ICs
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Type number Description Status Quick access
NEH2000BY Energy harvesting PMIC Production
Visit our documentation center for all documentation

Leaflet (2)

File name Title Type Date
2023-0001_NEX_045_Energy_Harvesting_Solution_leaflet_CN-final.pdf Nexperia_NEH2000BY_Energy_Harvesting_Solution_leaflet Leaflet 2024-01-05
Nexperia_NEH2000BY_Energy_Harvesting_Solution_leaflet.pdf Maximize energy storage and sustainability in IoT and low power wireless devices with energy harvesting PMIC Leaflet 2023-04-04

Marcom graphics (1)

File name Title Type Date
SOT8076-1_HWQFN16.png plastic thermal enhanced very very thin Quad Flat packages; no leads; 16 terminals; 0.5 mm pitch; 3.0 × 3.0 × 0.75 mm body Marcom graphics 2023-03-06

Schematic diagram (1)

File name Title Type Date
aaa-036398.png UM90020 Schematic Schematic diagram 2023-05-02

White paper (1)

File name Title Type Date
Nexperia_whitepaper_IoT_innovations.pdf Combining technology innovations to make IoT implementations most-effective and sustainable White paper 2023-04-04

Light Energy Harvesting - Energy Balance Calculator

Visualizing our Energy Harvesting System

Nexperia Energy Harvesting MPPT

Nexperia Energy Harvesting Solutions -- Nexperia and Mouser Electronics

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