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Case study: Inspection UAVs

Lightweight power delivery networks enable maneuverable UAVs to inspect remote, wide operations

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Customer’s challenge

This class of UAV depends on solar power to meet its long flight time requirements. Solar power systems rely on the use of maximum powerpoint tracking (MPPT) circuitry to ensure that solar energy is harvested at the optimum voltage before conversion to a voltage suitable for charging a secondary battery, or delivery to the power system’s intermediate bus network. The key goals were:

  • Efficient high voltage to SELV conversion
  • A compact and lightweight solution to keep the drone as light as possible
  • A robust and reliable solution
Unmanned aircraft for communications image

The Vicor solution

As this class of UAVs develops, high-efficiency power-conversion topologies such as Zero-Voltage Switching and Zero-Current Switching (ZVS/ZCS) which are used in Vicor BCMs® are important to enable the widening variety of fuel sources and applications with increasing power challenges.

Key benefits

Key benefits

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Efficiently convert high voltages to SELV

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Lightweight power delivery network

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Wide input range at point-of-load conversion

Power delivery network

A combination of the BCM6123 providing the isolated conversion of the 350V to a 48V intermediate bus and the PI3741 ZVS Buck-Boost regulator with a very wide range input voltage operating capability provides a tightly regulated 28V output for various UAV loads.

Vicor power delivery network for unmanned aircraft for communications
BCM family page

BCM バスコンバータモジュール


入力電圧: 800 – 48V


出力電圧: 2.4 – 55.0V


出力電流: 最大150A


効率: 最大98%


22.0 x 16.5 x 6.7mm  他


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ZVS Buck-Boost Regulator


入力電圧:  8-60V


出力電圧: 10-54V


出力電流: Max 150W(連続)


効率: 98% or higher


10.5 x 14.5 x 3.05mm


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