BOTTOM LINE UP FRONT:
BM-HFMDB is a patented Bi-directional, Balanced Multiphase, High Frequency, electricity Micro-Distribution Bus for electric vehicles, ships, solar farms, and wind farms, etc. with a new magnetic sharing circuit and control architecture that comprises modular, scalable, and versatile frequency, phase, and voltage level translation power conditioning nodes placed anywhere along its length with considerably higher power density, lower harmonic content and fewer electronic stages in a system of systems (SoS) application for highest efficiency and lowest cost.
BM-HFMDB is a patented bi-directional, balanced multiphase, high frequency, electricity micro distribution bus system with a new magnetic sharing circuit and control architecture that comprises compact, modular, scalable, and versatile frequency, phase, and voltage level translation power conditioning nodes in a system of systems (SoS), such electric vehicles, ships, solar and wind farms, etc. With the micro-distribution bus as the intermediate stage, the power conditioning nodes are based on modified brushless multiphase self commutated controller (BMSCC) building blocks that require fewer electronic stages with considerably lower harmonic content and as a result, BM-HFMDB provides the highest efficiency and lowest cost micro-distribution system for a SoS.
Traditionally, complete three stage electronic power inverters are placed along a micro-distribution bus, such as a DC bus, to service the system of systems (SOS) of an electric vehicle or ship system, such as electric motor, generator and accessory systems, but only BMSCC can be modified as a power conditioning node comprising the secondary or the primary stage of power conditioning electronics with half of the PDF-HFT windings (i.e., secondary or primary) with the other half of PDF-HFT windings (i.e., primary or secondary) directly implementing BEM’s patented isolated bi-directional balanced multiphase, soft-switching high frequency, AC micro distribution bus (BM-HFMDB) as the intermediate stage. As a result, BM-HFMDB services the SOS with fewer electronic stages (e.g., higher power density), purer sinusoidal waveforms, lower cost, and higher efficiency.