Skip to Main Content Area
  • CPS-VO
    • Contact Support
  • Browse
    • Calendar
    • Announcements
    • Repositories
    • Groups
  • Search
    • Search for Content
    • Search for a Group
    • Search for People
    • Search for a Project
    • Tagcloud
      
 
Not a member?
Click here to register!
Forgot username or password?
 
Home
National Science Foundation

Cyber-Physical Systems Virtual Organization

Read-only archive of site from September 29, 2023.

CPS-VO

single-phase transformer structure

biblio

Visible to the public Direct-Current and Alternate-Decay-Current Hybrid Integrative Power Supplies Design Applied to DC Bias Treatment

Submitted by aekwall on Mon, 11/30/2020 - 12:06pm
  • nanocomposite magnetic state adjustment
  • dc bias treatment
  • demagnetization effect
  • demagnetization power supplies
  • external magnetic field
  • integrated power supplies
  • inverter circuit
  • invertors
  • magnetic field strength
  • magnetic materials
  • material remanence
  • nanocomposite magnetic material
  • dc bias magnetic compensation mechanism
  • nanocomposites
  • negative dc magnetization
  • positive magnetization
  • rectifier circuit
  • rectifying circuits
  • single-phase rectifier circuit
  • single-phase transformer structure
  • Soft magnetic materials
  • transformer main core
  • transformer windings
  • Magnetic Remanence
  • magnetic material
  • Resiliency
  • pubcrawl
  • cyber physical systems
  • Compositionality
  • ferromagnetic materials
  • remanence
  • demagnetisation
  • Magnetic domains
  • magnetic hysteresis
  • Magnetic flux
  • Saturation magnetization
  • Internet of Things
  • Demagnetization
  • magnetisation
  • iron alloys
  • power supply
  • power transformers
  • ac demagnetization hybrid integrative power supplies
  • alternate-decay-current hybrid integrative magnetization
  • alternate-decay-current hybrid integrative power supplies design
  • apparent power 10 kVA
  • apparent power 2.0 kVA
  • dc bias flux

Terms of Use  |  ©2023. CPS-VO