• Home
  • European Passive Industry Database
    • Communities
  • PCNS Symposium
    • PCNS 2019 Call for Papers
    • PCNS 2017
  • ABC of CLR
  • e-PassiveBlog
  • e-Symposium
  • About
    • Sponsoring and Advertising
  • Home
  • European Passive Industry Database
    • Communities
  • PCNS Symposium
    • PCNS 2019 Call for Papers
    • PCNS 2017
  • ABC of CLR
  • e-PassiveBlog
  • e-Symposium
  • About
    • Sponsoring and Advertising
Home » Automotive Capacitors New Products

Nichicon Develops Conductive Polymer Hybrid Aluminum Electrolytic Capacitors

Posted On 19.10.2016
0
261 Views
0


0
Shares
  • Share On Facebook
  • Tweet It

source: Nichicon news

Nichicon Corporation announces the introduction of its GYA Series of capacitors. These high temperature, long-life, high ripple current, conductive polymer hybrid aluminum electrolytic capacitors meet automotive and industrial machinery sector demands for high-performance aluminum electrolytic capacitors.
Overview/Development Background
In recent years, amid electronic control and miniaturization advances in the automotive and industrial machinery sectors, circuit boards and units with aluminum electrolytic capacitors have also advanced in terms of performance and high-density mounting. In addition, engine ECU units and other components are frequently installed in the engine compartment, a high temperature environment. Thus, aluminum electrolytic capacitors with a longer life and higher ripple current are now in greater demand than ever. Nichicon manufactures non-solid aluminum electrolytic capacitors using electrolyte electrolytic solution, and solid aluminum electrolytic capacitors using conductive polymer, as its core products.

Nichicon developed conductive polymer hybrid aluminum electrolytic capacitors by combining electrolyte development technologies and conductive polymer film deposition technologies. Nichicon’s GYA Series is expected to contribute to higher performance and longer life in the automotive sector, other applications.

Features
Conductive polymer hybrid aluminum electrolytic capacitors use electrolyte conductive polymer and an electrolytic solution that, in addition to the high heat resistance and low ESR performance of conductive polymer, offers oxide film restoration performance utilizing electrolytic solution. Compared to non-solid aluminum electrolytic capacitors, this product has a long life of more than 1,000 hours at 125°C and four times the ripple current. At the same time, current leakage is reduced to 1/5 that of solid aluminum electrolytic capacitors, contributing to unit energy conservation. Also, the electrolytic solution penetrates deep into etch pits, increasing capacity by approximately four times, compared to standard solid aluminum electrolytic capacitors. Nichicon’s development of electrolytic solutions with proprietary deposition technologies means a highly reliable product guaranteed for 4,000 hours at 125°C, the highest level in the industry.

Main Specifications

  • Rated voltage range: 25 to 63V DC
  • Rated capacitance range: 10 to 330μF
  • Category temperature range: -55 to +125°C
  • Product dimensions: φ6.3×5.8L to 10×10L (mm)
  • Life: Guaranteed 4,000 hours at 125°C
  • Terminal shape: Chip-type
  • Samples: Available November 2016
  • Production capacity: 1 million units/month from spring 2017
  • Production plant: Nichicon (Iwate) Corporation8-17-1 Kubo, Iwate-cho Iwate-gun, Iwate-ken 028-4305 Japan
    (ISO9001, ISO/TS16949, ISO14001 certification acquired)
  • Note: ECU: Engine Control Unit

Get the recent popular stories weekly summary straight into your inbox.

Post Views: 261
0
Shares
  • Share On Facebook
  • Tweet It


- Advertisement -
! CALL FOR PAPERS ANNOUNCED !


EPCI Capacitor Seminar Highly Acknowledged by ESA SPCD Participants
Read Next

EPCI Capacitor Seminar Highly Acknowledged by ESA SPCD Participants

  • Stay Updated

    Get the recent stories straight into your inbox

  • Subscribe !
  • EPCI newsletter sponsors

        

  • Post Categories – Applications

    • Aerospace & Defence
    • Automotive
    • Consumer
    • Industrial
    • Medical
    • Telecommunication
  • Post Categories Component Types

    • Capacitors
    • Filters
    • Fuses
    • Inductors
    • Other components
    • Resistors
    • RF & Microwave
    • Sensors
  • Post Categories – Topic Focus

    • Applications
    • Circuit Design
    • History
    • Market & Supply Chain
    • Materials
    • Modelling & Simulation
    • New Products
    • Reliability & Obsolescence
    • Specification & Qualification
    • Technology
    • Test & Measurement
  • e-Passive Book links

    • All Applications
    • All Capacitors
    • All Inductors
    • All Resistors
  • Category Specific RSS

    • All Passives
    • Capacitors
    • Resistors
    • Inductors
    • Aerospace
    • Automotive
    • Industrial
    • Market & Supply Chain
  • --- advertisment ---


  • EPCI | Bringing Passive Professionals Together

     

     

     Member of:

     

    Proud partner & sponsor:

     

  • Popular Posts

    • 1
      3D Printed Electronics – 5 Most Advanced Companies
    • 2
      Passive Components on Radar Screen of the 23rd CMSE Components for Military & Space Electronics Conference & Exhibition
    • 3
      Würth Elektronik eiSos opens subsidiary in Slovenia
  • Recent Posts

    • CALL FOR PAPERS: T.I.C. 60th General Assembly (2019 AGM and tantalum-niobium conference)
    • Dissipation Factor of Plastic Materials Explained
    • Did Tesla Buy Maxwell for Its Ultracapacitors or Higher-Density Batteries?

Creative Commons License
This site content is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License. Some images may be protected by authors' rights
Press enter/return to begin your search