Passive Components Blog
No Result
View All Result
  • Home
  • NewsFilter
    • All
    • Aerospace & Defence
    • Antenna
    • Applications
    • Automotive
    • Capacitors
    • Circuit Protection Devices
    • electro-mechanical news
    • Filters
    • Fuses
    • Inductors
    • Industrial
    • Integrated Passives
    • inter-connect news
    • Market & Supply Chain
    • Market Insights
    • Medical
    • Modelling and Simulation
    • New Materials & Supply
    • New Technologies
    • Non-linear Passives
    • Oscillators
    • Passive Sensors News
    • Resistors
    • RF & Microwave
    • Telecommunication
    • Weekly Digest

    EMC Design Fundamentals: Safe Use of Varistors and Common Mode Chokes in Mains and Data-Line Filters

    Murata Unveils Lead Disc Ceramic Capacitors for Automotive Safety and EMI Suppression

    SCHURTER Releases Intelligent Three‑Terminal Fuses for Safer Li‑ion Battery Systems

    Can Copper Conductive Inks Displace Silver in Hybrid Electronics?

    Square-Wave Harmonics and RMS Currents in Power Converters

    LeanBOM: Practical Cross‑Technology Capacitor Search by Real Working Conditions

    In the Age of AI, Every Watt Counts: Implications for Components

    Stackpole Extends Resistance Range of 2512 High‑Power Current Sense Resistors

    Wk 27 Electronics Supply Chain Digest

    Trending Tags

    • Ripple Current
    • RF
    • Leakage Current
    • Tantalum vs Ceramic
    • Snubber
    • Low ESR
    • Feedthrough
    • Derating
    • Dielectric Constant
    • New Products
    • Market Reports
  • VideoFilter
    • All
    • Antenna videos
    • Capacitor videos
    • Circuit Protection Video
    • Filter videos
    • Fuse videos
    • Inductor videos
    • Inter-Connect Video
    • Non-linear passives videos
    • Oscillator videos
    • Passive sensors videos
    • Resistor videos

    EMC Design Fundamentals: Safe Use of Varistors and Common Mode Chokes in Mains and Data-Line Filters

    Ferrite versus Nanocrystalline Power Inductor Cores: Turns, Gap and Size

    KYOCERA AVX Presents Antenna Integrator Studio Tutorial for Antenna Placement and RF Design

    Power Design Simulation Tools for Faster Inductor Selection and Loss Optimization

    EMC‑Compliant PCB and Connector Design Guidelines

    Why Isolated DC/DC Power Supplies Fail Late, Würth Elektronik Podcast

    Designing 800 V DC EMC Filters: Calculation, Simulation and Measurement

    Current Sense Transformer Datasheet and Design‑in Guide

    Designing a USB Type‑C Flyback Planar Transformer with Frenetic’s Planar Tool

    Trending Tags

    • Capacitors explained
    • Inductors explained
    • Resistors explained
    • Filters explained
    • Application Video Guidelines
    • EMC
    • New Products
    • Ripple Current
    • Simulation
    • Tantalum vs Ceramic
  • Knowledge Blog
  • Dossiers
    • AI Hardware Dossier
    • Power Converter Dossier
    • Automotive Dossier
    • Capacitor Dossier
    • Resistor Dossier
    • Inductor Dossier
    • Circuit Protection Dossier
  • Suppliers
    • Who is Who
  • PCNS
    • PCNS 2025
    • PCNS 2023
    • PCNS 2021
    • PCNS 2019
    • PCNS 2017
  • Events
  • Home
  • NewsFilter
    • All
    • Aerospace & Defence
    • Antenna
    • Applications
    • Automotive
    • Capacitors
    • Circuit Protection Devices
    • electro-mechanical news
    • Filters
    • Fuses
    • Inductors
    • Industrial
    • Integrated Passives
    • inter-connect news
    • Market & Supply Chain
    • Market Insights
    • Medical
    • Modelling and Simulation
    • New Materials & Supply
    • New Technologies
    • Non-linear Passives
    • Oscillators
    • Passive Sensors News
    • Resistors
    • RF & Microwave
    • Telecommunication
    • Weekly Digest

    EMC Design Fundamentals: Safe Use of Varistors and Common Mode Chokes in Mains and Data-Line Filters

    Murata Unveils Lead Disc Ceramic Capacitors for Automotive Safety and EMI Suppression

    SCHURTER Releases Intelligent Three‑Terminal Fuses for Safer Li‑ion Battery Systems

    Can Copper Conductive Inks Displace Silver in Hybrid Electronics?

    Square-Wave Harmonics and RMS Currents in Power Converters

    LeanBOM: Practical Cross‑Technology Capacitor Search by Real Working Conditions

    In the Age of AI, Every Watt Counts: Implications for Components

    Stackpole Extends Resistance Range of 2512 High‑Power Current Sense Resistors

    Wk 27 Electronics Supply Chain Digest

    Trending Tags

    • Ripple Current
    • RF
    • Leakage Current
    • Tantalum vs Ceramic
    • Snubber
    • Low ESR
    • Feedthrough
    • Derating
    • Dielectric Constant
    • New Products
    • Market Reports
  • VideoFilter
    • All
    • Antenna videos
    • Capacitor videos
    • Circuit Protection Video
    • Filter videos
    • Fuse videos
    • Inductor videos
    • Inter-Connect Video
    • Non-linear passives videos
    • Oscillator videos
    • Passive sensors videos
    • Resistor videos

    EMC Design Fundamentals: Safe Use of Varistors and Common Mode Chokes in Mains and Data-Line Filters

    Ferrite versus Nanocrystalline Power Inductor Cores: Turns, Gap and Size

    KYOCERA AVX Presents Antenna Integrator Studio Tutorial for Antenna Placement and RF Design

    Power Design Simulation Tools for Faster Inductor Selection and Loss Optimization

    EMC‑Compliant PCB and Connector Design Guidelines

    Why Isolated DC/DC Power Supplies Fail Late, Würth Elektronik Podcast

    Designing 800 V DC EMC Filters: Calculation, Simulation and Measurement

    Current Sense Transformer Datasheet and Design‑in Guide

    Designing a USB Type‑C Flyback Planar Transformer with Frenetic’s Planar Tool

    Trending Tags

    • Capacitors explained
    • Inductors explained
    • Resistors explained
    • Filters explained
    • Application Video Guidelines
    • EMC
    • New Products
    • Ripple Current
    • Simulation
    • Tantalum vs Ceramic
  • Knowledge Blog
  • Dossiers
    • AI Hardware Dossier
    • Power Converter Dossier
    • Automotive Dossier
    • Capacitor Dossier
    • Resistor Dossier
    • Inductor Dossier
    • Circuit Protection Dossier
  • Suppliers
    • Who is Who
  • PCNS
    • PCNS 2025
    • PCNS 2023
    • PCNS 2021
    • PCNS 2019
    • PCNS 2017
  • Events
No Result
View All Result
Passive Components Blog
No Result
View All Result

Murata Releases Worlds First 10µF/50V Automotive MLCC in 0805 Size

26.6.2025
Reading Time: 2 mins read
A A

Murata Manufacturing Co., Ltd. has announced the new GCM21BE71H106KE02 multilayer ceramic capacitor (MLCC) has entered mass production.

The device is the world’s first 0805-inch size (2.0 x 1.25 mm) MLCC to offer a capacitance of 10µF with a 50Vdc rating and is specifically engineered for automotive applications.

RelatedPosts

Murata Unveils Lead Disc Ceramic Capacitors for Automotive Safety and EMI Suppression

Murata Expands Ansys Simulation Models for RF inductors, MLCCs, and Power Inductors

Murata Introduces World First 2.2uF 100V Soft‑Term MLCC in 0805 Size for Automotive

This cutting-edge product marks a significant advancement in MLCC design, delivering a smaller 0805-inch package while maintaining capacitance, voltage rating, and MLCC reliability.

Advancements in advanced driver-assistance systems (ADAS) and autonomous driving (AD) technologies necessitate deploying an increased number of integrated circuits (ICs) within vehicle systems.

This surge in ICs simultaneously leads to a greater demand for supporting high-capacitance passive components while imposing tighter spatial constraints – as a greater number of capacitors must be accommodated on increasingly crowded automotive printed circuit boards (PCBs).

Designed for 12V automotive power lines, the GCM21BE71H106KE02 capacitor leverages Murata’s proprietary ceramic material and thinning technologies to help engineers to save PCB space and reduce the overall capacitor count, resulting in smaller, more efficient, and reliable automotive systems.

As the first automotive-specific MLCC to achieve a 10µF capacitance with a 50Vdc rating in the compact 0805-inch size the GCM21BE71H106KE02 represents a significant advancement in capacitance efficiency. It offers roughly 2.1 times the capacitance of Murata’s previous 4.7µF/50Vdc product, despite sharing the same physical size. Furthermore, compared to the previous 10µF/50Vdc MLCC in the larger 1206-inch size (3.2 x 1.6 mm), the new MLCC occupies approximately 53% less space, providing substantial space savings for automotive applications.

Murata will continue to pursue further miniaturization and increased capacitance of MLCCs, while expanding its product lineup to meet the evolving needs of the automotive market. These efforts will support the industry as they look to develop higher-performance and more multifunctional vehicles. In addition, by downsizing electronic components, Murata aims to reduce material usage and improve production efficiency per unit, helping to lower electricity consumption at its manufacturing sites and reduce overall environmental impact.

Related

Source: Murata

Recent Posts

Murata Unveils Lead Disc Ceramic Capacitors for Automotive Safety and EMI Suppression

15.7.2026
17

SCHURTER Releases Intelligent Three‑Terminal Fuses for Safer Li‑ion Battery Systems

14.7.2026
26

Square-Wave Harmonics and RMS Currents in Power Converters

14.7.2026
24

LeanBOM: Practical Cross‑Technology Capacitor Search by Real Working Conditions

14.7.2026
30

In the Age of AI, Every Watt Counts: Implications for Components

13.7.2026
43

Stackpole Extends Resistance Range of 2512 High‑Power Current Sense Resistors

13.7.2026
18

Littelfuse Announced TVS Diodes for 48 V Automotive Systems

10.7.2026
28

RF Filters and Passive Components Enabling the 7 Missile RF Subsystems

9.7.2026
49

Coilcraft Releases High-Current Ferrite Beads for CISPR 25 EMC compliance

8.7.2026
44

Upcoming Events

Jul 21
16:00 - 17:00 CEST

Safety by design: X and Y Interference suppression capacitors for power line filters

Jul 28
8:00 - 11:00 CEST

Post Procurement Testing of EEE Components for LEO Space Applications

Jul 29
17:30 - 18:30 CEST

To Ferrite or to Nanocrystalline in Transformer Design

View Calendar

Popular Posts

  • Boost Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • Buck Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • Flyback Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • YAGEO Announces July 2026 Capacitor Price Increase

    0 shares
    Share 0 Tweet 0
  • LLC Resonant Converter Design and Calculation

    0 shares
    Share 0 Tweet 0
  • MLCC and Ceramic Capacitors

    0 shares
    Share 0 Tweet 0
  • Earthing Systems and IEC Classification Explained

    0 shares
    Share 0 Tweet 0
  • Nvidia Vera Rubin: Why One AI Rack Needs So Many More MLCC Capacitors

    0 shares
    Share 0 Tweet 0
  • MLCCs in the Age of AI: Q2 2026 Market Tightness

    0 shares
    Share 0 Tweet 0
  • Dual Active Bridge (DAB) Topology

    0 shares
    Share 0 Tweet 0

Newsletter Subscription

 

Passive Components Blog

© EPCI - Leading Passive Components Educational and Information Site

  • Home
  • Privacy Policy
  • EPCI Membership & Advertisement
  • About

No Result
View All Result
  • Home
  • Knowledge Blog
  • Dossiers
  • PCNS

© EPCI - Leading Passive Components Educational and Information Site

This website uses cookies. By continuing to use this website you are giving consent to cookies being used. Visit our Privacy and Cookie Policy.
Go to mobile version