Multi-Layer Ceramic Capacitor Market is Anticipated to Grow US$ 18.2 Bn By 2030

According to the Vision Research Reports, the Global Multi-Layer Ceramic Capacitor market size was valued at USD 13.5 billion in 2020 and is projected to reach US$ 18.2 billion by 2030, growing at a CAGR of 7.1% from 2021 to 2030.

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Growth Factors

 The growing demand for MLCCs in various application areas such as consumer electronics, data processing, and telecommunications is driving the MLCC market growth.

MLCCs are multilayered capacitors made of alternating layers of ceramic and metal. These capacitors possess low impedance value at high operating frequencies, thereby making them suitable for use in electronic devices for the function of noise suppression. The increasing demand for MLCCs in high-specification gadgets such as smartphones and tablets is expected to drive the market.

Report Coverage

Report Scope Details
Market Size USD 18.2 billion by 2030
Growth Rate CAGR of 7.1% From 2021 to 2030
Base Year 2021
Forecast Period 2021 to 2030
Segments Covered Type, Rated Voltage Range, Dielectric Type, End-Use
Regional Scope North America, Europe, Asia Pacific, Latin America, Middle East & Africa
Companies Mentioned Eyang Holdings Group Co., Ltd.; Future Electronics Inc.; Kyocera Corporation; Samsung Electro-Mechanics; Murata Manufacturing Co., Ltd.; Taiyo Yuden Co., Ltd.; TDK Corporation; Vishay Intertechnology, Inc.; Walsin Technology Corporation; and Yageo Corporation

By Type Analysis

The general capacitor segment was valued at USD 2.71 billion in 2020. This is primarily due to the rising requirement of general capacitors in applications such as DC-DC converters, cellular telephones, gaming machines, memory modules, LCDs, and televisions.

MLCC arrays use passive technology where various capacitor elements are integrated into one monolithic structure. These capacitors promote increased throughput, high-cost saving, and reduced placement costs.

By Rated Voltage Range Analysis

High range (1000V & above) voltage MLCC capacitors use multi-layering technologies and advanced ceramic dielectric thin-layers to offer high capacitance and high voltage to electronic devices.

Mid-range (100V to 630V) voltage MLCCs offer features such as good capacitance to volume ratio, low cost, no-polarity, and low leakage, allowing their usage in a variety of electronic devices.

By Dielectric Type Analysis

X7R dielectric features a maximum operating temperature and is considered temperature stable. These types of ceramic dielectric capacitors are suited for frequency discriminating circuits and bypass and decoupling applications. Also, these dielectric MLCCs are used in filtering and transient voltage suppression.

X7R dielectric features a maximum operating temperature and is considered temperature stable. These types of ceramic dielectric capacitors are suited for frequency discriminating circuits and bypass and decoupling applications. Also, these dielectric MLCCs are used in filtering and transient voltage suppression.

By End-Use Analysis

 Increasing deployment of electronic devices that use multilayer ceramic capacitors in automobiles, such as powertrain, vehicle frames, and infotainment devices, is expected to emerge as a key market driver.

MLCCs are also being increasingly used in telecom, military, medical, and industrial equipment sectors. They are used in instruments such as military communications systems, lasers, telecom base stations, and high-frequency RF applications due to benefits such as ease in mounting on circuit boards, greater efficiency of assembly, and shorter circuit tracks with low inductance.

By Regional Analysis

Asia Pacific led with market size of USD 4.18 billion in 2020. The region is a key manufacturing hub for electronic devices. The emergence of MLCC manufacturers from various countries such as Japan, South Korea, Taiwan, and India are expected to drive regional growth in the forthcoming years.

Asia Pacific is also projected to emerge as the fastest-growing region over the forecast period, owing to increasing demand from end-use industries due to increased capacitance levels of MLCC and miniaturization of capacitors.

Key Players

Eyang Holdings Group Co., Ltd.; Future Electronics Inc.; Kyocera Corporation; Samsung Electro-Mechanics; Murata Manufacturing Co., Ltd.; Taiyo Yuden Co., Ltd.; TDK Corporation; Vishay Intertechnology, Inc.; Walsin Technology Corporation; and Yageo Corporation

Market Segmentation

  • Type
    • General Capacitor
    • Array
    • Serial Construction
    • Mega Cap
    • Others
  • Rated Voltage Range
    • Low Range (Up to 50V)
    • Mid Range (100V to 630V)
    • High Range (1000V & above)
  • Dielectric Type
    • X7R
    • X5R
    • C0G
    • Y5V
    • Others
  • End-Use
    • Electronics
    • Automotive
    • Industrial
    • Telecommunication
    • Data Transmission
    • Others
  • Regional
    • North America
      • The U.S.
      • Canada
    • Europe
      • Germany
      • The U.K.
    • Asia Pacific
      • China
      • India
      • Japan
    • Latin America
      • Brazil
    • Middle East & Africa (MEA)

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Reasons to Purchase this Report:

– Market segmentation analysis including qualitative and quantitative research incorporating the impact of economic and policy aspects
– Regional and country level analysis integrating the demand and supply forces that are influencing the growth of the market.
– Market value USD Million and volume Units Million data for each segment and sub-segment
– Competitive landscape involving the market share of major players, along with the new projects and strategies adopted by players in the past five years
– Comprehensive company profiles covering the product offerings, key financial information, recent developments, SWOT analysis, and strategies employed by the major market players

Table of Contents

Chapter 1.  Introduction

1.1.  Research Objective

1.2.  Scope of the Study

1.3.  Definition

Chapter 2.  Research Methodology

2.1.  Research Approach

2.2.  Data Sources

2.3.  Assumptions & Limitations

Chapter 3.  Executive Summary

3.1.  Market Snapshot

Chapter 4.  Market Variables and Scope

4.1.  Introduction

4.2.  Market Classification and Scope

4.3.  Industry Value Chain Analysis

4.3.1.    Raw Material Procurement Analysis

4.3.2.    Sales and Dielectric Type Analysis

4.3.3.    Downstream Buyer Analysis

Chapter 5.  Market Dynamics Analysis and Trends

5.1.  Market Dynamics

5.1.1.    Market Drivers

5.1.2.    Market Restraints

5.1.3.    Market Opportunities

5.2.  Porter’s Five Forces Analysis

5.2.1.    Bargaining power of suppliers

5.2.2.    Bargaining power of buyers

5.2.3.    Threat of substitute

5.2.4.    Threat of new entrants

5.2.5.    Degree of competition

Chapter 6.  Competitive Landscape

6.1.1.    Company Market Share/Positioning Analysis

6.1.2.    Key Strategies Adopted by Players

6.1.3.    Vendor Landscape

6.1.3.1.        List of Suppliers

6.1.3.2.        List of Buyers

Chapter 7.  Global Multi-Layer Ceramic Capacitor Market, By Type

7.1.  Multi-Layer Ceramic Capacitor Market, by Type, 2021-2030

7.1.1.    General Capacitor

7.1.1.1.        Market Revenue and Forecast (2017-2030)

7.1.2.    Array

7.1.2.1.        Market Revenue and Forecast (2017-2030)

7.1.3.    Serial Construction

7.1.3.1.        Market Revenue and Forecast (2017-2030)

7.1.4.    Mega Cap

7.1.4.1.        Market Revenue and Forecast (2017-2030)

7.1.5.    Others

7.1.5.1.        Market Revenue and Forecast (2017-2030)

Chapter 8.  Global Multi-Layer Ceramic Capacitor Market, By Rated Voltage Range

8.1.  Multi-Layer Ceramic Capacitor Market, by Rated Voltage Range, 2021-2030

8.1.1.    Low Range (Up to 50V)

8.1.1.1.        Market Revenue and Forecast (2017-2030)

8.1.2.    Mid Range (100V to 630V)

8.1.2.1.        Market Revenue and Forecast (2017-2030)

8.1.3.    High Range (1000V & above)

8.1.3.1.        Market Revenue and Forecast (2017-2030)

Chapter 9.  Global Multi-Layer Ceramic Capacitor Market, By Dielectric Type

9.1.  Multi-Layer Ceramic Capacitor Market, by Dielectric Type, 2021-2030

9.1.1.    X7R

9.1.1.1.        Market Revenue and Forecast (2017-2030)

9.1.2.    X5R

9.1.2.1.        Market Revenue and Forecast (2017-2030)

9.1.3.    C0G

9.1.3.1.        Market Revenue and Forecast (2017-2030)

9.1.4.    Y5V

9.1.4.1.        Market Revenue and Forecast (2017-2030)

Chapter 10.      Global Multi-Layer Ceramic Capacitor Market, By End-use

10.1.        Multi-Layer Ceramic Capacitor Market, by End-use, 2021-2030

10.1.1.  Electronics

10.1.1.1.      Market Revenue and Forecast (2017-2030)

10.1.2.  Automotive

10.1.2.1.      Market Revenue and Forecast (2017-2030)

10.1.3.  Industrial

10.1.3.1.      Market Revenue and Forecast (2017-2030)

10.1.4.  Telecommunication

10.1.4.1.      Market Revenue and Forecast (2017-2030)

10.1.5.  Data Transmission

10.1.5.1.      Market Revenue and Forecast (2017-2030)

Chapter 11.      Global Multi-Layer Ceramic Capacitor Market, Regional Estimates and Trend Forecast

11.1.        North America

11.1.1.  Market Revenue and Forecast, by Type (2017-2030)

11.1.2.  Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.1.3.  Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.1.4.  Market Revenue and Forecast, by End-use (2017-2030)

11.1.5.  U.S.

11.1.5.1.      Market Revenue and Forecast, by Type (2017-2030)

11.1.5.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.1.5.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.1.5.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.1.6.  Rest of North America

11.1.6.1.      Market Revenue and Forecast, by Type (2017-2030)

11.1.6.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.1.6.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.1.6.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.2.        Europe

11.2.1.  Market Revenue and Forecast, by Type (2017-2030)

11.2.2.  Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.2.3.  Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.2.4.  Market Revenue and Forecast, by End-use (2017-2030)

11.2.5.  UK

11.2.5.1.      Market Revenue and Forecast, by Type (2017-2030)

11.2.5.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.2.5.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.2.5.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.2.6.  Germany

11.2.6.1.      Market Revenue and Forecast, by Type (2017-2030)

11.2.6.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.2.6.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.2.6.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.2.7.  France

11.2.7.1.      Market Revenue and Forecast, by Type (2017-2030)

11.2.7.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.2.7.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.2.7.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.2.8.  Rest of Europe

11.2.8.1.      Market Revenue and Forecast, by Type (2017-2030)

11.2.8.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.2.8.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.2.8.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.3.        APAC

11.3.1.  Market Revenue and Forecast, by Type (2017-2030)

11.3.2.  Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.3.3.  Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.3.4.  Market Revenue and Forecast, by End-use (2017-2030)

11.3.5.  India

11.3.5.1.      Market Revenue and Forecast, by Type (2017-2030)

11.3.5.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.3.5.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.3.5.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.3.6.  China

11.3.6.1.      Market Revenue and Forecast, by Type (2017-2030)

11.3.6.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.3.6.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.3.6.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.3.7.  Japan

11.3.7.1.      Market Revenue and Forecast, by Type (2017-2030)

11.3.7.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.3.7.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.3.7.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.3.8.  Rest of APAC

11.3.8.1.      Market Revenue and Forecast, by Type (2017-2030)

11.3.8.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.3.8.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.3.8.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.4.        MEA

11.4.1.  Market Revenue and Forecast, by Type (2017-2030)

11.4.2.  Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.4.3.  Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.4.4.  Market Revenue and Forecast, by End-use (2017-2030)

11.4.5.  GCC

11.4.5.1.      Market Revenue and Forecast, by Type (2017-2030)

11.4.5.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.4.5.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.4.5.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.4.6.  North Africa

11.4.6.1.      Market Revenue and Forecast, by Type (2017-2030)

11.4.6.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.4.6.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.4.6.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.4.7.  South Africa

11.4.7.1.      Market Revenue and Forecast, by Type (2017-2030)

11.4.7.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.4.7.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.4.7.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.4.8.  Rest of MEA

11.4.8.1.      Market Revenue and Forecast, by Type (2017-2030)

11.4.8.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.4.8.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.4.8.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.5.        Latin America

11.5.1.  Market Revenue and Forecast, by Type (2017-2030)

11.5.2.  Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.5.3.  Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.5.4.  Market Revenue and Forecast, by End-use (2017-2030)

11.5.5.  Brazil

11.5.5.1.      Market Revenue and Forecast, by Type (2017-2030)

11.5.5.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.5.5.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.5.5.4.      Market Revenue and Forecast, by End-use (2017-2030)

11.5.6.  Rest of LATAM

11.5.6.1.      Market Revenue and Forecast, by Type (2017-2030)

11.5.6.2.      Market Revenue and Forecast, by Rated Voltage Range (2017-2030)

11.5.6.3.      Market Revenue and Forecast, by Dielectric Type (2017-2030)

11.5.6.4.      Market Revenue and Forecast, by End-use (2017-2030)

Chapter 12.  Company Profiles

12.1.              Eyang Holdings Group Co., Ltd

12.1.1.  Company Overview

12.1.2.  Type Offerings

12.1.3.  Financial Performance

12.1.4.  Recent Initiatives

12.2.              Future Electronics Inc

12.2.1.  Company Overview

12.2.2.  Type Offerings

12.2.3.  Financial Performance

12.2.4.  Recent Initiatives

12.3.              Kyocera Corporation

12.3.1.  Company Overview

12.3.2.  Type Offerings

12.3.3.  Financial Performance

12.3.4.  Recent Initiatives

12.4.              Samsung Electro-Mechanics

12.4.1.  Company Overview

12.4.2.  Type Offerings

12.4.3.  Financial Performance

12.4.4.  Recent Initiatives

12.5.              Murata Manufacturing Co., Ltd

12.5.1.  Company Overview

12.5.2.  Type Offerings

12.5.3.  Financial Performance

12.5.4.  Recent Initiatives

12.6.              Taiyo Yuden Co., Ltd.

12.6.1.  Company Overview

12.6.2.  Type Offerings

12.6.3.  Financial Performance

12.6.4.  Recent Initiatives

12.7.              TDK Corporation

12.7.1.  Company Overview

12.7.2.  Type Offerings

12.7.3.  Financial Performance

12.7.4.  Recent Initiatives

12.8.              Vishay Intertechnology, Inc

12.8.1.  Company Overview

12.8.2.  Type Offerings

12.8.3.  Financial Performance

12.8.4.  Recent Initiatives

12.9.              Walsin Technology Corporation

12.9.1.  Company Overview

12.9.2.  Type Offerings

12.9.3.  Financial Performance

12.9.4.  Recent Initiatives

12.10.           Yageo Corporation

12.10.1.               Company Overview

12.10.2.               Type Offerings

12.10.3.               Financial Performance

12.10.4.               Recent Initiatives

Chapter 13.  Research Methodology

13.1.              Primary Research

13.2.              Secondary Research

13.3.              Assumptions

Chapter 14.  Appendix

14.1.              About Us

14.2.              Glossary of Terms

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