Global Multilayer Ceramic Capacitor (MLCC) Market Size, Trends & Forecast 2018-2022 -

The "Global Multilayer Ceramic Capacitor (MLCC) Market: Size, Trends & Forecast (2018-2022)" report has been added to's offering.

Global Multilayer Ceramic Capacitor (MLCC) Market: Size, Trends & Forecast (2018-2022), provides an in-depth analysis of the global MLCC market with description of market sizing and growth.

The analysis includes global MLCC market by value, by segments, by total production and segment analysis of the MLCC market. It also provides a detailed analysis of global automotive MLCC market by demand and includes demand analysis as well. The report includes a brief regional analysis of China and ROW.

Moreover, the report also assesses the key opportunities in the market and outlines the factors that are and will be driving the growth of the industry. Growth of the overall global MLCC market has also been forecasted for the period 2018-2022, taking into consideration the previous growth patterns, the growth drivers and the current and future trends.

The multilayer ceramic capacitor market has witnessed continuous growth in the past few years and is projected to grow even further during the forecast period (2018-2022) due to various factors such as growth in IoT (Internet of Things), increasing automotive production, rising demand for consumer electronics etc. Yet the market faces certain challenges such as tight supply and increase in lead times.

The key players that have been profiled in the report includes Taiyo Yuden, TDK Corporation, Murata Mfg. and Kyocera. In this section of the report, business overview, financial overview and business strategies of the respective companies are provided.

Market Dynamics

Growth Drivers

  • Growth in IoT (Internet of Things)
  • Increasing Automotive Production
  • Upsurge In Smart TV Demand
  • Rising Demand for Consumer Electronics
  • Rising GDP Per Capita


  • Tight Supply
  • Increase in Lead Times

Market Trends

  • Introduction of 5G Networks
  • Increasing Capacitance
  • Technology Advancement

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