As a key component of electronic products, ceramic capacitors have broad application prospects in consumer electronics, automotive, telecommunications, industrial, and other fields. With the miniaturization and intelligentization of various electronic devices, as well as the booming development of new energy vehicles, the global ceramic capacitors market will face new opportunities and challenges in 2023. This article analyzes in-depth analysis of the ceramic capacitor market in 2023 through detailed analysis of market segments, major manufacturers, applications, market trends, influencing factors, and other dimensions, to provide investors and practitioners with valuable reference.

Market analysis of ceramic capacitors 2023

The ceramic capacitors market in 2023 is characterized by several key trends and factors:

Market Segmentation and Value

The market is segmented by type (MLCC, ceramic disc capacitor, feedthrough ceramic capacitor, ceramic power capacitor), end-user (consumer electronics, automotive, telecommunication, industrial, energy, and power), and geography (North America, Europe, Asia-Pacific, Latin America, Middle East, and Africa). The market was valued at USD 11.6 billion and is anticipated to reach USD 17 million by the end of the forecast period, registering a CAGR of 6.2%.

Dominance of MLCCs

Multilayer Ceramic Capacitors (MLCCs) are essential components in many electronic devices, particularly in wearable devices and smartphones. The demand for further miniaturization and higher electronic circuitry density, especially in the context of 5G smartphones, is driving the demand for MLCCs.

Challenges in Production

The production of high-capacitance MLCCs presents several challenges, including mechanical susceptibility, cracking during surface-mount soldering, and difficulty in achieving uniform capacitance across layers. Additionally, the temperature and frequency dependence of capacitance can be problematic in high-performance applications.

Growth in Automotive Segment

Ceramic capacitors are widely used in automotive applications due to their compact size, high reliability, and ability to withstand high temperatures and vibrations. The advancement in automotive technologies, including autonomous vehicles, vehicle-to-vehicle communications, and advanced driver-assistance systems, is driving demand in this sector. Additionally, the increasing adoption of electric vehicles (EVs) is significantly boosting the demand for MLCCs.

Asia-Pacific Market Growth

The Asia-Pacific region is expected to witness high market growth, particularly in China and India, driven by the expanding automotive industry and increasing demand for consumer electronics. The popularity of EVs and the development of green transportation solutions in China are also significant factors contributing to the market's growth.

Telecommunications Industry Demand

Ceramic capacitors are crucial in the telecommunications industry due to their high capacitance and voltage tolerance. The increasing telecom demand in the Asia-Pacific region, spearheaded by companies like Kyocera and KEMET, is anticipated to boost the demand for ceramic capacitors in this sector.

Market Consolidation and Competition

The ceramic capacitor market is moderately consolidated with major players engaging in strategic activities like acquisitions and partnerships. These efforts aim to improve market share and profitability.

Market Innovations

Recent developments include the launch of a new MLCC series optimized for DC-blocking applications by Vishay Intertechnology, Inc., and the announcement by TDK Electronics Factories Corporation to increase the production of MLCCs.

Opportunities and Challenges

The growing demand for consumer electronics and EVs presents immense opportunities for the market. However, challenges include the volatility in raw material prices and stringent government regulations related to environmental issues and labor laws.

Market Trends

There is a trend towards the miniaturization of components to meet the demand for lightweight and small-sized devices. The growing adoption of IoT and automation technologies is also driving the demand for ceramic capacitors with high capacitance and low resistance.

Application fields of ceramic capacitors 2023

Ceramic capacitors are versatile components used across various application fields in 2023, driven by their reliability, compact size, and performance characteristics. Key application areas include:

Consumer Electronics

Ceramic capacitors are commonly found in consumer electronics such as smartphones, tablets, laptops, and wearables. Their small size and reliable performance make them ideal for these applications.

1. Power management circuits for notebook computers

Decoupling: Ceramic capacitors are used for decoupling in the power management circuits of laptop computers. Decoupling is an important electronic technique used to isolate different parts of a circuit to minimize electrical interference. In this application, ceramic capacitors effectively isolate high-frequency noise in the power line, thus ensuring stable operation of the circuit.

Filtering function: In addition, they are used for filtering, i.e. removing instabilities in the power supply such as voltage fluctuations and current spikes. Ceramic capacitors are widely used for this application due to their high frequency characteristics and reliability.

2. Touch screens for smartphones

Building touch circuits: In smartphones, ceramic capacitors are key components for building touch circuits. They are used to maintain stable voltages and currents to ensure accurate response and sensitivity of the touch screen. The miniaturized design of these capacitors makes them particularly ideal for use in smartphones.

Performance and Reliability: The high performance and reliability of ceramic capacitors ensure long-lasting stable operation of touch screens, especially under frequent use and various environmental conditions.

3. Display driver circuits for televisions

Circuit Stability: Ceramic capacitors are used extensively in the display driver circuits of televisions to maintain circuit stability. These capacitors help to smooth the power supply and reduce voltage fluctuations, thus ensuring clarity and stability of the image.

High-frequency applications: The high resolution and fast response of televisions require that the capacitors in the circuit be able to operate at high frequencies. Ceramic capacitors are ideal for these applications due to their excellent high frequency characteristics.

Automotive

Ceramic capacitors are increasingly used in the automotive sector, particularly in electric vehicles (EVs). Applications include engine control units, infotainment systems, lighting systems, and advanced driver-assistance systems. They help filter high-frequency noise, suppress voltage spikes, and are used in timing and oscillation circuits.

1. Applications in electric vehicles

Motor Controller: In an electric vehicle, the motor controller is a key component that manages the speed and torque of the motor. Ceramic capacitors are used here to smooth out the power supply and thus ensure smooth and efficient operation of the motor. These capacitors need to be of high capacity to cope with the higher current demand in electric vehicles.

Battery Management System: The Battery Management System (BMS) is responsible for monitoring and managing the status of the battery pack, including charge/discharge control, battery health monitoring and more. Ceramic capacitors are used in the BMS for filtering and stabilizing the power supply, which is essential to ensure the safe and efficient operation of the battery pack.

2. Automotive multimedia and navigation systems

Power supply filtering: Ceramic capacitors are used for power supply filtering in automotive multimedia and navigation systems. These systems often need to process large amounts of data and provide high-definition video and audio output, which requires a stable and clean power supply. Ceramic capacitors help here to remove noise from the power lines, ensuring high performance and reliability in multimedia and navigation systems.

Anti-vibration and temperature resistance: Automotive environments are often accompanied by vibration and temperature variations. Ceramic capacitors are particularly suitable for use in automotive electronics applications due to their excellent anti-vibration characteristics and temperature resistance.

Telecommunications

In the telecommunications industry, ceramic capacitors are valued for their high capacitance and voltage tolerance. They are used in smartphones, base stations, and other telecommunications equipment for filtering, decoupling, and voltage regulation.

1. Applications in 5G base stations

Phase control of phased array antenna: In 5G base stations, ceramic capacitors are used in large quantities to realize phase control of phased array antennas. A phased array antenna is an advanced antenna technology that guides the direction of the signal by controlling the phase of each element in the antenna array. Ceramic capacitors play a crucial role here, as they help control the beam pointing of the antenna by adjusting the phase delay in the circuit.

High-frequency characteristics and reliability: Since 5G communications involve the transmission of high-frequency signals, the required capacitors must have excellent high-frequency characteristics and reliability. Ceramic capacitors are ideally suited for this application with their excellent high-frequency performance and high-temperature resistance.

2. Applications in optical communication systems

Driver chips and optical transceiver modules: In optical communication systems, ceramic capacitors are used to support driver chips and optical transceiver modules. These modules are key components of optical communication systems, and they are responsible for converting electrical signals into optical signals, as well as converting received optical signals back into electrical signals.

Stability and precision: The role of ceramic capacitors here is to ensure the stability of the power supply and the precision of the signal processing. As optical communication systems require extremely high signal quality, any instability in the power supply or imprecise signal processing can lead to errors in data transmission. Ceramic capacitors help to ensure the efficient and reliable operation of the system through their excellent electrical properties.

Industrial

In industrial applications, ceramic capacitors are used in power supply units, control systems, and various machinery for their stability and ability to withstand harsh environments.

Power supply units. Ceramic capacitors are used to stabilize power supply units and improve their immunity to interference.

Control system (control systems). Ceramic capacitors have high stability, can be widely used in a variety of control systems.

Various mechanical equipment (variable machinery). Ceramic capacitors can withstand harsh environments, can be used in industrial machinery, manufacturing equipment and other equipment.

Energy and Power

Ceramic capacitors are also significant in energy and power sectors, particularly in renewable energy systems, where they provide stability and efficiency in power conversion and distribution processes.

1. Wind turbines and inverters

Stabilizing and regulating power: The inverters in wind turbines require ceramic capacitors to help stabilize and regulate the power generated by the wind. These capacitors play a key role in the power conversion process, ensuring that the conversion from alternating current (AC) to direct current (DC) is efficient and stable.

High-voltage and high-capacity: Since wind turbines often generate high voltages, the ceramic capacitors used need to be high-voltage and high-capacity to withstand this high-energy environment.

2. Inverters for solar cells

Electrical energy conversion and management: solar panels produce direct current (DC) electricity, while most domestic and industrial facilities use alternating current (AC) electricity. In a solar cell inverter, ceramic capacitors are used to help convert DC power to AC power and manage the flow and quality of power.

Stability and Efficiency: The stability and efficiency of the capacitors in this process is critical to the performance of the overall system. Ceramic capacitors are widely used in these applications due to their excellent electrical characteristics and reliability.

3. Electric Vehicle Charging Station

Energy caching: In electric vehicle charging stations, ceramic capacitors are used for energy caching. This function is important for balancing energy demand and supply during the charging process, especially in peak hour or fast charging applications.

Improved Charging Efficiency: These capacitors help to improve the efficiency and stability of the charging process, ensuring that the EV charging station is able to charge electric vehicles quickly and safely.

Medical Devices

Ceramic capacitors are used in various medical devices for their reliability and precision, especially in critical applications where stable performance is essential.

1. Imaging equipment (X-ray machines, CT machines)

Improving Image Quality: Ceramic capacitors are used to improve image quality in imaging equipment such as X-ray and CT machines. These capacitors help reduce noise in the image by stabilizing the power supply and filtering, thus providing clearer and more accurate imaging results.

Stability and Reliability: The stability and reliability of capacitors in imaging equipment is highly required, as any unstable power supply or circuit disturbances can lead to degradation in image quality. Ceramic capacitors fulfill these requirements with their excellent performance and reliability.

2. ECG and EEG machines

Signal filtering and amplification: Electrocardiographs (ECG) and electroencephalographs (EEG) are used to monitor the electrical activity of the heart and brain. In these devices, ceramic capacitors are used for signal filtering and amplification. These capacitors help to remove disturbances in the signal, such as power supply noise, thus ensuring that the recorded physiological signals are clear and accurate.

Accuracy and sensitivity: Diagnosis in ECG and EEG relies on the accurate detection of very small electrical signals. The high precision and sensitivity of ceramic capacitors in these applications is critical to ensuring accurate diagnosis.

Defense and Aerospace

In aerospace and defense, ceramic capacitors are used due to their ability to perform under extreme conditions. They are used in communication systems, navigation systems, and other critical equipment.

Communication systems - Used in airborne, shipboard, and ground-based communication devices to maintain signal integrity. Required to perform in demanding environments.

Navigation systems - Ceramic capacitors are integrated into critical navigation equipment like GPS, radar and positioning systems to enable continuous, precise operation.

Avionics - Deployed in avionics modules for flight control, collision avoidance, pressurization and other essential functions. Expected to deliver flawless performance.

Missile guidance systems - Precision missile guidance relies on electronics hardened with ceramic capacitors that can survive intense g-forces and thermal extremes.

Computing

With the shift towards computing and technologies such as AI, IoT, and cloud computing, ceramic capacitors are increasingly used in high-performance computing systems.

High-performance computing (HPC) - Used extensively in HPC installations where reliability and efficiency at scale is imperative. Serve key roles maintaining power integrity and signal quality.

Data centers - Data center servers leverage ceramic capacitors for processor functioning, memory buffers and other core subsystems. Thermal and load characteristics suit data center environments.

Edge computing - Industrial and consumer edge devices utilize ceramic capacitors tailored to perform reliably in the environmental conditions these systems operate. Enables localized processing.

These applications demonstrate the wide-ranging utility of ceramic capacitors in various industries, underscoring their importance in the modern technological landscape.

Top 10 global ceramic capacitor manufacturers

Yageo: Based in Taiwan, China, Yageo Corporation is a global leader in electronic components, providing a wide range of products including resistors, capacitors, and inductors. They rank No. 1 in chip resistors and tantalum capacitors, and No. 3 in MLCCs and Inductors globally.

Fenghua Advanced Technology: Located in Zhaoqing, Guangdong, this high-tech listed company specializes in the production of new high-end electronic components and materials. It has become a major R&D, production, and export base for these products.

Murata Manufacturing: Situated in Kyoto, Japan, Murata Manufacturing leads in the electronic components industry, particularly in miniaturization and high-performance components. They provide a broad range of electronic components and modules used in various devices including televisions, PCs, and smartphones.

PSA (Walsin Technology Corporation): Headquartered in Taiwan, China, PSA is a leading manufacturer of passive components, offering products like MLCC capacitors, chip resistors, and inductors, among others.

TAIYO YUDEN: Also located in Taiwan, China, TAIYO YUDEN focuses on the research, development, manufacture, and sales of electronic components including multilayer ceramic capacitors and inductors.

TDK: Based in Tokyo, Japan, TDK Electronics (formerly EPCOS) develops and markets a wide range of electronic components and systems, with a focus on automotive, industrial, and consumer electronics, as well as information and communications technology.

KYOCERA: From Tokyo, Japan, KYOCERA operates globally, delivering a diverse range of products including advanced materials, components, and devices. The company started as Kyoto Ceramic before becoming KYOCERA.

SEMCO (Samsung Electro-Mechanics): Located in Gyeonggi-do, South Korea, SEMCO is a significant developer and manufacturer of key electronic components, including chip parts, camera modules, and communication modules.

KEMET: This American company, based in Florida, offers a wide range of electronic components including ceramic, polymer, film, and electrolytic capacitors, as well as chip resistors and circuit protection devices. In 2020, it was acquired by YAGEO Corporation.

AVX (KYOCERA AVX): Headquartered in South Carolina, USA, AVX is a leading manufacturer and supplier of advanced electronic components, including capacitors, inductors, filters, and circuit protection devices.

Emerging ceramic capacitor manufacturers

CalRamic Technologies: Based in Nevada, USA, CalRamic Technologies specializes in manufacturing high-voltage multilayer ceramic (MLC) leaded capacitors for various applications including space, commercial, and military uses. They also offer customized design and engineering services.

Johanson Dielectrics, Inc.: Located in California, USA, Johanson Dielectrics produces a wide array of capacitors including ceramic SMT, high voltage, high temperature, and switch mode capacitors. They are known for their ISO-certified and safety-certified products used in industries like automotive and energy management.

Knowles Precision Devices: This New York-based company specializes in a range of capacitors and other components used in critical applications in the military, medical, electric vehicle, and 5G market segments. Their products include multi-layer and single-layer ceramic capacitors, as well as microwave-to-millimeter wave components.

Vishay Intertechnology, Inc.: Operating from Pennsylvania, USA, Vishay Intertechnology is a major player in the electronic component industry. They manufacture and sell a wide range of products including MOSFETs, diodes, resistors, inductors, and capacitors, catering to various markets such as automotive and telecommunications.

CCTC: Located in Chaozhou, China, CCTC is a leading manufacturer of electronic components. The company has earned a long-standing reputation in the electronics industry for its innovation, quality, and reliability. CCTC has always adhered to the path of technological innovation, and its high-tech products have covered various application fields such as mobile phones, electronics, communication, machinery, electrical, new energy, etc. Its main products include smartphone back covers, smart wearable ceramic parts, optical fiber ceramic ferrules, solid oxide fuel cell (SOFC) diaphragms, etc. Its product combination includes various components, widely used in numerous application fields such as optical communication, electronics, machinery, electrical engineering, energy conservation, environmental protection, new energy, and fashion.

Utmel's partnership with CCTC

As the authorized distributor of CCTC, UTMEL will be able to access the full range of high-quality electronic components from CCTC, including new materials, new products, new equipment, and new technologies developed and researched by CCTC. This cooperation will enable UTMEL to better meet the diversified needs of its customers by providing a wider range of high-quality products.

Conclusion

In summary, in consumer electronics upgrades, new energy vehicles, and 5G and industrial Internet of Things construction driven by the ceramic capacitor market is expected to maintain a steady growth trend in 2023. Despite market consolidation and raw material price fluctuations and other factors bringing some challenges, major manufacturers will continue to expand production capacity, and increase investment in research and development in order to seize a larger market share. In addition, China as a consumer electronics and new energy vehicles as the main manufacturing base, its market demand will also become an important driving force for the growth of the global ceramic capacitor market.