성형 회로 부품 세계 시장 규모는 2023년에 35억 3,000만 달러가 되고, 2029년까지의 예측 기간의 CAGR은 12.73%로 견조한 성장이 예측되고 있습니다.
세계의 성형 회로 부품(MID) 시장은 MID의 다목적성과 혁신적인 잠재력을 돋보이게 하는 다양한 요인들의 집결을 통해 상당한 성장과 변모를 이루고 있습니다. MID는 전자 부품의 통합에 대한 획기적인 접근법으로, 회로, 센서, 안테나 등을 플라스틱 부품의 3차원 구조에 직접 통합할 수 있습니다. 이 접근법은 전자 부품 제조를 간소화할 뿐만 아니라 소형화, 비용 절감, 전기 성능 향상, 미관 향상 등 많은 이점을 제공합니다. MID 제조 공정에서 레이저 직접 스트럭처링(LDS)의 이점은 정확성과 비용 효율성의 중요성을 강조합니다. LDS는 재료 비용과 조립의 복잡성을 최소화하면서 복잡하고 정밀한 회로 패턴을 용이하게 합니다. 그 용도는 가전, 자동차, 의료기기, 산업 기기 등 다양한 산업에 걸쳐 있습니다. 게다가 레이저 기술의 발전은 LDS 공정의 역량을 지속적으로 증가시키고 있으며, MID 시장의 매우 중요한 촉진요인이 되고 있습니다.
| 시장 개요 | |
|---|---|
| 예측 기간 | 2025-2029 |
| 시장 규모 : 2023년 | 35억 3,000만 달러 |
| 시장 규모 : 2029년 | 73억 1,000만 달러 |
| CAGR : 2024-2029년 | 12.73% |
| 급성장 부문 | 투샷 성형 |
| 최대 시장 | 아시아태평양 |
전자기기의 환경 실적를 삭감하는 재활용 가능한 플라스틱이나 환경 친화적인 소재에 주목이 모이는 가운데, MID 시장에서는 지속가능성이 높아지는 경향이 있습니다. 세련되고 세련된 제품을 추구하는 소비자의 요구가 강해지고 있는 가운데, MID 기술은 제품의 미관을 높이는데 중요한 역할을 하고 있습니다. MID의 응용 분야는 다양하지만, 자동차 산업은 ADAS(첨단 운전 지원 시스템), 인포테인먼트 시스템, 공간 효율이 뛰어난 경량 부품의 요구에 따라 MID 시장을 견인하고 있습니다. 컴팩트하고 고성능, 지속가능한 전자 솔루션에 대한 세계 수요가 계속 확대되고 있는 가운데, MID는 전자 설계와 제조에 있어서의 혁신과 효율화를 실현하는 중요한 존재이기도 합니다.
소형화 및 공간 효율
전기 성능 향상
비용 절감 및 조립 간소화
제품의 아름다움 향상
설계의 복잡성과 전문 지식
재료 선택과 호환성
제조 공정 관리
시장 인식과 채용
IoT 및 웨어러블과의 통합
자동차 산업에 채용
5G 연결성과 안테나 통합
환경의 지속가능성
Global Molded Interconnect Device Market was valued at USD 3.53 Billion in 2023 and is anticipated to project robust growth in the forecast period with a CAGR 12.73% through 2029. The Global Molded Interconnect Device (MID) market is experiencing substantial growth and transformation, driven by a convergence of factors that highlight the versatility and innovative potential of MIDs. MIDs represent a revolutionary approach to electronic component integration, enabling the integration of circuits, sensors, antennas, and more directly into the three-dimensional structures of plastic components. This approach not only streamlines electronic manufacturing but also brings a host of advantages, including miniaturization, cost savings, improved electrical performance, and enhanced aesthetics. The dominance of Laser Direct Structuring (LDS) in the MID manufacturing process underscores the significance of precision and cost-efficiency. LDS facilitates intricate and precise circuit patterns while minimizing material costs and assembly complexities. Its application spans various industries, including consumer electronics, automotive, medical devices, and industrial equipment. Furthermore, advancements in laser technology continue to enhance the capabilities of the LDS process, making it a pivotal driver in the MID market.
| Market Overview | |
|---|---|
| Forecast Period | 2025-2029 |
| Market Size 2023 | USD 3.53 Billion |
| Market Size 2029 | USD 7.31 Billion |
| CAGR 2024-2029 | 12.73% |
| Fastest Growing Segment | Two-Shot Molding |
| Largest Market | Asia Pacific |
Sustainability is a growing trend in the MID market, with a focus on recyclable plastics and eco-friendly materials that reduce the environmental footprint of electronic devices. As consumer demands for sleek and stylish products intensify, MID technology plays a crucial role in achieving enhanced product aesthetics. Its applications are evident across numerous sectors, and the automotive industry is a dominant force in the MID market, driven by advanced driver assistance systems (ADAS), infotainment systems, and the need for space-efficient, lightweight components. As the global demand for compact, high-performance, and sustainable electronic solutions continues to grow, MIDs are poised to remain a critical enabler of innovation and efficiency in electronic design and manufacturing.
Key Market Drivers
Miniaturization and Space Efficiency
One of the primary drivers fueling the global MID (Molded Interconnect Devices) market is the growing demand for miniaturization and space efficiency. MIDs facilitate the integration of electronic components directly into the three-dimensional structure of plastic parts, eliminating the need for additional PCBs (printed circuit boards) and reducing the overall size and weight of electronic devices. This trend is particularly advantageous in industries striving to develop smaller, lighter, and more compact products. The consumer electronics sector, in particular, benefits significantly from this driver, as MIDs enable the design of slim and sleek devices such as smartphones, wearables, and IoT sensors. Additionally, miniaturization is a crucial requirement in applications like automotive electronics, where limited space within the vehicle's interior necessitates the use of compact and efficient electronic components.
Improved Electrical Performance
Another major driver for the global MID market is the continuous pursuit of enhanced electrical performance. MIDs offer several advantages in terms of signal integrity, reduced electromagnetic interference (EMI), and higher frequency operation. By embedding electronic circuits and components directly into the plastic structure, MIDs reduce signal propagation distances, leading to improved electrical performance.
This driver is particularly relevant in applications requiring high-frequency communication, such as 5G devices, Wi-Fi routers, and automotive radar systems. In these applications, MIDs offer a competitive edge by minimizing signal loss and EMI, resulting in better overall device performance.
Cost Savings and Simplified Assembly
Cost-effectiveness and simplified assembly are key drivers of the global MID market. MIDs streamline the manufacturing process by consolidating multiple components into a single structure, reducing the number of parts and assembly steps. This simplification translates to significant cost savings, as it reduces material, labor, and assembly costs. Industries such as automotive, where cost efficiency is critical, are increasingly turning to MIDs to optimize production processes. By integrating several functions into a single MID component, automakers can reduce both material costs and assembly time, ultimately leading to cost savings and improved competitiveness.
Enhanced Product Aesthetics
The aesthetic appeal of products is an essential driver in the global MID market, as MIDs offer unique design possibilities that traditional electronic packaging methods cannot match. MIDs enable the integration of electronic circuits and components beneath the surface of a product, allowing for cleaner and more streamlined designs.
Consumers are increasingly demanding stylish and visually appealing products, particularly in industries like consumer electronics, automotive, and smart home devices. MIDs address this demand by facilitating innovative and aesthetically pleasing product designs. For example, MIDs enable hidden or integrated touch controls, backlit surfaces, and seamless, uncluttered exteriors in various electronic devices.
Key Market Challenges
Design Complexity and Expertise
One of the primary challenges in the global MID market is the complexity of designing effective MIDs. Developing MIDs involves integrating electronic circuits, sensors, and antennas directly into the three-dimensional molded plastic component. Achieving the desired functionality while optimizing the design for space, weight, and cost constraints requires a high level of technical expertise.
Designers must understand both the mechanical properties of the plastic materials and the electrical characteristics of the embedded components. They also need to consider factors like thermal management and manufacturing processes, which can further complicate the design. As MIDs continue to evolve and find applications in various industries, the demand for skilled MID designers and engineers has become a challenge.
Material Selection and Compatibility
Choosing the right materials for MIDs is a critical challenge. The plastic material used for molding must be compatible with the electronic components and the intended application. Material properties such as thermal conductivity, chemical resistance, and electrical insulation play a vital role in ensuring the reliability and performance of MIDs.
Different applications may require specific material characteristics, and selecting the wrong material can lead to issues such as overheating, signal interference, or premature component failure. Additionally, the global push for more sustainable and eco-friendly materials adds another layer of complexity to material selection.
Manufacturing Process Control
The manufacturing of MIDs involves several intricate steps, including injection molding, laser structuring, and metallization. Achieving consistent quality and precision in these processes is a significant challenge. Manufacturing tolerances are tight in MIDs, as any deviation in dimensions or positioning can affect the functionality and reliability of the final product.
Quality control throughout the manufacturing process is crucial, and this becomes even more challenging with the miniaturization and complexity of MIDs. Achieving repeatability and quality assurance while keeping production costs in check is an ongoing challenge for manufacturers.
Market Awareness and Adoption
Despite their potential advantages, MIDs still face a challenge in terms of market awareness and adoption. Many businesses and designers may not be fully aware of the capabilities and benefits of MIDs, leading to a lack of demand in some industries.
Moreover, the adoption of MIDs requires a shift in the design and manufacturing mindset. Designers and engineers need to consider MIDs as a viable alternative to traditional electronic packaging methods. Convincing industries to adopt this new approach can be challenging, especially when there is a perception of higher initial design and tooling costs.
Key Market Trends
Integration with IoT and Wearables
One of the foremost trends in the global Molded Interconnect Device market is the increasing integration of MIDs with Internet of Things (IoT) devices and wearables. As IoT and wearable technologies continue to gain prominence, MIDs are playing a crucial role in enhancing the functionality and design of these devices. MIDs enable the miniaturization of complex circuits, antennas, and sensors, allowing for the creation of compact and lightweight wearables with advanced capabilities.
IoT applications benefit from MIDs as they enable sensor integration directly into the device's structure, reducing the need for additional components. For example, MIDs can embed antennas into smart home devices, enhancing their wireless connectivity and reducing space requirements. As the IoT ecosystem expands, MIDs are expected to play a pivotal role in creating innovative and highly integrated connected devices.
Automotive Industry Adoption
The automotive industry is a major driver of the global MID market. As modern vehicles become more sophisticated with advanced driver assistance systems (ADAS), infotainment, and connectivity features, the demand for compact and reliable electronic components like MIDs is on the rise. MIDs offer a viable solution for automakers to address the space constraints in vehicles while ensuring robust electronic functionalities.
In automotive applications, MIDs are used for controls, sensors, lighting systems, and radar technology. They contribute to reducing the weight and size of automotive electronic systems while improving their performance. As electric vehicles (EVs) gain momentum and autonomous driving technologies advance, the need for MIDs in automotive applications is expected to grow substantially.
5G Connectivity and Antenna Integration
The deployment of 5G networks is a key driver for the integration of MIDs into various electronic devices. MIDs enable the design and integration of compact and efficient antennas, making them ideal for 5G-enabled devices such as smartphones, IoT sensors, and other wireless communication devices.
As 5G technology brings higher data speeds and lower latency, the demand for antennas with improved performance increases. MIDs allow for the direct embedding of antennas into device housings, optimizing their placement for superior connectivity. This trend is particularly notable in the smartphone industry, where manufacturers are increasingly adopting MIDs to enhance 5G antenna capabilities while maintaining sleek device designs.
Environmental Sustainability
Sustainability and environmental concerns are driving the adoption of MIDs in the global market. MIDs contribute to reducing electronic waste by optimizing the use of materials and space. As organizations and consumers become more conscious of the environmental impact of electronics manufacturing, MIDs offer a more eco-friendly alternative.
MIDs are often produced with recyclable materials, and their compact design helps minimize the overall environmental footprint of electronic devices. The automotive industry, in particular, benefits from MIDs' eco-friendly features by reducing the weight of vehicles, resulting in improved fuel efficiency and reduced emissions.
Segmental Insights
Process Insights
Laser Direct Structuring segment dominates in the global molded interconnect device market in 2023. Laser Direct Structuring involves the use of a laser to selectively activate specific areas of a three-dimensional molded plastic part. This activation process modifies the surface, allowing it to accept and bond with metal plating during subsequent processes. The activated areas effectively become conductive traces, enabling the integration of electrical circuits directly onto the plastic component.
LDS offers exceptional precision in activating specific areas of the plastic surface. Designers have significant flexibility in creating intricate and complex circuit patterns, which is crucial in applications where space constraints and high component density are common. Whether in the miniaturized electronics of smartphones or intricate automotive components, the LDS process excels at accommodating precise circuitry.
The LDS process is cost-effective, particularly when compared to alternative methods like two-shot molding. It simplifies manufacturing by eliminating the need for additional substrates, connectors, or adhesive layers, reducing material costs, and streamlining the assembly process. This cost efficiency is a critical driver for industries looking to reduce manufacturing expenses without compromising quality.
The LDS process simplifies material selection since it can be applied to a wide variety of plastics commonly used in manufacturing. This eliminates the need for specialized materials and ensures compatibility with a broad range of applications. It aligns well with the growing emphasis on sustainability, as recyclable plastics can be used without compromising performance.
Regional Insights
Asia Pacific dominated the Global Molded Interconnect Device Market in 2023. Asia-Pacific is renowned for its robust manufacturing capabilities, particularly in the electronics sector. The region boasts a well-established infrastructure for electronics production, including state-of-the-art facilities and skilled labor. This expertise has enabled Asia-Pacific to excel in the fabrication of MIDs, which involve intricate processes such as injection molding, laser structuring, and metallization. Asia-Pacific offers cost-efficient manufacturing options, making it an attractive hub for MID production. The region's ability to produce high-quality MIDs at competitive prices has drawn the attention of businesses looking to optimize production costs. This cost-effectiveness is vital in a competitive global market. The Asia-Pacific region is home to a burgeoning consumer electronics market. The demand for compact, lightweight, and technologically advanced electronic devices is soaring, and MIDs align perfectly with this trend. MIDs enable the design of sleek and feature-rich products, making them a key component of smartphones, wearables, and other consumer electronics. Asia-Pacific is a hub for the automotive industry, with several countries experiencing robust growth in vehicle production. As MIDs are increasingly integrated into automotive electronics for applications such as advanced driver assistance systems (ADAS) and infotainment, the region's prominence in the auto sector drives the demand for MIDs. Many Asia-Pacific countries are investing heavily in research and development (R&D), fostering innovation and the advancement of MID technology. Governments and private enterprises in the region recognize the potential of MIDs and are supporting initiatives to develop new applications and materials, enhancing the region's leadership in this field.
Molex, LLC
TE Connectivity Ltd.
Amphenol Corporation
LPKF Laser & Electronics SE
Taoglas Limited
HARTING, Inc.
M.I.D Solutions Pty Ltd
2E Mechatronic GmbH & Co. KG
Kyocera AVX
JOHNAN Group
In this report, the Global Molded Interconnect Device Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:
Molded Interconnect Device Market, By Process:
Molded Interconnect Device Market, By Application:
Molded Interconnect Device Market, By Region:
Company Profiles: Detailed analysis of the major companies present in the Global Molded Interconnect Device Market.
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