市場調查報告書
商品編碼
1219631
全球芯片天線市場規模、份額和行業趨勢分析報告:按類型、應用、最終用戶、地區劃分的展望和預測,2022-2028 年Global Chip Antenna Market Size, Share & Industry Trends Analysis Report By Type, By Application, By End User, By Regional Outlook and Forecast, 2022 - 2028 |
全球芯片天線市場規模預計將在 2028 年達到 29 億美元,預測期內復合年增長率為 13.2%。
此外,由於能源消耗的增加,芯片天線的市場正在穩步擴大,主要是在製造業。 設計安裝在印刷電路板上的天線的一種方法是使用分形圖。 分形是一種複雜的圖案,其中重複排列簡單的圖形,以使輻射電磁波的物質的長度和周長最大化。
該天線應與信號的波長相匹配,並具有以兩個或多個不同比率保留的分形圖案。 這種天線可以針對不同的佔地面積進行調整,並且在移動設備中變得越來越普遍。 分形天線具有顯著的整體增益和帶寬。 分形天線設計也更加靈活,因為它們不需要額外的部件即可發揮作用。
COVID-19 影響分析
COVID-19 的爆發對芯片天線市場產生了重大的負面影響。 由於這種大流行,許多國家已經實施或延長了封鎖,由於危機和勞動力短缺,關閉了世界各地的工業和製造設施。 因此,在考慮了來自價值鏈不同環節(包括原始設備製造商、集成商、最終用戶、供應商和分銷商)的眾多行業專家的意見後,市場已經下跌。 我們也觀察到,涉足芯片天線生態的各家公司業績也都是負面的。 然而,預計市場將在未來幾年反彈,並在預測期內繼續保持上升趨勢。
市場增長因素
擴大芯片天線在各種物聯網應用中的使用
物聯網的部署預計將在所有最終用戶細分市場中增加,並有望顯著增加對芯片天線的需求。 物聯網設備自動分析開發週期並管理倉庫和庫存,因此它們被用於製造業以改善工廠的生產流程。 這是近年來物聯網設備投資爆炸式增長的主要因素之一。 此外,到 2025 年,自動化行業將接受與更多設備的連接。 也將帶動貼片天線市場的需求和擴大。
GPS/GNSS 和其他傳感器在導航系統中的利用率不斷提高
導航系統提供兩點之間的理想路線。 這是由全球定位系統 (GPS) 和基於衛星的無線電導航系統等外部技術支撐的。 GPS/GNSS 具有高精度、易用性、可靠性和自校準等諸多優點。 結合來自多個來源的數據已成為許多領域改進結果的標準策略。 GIS 和 GPS 的結合使得可視化和根據特定的地方特徵採取行動成為可能。 這加速了市場擴張。
市場約束
實現成本高,容易失諧問題
由於缺乏經驗豐富的工人以及維護和建設用於實現平板天線的基礎設施的高成本,預計芯片天線的需求將會下降。 此外,芯片天線不僅與供應商和ODM廠商兼容,在使用芯片天線時也存在可操作性差、性能效率差、範圍窄等問題。 此外,各種應用的大量工作頻率不匹配將是預測期內芯片天線市場擴張的主要限制因素。 因此,所有這些因素都極大地阻礙了芯片天線的使用,從而限制了市場的增長。
按類型劃分的前景
芯片天線市場按類型分為 LTCC 芯片和電介質芯片。 LTCC 芯片部分在 2021 年的芯片天線市場中佔據了最高的收入份額。 HTCC 的升級版和更實惠的版本,LTCC(低溫共燒陶瓷)的燒製溫度為 700-960 度。 典型的 LTCC 應用包括混合電路、電阻器、電感器、變壓器、傳感器和微系統。 LTCC 通過在單個多層封裝中的集成和協作提供低介電損耗、高/低介電常數和多功能性。
應用展望
芯片天線市場按應用細分為 WLAN/WiFi、藍牙、雙頻/多頻和 GPS/GNSS。 2021年芯片天線市場,GPS/GNSS領域收入佔比較大。 事實證明,在各種跟蹤設備、車輛管理系統和可穿戴應用中使用芯片天線技術可提供最佳的 GNSS(全球定位系統)性能。 各種新設備需要自適應 GNSS/GPS(全球定位系統)連接,這使得芯片天線成為考慮尺寸、重量、便攜性和成本的理想選擇。
最終用戶視角
芯片天線市場按最終用戶細分為消費電子產品、汽車、醫療保健、電信等。 2021年的貼片天線市場,汽車領域實現了可觀的增速。 為車輛配備傳感器和安全功能(例如 ADAS(高級駕駛員輔助系統))是推動該行業擴張的主要因素。 許多車載傳感器,如雷達、激光雷達和攝像頭,充當車輛的眼睛並提供感知。 ADAS 提供的感知與人工智能相結合,使車輛了解周圍環境和障礙物(靜態、動態、預期和意外)。
區域展望
按地區劃分,分析了北美、歐洲、亞太地區和 LAMEA 的芯片天線市場。 亞太地區在 2021 年芯片天線市場的收入份額最高。 物聯網支出主要集中在亞太地區,新加坡和韓國預計將成為物聯網採用芯片天線的主要市場之一。 根據經濟合作與發展組織 (OECD) 的數據,韓國人均擁有最多的互聯網連接設備。
The Global Chip Antenna Market size is expected to reach $2.9 billion by 2028, rising at a market growth of 13.2% CAGR during the forecast period.
Chip antenna is known for its compact footprint, making them a special kind of antenna. They are most frequently integrated onto circuit boards to emit high-frequency electromagnetic waves and are considered ideal for small devices like Wi-Fi routers and cell phones. Chip antennas are smaller than a typical antenna but transmit and receive electromagnetic waves.
This indicates that they are frequently incorporated within compact electronic devices and are reasonably priced, given their high quality. The increasing use of smartphones and tablets, as well as the increasing penetration of the internet, are some of the key factors fueling the market's expansion. Furthermore, the advent of next-generation wireless technologies and the increased demand for reliable connectivity are further aspects that help define the expanding market environment.
In addition, the market for chip antennas is expanding steadily due to rising energy consumption, particularly from the manufacturing industries. Using fractal geometry is one way to design an antenna that may be included on a PCB. A fractal is an intricate pattern created by repeatedly arranging simple shapes in such a way that the material's length or perimeter radiating an electromagnetic signal is maximized.
These antennas must match the signal wavelength, and also the fractal pattern must be preserved in at least two distinct ratios. These antennas, which can be tailored to fit a range of footprints, are showing up more frequently in mobile gadgets. Overall, fractal antennas have remarkable gain and bandwidth. In addition, because fractal antenna designs don't need any extra parts to function, they are more flexible.
COVID-19 Impact Analysis
The COVID-19 outbreak had a significant negative influence on the chip antenna market. Because of the pandemic, many countries imposed and extended lockdowns, which caused industry and manufacturing facilities all around the world to shut down due to crisis and a lack of labor. As a result, it is determined that the market experienced a decline after considering the opinions of numerous industry experts from different segments of the value chain, including OEMs, integrators, end users, suppliers, and distributors. The financial results of different businesses in the chip antenna ecosystem were also observed to be negative. However, it is anticipated that the market will bounce back in the coming years and continue to rise throughout the projected period.
Market Growth Factors
Growing utilization of chip antennas in various IOT applications
IoT deployment is likely to increase across all end-user segments, which is anticipated to significantly boost the demand for chip antennae. As IoT equipment automatically analyzes development cycles and maintains warehouses and stocks, they are being used in manufacturing to improve the production flow of a plant. It is one of the main factors behind the recent explosion in IoT device investment. Additionally, the automation industry will incorporate more connectivity with devices by 2025. It will also propel the demand and expansion of the chip antenna market.
Rising use of GPS/GNSS and other sensors in navigation systems
Navigational systems provide the ideal routes between two points. It is supported by external technologies like the Global Positioning System (GPS) and satellite-based radio navigation systems. GPS/GNSS has many advantages, including high precision, usability, reliability, and self-calibration. Combining data from many sources is a standard strategy in many fields to improve results. GIS and GPS have been combined to visualize and implement a specific area's characteristics. Thereby fuelling the expansion of the market.
Market Restraining Factors
High cost of implementation and easy detuning issues
It is anticipated that the demand for chip antenna will decrease by a lack of experienced workers and expensive maintenance and construction costs for the infrastructure needed to enable flat panel antennas. The lack of operability as well as compatibility between supplier and ODM, along with the irregular performance efficiency and insufficient range of chip antenna, are also aiding the problem of using chip antennas. The inconsistency in numerous operating frequencies for various applications serves as the major limitation for the expansion of the chip antenna market during the forecast period. Therefore, all these factors significantly hamper chip antenna utilization and consequently limit the market's growth.
Type Outlook
Based on type, the chip antenna market is categorized into LTCC chip and dielectric chip. The LTCC chip segment garnered the highest revenue share in the chip antenna market in 2021. The updated and more affordable variant of HTCC, LTCC (low temperature co-fired ceramic), has firing temperatures between 700 and 960 degrees Celsius. Hybrid circuits, resistors, inductors, transformers, sensors, and microsystems are some of the main uses of LTCC. In a single multilayer package, LTCC provides capabilities like low dielectric loss, high/low permittivity, and multi-functional features through integration and linkages.
Application Outlook
On the basis of application, the chip antenna market is divided into WLAN/WiFi, Bluetooth, dual band/multi band, and GPS/GNSS. The GPS/GNSS segment recorded a significant revenue share in the chip antenna market in 2021. The use of chip antenna technology in a range of tracking equipment, fleet management systems, and wearable applications has been shown to provide the optimum GNSS (Global Navigation Satellite System) performance. Different new devices need adaptable GNSS/GPS (Global Positioning System) connections, and chip antennas are the ideal option when size, weight, portability, and cost are concerns.
End User Outlook
Based on end user, the chip antenna market is segmented into consumer electronics, automotive, healthcare, telecommunication, and others. The automotive segment garnered a remarkable growth rate in the chip antenna market in 2021. Integrating sensors and security features like ADAS (advanced driver assistance systems) in automotive is the primary factor advancing the segment's expansion. Many onboard sensors, including radars, LiDAR, and cameras, act as the vehicle's eyes to provide perception. ADAS-provided perception works with artificial intelligence to give the vehicle awareness of its surroundings and impediments, both static and moving, anticipated and unanticipated.
Regional Outlook
On the basis of region, the chip antenna market is analyzed across North America, Europe, Asia Pacific, and LAMEA. The Asia Pacific region procured the highest revenue share in the chip antenna market in 2021. IoT spending is primarily concentrated in the Asia Pacific region, with Singapore and South Korea predicted to be among the prominent markets for chip antenna adoption in IoT. Data from the Organization for Economic Co-operation and Development (OECD) shows that South Korea is the nation with the most Internet-connected devices per habitat.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Linx Technologies, Inc. (TE Connectivity Ltd.), Vishay Intertechnology, Inc., Yageo Corporation, Mitsubishi Materials Corporation, Taoglas, Antenova Ltd., Johanson Technology, Inc., Ignion, SL, and Shenzhen Sunlord Electronics Co., Ltd.
Market Segments covered in the Report:
By Type
By Application
By End User
By Geography
Companies Profiled
Unique Offerings from KBV Research
List of Figures