|
市場調査レポート
商品コード
1129209
フラットパネルアンテナの世界市場-2022-2029Global Flat Panel Antenna Market - 2022-2029 |
||||||
● お客様のご希望に応じて、既存データの加工や未掲載情報(例:国別セグメント)の追加などの対応が可能です。 詳細はお問い合わせください。 |
フラットパネルアンテナの世界市場-2022-2029 |
出版日: 2022年09月29日
発行: DataM Intelligence
ページ情報: 英文 207 Pages
納期: 約2営業日
|
導電性フェイズドアレイフラットパネルアンテナの需要増、小型・低背化アンテナの開発増により、市場の拡大が見込まれます。メンテナンス費用の増大が需要を阻害する可能性があります。
電子誘導型フェーズドアレイフラットパネルアンテナへのニーズが高まる
電子誘導型フェーズドアレイアンテナは、小型化、低背化、長期信頼性の向上、迅速なステアリング、多数のビームなど多くの利点を持っています。フェーズドアレイアンテナの設計では、アンテナ素子間の間隔が非常に重要な要素になります。特に高周波数帯では、一般的に半波長の素子間隔が必要となるため、アレイの構築が困難となります。
本製品は、小型・低背でありながら高性能な効率を有し、厳しい環境下でも長く使用できるよう耐久性・防水性にも優れたアンテナです。その結果、様々な危機的状況において、これらのアンテナの需要が高まっています。商用車、軍用車、鉄道、船舶などの移動体通信の需要が高まるにつれ、電子指向性フェイズドフラットパネルアンテナはより一般的になってきました(ESPA)。軍用車両、鉄道、船などのプラットフォームが移動しても、アンテナは衛星通信を追跡して維持することができます。
超小型・低背のフラットパネルアンテナ
フラットパネルアンテナは、従来のアンテナに代わる薄型・軽量のアンテナです。現代の通信には、このフラットパネル反射板が適しているのかもしれません。超小型・低背のフラットパネル衛星アンテナは、IPベースの音声、映像、データの見通し外アプリケーションのために、最新のKaバンド高出力衛星で動作するように設計されています。このアンテナは、全二重衛星通信を提供し、最新の地上戦闘車両と地上管制局を接続します。
これらの統合端末は、非常に小さな間隔での端末技術を活用しています。例えば、ThinKomソリューションズのThinPackフラットパネルアンテナは、より具体的な対応物の性能、スループットとパワーを、超小型ステーションの使いやすさと組み立ての速さと組み合わせて、ユーザーが世界衛星インターネットの利益を最大限に活用できるようにします。
開発・保守のための高額な費用
地球局のインフラを開発・維持するための高額な費用は、市場成長の大きな抑制要因となっています。船舶は揺れ動くため、海洋環境ではフラットパネルアンテナが衛星との良好なリンクを維持することがより困難になる可能性があります。その結果、アンテナは衛星に対して完全に垂直でない場合があります。
そのため、複数のアンテナを設置する必要があり、パラボラアンテナを設置するよりもコストがかかる可能性があります。また、機械的なステアリングシステムを使用することも考えられますが、その場合、アンテナはかなり大きくなり、本質的に平らでなくなります。さらに、これらのアンテナやその部品の設計、開発、建設には、熟練した専門家の時間と労力が必要です。
COVID-19の影響分析
2020年の予期せぬロックアウトにより、世界市場のアンテナ部品の生産、製造、消費、供給に支障をきたしています。COVID-19の大流行により、世界経済が打撃を受けています。COVID-19に関連するサプライチェーンの問題は、機器サプライヤーの業界を悩ませ続けています。
フラットパネルアンテナ市場は世界的に非常に活発です。価格も下がり、アンテナの性能も大幅に向上しています。フラットパネルアンテナ業界は、まだ数社が競い合っている状態です。市場の最大の勝者は、マルチ軌道、マルチ周波数、マルチビームのすべてを網羅したアンテナになるでしょう。
世界のフラットパネルアンテナ市場レポートでは、約61の市場データ表、52の図、207ページの構成で提供しています。
Flat Panel Antenna Market reached US$ XX million in 2021 and is expected to record significant growth by reaching up to US$ XX million by 2029, growing at a CAGR of 30.10% during the forecast period (2022-2029).
A panel antenna is a single antenna or a group of antennas used to focus a radio transmission in a specific location. Although certain technologies use larger panel antennas, panel antennas are typically flat, rectangular, long structures that are three square feet in size. Additionally called directional antennas. Flat-panel antennas with phased array technology are utilized for military, naval, commercial aviation radar and satellite television applications. Even though the antennas stay stationary, a phased array is a set of computer-scanned and controlled antennas that can form a steerable beam of radio waves.
A flat panel antenna is a directional antenna that only transmits and receives radio signals in one direction. It has a wider beam, allowing the signal to cover more ground. Flat-panel antennas are being developed for maritime satellite communications along with military, naval & commercial aviation radar. Following the discovery of satellites, the dominant trend was building and creating larger spacecraft with huge payloads making satellites more competent and efficient.
The market is anticipated to rise due to the rising demand for electrically guided phased array flat panel antennas and the increasing development of small, low-profile antennas. The rising maintenance expenses could hamper the market demand.
Escalating the need for flat panel antennas with electronically guided phased arrays
Electrically steered phased array antennas have many advantages, including a smaller profile, lower volume, enhanced long-term dependability, quicker steering and many beams. The spacing between the antenna elements is a crucial component of the phased array antenna design. It becomes especially difficult to construct arrays at higher frequencies due to the typical half-wavelength element spacing required.
The antennas have a high-performance efficiency in small, low-profile sizes and are exceptionally durable and waterproof for long life in difficult conditions. As a result, increasing demand for these antennas in several critical situations has been observed. Electronically directed, phased flat panel antennas have become more popular as the demand for communications on the move options for platforms such as commercial vehicles, military vehicles, railways and boats has grown (ESPA). Even though platforms such as military vehicles, railroads or boats move, the antennas can track and maintain satellite communications.
Ultra-compact, low-profile flat panel antennas
The flat panels provide a low-profile, lightweight replacement for conventional antennas. Perhaps these flat panel reflectors are more appropriate for contemporary communications. Flat-panel satellite antennas that are ultra-compact and low-profile are designed to work with the latest Ka-band high-throughput satellites for any IP-based voice, video or data Beyond-Line-of-Sight applications. The antennas provide full-duplex satellite communication, connecting modern ground combat vehicles to ground control stations.
These integrated terminals take advantage of very small interval terminal technologies. For instance, ThinPack flat-panel antennas from ThinKom solutions combine the performance, throughput and power of its more tangible counterparts with the simplicity of use and speed of assembly of ultra-compact stations, enabling users to maximize the benefits of global satellite internet.
High expenditures for development and servicing
The high price of developing and maintaining earth station infrastructure is a major restraint for market growth. Because of the pitching and rolling of ships, it can be more difficult for flat panel antennas to maintain a good link to the satellite in a maritime environment. As a result, the antenna may occasionally not be perfectly perpendicular to the satellite.
Multiple antennas might be required due to the identified problem, which might be more expensive than setting up a parabolic antenna. A mechanical steering system might be used as an alternative, resulting in significantly larger and essentially non-flat antennas. Furthermore, the design, development and construction of these antennas and their components necessitate time and effort from skilled experts.
COVID-19 Impact Analysis
Due to the unexpected lockout in 2020, there have been interruptions in the global market's production, manufacturing, consumption and supply of antenna components. The global economy has been harmed by the COVID-19 pandemic. Supply-chain issues related to COVID-19 continue to plague the industry of equipment suppliers.
The market for flat panel antennas is very active worldwide. Prices are dropping and antenna performance has improved significantly. The flat panel antenna industry still has several companies vying for it. The market's biggest winners will be all-encompassing multi-orbit, multi-frequency and multi-beam antennas.
By frequency, the flat panel antenna market is segmented into C & X band and Ku, K & Ka-band.
Expanding commercial uses for flat panel antenna
The commercial division offers services for many applications, such as passenger automobiles, superyachts, watercraft and commercial shipping. Compared to the enormous radomes frequently used on bigger vessels for broadband satellite communication, flat-panel antennas are smaller and more covert.
The ESA or phased array antennas used in flat panel antennas monitor satellites electrically while remaining fixed, doing away with the necessity for moving parts that might break down. The flat panel antenna market is driven by the rise in the use of such antennas in various commercial applications.
Vast consumer and commercial sector in Asia-Pacific
Asia-Pacific is the world's largest consumer and corporate market due to its growing population. As the 5G movement in Asia-Pacific picks up speed, rapid advancements in flat panel antenna for telecommunication applications also offer market growth opportunities.
The market for flat panel antennas in Asia-Pacific is rising due to advances in antenna technology, increased public awareness of the advantages of using flat panel antennas and antennas' low cost. The electronically steered flat panel antenna design is a well-known and dependable way to start satellite connections and restore information & information in the telecommunications & business sectors in Asia-Pacific.
Top market players are implementing product and service innovation, mergers, acquisitions and collaborations to keep ahead of the competition. For example, Leidos will install the ThinKom Solutions, Inc.-supplied ThinAir® Ka2517 phased-array antenna system on its brand-new high-accuracy electronic intelligence aircraft. U.S. military-compliant modem is coupled with the ThinKom Ka2517 low-profile Ka-band aero satellite antenna system to offer real-time, reliable and resilient broadband communication to and from the aircraft in flight.
Major global flat panel antenna market companies include Kymeta Corporation, ThinKom Solutions, Hanwha Phasor, TTI Norte, L3Harria Technologies, Ball Aerospace, RadioWaves, NXT Communications, Isotropic Systems and China Starwin.
Kymeta Corporation
Overview: Fundamental metamaterials research at Duke University inspired Kymeta's technology, eventually incubated at Intellectual Ventures. The initial prototype of the reconfigurable metasurface antenna (MSA), which would serve as the cornerstone for Kymeta's mobile satcom terminals, was produced at Intellectual Ventures.
The metasurface technology developed by Kymeta is a stunning architecture for a new class of electronically scanned antennas, including the first commercially accessible metamaterial-based device. The foundation for Kymeta, which spun out of Intellectual Ventures in August 2012, was built by this groundbreaking research, backed by a large portfolio of U.S. and international patents and licenses.
Product Portfolio: Kymeta offers the first electrically scanned flat-panel satellite terminal for permanent and mobile platforms. The Kymeta Hawk u8 is a full connectivity solution that can deliver on-the-go communications whenever and wherever you need them. The terminal uses Kymeta's industry-leading, electronically guided antenna and simply mounts on cars and watercraft to deliver seamless satellite or hybrid satellite/cellular access.
Key Development: In 2021, Kymeta and OneWeb, a Low Earth Orbit (LEO) satellite communications company, made a collaboration agreement (JDA) to create an innovative flat-panel electronically steered user terminal suitable for the OneWeb network to support land fixed applications while also paving the way for future mobility applications such as land mobile, maritime and other mobility needs.
For military, government, first responder, maritime, enterprise and other commercial users, the KymetaTM u8 flat panel antenna technology provides a novel way to interact with the OneWeb LEO satellite constellation supporting COTP and future COTM. Compatibility between GEO and OneWeb LEO services will be provided by the Kymeta u8-based terminal, extending the terminal solutions' reach.
The global flat panel antenna market report would provide access to an approx. 61 market data table, 52 figures and 207 pages.
Target Audience 2022
LIST NOT EXHAUSTIVE