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被动光纤网路设备市场- 2018-2028 年全球产业规模、份额、趋势、机会和预测,按组件、类型、按应用、最终用户、地区、竞争细分Passive Optical Network Equipment Market- Global Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028 Segmented By Component, By Type, By Application, By End User, By Region, Competition |
被动光纤网路设备市场预计到 2028 年底将达到 146.3 亿美元,预测期内年复合成长率(CAGR) 为 14.3%。电信和网路服务的日益普及,加上对频宽需求的不断增长,导致在可预见的未来对千兆被动光纤网路(GPON) 设备的需求不断增加。此外,在视讯点播、视讯会议和网际网路协定语音 (VoIP) 等资料密集型服务的推动下,对乙太网路被动光纤网路(EPON) 设备的需求预计将激增。
无源光网络 (PON) 是一种电信网络,旨在利用网路通讯中的流量多样性。 PON 用于资料通讯、特定回程应用以及住宅和商业存取。客户可以透过利用光纤技术的 PON 来存取宽频网路。术语「被动」表示只有发射和接收点需要电力,而光纤和其他组件保持不供电。 PON网路采用分光器和点对多点架构,将讯号从单一传输点上行和下行同时传输到多个用户终端。光线路终端(OLT)位于通讯业务的中心局,而多个光网路单元(ONU)则放置在终端消费者附近。由于 PON 具有高频宽、稳定性以及透过频宽共享进行经济高效的部署,因此广泛应用于住宅、商业和企业环境。部署 PON 是一种经济高效的解决方案,特别是对于大规模安装而言,因为它透过单一光纤连接众多用户,并透过被动分路器将光纤分配到更靠近用户的位置。此外,PON 因其速度更快、成本效益高、可扩展性、利用现有光纤基础设施、多种升级路径和低延迟等优势而越来越受欢迎,以适应不断增长的应用数量。
市场概况 | |
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预测期 | 2024-2028 |
2022 年市场规模 | 146.3亿美元 |
2028 年市场规模 | 326.2亿美元 |
2023-2028 年复合年增长率 | 14.4% |
成长最快的细分市场 | 新一代被动光纤网路(NG PON) |
最大的市场 | 北美洲 |
电信业不断努力采用绿色能源替代方案,以满足日益增长的能源消耗需求。数位时代和智慧科技的采用显着增加了各个地区对大频宽高速网路服务的需求。例如,电信塔已成功开始部署无柴油站点,并积极寻求更可靠的电网供电解决方案,以维持品质标准。基地台占据了大部分能源使用量,这就是为什么网路营运商非常重视提高网路基础设施能源效率。这对电信公司和塔式公司提供可靠和清洁的能源提出了独特的挑战,特别是考虑到 2022 年引入 5G 后资料流量的显着增加。透过消除对机架式交换机的需求,对不可再生电力的依赖可以减少设备和电力消耗。此外,环保的无源光纤区域网路选项优于传统的基于乙太网路区域网路。这些解决方案以光分路器取代了工作组交换机,确保符合暖气、通风和空调 (HVAC) 标准。这不仅消除了对数千千瓦能源的需求,而且提供了更具成本效益的选择。因此,对建立低碳光网路的绿色网路解决方案的需求不断增长。无源光网路(PON)利用单光纤、单类型光纤连接到工作组终端(WGT)。此外,PON 使用小型被动光分路器,这些分光器安装在建筑物的外壳内,通常位于每个楼层。因此,PON不需要电源,不产生热量,甚至可以安装在电气柜中。
目前,在数据密集型应用、视讯串流、云端运算和物联网 (IoT) 呈指数级增长的推动下,对高速宽频连线的需求大幅增长。为了满足这些不断增长的频宽需求,电信供应商和网路营运商正在转向无源光网路 (PON) 技术。 PON 设备能够提供高速资料、语音和视讯服务。此外,全球宽频连线的成长预计是预测期内推动市场进步的关键因素。例如,根据经济合作暨发展组织的数据,经合组织国家的固定宽频用户数从 2021 年的 4.63 亿户增加到 2022 年 6 月的 4.76 亿户,平均每 100 名居民拥有 34.7 户固定宽频用户。 2022 年 6 月,行动宽频订阅人数达到 18 亿,高于 2021 年的 17 亿,平均每 100 名居民有 128 订阅。然而,值得注意的是,PON技术涉及复杂的光传输和復用技术,这可能需要专门的技能和专业知识来进行部署和维护。与实施和管理 PON 网路相关的技术挑战可能会限制市场成长,特别是对于技术资源有限的小型服务供应商。
全球被动光纤网路(PON) 市场正面临无线技术竞争加剧的重大挑战。 4G和5G无线网路的快速演进大大扩展了高速网路连线的范围,侵蚀了PON系统的一些传统优势。随着无线基础设施变得更加强大和广泛,特别是在人口稠密的城市地区,消费者和企业越来越被无线连接提供的便利性和移动性所吸引。这种转变促使网路营运商和 PON 供应商重新评估他们的策略,重点是透过更高的频宽、增强的可靠性以及与无线网路的无缝整合来实现差异化。为了保持竞争力,PON 市场必须利用这些属性,同时解决无线替代方案带来的独特挑战,并重申其在不断发展的电信环境中的相关性和价值主张。
在持续的研发努力的推动下,全球被动光纤网路(PON) 市场正在经历技术进步的浪潮。 PON 技术的创新不断增强其效能、可扩展性和功能。从 10G-PON 和 NG-PON2 等更高速变体的出现,到波分复用 (WDM) 技术的改进,这些发展扩展了 PON 提供更大频宽、更低延迟和更高服务品质的潜力。此外,研究工作的重点是解决扩大覆盖范围、增强网路安全和优化能源效率等挑战。这项持续创新强调了 PON 的适应性和相关性,可以满足不同行业和全球市场对高速、可靠和麵向未来的宽频解决方案不断增长的需求。
光纤技术的显着进步极大地推动了全球被动光纤网路(PON) 市场的动态成长。依赖光纤基础设施的 PON 系统从光纤的不断发展中受益匪浅,可实现更高的资料传输速率、更高的讯号可靠性和更高的成本效率。随着光纤电缆变得更加紧凑、耐用和经济实惠,PON 部署对于网路营运商和服务供应商来说变得越来越容易和有吸引力。这些光纤创新增强了 PON 网路的功能,促进高速互联网、强大连接和多功能服务的无缝交付。 PON 和光纤进步之间的协同关係凸显了它们在塑造现代电信格局和满足全球范围内对高效、面向未来的宽频解决方案不断增长的需求方面发挥着不可或缺的作用。
在宽频用户对高速连线的需求不断增长的推动下,千兆位元被动光网路 (GPON) 领域有望主导全球无源光网路设备市场。这种不断增长的需求使得采用 GPON 成为必然,因为与乙太网路被动光网路 (EPON) 相比,它提供了更先进的技术,具有更高的频宽分配和更低的功耗。在高品质视讯串流需求不断增长的推动下,FTTH/GPON在全球范围内迅速部署,进一步增强了GPON技术的优势。在预测期内,由于 GPON 在光纤到府 (FTTH) 服务中越来越多的采用,预计 GPON 的市占率将大幅成长。因此,基于云端的被动光网路设备解决方案正在全球市场广泛采用。
就最终用户而言,商业部门预计将成为全球无源光网路设备市场的主导者。这是由于电信业者不断开发用于各种商业应用的光纤网络,包括办公室、教育机构、饭店、银行等。各行业的企业都在优先考虑技术进步,以提高网路速度和效率。资讯科技和国防部门尤其需要安全可靠的网路服务,而这可以透过光纤技术来实现。此外,企业正在从资料速率为 2.5Gbit/s 和 1.25Gbit/s 的现有千兆乙太网路被动光网路 (GPON) 过渡到新一代 NG-PON,对称地提供 10Gbit/s 的最大速度。因此,商业领域不断增长的需求正在推动全球无源光网路设备市场的扩张。
受多种因素的推动,北美地区预计将在预测期内确立其在全球无源光网路 (PON) 市场的主导地位,这些因素使该地区成为 PON 采用方面的领跑者。该地区拥有各行业的知名企业,并广泛实施软体解决方案。非洲大陆技术先进的基础设施、对高速互联网和资料服务的高需求以及对光纤网路的强劲投资为 PON 的扩张奠定了坚实的基础。此外,政府致力于增强宽频连线的倡议,加上医疗保健、金融和教育等行业对可靠、高效网路解决方案的需求不断增长,正在推动 PON 的成长。北美竞争激烈的电信格局和主要行业参与者的存在进一步促进了其在采用和部署 PON 技术方面的领先地位。随着 PON 不断发展并满足现代社会不断升级的连接需求,北美不仅占据市场主导地位,而且还在全球范围内树立了创新和卓越网络的基准。
全球被动光纤网路设备市场报告以及给定的市场资料,Tech Sci Research 根据公司的具体需求提供客製化服务。该报告可以使用以下自订选项:
The Passive Optical Network Equipment Market is projected to reach USD 14.63 billion by the end of 2028, exhibiting a compound annual growth rate (CAGR) of 14.3% during the forecast period. The rising adoption of telecom and internet services, coupled with the growing demand for bandwidth, has resulted in an increased requirement for Gigabyte Passive Optical Network (GPON) equipment in the foreseeable future. Moreover, the demand for Ethernet Passive Optical Network (EPON) equipment is expected to surge, driven by data-intensive services like video on demand, videoconferencing, and Voice over Internet Protocol (VoIP).
Passive optical networks (PONs) are telecommunications networks designed to leverage traffic diversity in network communications. PONs are utilized for data communications, specific backhaul applications, and residential and commercial access. Customers can access broadband networks through PONs, which leverage fiber optic technology. The term "passive" signifies that only the transmit and receive points require electrical power, while the fiber and other components remain unpowered. PON networks employ optical splitters and point-to-multipoint architecture to simultaneously transmit signals upstream and downstream from a single transmission point to multiple user terminals. An optical line terminal (OLT) is located at the central office of the communications business, while multiple optical network units (ONUs) are placed near end consumers. PONs are extensively used in residential, commercial, and enterprise settings due to their high bandwidth, stability, and cost-effective deployment through bandwidth sharing. Deploying PONs is a cost-effective solution, especially for large-scale installations, as it connects numerous subscribers through a single fiber-optic cable, distributing fiber closer to users through passive splitters. Furthermore, PONs are gaining popularity due to their advantages of faster speed, cost-effectiveness, scalability, utilization of existing fiber-optic infrastructure, multiple upgrade paths, and low latency to accommodate the growing number of applications.
Market Overview | |
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Forecast Period | 2024-2028 |
Market Size 2022 | USD 14.63 billion |
Market Size 2028 | USD 32.62 billion |
CAGR 2023-2028 | 14.4% |
Fastest Growing Segment | Next Generation Passive Optical Network (NG PON) |
Largest Market | North America |
The telecommunications industry is continuously striving to adopt green energy alternatives to meet the growing demand for energy consumption. The era of digitalization and the adoption of smart technologies have significantly increased the need for high-speed internet services with large bandwidth in various regions. For instance, telecom towers have successfully started deploying diesel-free sites and are actively seeking solutions for more reliable grid power supply to maintain quality standards. Base stations account for most of the energy usage, which is why network operators place a strong emphasis on improving network infrastructure energy efficiency. This presents a unique challenge in delivering dependable and clean energy to Telcos and Tower cos, especially considering the significant increase in data traffic following the introduction of 5G in 2022. By eliminating the need for rack-mount switches, the reliance on non-renewable electrical equipment and power consumption can be reduced. Additionally, environmentally-friendly passive optical local area network options outperform traditional copper-based Ethernet local area networks. These solutions replace the use of workgroup switches with optical splitters, ensuring compliance with heating, ventilation, and air-conditioning (HVAC) standards. This not only eliminates the need for thousands of KW energy but also provides a more cost-effective option. As a result, there is a growing demand for green network solutions to establish low-carbon optical networks. Passive optical network (PON) utilizes a single fiber, single type optic to connect to the workgroup terminal (WGT). Moreover, PON utilizes small passive optical splitters, which are housed in enclosures in a building, typically on every floor. Therefore, PON requires no power, generates no heat, and can even be installed in electrical closets.
Currently, there is a significant surge in the demand for high-speed broadband connectivity, driven by the exponential growth of data-intensive applications, video streaming, cloud computing, and the Internet of Things (IoT). To meet these ever-increasing bandwidth requirements, telecommunication providers and network operators are turning to passive optical network (PON) technology. PON equipment enables the delivery of high-speed data, voice, and video services. Furthermore, the global increase in broadband connections is a key factor projected to drive market progress in the forecast period. For instance, according to the Organization for Economic Co-operation and Development, fixed broadband subscriptions in OECD countries reached 476.0 million in June 2022, up from 463.0 million in 2021, with an average of 34.7 subscriptions per 100 inhabitants. Mobile broadband subscriptions reached 1.8 billion in June 2022, up from 1.7 billion in 2021, with an average of 128 subscriptions per 100 inhabitants. However, it is important to note that PON technology involves complex optical transmission and multiplexing techniques, which may require specialized skills and expertise for deployment and maintenance. The technical challenges associated with implementing and managing PON networks can act as a restraint for market growth, particularly for smaller service providers with limited technical resources.
The Global Passive Optical Network (PON) market is currently experiencing robust expansion, driven by the compelling combination of low ownership costs and high return on investment (ROI). PON technology offers a cost-effective solution for high-speed broadband deployment, leveraging its inherent ability to deliver data, voice, and video services over a single optical fiber infrastructure. The reduced maintenance and operational expenses associated with PON systems contribute to their favorable cost of ownership, appealing to service providers and enterprises alike. Simultaneously, the scalability and efficiency of PON networks result in a remarkable ROI as they cater to a growing subscriber base. This blend of affordability and profitability has positioned PON technology as the preferred choice for network operators seeking to optimize their resources while meeting the increasing demand for bandwidth-intensive applications and seamless connectivity, thereby driving the ongoing expansion of the global PON market.
The global passive optical network equipment market is witnessing significant growth, primarily due to the rapid rise in popularity of Gigabit Passive Optical Network (GPON) equipment. As internet connectivity becomes increasingly vital in residential and commercial sectors, GPON technology offers unparalleled data transmission speeds and enhanced bandwidth capabilities. This advancement has spurred substantial demand for GPON equipment, fostering innovation and competitiveness within the market as providers strive to meet the growing connectivity needs of modern consumers and businesses.
However, the growth of the global Passive Optical Network (PON) market faces challenges due to limited reach and coverage. While PON technology offers impressive data transmission capabilities, its effectiveness diminishes over long distances. This limitation hinders its widespread adoption, particularly in geographically expansive or remote areas where extending the PON infrastructure proves economically and technically challenging. As a result, network operators are compelled to seek alternative solutions or combine PON with other technologies to achieve comprehensive coverage. Efforts to address this challenge involve research into innovative signal amplification techniques and the optimization of optical components. Successfully overcoming the limited reach and coverage obstacle will be pivotal in unlocking the full potential of PON networks, enabling them to provide high-speed connectivity to a broader spectrum of users and ultimately accelerating the expansion of the global PON market.
The global Passive Optical Network (PON) market is facing a significant challenge in the form of intensifying competition from wireless technologies. The rapid evolution of 4G and 5G wireless networks has greatly expanded the reach of high-speed internet connectivity, eroding some of the traditional advantages of PON systems. As wireless infrastructure becomes more robust and widespread, particularly in densely populated urban areas, consumers and businesses are increasingly drawn to the convenience and mobility offered by wireless connections. This shift has prompted network operators and PON providers to reassess their strategies, with a focus on differentiation through higher bandwidth, enhanced reliability, and seamless integration with wireless networks. To maintain competitiveness, the PON market must harness these attributes while also addressing the unique challenges posed by wireless alternatives, reaffirming its relevance and value proposition in an ever-evolving telecommunications landscape.
The Global Passive Optical Network (PON) market is experiencing a surge of technological advancements driven by ongoing research and development endeavors. Innovations in PON technology continually enhance its performance, scalability, and capabilities. From the emergence of higher-speed variants like 10G-PON and NG-PON2 to improvements in wavelength division multiplexing (WDM) techniques, these developments expand PON's potential to deliver even greater bandwidth, lower latency, and improved quality of service. Moreover, research efforts focus on addressing challenges such as extending reach and coverage, enhancing network security, and optimizing energy efficiency. This ongoing innovation underscores PON's adaptability and relevance in meeting the ever-growing demand for high-speed, reliable, and future-proofed broadband solutions across diverse industries and global markets.
The dynamic growth of the Global Passive Optical Network (PON) market is significantly propelled by remarkable advancements in fiber optic technologies. PON systems, reliant on optical fiber infrastructure, benefit immensely from the ongoing evolution of fiber optics, enabling higher data transmission rates, increased signal reliability, and enhanced cost-efficiency. As fiber optic cables become more compact, durable, and affordable, PON deployments become increasingly accessible and attractive to network operators and service providers. These fiber optic innovations amplify the capabilities of PON networks, facilitating the seamless delivery of high-speed internet, robust connectivity, and versatile services. The synergistic relationship between PON and fiber optic advancements underscores their integral role in shaping the modern telecommunications landscape and meeting the surging demand for efficient, future-ready broadband solutions on a global scale.
The gigabit passive optical network (GPON) segment is poised to dominate the global market for passive optical network equipment, driven by the growing demand for high-speed connectivity from broadband users. The adoption of GPON is necessitated by this increasing demand, as it offers superior technology compared to ethernet passive optical network (EPON), with higher bandwidth allocation and lower power consumption. The rapid deployment of FTTH/GPON globally, fueled by the rising demand for high-quality video streaming, further reinforces the superiority of GPON technology. The forecast period predicts a significant market share growth for GPON, driven by its increasing adoption in fiber-to-the-home (FTTH) services. Consequently, cloud-based solutions for passive optical network equipment are witnessing widespread adoption in the global market.
In terms of end-users, the commercial sector is expected to be the dominant player in the global market for passive optical network equipment. This is attributed to the telecommunications providers' increasing development of fiber optic networks for various commercial applications, including offices, educational institutions, hospitality, banking, and more. Enterprises across industries are prioritizing technological advancements to enhance network speed and efficiency. The information technology and defense sectors, in particular, require secure and reliable internet services, which can be achieved through optical fiber technology. Furthermore, enterprises are transitioning from existing gigabit ethernet passive optical networks (GPON) with data rates of 2.5Gbit/s and 1.25Gbit/s to next-generation NG-PONs, offering maximum speeds of 10Gbit/s symmetrically. As a result, the growing demand in the commercial segment is driving the expansion of the global passive optical network equipment market.
North America is expected to assert its dominance in the Global passive optical network (PON) market during the forecast period, driven by a confluence of factors that position the region as a frontrunner in PON adoption. The region boasts prominent businesses across various industries and extensively implements software solutions. The continent's technologically advanced infrastructure, high demand for high-speed internet and data services, and robust investments in fiber optic networks provide a solid foundation for PON's expansion. Additionally, government initiatives focused on enhancing broadband connectivity, coupled with the increasing need for reliable and efficient network solutions in sectors like healthcare, finance, and education, are propelling PON's growth. North America's competitive telecommunications landscape and the presence of key industry players further catalyze its leadership in adopting and deploying PON technology. As PON continues to evolve and cater to the escalating connectivity demands of modern society, North America is positioned to not only dominate the market but also set benchmarks for innovation and network excellence on a global scale.
In this report, the Global Passive Optical Network Equipment Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:
Company Profiles: Detailed analysis of the major companies present in the Global Passive Optical Network Equipment Market.
Global Passive Optical Network Equipment market report with the given market data, Tech Sci Research offers customizations according to a company's specific needs. The following customization options are available for the report: