Solid State Power Amplifiers SSPA Market Overview
Product Overview and Scope of Solid-State Power Amplifiers SSPA
Solid-state power amplifiers (SSPAs) are electronic devices used for amplifying radio frequency (RF) signals in various applications, such as communication systems, airborne, missile, radar systems, and satellite communication. Unlike traditional vacuum tube amplifiers, which use a vacuum tube to amplify the signal, solid-state power amplifiers use solid-state electronic components, such as transistors, diodes, and ICs, to amplify the signal. Solid-state power amplifiers are becoming increasingly popular in various applications due to their many advantages over vacuum tube amplifiers including higher efficiency, smaller size, lower weight, longer lifespan, and higher reliability. They are also easier to operate and maintain, as they do not require the same level of attention to cooling and other operational parameters. SSPAs are commonly used in applications where high power output is required, such as in satellite communication and military radar systems. They are also used in mobile communication systems, such as cellular and Wi-Fi networks, where their high efficiency and reliability are highly valued. In addition to this, SSPAs are significantly used in medical and industrial applications, including MRI machines, particle accelerators, and plasma generation systems. Moreover, the continuous advancements in semiconductor technology, particularly in the field of gallium nitride (GaN) and silicon carbide (SiC), have significantly improved the efficiency and power output of SSPAs. Furthermore, the vendors are focusing on innovation and developing advanced products. For instance, Wavestream has launched “Endurance,” a new line of high power, “always-on” solid-state power amplifier (SSPA) products, which has the ability to replace existing SATCOM solutions which are currently serviced by Traveling Wave Tube Amplifiers (TWTAs). The advancements in technology coupled with the increasing demand for high-speed data transfer, communication and radar systems, and other applications are fuelling the growth of the solid-state power amplifiers market globally.
Solid State Power Amplifiers SSPA Market – Industry Analysis
Market Drivers
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Increasing adoption of 4G/5G networks
The adoption of 4G and 5G networks has led to an increased demand for high-power amplifiers such as SSPAs. These networks require high-power amplifiers for efficient signal transmission and reception, which is fuelling the growth of the solid-state power amplifier SSPA market. The usage of 4G and 5G networks has increased in the telecom industry, where SSPA can achieve high linearity, and high efficiency, making it suitable for use in 4G/5G base stations. 4G/5G networks require a higher density of base stations, so repeaters are required to cover the area. This has increased the adoption of SSPA in the telecom industry. For example, in 2020, Apple released the first iPhones to adopt 5G connectivity, working on both mmWave and sub6GHz 5G. Similarly, AT&T and Verizon both announced the availability of 5G services nationwide, and Verizon said their 5G ultra-broadband service (up to 4 Gbps) is available in 71 cities. 5G wireless cellular technology is expected to maintain its dominance to make massive progress in wireless technology throughout the world. For example, North America led the deployment of 5G wireless connections with a total of 108 million 5G connections and 506 million LTE connections in Q3 2022. With the increasing demand for high-speed data transmission and low-latency communication, 5G technology is widely adopted in the coming years. As a result of this, the growth of the SSPA is also rising in the telecom industry. The development of 5G networks is becoming widely available which is an important driver of the growth of IoT and other intelligent automation applications. 5G Technology delivers excellent data capabilities and unlimited data broadcasting in the latest mobile operating system. 5G networks increasingly require high data transfer rates and low latency which can be achieved through the use of high-performance SSPAs in the base stations. For example, according to Ericsson Mobility Report 2022, 5G subscriptions are expected to reach around 4.4 billion worldwide by the end of 2027, accounting for about 47.5% of all mobile subscriptions worldwide. All these factors are propelling the growth of the solid-state power amplifiers SSPA market.
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Growing demand for satellite communication
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Rise in the usage of high-power amplifiers in various applications
Global Solid State Power Amplifiers SSPA Revenue Market by Regions (2018-2030)
Solid State Power Amplifiers SSPA Market Revenue (USD Million) Comparison by Regions (2018-2030)
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Regions |
2018 |
2022 |
2030 |
Market Share (%) 2030 |
CAGR (%) (2023-2030) |
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North America |
XX |
XX |
XX |
XX |
Xx |
|
|
Europe |
XX |
XX |
XX |
XX |
Xx |
|
|
Asia Pacific |
XX |
XX |
XX |
XX |
Xx |
|
|
Latin America |
XX |
XX |
XX |
XX |
Xx |
|
|
Middle East and Africa |
XX |
XX |
XX |
XX |
Xx |
|
|
Total |
XX |
|
581.9 |
XX |
XX |
XX |
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Global Solid State Power Amplifiers SSPA market was valued at USD 581.9 Million in 2022 and is expected to grow at a CAGR of 7.1% over the forecast period from 2023 to 2030.
Global Solid State Power Amplifiers SSPA Manufacturers Profiles/Analysis
Mitsubishi Electric
Mitsubishi Electric Basic Information, Manufacturing Base, Sales Area and its Competitors
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Item |
Description |
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Company Name |
Mitsubishi Electric Corporation |
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Website |
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Established Date |
1921 |
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Headquartered |
Tokyo, Japan |
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Market Position/ History |
Mitsubishi Electric Corporation was founded by Yataro Iwasaki in 1870. The company has 145,696 employees. It has a revenue of 36.7 billion in 2022. In 1921, the company developed its first product, an electric fan. Since 1960, Mitsubishi Electric has been a pioneer of space technology development in Japan. In 2008, the company succeeded in launching Superbird-C2 (7), the first domestic commercial communications satellite made in Japan for a space communications corporation. The company has operations across Japan, Asia, Europe and North America. |
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Sales Area |
Worldwide |
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Contact Information |
Tokyo Building, 2-7-3, Marunouchi, Chiyoda-ku, Tokyo 100-8310, Japan Tel: (+81) 3-3218-2111. |
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Ticker |
xx |
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No. of Employees |
xx |
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Competitors |
xx |
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CEO |
xx |
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Ownership Type |
xx |
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Manufacturing Location |
xx |
Business Segment / Overview:
Mitsubishi electric corporation is involved in the manufacturing and selling of electrical and electronic products and systems used in information processing and communications, space development and satellite communications, consumer electronics, industrial technology, energy, transportation, and building equipment.The company offers a wide range of product portfolios including air conditioning systems, home products, factory automation systems, automotive equipment, building systems, energy systems, semiconductors & devices, visual information systems, transportation systems, information & communication systems, defense & space systems, and public systems. Defense and space systems include a product range such as defense systems (radar systems, shipboard systems, anti-drone systems, modules, and devices), and space systems (satellite programs, satellite platforms, satellite components, optical and radio telescopes, and satellite communications).
Investment in Research and Development
Research and development costs incurred and charged to income for the fiscal years ended December 31, 2021, and 2020 were USD 1,416.04 million and USD 1,536.9 million respectively.
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Mitsubishi Electric R&D Investment (USD Million) (2019-2020) |
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Source: Secondary Research, Interviews, and Expert Analysis |
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MITSUBISHI ELECTRIC CORPORATION Net Sales, By Segments (2020-2021) (USD Million) |
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Source: Secondary Research, Interviews, and Expert Analysis |
Solid State Power Amplifiers Product Types Specification
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Product |
Product Description |
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SSPA BUC (Solid State Power Amplifier Block Up- Converter)
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Features:
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SSPA Module
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Features:
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Business Strategy
Mitsubishi Electric Corporation has been involved in research and development to develop new products and technology and increase its product portfolio. For instance, it has developed a technology to detect serious physical conditions experienced by people driving automobiles with a contactless driver monitoring system (DMS) camera. Furthermore, Mitsubishi Electric developed tomographic imaging technology to Visualize Hidden Objects with Millimeter Accuracy. Mitsubishi Electric Corporation’s main focus is on a sustainable global environment to reduce costs and increase productivity. For instance, it has decreased the co2 emission during production and increased recycled plastic use.
The company involved product innovation and production capacity expansion to meet customer needs. For instance, it constructed a new wafer plant to increase the production of silicon carbide (SiC) power semiconductors.
