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RFHIC and Rohde & Schwarz Korea Forge a Strategic MOU for GaN Technology Development

RFHIC and Rohde & Schwarz Korea Forge a Strategic MOU for GaN Technology Development

Gwacheon, South Korea, June 27th, 2024 – RFHIC Corporation (KOSDAQ:218410), a pioneer in the GaN RF & Microwave industry, have entered a strategic memorandum of understanding (MOU) focused on advancing gallium nitride (GaN) technology across defense, aerospace, and telecommunications sectors. This agreement marks a significant milestone that will combine the expertise and knowledge of both companies to foster innovation and extend their influence across various industries.

Under this MOU, Rohde & Schwarz Korea will provide RFHIC with state-of-the-art measurement solutions, including vector network analyzers, signal generators, spectrum analyzers, and oscilloscopes. These test & measurement instruments are expected to significantly enhance the verification processes in RFHIC’s GaN technology development and research initiatives.

Rohde & Schwarz Korea, the Korean subsidiary of Rohde & Schwarz that globally respected German company with a 90-year history, is renowned for delivering cutting-edge measurement solutions across telecommunications, broadcasting, electronics, and defense sectors. The company is recognized worldwide for its innovative technologies and quality products.

RFHIC, known for its pioneering role in high-power RF and microwave solid state power amplifiers (SSPA) utilizing GaN technology, collaborates closely in fields including defense, aerospace, and telecommunications. RFHIC’s SSPA products are widely utilized across these sectors, underlining the company’s leading position in the market.

Kim Tae-hoon, the Managing director of Rohde & Schwarz Korea, remarked, “This MOU between Rohde & Schwarz Korea and RFHIC will elevate Korea’s GaN technology development to a new level. The advanced measurement solutions of Rohde & Schwarz will play a pivotal role in RFHIC’s ongoing research and development efforts.”

RFHIC’s CEO, David Cho, also expressed optimism, stating, “Our collaboration with Rohde & Schwarz Korea will accelerate the development of GaN-based SSPA technology, significantly impacting the rapidly growing sectors of defense, aerospace, and telecommunications.”

Both companies are committed to maximizing their strengths through this collaboration, aiming to showcase further advanced technologies. For more details, visit the official websites and blog of Rohde & Schwarz Korea and RFHIC.

About RFHIC Corporation

RFHIC (KOSDAQ: A218410) is a global leader in designing and manufacturing GaN RF & Microwave components and systems for applications in wireless communications, defense and aerospace, and RF Energy (Industrial, Scientific, and Medical) segments. We provide industry-leading solutions for gallium-nitride (GaN) transistors, high-power solid-state power amplifiers, and high-power microwave generator systems, all within our in-house production facility. We enlighten industries with RF and Microwave advancements. To expedite a future enhanced by technological innovation – to create a better connected, safer, and stronger world for generations. Learn more at www.rfhic.com. RFHIC® is a registered trademark.

About Rohde & Schwarz

Rohde & Schwarz is striving for a safer and connected world with its Test & Measurement, Technology Systems and Networks & Cybersecurity Divisions. For 90 years, the global technology group has pushed technical boundaries with developments in cutting-edge technologies. The company’s leading-edge products and solutions empower industrial, regulatory and government customers to attain technological and digital sovereignty. The privately owned, Munich based company can act independently, long-term and sustainably. On June 30, 2023, Rohde & Schwarz had around 13,800 employees worldwide.

R&S® is a registered trademark of Rohde & Schwarz GmbH & Co. KG.

RFHIC Corporation
Grace Cho
Manager, Global Sales & Marketing
marketing@rfhic.com
Media Contacts

Rohde & Schwarz Korea
Jihong Choi
Manager, Marketing
Jihong.choi@rohde-schwarz.com

[Company] RFHIC enters strategic partnership with SweGaN

Gwacheon, South Korea, – April 15th, 2024 – RFHIC (KOSDAQ:A218410)

RFHIC Embarks on a New Venture with SweGaN: A Leap Towards Next-Generation Semiconductor Solutions

RFHIC Corporation, a pioneer in the GaN RF & Microwave industry, proudly announces a strategic investment in SweGaN AB, renowned for its cutting-edge development of Gallium Nitride on Silicon Carbide (GaN on SiC) epitaxial wafers, joins forces with RFHIC to usher in a new era of semiconductor excellence.

RFHIC has led the industry in creating and producing a diverse range of devices and high-powered subsystems based on GaN SiC technology. These products serve critical roles in various sectors, including 5g-advanced and 6g telecommunications, defense radar / electronic warfare, industrial applications, and beyond. Our strategic investment in SweGaN AB highlights our dedication to innovation and strengthens our supply chain. This move further enhances our position as a competitive leader in the RF and microwave markets.

We are confident that the combination of RFHIC’s technical expertise and resources with SweGaN’s QuanFINE® epitaxial technology positions us to accelerate the development of high-performance GaN semiconductors for a variety of high-power sectors. This strategic investment reflects our united vision of shaping the future with efficient and innovative semiconductor technologies.

In response to the surging demand for high-power, highly efficient semiconductors across a broad spectrum of applications — from 5g-advanced and 6g telecommunications and defense radars to high-power industrial uses — RFHIC is rapidly advancing its efforts. We are significantly expanding our internal research and development, enhancing our manufacturing capabilities, and diversifying our range of technological materials to meet and exceed market needs.

– Dr. Samuel Cho, CTO, and co-founder of RFHIC Corporation,
“As RFHIC maps its future strategy for GaN semiconductors including accelerated market demand for products in 5G-advanced, 6G, satellite communication and more, SweGaN’s high-performance 6-inch GaN epiwafers for RF and power semiconductors – with exemplary high-power efficiency – provide a strong fit for our technological roadmap and diversification of gallium nitride epitaxial wafer suppliers. SweGaN’s unique epitaxial wafer development and manufacturing technology is a key factor in the high performance of gallium nitride semiconductors that we can tap in developing new products in the 4GHz ultra-high frequency band increasingly sought after by the market.”

– Jr-Tai Chen, CEO and Founder at SweGaN,
“With the accelerating demand for high-performance semiconductor materials to power a multitude of applications and increase the efficiency in an energy-conscious world, the new equity investment will support SweGaN’s capacity expansion plan of its best-in-class GaN-on-SiC epitaxial wafers and tap joint product developments with RFHIC. We are very proud to partner with RFHIC, a leading RF GaN innovator who has the passion and commitment to amplify the world by providing top-efficiency and cutting-edge GaN solutions.”

In collaboration, RFHIC and SweGaN plan to address the increasing demand for GaN semiconductors and initiate new product developments for a variety of markets.

About RFHIC Corporation

About SweGaN

SweGaN specializes in the development and production of engineered benchmark-performance Gallium Nitride on Silicon Carbide (GaN-on-SiC) epitaxial wafers, leveraging our innovative QuanFINE® growth technology. Our QuanFINE® material boasts exceptional performance, empowering our customers to swiftly address the dynamic challenges posed by next-generation high power and high-frequency devices, and to craft forward-looking solutions. We supply and offer tailored high-quality GaN epiwafers to the world’s leading foundries and manufacturers serving diverse sectors including satellite communications, telecommunications, defense sensing, and high-voltage power switches. For more information, visit us as www.swegan.se and LinkedIn.

RFHIC Corporation

Grace Cho
Manager, Global Sales & Marketing
Email: marketing@rfhic.com

SweGaN

Leslie Johnsen
Communications Advisor
Mob: +47 41 45 80 43
Email: leslie.johnsen@swegan.se

[Company] RFHIC’s New Headquarters in Gwacheon!

South Korea, Gwacheon – March 18th, 2024 – RFHIC (KOSDAQ: A218410)

We are excited to announce our new headquarters facility located in Gwacheon, South Korea!
Standing twelve stories tall, our new headquarters is located within the Gwacheon Knowledge Information Twon, which is Korea’s emerging hub for growing high-tech businesses.
The full address is RFHIC Bldg., 110 Gwacheon-daero 12-gil, Gwacheon-si, Gyeonggi-do, 13824, South Korea.

Our new headquarters will accomodate our expanding defense and RF energy business, while our previous HQ in Pyeongchon will continue to be used as a manufacturing facility.
Check out our new HQ below!

About RFHIC:

RFHIC® is a registered trademark

Media Contact:

Grace Cho
RFHIC Corporation
Manager, Global Sales & Marketing
marketing@rfhic.com

RFHIC’s New Gwacheon Facility Update

South Korea, Anyang – June 14th, 2023 – RFHIC (KOSDAQ: A218410)

With the expansion of our Defense & RF Energy business, RFHIC is building a second facility located in Gwacheon, South Korea.

The new building is expected to be built by the end of 2023 and will accomodate our expanding Defense and RF energy business.

Check out the video below!

About RFHIC:

RFHIC® is a registered trademark

Media Contact:

Grace Cho
RFHIC Corporation
Manager, Global Sales & Marketing
marketing@rfhic.com

Rebranding Announcement

South Korea, Anyang – January 9th, 2023 – RFHIC (KOSDAQ: A218410), a leading pioneer in designing and manufacturing GaN RF and Microwave components & systems, has announced the release of their new brand.

“Our business has grown and evolved over the last 23 years, and we felt it was time to change,” said Samuel Cho, Founder, and CTO at RFHIC. We have refreshed our logo to reflect who we are today and to symbolize our future growth ambitions. After careful consideration, we chose a new logo and mark that reflects a more modern look and captures our vision to position RFHIC as the pioneers of GaN RF & Microwave technology for wireless communications, defense & aerospace, and RF energy (Industrial, Scientific, Medical) applications.

The company logo has been adjusted as follows:

From now on, RFHIC will use the following new corporate logo. At the same time, the old logo will still be used and will be phased out gradually in the following manner:

- Starting from December 28th, 2023, the company’s online platforms, such as the company website, social media accounts, 3rd party platforms, promotional materials, employee business cards, etc., will gradually be replaced with the new logo.

- All RFHIC device products, including transistors, MMICs, and hybrid amplifiers, will maintain their current marking structure, and no changes will be made.

- Starting from January 10th, 2023, all newly developed module products will be marked with the new corporate logo, including power amplifiers, module amplifiers, wideband amplifiers, and sub-system products. Previously developed modules and sub-system remaining in inventory will maintain the old logo mark and be exhausted before gradually applying the new logo. During this period, the old and new logos are equally authentic.

- The new logo will be applied to all product packages once exhausted from inventory. During this period, the old and new logos are equally authentic.

If supplementary paperwork and/or additional assistance for this minor change is required, please submit an inquiry through our Contact Us portal. We strongly advise customers who require assistance and/or supplementary paperwork to request within the 30 business day period to receive assistance promptly. After the 30 business day period, please understand response times may be delayed. We thank all of our customers for your time and continued support, and if you have any suggestions or questions, don’t hesitate to Contact Us through our website.

We would like to express our gratitude to the talented agencies that played pivotal roles in our rebrand. A special thank you goes to Show + Tell for their expertise in crafting our brand strategy and updating our visual identity, and to Next Chapter for their consultation on our go-to-market strategy.

About RFHIC:

RFHIC® is a registered trademark

Media Contact:

Grace Cho
RFHIC Corporation
Manager, Global Sales & Marketing
marketing@rfhic.com

RFHIC and MaxLinear Achieve Breakthrough Linearization Performance for Ultra-Wideband 5G New Radio

MaxLinear transceivers and linearization technology combine with RFHIC’s power amplifiers to exceed 3GPP requirements for 5G New Radio (NR)

CARLSBAD, CA/ Anyang, South Korea – August 10, 2021 – MaxLinear, Inc. (NYSE: MXL), a leading provider of radio frequency (RF), analog, digital and mixed-signal integrated circuits, and RFHIC (KOSDAQ: 218410), a leader in the design and manufacture of high-performance active RF and microwave components and hybrid modules recently verified that RFHIC’s Gallium Nitride (GaN) transistor for 5G macro base stations and hybrid power amplifier module (PAM) for 5G massive MIMO base stations achieved breakthrough linearization performance when combined with MaxLinear’s MaxLIN linearization technology, exceeding 3^rd Generation Partnership Project (3GPP) requirements for ultra-wideband 5G New Radio (5G NR).

RFHIC and MaxLinear are collaborating to optimize the combined performance of power amplifiers, transceivers, and linearization at key 5G bands (3.4 to 3.8GHz and 3.7 to 3.98GHz). The collaboration entails RFHIC’s highly efficient GaN solutions for 5G telecom infrastructure, MaxLinear’s high-performance transceivers, and MaxLinear’s ultra-wideband linearization solution (MaxLIN), achieving outstanding efficiency and linearity performance.

MaxLinear’s transceiver portfolio includes:

MxL16xx, a 4T4R family supporting full wideband with 400MHz of instantaneous bandwidth (IBW) for a wide variety of Macro and small cell applications
MxL155x, a high-density 8T8R family supporting full wideband with 400MHz of instantaneous bandwidth (IBW) optimized for high antenna count massive MIMO applications

These transceivers are software compatible, creating a single platform solution that customers can leverage for any application. By providing the transceiver and the linearization solution, along with test data that includes the full transmit lineup, MaxLinear customers can move quickly to production without performance surprises.

RFHIC’s GaN transistors for 5G macro base stations, ID36411D operating at 3.4 to 3.8GHz and ID38411DR operating at 3.7 to 3.98GHz, are designed to achieve the highest efficiency with 100MHz, 200MHz, and 300MHz IBW. The ID36411D achieves over 47% power efficiency for an average output power of 47.41dBm (55W). MaxLIN improves linearity by over 25dB to exceed 3GPP and Federal Communications Commission (FCC) requirements with margin.

“Our GaN power amplifier solution will accelerate the size reduction of 5G base station equipment because of its outstanding power efficiency and high integration. Also, its breakthrough wide bandwidth performance will enable one radio unit to support multiple wireless service providers,” said Sam Kim, Vice President at RFHIC.

“Combining RFHIC technology with MaxLinear transceivers and MaxLIN ultra-wideband linearization provides the highest performance solution available on the market for wideband use cases, such as the crucial C-Band recently auctioned in the U.S.,” said Helen Kim, Vice President of MaxLinear’s Wireless Technologies & IP. “With our automated lineup optimization tool, we can quickly customize the full transmit line-up and provide our customers a market-ready solution in days, rather than months.”

The collaboration of RFHIC and MaxLinear will support all global sub-6GHz 5G spectrums and contribute to the continued innovation of conventional base station equipment and O-RAN technology.

To learn more about RFHIC and its products, please visit www.rfhic.com. To learn more about MaxLinear and its products, please visit www.maxlinear.com.

About MaxLinear, Inc.

MaxLinear, Inc. (NYSE: MXL) is a leading provider of radio frequency (RF), analog, digital and mixed-signal integrated circuits for the connectivity and access, wired and wireless infrastructure, and industrial and multimarket applications. MaxLinear is headquartered in Carlsbad, California. For more information, please visit www.maxlinear.com. MxL and the MaxLinear logo are trademarks of MaxLinear, Inc. Other trademarks appearing herein are the property of their respective owners.

About RFHIC, Inc.

RFHIC Corporation is a leader in designing and manufacturing high-performance active RF & Microwave components and hybrid modules for telecom infrastructures, defense industries, and customized solutions. RFHIC Corporation is headquartered in Anyang, South Korea, and its US Corporation is in Morrisville, NC. For more information, please visit www.rfhic.com. RFHIC logo is a trademark of RFHIC Corporation. Other trademarks appearing herein are the property of their respective owners.

Cautionary Note About Forward-Looking Statements:

This press release contains “forward-looking” statements within the meaning of federal securities laws. Forward-looking statements include, among others, statements concerning or implying future financial performance, anticipated product performance and functionality of our products or products incorporating our products, and industry trends and growth opportunities affecting MaxLinear, in particular, statements relating to MaxLinear’s ultra-wideband linearization solution (MaxLIN) and MxL155x and MxL16xx 400MHz transceivers, current or future benefits of collaboration with RFHIC Corporation, functionality, integration, interoperability, performance, and the benefits of the use of such products and technologies. These forward-looking statements involve known and unknown risks, uncertainties, and other factors that may cause actual results to differ materially from any future results expressed or implied by these forward-looking statements. We cannot predict whether or to what extent these new or existing products will affect our future revenues or financial performance. Forward-looking statements are based on management’s current, preliminary expectations. They are subject to various risks and uncertainties that could cause results to differ materially from those described in the forward-looking statements. Forward-looking statements may contain words such as “will be,” “will,” “expect,” “anticipate,” “continue,” or similar expressions and include the assumptions that underlie such statements. The following factors, among others, could cause actual results to differ materially from those described in the forward-looking statements: intense competition in our industry and product markets; risks relating to the development, testing, and commercial introduction of new products and product functionalities; the ability of our customers to cancel or reduce orders; and uncertainties concerning how end-user markets for our products will develop. Other risks potentially affecting our business include risks relating to acquisition integration; our lack of long-term supply contracts and dependence on limited sources of supply; potential decreases in average selling prices for our products; impacts from public health crises such as the Covid-19 pandemic or natural disasters; and the potential for intellectual property litigation, which is prevalent in our industry. In addition to these risks and uncertainties, investors should review the risks and uncertainties contained in MaxLinear’s filings with the United States Securities and Exchange Commission, including risks and uncertainties arising from other factors affecting the business, operating results, and financial condition of MaxLinear, including those set forth in MaxLinear’s most recent Annual Report on Form 10-K for the year ended December 31, 2020 and Quarterly Report on Form 10-Q for the quarter ended June 30, 2021, in each case as filed with the Securities and Exchange Commission. All forward-looking statements are qualified in their entirety by this cautionary statement. MaxLinear is providing this information as of the date of this release and does not undertake any obligation to update any forward-looking statements contained in this release as a result of new information, future events, or otherwise.

Forward-Looking Statements:

This press release contains forward-looking statements involving risks and uncertainties, both known and unknown, that may cause actual results to differ materially from those indicated. Actual results may differ materially due to a number of factors, including the risk that we may be unable to manufacture these new products with sufficiently low cost to offer them at competitive prices or with acceptable margins; the risk we may encounter delays or other difficulties in ramping up production of our capacity to supply these products; customer acceptance of our products; the rapid development of new technology and competing products that may impair demand or render RFHIC’s products obsolete; and other factors discussed in RFHIC’s filings with the Korean Stock Exchange Commission, including its report on Form 10-K for the year ended June 28, 2020, and subsequent filings.

MaxLinear, Inc. Press Contact:
Debbie Brandenburg
Sr. Marketing Communications Manager
Tel: +1 669-265-6083
dbrandenburg@maxlinear.com

MaxLinear, Inc. Corporate Contact:
Helen Kim
Vice President, Wireless Technologies & IP
Tel: +1 760-692-0711

wireless@maxlinear.com

RFHIC Corp. Corporate Contact:
Sam Kim
Vice President, Business Development
Tel : +1 919-655-1131
Sam.Kim@rfhicusa.com

Covid-19 Update

Anyang, South Korea, December 07, 2020 – RFHIC Corporation (KOSDAQ:218410), a global leader in designing and manufacturing GaN RF & Microwave solutions.

One thing is for sure, is that COVID-19 has had a direct and indirect impact on all of us in the way we live and the way we work. With that being said, RFHIC remains committed to pushing forward and continuing our focus strategies for next-generation RF & Microwave technology in 5G, Defense, and RF Energy. RFHIC is determined to get through these challenging times as a much stronger company- to be more agile and well-positioned within the RF & MW market.

If you have a technical problem or a question about a product, or if you need anything else, contact us and we’ll assist you in the best way possible.

We’re committed to being a great partner and GaN solutions provider with the goal of creating a better and faster world.

About RFHIC

RFHIC Corporation provides innovative GaN solutions that transform how the world operates, communicates, and protects. Our cutting edge GaN technology is the core foundation of all our inventions for creating a better, faster, and more efficient world. As a global leader in designing and manufacturing GaN RF & Microwave components, we envision spurring a new era of high-powered and reliable devices for the next big change in industrial, cellular, and defense technology. Headquartered in Anyang, South Korea.
RFHIC has a US sales office in Morrisville, North Carolina, and sales distributors throughout North America, Europe, and Asia. RFHIC is an ISO9001 (International quality standard) and ISO14001 (Environmental management standard) certified company, providing reliable and dependable products worldwide.

Media Contacts:
Grace Cho
Grace.cho@rfhic.com

RFHIC’s 6kW, 2.45GHz GaN Solid State Microwave Generator

RFHIC’s 6kW, solid-state microwave generator provides enhanced performance for various 2.4-2.5 GHz industrial, scientific, and medical (ISM) applications. The 6kW, gallium-nitride (GaN) solid-state microwave generator is designed as a one-to-one replacement of bulky and unreliable tube-based power systems (magnetrons, klystrons, etc.) for various applications such as:

Chemical vapor deposition (CVD) reactors used for artificial gemstone growth
Plasma Vapor Deposition (PVD) Thin Film reactors are used to manufacture thin films for semiconductor applications
Microwave heating and drying for industrial food processing applications

RFHIC’s compact and lightweight RIU256K0-40TG (6kW, GaN solid-state microwave generator) generator operates from 2.4 to 2.5 GHz, combining four 1.6 kW gallium-nitride (GaN) power amplifiers (PAs) into a remote, solid-state head. The complete microwave generator system comes with a power supply unit, solid-state power amplifier (SSPA) head, cable assembly, and waveguide converter. (see Figure 1).

The solid-state power amplifier (SSPA) supports both CW and pulse operation and can be customized to end-user application requirements. With an adjustable power range from five to 100 percent of rated output, the RIU256K0-40TG (6kW, GaN solid-state microwave generator) maintains high system efficiency at both low and high power (see Figure 2).

Each of the four gallium-nitride (GaN) power amplifiers (PAs) in the generator uses RFHIC’s high-performance gallium-nitride (GaN) on silicon-carbide (SiC) transistor technology, which provides wide bandwidth, high efficiency, high breakdown voltage, and reduces the overall size of the system. The RIU256K0-40TG (6kW, GaN solid-state microwave generator) uses 200 W transistors (IE24200P), which have a saturated output power of 230 W and 74 percent drain efficiency at 50 V bias. The fully matched transistors are integrated with DC-blocking capacitors on both RF ports to simplify system integration.

GaN Solid-State Power Amplifier (SSPA) VS. TUBE

Historically, numerous RF energy applications relied on vacuum tubes or magnetrons as their primary power source. However, these systems came with notable drawbacks in terms of frequency, power, and phase control. In contrast, the RIU256K0-40TG (6kW, GaN solid-state microwave generator)incorporates RFHIC’s advanced drive and control module, enabling precise adjustment of both output frequency and power. As a result, this generator produces an exceptionally clean signal with minimal noise and spurious interference, far surpassing the performance of traditional magnetrons (refer to Figure 3).

Another significant advantage lies in the ability to instantly generate full power without any warm-up time. In contrast, tubes often have short lifespans, frequently less than 6,000 hours. This not only leads to downtime but also escalates operating costs. The RIU256K0-40TG (6kW, GaN solid-state microwave generator) boasts an impressive lifespan ranging from 50,000 to 100,000 hours, depending on operating conditions. This extended longevity translates to substantial cost savings.

Unlike magnetrons and other tube-based systems reliant on a single power source, the RIU256K0-40TG (6kW, GaN solid-state microwave generator) features a configuration with four robust GaN solid-state power amplifiers (SSPAs). This design ensures graceful degradation in case one of the PAs encounters an issue. In contrast, tube-based systems necessitate high-voltage power supplies within the generator, which are prone to arcing. The GaN solid-state power amplifier (SSPA) operates at a safer voltage of 50 V.

Furthermore, the RIU256K0-40TG implements efficient water cooling to eliminate the need for large metal heat sinks, thus reducing the overall size of the generator. This innovative approach allows the SSPA to seamlessly integrate with existing cooling infrastructure in tube-based systems, resulting in cost savings during installation and operation. The system incorporates multiple sensors to monitor water flow rate, SSPA temperature, and VSWR. In the event of abnormal operation, the system automatically initiates a shutdown and alerts the user, safeguarding the generator from damage.

The RIU256K0-40TG also offers user-friendly controls with an LCD touch-screen and jog wheel, granting complete access to system controls, sensors, and alarms. Additionally, comprehensive monitoring and management are accessible through a laptop or remote PC. For added convenience, the system can be controlled remotely via PLC, CAN, or Bluetooth, providing users with versatile options for system management.

MODULAR DESIGN

The RIU256K0-40TG (6kW, GaN solid-state microwave generator) is a self-contained, rack-mounted system comprising two main components:

GaN Solid-State Power Amplifier (SSPA) Head with Isolator: This unit measures 43.2 cm in width, 90.2 cm in length, 23.8 cm in height, and weighs 54.2 kg.Power Supply: The power supply unit has dimensions of 48.3 cm in width, 43.2 cm in length, and 17.7 cm in height, with a weight of 29 kg.The power supply operates on a three-phase, 380~480 VAC and generates the required 50 V bias for the gallium-nitride (GaN) on silicon-carbide (SiC) transistors. Notably, the power supply incorporates three rectifier modules designed for load sharing, hot-swappability, and n+1 redundancy. This means that if one of the power modules fails, the SSPA can continue to operate without the need to replace the entire generator.

To achieve a 6 kW continuous wave (CW) output, four 1.6 kW SSPAs are combined using RFHIC’s four-way waveguide combiner. Operating within the 2.4 to 2.5 GHz frequency range, the WR340 combiner offers exceptional performance, with a maximum insertion loss of 0.1 dB, a 1.1:1 voltage standing wave ratio (VSWR), and an imbalance of less than 3 degrees among its ports.

Additionally, the generator is designed with scalability in mind. Users have the flexibility to integrate RFHIC’s commercial off-the-shelf power amplifiers (PAs) without the need for manual phase synchronization. This adaptability maximizes amplifier utilization, reduces capital expenses, and shortens development timelines.

For any inquiries or questions, please complete the contact form, and a sales representative will be readily available to assist you.

Driving Microwave Energy with GaN Solid State Technology

Ever since Percy Spencer first melted a chocolate bar in his shirt pocket in 1945, industrial microwave power’s primary source has not changed (until now). Our familiar tube-based friend, Magnetron, has been the sound power source for our industry for over half a century. It has served us well, figuratively and literally (think of all the late-night microwavable mac and cheese). But as technology advances, the stealthy Magnetron can no longer meet the demands required by this industry. It is time that we cross the chasm and adopt the technological advancements of the transistor.

What is Microwave Heating?

Before we jump into the magical possibilities of GaN solid-state technology, let us take a step back and understand what microwave heating is. Microwave heating is a Multiphysics phenomenon that involves electromagnetic waves and heat transfer; any material exposed to the electromagnetic field creates vibration and rotation of the polarized molecules inside the material. This friction between molecules increases the temperature of the material, thus heating it. Most materials like food, biological tissues, chemicals, and drugs have high-water content, allowing them to readily absorb microwave energy.

What are the advantages of GaN Solid State vs. Magnetrons?

Magnetron tubes have an approximate lifetime of only a few thousand hours, from 1,500 to 6,000 hours, depending on the tube and application. Due to their short lifetime, they must be replaced frequently, resulting in costly downtime and repairs. GaN solid-state microwave systems, on the other hand, are designed to last more than 50,000 to 100,000 hours. Also, unlike magnetrons that require high voltages (4~15 kV), GaN solid-state microwave systems only require a low voltage of 50V, resulting in safer operations and significantly lowering costs.

Lastly, RFHIC’s GaN solid state technology’s most significant advantage is its capability to control the frequency, phase, power, and signal source precisely and digitally. This next-generation technology will host new profound capabilities such as frequency sweeping, band mapping, and pulse width modulation, resulting in optimized end products.

What are the Drivers and Market Opportunities using GaN Solid State Technology?

The possible microwave applications utilizing GaN solid state are endless – from food processing to growing artificial gemstones. The microwave heating market is expected to reach $1.6 billion by 2027. The main drivers are expected to come from food & beverage, plastics, chemicals, and the paper industry.

Food & Beverage

The food & beverage industry has witnessed tremendous growth in the past few years and is expected to reach $7.5 trillion by 2023. One of the major factors driving this growth is the rising preference for processed foods over unprocessed foods due to consumers’ changing lifestyles. However, consumers demand higher quality and more nutritional processed foods made with real ingredients.

With this increase in demand, major food companies are aggressively adopting newer and more profound technologies to benefit the food & beverage industry. Industrial microwave heating can be used for multiple applications within the food and beverage industry, to name a few – microwave drying, pasteurization, sterilization, tempering, cooking, blanching, and much more.

Previously, magnetrons were the only viable power source for food and beverage applications due to their high power and efficiency. With technological advancements, solid-state devices are starting to provide better or equivalent results in reliability, efficiency, power, and costs.

RFHIC’s Low Cost, Efficient, and Powerful (L.E.A.P) GaN solid-state technology will transform food and beverage processing.

Benefits Include

A significant increase in processing efficiency due to its instantaneous heat-up time, shortening overall processing time.
Due to their shorter processing time, foods and beverages require fewer additives (ex., Salt, vitamins), reducing costs while creating more nutritional end products.
Much more uniform heating & cooking, resulting in higher quality end products.

Microwave heating can extend the shelf life of foods and beverages, decreasing global food waste significantly.

Lower carbon footprint as microwave equipment consumes less energy vs. conventional methods

Learn More Check out our GaN Solid State Portfolio for Food & Beverage Applications

Ablation Technology

The global ablation technology market is projected to reach USD 4.73B by 2021, with a growing CAGR of 10.9%. The rising incidence of cancer and an ever-increasing prevalence of cardiovascular diseases are major factors driving the ablation technologies market.

The ablation market is categorized into laser/light, radiofrequency, cryoablation, microwave, and hydrothermal ablation technology.

Among them, the microwave ablation segment is expected to grow at the highest rate due to the many advantages it offers

Faster heating over a larger volume
Less susceptibility to heat sinks
Enhanced multiple applicator support and no requirement for ground pads.
High Reliability

Microwave ablation generators utilize one of two power sources: a magnetron or solid-state amplifier. However, magnetrons require a high-voltage power supply, which often entails a bulky and heavy transformer. RFHIC’s GaN solid state generators, on the other hand, require a low voltage power supply of 50V, reducing size significantly. Our GaN solid state generators are fabricated using our cutting-edge gallium nitride (GaN) on silicon carbide (SiC) transistors, enabling excellent thermal stability, up to 68% efficiency, and power levels capable of up to multi-kWs.

Learn More Check out our GaN Solid State Portfolio for Microwave Ablation

Microwave Plasma

Microwave plasma is one of the application areas of significant economic value in the industry and promises for the future. Plasmas, sources of active ions and free electrons, enable many applications in research projects and commercial sectors. The most widespread application of RF and microwave plasmas is within the semiconductor industry, where plasmas are utilized for:

Chemical vapor deposition (CVD) of amorphous silicon films used in solar cells
Deposition of silicon nitride for surface passivation and insulation
Anisotropic etching in the fabrication of microelectronic chips
Surface oxidation used in the fabrication of silicon-based microelectronic circuits

Sustain plasmas, and microwave energy has several advantages compared to conventional technology.

Microwaves have higher ionization efficiency than RF for a given plasma, especially at lower pressures.
Due to the lack of electrodes, the risk of contamination and damage to sensitive applications is lower.
Lower ion energies can reduce damage in wafer processing.
Its higher power capabilities allow for faster growth rates, enabling faster and easier scalability.

Explore more about our High Power Microwave Plasma Sources

Future Outlook and Conclusion

Over the last 75 years, the Magnetron has been the main and only successful source for microwave energy despite its many limitations (frequency stability, short lifetime, and reliability). But now, all that has changed thanks to the advancements of the transistor.

Now, solid state power sources can provide up to multi-kWs of power with efficiencies up to 66% in both mid to high band frequency ranges (900-930 MHz, 2.4-2.5GHz, 5.8GHz).

Gallium nitride (GaN) solid state microwave sources will give us the ability to overcome system design constraints and embark upon a new generation of discovery and innovation, further broadening the scope of microwave power applications.

So goodbye, Magnetron, and hello GaN Solid-State!

About RFHIC

Sources:
Juming Tang, “Unlocking potentials of microwaves for food safety and Quality”. Journal of Food Science, Vol. 80, Nr. 8, 2015
Christopher L. Brace, “Microwave Ablation Technology: What every use should know”. Curr Probl Diagn Radiol.2009 61-67
Polaris Market Research, “Industrial Microwave Heating Market”.2027
Mehrdad Mehdizadeh, “Microwave/RF applicators and probes”. Elsevier, 2015

RFHIC Reinventing Tumor Ablation with GaN Driven Microwave Energy

Anyang, South Korea, October 6, 2020 – RFHIC Corporation (KOSDAQ:218410), a global leader in designing and manufacturing GaN RF & Microwave solutions, released their latest 100W, 2.4 – 2.5 GHz, CW GaN solid-state generator (RIM25100-20G) designed ideally for non-invasive tumor ablation using microwave energy.

The RIM25100-20G is fabricated using RFHIC’s cutting edge gallium nitride (GaN) on SiC transistors providing a typical efficiency of 60% at 100W CW. Unlike magnetrons that require high voltage power supplies, RFHIC’s solid-state generator requires only a 50V low voltage power supply, simplifying system integration and lowering overall infrastructure costs.

This industry-leading SWaP-C (size, weight, power, and cost) generator is designed with a CPU allowing users to control the systems frequency, power, and signal source (CW or Pulse) for optimal performance. RFHIC’s GaN SiC HEMTs provide excellent thermal stability resulting in reliable prolonged continuous operations.

Microwave energy also offers several advantages for tumor ablation, including faster heating over a larger volume, enhanced multiple applicator support, less susceptibility to heat sinks or local perfusion, and no requirement for ground pads. All system modifications and Custom designs are available upon request.

To learn more, please contact us.

About RFHIC

Media Contacts:
Grace Cho
Grace.cho@rfhic.com

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Wireless Infrastructure

RF Energy

Defense & Aerospace

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About MaxLinear, Inc.

About RFHIC, Inc.

Cautionary Note About Forward-Looking Statements:

Forward-Looking Statements:

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GaN Solid-State Power Amplifier (SSPA) VS. TUBE

MODULAR DESIGN

What is Microwave Heating?

What are the advantages of GaN Solid State vs. Magnetrons?

What are the Drivers and Market Opportunities using GaN Solid State Technology?

Food & Beverage

Benefits Include

Ablation Technology

Microwave Plasma

Future Outlook and Conclusion

About RFHIC

About RFHIC