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NRC7394, the Next-Generation Wi-Fi HaLow SoC Providing a Low-Power, Small Footprint, and Lower Costs, is Now Available for Purchase and Evaluation

Transforming IoT Applications with Low-cost & Energy-conserving Wi-Fi HaLow

IPress Release (NRC7394)

RVINE, Calif., November 1, 2023 ( – Designed to be low-cost, energy-efficient, and small in size, NEWRACOM announces the commercial availability of the new Wi-Fi HaLow System on a Chip (SoC) to the market. The new Wi-Fi HaLow SoC, named NRC7394, represents innovative improvements in power consumption, size, and costs from our early experience and consequently is more competitive against existing Wi-Fi HaLow SoCs in the market. Wi-Fi HaLow is a long-range implementation of Wi-Fi technology based in the 750-950 MHz spectrum designed for a variety of IoT industries including building automation, smart homes, industrial IoT, smart cities, and wearables.

NRC7394 is a highly integrated SoC incorporating baseband (MAC & PHY), Sub 1 GHz radio transceiver, and ADC/DAC in a small 6mm x 6mm 48-QFN package. It is fully compliant with the IEEE 802.11ah standard which is the long-range and low-power version of the Wi-Fi standard. It supports 1/2/4 MHz channel bandwidth which yields 150 Kbps to 15 Mbps PHY rate that can handle low-rate sensors to high-rate surveillance camera applications.

An embedded Cortex-M3 ARM® processor in the NRC7394 offers enough processing power to accommodate the Wi-Fi subsystem and user applications in a single Wi-Fi SoC. NRC7394 includes two host interfaces, HSPI and UART, and rich peripherals such as general SPI, I2C, UART, PWM, auxiliary ADC, and GPIOs. The low-leakage retention memory inside NRC7394 can store code and data necessary for fast wake-up from deep-sleep mode.

The NRC7394 features a fully integrated Power Amplifier capable of +17dBm TX output and offers the capability to support various commercial external FEM (front-end module) devices for applications requiring higher transmission power.

The NRC7394 is capable of operating as an Access Point or Station device and supports additional network architectures including 802.11s mesh. The SoC can operate alongside an external processor in Hosted and “AT Command” modes or leverage on-chip processing and IO for low-power Standalone operation.

More information about the NRC7394 can be found on the NRC7394 Product Page. SDK and software documentation are available on our GitHub page at

If you are interested in purchasing an evaluation kit for the NRC7394 and getting silicon in hand, contact us at or at our contact page.


About NEWRACOM, Inc.

NEWRACOM, Inc., in Irvine, California, U.S., has rapidly become a leading developer and supplier of IoT-enabled wireless connectivity chipsets. We specialize in providing a broad range of Wi-Fi (IEEE 802.11ah and IEEE 802.11b/g/n/ac/ax) that covers various connectivity needs in our lives. With our extensive and diverse Wi-Fi solutions, NEWRACOM provides customers with a “one-stop-shop,” offering a comprehensive solution that can serve multiple IoT applications including Smart Grid, Wearables, Smart Home and Office, Healthcare, and Industrial Automation. For more information, please visit online at

  • Newracom, AHPC, ALFA Network, ASKEY, AzureWave, and others come together to promote the adoption of Wi-Fi HaLow at the Expo.
  • Wi-Fi HaLow consortium declares that Wi-Fi HaLow is in full swing in IoT markets through various showcases.



Irvine, CA, October 24th, 2023 – Newracom is set to participate in AIoT Taiwan Expo hosted by CIoud Computing and IoT Association in Taiwan (CIAT), taking place at the Taipei Nangang Exhibition Center from October 25 to 27, 2023. This will mark the inaugural appearance of Wi-Fi HaLow at the CIAT IoT Pavilion. Newracom is collaborating with industry leaders such as AHPC, ASKEY, ALFA Network, AzureWave, NTT, and Furuno to advance the prominence of Wi-Fi HaLow technology as a standard for IoT connectivity. Their collective objective is to propel the widespread adoption of Wi-Fi HaLow for various IoT devices and to highlight the early commercialization successes of this technology.

During AIoT Expo, the consortium of Wi-Fi HaLow solution providers will showcase a range of innovations. Askey will announce the industry’s first FCC and TELEC certified Wi-Fi HaLow IP camera, a small form factor NRC7394 Wi-Fi HaLow module, and a Tri-band WiFi+11ah AP router, available for the Japan and US market initially. Other key highlights include the industry’s smallest Wi-Fi HaLow System on Module (SoM) from AzureWave, a comprehensive Japan-certified sensor and imaging solution demonstration by AHPC, and Newracom’s next-generation Wi-Fi HaLow SoC named NRC7394.

Tadao Kobayashi, Chairman of the AHPC (802.11AH Promotional Council) in Japan, comments, “Since the inception of AHPC, Newracom has been actively engaged in field experiments related to 802.11ah conducted by AHPC. They have consistently enhanced the hardware and software of 802.11ah chips to align with Japanese regulations. Newracom has played a pivotal role in making 802.11ah available in Japan. At the Expo, Newracom – a chip vendor, ASKEY – a product manufacturer, and AHPC – a consortium of 150 companies and organizations, will showcase their latest 802.11ah devices, products, and services. We aim to forge a new alliance that promotes Taiwanese IT entrepreneurship and the expansion of 802.11ah business.”

Patrick Lin, Vice President of Product Development at AzureWave, remarks, “Newracom’s remarkable accomplishments in the Wi-Fi HaLow product domain underscore their unwavering dedication to innovation and excellence. Their seamless collaboration with AzureWave has not only raised connectivity standards but also transformed the market landscape. Together, they have set a new benchmark for reliable, high-performance wireless solutions, showcasing the power of synergy and expertise in driving technological progress, which we will exhibit at the Expo.”

“Through cooperation with world-class chip developers – Newracom, ALFA Network Inc will continue to provide innovative products and strive to become a leading promoter of the smart world of the Internet of Things” commented Johnson Wang, General Manager of ALFA Network.

Tommy Lin, Research and Development AVP at ASKEY, said “With the growing popularity of IoT devices, the demand for low-power, long-distance communication is also rising. The Wi-Fi HaLow’s low power consumption and long-range may make it a particularly suitable solution for many IoT applications. Askey Computer has always been committed to promoting innovation in technology. Through cooperation with Newracom, we look forward to deploying Wi-Fi HaLow products more widely and jointly promoting the rapid growth of this market in various industries and regions.”

James Lee, Senior Director at ASKEY, followed with, “We are proud to have successfully developed the world’s first Wi-Fi HaLow camera. The launch of this product means that we have a technological leadership position in the field of Internet of Things. The ability to transmit long-distance wireless images is a goal that everyone is looking forward to, and Askey Computer has realized this dream for this industry with the Newracom chip. We look forward to it providing broader development prospects for global IoT applications.”

Frank Lin, Vice President of Global Marketing and Sales at Newracom, adds, “The Wi-Fi HaLow community has united to demonstrate the readiness of this connectivity standard for global implementation. AHPC, ASKEY, AzureWave, ALFA Network, and many other industry leaders are advancing Wi-Fi HaLow’s capabilities, ushering in a new era of linking IoT devices with fast, long-range, low-power connectivity.”

About NEWRACOM, Inc.

NEWRACOM, Inc., located in Irvine, California, U.S., has rapidly become a leading developer and supplier of IoT-enabled wireless connectivity chipsets. We specialize in providing a broad range of Wi-Fi (IEEE 802.11ah and IEEE 802.11b/g/n/ac/ax) that covers various connectivity needs in our lives. With our extensive and diverse Wi-Fi solutions, NEWRACOM enables customers with a “one-stop shop,” offering a comprehensive solution that can serve multiple IoT applications including Smart Grid, Wearables, Smart Home and Office, Healthcare, and Industrial Automation. For more information, please visit online at

About AHPC

The AHPC is committed to implementing the IEEE standard 802.11ah, known as Wi-Fi HaLow, in Japan, offering more features than the existing LPWA for IoT wireless systems. Established in November 2018, the organization gained significance with the revision of the Wireless Equipment Regulations by the Ministry of Internal Affairs and Communications in September 2022, which permitted the use of IEEE 802.11ah in the domestic 920MHz band. The AHPC is made up of over 150 members including NTT, KDDI, Softbank and others, their full member list is available at For more information, please visit

Aprecomm’s WiFi intelligence technology to further strengthen ACT Fibernet’s customer experience enhancement program.

Bengaluru, Feb 21, 2024: Aprecomm has partnered with ACT Fibernet (Atria Convergence Technologies Ltd.), India’s largest fiber-focused wired broadband ISP (Internet Service Provider), to onboard Aprecomm’s innovative technology to remotely optimize residential Wi-Fi connections. Aprecomm’s AI technology will help ACT Fibernet better understand the in home Wi-fi  experience, thus enabling interventions and optimizations that improve in home Wi-Fi performance for customers and bring down the customer issue resolution time and for its two million plus connected households.

Aprecomm’s AI Engine allows ACT to convert its household connections to A.I.-enabled Smart WiFi access points. The technology offers proactive monitoring and measuring of the Wireless Experience of the connected devices and provides real-time insights to improve the reliability and performance of the network.

Pramod Gummaraj, CEO of Aprecomm, said, “Thrilled to collaborate with ACT and introduce cutting-edge technology into their network, resulting in a significant decrease in customer support handling time and a remarkable enhancement in the customer experience. Aprecomm will be bringing more innovation towards Network in the upcoming months.”

Speaking on the development, Dr. Sarath Kumar, CTO, ACT Fibernet, said, “We have tested this technology in our labs and are excited by its prospects. We look forward to integrate Aprecomm’s cutting-edge technology into our network to help provide visibility and analytics of wi-fi performance. We are confident that this will enhance our customer experience immensely. This partnership signifies our commitment to providing top-notch services and staying ahead in the industry.”

“With Aprecomm’s vendor-agnostic technology, ACT can now manage and monitor CPEs through a unified interface, ensuring an assured internet experience for their customers” said Guharajan Sivakumar, CTO of Aprecomm.

The measurable improvements offered by the integration between ACT and Aprecomm also lead to lower maintenance costs and improved customer satisfaction for one of the country’s fastest-growing ISPs.

About Aprecomm

Aprecomm is an industry game-changer with an AI-enabled Software Stack to understand Customer Wi-Fi Experience. Aprecomm offers cloud-based automated solutions to enhance Wi-Fi performance. Aprecomm’s patented technology helps in automatically and proactively troubleshooting Wi-Fi issues. This way ISPs and Enterprises will be able to fix them immediately and dramatically minimize down-time. Aprecomm’s solutions help enterprises, ISPs, TSPs improve their business standards through higher reliability, reduced expenses, and speedy ROI.

About ACT

ACT Fibernet, one of India’s largest wired ISPs (Internet Service Provider) in India. ACT Fibernet is headquartered in Bengaluru and has operations in 24 Indian cities with more than 2 million customers. ACT Fibernet is known for its cutting-edge technology and high-speed broadband connectivity that the company provides to its customers. ACT Fibernet was the first broadband service provider to bring 1 Giga speed connectivity in India to the city of Hyderabad in 2017, followed by Bengaluru and Chennai in 2018. ACT Fibernet recently launched broadband plans which includes all famous OTT platform subscription as part of a bundle.

One of technology’s greatest success stories celebrates a quarter century

Austin, TX – February 15, 2024 – This year marks a significant milestone in the history of technological innovation as we commemorate the 25th anniversary of Wi-Fi®, one of technology’s greatest success stories which has revolutionized the interactions essential to both humans and machines.

In 1999, Wi-Fi Alliance®– formerly known as Wireless Ethernet Compatibility Alliance (WECA) – embarked upon an ambitious journey to promote global adoption of standardized Wi-Fi technology. One of the key first steps was the certification of products that adhered to the Institute of Electrical and Electronics Engineers (IEEE) 802.11 standard to ensure multi-vendor interoperability and give users the confidence essential to accelerating Wi-Fi adoption. Wi-Fi CERTIFIED® has since enabled worldwide interoperability and a robust Wi-Fi device ecosystem that is integral in our daily lives.

Wi-Fi has transformed the way we work, live, and play. It has empowered countless innovations across industries and applications – from devices and services to entire market segments like Internet of Things (IoT), smart homes, and Extended Reality (XR). There are more than 21 billion Wi-Fi devices in use today[1], and Wi-Fi is ubiquitous in smartphones and tablets, provides critical connectivity for homes, enterprises, and service providers, and pushes the boundaries of wireless connectivity. Wi-Fi has done more than ever imagined including serving as an engine of economic growth and societal progress.

“Wi-Fi has had a profound impact on our world,” said Kevin Robinson, president and CEO, Wi-Fi Alliance. “Wi-Fi has transcended its initial role as a local networking tool to become a catalyst for equal opportunity innovation and human progress, connecting people, devices, networks, and ideas like never before. We invite the Wi-Fi industry to join us in celebrating this remarkable milestone this year.”

Over the past quarter-century, Wi-Fi has evolved and expanded, with advancements in performance, range, reliability, and security. Today, Wi-Fi CERTIFIED 7 enables advanced use cases that were previously impractical with wireless technology, and Wi-Fi Alliance is as committed as ever to delivering solutions and features that enrich global Wi-Fi user experiences.

Wi-Fi Alliance will celebrate Wi-Fi’s 25th anniversary throughout 2024, reflecting on its humble beginnings to its status as a cornerstone of modern connectivity, moving the majority of global data traffic. Join us in celebrating 25 years of Wi-Fi at our member meetings and on social media by downloading our digital assets#WeAreWiFi

About Wi-Fi Alliance®  |
Wi-Fi Alliance® is the worldwide network of companies that brings you Wi-Fi®. Members of our collaboration forum come together from across the Wi-Fi ecosystem with the shared vision to connect everyone and everything, everywhere, while providing the best possible user experience. Since 2000, Wi-Fi Alliance has completed more than 80,000 Wi-Fi certifications. The Wi-Fi CERTIFIED™ seal of approval designates products with proven interoperability, backward compatibility, and the highest industry-standard security protections in place. Today, Wi-Fi carries more than half of the Internet’s traffic in an ever-expanding variety of applications. Wi-Fi Alliance continues to drive the adoption and evolution of Wi-Fi, which billions of people rely on every day.

AAA & Access Management – VoWiFi

In previous articles we have talked about the critical nature of AAA / Access Manager and why the functions remain at the core of telecom services. Enabling Voice over Wi-Fi for a telecom operator is a case in point; this is also called Wi-Fi Calling, but for the rest of this article the label VoWiFi is used. At a simple level it enables telephony services over available Wi-Fi access points. In effect, Wi-Fi Calling links telephony from a telecom operator to an internet environment, so you can make, answer, and maintain calls seamlessly when moving in and out of Wi-Fi and mobile networks.

VoWifi provides for low-cost coverage expansion of voice communications for Telcos to create and maintain reliable voice connectivity using pre-existing Wi-Fi access/IP connectivity. It is complementary to voice over LTE (VoLTE) but different, in that it uses Wi-Fi access points not LTE. The business case for this is driven by:

  • Necessity – disabling older circuit switched technology
  • maintaining quality of experience for voice calls
  • creating new service offers such as sponsored roaming.

In a world of apps, it may seem old fashioned, but making a phone call (and expecting it connect reliably and with quality) is still what customers do. A USwitch[1] survey in the UK rated phone calls as the third most popular activity (73%) (just behind messaging (78%) & email (74%)). Long call or short call it doesn’t matter – if the call quality is bad, users blame the network and there is plenty of choice if they want to switch networks. Voice quality and coverage is also a key factor on network assessment with leaders in testing like Umlaut[2] in their ‘Walk tests’ in big cities, or RootMetrics Call Performance tests.[3] Further, it can also be a misconception that coverage issues will be fixed by 5G – as 5G is a mix of radio technologies and pure 5G frequencies can be more affected in dense urban areas.

The voice use case matters for a third reason – a strategy to provide more capacity cost effectively is needed to meet the increasing data demands of the network. An integrated Wi-Fi solution is a building block of that strategy, in urban scenarios; data follows voice and integrating access for mobile and IP networks provides seamless, cost effective, capacity expansion.

The core case for VoWiFi is maintaining the quality of connection. In areas where circuit switched is being disconnected it is essential to link IPv4/IPv6 IMS to HSS authentication and this the role played by the AAA / Access Manager. Working in collaboration with a Telcos’ entitlement services, on device application and packet gateways the access management authenticates the IP telecom access for a voice call using the SWa | SWm diameter protocol to the request received from the evolved packet gateway (ePDG). The response from access manager contains the right authorization and additional attributes so that access is authorized. The additional attributes can be used to create different offers based on geo location and sponsored data/voice roaming for example – enabling new monetization options.

What Enea is doing is solving this use case and more across AAA / Access Manager deployments directly and with our partners. Enea provides AAA / Access Manager as virtualized software (VNF | CNF) increasing the cost benefit of capacity expansion for VoWiFi. The Access Manager has been deployed in more than 40 Operator networks including several large Tier 1 Telecom Operators. It has demonstrable interoperability across a wide range of interfaces and solution use cases.

For more information


[1] USwitch Survey 2023 –

[2] Vodafone Umlaut tests

[3] RootMetrics – UK test:

Wi-Fi CERTIFIED offers a competitive advantage and contributes to improved customer experience

Austin, Texas – February 6, 2024 – Wi-Fi Alliance® members shared company testimonials underscoring the value that Wi-Fi CERTIFIED® delivers to their companies. The top reasons for achieving Wi-Fi CERTIFIED product certification from Wi-Fi Alliance include: emphasis on a standardized method of ensuring the reliability, performance, and security of their Wi-Fi® products, delivering a competitive advantage during RFP processes, and leveraging Wi-Fi CERTIFIED as an effective marketing tool. In markets including Internet of Things (IoT) and enterprise where there is intense competition, Wi-Fi CERTIFIED differentiates products by offering a better customer experience.

These testimonials are a sampling of the value seen from Wi-Fi CERTIFIED by Wi-Fi Alliance’s more than 900 member companies.

“For Wi-Fi CERTIFIED products, I think of the top three things. The first is interoperability. Wi-Fi certification helps our devices from different manufacturers work well together. The second is the competitive advantage. Standing out in the crowd and having those logos on our products is so valuable. I actually win RFPs and RFIs over it and have a competitive advantage over my competitors. The third is security. Devices are required to adhere to certain standards and the latest encryption protocols are tested during our Wi-Fi certification, so security is very important to us.” – Rosalie Bibona, Product Management Director of Wireless, Extreme Networks

“We strongly believe in interoperability and given the fact that Wi-Fi is a long-established collection of technologies that has grown and evolved over the years, it is important for us to achieve interoperability with whatever is out there in the real world. That is where certification really plays an important role for our products.” – Danny Lousberg, Head of Product Management, Software, Signify

“Wi-Fi CERTIFIED plays a crucial role in the IoT industry. It ensures that IoT devices meet strict standards, enhancing their reliability, performance, and security. With high interoperability, Wi-Fi CERTIFIED devices can seamlessly communicate with each other. It sets a very good standard and a benchmark for the expectation of the experience that the consumer can get.” – Alex Yang, Co-Founder and COO, Tuya Smart

Watch our videos to learn more or visit:

About Wi-Fi Alliance® |
Wi-Fi Alliance® is the worldwide network of companies that brings you Wi-Fi®. Members of our collaboration forum come together from across the Wi-Fi ecosystem with the shared vision to connect everyone and everything, everywhere, while providing the best possible user experience. Since 2000, Wi-Fi Alliance has completed more than 80,000 Wi-Fi certifications. The Wi-Fi CERTIFIED™ seal of approval designates products with proven interoperability, backward compatibility, and the highest industry-standard security protections in place. Today, Wi-Fi carries more than half of the internet’s traffic in an ever-expanding variety of applications. Wi-Fi Alliance continues to drive the adoption and evolution of Wi-Fi, which billions of people rely on every day.

Follow Wi-Fi Alliance:

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Highwire PR for Wi-Fi Alliance

The surge in connected devices is unprecedented. According to the Cisco Annual Internet Report (2018-2023), by the end of 2023, two-thirds of the world’s population was served by an internet connection, and nearly half of all internet-enabled devices were communicating using some form of mobile network. But that doesn’t discount the fact that other connectivity technologies, such as Wi-Fi, are equally viable. Cisco estimated that Wi-Fi 6 would grow 13-fold from 2020 to 2023, when it was expected to comprise more than 10 percent of all public Wi-Fi hotspots. A separate report from Ericsson projected that global 5G population coverage reached around 35 percent at the end of 2022 and is slated to increase to about 85 percent as of 2028.

Which connectivity technology will win the battle—and is it a battle at all?

Some industry-watchers believe that this impressive growth has set 5G and Wi-Fi on a collision course. LitePoint holds a different view and believes that the two will operate symbiotically. Of course, historically, cellular and Wi-Fi have served different use cases. Users have typically preferred cellular for on-the-go, long-range communications with guaranteed latency and quality requirements. They’ve perceived Wi-Fi, on the other hand, as a short-range LAN technology offering better data rates. The common thinking pegged Wi-Fi as the better choice for households or sizeable premises as it offers the option to tailor the network for a certain user density and application.

Recently, however, 5G and Wi-Fi 6E/7 have emerged as feature-rich technologies with a healthy interdependency. With rising popularity in the residential broadband market, let’s explore how 5G and Wi-Fi 6E/7 are coming together as well as the prerequisites for successful adoption.

The Impact of 5G and Wi-Fi 6E/7 on Fixed Wireless Access

One prominent use case to emerge from the 5G/Wi-Fi shared environment is the growth of fixed-wireless access (FWA), which offers strong potential to benefit both private and enterprise networks.

For years, private networks relied on fixed broadband for internet connectivity, but this has come at a cost because these networks require heavy capital investment, time and effort. Conversely, FWA leverages traditional broadband with wireless connectivity far more efficiently and affordably because it uses customer premises equipment (CPE).

With FWA, the CPE acts as the router, but instead of connecting to the internet via wired broadband, it uses 5G to connect wirelessly to the internet. Then, the devices within the private network connect to the CPE via standard Wi-Fi. In this capacity, the concept of FWA is only made possible through the newfound synergy between 5G and Wi-Fi.

Benefits of FWA

From an operator’s perspective, there are a few pivotal advantages:

  • Reusability of 5G spectrum and infrastructure: Allows operators to fully exploit existing 5G spectrum and mobile broadband assets to deploy FWA services. Operators can bring down the 5G cost-per-bit delivered to their customers and attain higher returns on infrastructure investment.
  • Scalability: Gives carriers the ability to offer higher data rates and extend connectivity from single to multiple users without requiring infrastructure-level modification. Consumers also benefit: They simply need to access comprehensive, function-packed CPE equipment.

Although these advantages deliver new revenue opportunities for operators, they are contingent upon consumer adoption of the service, the cost of CPE devices and overall time-to-market.

From a consumer’s point of view, the two biggest factors driving FWA adoption are:

  • Performance: In the case of private and enterprise networks, Quality of Service (QOS) plays a crucial role in driving the transition from fixed broadband to fixed wireless. In fact, many operators are now offering “speed tiers” in addition to volume-tariff plans to enable higher monetization and extend services to small/medium enterprises. Here’s where comprehensive testing becomes critical. Testing verifies antenna performance and ensures power calibration and coexistence assessments that have a direct impact on end-to-end throughput and end-user QoS.
  • Cost: The lower upfront cost of CPE installation and monthly service fees will expedite pervasive adoption of FWA. The widespread commercial success of FWA, however, largely rests in the hands of the operators and OEMs given that the cost of development and manufacturing eventually gets passed down to the consumer.

Bringing Down Cost Through Robust Testing

In the case of FWA, operators typically sell white-label CPE products, which are designed and manufactured by a third party. Given their limited control over these products, operators can help to keep both cost and product quality in check through robust test and measurement. Investing in a high-performance RF test solution not only safeguards device quality and brand reputation, but also brings down after-sales expenses, including returns, replacements and service-center costs that result from shipping poor-quality products. These RF test solutions include:

  • Multi-device testing: Parallel test capability in manufacturing is a multi-pronged approach that can improve throughput and minimize test costs while increasing production test efficiency.
  • Turnkey automation test tool: Often, chipset-specific test tools come with the added expense of licensing fees and labor-intensive correlation and debugging. In contrast, an automated test tool that’s pre-validated on chipset-specific libraries can significantly reduce the time and effort of in-house test tool development.


As 5G and Wi-Fi 6E/7 evolve a complementary relationship, new technologies like FWA for private networks are now commercially viable. Ultimately, however, 5G FWA is only as good as the performance of the underlying CPE. Thus, it’s critical to thoroughly test the CPE for considerations such as antenna performance, power calibration, coexistence testing and end-to-end throughput before deployment.

LitePoint is accelerating the future of 5G FWA for enterprises by addressing these needs head-on through our advanced testing equipment for modern CPEs. Learn more about LitePoint solutions for 5G FWA and Wi-Fi 6E/7 through our webinarsvideos, and website. Or email us today with your questions.

WorldVue Announces Partnership with OpenWiFi

Houston-based company continues to enhance global connectivity solutions through transformative partnership

HOUSTON (January 16, 2024) – WorldVue, the trusted platform which empowers guest-centric properties around the globe to leverage technologies such as video entertainment, digital infrastructure, wireless connectivity, and smartphone applications , announced its partnership with OpenWiFi to enable global deployment of Telecom Infra Project (TIP) OpenWiFi solutions.

Through this partnership, WorldVue will integrate OpenWiFi’s open-source technology into its Wi‑Fi solutions, allowing for more flexibility and the ability to streamline network operations. This is accomplished using TIP OpenWiFi certified software and hardware and state of the art hardware from a wide array of manufacturers.

“WorldVue is committed to delivering high-quality services and seamless connectivity., We believe wireless connectivity is a major catalyst for economic growth and industry development,” said Robert Grosz, President and COO of WorldVue. “Embracing OpenWiFi allows us to break free from vendor lock, rapidly innovate in the wireless space developing deep integrations with mission critical applications and offer our clients the most flexible and lowest total cost of ownership.”

Launched in 2021, OpenWiFi is a community-developed open-source platform designed to lower the cost of developing and operating Wi-Fi networks. The platform’s unique approach to Wi-Fi creates an open-source disaggregated technology stack without vendor lock-in, ensuring a cost-effective and seamless way to deploy connectivity in a variety of use cases. OpenWiFi was created through the Telecom Infra Project (TIP), a global community of companies and organizations driving open and disaggregated infrastructure solutions to advance global connectivity. The OpenWiFi community currently includes more than 300 participants, including service providers, OEMs, ODMs, software ISVs, system integrators, silicon vendors, and industry organizations.

“We’re proud to partner with an industry leader like WorldVue to amplify our impact further and achieve our mission of closing the digital divide,” adds Jack Raynor, Chairman, OpenWiFi Program Group. The Wi-Fi industry benefits from disruptors like WorldVue who go above and beyond to enhance their offerings with an open-source solution.”

By building networks with TIP OpenWiFi solutions, customers will benefit from WorldVue’s industry-leading technology solutions combined with OpenWiFi’s innovative and cost-effective approach. This collaboration further solidifies the vision of revolutionizing how companies and individuals access and manage wireless networks.


WorldVue®,  is a trusted provider of video, advanced connectivity, and professional services to properties and enterprises on a global basis. With a dedication to customer service, WorldVue leads the way in delivering innovative technology solutions that enhance the resident, guest, and staff experience. From managed services to digital transformation, WorldVue is a single point of contact for all a property’s technology needs.

Founded in 1974, WorldVue is a privately held company headquartered in Houston, Texas. The company serves over 7,000 properties with over 900,000 rooms under management. For more information, visit


Launched in 2021, OpenWiFi is a community-developed open-source platform designed to lower the cost of developing and operating Wi-Fi networks. Designed to include a cloud controller SDK and switches and enterprise-grade access point firmware validated to work seamlessly together, the platform’s unique approach to Wi-Fi creates an open-source disaggregated technology stack without vendor lock-in, ensuring a cost-effective and seamless way to Wi-Fi deploy connectivity in a variety of use cases. The OpenWiFi technology was created through Meta and the Telecom Infra Project (TIP), a global community of companies and organizations that are driving open and disaggregated infrastructure solutions to advance global connectivity. The OpenWiFi community currently includes more than 330 participants, including managed service providers, OEMs, ODMs, software ISVs, system integrators, silicon vendors and industry organizations. To learn more or deploy OpenWiFi, visit the OpenWiFi Alliance at

Knowing that a certified device will interoperate in multi-vendor environments is important. But for service providers planning large-scale residential Wi-Fi deployments, validating conformance and interoperability is just the start.

When service providers are selecting Wi-Fi equipment for residential broadband deployments, you might think that evaluating device performance would be an obvious first step. It sounds straightforward enough: apply an objective, vendor-agnostic testing plan and make apples-to-apples comparisons. But this is one of those technology areas that sounds simple in theory but is actually quite complex. In fact, it’s challenged the industry for years.

There are, of course, tools that vendors and customers use to measure aspects of wireless performance. But for most of the history of Wi-Fi, standardized performance testing largely didn’t exist. Standards organizations offered highly effective testing frameworks to validate conformance with wireless standards and regulatory requirements governing RF airspace. Indeed, the massive success of Wi-Fi stems in no small part from testing regimes like the Wi-Fi Alliance, which gives customers confidence that any Wi-Fi-certified device will interoperate with any other in multi-vendor environments. When it comes to evaluating device performance, however, standards bodies have remained largely silent.

Now, that’s beginning to change. We recently published a white paper, The Importance of Performance Testing for Residential Wi-Fi Deployment detailing these efforts. The paper describes the challenges that have impeded standardized Wi-Fi performance testing and the evolving industry efforts to overcome them. The good news: while new technical hurdles continue to emerge, we finally have a solid foundation for standardized performance testing for diverse Wi-Fi use cases.

The Wi-Fi Performance Testing Challenge

Knowing that a certified device will interoperate in multi-vendor environments is obviously important. But for service providers planning large-scale residential Wi-Fi deployments, validating conformance and interoperability is just the start. They need to understand how different devices actually perform in subscriber households. After all, for the vast majority of residential customers (92% in the U.S. alone), Wi-Fi is a primary means of consuming broadband. The quality of experience that subscribers attribute to their provider increasingly depends on the performance of their Wi-Fi router or gateway—performance that service providers must be able to measure and understand.

Unfortunately, evaluating the performance of Wi-Fi equipment has historically been a difficult, expensive task, for multiple reasons:

  • It’s extremely difficult to achieve consistent, repeatable results. Wireless devices are highly sensitive to their physical environment and other devices sharing their airspace. Since every space is different, and RF environments continually change, it’s very hard to test for realistic conditions in a consistent way.
  • Wireless testing requires significant time, effort, and expertise. Historically, the only reliable way to compare performance was to physically walk through a venue with sophisticated testing equipment. That’s just not an efficient option for providers serving thousands or millions of residential customers.
  • There is no universal understanding of what “good performance” means. It’s not just operating environments that affect performance. What constitutes “good” for a given device varies widely depending on a complex mix of factors, including its supported features, throughput, range, price, and especially, intended application. For example, a product that delivers excellent price/features/performance for a small home environment might not fare as well in a large, crowded, interference-prone office environment, and vice versa.
Illustrative data taken during a walk test in a real building

Illustrative data taken during a walk test in a real building

Inside Wi-Fi Performance Testing

Given the many variables involved in gauging performance, vendors have been reluctant to adopt any framework that might give the impression that one product is objectively “better” than another. Instead, they’ve advocated a “fit-for-purpose” approach that would allow customers to compare different devices’ suitability to specific environments and applications. The growing acceptance of this approach, along with ongoing advances in testing technologies, has laid the groundwork for the standardized Wi-Fi performance testing that service providers have been clamoring for.

Today, multiple industry groups have issued standardized Wi-Fi performance testing plans, each geared towards different purposes. These include:

  • Broadband Forum (BBF): BBF TR-398 was the first residential Wi-Fi test plan to include performance test cases and methodology, as well as pass/fail criteria for each test. True to the fit-for-purpose model, the BBF’s Wi-Fi In-Premises Performance Testing plan focuses exclusively on residential Wi-Fi access points (APs), and exclusively in-premises performance. The test plan is geared towards the relatively simple single-AP environments that dominate home deployments. It covers RF capability, coverage, stability, and performance, both at baseline and with multiple connected clients.
  • Wi-Fi Alliance’s Wi-Fi Customer Experience Group: The Wi-Fi Device Metrics Test Plan is similar to BBF TR-398 but with a different focus. Here, the goal is not to provide pass/fail results for a given device, but to enable consistent statistical analysis so that service providers can compare devices for a specific purpose. Test cases include rate vs. range, AP latency, channel switching, roaming, and other scenarios.
  • European Telecommunications Standards Institute (ETSI): The ETSI Broadband Radio Access Network (BRAN) Multiple Access Points Performance Testing Plan (specification TS 103 754) is designed exclusively for multi-AP environments, such as Wi-Fi mesh or extender scenarios. It covers roaming time and throughput, one- and two-hop throughput, band steering, and network configuration and self-healing.

Together, the new testing standards give service providers powerful new tools to plan and support residential Wi-Fi deployments. For the first time, they can evaluate Wi-Fi performance for specific use cases in meaningful ways, using consistent, in-depth testing plans from industry groups they trust.

Of course, this doesn’t mean that the performance testing challenge is “solved.” Wi-Fi is a constantly evolving technology, and new features are developed all the time. For example, performance testing specifications don’t yet address new Wi-Fi 6 and 7 features such as advanced power-saving mechanisms, multi-link operation, and others that add even more complexity. Just as important, Wi-Fi performance is becoming mission-critical for more and more applications. For augmented reality, smart home connectivity, and many others, the ability to maintain consistent latency, throughput, coverage, and other performance metrics will be essential.

Learn More

Want to know more about how the Wi-Fi testing landscape is changing, and how industry leaders are attacking the performance testing challenges of the future? Download the white paper.

Wi-Fi Alliance® introduces Wi-Fi CERTIFIED 7™

Advanced Wi-Fi® capabilities fast-track the future of connectivity across home, enterprise, and industrial environments

Austin, Texas, – January 8, 2024 – Wi-Fi CERTIFIED 7 is here, introducing powerful new features that boost Wi-Fi® performance and improve connectivity across a variety of environments. Cutting-edge capabilities in Wi-Fi CERTIFIED 7 enable innovations that rely on high throughput, deterministic latency, and greater reliability for critical traffic. New use cases – including multi-user AR/VR/XR, immersive 3-D training, electronic gaming, hybrid work, industrial IoT, and automotive – will advance as a result of the latest Wi-Fi generation. Wi-Fi CERTIFIED 7 represents the culmination of extensive collaboration and innovation within Wi-Fi Alliance®, facilitating worldwide product interoperability and a robust, sophisticated device ecosystem.

Wi-Fi 7 will see rapid adoption across a broad ecosystem with more than 233 million devices expected to enter the market in 2024, growing to 2.1 billion devices by 2028. Smartphones, PCs, tablets, and access points (APs) will be the earliest adopters of Wi-Fi 7, and customer premises equipment (CPE) and augmented and virtual reality (AR/VR) equipment will continue to gain early market traction[1]Wi-Fi CERTIFIED 7 pushes the boundaries of today’s wireless connectivity, and Wi-Fi CERTIFIED helps ensure advanced features are deployed in a consistent way to deliver high-quality user experiences. Advanced features include:

  • 320 MHz channels: available in countries that make the 6 GHz band available to
    Wi-Fi, ultra-wide channels double today’s widest channel size to facilitate multigigabit device speeds and high throughput
  • Multi-Link Operation (MLO): allows devices to transmit and receive data simultaneously over multiple links for increased throughput, reduced latency, and improved reliability
  • 4K QAM: achieves 20% higher transmission rates than 1024 QAM
  • 512 Compressed block-ack: improves efficiency and reduces overhead
  • Multiple RUs to a single STA: improves flexibility for spectrum resource scheduling to enhance spectrum efficiency
  • Triggered Uplink Access: optimizes Wi-Fi 6 defined triggered uplink access to accommodate latency sensitive streams and satisfy QoS requirements
  • Emergency Preparedness Communication Services (EPCS): provides a seamless National Security & Emergency Preparedness (NSEP) service experience to users while maintaining the priority and quality of service in Wi-Fi access networks


“The introduction of Wi-Fi CERTIFIED 7 marks the emergence of the latest generation of Wi-Fi and will be an accelerant to mass adoption of Wi-Fi 7. This certification underscores our relentless commitment to delivering cutting-edge technology that redefines the way users experience Wi-Fi, providing faster speeds, improved efficiency, and increased reliability which expand the horizons of what is possible through Wi-Fi.” – Kevin Robinson, president and CEO, Wi-Fi Alliance 

Companies including Broadcom, CommScope RUCKUS Networks, Intel, MaxLinear, MediaTek, and Qualcomm form the test bed for certification and are among the first Wi-Fi CERTIFIED 7 devices.

Industry support for Wi-Fi CERTIFIED 7™

“Airties looks forward to supporting broadband service providers’ plans to launch new Wi-Fi CERTIFIED 7 devices to their subscribers. Wi-Fi 7 provides unprecedented capacity and spectrum efficiency to support far more connections and immersive applications. By embracing Smart Wi-Fi software that is truly standards-based, open-source, and hardware agnostic, ISPs can gain maximum flexibility and control over subscribers’ home broadband experience. With Airties’ Smart Wi-Fi, ISPs will be positioned to optimize the performance of both Wi-Fi 7 and legacy devices to improve QoE, drive incremental revenue, reduce customer support costs, reduce churn, and serve as a platform for future innovation.” – Metin Taskin, Co-CEO, Airties

“Boingo has been a Wi-Fi leader for over two decades, and this leadership will continue as we pioneer Wi-Fi 7 deployments and leverage Wi-Fi 7 CERTIFIED equipment. Wi-Fi 7 promises to usher connectivity into the next phase of digital innovation, delivering unprecedented speeds and capacity. Together with 5G, Wi-Fi 7 will drive digital transformation for Boingo’s customers at military bases, airports, transit hubs, stadiums, hospitals, hotels and enterprises worldwide.” – Dr. Derek Peterson, Chief Technology Officer, Boingo Wireless

“Wi-Fi CERTIFIED 7 has arrived, bringing lower latency, blazing fast speeds, determinism and high capacity to homes, enterprises and large public venues. Built for our ultra-connected world, Broadcom’s Wi-Fi 7 solutions deliver reliable multi-gigabit broadband connectivity to where it is needed most. We are honored to once again participate in the test bed and collaborate with industry peers to revolutionize the wireless experience by launching features like Multi-Link Operation (MLO), which avoids congestion and significantly lowers latency, laying the foundation for a digitally immersive and connected world.” – Vijay Nagarajan, Vice President of Marketing, Wireless Communications and Connectivity Division, Broadcom Inc.

“RUCKUS Networks has always been at the forefront of enterprise Wi-Fi innovation. We are honored to be the only commercial Wi-Fi AP vendor selected to be included in the Wi-Fi CERTIFIED 7 AP test bed. RUCKUS, a longtime collaborator of Wi-Fi Alliance, is proud to have actively participated in multiple Wi-Fi 7 plug fests to ensure interoperability with a variety of Wi-Fi 7 client devices and to accelerate Wi-Fi 7 market adoption. RUCKUS looks forward to working with Wi-Fi Alliance in the future to continue delivering Wi-Fi technology innovations.” – Bart Giordano, SVP & President, Networking, Intelligent Cellular and Security Solutions, CommScope

“Over the past two and a half decades, Wi-Fi has revolutionized the way we interact and function as a society. It stands as the foremost technology for daily connectivity. We are still at the dawn of the 6 GHz era, heralded by Wi-Fi 6E and we are poised to unlock unprecedented wireless user experiences. Wi-Fi 7, which is the next step of this evolution, signifies more than an incremental upgrade—it’s a leap into a realm where speed, capacity, and reliability converge to meet the insatiable demands of our connected world.” – David Coleman, Director of Wireless in the Office of the CTO, Extreme Networks

“Congratulations to Wi-Fi Alliance for the launch of the Wi-Fi CERTIFIED 7™.  Intel-powered PCs and IOT products with Wi-Fi 7 will enable multi-gigabit speeds with wired-like responsiveness and new extreme levels of connection reliability. Ecosystem collaboration and interoperability are essential to help deliver on these expectations. We are delighted that our new Intel Wi-Fi 7 BE200 solution has been officially certified and included in the program test bed to help make great user experiences possible with other Wi-Fi 7 devices.” – Eric A. McLaughlin, VP & GM Wireless Solutions Group, Intel Corporation

“MaxLinear is spearheading the advancement of Wi-Fi technology, in strategic partnership with Wi-Fi Alliance. Our focus extends beyond mere support; we’re actively defining the future of Wi-Fi access points. Our pivotal role in the Wi-Fi 7 certification test bed underscores our dedication to elevating user experiences with unparalleled speeds, enhanced capacity, and lower latency. Our innovative tri-band single chip Wi-Fi solution exemplifies our leadership in carrier-grade Wi-Fi. We’re not just participants; we are the architects of a new era in wireless communication, enabling diverse applications across consumer, enterprise, and industrial sectors.” – Will Torgerson, VP/GM Broadband Group, MaxLinear

“It’s impressive to see how quickly the Wi-Fi 7 certification program has progressed. As one of the first adopters of Wi-Fi 7 technology, MediaTek has worked closely with Wi-Fi Alliance to develop and test our Filogic portfolio. Now brands can be confident that devices powered by MediaTek Filogic Wi-Fi CERTIFIED 7 chipsets take full advantage of Wi-Fi 7’s enhancements to deliver fast, reliable, and always-on connected experiences.” – Alan Hsu, Corporate Vice President, MediaTek

“Wi-Fi 7 is a game-changing evolution of Wi-Fi, elevating wireless connectivity to unprecedented heights of performance. The Qualcomm FastConnect 7800 and Networking Pro Series Platforms are powering millions of Wi-Fi 7 smartphones, PCs, and access points today, and we are honored that both are included in the certification test bed. We are thrilled our customers are experiencing our full-featured Wi-Fi 7 implementations across our product portfolio, including 320 MHz channels, Multi-Link Operation maximized for robust performance at range, and improvements to enhance manageability of platforms. Together, we are racing forward, ushering in a broad ecosystem of Wi-Fi 7 networks, devices and use cases that will help redefine the world in which we live, work, and connect.” – Rahul Patel, Senior Vice President and General Manager, Connectivity, Broadband and Networking, Qualcomm Technologies, Inc 

“Wi-Fi 7 significantly increases performance for both consumers and businesses. With new technologies such as Multi-Link Operation, 4K QAM, and 320 MHz channels, Wi-Fi 7 will enable new applications and ecosystems and dramatically improve user experience for existing ones.” – James Kimery, VP of Product Management, Spirent Communications 

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About Wi-Fi Alliance®  |
Wi-Fi Alliance® is the worldwide network of companies that brings you Wi-Fi®. Members of our collaboration forum come together from across the Wi-Fi ecosystem with the shared vision to connect everyone and everything, everywhere, while providing the best possible user experience. Since 2000, Wi-Fi Alliance has completed more than 80,000 Wi-Fi certifications. The Wi-Fi CERTIFIED™ seal of approval designates products with proven interoperability, backward compatibility, and the highest industry-standard security protections in place. Today, Wi-Fi carries more than half of the Internet’s traffic in an ever-expanding variety of applications. Wi-Fi Alliance continues to drive the adoption and evolution of Wi-Fi, which billions of people rely on every day.