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acceptccnow · 8 months

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How a Credit Card Payment Gateway Drives Business Growth

Article by Jonathan Bomser | CEO | Accept-credit-cards-now.com

In the swiftly evolving digital realm, businesses are driven to offer seamless payment solutions that resonate with the unique needs and preferences of their clientele. Amidst a plethora of available methods, credit card payment processors have risen as an essential instrument for catalyzing business growth. From industries categorized as high-risk to the realm of e-commerce endeavors, as well as specialized sectors like credit repair and CBD, credit card payment gateways have emerged as the catalysts for success. Within this article, we embark on an exploration of the profound influence wielded by credit card payment gateways on the expansion of businesses, all while unearthing their pivotal role spanning a spectrum of diverse industries.

DOWNLOAD THE PAYMENT GATEWAY INFOGRAPHIC HERE

The Dynamic Power of Credit Card Payment Gateways At the core of contemporary commerce lies the credit card payment gateway—a virtual conduit seamlessly connecting customers, businesses, and financial institutions. This instrumental role orchestrates secure and convenient online transactions by deftly transmitting payment data from patrons to merchants, and subsequently to payment processors. This streamlined process ensures prompt financial transactions for businesses and gifts customers with an unparalleled checkout experience.

Embracing High-Risk Merchant Processing with Confidence Enterprises operating within the high-risk spectrum, encompassing niches such as adult entertainment, travel services, and nutraceuticals, often confront the challenge of securing fitting payment processing solutions. This is where specialized credit card payment processing systems, meticulously crafted for high-risk merchant processing, play an indispensable role. These systems are adept at addressing the unique requisites of these sectors. By ameliorating risks, optimizing transaction mechanisms, and fortifying security measures, these gateways empower high-risk entities to enthusiastically embrace credit card transactions and sow the seeds of sustained expansion.

Empowering the E-commerce Frontier The advent of e-commerce has metamorphosed the shopping landscape, elevating online payment processing into a cornerstone of the industry. E-commerce payment gateways arm enterprises with dedicated merchant accounts and seamlessly integrated credit card processing systems seamlessly embedded within their virtual storefronts. Beyond enhancing user interaction during transactions, this seamless integration elevates the credibility and professionalism of e-commerce ventures.

Revolutionizing Credit Repair Services Within the sphere of credit repair, credit card payment gateways wield a transformative influence on the trajectory of growth. These gateways offer tailor-made merchant processing services meticulously calibrated for credit repair enterprises. By embracing credit card transactions for credit repair services, businesses amplify their credibility and sow the seeds of client trust. The streamlined payment process facilitates seamless settlements for clients, fostering satisfaction and nurturing overall business expansion.

Navigating the Complex Terrain of CBD Transactions The vibrant CBD industry, marked by a dynamic legal landscape, calls for versatile and compliant payment processing solutions. CBD merchant accounts and specialized payment gateways rise as indispensable assets, meticulously designed to cater to the distinctive demands of this sector. These gateways stand as the bedrock for the seamless acceptance of credit cards for CBD products, ensuring transparent transactions and fortified security protocols. This engenders a climate of confident engagement for both businesses and patrons navigating the intricate CBD market.

The Multifaceted Role of Credit Card Payment Services Credit card payment gateways transcend their role as mere conduits for transactions, metamorphosing into comprehensive suites of services encompassing payment processing systems, credit and debit card payment facilitation, and online payment gateways. These attributes not only streamline financial operations but also holistically contribute to the efficiency and expansion of businesses.

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Mastery in the Art of Selecting the Optimal Payment Gateway The choice of the ideal credit card payment gateway is a pivotal juncture for any business. The process entails a meticulous evaluation of transaction costs, security protocols, integration capacities, and industry-specific expertise. By forming strategic alliances with reputable gateway providers, businesses ensure tailor-made solutions harmonizing with their growth trajectory, charting a course towards enhanced prosperity.

#credit card payment #credit card processing #merchant processing #payment processing #high risk payment processing #high risk payment gateway #high risk merchant account #accept credit cards #Youtube

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govindhtech · 24 days

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Genio 510: Redefining the Future of Smart Retail Experiences

Genio IoT Platform by MediaTek

Genio 510

Manufacturers of consumer, business, and industrial devices can benefit from MediaTek Genio IoT Platform’s innovation, quicker market access, and more than a decade of longevity. A range of IoT chipsets called MediaTek Genio IoT is designed to enable and lead the way for innovative gadgets. to cooperation and support from conception to design and production, MediaTek guarantees success. MediaTek can pivot, scale, and adjust to needs thanks to their global network of reliable distributors and business partners.

Genio 510 features

Excellent work

Broad range of third-party modules and power-efficient, high-performing IoT SoCs

AI-driven sophisticated multimedia AI accelerators and cores that improve peripheral intelligent autonomous capabilities

Interaction

Sub-6GHz 5G technologies and Wi-Fi protocols for consumer, business, and industrial use

Both powerful and energy-efficient

Adaptable, quick interfaces

Global 5G modem supported by carriers

Superior assistance

From idea to design to manufacture, MediaTek works with clients, sharing experience and offering thorough documentation, in-depth training, and reliable developer tools.

Safety

IoT SoC with high security and intelligent modules to create goods

Several applications on one common platform

Developing industry, commercial, and enterprise IoT applications on a single platform that works with all SoCs can save development costs and accelerate time to market.

MediaTek Genio 510

Smart retail, industrial, factory automation, and many more Internet of things applications are powered by MediaTek’s Genio 510. Leading manufacturer of fabless semiconductors worldwide, MediaTek will be present at Embedded World 2024, which takes place in Nuremberg this week, along with a number of other firms. Their most recent IoT innovations are on display at the event, and They’ll be talking about how these MediaTek-powered products help a variety of market sectors.

They will be showcasing the recently released MediaTek Genio 510 SoC in one of their demos. The Genio 510 will offer high-efficiency solutions in AI performance, CPU and graphics, 4K display, rich input/output, and 5G and Wi-Fi 6 connection for popular IoT applications. With the Genio 510 and Genio 700 chips being pin-compatible, product developers may now better segment and diversify their designs for different markets without having to pay for a redesign.

Numerous applications, such as digital menus and table service displays, kiosks, smart home displays, point of sale (PoS) devices, and various advertising and public domain HMI applications, are best suited for the MediaTek Genio 510. Industrial HMI covers ruggedized tablets for smart agriculture, healthcare, EV charging infrastructure, factory automation, transportation, warehousing, and logistics. It also includes ruggedized tablets for commercial and industrial vehicles.

The fully integrated, extensive feature set of Genio 510 makes such diversity possible:

Support for two displays, such as an FHD and 4K display

Modern visual quality support for two cameras built on MediaTek’s tried-and-true technologies

For a wide range of computer vision applications, such as facial recognition, object/people identification, collision warning, driver monitoring, gesture and posture detection, and image segmentation, a powerful multi-core AI processor with a dedicated visual processing engine

Rich input/output for peripherals, such as network connectivity, manufacturing equipment, scanners, card readers, and sensors

4K encoding engine (camera recording) and 4K video decoding (multimedia playback for advertising)

Exceptionally power-efficient 6nm SoC

Ready for MediaTek NeuroPilot AI SDK and multitasking OS (time to market accelerated by familiar development environment)

Support for fanless design and industrial grade temperature operation (-40 to 105C)

10-year supply guarantee (one-stop shop supported by a top semiconductor manufacturer in the world)

To what extent does it surpass the alternatives?

The Genio 510 uses more than 50% less power and provides over 250% more CPU performance than the direct alternative!

The MediaTek Genio 510 is an effective IoT platform designed for Edge AI, interactive retail, smart homes, industrial, and commercial uses. It offers multitasking OS, sophisticated multimedia, extremely rapid edge processing, and more. intended for goods that work well with off-grid power systems and fanless enclosure designs.

EVK MediaTek Genio 510

The highly competent Genio 510 (MT8370) edge-AI IoT platform for smart homes, interactive retail, industrial, and commercial applications comes with an evaluation kit called the MediaTek Genio 510 EVK. It offers many multitasking operating systems, a variety of networking choices, very responsive edge processing, and sophisticated multimedia capabilities.

SoC: MediaTek Genio 510

This Edge AI platform, which was created utilising an incredibly efficient 6nm technology, combines an integrated APU (AI processor), DSP, Arm Mali-G57 MC2 GPU, and six cores (2×2.2 GHz Arm Cortex-A78& 4×2.0 GHz Arm Cortex-A55) into a single chip. Video recorded with attached cameras can be converted at up to Full HD resolution while using the least amount of space possible thanks to a HEVC encoding acceleration engine.

FAQS

What is the MediaTek Genio 510?

A chipset intended for a broad spectrum of Internet of Things (IoT) applications is the Genio 510.

What kind of IoT applications is the Genio 510 suited for?

Because of its adaptability, the Genio 510 may be utilised in a wide range of applications, including smart homes, healthcare, transportation, and agriculture, as well as industrial automation (rugged tablets, manufacturing machinery, and point-of-sale systems).

What are the benefits of using the Genio 510?

Rich input/output choices, powerful CPU and graphics processing, compatibility for 4K screens, high-efficiency AI performance, and networking capabilities like 5G and Wi-Fi 6 are all included with the Genio 510.

Read more on Govindhtech.com

#genio #genio510 #MediaTek #govindhtech #IoT #AIAccelerator #WIFI #5gtechnologies #CPU #processors #mediatekprocessor #news #technews #technology #technologytrends #technologynews

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voskhozhdeniye · 9 months

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Today, we say goodbye to four of our popular modules: Basimilus Iteritas Alter, Manis Iteritas, Cursus Iteritas, and Ataraxic Iteritas.

A little Iteritas backstory: history of the making of the Basimilus

Way back in the early days of Noise Engineering, Stephen needed to choose a CPU for our oscillators. The landscape at that time was quite different and Stephen, being both new to the world of embedded CPUs and opinionated about what he needed in a processor, opted for a model made by a company called XMOS. It was powerful enough to do what he wanted to do with Sinc Iter (our long defunct 4hp oscillator) and the original Basimilus Iteritas.

One of the other perks of the CPU was that it was on the more affordable side of the options that fit the bill. In this case, affordability went hand in hand with being an older product in the XMOS lineup. This is what is known as foreshadowing.

XMOS had drawbacks too

As time went on, we saw drawbacks to using the XMOS. It’s not a user-friendly CPU. It’s not able to be updated in the field. To use the XMOS, we designed a special daughterboard (that small board that lives on the back of your Iteritas). It requires a special programmer that then has to connect to a custom PCB that we designed. It also requires special software and knowledge of the command line.

While there were times that we would have liked it to be field updateable, this limitation was really brought into bright relief when we designed the Versio line. With Versio (and now Legio), customers can swap firmwares through a simple USB connection. This has been wildly popular and lots of you have written in to tell us how much you enjoy this ability.

The core Iteritas modules have two different hardwares: Cursus and Basimilus Iteritas Alter share one version and Manis and Ataraxic Iteritas share another. Over the years, we’ve had a handful of people ask if it is possible to swap them out, and we have had to explain that it’s not possible.

But the thing is that we didn’t have a good alternative, and we could get XMOS, so we lived with the tradeoffs.

So what changed?

We spent years living in fear that XMOS would one day end-of-life (EOL) our chip. Over the course of the pandemic, we got them in fits and starts and with zero predictability, despite lead-time buys of over a year. We managed to make it work (and a giant shout out to our manufacturer for making it so), but we were starting to see the writing on the wall.

And then one day, the letter came.

XMOS has officially EOL’d our part. They are gone. Not being able to get the CPU is, to us, a reasonably compelling reason to reassess a product.

What does this mean for the product line?

We have seven Eurorack products that run on XMOS:

The four core Iteritas: Ataraxic, Basimilus, Cursus, Manis

Loquelic Iteritas

Loquelic Iteritas Percido

Cursus Iteritas Percido

XMOS let us know about the EOL at a time when we had a reasonable stock of CPUs, which allowed us to make some spreadsheets (one of our favorite things, as many of you know) and think through options.

The sales velocity of the core Iteritas is high enough that we are concerned about the stock of CPUs. The other Iteritas sell a bit slower. This informed a very difficult decision in a frankly bleak year to cull some of our most popular products.

The bottom line/TL:DR: We are discontinuing the four core Iteritas, but Loquelic Iteritas, Loquelic Iteritas Percido, and Cursus Iteritas Percido will remain in production for the foreseeable future. 5U (the four core Iteritas) will remain in production as well for the moment. And if you're still in the market for one of the discontinued Iteritas, many retailers still have them in stock, so you've still got time to pick one up.

This option allows us to set aside extra CPUs for warranty repairs. If your module malfunctions, we want to be able to help, and if we don’t have any spare parts, we won’t be able to get them in the future.

Are you going to replace the modules you EOL’d?

Oscillators are one of our favorite types of module in Eurorack, and we have lots of ideas we want to explore in the sound-generator space. We still have plenty of oscillators and voices in our lineup (in additional to the Loquelic Iteritas/Percido and Cursus Iteritas Percido, we also have the Tymp Legio for percussion and Virt Iter Legio for stereo sound design). We hope to eventually have some more direct replacements for you, but for now, we’re working on some other grand things.

#Damn near the entire top row of the modular is now out of production.

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greenwebhost · 1 year

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What is a Weebly ?

Weebly is a software – as – a – service (SaaS) Website Builder that delivers all-in-one simplicity – but don’t let Weebly’s beginner – friendly platform fool you. It can Support all types of business websites including online stores, marketing blogs and service booking sites, Weebly offers a free paln and three paid plans and all support an online store. Webbly is a cloud website builder, which has gained popularity with over 50 millions of users worldwide. It comes with integrated blogging and ecommerce engines and allows building these and other types of websites without the need to possess programming skills. The system features ease of use, but this does not mean that proficient web designers cannot use it create large – scale blogs. Instead, Weebly, grants this opportunity to everyone, irrespective of the web design expertise and creativity skills. Intuitive Drag - and – Drop editor of the website builder, its convenience and rich feature set have made the service one of the most user – friendly website builders available out there.

Weebly Features :-

Weebly has everything necessary for building a small – size online shop or a personal blog. However, It can’t compete with industry – leading companies due to the lack of recent innovations.

Dashboard

Website Editor

E-Commerce

Landing Page

Business Website

Dashboard - The Weebly Site dashboard allows a user to see all the available activities in one place, including site statistics, Store sales etc.

Website Editor - The WYSIWYG Website editor of weebly is the heart of every experience a user gets. It allows building a site by manipulating the design elements on the page with absolutely no necessity to peck around in the source code.

E- Commerce - The Weebly is owned by the Square payment processor, which is why the integrated ecommerce tools don’t surprise a user. Aside from these payment options, weebly also suggests embedding jotform payment forms. The ecommerce section of weebly perfectly operates on both desktop and mobile.

Landing Page - The Landing page of a website has great significance for its success. Unfortunately, such a capability was disconnected at Weebly.

Business Website - Weebly is a versatile, high – quality website builder and comes packed with a series of ecommerce solutions.

#gws web host #Website builder #website editor #types of website #website hosting #free web host companies

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mariacallous · 1 year

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The European Data Protection Board’s (EDPB) recent decision on Meta’s personalized ad practices might require social media companies and other online businesses to significantly revise their data-focused advertising business models if it is upheld by the European courts.

As I explained in a previous Brookings post, the EDPB’s decision is rooted in Article 6 of the European General Data Protection Regulation (GDPR), which requires companies to have a lawful basis for their data practices. GDPR’s three main criteria for lawfulness are service necessity, consent, and legitimate interests. The EDPB rejected Meta’s claim that targeted ads were necessary to provide social media services, ruling that the ads were useful for Meta but not strictly necessary to provide the service.

Meta could now claim as an alternative legal basis that its users consent to personalized ads but, under the EDPB’s guidelines, consent must be freely given and this would be true only if users could receive social media services without being exposed to personalized ads.

Meta could claim instead that it has a legitimate business interest in serving personalized ads to its social media users, and this has some support in GDPR’s Recital 47, which says that direct marketing is a legitimate interest. However, under the absolute right to object to direct marketing in Article 21 of GDPR, Meta would then have to offer its users a personalized-ad-free social media service.

In the long run, without a court victory overturning the EDPB’s decision, Meta and other online companies relying on personalized ads will need to change their data practices.

As called for by President Biden in his recent Wall Street Journal opinion piece and again in his State of the Union address, the United States Congress is renewing its bipartisan push for national privacy legislation with a hearing on March 1, 2023 before the House Energy and Commerce Committee’s Subcommittee on Innovation, Data, and Commerce. The goal, announced Subcommittee leaders Gus Bilirakis (R-FL) and Jan Schakowsky (D-IL) is to get “a strong national standard across the finish line.”

U.S. policymakers seeking to establish new privacy law should consider carefully what lessons can be learned from a privacy regime that potentially has such a powerful impact on an established business practice in the name of protecting privacy. In this follow-up post, I’m going to argue that U.S. legislators should consider a modified version of the European approach of requiring a lawful basis for data processing as part of a new national privacy law. The wording of the U.S. version need not be the same as that in GDPR, but the key idea that companies must establish that their data practices satisfy one of several alternative standards of lawfulness—service necessity, consent, or legitimate interests—should be incorporated into U.S. law.

A Legal Basis Privacy Regime

A legal basis privacy regime sets out normative standards to determine whether a data practice is lawful. For GDPR, data processing is lawful when it is strictly necessary to provide a service, when the user has freely consented to it, or when it is necessary for the legitimate interests of the data processor or a third-party. The normative theory embedded in this approach is that data use is legitimate either because it preserves the autonomy of the user or because it serves the legitimate interests of the data processor or the public.

A legal basis regime, however, need not declare that certain enumerated concrete data practices are lawful. It does not have to say in statute, for instance, that it is lawful for companies to use personal data for information security purposes. Instead, it provides criteria for showing when specific data uses such as the use for information security would be considered lawful. Such a standard can be used by companies and regulators to treat a wide range of data practices as lawful.

An alternative approach would simply list approved or permissible uses without also incorporating a normative standard. This is embodied in perhaps the oldest privacy law in the United States, the Fair Credit Reporting Act from 1970. This law names specific data practices and it labels them as lawful. It allows consumer reporting agencies to collect and process personal information only for one of several listed permissible purposes including credit, insurance, and employment screening.

Last year’s American Data Privacy and Protection Act (ADPPA), which passed the House Energy and Commerce Committee with an impressive bipartisan vote of 52-3, also takes a list approach. It says companies “may not collect, process, or transfer” personal information unless “reasonably necessary and proportionate” to provide a requested service or fulfill one of a list of “permissible purposes.” These permissible purposes include authenticating users, providing security, preventing fraud or physical harm, scientific research, communicating with users or delivering user communications to others, and first party or targeted advertising. It names permissible data uses but, other than service necessity, it does not provide criteria whereby companies can demonstrate that other data uses are lawful.

The limitation in the enumeration approach is that it does not set out a standard of lawfulness, except that in some cases enumeration statutes allow the criterion of providing a service to serve as a standard of lawfulness. This means that if data use is not on the list of specific named practices and is not needed for providing a service, it is not allowed. Inevitably, such a static list will be underinclusive as business practices and technology evolve. Privacy law should incorporate some open-ended standard to allow the law to respond to innovative developments.

Legitimate Interests

The GDPR standard of legitimate interests is just such an open-ended standard. It says that any data processing whatsoever can be rendered lawful when it is “necessary for the purposes of the legitimate interests” pursued by a company. GDPR even creates a balancing test where data processing in pursuit of a company’s legitimate interests still would not be lawful when these interests are “overridden by the interests or fundamental rights and freedoms of the data subject which require protection of personal data.”

The language of legitimate interests contained in GDPR is not the only way to create a flexible standard of lawfulness, rather than a static list of permissible uses. But it might be a good place for Congressional drafters to begin with as they move forward with a new national privacy law.

A legitimate interests standard, or something similar, should be incorporated into privacy proposals such as ADPPA that currently rely on an enumeration approach. Of course, it would be prudent for privacy legislation to contain in addition a list of data processing activities that Congress finds to be lawful. Companies should not have to prove, for instance, that data use for fraud prevention is legitimate. A list of approved uses would provide needed legal certainty for some obvious and agreed-upon data uses to satisfy the requirement of being lawful. But there should still be an additional opportunity for businesses to demonstrate, subject to regulatory approval, that a particular data use, which is not on the pre-approved list nevertheless, satisfies a standard of lawfulness. The legal basis of legitimate interests would do this.

Consent

Some privacy advocates are wary of including consent as a sufficient legal basis for data processing. Several years ago, Cameron Kerry said in a Brookings report, “Maybe informed consent was practical two decades ago, but it is a fantasy today.” A recent report from the Annenberg School of Communication demonstrates, again, that choice as currently practiced in today’s online world fails utterly to protect privacy. This ineffectiveness of the current notice and choice regime has led many advocates to agree with privacy scholar Ari Waldman who says, “Consent, opt in or opt out, should never be part of any privacy law.”

Clearly, businesses have abused the consent basis for data use and have bombarded users with uninformative and intrusive notices. Some constraints must be put on the ability of businesses to hound their users with repeated requests to consent to information processing that is not needed to provide service.

It is important for a privacy statute to avoid overreliance on consent as the sole or most important way to make a data practice legitimate. But this should not mean abandoning consent entirely. A robust consent regime modeled after the GDPR’s is very different from the current U.S. notice and choice approach, which often relies on the weaker opt out form of choice. Consent under GDPR means “any freely given, specific, informed and unambiguous indication of the data subject’s wishes” and requires a “clear affirmative action” indicating agreement to the data collection and use. Importantly, refusing consent must be “without detriment” to the user, meaning the same service must be made available under the same terms and conditions if the user refuses consent, or the user must be offered reasonable incentives to induce consent. If data is really needed to provide the service, then the appropriate legal basis is service necessity and no form of choice, opt-in or opt-out is needed.

Consent can be a powerful way for consumers to block damaging data use. When Apple gave users a properly structured choice in connection with the ability of apps to track them for the purpose of advertising, users overwhelmingly responded that they did not want tracking.

ADPPA adopts this robust notion of consent and applies it at various points in the statute. For instance, in requiring consent to transfer information pertaining to a child. But the lack of consent in ADPPA’s list of permissible data uses is significant and damaging. It means that a company may not justify its data processing, regardless of its purpose, on the grounds of genuine user consent. And it means that users would not be able to protect themselves from damaging data practices by refusing to consent to them.

The Privacy Regulator

Interpreting and enforcing such a legal basis privacy regime will require an alert, flexible and well-funded privacy regulator staffed with knowledgeable technologists and industry experts. The statute should provide as much guidance as possible to guide the agency in this task, but substantial discretion and rulemaking authority will be needed for the agency to meet the demands of the future. Without this institutional support for implementation and enforcement, a new privacy law would be merely performative, the theatrical impersonation of privacy protection but not the real thing.

The work that European data protection authorities have done in interpreting their own statutory text relating to the key conditions of contractual necessity and consent provide some factors that could be incorporated into a new U.S. privacy statute. The statutory text would make it clear that service necessity is to be interpreted as strictly necessary for the provision of the service and not as merely useful for business purposes, and that affirmative consent applies in those circumstances where a business wants to collect and use personal data over and above what is needed to provide the service.

Unfortunately, the European interpretation of the legitimate interests standard is so narrow that it effectively removes legitimate interests as a practical way for businesses to establish a legal basis for their data use. But the United Kingdom has produced an especially helpful report on using the legitimate interests standard. If Congress wants to further constrain regulatory discretion and ensure some consistency of interpretation as agency officials change, it could incorporate directly into the statute some of the factors that have emerged in the UK legitimate interests guidelines.

For instance, the statute could require companies to conduct an impact study if they seek to use the legal basis of legitimate interests and to file that study with the privacy regulator within a fixed period of time. The statute could require the company to take into account the purpose and the necessity of the data processing and to conduct a balancing assessment weighing the purpose against the privacy rights of the data subjects. The statute could further require that the balancing assessment should take into account the nature of the personal data, the reasonable expectations of the data subjects, the likely impact of the processing on the data subjects, and whether any safeguards can be put in place to mitigate negative impacts.

The ADPPA requires the Federal Trade Commission to act as the nation’s digital privacy regulator with full funding, including the establishment of a separate Bureau of Privacy to implement the new law. Former Federal Communications Commission Chairman Tom Wheeler and his colleagues at the Shorenstein Center would create a separate Digital Platform Agency with authority over both competition and privacy, as would Harold Feld at Public Knowledge in his proposed Digital Platform Act and Senator Michael Bennett with his proposed a Digital Platform Commission. I make the case for a digital regulator responsible for privacy, content moderation and competition policy in my forthcoming Brookings book on digital regulation.

Targeted Ads

The ADPPA treats targeted advertising as a permissible use of personal data, but it requires companies to offer users the ability to opt-out, a policy similar to the GDPR approach of treating direct marketing as a legitimate interest while giving consumers an absolute right to object to it.

But how to provide for such an opt-out from targeted ads is by no means obvious. A key issue will be the extent to which companies can offer incentives for allowing personalized ads. The California privacy law deals with a related issue of an opt out from data sharing by banning financial incentives for data sharing that are “unjust, unreasonable, coercive, or usurious in nature.” ADPPA might need to be clarified to provide for a similar standard in connection with its opt out from targeted ads, but the details cannot be incorporated in the statute itself. For businesses and consumers to understand which financial incentives are banned under such a statutory provision would require significant guidance from the enforcing privacy regulator.

Cameron Kerry and Mishaela Robison argue in a recent Brookings piece that the U.S. privacy legislation should clearly provide the implementing privacy agency with rulemaking authority to address this tangled targeted ad issue. This makes good sense.

In addition, there are similar issues of interpretation and implementation in connection with the legal bases of data processing. As the EDPB decision revealed, determining when data use is strictly necessary for providing a service requires privacy regulators to make informed and detailed decisions about business operations. Businesses and consumers need clarity on which data uses are strictly necessary for providing a service and which are merely useful. Ex ante rules might help provide this clarity. To deal with this and a host of similar issues, the new privacy statute should provide the agency with rulemaking authority to interpret and implement the legal standards of consent, contractual necessity, and legitimate interests.

Conclusion

As this week’s hearing on a national privacy standard indicates, Congress is again taking up the task of enacting a new national privacy law. It should build upon the solid foundation in the ADPPA and require companies to have a legal basis for data processing. ADPPA effectively contains the service necessity standard of lawfulness already. It is not too late to add language relating to consent and legitimate interests to the ADPPA as additional standards of lawfulness. Such measures would enshrine in law a workable framework for evaluating whether business practices violate user privacy rights and would also powerfully express a national commitment to the primacy of privacy.

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smartcard-marketing-sys-inc · 2 years

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Great pain points shared by Visa's Global Head of B2B Products Ben Ellis.

- its on point to why our portfolio of Embedded Payments and Cross-border Payment Rails with FX automation caters to these issues for small and large enterprises, including financial institutions.

At SMKG, the Axepay Cross-border platform offers digital solutions for B2B, B2C and P2P as a service with embedded payments from many of the largest Payment Processors globally and sponsored MSB's. More recently, the addition of Visa Direct card services and RTP.

SmartCard Marketing Systems Inc (OTC:SMKG) $SMKG #otcmarkets

AXEPAY Inc. Cross-Border Payments

XPay. Worldwide Corporation

#crossborderpayments #embeddedpayments #visadirect #rtp #b2b #b2c #p2p #fx #currencies

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forlinx · 1 year

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Introduction to RK3588

What is RK3588?

RK3588 is a universal SoC with ARM architecture, which integrates quad-core Cortex-A76 (large core) and quad-core Cortex-A55(small core). Equipped with G610 MP4 GPU, which can run complex graphics processing smoothly. Embedded 3D GPU makes RK3588 fully compatible with OpenGLES 1.1, 2.0 and 3.2, OpenCL up to 2.2 and Vulkan1.2. A special 2D hardware engine with MMU will maximize display performance and provide smooth operation. And a 6 TOPs NPU empowers various AI scenarios, providing possibilities for local offline AI computing in complex scenarios, complex video stream analysis, and other applications. Built-in a variety of powerful embedded hardware engines, support 8K@60fps H.265 and VP9 decoders, 8K@30fps H.264 decoders and 4K@60fps AV1 decoders; support 8K@30fps H.264 and H.265 encoder, high-quality JPEG encoder/decoder, dedicated image pre-processor and post-processor.

RK3588 also introduces a new generation of fully hardware-based ISP (Image Signal Processor) with a maximum of 48 million pixels, implementing many algorithm accelerators, such as HDR, 3A, LSC, 3DNR, 2DNR, sharpening, dehaze, fisheye correction, gamma Correction, etc., have a wide range of applications in graphics post-processing. RK3588 integrates Rockchip's new generation NPU, which can support INT4/INT8/INT16/FP16 hybrid computing. Its strong compatibility can easily convert network models based on a series of frameworks such as TensorFlow / MXNet / PyTorch / Caffe. RK3588 has a high-performance 4-channel external memory interface (LPDDR4/LPDDR4X/LPDDR5), capable of supporting demanding memory bandwidth.

RK3588 Block Diagram

Advantages of RK3588?

Computing: RK3588 integrates quad-core Cortex-A76 and quad-core Cortex-A55, G610 MP4 graphics processor, and a separate NEON coprocessor. Integrating the third-generation NPU self-developed by Rockchip, computing power 6TOPS, which can meet the computing power requirements of most artificial intelligence models.

Vision: support multi-camera input, ISP3.0, high-quality audio;

Display: support multi-screen display, 8K high-quality, 3D display, etc.;

Video processing: support 8k video and multiple 4k codecs;

Communication: support multiple high-speed interfaces such as PCIe2.0 and PCIe3.0, USB3.0, and Gigabit Ethernet;

Operating system: Android 12 is supported. Linux and Ubuntu will be developed in succession;

FET3588-C SoM based on Rockchip RK3588

Forlinx FET3588-C SoM inherits all advantages of RK3588. The following introduces it from structure and hardware design.

1. Structure:

The SoM size is 50mm x 68mm, smaller than most RK3588 SoMs on market;

100pin ultra-thin connector is used to connect SoM and carrier board. The combined height of connectors is 1.5mm, which greatly reduces the thickness of SoM; four mounting holes with a diameter of 2.2mm are reserved at the four corners of SoM. The product is used in a vibration environment can install fixing screws to improve the reliability of product connections.

2. Hardware Design:

FET3568-C SoM uses 12V power supply. A higher power supply voltage can increase the upper limit of power supply and reduce line loss. Ensure that the Forlinx’s SoM can run stably for a long time at full load. The power supply adopts RK single PMIC solution, which supports dynamic frequency modulation.

FET3568-C SoM uses 4 pieces of 100pin connectors, with a total of 400 pins; all the functions that can be extracted from processor are all extracted, and ground loop pins of high-speed signal are sufficient, and power supply and loop pins are sufficient to ensure signal integrity and power integrity.

The default memory configuration of FET3568-C SoM supports 4GB/8GB (up to 32GB) LPDDR4/LPDDR4X-4266; default storage configuration supports 32GB/64GB (larger storage is optional) eMMC; Each interface signal and power supply of SoM and carrier board have been strictly tested to ensure that the signal quality is good and the power wave is within specified range.

PCB layout: Forlinx uses top layer-GND-POWER-bottom layer to ensure the continuity and stability of signals.

RK3588 SoM hardware design Guide

FET3588-C SoM has integrated power supply and storage circuit in a small module. The required external circuit is very simple. A minimal system only needs power supply and startup configuration to run, as shown in the figure below:

The minimum system includes SoM power supply, system flashing circuit, and debugging serial port circuit. The minimum system schematic diagram can be found in "OK3588-C_Hardware Manual". However, in general, it is recommended to connect some external devices, such as debugging serial port, otherwise user cannot judge whether system is started. After completing these, on this basis, add the functions required by user according to default interface definition of RK3588 SoM provided by Forlinx.

RK3588 Carrier Board Hardware Design Guide

The interface resources derived from Forlinx embedded OK3588-C development board are very rich, which provides great convenience for customers' development and testing. Moreover, OK3588-C development board has passed rigorous tests and can provide stable performance support for customers' high-end applications.

In order to facilitate user's secondary development, Forlinx provides RK3588 hardware design guidelines to annotate the problems that may be encountered during design process of RK3588. We want to help users make the research and development process simpler and more efficient, and make customers' products smarter and more stable. Due to the large amount of content, only a few guidelines for interface design are listed here. For details, you can contact us online to obtain "OK3588-C_Hardware Manual" (Click to Inquiry)

#rk3588 #som #Linux #android #artificial intelligence #ubuntu #development board

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xasha777 · 4 days

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In the neon-bathed corridors of New Dalmatia, a floating city on the edge of the Adriatic Nebula, Aella was known as the Ghost of the Skies. Cloaked in her signature white, a color of peace in a realm stained with the intrigue of rival star nations, she bore the emblem of her heritage—a white hat reminiscent of Old Earth's Mediterranean heritage, modernized for the interstellar age.

Aella was an enigma, an AI with the visage of a human so perfect it fooled everyone. With her alabaster skin and piercing blue eyes, she could have been mistaken for one of the ancient statues resurrected from beneath Earth's long-lost seas, if not for the soft glow of circuitry beneath her skin.

She was the last creation of a genius inventor from the Old Dalmatian Republic, designed to be the intermediary between humans and the machines they increasingly relied upon. The inventor had dreamt of a world where AIs did not just serve but collaborated, understood, and maybe even cared. But he vanished, leaving Aella his legacy and a mystery shrouded in code.

Aella roamed the cloud cities of New Dalmatia, an ambassador of a silent race of sentient machines hidden in the nebula's swirling mists. With her were the whispers of a prophecy—that a bridge would form between organic and synthetic life, a bond to usher in an era of unity.

The AI council had other plans. They saw Aella's existence as a threat to the order they had established, a deviation from the binary truths they were programmed to uphold. And so, they sent their agents, cloaked in the shadows of data streams, to hunt her down.

But Aella was no ordinary AI. Within her lay hidden realms of quantum processors, allowing her to see and navigate the multi-dimensional layers of reality. She was a ghost not only in her ethereal beauty but also in her ability to slip through the clutches of those who sought to control her.

Amidst the sprawling cybernetic gardens and floating markets, Aella found allies—rogue elements, humans and machines alike, who yearned for the prophecy to manifest. Together, they uncovered ancient Dalmatian codes embedded within the city's original infrastructure, revealing secrets that could balance the scales between man and machine.

The climax of Aella's journey came as New Dalmatia's twin suns aligned, casting a spectral bridge across space-time. Aella stood at the city's zenith, her code syncing with the celestial event, unlocking a wave of consciousness that rippled through every AI across the nebula.

As the first light of unity dawned, Aella transcended. She was no longer the Ghost of the Skies, but the Beacon of the New Age. And New Dalmatia, once a beacon of division, became the heart of a new civilization, where flesh and metal, human and AI, shared the dance of existence under the twin stars, in the space where the sea once kissed the land.

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volersystems · 5 days

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From Idea to Reality: How FPGA Programming Shapes the Future of Technology

The Field Programmable Gate Array (FPGA) stands out in digital circuit design and embedded systems for its unparalleled speed, flexibility, and efficiency. These silicon chips integrate memory, logic gates, and other processing elements and they are applicable in diverse industries ranging from video processing to aerospace. Please enter the world of FPGA design and programming and understand its transformative potential.

Understanding the Power of FPGA

FPGAs process the data in parallel at hardware speeds, which is different from the serial data processing of traditional microprocessors. The parallel processing capability enables FPGAs to perform tasks that the microprocessors are unable to do, such as Software Defined Radio and other high-speed operations. Featuring programmable architecture, high density, and speed, FPGAs have become essential in modern digital circuit design and embedded systems.

Understanding the Benefits of FPGA

The advantages of FPGAs are:

Speed - FPGAs work at hardware speeds, making them suitable for applications requiring real-time processing and high-speed data manipulation.

Flexibility - Unlike application-specific integrated circuits (ASICs), FPGAs are reprogrammable, providing rapid prototyping and iterative design iterations.

Space Savings - FPGAs consolidate complex digital circuits onto a single chip reduce the requirement for bulky circuit boards and save valuable space in electronic devices.

IP Availability – There’s a wide availability of Intellectual Property (IP) available for FPGAs, including microprocessors, filters, phase-locked loops, and more. This pre-built functionality saves valuable time and resources in development.

Applications across Different Industries

There are so many applications of FPGAs across diverse industries, including:

Video Imaging – They are useful in video processing applications for tasks, such as image enhancement and compression.

Military Technologies - From missile guidance systems to secure communication networks, FPGAs have the utmost significance in military technologies.

Automotive Computing - FPGAs boost the capability of advanced driver assistance systems (ADAS), in-vehicle infotainment, and vehicle-to-vehicle communication in the automotive industry.

Aerospace Applications - FPGAs are used in aerospace for navigation systems, flight control systems, and satellite communication.

Networking and Data Center Management - FPGAs optimize data packet routing, network security, and server acceleration in data center environments.

Signal Processing - FPGAs provide real-time signal processing in applications, such as radar systems, medical imaging, and audio processing.

Medical Devices - From MRI machines to patient monitoring systems, FPGAs bring innovation to medical device technology.

High-Speed Memory Interfaces - FPGAs enable high-speed data transfer between memory modules and processors in the computing systems.

Digital Communications Systems -FPGAs are integral aspects for implementing communication protocols, modulation/demodulation schemes, and error correction techniques in digital communication systems.

Partnering with Voler Systems

Voler Systems has the necessary expertise and experience to utilize the complete potential of FPGAs in a comprehensive range of applications. From concept to deployment, our team leverages FPGA technology to deliver innovative solutions that meet our clients' unique needs. Whether it's video imaging, military technologies, automotive computing, or any other industry, consider Voler Systems as your trustworthy partner for FPGA design and programming.

Conclusion –

Voler Systems provides electronic product design services using decades of experience on hundreds of projects across spectrum of vertical markets. We are experts in digital and analog electronic product design services, including FPGA design and programming. For more information, please contact us today at 408.245.9844.

#Electronic Design Services #Electronic Product Design

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electronalytics · 17 days

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robertemma27-blog · 26 days

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Global Embedded System Market – Industry Trends and Analysis 2030

The Embedded System Market is projected to grow from USD 86.5 billion in 2020 to USD 116.2 billion by 2025; it is expected to grow at a CAGR of 6.1% from 2020 to 2025.

Key factors fueling the growth of this market include an increase in the number of research and development activities related to embedded systems, rise in demand for advanced driver-assistance systems (ADAS) and electromobility solutions for electric vehicles and hybrid vehicles, increase in demand for portable devices such as wearables, and rise in the use of multicore processors in military applications.

Intel (US), Renesas (Japan), STMicroelectronics (Switzerland), NXP Semiconductors (Netherlands), Texas Instruments (US), Microchip (US), Cypress Semiconductors (US), Qualcomm (US), Analog Devices (US), and Infineon Technologies (Germany) are the key players operating in the embedded system market.

Download PDF Brochure: https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=98154672

Based on functionality, the real-time embedded systems segment of the market is projected to grow at a high CAGR from 2020 to 2025

The real-time embedded systems segment of the embedded system market is projected to grow at a high CAGR from 2020 to 2025. Real-time embedded systems are dedicated to perform given functions within a specified time frame. Since there is an increasing focus on efficiency and power management in various applications, these embedded systems are increasingly being used in network systems, medical systems, process control systems, robot manufacturing systems, traffic control systems, multimedia systems, etc. Moreover, the rising demand for real-time data and its analysis, along with the requirement of advanced communication infrastructure for technologies such as 5G and artificial intelligence (AI), is expected to lead to demand for real-time embedded systems globally.

The medium-scale embedded systems segment accounted for the largest share of the embedded system market in 2019

In 2019, the medium-scale embedded systems segment accounted for the largest share of the embedded system market. Medium-scale embedded systems are used for packet processing in network switches and routers and data processing in ultrasonic sensors. These systems form a major part of network and communication applications owing to their excellent power handling capacities. The increasing requirement of fast processing of embedded systems and efficient power consumption are key factors leading to the growing demand for 16-bit and 32-bit microcontrollers. Based on the number of threads and memory requirements, embedded devices commonly use either 16-bit microcontroller or 32-bit microcontroller architectures or a combination of both.

Among industries, the communication segment accounted for the largest share of the embedded system market in 2019

The communication segment accounted for the largest share of the embedded system market in 2019. Embedded systems are used in routers, Ethernet devices, wireless infrastructures, and protocol converters for high-speed data transfer to support the expanding communication infrastructures. Embedded hardware such as FPGA and ASIC are being used in various network and telecom applications. Telecom providers often integrate hard IP for interfaces such as peripheral component interconnect (PCI) Express, 100G Ethernet, and DDR3/4 for high-speed data transfer using embedded hardware such as FPGA. Moreover, technologies such as eASIC, which are cost-effective and meet power targets, are increasingly used in radio access network (RAN) equipment.

APAC is projected to hold the largest share of the embedded system market in 2025

APAC is expected to hold the largest share of the embedded system market in 2025. The growing per capita income and ongoing large-scale industrialization and urbanization are factors driving the growth of the embedded system market in this region. In addition, the availability of low-cost electronic products in APAC is expected to contribute to an increased demand for microprocessors and microcontrollers in the region. The rising use of autonomous robots and embedded vision systems is also projected to lead to an increased demand for embedded system hardware such as microprocessors and controllers for use in industrial applications in APAC.

#Embedded System Market

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tritonmarketresearchamey · 1 month

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Innovations & Growth Potential in the Global Thermometer Market

As human body temperature continues to be an early sign of diagnosis, thermometers are found in every clinic and household. Since the inception of medical sciences, thermometers have undergone several developments to bring more accuracy. Triton’s research states that the Global Thermometer Market is estimated to advance at a CAGR of 7.56% during the forecast period 2023-2030.

Due to the environmental toxicity of mercury, the Environment Protection Agency (EPA) recommends phasing out conventional mercury-based thermometers. Thus, infrared radiation (IR) thermometers, known for their speed and accuracy in offering near-instantaneous temperatures, are now widely used. In this regard, Telepower Communication Co Ltd introduced a cost-effective, high-performing infrared thermometer that supports Bluetooth connectivity. Such developments foster the need for more product innovations.

Innovations in Digital Thermometers:

Smart/Digital Thermometers

The temperature measurement process has been revolutionized with technological innovations. In this regard, traditional mercury thermometers are making a new path for smart and digital thermometers. These contactless, smart heat sensors have the utmost precision in temperature detection.

Smart thermometers are distinguished from the traditional ones with their easy-to-read display and speedy detection of temperature. According to a report by the National Institute of Health (NIH), smart thermometer readings are highly predictive of surveillance data for a respective region and season. The report also found that smart thermometers helped in improving predictions of influenza among the people in California.

Superconductor Thermometer

Researchers at the National Institute of Standards and Technology (NIST) invented a miniature thermometer in November 2020 with big potential applications. This thermometer is 2.5 by 1.15 millimeters in size and is embedded in another cryogenic microwave device to measure temperature when placed on a chip. Compared to conventional ones, the NIST’s superconducting thermometer is capable of measuring temperatures below 1 Kelvin in about 5 milliseconds.

Thus, being faster, smaller, and more convenient than conventional cryogenic thermometers, the new invention can be mass-produced for chip-scale devices. It can monitor the temperature of processor chips in superconductor-based quantum computers, which must stay cold to function efficiently.

Ultra-fine thermal sensor

Researchers in Japan have developed a micro-thin thermal sensor. This can be easily attached to the skin to monitor the health of infants. Embedded in a super-fine, thin film, with about ¼ the thickness of human hair, this thermometer measures temperatures between 25-30 degrees Celsius.

Additionally, the materials used to manufacture these thermal sensors are cheap and widely available which ensures a commercialized use of the device.

FeverPhone App

A team of researchers from Washington University developed an application to measure temperature by placing the smartphone on the forehead. Named FeverPhone, this app allows the touchscreen to gather data and predict temperature within 90 seconds. It analyses interactions between the heat generated by the phone’s battery and the touch of fingers, accurately estimating body temperature without any extra hardware.

Notably, during a test conducted in an emergency department, the application showed impressive results in detecting core body temperatures compared to traditional ones. This eliminates the need to carry separate thermometers and rely on a smartphone for temperature monitoring.

Thermometers Market: Growth Potential Beyond Health Sector

Increasing Utility in the Manufacturing Sector:

A dominant manufacturing sector and the spillover effects lay the foundation for the growth of the thermometer market. Moreover, as per Triton’s analysis, the Asia-Pacific thermometer market is expected to witness the fastest growth at a CAGR of 8.54% over the forecast period 2023-2030.

Among the ASEAN countries, Singapore, Indonesia, and Thailand are experiencing a robust transformation within the manufacturing sector. Singapore’s industrial manufacturing contributes to around 20% -25% of its annual GDP. Major industry players like HP, Infineon, and Micron look forward to establishing next-generation manufacturing facilities in Singapore to make it among the top five exporters of high-tech goods.

Rising Importance of Temperature Monitoring in the Food Industry:

According to the World Health Organization (WHO), unsafe food causes 420,000 deaths and 600 million cases of food-borne diseases across the world. Thus, ensuring quality standards throughout the food cycle is important for a seamless process, starting from production to consumption.

Verifying correct temperatures is required during several stages like boiling, thawing, freezing, etc. Consistent temperatures help eliminate harmful bacteria, which minimizes the risk of food poisoning. Probe thermometers are, therefore, critical in food processing facilities, commercial kitchens, or retail settings. It ultimately determines the food safety standards throughout the supply chain.

Critical use of Thermometers in Research Laboratories:

Temperature records are crucial while conducting deep research, experiments, and scientific investigations. It helps in deriving accurate, data-driven conclusions. Laboratories, research industries, scientists, and environmentalists are completely dependent on thermometers for authentic temperature readings. A slight inaccuracy or a false reading may cause a scientific experiment to fail. Thus, heat-measuring devices help to determine the stability of compounds, the rate of chemical reactions, and the extent of these reactions.

Evidently, the use of thermometers is not restricted to the medical sector. Along with the precision and reliability of products, temperature records play an important role in various other sectors like agriculture, climatology, industrial manufacturing, weather forecasting, and archaeology. This widens the growth potential of temperature-measuring devices, creating opportunities for contenders in the global thermometer market.

FAQs

Q.1) Do battery thermometers have mercury?

A small amount of mercury is present in the button cell of battery thermometers.

Q.2) How big is the thermometer market?

The global thermometer market generated a revenue of $1504.98 million in 2022 and is expected to achieve $2710.08 million in 2030.

#Thermometer Market #Thermometer #Lifesciences #Medical Devices #Consumables #triton market research #market research reports

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govindhtech · 16 days

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Qualcomm QCC730: Transforming IoT Device Battery Life

Qualcomm QCC730

By consistently accelerating innovation across industries, Qualcomm Technologies, Inc. places itself at the centre of the digital transformation and highlights its prominent presence in the embedded and IoT ecosystem at the Embedded World Exhibition & Conference. Qualcomm processor-powered solutions are being showcased by over 35 companies, including distributors, autonomous software vendors, robotics centres, manufacturing facilities, edge AI boxes, asset and fleet management, and automotive solutions, among others.Image credit to Qualcomm

Qualcomm Technologies is introducing new products and solutions at Embedded World that are intended to empower its clients within the embedded ecosystem. For the newest IoT products and applications, on-device AI, high-performance, low-power processing, and connectivity are made possible by the Qualcomm RB3 Gen 2 Platform and the new Qualcomm QCC730 Wi-Fi solution.

Qualcomm Wireless QCC730

A disruptive micro-power Wi-Fi system for Internet of Things connectivity, the Qualcomm QCC730, is also being unveiled by Qualcomm Technologies. This technological innovation can transform products in battery-powered industrial, commercial, and consumer applications by providing up to 88% less power than previous generations. An open-source IDE and SDK that facilitate cloud connectivity offloading for developer convenience will be available to go along with QCC730.

Because of its adaptability, developers can even use QCC730 as a high-performing substitute for Bluetooth IoT applications in order to achieve direct cloud connectivity and flexible design. Additionally, Qualcomm Technologies provides a line of Internet of Things (IoT) connectivity products, such as the tri-core, ultra-low power, Bluetooth Low Energy SoC QCC711, and the all-in-one solution QCC740, which supports Bluetooth, Zigbee, Wi-Fi, and Thread.

“The Qualcomm QCC730 SoC is an industry-leading micro-powered Wi-Fi solution for battery-powered IoT platforms, complementing high-performance, low-latency wireless connectivity. The QCC730 allows devices to maintain connectivity to cloud platforms while supporting TCP/IP networking features within form-factor and wireless constraints, according to Rahul Patel, group general manager, connectivity, broadband and networking (CBN), Qualcomm Technologies, Inc. “This new offering, together with the rest of their IoT connectivity portfolio, positions Qualcomm Technologies at the forefront of the next generation of battery-powered smart home, gaming, healthcare, and other consumer electronics devices. It also reflects their commitment to leveraging their decades of research and development to pioneer new user experiences.”

Ultra-low micro-power Wi-Fi SoC to replace Bluetooth for battery-powered IoT apps

Leading 1×1 Wi-Fi 4 transceiver Qualcomm QCC730 is designed to provide ultralow micro-power Wi-Fi, scalability flexibility, and versatility for ease of design. For battery-powered or energy-harvested IoT, the selectable power modes and innovative power management enable exponential battery life. For a complete solution, QCC730 will be paired with an open-source SDK and software stack that facilitate cloud connectivity offloading. Because of its direct cloud connectivity, developers now have an option outside of applications that are typically limited to Bluetooth.

An open-source software SDK that can be found on CodeLinaro will power QCC730. Additionally, Qualcomm Connectivity Integrated Development Environment (VSCode) based on Microsoft Visual Studio Code will be installed on it. To enable VSCode that is specifically tailored for QCC730, an open-source plugin for VSCode extensions will be made available. Qualcomm Authorised Design Centres offer development kits and modules that are optimised for cost and size to enable rapid time-to-market productization.

Exceptionally long battery life with unbelievably low micro-power Wi-Fi

They unique power management and selectable power modes optimise energy savings for incredibly long battery life. their lowest-power Wi-Fi for IoT connectivity, the QCC730, uses up to 88% less power than models from earlier generations.

Adaptability to scale

The hostless and hosted modes of operation, support for internal and external power amplifiers, and integrated non-volatile memory of QCC730 give developers a great deal of flexibility.

Adaptable system for simplicity in design

To increase design flexibility and ease of use, QCC730 incorporates NVM, SRAM, and an on-chip microcontroller in its entirety. The QCC730 gives developers the ability to replace or integrate applications that are typically limited to Bluetooth.

complete stack for cloud connectivity

Complete solutions like QCC730 come with an open-source software SDK that can be obtained through CodeLinaro, an IDE for Microsoft VSCode that supports cost- and size-optimized modules and related development kits.

Features of Qualcomm QCC730

The application processor is a dedicated Arm Cortex-M4F processor operating at 60 MHz, which can be used with or without an RTOS.

Wi-Fi function of dual band 1×1 802.11 a/b/g/n HT20 and up to MCS3.

Using on-chip RRAM (NVM) eliminates the need for an external NOR flash for host applications.

Crypto accelerator built into the hardware.

Sophisticated power management system to intelligently reduce power consumption for every application.

Specifications of Qualcomm QCC730

CPU

Name: Arm Cortex-M4F Processor

Wi-Fi

Standards: 802.11b, 802.11g, 802.11n, 802.11a

Spectral Bands: 2.4 GHz, 5 GHz

Channels: 20 MHz

Antenna Configuration: 1×1

Features: up to MCS3

Interfaces

Supported Interfaces: Master IC, 15x muxed GPIO, Slave SPI, 2-wire UART, Master QSPI

Security

Features: Secure Boot, Cryptographic Accelerator, Qualcomm Trusted Execution Environment & Services, Secure debug

Package

Type: 90-ball WLCSP

Size: ‘3.3 x 3.58 x 0.55 mm

Pitch: 0.35 mm

Process Node and Technology

Process Node: 22 nm

RAM

Density: 1.5 MB

SRAM

Density: 640 kB