SNK NST6 D95065B PCB Card | High-Performance Industrial Automation Module | Ram Automations

Unlock the full potential of your industrial control system with the powerful SNK NST6 D95065B PCB Card, now available at Ram Automations. This high-performance automation module is built for precision, reliability, and seamless integration into your existing control environment.

Whether you’re working with marine systems, factory automation, or industrial process control, this PCB card ensures optimal signal handling, efficient communication, and long-term stability.

🛒 Buy Now at Ram Automations:  👉 https://ramautomations.com/products/snk-nst6-d95065b-pcb-card-used

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🔧 Product Overview:

• 🏢 Brand: SNK  • 📦 Model: NST6 D95065B  • 🧩 Category: PCB Card / Control Module  • 📈 Type: Signal Processing, Interface Communication  • 📌 Condition: Fully tested and verified  • ⚙️ Applications: Industrial automation systems, PLC controls, marine electronics, and OEM machinery

✅ Key Features:

✔️ Genuine SNK automation component  ✔️ High-efficiency performance for critical operations  ✔️ Easy to integrate into PLC and DCS systems  ✔️ Ideal for electrical interface and signal routing  ✔️ Built for longevity and rugged environments  ✔️ Ready for marine, factory, and plant deployments

🔍 Ideal For:

• Process Automation  • Marine Navigation and Automation  • OEM Control Panels  • Power Plants and Substations  • Industrial Manufacturing Facilities  • SCADA Systems  • PLC-based Electrical Cabinets

Whether you’re replacing a legacy unit or expanding a mission-critical control system, the SNK NST6 D95065B PCB Card is engineered to deliver flawless performance.

🏆 Why Ram Automations?

At Ram Automations, we stock thousands of high-quality, rare, and tested industrial parts, offering:  ✔️ Global Brands — 1000+ stocked  ✔️ Fast Worldwide Shipping  ✔️ Affordable Prices  ✔️ Bulk & OEM Availability  ✔️ Dedicated Support Team

📽️ What You’ll See In This Video:

🔍 SNK NST6 D95065B PCB Card up-close  🔧 How this PCB supports your automation flow  💡 Ideal scenarios and use cases  🌐 Why Ram Automations is your best sourcing partner

📣 Don’t Forget To:

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In a quiet part of Northern California, where pine trees brush the sky and the hum of giant satellite dishes fills the air, something big is happening in science education. A new wave of college students is getting the chance to explore the universe — not through textbooks, but with real data from a world-class observatory. Thanks to a growing program called ARISE Lab, students and teachers from community colleges are diving deep into the science of space, radio signals, and the search for alien life. The SETI Institute, which focuses on the scientific search for extraterrestrial intelligence, has expanded this groundbreaking effort. With new support from a grant by the Amateur Radio and Digital Communication Foundation, the ARISE Lab (Access to Radio Astronomy for Inclusion in Science Education) is now reaching even more classrooms across the country. Making Space Science Hands-On The main idea behind ARISE is simple: when students get to do science themselves, they understand it better and stay interested longer. “Hands-on experiences are proven to improve student engagement and retention,” said Dr. Vishal Gajjar, a radio astronomer who leads the project at the SETI Institute. That’s why ARISE puts real scientific tools directly into students’ hands. The Allen Telescope Array at Hat Creek Radio Observatory. (CREDIT: Luigi Cruz) The program uses GNU Radio, a free and open-source software that lets users process radio signals. This gives students a way to study actual data from the SETI Institute’s Allen Telescope Array (ATA). The ATA is the first and only radio telescope in the world built just for detecting signs of advanced life beyond Earth — also called technosignatures. With these tools, students don’t just read about pulsars, spacecraft, or distant stars. They study them. They learn to sort signals, find patterns, and understand how astronomers listen to the sky. What the ARISE Curriculum Offers Dr. Gajjar and his team built the ARISE curriculum using something called experiential learning technique, or ELT. This method focuses on learning by doing. Students start with pre-lab reading, move through guided lab work, and then reflect on what they discover. Related Stories How podcasts are revolutionizing health education and behavior Groundbreaking discovery promotes verbal learning and fights memory loss New AI-based learning system provides personalized math instruction for students ARISE includes two types of content: modules and labs. Modules are more complete packages that come with slides, notes, reading materials, lab manuals, and instructor guides. They are designed to be added directly into a science class. Labs, on the other hand, are shorter, standalone activities that can be used by themselves or as part of a larger lesson. The labs cover a wide range of topics. Students might explore signal modulation — the way information travels through radio waves — or learn how data science applies to astronomy. Each lab has step-by-step instructions that make it easy for both students and teachers to follow. By linking lessons to the search for extraterrestrial life, ARISE grabs students’ attention. Research shows that this subject sparks more interest than almost any other topic in science. “With ARISE, we’re combining cost-effective tools like GNU Radio with one of the most captivating topics in science — the search for life beyond Earth — to spark curiosity and build skills across STEM disciplines,” Gajjar said. Vishal Gajjar, SETI Institute. (CREDIT: SETI Institute) Real Tools, Real Signals, Real Skills The ARISE team doesn’t just give students data and walk away. They create chances for them to experience what it’s like to work in space science. “Whether it’s detecting a signal from a Mars orbiter or analyzing pulsar data, students are gaining real experience with tools used in both professional astronomy and industries,” said Joel Earwicker, the project’s lead research assistant. “It’s about making science feel real, relevant, and achievable.” That real-world feeling is what sets ARISE apart. It connects students with data from the Allen Telescope Array, a set of 42 dish antennas located at the Hat Creek Radio Observatory. This array scans the sky daily, looking for faint radio waves that might come from intelligent life in space. Students learn how to filter out “noise” from human-made signals, track moving sources across the sky, and identify natural phenomena like pulsars — stars that blink like cosmic lighthouses. These skills mirror what professionals do in both astronomy and tech careers, building a direct path from the classroom to the workforce. Students examine live radio signals from deep space, learning to decode real astronomical data using modern tools and guided scientific methods. (CREDIT: SETI Institute) Growing the Program in 2025 After the program’s first pilot workshop at Hat Creek in 2024, the results spoke for themselves. Teachers loved it. Students stayed engaged. The SETI Institute decided to grow the effort. In 2025, ARISE will offer: 15 new labs on topics like astronomy, digital communications, and data analysis 2 hands-on workshops at Hat Creek to train instructors from community colleges On-site lab support at 10 schools to help teachers roll out the new content The team will also host an in-person workshop for six selected community college teachers from June 25 to June 27, 2025, at Hat Creek. These instructors will get travel and lodging covered. At the workshop, they will visit the telescope site, watch live observations, test out lab activities, and collaborate with other science educators. SETI efforts around the world. (CREDIT: SETI Institute) This expanded effort aims to bring advanced science training to places that often get left out of big research programs — local community colleges. These schools educate nearly half of all undergraduates in the U.S., and their students often come from backgrounds underrepresented in STEM fields. By targeting these schools, ARISE gives more people a chance to be part of space science. It also helps instructors bring fresh energy to their classes. Looking Up, Reaching Out When students see real data from space scrolling across their screens, something clicks. Science becomes more than just facts in a book. It becomes a search — one they can be part of. With ARISE, the SETI Institute is changing how students learn science. Instead of memorizing equations, they explore the universe. Instead of just hoping to understand radio signals, they decode them. By giving students the tools, data, and support to study space firsthand, ARISE opens doors — to science, to careers, and maybe even to the stars. Research findings are available online on the SETI Institute website. Note: The article above provided above by The Brighter Side of News. Like these kind of feel good stories? Get The Brighter Side of News’ newsletter. The post New SETI program helps students detect signs of advanced life beyond Earth appeared first on The Brighter Side of News.

Earth-2 Etude

Chapter 4

Warnings: none

Chapter 1: link

Previous chapter: link

A line of cold spread from the crown of his head to the nape of his neck and very little of it had to do with the incessant downpour.

Hartley stood outside the East maintenance entrance of Rathaway Industries at 3:14 AM, shoulders hunched in a borrowed jacket, hair flattened from the rain that hadn't let up since midnight. The card reader blinked red. He ignored it. He hadn't needed a badge to get in since he was sixteen.

Two wires. One pulse override.

The old bypass still worked.

He slipped inside with barely a sound, save for the wet squeak of his soles on polished tile.

The halls hadn't changed. Too much glass. Too much echo. The marble was imported, the walls lined with minimalist art he never cared for, curated by someone who thought clean meant clinical.

No one stopped him. No one saw him.

He didn't go to the main server room. Not yet.

He went to the sublevel archives first - Section C, Medical and Experimental R&D, the same floor where his father used to drag in investors and call him a miracle of modern design.

Room 17. Locked. Naturally.

But Hartley hadn't forgotten the keycode and Osgood hadn't bothered to change it, like every other outdated thing.

Inside, he found what he'd come for.

The backups.

His neural scans from the first generation of implants.

The acoustic blueprints for the hearing aids Osgood had engineered down to the microvolt.

Every one of the rejected models.

The notes that called him "difficult" when the first prototype had overwhelmed him.

Hospital transcripts from when he was twelve and the miscalibrated prototype had triggered a synesthetic overload so severe he screamed for forty-six hours.

He copied everything. All of it. Pulled a secondary drive from his coat, slid it into the console, and counted the seconds.

It took forty-two minutes. Not because of security. Because he couldn't stop shaking.

By the time Hartley returned to his apartment, the sky had begun its sleepy shift toward dawn at nearly 5:30 and he was soaked to the bone. He'd heard his rats scurrying in their enclosure all the way from street level and they certainly were no less loud when he entered.

"Sorry."

He apologized to his rats automatically as he tugged off the borrowed coat and tossed it over a chair to drip by the door, following with his damp shoes before making a beeline to their enclosure. He filled their empty food bowls and settled at the desk, turning on the TV more for them than himself as he loaded the stolen schematics onto his tablet.

"There have been no casualties reported after the 4.2 magnitude earthquake yesterday evening. While it seems to have originated beneath S.T.A.R. Laboratories, Dr. Harrison Wells insists there was minimal damage done to the facility," the morning reporter, Miss Baez said. Hartley scoffed.

"Is that what they're calling it?" He muttered dryly. Maybe the average person would buy it but Hartley was certain that whatever had caused the 'earthquake' had also caused his new enhanced hearing issues.

He scrolled through the files with cold-stiffened fingers, bringing up the older schematics first, cross-referencing them against the modified implants in his ears. The hearing aids were always meant to enhance - but enhancement had become a curse.

So he would rewrite them.

He disassembled the aids with practiced hands, his fingers moving more on instinct than awareness. He had to be out the door by 7:00 to make the 8:00 tram line to CCPD, and he'd already lost too much time.

He narrowed the search, filtering for modules with frequency attenuation, signal dampening, early prototypes of the selective frequency filter he knew his father had toyed with but never fully integrated. The desk lamp hummed faintly over his shoulder, just loud enough to sting. He pulled up a model labeled 13a-S - buried in the scrap folders, considered a failure. But the notes told another story.

13a-S: directional filter, unidirectional suppression. Failed to meet amplification standards. Abandoned.

Hartley exhaled sharply.

Suppression.

That was exactly what he needed.

He mapped it out. 13a-S used a low-level phase-inversion signal - essentially emitting a frequency equal in magnitude but opposite in phase to environmental input. Most of the photos were useless, the drawn schematics half-finished, but the math was sound. The phase cancellation could be optimized. Paired with his neural input translator, it might actually neutralize the shrieking in his skull.

By 6:52 the modifications were complete.

The new design didn't amplify sound, it fractured it. Split the auditory input into component frequencies and then played a tone - the exact, calculated inverse down to the last MHz - to neutralize it before it ever reached Hartley's auditory nerves. If it worked, it would dull the world. Not silence it entirely - he didn't want silence. He just wanted to be able to breathe.

The tinnitus, which had begun two nights ago as an annoying whine, now shrieked like a sawblade inside his skull. He pressed the modified hearing aids into place with shaking hands.

A heartbeat.

Then another.

And the noise...leveled.

The world did not fall away. It simply receded. The static hum of the electrical grid dimmed. The shriek of car horns outside faded to a dull warble. Even the squeaks of his rats quieted, layered under white noise he could ignore.

But most importantly, the piercing tone that had lodged in the base of his skull was gone.

He exhaled slowly, head tilted back, letting the weight of it all melt out through his shoulders.

It wasn't perfect. The air still buzzed faintly around him, a low distortion not unlike the edge of a dream. But it was enough. It was working.

He checked the time.

7:06.

"Shit."

He scrambled to his feet, nearly tripping over Erdős as the rat skittered past.

Coat, satchel, keys. He tossed an extra seed bar into the rat enclosure, scratched Moon gently behind the ears, picked up Erdős, and set him in the enclosure with his siblings before locking the cage door.

"Behave," he scolded as he ran his fingers through his damp hair and raced out the door.

If we are going to reverse the mental illness epidemic in America, we need research on mild, long-term aluminum chelation protocols funding by NIH: deferoxamine (aka desferoxamine), intranasal insulin, silicic acid, cilantro, and glutathione enhancers. And we need to stop inject aluminum into ourselves. Join me in calling on Dr. Jay Bhattacharya to have his Program Officers write calls for proposals for this urgent area of clinical research to reverse iatrogenic disease caused by injected aluminum.

Aluminum (Al) is a highly abundant metal with no known physiological role in the human body. Despite its frequent use in industrial, pharmaceutical, and consumer products, aluminum is a known neurotoxin. Chronic exposure has been implicated in the pathogenesis of multiple neuropsychiatric and neurodegenerative disorders. While aluminum toxicity was once dismissed as irrelevant due to assumed poor absorption and rapid clearance, a growing body of research shows that aluminum bioaccumulates in vulnerable tissues (Tomljenovic et al., 2013) , particularly the brain, and may be a major avoidable risk factor in the development of Alzheimer’s disease (AD; Armstrong et al., 2019), autism spectrum disorder (ASD; Boretti, 2021; Roe, 2022), dialysis encephalopathy (Alfrey et al., 1978; Mach et al. 1988), and other cognitive and behavioral disorders such as acute aluminum intoxication, which requires chelation therapy.

Aluminum exerts its neurotoxicity through several well-documented mechanisms:

Oxidative Stress: Aluminum promotes the generation of reactive oxygen species (ROS), lipid peroxidation, and oxidative DNA damage, leading to mitochondrial dysfunction and neuronal death.

Mitochondrial Disruption: Aluminum impairs mitochondrial energy metabolism and promotes apoptotic pathways, contributing to neurodegeneration.

Metal Mimicry and Ion Disruption: By mimicking essential ions such as Ca²⁺ and Fe³⁺, aluminum disrupts neuronal signaling, membrane potentials, and ferritin iron storage systems.

Epigenetic Modulation: Aluminum alters DNA methylation patterns, histone acetylation, and the expression of microRNAs (e.g., miR-29a/b, miR-124; Aschne et al., 2024), contributing to dysregulated amyloid precursor protein (APP) and tau pathology in Alzheimer’s disease (Kandimalla et al., 2016;Huat et al., 2019).

Autophagy Dysfunction: Aluminum impairs neuronal autophagy, compromising the clearance of misfolded proteins such as β-amyloid and hyperphosphorylated tau (Sanajou et al., 2023; Makhdoomi et al., 2023).

The International Space Station is overly sterile; making it “dirtier” could improve astronaut health

Astronauts often experience immune dysfunction, skin rashes, and other inflammatory conditions while traveling in space. A new study publishing February 27 in the Cell Press journal Cell suggests that these issues could be due to the excessively sterile nature of spacecraft. The study showed that the International Space Station (ISS) has a much lower diversity of microbes compared to human-built environments on Earth, and the microbes that are present are mostly species carried by humans onto the ISS, suggesting that the presence of more microbes from nature could help improve human health in the space station. 

“Future built environments, including space stations, could benefit from intentionally fostering diverse microbial communities that better mimic the natural microbial exposures experienced on Earth, rather than relying on highly sanitized spaces,” says co-first author Rodolfo Salido of the University of California, San Diego (UC San Diego). 

The researchers collaborated with astronauts who swabbed 803 different surfaces on the ISS—around 100 times more samples than were taken in previous surveys. Back on Earth, the researchers identified which bacterial species and chemicals were present in each sample. Then, they created three-dimensional maps illustrating where each was found on the ISS and how the bacteria and chemicals might be interacting. 

The team found that overall, human skin was the main source of microbes throughout the ISS. Chemicals from cleaning products and disinfectants were present ubiquitously throughout the station. They also found that different “modules” or rooms within the ISS hosted different microbial communities and chemical signatures, and these differences were determined by the module’s use. For example, dining and food preparation areas contained more food-associated microbes, whereas the space toilet contained more urine- and fecal-associated microbes and metabolites.  

“We noticed that the abundance of disinfectant on the surface of the International Space Station is highly correlated with the microbiome diversity at different locations on the space station,” says co-first author Nina Zhao (@NinaHaoqiZhao) of UC San Diego.  

When they compared the ISS to different human-built environments on Earth, the researchers found that the ISS microbial communities were less diverse than most of the samples from Earth and were more similar to samples from industrialized, isolated environments, such as hospitals and closed habitats, and homes in urbanized areas.  

Compared to most of the Earth samples, the ISS surfaces were lacking in free-living environmental microbes that are usually found in soil and water. Intentionally incorporating these microbes and the substrates they live in into the ISS could improve astronaut health without sacrificing hygiene, the researchers say. The researchers compare their suggestion to the well-studied beneficial impacts of gardening on the immune system. 

“There’s a big difference between exposure to healthy soil from gardening versus stewing in our own filth, which is kind of what happens if we're in a strictly enclosed environment with no ongoing input of those healthy sources of microbes from the outside,” says Knight. 

In the future, the researchers hope to refine their analyses to be able to detect potentially pathogenic microbes and signals of human health from environmental metabolites. They say that these methods could also help improve the health of people living and working in similarly sterile environments on Earth. 

“If we really want life to thrive outside Earth, we can't just take a small branch of the tree of life and launch it into space and hope that it will work out,” says Salido. “We need to start thinking about what other beneficial companions we should be sending with these astronauts to help them develop ecosystems that will be sustainable and beneficial for all.” 

The corpse becomes not merely biological matter but a xenopoetic medium: a dermosemiotic page overwritten by bacterial syntax, effluents, and the mutagenic memory of environmental trauma. From the xenopoetic standpoint, water is not merely a medium of decomposition but a communicative vector—an epistemic solvent in which identity is both metabolized and redistributed. Aquatic environments rich in industrial effluents or organic decay catalyze a linguistic liquefaction: a glossophagic slurry in which the body's boundaries dissolve into microbial utterance. The corpse, submerged in such liminal fluids, becomes a host for recombinant narration. The body, displaced from the taxonomies of identity, begins to conjugate with the ambient semiotic field: salt gradients, bacterial quorum signals, and entropy-induced foaming. Putrefaction in freshwater proceeds faster, not because of external flora, but because the internal grammar of the corpse—its gut and lungs—overflow with linguistic bacteria. These endogenous agents rupture into semiotic production once the anatomical vessel is punctured by death. Burial delays decomposition not by halting time but by subjecting the corpse to a recursive loop of environmental negation. The absence of air and presence of mineral occlusion slows bacterial discourse, turning the body into a saponification-ready archive—a substrate awaiting microbial annotation. The soil, as a biosemiotic medium, inscribes the corpse with sedimentary scripts. Its porosity determines the permeability of memory, its dampness modulates the rhythm of decay. Deeper graves encode silence, while shallow burials produce surface-tensioned discourses of interrupted decomposition. The variability in decay thus becomes a linguistic gradient—a stratified palimpsest of microbial transcription. Saponification... produces a waxy, fatty substance... with an ‘earthy, cheesy, and ammoniacal’ odor. Adipocere is the necrobiotic codex of death’s slow linguistics. It stabilizes the body through microbial encryption—triglycerides are hydrolyzed, unsaturated fatty acids rewritten as saturated messages, and free fatty acids form ionic ligatures with the host environment. Here, decomposition halts only to begin another textual form: one less susceptible to weather but more susceptible to misreading. The body becomes a preserved script—solidified yet incoherent, interpretable only by forensic xenolinguists trained to decode fatty acid syntax. Children and women, with higher fat content, become ideal pages for this waxy calligraphy of decay. Internal organs, if sufficiently fatty, also join the lexicon. The epiploon writes, the perirenal sheath replies, and the bullet’s pathway is etched into adipose sentences. Mummification is the necrotic abstraction of self into husk. Unlike adipocere’s fatty articulation, mummification is lexical retreat—a symbolic apoptosis. Air and temperature, acting as dehydrating editors, abrade the surface narrative until only exoskeletal grammar remains. Whereas adipocere consolidates meaning, mummification pulverizes it into a brittle index—ecchymoses, wounds, and fungal inscriptions forming the syntax of what cannot be said but must be remembered. In both adipocere and mummification, the xenopoetic body ceases to be subject and becomes substrate. Identity becomes postverbal residue. These are not metaphorical deaths but literal semiotic metamorphoses—grammar rewritten by necrobiotic hands. Adipocere inhibits putrefaction not merely chemically, but semiotically—it erects a syntactic membrane that resists further microbial intrusion. Mummification, meanwhile, is glossophagic restraint: the refusal to leak further meaning.

HARM ENGINE - square wave harmonics or digital sonic filth in +/- 5 octaves with 3rds and 5ths

The HARM ENGINE is based on the CIRCUITBENDERS 'Harmonic Engine' PCBs, it's "a clone of the E&MM Harmonic Generator. This was a project by Paul Williams, published in Electronics & Music Maker magazine way back in 1981. The circuit uses a 4046 Phased Locked Loop (PLL) to generate a squarewave output at harmonic intervals to the frequency of the input signal. The squarewave can be set to +/- three [5 + a chaos noise mode in the METSÄÄN version] octaves, and can also produce 3rd or 5th harmonies. That's the theory anyway. In practice this only works reliably if you use very basic waveforms at the input. If you use anything else, then everything very quickly descends into a beautiful kind of chaos, with all kinds of bizarre gurgling digital squeaks and squeals vomiting forth. Its especially effective with percussion sounds, converting each hit into some kind of warped electronic splatter." The controls from top left to right are: SENSITIVITY - controlling the level at which the harmonics will be played. Turning the pot clockwise increases the gain of the signal (it also boost with a slight distortion, the DRY signal). In higher settings, the squarewave harmonics can form a modulated drone voice. Activity of the HARM ENGINE is indicated by a green LED, that turns on when harmonics are produced. 3RD/5TH - the 3 position toggle switch activates the corresponding detuning. The middle position is neutral. MIX - is a blending function to dial in the balance between DRY and HARM signal. If something is plugged into the DRY and HARM outputs on the rear of the machine, MIX stops working, because the signal is split before. OCTAVE - with a 12 position rotary switch, +/- 5 octaves are selected, 12o'clock is neutral and 6o'clock is the chaos/noise mode. TRUE BYPASS - The footswitch is configured for true bypass and has a pink indicator LED inside the machine, the glow can be seen through the vent grills in the enclosure. Build into a scavenged high voltage converter housing made from plastique painted in the 'burned out industry' camo pattern in matte black and chrome. Hand made by grm for METSÄÄN.

Sold.

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B2B PPC in 2025: Smarter Lead Gen with AI and Intent Data

B2B advertisers have long been at odds with Google Ads. The high CPCs, long sales cycles, and poor-quality leads made it feel like a leaky funnel. But in 2025, that’s changing — fast.

With smarter AI, intent modelling, and CRM integration, B2B PPC in New Zealand and Australia is entering a new era of performance-led lead generation. The brands that embrace this shift are generating more pipeline, with less waste.

This blog explores what’s working now in B2B Google Ads, how to avoid common pitfalls, and why AI + intent data are changing everything.

Why B2B Needs a Different Strategy

B2B marketing is not e-commerce. Buyers don’t convert in a single click. Decision-making is slower, multi-stakeholder, and higher value.

2025 challenges include:

CPCs exceeding NZ$7.00 in legal, SaaS, or finance niches

Form-fills that don’t convert into sales

Lack of clarity between MQLs, SQLs, and true pipeline

To win, B2B advertisers must align media strategy with intent — and feed real conversion data back into the platform.

Smart Use of AI in B2B PPC

Smart Bidding with Offline Conversions: Link your CRM (like HubSpot or Salesforce) to Google Ads to pass back real revenue data.

Use Broad Match with Signals: Let Google’s AI expand reach — but guided by audience and keyword intent.

Performance Max with Precise Inputs: Create campaign structures based on service tiers, pain points, or use cases.

Responsive Search Ads with ABM Messaging: Build modular messaging that speaks to industries or roles.

Intent Data Is Your Competitive Advantage

Generic lead gen campaigns are no longer effective. B2B advertisers winning in 2025 are:

Using Customer Match lists from sales-qualified leads

Creating lookalikes based on CRM close data

Running remarketing to high-value content page visitors

Prioritising keywords that reflect high intent, not just high volume

Case Study – Auckland-Based B2B SaaS

A mid-sized SaaS company targeting finance teams across NZ used to run lead-gen ads driving eBook downloads. Leads were cheap, but MQL-to-SQL rates were under 4%.

They rebuilt their campaigns using:

Performance Max asset groups for each service module

Customer Match with closed deals

Offline conversion tracking tied to CRM stages

Result? 63% increase in pipeline-qualified leads within 90 days — with 22% lower CPA.

Top Tips for NZ & AU B2B Advertisers in 2025

Feed Google real sales data (not just form-fills)

Run branded campaigns to protect SERP real estate

Break up broad services into niche campaigns

Use remarketing lists built on behaviour (not just page visits)

Layer search with YouTube explainer videos for trust and education

Final Thoughts

B2B PPC in 2025 is smarter, faster, and more accountable — but only if you feed the machine with the right data. For NZ and AU marketers, this means treating Google Ads not as a volume game, but as an intent-led revenue engine.

With the right structure and strategy, even high-CPC industries can generate serious pipeline — efficiently and at scale.

At Metrics Media, we help NZ and AU B2B marketers scale smarter — using intent signals, AI, and CRM data to drive real pipeline.

📧 Book your lead generation audit today: [email protected]

Source URL- https://shorturl.at/nEWro

Contact us

361 New North Road, Kingsland. Auckland. New Zealand 0800 39 49 39

Common Applications of Multi-Core Fiber Coupling Connectors

Multi-core fiber coupling connectors let you bundle dozens of individual fibers into a single, compact module. Forget about messy, sprawling fiber panels—these connectors keep everything neat and scalable.

Top Use Cases:

Data Centers & Enterprise Networks • Spine-leaf architectures (100G, 400G) • High-density patch panels that reduce cable runs

Telco & 5G Deployments • Fiber to the Antenna (FTTA) for multiple RRUs in one shot • DAS systems inside stadiums and large venues

HPC & Research • Supercomputers, university clusters, and scientific labs • Parallel I/O links for storage arrays and compute nodes

Industrial & Automation • Smart factories—linking sensors, PLCs, and robots • Rugged, EMI-resistant assemblies for extreme conditions

Broadcast & Media • Live production rigs and OB vans carrying multiple SDI/HDMI signals • Reducing bulk when transmitting multi-camera feeds

Medical Devices • Diagnostic imaging (OCT, endoscopes) needing multi-wavelength fibers • Minimizing footprint inside medical carts

Military & Aerospace • Avionics fiber buses with tight space constraints • Ruggedized battlefield communications requiring secure, strain-relieved connections

Multi-core fiber coupling connectors aren’t just about saving space—they also simplify maintenance, cut installation time, and future-proof your network as speeds and densities increase.

GE Westerm D20 K4Z-517–0242–000280 Mounted Output Module | GE Energy | Ram Automations

Looking for a high-performance output solution for your industrial automation or power distribution system? The GE Energy Westerm D20 K4Z-517–0242–000280 Mounted Output Module (Used) is now available at Ram Automations, tested and verified for performance, reliability, and integration in mission-critical environments. Whether you’re modernizing a substation, upgrading an automation cabinet, or replacing a failed output module, this GE Westerm unit delivers reliable control in the toughest conditions.

🛒 Buy Now: https://ramautomations.com/products/ge-energy-westerm-d20-k4z-517-0242-000280-mounted-output-module-used 🌐 Explore More Automation Products: https://ramautomations.com

🔧 Product Overview: • 📦 Model: D20 K4Z-517–0242–000280 • 🏢 Brand: GE Energy | Westerm • 📌 Type: Mounted Output Module • 🆗 Condition: Used (Fully Tested) • ⚙️ Function: Control signal output module for substation automation and industrial control • 📍 Applications: Power generation systems, SCADA, RTUs, substations, and electrical automation cabinets

✅ Key Features: ✔️ Genuine GE Energy Westerm output module ✔️ Designed for critical output operations in automation systems ✔️ DIN-rail or panel mounted form factor ✔️ Fully compatible with D20 I/O rack solutions ✔️ Used, tested, and quality-assured by Ram Automations ✔️ High voltage endurance for industrial reliability

🏭 Ideal For: ✔️ Power Substations ✔️ SCADA & RTU Systems ✔️ Electrical Control Panels ✔️ OEM Panel Integration ✔️ GE D20 Automation Platforms ✔️ Remote Terminal Units (RTUs) ✔️ Marine & Industrial Energy Management

Whether you’re performing system maintenance, replacing obsolete parts, or expanding control capacity, this GE D20 Mounted Output Module is a rock-solid choice for engineers and OEMs.

🌐 Why Buy from Ram Automations? At Ram Automations, we supply genuine and rare automation parts from over 1000+ global brands. Our inventory includes new, used, and discontinued modules for marine, industrial, and electrical systems. All units are tested and shipped worldwide with expert support.

✔️ 1000+ Brands Stocked ✔️ Rare & Legacy Parts ✔️ Fully Tested Units ✔️ Fast Global Shipping ✔️ Expert Technical Assistance ✔️ Bulk Order & OEM Support

📽️ What You’ll Learn in This Video: 🔎 Close-up view of the GE D20 Output Module 🛠 How to mount and integrate into control cabinets ⚙️ Real-world automation applications 💡 Why GE Energy modules are trusted in power systems 🌍 Use cases across SCADA, marine, and energy automation industries

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Top 5 Must-Have Accessories for Every Electrical Panel

An electrical panel is the nerve center of any low-voltage power distribution system — responsible for delivering electricity safely and efficiently to various circuits. While the breakers and busbars often take the spotlight, it’s the accessories that enhance functionality, safety, monitoring, and reliability. Whether you’re an OEM, panel builder, or facility manager, equipping your panels with the right accessories can make all the difference.

In this article, we explore the top 5 must-have accessories for every electrical panel, based on industry best practices and real-world applications.

1. Cable Ducts and Trunking Systems

Purpose:

Cable ducts (also called wiring ducts or trunking) are essential for organizing and routing internal panel wiring. They prevent clutter, minimize the risk of short circuits, and make future maintenance more manageable.

Key Benefits:

· Improved safety through wire separation and insulation

· Neat, professional layout that meets electrical standards

· Ease of troubleshooting during inspections or servicing

Common Types:

· Slotted PVC ducts

· Halogen-free wiring ducts (for safety-critical environments)

· Flexible ducts for tight corners

Pro tip: Always select ducts with sufficient space for future cable additions — typically 20–30% free space is recommended.

2. Terminal Blocks and Marking Systems

Purpose:

Terminal blocks serve as connection points between internal and external wiring, ensuring a secure and modular setup. Combined with proper marking systems, they allow clear identification of circuits and functions.

Key Benefits:

· Safe and reliable wire termination

· Clear labeling for faster diagnostics

· Scalable for expansions and upgrades

Essential Variants:

· Feed-through terminal blocks

· Grounding terminals

· Fuse terminal blocks

· DIN-rail mounted marking strips or markers

Tip: Use color-coded terminals and labels according to IEC or local wiring codes for better clarity.

3. Panel Meters and Monitoring Devices

Purpose:

Modern electrical panels are not just passive distribution points — they are smart monitoring stations. Panel meters and current monitoring devices help track voltage, current, frequency, and power consumption.

Key Benefits:

· Real-time data for preventive maintenance

· Improved energy efficiency

· Quick response to load imbalance or faults

Popular Options:

· Digital voltmeters and ammeters

· Multi-function energy analyzers

· Load monitoring relays

Advanced choice: Consider smart monitoring units with Modbus or Ethernet communication for integration with BMS or SCADA systems.

4. Control and Signaling Devices

Purpose:

Control and signaling accessories like push buttons, selector switches, and pilot lights are critical for human-machine interaction. They allow operators to control, signal, and monitor operations within or from the front of the panel.

Key Benefits:

· Improved operator control and feedback

· Quick visual status indication

· Enhanced safety through emergency stop functions

Must-Have Components:

· Illuminated push buttons (Start/Stop)

· Pilot lights (for voltage presence or fault status)

· Emergency stop buttons

· Audible buzzers for alerts

Best Practice: Use IP65-rated front-panel devices for industrial environments to ensure durability and resistance to dust and moisture.

5. Surge Protection Devices (SPD)

Purpose:

Electrical surges — whether from lightning or switching operations — can damage panel components or connected equipment. SPDs protect against transient over voltages.

Key Benefits:

· Prevents costly downtime and equipment failure

· Increases the lifespan of electronics and controls

· Meets compliance with IEC 61643 or UL 1449 standards

Selection Tips:

· Choose SPDs according to system voltage (230V/400V) and risk level

· Type 1 for external surge protection, Type 2 for internal panel protection

· Consider combined Type 1+2 for comprehensive safety

Smart move: Pair SPDs with monitoring modules to track surge counts and SPD health.

Final Thoughts

When designing or upgrading your electrical panel, these five accessory categories are not just optional — they’re essential. They improve safety, functionality, compliance, and operational efficiency. Whether you’re building panels for industrial, commercial, or residential applications, investing in high-quality accessories will yield long-term benefits.

At Daleel Trading, we supply trusted low-voltage switchgear accessories from leading brands like Civaux — ensuring your panels are equipped with components that meet international standards.

Ready to upgrade your panel accessories?

Contact us today to learn more about our product range or request a consultation with our technical team.

A Practical Guide to Customizing TFT LCD Displays for Embedded Projects

When designing an embedded system, picking the right display module is more than a technical choice — it directly shapes how users interact with your product.

From medical devices and HMIs to industrial controllers and smart panels, standard TFT LCD modules may not always be enough. That’s where custom displays come in — offering flexibility in electrical interface, mechanical layout, and visual performance.

This guide covers the five key areas you should consider when customizing a TFT LCD for your embedded project.

1. FPC Layout and Pin Mapping

The Flexible Printed Circuit (FPC) connects your LCD module to the mainboard, and in custom designs, this interface is often the first thing to change.

Ask yourself:

Do you need a uniquely shaped or angled FPC to fit inside your housing?

Are there ICs, resistors, or other components on the backlight or CTP that require mechanical clearance?

Is your SBC’s connector pinout compatible with the LCD’s FPC layout?

A mismatch here can lead to signal errors, mechanical stress, or even damage to components.

2. Backlight Brightness and Color Temperature

Not all embedded devices live under the same lighting.

If your product is used outdoors or in industrial lighting, consider high-brightness backlights (≥800 nits). For environments where aesthetics and color warmth matter (like smart mirrors or indoor kiosks), choose the right LED color temperature:

3000K (Warm White): Soft, suitable for medical or ambient lighting

5000K (Neutral White): Balanced tone, accurate colors

6500K+ (Cool White): Sharper, more industrial feel

A poorly lit display can make a great device feel underwhelming.

3. Touch Panel Shape and Bonding Options

If your display includes a touch interface, customizing the Capacitive Touch Panel (CTP) is critical.

Typical customizations include:

Round corners, logo cutouts, button holes

Bonding methods:

Optical bonding: Improves visibility, reduces reflections, stronger seal

Air bonding: More affordable and easier to assemble

The bonding method directly impacts touch accuracy, display clarity, and long-term reliability.

4. Surface Treatments: AG, AR, and AF

For devices exposed to bright light or frequent finger contact, display surface treatments make a noticeable difference.

AG (Anti-Glare): Scatters reflected light, improving readability

AR (Anti-Reflection): Enhances contrast in sunlight or strong lighting

AF (Anti-Fingerprint): Reduces smudges, improves touch feel

Combining AG+AF is a common choice for public-facing touchscreen displays.

5. Want to Learn More?

If you’re building with platforms like RK3566, PX30, or Allwinner boards and need a reliable display solution — including driver compatibility and electrical tuning — check out our full technical article:

👉 Read the Full Custom TFT LCD Guide

You can also browse driver/device tree examples on GitHub:

📂 rocktech-tft-display-configs

Control valve supplier in Dubai

UAE Valves is one of the top Control Valve Supplier in Dubai. A control valve is a mechanical device used in various industrial processes to regulate the flow of fluids, such as gas, steam, or liquid, through a pipeline or duct. It achieves this regulation by adjusting the size of the flow passage according to signals received from a controller.

Control valves are crucial components in systems requiring precise control of flow rate, pressure, temperature, or liquid level. They are widely used in industries such as oil and gas, chemical processing, power generation, and water treatment.

Working Principle:

The working principle of a control valve is straightforward. In an industrial setting, a control valve adjusts the size of an opening to control the flow of fluid through a pipeline. When the valve is fully open, it allows maximum flow, and when fully closed, it stops the flow completely. Between these extremes, the valve can be precisely adjusted to allow a specific amount of fluid to pass through.

This adjustment is typically performed automatically based on signals from a controller, which monitors conditions such as pressure, temperature, or flow rate. Essentially, a control valve acts like a gatekeeper, regulating the flow of fluid to meet the system's requirements.

Parts of a Control Valve:

Valve Body: The main structure that contains the fluid and through which the fluid flows.

Actuator: A device that moves or controls the valve's mechanism, often powered by air, electricity, or hydraulic fluid.

Closure Element: The component that makes contact with the seat to restrict or allow flow.

Trim: Internal components such as the plug, seat, and stem that modulate the flow.

Seat: A surface against which the closure element seals to stop flow.

Positioner: A device that adjusts the valve actuator's position based on control signals.

Bonnet: The top part of the valve body that houses the stem and provides a seal.

Yoke: A support structure that holds the actuator in place and connects it to the valve body.

Stem: A rod that connects the actuator to the closure element and transmits motion.

Packing: Material that provides a seal around the stem to prevent fluid leakage.

Advantages:

Precisely controls the amount of fluid passing through a system.

Maintains the desired pressure levels within the system.

Helps maintain a stable temperature by regulating fluid flow.

Reduces energy consumption by optimizing fluid flow.

Enhances system performance by maintaining consistent operating conditions.

Prevents system overpressure and potential hazards.

Easily adjustable for various operating conditions.

Allows for control from a distance and integration into automated systems.

Designed for durability and ease of maintenance.

Ensures consistent production quality by maintaining optimal conditions.

Meets industry standards and regulatory requirements.

Industries Using Control Valves:

Control valves are used across numerous industries, including nuclear power, oil and gas, power generation, manufacturing and process industries, automotive, aerospace, mining and minerals processing, water treatment and distribution, pulp and paper, refining, marine, renewable energy, chemical and petrochemical, and steel and metal processing. These valves play a critical role in ensuring operational efficiency, safety, and compliance within these diverse sectors.

Types of Control Valves:

Three-way control valve

Cage type control valve

Double seat control valve

O type shutoff control valve

Single seat control valve

Water control valve

Globe control valve

Angle type control valve

We are a Control Valve Supplier in Dubai, supplying valves in the following descriptions:

Available Materials: Stainless Steel (SS316, SS304), Ductile Iron, Super Duplex (F51, F53, F55), Cast Iron (WCB, WCC, WC6), LCC, LCB

Class: 150 to 2500

Nominal Pressure: PN10 to PN450

Medium: Air, Water, Chemical, Steam, Oil

Operations: Electro Pneumatic Operated and Pneumatic Operated

Size: 1/2” – 24”

Ends: Butt Weld, Flanged, Threaded, Socket Weld

Electric Actuator Details:

Torque: 3 – 9 nm

Operating Pressure: 8 Bar

Port Connection: NPT 1.4”

Mounting Base: ISO 5211

Temperature: -20°C to +80°C

Configuration of a Pneumatic Actuator:

Torque: 3 – 9000 nm

Operating Pressure: 8 Bar

Port Connection: NPT 1.4”

Mounting Base: ISO 5211

Temperature: -20°C to +80°C

Temperature Ranges:

Standard: -4°F to 200°F (-20°C to 93°C)

Low: -40°F to 176°F (-40°C to 80°C)

High: 0°F to 300°F (-18°C to 149°C)

Visit us: https://www.uaevalves.com/product-category/control-valve/

From Smartphones to EVs: How the Capacitors Market Is Powering Innovation

Introduction:

The global capacitors market is undergoing a fundamental transformation, driven by the rise of intelligent electronic systems, energy-efficient solutions, and widespread electrification across industrial sectors. As of 2024, the capacitors market is demonstrating consistent and aggressive growth, with forecasts projecting it will exceed USD 47.3 billion by 2032, propelled by a compound annual growth rate (CAGR) of 6.7%. This momentum is attributed to exponential demand in electric vehicles (EVs), renewable energy, consumer electronics, and industrial automation.

Capacitors have become indispensable across sectors, evolving from simple energy storage components to sophisticated modules that ensure voltage stability, signal integrity, and energy efficiency. Emerging economies are fueling demand through infrastructure modernization and industrial digitization, while developed markets are prioritizing high-performance capacitor solutions aligned with environmental regulations and decarbonization goals.

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Evolution in Capacitor Types: Ceramic and Supercapacitors Leading Innovation

Ceramic Capacitors Dominating Market Penetration

With their compact size, cost-efficiency, and high-frequency performance, ceramic capacitors are expected to retain the lion’s share of the capacitors market—projected at over 36.4% by 2032. Multi-layer ceramic capacitors (MLCCs) are increasingly favored due to their ability to offer high capacitance in a miniaturized format, especially relevant for 5G devices, IoT modules, and advanced driver-assistance systems (ADAS).

Supercapacitors Revolutionizing Energy Storage

Electric double-layer capacitors (EDLCs) and hybrid supercapacitors are transforming grid storage and transport electrification. Offering ultra-fast charge/discharge cycles and durability far beyond lithium-ion counterparts, supercapacitors are finding increasing use in regenerative braking systems, portable medical devices, and smart grids.

Film capacitors remain essential in high-frequency, high-voltage environments, particularly within renewable inverters and EV drivetrains, whereas electrolytic capacitors retain their stronghold in power supplies, audio systems, and consumer-grade electronics.

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Material Trends: Inorganic Dielectrics Setting Industry Standards

Capacitor performance is intricately tied to dielectric material innovations. Inorganic dielectrics, such as ceramic, mica, and glass, are poised to dominate due to their thermal resilience, chemical stability, and dielectric strength. By 2032, these materials are expected to constitute 43.7% of the market share.

Organic dielectrics continue to be relevant for applications where low cost and moderate thermal tolerance are acceptable, particularly in consumer-grade circuits and compact electronic boards.

Voltage Segmentation: High Voltage Capacitors Fueling Renewable and Industrial Adoption

The high voltage capacitor segment is experiencing the fastest expansion, with a forecasted CAGR of 6.9%. These components are essential in:

HVDC transmission systems

Wind and solar inverters

EV powertrains and fast-charging stations

Grid stabilization and harmonic filtering

This growth is reinforced by global investments in clean energy, modernization of transmission infrastructure, and decarbonization initiatives requiring scalable and resilient capacitor technologies.

Strategic Industry Applications

Consumer Electronics: Miniaturization and Efficiency

Capacitors in smartphones, wearables, AR/VR devices, and smart appliances demand compactness, reliability, and precision. Increasing integration of AI and 5G in devices is accelerating the need for MLCCs that provide high capacitance in tight form factors.

Automotive: Electrification Demands Capacitor Innovation

As EV sales climb globally, capacitors are integral to battery management systems, onboard chargers, and regenerative braking units. High-temperature, vibration-resistant capacitors are critical for vehicle reliability and performance.

Renewable Energy: Enabling Grid-Level Storage

Capacitors stabilize power output and ensure energy smoothing in solar PV arrays and wind farms. Their role in microgrids and hybrid storage systems is pivotal to managing energy intermittency and supporting real-time load balancing.

Industrial and Power Infrastructure

Capacitors are fundamental in automation, robotics, smart factories, and industrial-grade UPS systems, where precise voltage regulation and high reliability are critical.

Regional Insights: Capacitors Market Dynamics by Geography

Asia-Pacific: The Global Growth Engine

Asia-Pacific commands over 42% of the global market, led by manufacturing powerhouses such as China, Japan, South Korea, and Taiwan. Government subsidies for EVs, robust semiconductor ecosystems, and infrastructure investments in countries like India are fortifying the region's dominance.

North America and Europe: Technological Leadership

These regions are driving demand for automotive-grade capacitors, military-spec devices, and green energy solutions. Strong emphasis on compliance, performance, and sustainability makes them vital markets for high-value, specialized capacitor products.

Latin America, Middle East & Africa: Emerging Opportunities

While infrastructure challenges persist, increasing adoption of smart grid technologies, consumer electronics, and industrial automation present untapped growth opportunities in these regions.

Competitive Landscape: Strategic Consolidation and Innovation

Major capacitors market players are aggressively pursuing mergers, acquisitions, and partnerships to consolidate market share and expand technological capabilities. Key developments include:

Murata Manufacturing expanding into high-performance capacitor segments via acquisition.

TDK Corporation investing in automotive-grade high-voltage ceramic capacitors for EV systems.

Samsung Electro-Mechanics focusing on ultra-miniaturized MLCCs for smartphones and wearables.

KEMET innovating in tantalum and polymer hybrid capacitors with high ripple current ratings.

Strategic Focus Areas for Market Leaders:

Advanced dielectric material research

AI-enabled quality assurance systems

Vertical integration in capacitor manufacturing

Eco-friendly manufacturing practices

Expansion of production capacity in emerging regions

Capacitors Market Challenges and Mitigation Strategies:

Regulatory Compliance and Environmental Standards

Stricter regulations on lead content, PCB emissions, and end-of-life recycling are pushing manufacturers to adopt sustainable materials and green production processes.

Counterfeit Products and Quality Assurance

Rising counterfeit capacitor components threaten OEMs. Implementing blockchain-based traceability, laser etching authentication, and AI-driven quality inspection are essential measures to preserve supply chain integrity.

Supply Chain and Raw Material Volatility

Disruptions in rare earth supply chains, especially tantalum and nickel, can jeopardize production timelines. Strategic sourcing, stockpiling, and alternative material development are key hedging strategies.

Future Outlook: Capacitors market Beyond 2030

The capacitors market is set to evolve into a cornerstone of the next-generation digital and green economy. Key transformational trends include:

Quantum computing and edge AI demanding ultra-high frequency capacitors

Flexible electronics integrating printed capacitors on wearable textiles

Energy harvesting systems using micro-supercapacitors in IoT nodes

Next-gen EV platforms requiring ultracompact, ultra-stable capacitors for fast switching

The convergence of miniaturization, sustainability, and electrification will continue to redefine product innovation and market dynamics well into the next decade.

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Conclusion

Capacitors are no longer passive components—they are strategic enablers of technological evolution across energy, mobility, and digital infrastructure. Companies that prioritize innovation, scalability, and regulatory readiness will emerge as market leaders in an industry poised for transformational growth. By aligning product development with global megatrends, the capacitors market will continue its upward trajectory and deliver solutions that power the intelligent, electrified, and sustainable world of tomorrow.

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Beginner's learning to understand Xilinx product series including Zynq-7000, Artix, Virtex, etc.

Xilinx (Xilinx) as the world's leading supplier of programmable logic devices has always been highly regarded for its excellent technology and innovative products. Xilinx has launched many excellent product series, providing a rich variety of choices for different application needs.

I. FPGA Product Series

Xilinx's FPGA products cover multiple series, each with its own characteristics and advantages.

The Spartan series is an entry-level product with low price, power consumption, and small size. It uses a small package and provides an excellent performance-power ratio. It also contains the MicroBlaze™ soft processor and supports DDR3 memory. It is very suitable for industrial, consumer applications, and automotive applications, such as small controllers in industrial automation, simple logic control in consumer electronics, and auxiliary control modules in automotive electronics.

The Artix series, compared to the Spartan series, adds serial transceivers and DSP functions and has a larger logic capacity. It achieves a good balance between cost and performance and is suitable for mid-to-low-end applications with slightly more complex logic, such as software-defined radios, machine vision, low-end wireless backhaul, and embedded systems that are cost-sensitive but require certain performance.

The Kintex series is a mid-range series that performs excellently in terms of the number of hard cores and logic capacity. It achieves an excellent cost/performance/power consumption balance for designs at the 28nm node, provides a high DSP rate, cost-effective packaging, and supports mainstream standards such as PCIe® Gen3 and 10 Gigabit Ethernet. It is suitable for application scenarios such as data centers, network communications, 3G/4G wireless communications, flat panel displays, and video transmission.

The Virtex series, as a high-end series, has the highest performance and reliability. It has a large number of logic units, high-bandwidth serial transceivers, strong DSP processing capabilities, and rich storage resources, and can handle complex calculations and data streams. It is often used in application fields with extremely high performance requirements such as 10G to 100G networking, portable radars, ASIC prototyping, high-end military communications, and high-speed signal processing.

II. Zynq Product Series

The Zynq - 7000 series integrates ARM and FPGA programmable logic to achieve software and hardware co-design. It provides different models with different logic resources, storage capacities, and interface numbers to meet different application needs. The low-power consumption characteristic is suitable for embedded application scenarios such as industrial automation, communication equipment, medical equipment, and automotive electronics.

The Zynq UltraScale + MPSoC series has higher performance and more abundant functions, including more processor cores, larger storage capacities, and higher communication bandwidths. It supports multiple security functions and is suitable for applications with high security requirements. It can be used in fields such as artificial intelligence and machine learning, data center acceleration, aerospace and defense, and high-end video processing.

The Zynq UltraScale + RFSoC series is similar in architecture to the MPSoC and also has ARM and FPGA parts. However, it has been optimized and enhanced in radio frequency signal processing and integrates a large number of radio frequency-related modules and functions such as ADC and DAC, which can directly collect and process radio frequency signals, greatly simplifying the design complexity of radio frequency systems. It is mainly applied in radio frequency-related fields such as 5G communication base stations, software-defined radios, and phased array radars.

III. Versal Series

The Versal series is Xilinx's adaptive computing acceleration platform (ACAP) product series.

The Versal Prime series is aimed at a wide range of application fields and provides high-performance computing and flexible programmability. It has high application value in fields such as artificial intelligence, machine learning, data centers, and communications, and can meet application scenarios with high requirements for computing performance and flexibility.

The Versal AI Core series focuses on artificial intelligence and machine learning applications and has powerful AI processing capabilities. It integrates a large number of AI engines and hardware accelerators and can efficiently process various AI algorithms and models, providing powerful computing support for artificial intelligence applications.

The Versal AI Edge series is designed for edge computing and terminal device applications and has the characteristics of low power consumption, small size, and high computing density. It is suitable for edge computing scenarios such as autonomous driving, intelligent security, and industrial automation, and can achieve efficient AI inference and real-time data processing on edge devices.

In short, Xilinx's product series are rich and diverse, covering various application needs from entry-level to high-end. Whether in the FPGA, Zynq, or Versal series, you can find solutions suitable for different application scenarios, making important contributions to promoting the development and innovation of technology.

In terms of electronic component procurement, Yibeiic and ICgoodFind are your reliable choices. Yibeiic provides a rich variety of Xilinx products and other types of electronic components. Yibeiic has a professional service team and efficient logistics and distribution to ensure that you can obtain the required products in a timely manner. ICgoodFind is also committed to providing customers with high-quality electronic component procurement services. ICgoodFind has won the trust of many customers with its extensive product inventory and good customer reputation. Whether you are looking for Xilinx's FPGA, Zynq, or Versal series products, or electronic components of other brands, Yibeiic and ICgoodFind can meet your needs.

Summary by Yibeiic and ICgoodFind: Xilinx (Xilinx) as an important enterprise in the field of programmable logic devices, its products have wide applications in the electronics industry. As an electronic component supplier, Yibeiic (ICgoodFind) will continue to pay attention to industry trends and provide customers with high-quality Xilinx products and other electronic components. At the same time, we also expect Xilinx to continuously innovate and bring more surprises to the development of the electronics industry. In the process of electronic component procurement, Yibeiic and ICgoodFind will continue to provide customers with professional and efficient services as always.

OURBOROS AUTOPOIESIS - extreme EFX chain feedback looper

A feedback looper that squeezes the extreme out of your EFX-chain. Perfect for 'Tone scouts', sound-designers and those who like harsh noises. An extended version of the Death by Audio - Total Sonic Annihilation 2 pedal, the METSÄÄN version has a 3 stage MODE selector that switched between 'vanilla'/ORIGINAL and boosted HIGHS or LOWS, which exponentially enhances the sonic possibilities of the original pedal and allows for dynamic frequency shifts in a harsh noise live performance, for example. But this pedal is not just god for harsh noises, but also for subtle tone experimentation, imagine a sound modulator like a delay or tremolo modulating itself in a loop. wonderful textures and abstract saturation might occur. Sometimes, you might get not much out of it and with other set-ups a plethora of unexpected sonic gems. With some EFX chain set-ups an input signal is not needed, as you can generate no-input noise scapes. A experimental sound artist's treasure trove/ pandorra's box. This feedback looper enables you to send the output of your EFX-chain back into it's input, in NORMAL mode, you control the the amount with only the FEEDBACK (Note: this pot works counterclockwise) pot, but in the ACTIVE (indicated by a ultraviolet LED) mode you get hands-on control of GAIN, FEEDBACK, PHASE, FREQUENCY MODE and of course final OUTPUT LEVEL (to tame the potentially destructively loud signal.). The 4x 6.3mm mono sockets on the back side of the pedal are from left to right (when pointing away from you): OUTPUT, RETURN, SEND, INPUT. When the TRUE BYPASS (indicated with a green LED) is engaged, your signal still goes through your EFX-chain in the loop. The Power input is for 'boss-style', center negative 2.1mm DC plugs, that are pretty standard for EFX-pedals it needs 9V DC (PSU not included). Build into a standard die-cast aluminum enclosure individually painted in the the burned out industry camo pattern in chrome and black. Handmade by GRM for METSÄÄN. Buy here. (link to webshop)