Epson precisioncore vs micro piezo

When considering what printer to buy, understanding what type of printhead is used can help you to make an informed decision. There are two main types of printhead technology, using either heat or a Piezo element.

The next generation of inkjet, today. Take an exclusive, behind-the-scenes look at the fully automated Epson printhead production in Japan for a rare glimpse into the advanced technology behind PrecisionCore. Designed for the purpose of dye-sublimation and direct-to-garment printing, Epson's F-series textile printers are powered by our revolutionary PrecisionCore printhead technology that enables fast, high quality and reliable printing. PrecisionCore technology represents a leap forward in printing performance. With the flexibility to deliver high-speed solutions for commercial, industrial and office printing, PrecisionCore enables superior output quality and durability on the widest range of media. These print nozzles are capable of producing a wide variety of droplet sizes with ultra-precise control of dot size, shape and placement, enabling both fine detail and quick filling of larger areas—all at a single pass. PrecisionCore printhead technology takes full advantage of its piezo characteristics to keep working reliably.

Epson precisioncore vs micro piezo

PrecisionCore is a next-generation inkjet printing technology created by Epson. It achieves excellent image quality even as it greatly boosts print speed. In addition, it significantly expands the range of inks that can be used and materials that can be printed. PrecisionCore was created by merging high-precision MEMS fabrication processes, thin-film piezoelectric TFP technology, and more with Epson's inkjet technology and experience accumulated over many years. PrecisionCore technology brings inkjet printing to a new level. Digital printing with inkjets in recent years has focused attention on on-demand printing and a wide range of applications. Inkjets are increasingly serving in many types of industries and uses. To give one example, conventional analog printing, often in the form of offset printing, requires a printing plate to be made. That takes additional time and cost. With people's needs changing faster every year, there is a growing demand for small-lot, high-mix printing. Digital printing with inkjets is growing correspondingly since no printing plate is needed. The shift from analog to digital printing with inkjets is already underway in certain fields where the supply cycle is short and there is a great deal of variety: photos and proofs, signs and posters, textiles, and labels. With no need for printing plates, digital printing can fill on-demand orders and users do not need to worry about inventory.

That takes additional time and cost. Artisan Studio Awards Keeping tradition alive.

While form-factor designs and features come and go, the actual printing equipment — whether laser or inkjet — stays fairly constant. But printer companies are starting to make some noise on the inkjet front. So, what does all that tech jargon mean? Based on piezoelectricity, an electrical charge is applied to the print nozzle to push the ink through versus heat used in thermal inkjet printing to boil the ink. Epson says this tech allows for ink to be dropped more precisely, and it can control the size of the drops. MEMS, in this context, refers to the manufacturing of very small devices.

Epson's inkjet printing technology is used in home, office, and commercial and industrial printers. Since our printing systems form images by directly depositing microscopic droplets of ink on sheets of paper or other media, they generate virtually no waste ink, are far superior to analog and laser printing systems in terms of the environment and efficiency, and can theoretically print on almost any medium. Let's look at the Micro Piezo inkjet technology that powers every Epson inkjet printer. There are two main ways of ejecting ink from a printer. The first is thermal technology, which uses a heater to heat the ink and form bubbles that cause the ink to be ejected.

Epson precisioncore vs micro piezo

Epson's inkjet printheads enable fast, high image quality printing thanks to their superb ink-ejection performance, compatibility, and durability. Particularly impressive is PrecisionCore, which prints even faster and with even greater image quality. We interviewed Shunsuke Watanabe, who played a leading role in developing PrecisionCore. We talked about what makes this printhead so special and about its potential to serve in a wide range of applications across different business fields. We also discussed the inspiration behind the project and the project's future outlook. Watanabe Epson's inkjet printheads are piezoelectric. They use Epson's proprietary Micro Piezo technology to achieve superb ink ejection performance, compatibility, and durability.

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This field is required. Unique to Epson, Micro Piezo provides superb print quality and is a technology that our competitors still find hard to match. MEMS Fabrication Technology Builds mechanical components, sensors, actuators, electronic circuits, and more on a single silicon substrate with sub-micron precision. Les Shu. PrecisionCore print head technology was developed with an eye for detail, to deliver a reliably superior output for your business needs, so that you can focus on the bigger picture. Smart Manufacturing. The world of commercial and industrial printing is transitioning from volume production and consumption toward customization and short-run production. Related categories : Printer Mechanical technology Electrical and electronic. Your Purpose Contacts Japanese Global. For example, in addition to the commercial and industrial fields, Epson printheads are gaining traction in new manufacturing applications in areas such as bioprinting. This scalability enables the quality and precision that Epson is renowned for, in products ranging from desktop printers to large-scale industrial systems.

PrecisionCore is a next-generation inkjet printing technology created by Epson. It achieves excellent image quality even as it greatly boosts print speed.

Your Purpose Contacts Japanese Global. Technical highlights. Ready to know more? Service Email: Calllog epson-india. Thin-Film Piezoelectric Technology Fabricates piezoelectric elements on silicon wafers by depositing uniform, homogeneous films a mere micron in thickness. Achieve sophisticated images Our nozzles are different - each nozzle can produce up to five different size droplets. Things like high-end presses, large format printers and sophisticated projectors. This technology is currently being used to print on more than just paper and fabric. Can you picture the player trying to aim for a point inside that goal - the size of the ball itself? MEMS, in this context, refers to the manufacturing of very small devices. In addition to home and office inkjet printer products, our technology is used in a variety of industrial applications, including the printing of posters both large and small, signage, textiles, labels, photos, and much more. Take an exclusive, behind-the-scenes look at the automated Epson print head production in Japan for a rare glimpse into the advanced technology behind PrecisionCore. Quality not quantity Don't be fooled into thinking that more nozzles equals a better printer. I have read and agreed to the Privacy policy of Epson. But ours is based on crystal technology squeeze certain crystals, such as quartz, and you can make electricity flow through them , specifically piezo crystal.