Epson
began as a watchmaker Seiko Epson Corporation, Japan. Epson was founded in 1961 to produce precision parts for Seiko watches, and then they said Shinsu Precision Manufacturing Company.
Epson first attack of the printing and imaging has been the Tokyo Olympics in 1964. The company won a contract to develop a precision timers for the games. The printer they designed for the Olympic Games – EP101 is where Epson is named! He was one of the first electronic computers printers hit the market. This was the beginning of the journey to the Epson printer and imaging.
The TX-80, the first Epson dot matrix printer on the market in 1978, then in 1984 came the first inkjet printer SQ 2000. The TM-930 launched by Epson PC-POS-printer package for life in 1990 has a new store in the printing. Epson has a number of printer first in the world, including Epson Stylus 800 – is an inkjet printer with Micro Piezo technology began in March 1993, provided, then the inkjet Epson Stylus Color May 1994, the first color printer 720 dpi.
September 1998 saw the launch of its first TM-H5000 printer hybrid that quickly once quiet printing and copying.
ink The Epson UltraChrome K3 resin ink high density pigment coated. It comes in two types of black & white and color. It features a large color space for both species. The range consists of black and three shades of black, black, light black and light light black. The color palette consists of the standard cyan, light cyan, magenta, light magenta and yellow. Oh, and it has two modes-user replaceable photo black ink, matte!
will now ask what is so special about UltraChrome K3. A simple comparison between the process of conventional toner manufacturing process and UltraChrome K3 is the question – answer by toner were traditional grinding toner particles mechanically produced on the smallest particle size that can be achieved mechanically, is now The big disadvantage here, and therefore energy costs. Wondering how the energy is in the image. The process is mechanical and is under pressure requires a significant amount of energy and the grain size, the more energy needed and energy is expensive!
The second drawback is that the particle size is not uniform and can not be checked again because the process is simply a process of mechanical grinding is!
The two above disadvantages are overcome in the process of manufacturing UltraChrome K3. The process is a chemical process, energy is negligible. The resin is in a water-based environment, where the particles allowed to grow in a controlled environment to be placed. Once the particles reach the desired size, they are removed from the environment and processed to give the UltraChrome K3 ink! Sounds easy, right? However, the process is not as easy as it sounds!
The benefits for customers:
and energy costs are the benefits of conservation Epson, benefits have to get customers. At the end of the day, customers would be very happy if they want to buy “the system” are.
* High-density pigments for a wide range of colors assessments
* Professional print permanence for quality print truly sellable />
* High-Gloss Crystal Micro Encapsulation technology for reduced gloss differential
* Superior scratch resistance from pigments and resin < , br /> * chemistry Color is stable immediately after printing – no short-term
color change into three stages of black ink
* Technology uses the same black , light black, light light black inks and
* Impressive midtones and highlights a smoother tonal range
Two User Exchangeable Black Ink Modes
Two specific black ink modes – Photo Black or Matte Black
; optimizes black ink density for various types of Media vastly improving the quality of final print
It is, of course, Epson, that like all other top brands on the market encourages its customers only real Epson ‘ Epson ink and media use to obtain optimal results. He says the inks and media are made to work hand in hand to achieve optimal results compared to their competitors!