Mitsubishi Imaging to Introduce Processless DigiPlate System, PDP-VL at GRAPH EXPOAugust 26, 2010
RYE, NY—08/26/2010—For many years small and medium size printers world-wide have been using Mitsubishi Paper Mills’ plate-making solutions to successfully grow their business and increase their profitability. In fact, Silver DigiPlate systems have become synonymous with compact, fast, ecological and economical CTP. At GRAPH EXPO 2010, booth 224, Mitsubishi Imaging (MPM), Inc. will present, the next generation of DigiPlate, the new Processless DigiPlate system, PDP-VL.
Processless DigiPlate (PDP) System
The Processless DigiPlate (PDP) system is a true chemical-free plate-making system consisting of the PDP 6-VL platesetter and the new PDP-VL polyester or paper based plate material available in roll format in various thicknesses. The new violet sensitive PDP-VL plates use a polymer cross-linking technology that does not require any chemical processing to create the image area. The integrated plate washing system requires only water for rinsing. This unique integrated plate requires no pre-heating at the imaging or wash-off stages and no gumming.
Mitsubishi’s new Processless DigiPlate system, PDP-VL, with its small foot print, chemical-free plate production, high speed output and low-energy consumption provides commercial offset printers a fully automated, environmentally friendly CTP system. And with a maximum resolution of up to 3000dpi and 200lpi, PDP-VL guarantees the highest quality offset printing for run lengths up to 20,000 impressions.
“We are very excited to expand on our line of quality ecological and economical CTP solutions with the release of the PDP-VL system,” said Colleen Molkenbur, Senior Product Manager for Graphic Arts at Mitsubishi Imaging. “Especially in these tough economic times, small and mid size printers need to know there are solutions designed to fit both their needs and their wallets. PDP combines chemistry-free plate production with the off-set quality and affordability of our proven Silver DigiPlate CTP solutions. It’s a win-win for the high quality small and mid-size offset shops.”
Processless DigiPlate will be available for commercial release and sale early 2011.
Thermal DigiPlate (TDP) System
Also on exhibit at GRAPH EXPO, is the Thermal DigiPlate (TDP) system, a processless and chemical-free CTP system for single and spot color printing. This paper based plate-making system produces plates without any processing consumables, such as chemistry, toner, liquid ink or carbon ribbons. The thermal printing head can image up to 75 plates per hour at 1200dpi. The Mitsubishi Imaging TDP system received the Technology Award from the Society of Printing Science and Technology in Japan in 2009.
Grace Pearlescent Inkjet Media
Mitsubishi Imaging continues its innovations in ink jet media with the introduction of its Grace Pearlescent Photo Paper, the first of its kind metallic inkjet photo media. Grace Pearlescent features a unique metallic surface finish, similar to silver halide metallic photo papers. Grace Pearlescent offers exceptional image clarity, and brilliant color reproduction, with a high gloss metallic finish. Grace Pearlescent is ideal for high quality photo reproduction, professional and commercial photo applications, and graphic display and signage uses.
About Mitsubishi Imaging (MPM), Inc.
Mitsubishi Imaging is a leading provider of state-of-the-art imaging products, manufactured by Mitsubishi Paper Mills, Ltd., and of technical expertise to printers in both North and South America. It supplies innovative and ecological CTP solutions to the printing industry, incorporating the benchmark SilverMaster® and Silver DigiPlate; plate materials, and its next generation of processless DigiPlates. Mitsubishi Imaging also provides the widest range of inkjet media to meet any high resolution imaging need, and offers its branded Diamond Jet, Diamond Proof, Pictorico and Grace Drylab inkjet substrates for proofing, photo and poster printing applications. Visit www.mitsubishiimaging.com for more information.