The RISO VALEZUS T2100 high-speed duplexing cutsheet inkjet device can achieve up to 320 color impressions per minute, with full VDP capability.
An ideal solution for high-volume transactional printing as an affordable entry into production inkjet color or as a reprint, short-run or backup solution for larger print facilities.
The VALEZUS T2100 utilizes twin cut sheet inkjet printer engines, creating a system where both sides of the duplex document are printed in a single pass. RISO’s patented FORCEJET™ Technology and a unique five-color ink matrix delivers an exceptional gray scale print quality, truer reproduction of flesh tones, and denser blacks. The T2100 produces crisp, high-quality VDP output at high speed.
Stable paper feeding ensures the reliable performance necessary for high-speed printing. Paper-feed speed is intelligently controlled, according to how much ink is emitted from the print head. Multiple sensors help ensure high levels of reliability. Instant-drying ink complements the high-speed, duplex printing capability. This specially developed, oil-based ink is also fade-resistant and water-resistant, and minimizes paper curling.
The VALEZUS T2100’s compact design makes it one of the smallest production inkjet printers on the market, eliminating the need for expensive and time-consuming building modifications.
VALEZUS T2100 uses a fraction of the energy of any comparable speed cutsheet inkjet press. The heatless imaging process requires no additional cooling process or air conditioning minimizing utility costs.
Print Type Line-type inkjet system (drop on-demand)
Ink Type Oil-based pigment ink (Cyan, Magenta, Yellow, Black, Gray)
Print Speed Simplex: 160 ipm, Duplex: 320 ipm (A4 LEF/Letter LEF)
Print Resolution Standard
Black: 600 dpi x 600 dpi
Cyan, Magenta, Yellow, Gray: 300 dpi x 300 dpi
Fine
Black: 600 dpi x 600 dpi
Cyan, Magenta, Yellow, Gray: 300 dpi x 600 dpi
Data Format AFP/IPDS, PDF, PS
Supported Protocols TCP/IP
Network Interface Ethernet 1000BASE-T, 100BASE-TX, 10BASE-T
Color Management Resources ICC Profiles, device links, linearization curves