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The indigo
E-Print is a combination of the copier and an offset
press. The "printing" plate is an photoconductor
that receives an image electronically through a
computer RIP. The image is then "toned" by a fluid
ink, one ink at a time. Six colors are available,
the four process colors plus two special spot colors.
The photoconductor then transfers the ink to a heated
offset blanket which in turn transfers the ink to
the substrate and the process is repeated. The heated
blanket drives off the solvent in the fluid ink/toner.
indigo
prints one color at a time. The indigo can
perfect (Duplex) as well. Each turn on the photoconductor
can produce a new image so each page (single color)
can be a "new page." Indigo can bind (stitch) and
group for a completed publication or do a single
page at a time. The indigo, however, requires a
special coating on the paper on the paper used.
The coating is known as a "Sapphire Coating" which
can be done by Indigo. Maximum sheet size for the
sheetfed version is 12.5"x 18.3"(A3 Max.). Maximum
output for an 8.5"x 11" sheet is 500 sheets per
hour at a resolution of 800 dpi (150 lpi).
indigo has also develpod a web version which
has also developed a web version which is known
as the "Omnius." This press was developed for on
demand, high quality full color printing for fl
exible packaging applications. Web speed is 120
ft/min with a maximum image size of 11" x 17". Like
the sheetfed version, the Omnius must print one
color at a time to produce up to 6 colors. Outside
the fact the Omnius prints on a web, the mechanism
is identical to that of the sheetfed version.
 The
Xeikon process is actually two color copiers that
can duplex (perfect) both sides at once. The system
prints magenta, cyan, yellow and black to produce
four color images. The system uses the electropho-tographic
process but prints from rolls and not sheets. The
Agfa Chromapress, Barco Digipress, Xerox Docucolor
70 and the IBM Info 70 are near identical machines.
At this time, most have qualified papers approved.
The roll sizes for the Xeikon, Agfa and Barco systems
is a 12.6" wide roll, 16" diameter on a 6" core.
The IBM version, however, has been retro-fi tted
with a larger backstand to contain a 50" diameter
roll on a 3" core 12.6" wide. Xeikon has recently
announced the new 32D and 32S version. This new
version now has a units after the heater to gloss
up the ink. The "D" version is a duplex system where
as the "S" version prints only one side. The "S"
version is a dedicated label press. There is also
now a 50 cm (19.7") wide version available doubling
the output. A packaging version is also available
in a 5-color configuration.
Once
the copying process is completed, the web travels
through a infrared dryer to fuse the toner. The
web is then cut into individual sheets.
Xeikon
receives information through a computer and RIP
(Raster Image Processing) system, like the Indigo.
These electronic printing systems can be thought
as nothing more than very sophisti-cated "laser"
or computer printers.
- The
32D Xeikon uses a roll measuring 12.6" Wide, 16"
diameter on a 6?core; the 50D uses a 19.7" wide
roll with the same diameter and core size as the
32D.
- Speed
is 2100 (A4 size) sheets per hour, duplex
- Page
length variable up to 106.3"
- LED
imaging with 600 dpi and up to 64 graylevels per
basic dot per color.
- Other
similar systems (using the Xeikon print engines)
include:
- Agfa
Chromapress
- IBM
Infocolor 70
- Barco
Digipress
- Xerox
Docucolor 70
Electronic
The newest short run color press on the market,
as announced at DRUPA95, is Heidelberg'sQuickmaster
DI-46-4 digital offset press. The Quickmaster DI
takes its conception from the older Heidelberg GTO-DI
press. The Qucikmaster DI is a press with a master
dependent digital printing process, i.e.: copies
with constant high quality are made at high speed
from a print form. The press is waterless and is
driven by a computer system. The press is unique
in that, unlike the older GTO-DI, the four printing
units are centered around a common impression cylinder
that reduces space requirements.
After a job has been assembled in a program like
Adobe Pagemaker, the job is then prepared in the
TIP (Raster Image Processor) of tea Quickmaster
DI and then deposited in a page buffer at the printing
press. The operator can then select the printing
job on the screen and start the print preparation.
After the cycle has been started, the waterless
offset plates are renewed in all four printing units.
This occurs with a revolutionary system in which
the plates are fed off a supply roll inside the
plate cylinder. At the same time the printing foils
of the previous job are wound onto the "take-up"
roll. All this happens in all four printing units
in a few seconds. The roll of plate material is
sufficient to do up to 35 print jobs, and the roll
can be changed easily.
Imaging, via Presstek's Pearl Laser, is approximately
6 minutes for 1,280 dip and 12 minutes for 2,400
dpi (150 lip). The whole process is fully automatic
at the push of a button. The plate mate-rial is
similar to the older GTO-DI and made up of a polyester
base with a silicone overlayer. The press has one
feature not found in any other quick printing device.
It uses any kind of paper from 100% recycled to
high quality coated. This is because the process
uses standard waterless inks with the waterless
offset pro-cess.
Short
color jobs as low as 500 impres-sions, at 10,000
impressions/hour are possible (one side at a time).
While the Quickmaster is much faster than the Indigo
or Xeikon, it can only print one side at a time.
MAN
Roland Dicoweb - CTPress
Entering also into the digital arena is MAN Roland
with its Dicoweb or Digital Change over Web Press.
The Dicoweb or CTPpress (computer to plate press),
is a digital web press which can image on or off
line. The Dicoweb uses lasers and a thermal ribbon
to create images on a removable cylinder that are
then printed by the normal lithographic process.
On the press the four, or more, printing units are
equipped for one-step imaging through direct thermal
transfer process. All plate cylinders are equipped
with an hydrophilic metal sleeve that needs to be
replaced only in case of damage or wear. Varying
cutoffs will be available and the press will be
is avail-able in a half web confi guration (25"
+/-). The average run will be 10,000 impressions
with the upper limit at 50,000 impressions.
The blank plate cylinder is imaged by a laser directly
from the data thermal ribbon. The thermal material
is then transferred to the plate cylinder. The thermal
material transferred becomes the image or printable
area. As the Plate cylinder is hydrophilic, the
non-image areas will receive fountain solution keeping
the non-image areas of the plate and print area
clean. Once printing is complete the image material
on the plate cylinder is removed, or cleaned off,
and the cylinder reimaged for the next job. The
process of imaging, printing, clean-ing and re-imaging
is a continuous process allowing for quick change
over high productivity. Resolutions up to 2400 dpi
are possible and the size of the imaging dot is
11 µm. Change over time for cleaning and imaging
will be approximately 10-15 minutes. The process
may also be done off line by imaging the direct
thermal ribbon and then mounting it on the press
and transferring the thermal material to the plate
cylinder.
The press
configured below shows 4 printing units, however
the press can be confi gured in as many printing
unit the customer wants. Coating stations, punching/perforating,
UV/EB ink systems, etc. will be also available.
This press would be ideal for short run labels,
postcards, letterheads, books, etc. As shown in
the below diagram, the press is a web heatset unit
printing rolls and cutting into sheets. While not
on the market yet, it is anticipated that MAN Roland
will enter into the digital press world very shortly.
Another nice feature will be that the press will
use any kind of paper! MAN Roland will target this
press to the short run web and higher run sheetfed
market.
A joint
venture between Scitex and KBA to introduce their
digital press - the 74 Karat. This press features
some unique technology and a strikingly different
configuration. It uses a digitally exposed waterless
offset plate (currently from Presstek) and fall
in the same direct-to-press category as the Heidelberg
Quickmaster DI and the Omni-Adast DI series. This
press is a 20.5" x 29" and is rated at 10,000 sheets
per hour. It is a highly automated offset press
featuring computer-to-onpress platemaking. There
are virtually no press adjustments to be make, which
means that the press is "dumb," controlled almost
entirely through prepress functions.
This
approach is made possible, in part, through the
use of a keyless, self-calibrating ink system that
uses a full form diameter anilox or gravure-type
cylinder. Dubbed "Gravuflow" by Scitex/KBA, the
system is simple, but appears to noticeably reduce
waste while producing good solids, a precise dot
structure and repeatably consistent printing.
Goss
Graphic Systems demonstrated, at the 1996 Print
'97 Show, a single-color unit of a 22-inch wide
variable cutoff press. The press features a digitally
imaged and eras-able cyinder and single fluid technology,
which eliminates the use of a dampener. The press
also is equipped with gapless image and blanket
cylinders and shaftless/gearless individual cylinder
drives. Known as either the Automated Image Makeready
(AIM) web press or, more formally, as the Advanced
Digital Offset Printing Technologies concept Press
(ADOPT/CP), the unit employes a laser and printing
cylinder coated with chemicals to form an imaging
system that is erasable. Erasable it may be, but
it is not intended to produce variable images.
The Concept
press uses traditional offset materials with no
special ink or paper requirements. The laser exposure
writes an erasable copper image from solution onto
a nickel-crystal coated cylinder to form a traditional
ink/water lithographic surface. Printing cylinders
- or what passes for reusable plates - can be imaged
on or off press.
Goss
has long been a proponent of single fluid lithography,
but Print was the fi rst public showing of this
technology. In and water are mixed in a compact
unit on the press and fed to the inking roller train,
which separates the two fluids at the last roller
under a preset shear force. This allows the ink
and water to be used on the plate in the normal
way. A continuous fresh ink/water emulsion layer
is metered out for every image cylinder revolution.
The system is keyless, which, like the previously
described Scitex/KBA inking system, puts the onus
on the prepress function for achieving correct inking.
Kodak
and Heidelberg have also formed a venture to develope
a non-impact digital printing solution. It would
seem that the goad is to design and market a "digital"
press that can handle high volumes and variable
data. Most likely no announcement will be herd before
DRUPA 2000.
Technology
on the Horizon
New digital press equipment on the horizon include
Screen's True Press. This press uses conventional
inks and a continuous feed dampening system. The
True Press is a fixed image digital press using
a flexible polyester plate material, such as Mitsubishi's
Silver Digiplate, fed from a cassette onto the plate
cylinder. As shown in the diagram to the left, the
press uses a "split" cylinder arrangement. In this
arrangement, the plate is imaged for two colors,
in this case, magenta and black. After exposure,
the plate is processed in a developing apparatus
that is located directly underneath the plate cylinder
position. After processing, the first plate cylinder
is moved down into the printing position where it
will make contact with the first blanket cylinder.
This process is repeated by moving the second plate
cylinder up into the imaging position where, after
plating, an exposure is made (cyan and yellow).
After processing, this cylinder is returned to the
printing position where it comes into contact with
the second blanket cylinder. All ink key information
is fed from the pre-press digital data. 
To print,
the images are transferred to the two blanket cylinders
and a central impression cylinder is used in the
transfer process of 4 colors to the paper. The press
can print at a rate of 4,000 impressions per hour
for four color (one side) work. An optional "perfector"
unit is available to allow the press to print two
colors on each side (2 over 2). If only printing
one or two colors, the top press speed is 8,000
impressions per hour. Plate loading and unloading,
imaging, developing, fixing, ink key setting, blanket
cleaning and printing pressure adjustment are done
automatically without operator intervention. As
this press uses conventional inks and a dampening
system, any kind of paper can be used. Heidelberg
has introduced the Speedmaster 74-DI. This press
is characterized as a fast make-ready, short-run
press.
Heidelberg claims change over times of less than
11 minutes! This includes the removal of the old
plates, imaging new plates, mounting, wash-up, etc.
Like its conventional counterpart, the Speedmaster
74-DI is a 20 x 29-inch four-page format press with
a maximum speed of 15,000 sheets per hour. Imaging
of the waterless plates will be accomplished by
Creo thermal imaging heads. Unlike previous DI models,
which use waterless technology, the SM 74-DI prints
with conventional inks and fountain solution. It
can print with offset press-made plates, as well
as in the on-press direct-imaging mode. The SM 74-DI
will be available as a four, fi ve or six-color
machine with in-line coating and perfecting as options.
While "digital" the press will be able to print
on any kind of paper from low end unocated to high
end coated.
Technology
on the Horizon
Would Gutenburg roll overin his grave?
"We don't
need no stinkin paper?" is the call from SoftBook
Press. No paper you say? Well, SoftBook Press is
pushing that concept with its new electronic book
that they call "The SoftBook." We have seen 3-Com's
electronic PalmPilot make major strides in the organizer
market replacing the traditional paper organizer.
Now SoftBook is trying to do the same with an electronic
book. Publishers see this technology as a new way
to boost profi t margins by reducing bloating costs
for printing, paper, marketing, storing acres of
books in warehouses, etc.
SoftBook
will be introducing their "SoftBook" to
the consumer market shortly. The new electronic
book will weight all of 3 lbs and be about the size
of Glamour magazine. The "book" will come in a leather
cover that opens like a hard cover book. When open,
the user will be looking at a touch sensitive screen
that will display in black and white. On the perimeter
of the screen will be four buttons to control the
features of the "book." One button will bring up
a menu, another a list of books and articles stored
in the book, another to go back a page and the other
to go forward and back a page. The reader will be
able to create "bookmarks" to save places in the
book, mark up pages and even search keywords in
the book. The book will operate on a rechargeable
battery.
OK, you
have SoftBook but how do you get the content? Using
the touch screen and connecting via phone line through
the Internet to SoftBook Publishing, you will choose
and download the book of your choice. The SoftBook
can hold up to 100,000 pages. Once a book is paid
for and downloaded you can re-download at anytime.
You can keep several books in the SoftBook as only
the amount of pages, hence memory, is the limitation.
How much does all this new technology cost? When
Soft-Book hits the market it will cost $299 retail.
Buyers will then have to buy at least $9.95 worth
of products each month for two years from SoftBook's
on-line bookstore. This pushes the overall cost
for the two year period up to around $540! SoftBook
will target, initially, those readers who read high
volumes of books such as college students, who typically
have to lug around numerous fat textbooks, etc.
Another
electronic book on the horizon is the Rocket eBook
which was created by the designer of the PalmPilot.
The eBook is smaller, simpler and, on the inside,
more technologically advanced than the SoftBook.
The eBook will have more in common with the PalmPilot
than the SoftBook. To purchase a book, the user
would plug the eBook into their computer, connect
via the Internet to any on-line bookstore and download
the book of their choice to their computer and then
finally into the Rocket eBook. The eBook can hold
around 4,000 pages and old books downloaded can
be stored on your hard drive (or any other storage
device). If you lose or want to re-read the book
you can relink it to your eBook.
Technology
is ever changing. Years ago many would have never
believed we would be using elec-tronic organizers
but today they are becoming more common placed.
Is the electronic book for everyone? Probably not
but there will be many the need fits the bill. It
was only a matter of time before the computer would
try and replace the printed book. The publishing
industry is in constant change not only from the
new electronic books but with the on-line bookstores
such as Amazon Books (www.amazon.com), Borders (www.borders.com)
and Barnes & Noble (www.barnes&nobel.com).
This is a fascinating time which clearing moves
at a rapid pace with no end in site.
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