Scratch resistant surface!
New and improved 'High Saturation' formula
- Capacity: 4.7 GB
- Speed: 16x
- Model No: 5060158312504
- Surface: White inkjet printable, for all inkjet printers.
- Dye: Purple, azo based
- Hub Printable: Yes, full surface
- Packaging: shrink wrap
- Carton Quantity:100
- Box Quantity: 600
Features Acu-Disc®s famous scratch resistant inkjet printable coating
Quite simply the best blank DVDR available for use with your DVD copier. Using the combination of the expertise employed in manufacturing the Acu-Disc® CDRs and Blu-Ray Discs, these DVDRs are made with the same optical grade polycarbonate on high quality Japanese moulds.
Finished in the same tried and tested scratch resistant inkjet printable coating as the Acu-Disc® White Inkjet CDRs, these full surface white inkjet DVDs produce fantastic results every time.
ACU DISC have become the UK's best loved manufacturer of both thermal and Inkjet printable Blu-Ray Discs, Blank DVD-R and Blank CDR optical media. This is due to two clear principals; develop high quality products for the professional disc market and ensure that this manufacturing quality is consistently achieved throughout all product lines
ACU-DISC® are so confident in the quality of their blank optical media they produce, that they are the very first manufacturer of optical discs to offer a Satisfaction Guarantee. Whether you use a CD/DVD & Blu-Ray copier, printer or publisher, ACU-DISC® have the perfect disc for you.
Cyanine recording dyes
DVD-R is a "write once" technology that can be used in DVD-RW recorders and read by nearly any computer DVD drive or DVD player. DVD-R media uses only cyanine recording dyes which appear violet on the recording side of the disc.
The laser of your DVD-RW drive heats the dye to a temperature of about 200 C, irreversibly melting a pitted pattern into the recording layer. A plastic layer alongside the dye expands into the newly available space creating a pit pattern similar to that of a conventional DVD. Your DVD player reads this highly reflective pattern for playback. Because the plastic layer melts into the dye layer to set the pattern, DVD-R discs cannot be re-recorded.
Unlike a stamped DVD, DVD-Rs are manufactured with a spiral groove (like a phono disc) called the pregroove. It provides a precise track for the writing laser to follow. A DVD player depends on following the recorded track of pits in order to track the spiral path.
A slight wobble in the pregroove in a pre-established pattern generates a frequency used as a carrier signal; the timing information helps regulate servo motors, tracking of the laser assembly, and focus of the beam. Land pre-pits molded into the substrate provide address information and pre-recorded data, used to initiate write operations.
The larger storage capacity of a DVD-R compared to a CD-R is achieved through a smaller pit size and smaller track pitch of the groove spiral which guides the laser beam. Consequently, more pits can be written on the same physical sized disc. In order to write smaller pits onto the recording dye layer a red laser beam with a wavelength of 650 nm (for general use recordable DVD, versus a wavelength of 780 nm for CD-R) is used in conjunction with a higher numerical aperture lens. Because of this shorter wavelength DVD-Rs use different dyes from CD-R to properly absorb this wavelength.
DVD-R discs are composed of two 0.6 mm polycarbonate discs bonded with an adhesive to each other. One contains the laser guiding groove and is coated with the recording dye and a silver alloy or gold reflector. The other layer is an ungrooved "dummy" disc to assure mechanical stability of the sandwich structure and compatibility with the compact disc standard geometry which requires a total disc thickness of about 1.2 mm.
Two methods are typically used to bond the two substrates together:
- Hot-melt method: A thin coat of melted adhesive is spread over each substrate and then the two surfaces are bonded by means of a hydraulic ram.
- UV method: A thin layer of lacquer is distributed over the disc surface to be bonded, either by rotating the disc or through silk screening. Ultraviolet light is then applied to harden the lacquer.
The sandwich structure also helps protect the data containing layer from scratches by the thick "dummy" disk. Compared to a CD's 1.2 mm of polycarbonate, a DVD's laser beam only has to penetrate 0.6 mm of plastic in order to reach the dye recording layer, which allows the lens to focus the beam to a smaller spot size to write smaller pits.
DVD-R recording requires a more complex write strategy to establish the appropriate lengths for the pits, which are approximately half the size of those on a CD-R disc. The spacing between the pits and lands within the spiral data pattern is also significantly less than on a CD-R disc.
To compensate for the extra precision required during write operations, the laser pulses are very carefully controlled, both in terms of intensity and duration. During recording, the laser is rapidly modulated between the power setting required for writing and the setting used for reading to avoid overheating the media surface and to regulate the size of the mark seared in the dye.
A technique known as Optimum Power Calibration (OPC) is used to perform test write operations to a specified calibration area on the recordable media surface and then to read back the test and adjust the laser power settings to match the recorder to the media. Given the extra precision required for recordable operations using DVD-R, this feature becomes a highly desirable addition to any recorder and helps ensure the most consistent results when performing disc recording.