CIELAB HLC Colour Atlas available in the Proof.de Shop

It has taken almost a year, but we are all the more pleased now: The “CIELAB HLC Colour Atlas” is completed and can be ordered in our shop. The HLC Colour Atlas is a open source, high-precision colour system based on open standards.

The CIELAB HLC Colour Atlas offers professional users of colour three decisive advantages:

  • The CIELAB HLC colour atlas is based on open, non-proprietary standards that are free of copyrights and trademarks.
  • The colour atlas with all components is available to all users free of charge online and can be downloaded, used and passed on directly.
    It is released under an OpenSource Creative Commons license.
  • The printed reference of the CIELAB HLC colour atlas impresses with outstanding precision and, unlike some commercial products, the colour accuracy is extremely high with a DeltaE00 median of 0.3 and an average DeltaE00 of 0.5. In most cases, the deviation from the ideal colour reference and colour differences between two colour atlases can be measured, but not perceived by the human eye. Each atlas is produced on our best Fogra-certified high-end proofing printer on Fogra-certified paper. Each copy is delivered with an individual, colorimetric test report in accordance with ISO 12647-7:2016 to document the color accuracy of each individual color atlas.

The atlas consists of the following components:

  • A printed colour atlas master reference (A4, ring binder) with 2040 colours, based on the intuitive HLC colour model (Hue, Lightness, Chroma), with shades of 10 between the individual colours. This also includes colors that are not reproducible in normal CMYK workflows (jewelry colors). This component is produced with the greatest care in Tübingen. The colour atlas contains an introduction and instructions for use in German or English.
  • A free PDF-Master version of the color atlas, which also displays numerous other color spaces such as sRGB, Fogra39, Fogra51 and 52 etc. via layers in the PDF file.
  • Color palettes with all 2040 LAB values for Adobe software in ASE format. We provide this library in a timely manner also in the SBZ format of Swatchbooker as well as in sRGB versions for LibreOffice (SOC), GIMP (GPL) and Scribus 1.4. x (XML). Scribus 1.5. x already contains the SBZ-file and a sRGB-version is shipped with LibreOffice since version 5.4.4.4, as well as with the current stable version Scribus 1.4.6.
  • A table with color conversion values of all colors of the atlas according to sRGB, HEX and ISOCoatedV2 in two rendering intents.
  • Spectral data of all color fields in a CxF v. 3 file containing the color data of all color fields in spectral values. This file enables, for example, paint manufacturers to use all colours of the atlas with high precision spectral spectral data or to create their own reliable references – open source and without licensing fees. For example, an ink manufacturer can simply load the CxF3 file into typical color formulation software and create the right mix for its printing inks. This applies not only to offset printing, but also to coatings, textile inks and plastics.

All files are available for free download under a CC license. Only the HLC colour atlas printed by Proof GmbH is subject to a fee, as production is very labour and cost-intensive. The introductory price of EUR 99, – is valid until the end of April 2018, starting in May EUR 149, — plus VAT and shipping costs.

You can order the CIELAB HLC colour atlas here in our shop

We at FreieFarbe e. V. and Proof GmbH not only see the “CIELAB HLC-Farbatlas” as a genuine and open alternative to the hundreds of proprietary color systems, but we also believe that the highest quality standard of the printed color atlas can only be achieved by coating systems.

Since the beginning of January, we have also been working on converting our open colour system with the German DIN standards organisation into a DIN SPEC standard.

INVOLVED IN THIS PROJECT HAVE BEEN:

Holger Everding (DPT Studio Oldenburg), Jan-Peter Homann (Homann Colormanagement), Eric A. Soder (pixsource. com), Peter Jäger (pre2media. ch) and Matthias Betz (Proof GmbH) as well as Christoph Schäfer and Gregory Pittman (Scribus Team).

WITH THE FRIENDLY SUPPORT OF:

freeFarbe e. V. also thanks for the support of ColorLogic GmbH with its software ZePrA for special color optimization and ColorAnt for the acquisition of spectral data, Epson Deutschland GmbH for support with ink and GMG GmbH & Co. KG for the support with certified proof papers and their color proofing software.

Proof GmbH: First Fogra 51 and Fogra 52 certified company worldwide

Proof GmbH has again been certified by Fogra in September 2015, this time for the standards Fogra 51 (PSOCoated_v3), Fogra 52 (PSOuncoated_v3) and Fogra 39 (ISOcoatedv2).

Fogra Certificate Proof GmbH for Fogra51 and Fogra52 Proofs (PSOCoatedV3 and PSOUncoatedV3 proofs)

The Proof GmbH has thus reaffirmed it’s quality by the strict criteria of Fogra. The tests Fogra conducted went far beyond the pure colorimetric readout of a media wedge. The special proofs for Fogra were evaluated among the following criteria:

  • Color accuracy of the Ugra / Fogra media wedge CMYK 3
  • Overall color accuracy and gamut
  • Uniformity and homogeneity of the proofsProof GmbH has again been certified by Fogra in September 2015, this time for the standards Fogra 51 (PSOCoated_v3), Fogra 52 (PSOuncoated_v3) and Fogra 39 (ISOcoatedv2).
  • Color and gloss of the proofing papers used
  • Tonal range and tonality
  • Register and resolution
  • Status information on the proof
  • Tonal values

The color matching our proofs submitted for the test was confirmed by Fogra with date of September 24, 2015. The Proof GmbH is thus the world’s first company that has certification for the production of contract proofs on a Fogra 51 and Fogra 52.

We are very pleased that our preparation and the efforts of the past few months were rewarded by a successful certification. You can order Fogra51/52 proofs in our proofing shop Order Fogra 51 / Fogra 52 Proofs (PSOCoatedV3 and PSOUncoatedV3).

The full, 12-page report from Fogra can be downloaded here:
Fogra certification report on Proof GmbH of 2015 No. 29712

Fogra 51 and 52: The new printing conditions start in September 2015

With long delay, the new printing conditions Fogra Fogra 51 and 52 – PSOCoatedV3 and PSOUncoatedV3 – will be presented at the end of September and finally come into practice. The German bvdm invites together with Fogra and ECI to a joint “kick-off” of the new printing conditions in the “Hochschule der Medien” in Stuttgart.

On Wednesday, the 30th of September 2015 from 10 o’clock representatives of the associations will introduce in the university the innovations, Karl Michael Meinecke wrote of the ECI mailing list.

In this kick-off the new, jointly developed printing conditions and  to implement the ISO 12647-2:2013 are presented to printing and media professionals. Attendance is expected to be free, but registration with name and company to the email address ks@bvdm-online.de is requested. The event takes place at the HdM in auditorium i003 in the Nobel Straße 10, D-70569 Stuttgart (Vaihingen) in the Stuttgart Media University.

Fogra51 and Fogra52: A difficult start

The launch of Fogra51 and Fogra52 had been marked by delays and disruptions. Large series of measurements had to be discarded after testing, measurement technology as the new SpectroProofer ILS 30 or new proofing papers were delivered only with great delay. Several seminars on how to manage the change to the new ISO standards in the Fogra are running since late last year with numerous participants in full swing – only the new standards were still not in sight. Now there is at least the kick-off date at the end of September in sight.

Cirtainly, all involved representatives of associations and interested companies were often reminded of the negative model of the US standardization bodies:

The IDEAlliance had presented in 2013 probably too hastily developed new printing conditions for GRACol 2013 and SWOP 2013, but so far they hardly play any role in practice. Why? Even the IDEAlliance open most their publications on the new standards with the tenor: “If you are not extremely color-critical, there is no reason to change from the old standards to the new ones … Conclusion: Please stay with their established, old workflow with profiles from 2006 … we are currently working on numerous ‘supplements’ …”

PSOCoatedV3 and PSOUncoatedV3: What definitely comes

But it is clear: The new standards will bring many changes to companies in printing and prepress: The individual changes in detail: Continue reading

New Proof papers for Fogra51 and Fogra52 in use

Three weeks ago, we have introduced two new proofing papers for the proof of Fogra 51 and Fogra 52 Beta standard and other color standards, that require proof papers with optical brighteners:

EFI Proof Paper 8245 OBA Semimatte
EFI Proof Paper 8175 OBA Matte

A proof for coated papers with optical brighteners, we offer on semi matte EFI 8245 OBA semimatte with 245 gr / sqm. The EFI Proof Paper 8245OBA Semimatte has been specifically designed for proofing white and brightened, coated papers. The white point of this semi matte paper is very close to the values ​​of the FOGRA51 profile and thus allows proofing of FOGRA51 with virtually no paper white simulation at all. It is also well suited for simulating paper conditions PC1 according to ISO 12647-2:-2013.

EFI Proof Paper 8245 OBA Semimatt

Weight: 245 g / sqm
Thickness: 245 microns
Opacity:> 95%
Gloss: 22%
CIE L * a * b * (M0): 95.8 | 0.9 | -4.3
CIE L * a * b * (M1): 96.0 | 1.1 | -5.6

For Proofs on uncoated papers with optical brighteners, we offer proofing on matte EFI 8175 OBA matte with 175gr / sqm. The EFI Proof Paper 8175OBA Matte has been specifically designed for uncoated proof standards. It is highly brightened and very suitable for proofing of Fogra52.

EFI Proof Paper 8175 OBA Matte

Weight: 175 g / m²
Thickness: 230 microns
Opacity: 97%
Gloss: 5%
CIE L * a * b * (M0): 96.8 | 2.5 | -7.7
CIE L * a * b * (M1): 97.0 | 3.0 | -10.8

Fogra 51 and Fogra 52 Beta Proofs available

By switching to the new Fiery XF 6.1 and the use of the new X-Rite SpectroProofer ILS-30 measuring instruments, we are now able to proof the current beta versions of the new printing standards Fogra 51 and Fogra 52.

Since the current proofing profiles are available only in preliminary beta versions, the versions are of course not color binding and legally binding. Nevertheless, interested agencies and printers can get a picture of the current state of development and evaluate the coming changes of the OBA proofing papers used better match the colors of the new proofing standards.

We have created a new category in our Proof.de Store:
Fogra 51 / Fogra 52 Beta Proofs

The Fogra 51/52 Beta proofs are listed as follows:

Proof profile Coated:
PSO_Coated_v3_ECI Practice Fred15_Oct2014.icc

Proof profiles Uncoated:
PSO_Uncoated_v3_eci_Fred15-July2014.icc
PSO_Uncoated_blueish_v3_ (ECI) -Fred15-July.icc

Software: Fiery XF 6.1
Proof printer: EPSON 7900/9900
Measurement: Epson / X-Rite SpectroProofer ILS30
Measuring standard: M1 with UV

Proof Paper Coated: EFI Proof Paper 8245OBA Semimatt 245gr / sqm
Proof Paper Uncoated: EFI Proof Paper 8175OBA Matt 175gr / sqm

 

Fogra Fogra 51 and 52: No Start in sight.

Fogra Fogra 51 and 52, optical brighteners and the new standards for offset printing and proofing are currently on everyone’s lips. In the proof area we still see only announcements and beta versions, but no real solutionsby now. In 2013 the reorganization of ISO 12647-2 was adopted for offset printing, but according to ECI the earliest “expected recommendation on the implementation of the new ISO 12647-2 as well as the provision of appropriate handouts and instruments’ will be in 2015. The current status of Fogra 51 and Fogra 52 from our perspective:

Color profiles:

  • Fogra Fogra 51 and 52 have completed the beta phase at the Fogra in May 2014 and were forwarded to the ECI. The there in the project “fred15” compiled information and downloads are but from March, July to October 2014, but since then there has been no more news on the new standards. So there is currently no date for the release of the final profiles, handouts and tools foreseeable. Fogra, ECI, bvdm and UGRA continue to work together on the new standards.

Proof Papers:

ONE Technologies: The proofing paper for Fogra 51, already announced in May is still not available today.

ONE Technologies: The proofing paper for Fogra 51, already announced in May is still not available today.

  • ONE Technologies announced in May 2014, the certified proofing paper “ONE Proof Paper 51 SATIN” on … that in November is not yet available anywhere.
  • GMG announced in October, the proofing paper “GMG Proof semimatte 250 OBA”, which to this day is also available anywhere.
  • Also working on new  proofing substrates is EFI, but naming, pricing and release dates are not known.

Measuring technology:

  • Epson announced in August to deliver from 1 September 2014 all Epson SpectroProofer measuring devices with the new measuring head ILS 30 only. Unfortunately, the new SpectroProofer is not yet commercially available as an accessory.
  • While all previous sources reported that the new SpectroProofer –  Although Fogra 51 and 52, ie M1 and M2 capable, can not measure ISOcoatedv2 or M0. EFI with Fiery XF 6.1 and the SpectroProofer ILS 30 support all measurement modes, ie Fogra 51 and 52 and ISOcoatedv2 simultaneously … unfortunately is neither Fiery XF 6.1. previously available nor the SpectroProofer … but according to EFI they are currently testing all 3 modes … M0, M1 and M2 with the new SpectroProofer … that sounds promising. Continue reading

Proof GmbH: Fogra certified for ISOcoatedv2 (Fogra 39) and PSOUncoated (Fogra 47)

Proof GmbH Fogracert Contract Proof Creation 28651The Proof GmbH has again successfully completed Fogra certification for the production of contract proofs – Contract Proof Creation.

The certification proofs have been produced both on EPSON 7900 and EPSON 9900 proof printers with SpectroProofer measuring instruments. Our two proofing papers were included in the certification process. Proof GmbH is therefore certified for the most frequently used Proofing Standards.

Fogra Zertifikat 2014 der Proof GmbH TübingenThe requirements for the Fogra certification go far beyond simply measuring the media wedge. So the proofs are analyzed according to the following criteria:

  • Compliance with the tolerances of the Fogra Media Wedge CMYK 3
  • Determination of color accuracy [ISO 12642-2 test chart], the color gamut and gray balance
  • Gloss measurement in accordance with ISO 8254-1 [TAPPI]
  • Tone value
  • Register and resolution
  • Status information
  • Tone value
  • homogeneity

In parallel to the measurements, control measurements were carried out with a second X-Rite meter in order to eliminate measurement errors.

The conclusion of the Fogra: “The proofs of the company Proof GmbH are as color accurate and binding in the following combinations:

1. Fogra 39 / ISOCoatedV2
Software Fiery XF 5.2.2
Proofing Substrate: EFI Gravure Proof Paper 4245
EPSON Stylus Pro 7900
Fogra 39

2. Fogra 47 / PSOUncoated
Software Fiery XF 5.2.2
Proofing Substrate: EFI Proof Paper 9120 XF matt
Epson Stylus Pro 9900
Fogra 47

The Fogra certification and the full 11-page report from Fogra can be downloaded here::

Fogra certificate 2014 Proof GmbH Tübingen

Fogra certificate 2014 Proof GmbH Tübingen

Full 11-page report of the Fogra Certification of Proof GmbH Tübingen 2014

Full 11-page report of the Fogra Certification of Proof GmbH Tübingen 2014

 

 

 

 

 

 

 

 

 

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Softproof – opportunity or risk?

Softproof means: The correct color display of a printed product on a monitor. Both a standardized print, e.g. according to process standard offset printing, can be simulated – e.g. a later offset print according to ISOCoatedV2 can be simulated correctly in colour on the screen – and the output on digital terminals such as LFP systems in advertising technology.

From a technical point of view, soft proofs are now well controllable. The monitor technology is advanced enough to provide excellent displays with a high color gamut and consistent illumination even for a few hundred euros. For example, monitors in two branches of a company can be coordinated in such a way that the result displayed on the monitors corresponds exactly to each other at both locations, i.e. one image editor in Hamburg and one in Munich can talk about retouching the same file.

The problem: The fact that the two monitors emit the identical color and light result can be precisely controlled. The fact that the colleague in Hamburg is looking at the foggy Alster lake at a northern window, while the colleague in Munich moved the monitor to a southern window in the direction of the Isar river in sunshine, already shows the problem: The environment variables under which the softproof is viewed are not identical.

It is even more difficult when the soft proof is to be used in the pressroom to coordinate the production run. Many companies such as JUST offer modern solutions that can provide a soft proof directly at the press. However, the problem remains that the soft proof should be considered to be less than 10% away of the brightness of the press. While 2000 lux brightness was previously the standard for printers, JUST now writes: “The comparison of soft proofs on monitors with prints and hard proofs is regulated in accordance with ISO 12646. The light conditions basically correspond to ISO 3664, but the brightness must be adjusted to the limited luminance of the monitor, which ideally is > 120 cd/m². ”

Two scenarios therefore arise at the printing press: Either the printer is “in the light” and can then match the print with a contract proof printed on paper, or it is “in the dark” and can match the print with the soft proof. The difficulty of matching paper and monitor – and these are two completely different and difficult to compare media – is compounded by the difficulty of the printer having to dim the light at the press by up to a factor of 10 to be able to match both a contract proof and a soft proof at the same workstation. From today’s point of view, this does not really seem practicable.

Conclusion: The soft proof is on the advance and will certainly sooner or later displace the classic contract proof from the market for reasons of speed and cost. However, due to the great technical lighting and haptic differences between the monitor and the illuminated sheet of paper, a widespread introduction is still a long way off. After all, anyone who has ever performed a color match on a printing press can imagine that a match to the contract proof on the one hand and to a soft proof monitor on the other hand is difficult to imagine at the same time.  The contract proof will therefore also have to remain the first choice in the near future in order to be able to carry out colour-accurate proofing of the printing result in the pressroom.

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Embed profiles for proofing? Yes or No?

The question often arises whether color profiles should be embedded in the PDF files for proofing.

To answer the question, you have to get some answers: The proof should simulate the subsequent offset printing. For offset printing, with few exceptions, the imagesetters have been configured so that a 70% black in the file is displayed as 70% black on the printing plate, no matter what profile was specified in the file. It didn’t matter whether it was coated paper or uncoated paper: 70% in the file corresponded to 70% on the plate, the choice of the paper printed on resulted in the colour representation.

The proof has also adapted to this: Most proofing service providers ignore embedded profiles, as long as the data is in CMYK and do the same as their print colleagues. Even with grayscale, the profiles are usually ignored and the grayscale is simply assigned to the CMYK black channel. Thus all CMYK and grayscale data are simply interpreted as if they had been created in the output color space. If “ISOCoated V2” is proofed, all images are treated as such, and if “PSOUncoated” is proofed, then the CMYK images are created in this color space.

This is excellent for the majority of files to be proofed. Only RGB colors contained in the data are problematic.
Since the RGB color space is considerably larger than most CMYK color spaces, it must be clear from which color space to convert to CMYK according to which criteria. Most proofing service providers specify a color space from which they convert by default if no RGB color space is defined. This can lead to difficulties: For example, many proof studios choose AdobeRGB as color space because it is large and optimized for offset printing; however, most images from digital cameras come from sRGB and these color spaces differ considerably. Therefore, it is important that the RGB color space and the rendering intend is embedded for a proof, otherwise the proofing software normally selects a color space for conversion to the CMYK color space to be proofed; and this color space is possibly not the one in which the data has be created.

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D50 is not the same as D50: Standardized light and ISO3664:2009

Since 2009, printers and proofing service providers have increasingly encountered a new D50 lighting standard: ISO 3664:2009, which defines how the new D50 standardized light, under which proofs and print products are to be evaluated, looks like. The new standard light contains UV components that address the optical brighteners that are frequently used in offset papers nowadays.

The result: next to a bluish-white glowing sheet in the pressroom, there is a yellowish-pale proof.

What is the reason for this? The standard came sort of as a surprise and was poorly communicated within the industry. All proofing substrates available from proofing service providers contain no or almost no optical brighteners – this was previously a requirement. And under the old D50 standardized light – which did not contain any UV components – the proof and production run looked identical, since the optical brighteners were not addressed in the production run. Proofing and production printing can no longer be compared on all new presses that are already equipped with light tubes of the new standard: This looks completely different, the differences in paper white are absolutely obvious.

Printers and proofing service providers have mostly replaced the old tubes with new ones. However, this is often a complex topic: The old diffusing screens, which are mounted in front of the neon tubes, had so far predominantly once again installed UV filtering in order to ensure that completely no UV components get through. If new ISO 3664:2009 tubes with a defined amount of UV components are mounted behind the diffusors, unfortunately exactly this component is missing in front of the diffusor again… So there are some extra costs for the printers.

In the meantime with M1 and the new proofing Standards Fogra51 upwards, many proofing papers with brighteners havel been launched on the market so that proof and run can be compared cleanly again in the pressroom.

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Translated with www.DeepL.com/Translator

Standardized light and metamerism effect

A proof is only as good as the light under which it is viewed. Just going to the window or switching on the light at dusk is useless: between December and July, between 8 am and 8 pm, between cloudy and sunny days there is a huge difference in the lighting, which makes any colour evaluation impossible. And if you switch on the light, you normally switch on a bulb with 2700 Kelvin – or even worse: an energy-saving neon bulb that somehow shines in any spectra… a disaster!

The reasons for metamerism effects (in short: that two colors look identical under one light, but completely different under another) lie in the different printing technologies. Colors that look the same under a light bulb can suddenly look very different under a neon tube.

In recent years, ink-based digital proofs have established themselves in the proofing sector. Because it is printed in ink, specially coated paper must be used, which is not in any way similar to the subsequent production run. Anyone who has ever tried to print on glossy coated paper with an inkjet printer knows: the ink never lasts! Metamerism is therefore always involved when a proof is to be compared with offset printing.

The light under which proof and production run are viewed is particularly important.

ISO 3664 regulates standardized light, which is important for viewing proofs and prints. D50 is no longer D50: The International Lighting Commission CIE has revised ISO 3664 in recent years and adapted it to today’s circumstances. If UV components used to be strictly prohibited, they are now part of the standard. In the past, the focus was on consistency between slide and print, while today monitor, digital proof and offset printing are important. Therefore, proofs must always be viewed under D50 Standardized Light, so that they are really “colour-binding” in their perception.

If you want to check metamerism effects, we recommend the UGRA colour temperature indicator. With these strips, metamerism effects can be checked very quickly and clearly.

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What is the UGRA-Fogra Media Wedge 3.0 used for?

Every print shop in Germany adheres to a predefined standard, the process standard offset printing. This standard defines target and tolerance values for printed products. In order to prove that your proof delivered to the print shop meets these standards or is within the tolerances, the media wedge is measured and the values analysed in case of doubt – i.e. in case of a streak. If these measured values are correct, the print shop is obliged to adhere to and achieve these values.

Practice generally shows the following: If you want to have a 4-page image brochure proofed and printed, it is usually sufficient to have a single media wedge printed under the 4 pages. If the media wedge is also provided with a test report, the colour accuracy for the print shop is directly confirmed as a guideline.
However, if you want to be on the safe side, have a separate media wedge (including test report) printed under each of the 4 pages of your brochure.

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How color-accurate are proofs?

A proof is prepared according to the currently valid ISO standard 12647-7 and is legally binding with a UGRA-Fogra media wedge and measurement report.

How does this check work?

If you need a proof with UGRA/Fogra Media Wedge CMYK V3.0, there are two ways to add the test report to your data.

  1. With proofing devices in which a measuring device is integrated, the media wedge with 3×24 standardised colour fields is printed directly under the proof data. This media wedge is driven directly in the proofing device to a kind of “hair dryer” in the measuring device and dried there. After a few minutes of drying, the media wedge continues and is measured directly in the proofer. This takes a few minutes. The measured values determined in this way are returned to the proof server and evaluated there. If the color values are correct and within the tolerances of the strict ISO standard, a test report of the measurement is then printed directly under the media wedge, which guarantees you color accuracy in accordance with the process standard offset printing.
  2. For proofing devices without integrated measuring device, only the standardized media wedge is printed under the proof data. A check takes place subsequently and outside the proof printer. The media wedge is then measured with an external measuring device and the target and tolerance values are output to a label printer. This label is then stuck directly under the media wedge.

What is the advantage of automated creation and checking of the media wedge directly in the proofing device?

  • Measurement is automated directly after proof printing, measurement errors due to manual operating errors are excluded. Since the test report is not subsequently attached, as is often still the case, manipulation is impossible.

Further information on the test report, the media wedge and on the work and responsibility of UGRA/Fogra can be found at www.ugra.ch and www.fogra.org.

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Current Proof Standards 2018

Offset / Heatset / Coldset

From September 30th 2015:
PSOCoatedV3 / Fogra 51
Profile: PSOcoated_v3.icc
The successor of ISOcoatedv2 for glossy and matte coated paper with moderate optical brighteners
Paper: Paper type 1, glossy and matte coated paper with moderate optical brightning agents (8-14 DeltaB according to ISO 15397), Tone value increase curve A (CMYK) according to ISO 12647-2:2013, Paper white: CIELAB=95;1,5;-6
Characterization Data: Presumably Fogra51L (M1)

From September 30th 2015:
PSOuncoated_v3 / Fogra 52
Profile: PSOuncoated_v3_FOGRA52.icc
The successor of PSOUncoated for uncoated wood-free paper with high fluorescence.
Paper: Paper type 5, wood-free uncoated, with high OBAs (more than 14 DeltaB according to ISO 15397), Tonal value increase curves C (CMYK) according to ISO 12647-2:2013, Paper white: CIELAB=93.5;2.5;-10
Characterization Data: PresumablyFogra52L (M1)

ISO Coated v2 (ECI)
Profile: ISOcoated_v2_eci.icc
Paper types 1 and 2, gloss and matte coated
Tone value increase curves A (CMY) and B (K) as defined in ISO 12647-2:2004
Characterization Data: FOGRA39L

ISO Coated v2 300% (ECI)
Profile: ISOCoated_v2_300_eci.icc
Paper types 1 and 2, gloss and matte coated
Tone value increase curves A (CMY) and B (K) as defined in ISO 12647-2:2004
Characterization Data: FOGRA39L

PSO LWC Improved (ECI)
Profile: PSO_LWC_Improved_eci.icc
Paper type 3, improved gloss coated (LWC)
Tone value increase curves B (CMY) and C (K) as defined in ISO 12647-2:2004
Characterization Data: FOGRA45L

PSO LWC Standard (ECI)
Profile: PSO_LWC_Standard_eci.icc
Paper type 3, standard gloss coated (LWC)
Tone value increase curves B (CMY) and C (K) as defined in ISO 12647-2:2004
Characterization Data: FOGRA46L

PSO Uncoated ISO12647 (ECI)
Profile: PSO_Uncoated_ISO12647_eci.icc
Paper type 4, uncoated white offset
Tone value increase curves C (CMY) and D (K) as defined in ISO 12647-2:2004
Characterization Data: FOGRA47L

ISO Uncoated Yellowish
Profile: ISOuncoatedyellowish.icc
Paper type 5, uncoated yellowish offset
Tone value increase curves C (CMY) and D (K) as defined in ISO 12647-2:2004
Characterization Data: FOGRA30L

SC Paper (ECI)
Profile: SC_paper_eci.icc
Paper type SC, Super calandered •
Tone value increase curves B (CMY) and C (K) as defined in ISO 12647-2:2004
Characterization Data: FOGRA40L

PSO SC-B Paper v3 NEW 2017
Profile:  PSOsc-b_paper_v3_FOGRA54.icc
SC-B Paper, Super calandered Papier, satinated

Paper: Commercial offset, SC-B paper (super-calendered, satinized), printing condition PC6, dot gain curve 2013-B, white base. .
Prüfprofil: FOGRA54.txt

PSO MFC Paper (ECI)
Profile: PSO_MFC_paper_eci.icc
Paper type MFC, Machine finished coating
Tone value increase curves B (CMY) and C (K) as defined in ISO 12647-2:2004
Characterization Data: FOGRA41L

PSO SNP Paper (ECI)
Profile: PSO_SNP_paper_eci.icc
Paper type SNP, Standard newsprint, heatset web offset printing
Tone value increase curves C (CMY) and D (K) as defined in ISO 12647-2:2004
Characterization Data: FOGRA42L

PSO Coated NPscreen ISO12647 (ECI)
Profile: PSO_Coated_NPscreen_ISO12647_eci.icc
Paper type 1 and 2, gloss and matte coated non-periodic screening (NPscreen), 20 μm
Tone value increase curve F (CMYK) as defined in ISO 12647-2:2004
Characterization Data: FOGRA43L

PSO Coated 300% NPscreen ISO12647 (ECI)
Profile: PSO_Coated_300_NPscreen_ISO12647_eci.icc
Paper type 1 and 2, gloss and matte coated
non-periodic screening (NPscreen), 20 μm
Tone value increase curve F (CMYK) as defined in ISO12647-2:2004
Characterization Data: FOGRA43L

PSO Uncoated NPscreen ISO12647 (ECI)
Profile: PSO_Uncoated_NPscreen_ISO12647_eci.icc
Paper type 4, uncoated white offset
non-periodic screening (NPscreen), 30 μm
Tone value increase curve F (CMYK) as defined in ISO 12647-2:2004
Characterization Data:FOGRA44L

Improved Newsprint, INP / PSO INP Paper (ECI)
Profile: PSO_INP_Paper_eci.icc
Commercial and specialty offset, INP paper (improved news print), positive plates
tone value increase curves C (CMY) and D (K), white backing
Characterization Data: FOGRA48L.txt

PSO Coated v2 300% Matte laminate (ECI)
Profile: PSO_Coated_v2_300_Matte_laminate_eci.icc
FINISHING PROOF! Not for on-press colour matching!
Matte lamination with OPP film,
FOGRA49 shows the finished final product, dedicated separation, detection of colour changes compared to ISO Coated v2
Characterization Data: FOGRA49L.txt

PSO Coated v2 300% Glossy laminate (ECI)
Profile: PSO_Coated_v2_300_Glossy_laminate_eci.icc
FINISHING PROOF! Not for on-press colour matching!
Glossy lamination with OPP film,
FOGRA50 shows the finished final product, dedicated separation, detection of colour changes compared to ISO Coated v2
Characterization Data: FOGRA50L.txt

Heaven42
The absolute white tone opens up the greatest scope of colours for design and printing afforded by any coated paper worldwide. The perfect foundation for extreme contrasts and combination with ultra white natural papers. The absolutely white paper shade of heaven 42 impacts on the printing process as well as on the pre-press stage. With the same colouring and dot gain, the printed image can look significantly colder if separation remains unchanged (e.g. with
ICC-profile “IsoCoated_v2”).

We are proofiing Heaven42 on proof paper with optical brighteners and measure the Proof in M1 Standard. Please note: Our Heaven42 proofs represent a good simulation of the original Heaven42 ICC Profile, but are not – as an ISOcoatedv2 Proof – coloraccurate and legally binding.

Scheufelen offers two ICC-Profiles for download, we are proofing the color profile of Heidelberger Druck (“_HD”).
Profile: Heaven42_AM_U280_K98_G80_HD.icc (Heidelberger Druck)
Ink Coverage: ~280 % (U)
Gray: GCR , 80 % (G)
Black Generation: 98 % (K)
Proofpaper: EFI Proof Paper 8245 OBA Semimatt
Proofprofile: Generated from reference profile
Measuring method: M1 with optical brighners (OBAs)

Rotogravure standard:

ECI Rotogravure profiles from 2009 for the Process Standard Rotogravure (PSR)

LWC Plus V2 M1 NEW 2018
Profile: PSR_LWC_PLUS_V2_ M1.icc
The Sucessor of LWC Plus (PSR_LWC_PLUS_V2_PT.icc, PSRgravureHWC_ECI2002.txt)
Paper: Paper type LWCplus (improved light weight coated) glossy coated
Characterization data: PSR_LWC_PLUS_V2_M1.txt

LWC Plus
Profile: PSR_LWC_PLUS_V2_PT.icc
The successor of HWC
Profile: PSR_LWC_PLUS_V2_PT.icc
Paper: LWC (light weight coated) paper
Characterization data: ECI_PSR_LWC_PLUS_V2.txt

LWC Standard
Profile: PSR_LWC_STD_V2_PT.icc
Paper: LWC (light weight coated) paper
Characterization data: ECI_PSR_LWC_STD_V2.txt

SC Plus
Profile: PSR_SC_Plus_V2.icc
whiter super calandered paper
Characterization data: ECI_PSR_SC_Plus_V2.txt

SC standard
Profile: PSR_SC_STD_V2.icc
Paper: super calandered paper
Characterization data: ECI_PSR_SC_STD_V2.txt

News Plus
Profile: PSRgravureMF.icc
PSRgravureMF is now reffered to as News Plus
Paper: Paper News Plus
Characterization data: PSRgravureMF_ECI2002.txt

US / International Proof Profiles

GRACoL2006_Coated1v2
Profile: GRACoL2006_Coated1v2.icc
GRACol interpretation of ISO 12647-2.
Paper: Paper type 1 and 2, gloss and matt art paper, dot gain curves NPDC (Neutral Density Curves Print)
Characterization data: GRACoL2006_Coated1.txt, a derivation from Fogra 39

SWOP2006_Coated3v2
Profile: SWOP2006_Coated3v2
SWOP interpretation of ISO 12647-2 for offset printing on coated paper thin.
Paper: Thin, coated paper, dot gain curves NPDC (Neutral Density Curves Print)
Characterization data: SWOP2006_Coated3.txt, a derivative of Adobe USWebCoated v2

SWOP2006_Coated5v2
Profile: SWOP2006_Coated5v2
Other SWOP interpretation of ISO 12647-2 for offset printing on coated paper thin.
Paper: Thin, coated paper with a slightly different white tone to SWOP2006_Coated3V2, dot gain curves NPDC (Neutral Density Curves Print)
Characterization data: SWOP2006_Coated5.txt, a derivative of Adobe USWebCoated v2

JapanColor2011Coated
Profile: JapanColor2011Coated.icc
The new standard of Japan Printing Machinery Association (JPMA).
Characterization data: JapanColor.it8

PaC.Space
Profile: PaC.Space_CMYK_gravure_V1a.icc
PaC.Space is the first common color standard for packaging gravure printing, which enables to process-an interface from the supplied prepress data or printer-specific requirements.
Paper: Coated substrates and films for packaging gravure
Characterization data: FOGRA_PaCSpace_MKCheck11.it8

Proofing Standards for Papers with Optical Brightening Agents (OBA)

SWOP 2013 C3
Profile: SWOP2013_CRPC5.icc or SWOP2013C3-CPRC5.icc
The profile is being measured in M1 Mode taking into account the Optical Brightening Agents in the paper.
TAC: 260%
GCR: Medium+
Max K: 100%
TVI: CMY 16%, K19%

Paper: Grade #3 paper
Characterization data reference: CGATS21-2-CRPC5

SWOP 2013 C5
Profile: SWOP2013C5.icc
Based on CGATS-21-2 CRPC5, with substrate correction (SCCA) for US Grade5 coated stock. Reference White Point in LAB: 90/0/-4
The profile is being measured in M1 Mode taking into account the Optical Brightening Agents in the paper.
Paper: Grade #5 paper
Characterization data reference: SWOP2015C5

GRACoL 2013 Uncoated
Profile: GRACoL2013UNC_CRPC3.icc
The profile is being measured in M1 Mode taking into account the Optical Brightening Agents in the paper.
TAC: 260%
GCR: Medium+
Max K: 100%
TVI: CMY 16%, K19%

Paper: N.N.
Characterization data reference: CGATS21-2-CRPC3

GRACoL 2013
Profile: GRACoL2013_CRPC6.icc
The profile is being measured in M1 Mode taking into account the Optical Brightening Agents in the paper.
TAC: 320%
GCR: Medium+
Max K: 100%
TVI: CMY 16%, K19,1%

Paper: N.N.
Characterization data reference: CGATS21-2-CRPC6


ISO Web Coated
Profile: ISOwebcoated.icc
LWC paper standard, glossy
Paper: Paper grade 3, standard glossy coated (LWC), dot gain curves B (CMY) and C (K) from ISO 12647-2: 2004
Test profile: FOGRA28L

ISONewspaper 26v4
Profile: ISONewspaper26v4.icc
Newspaper
Paper: paper type SNP, standard newsprint, heatset web offset, dot gain curves C (CMY) and D (K) from ISO 12647-2: 2004
Test profile: IFRA26

ISOUncoated
Profile: ISOUncoated.icc
Standard for uncoated white natural paper
Paper: paper grade 4, uncoated white offset, dot gain curves C (CMY) and D (K) from ISO 12647-2: 2004
Test profile: FOGRA29L

SWOP 2013
Profile: SWOP2013_CRPC5.icc
The profile is measured in M1 mode under consideration of optical brighteners and must be printed on proof papers with optical brighteners.
Maximum color contribution: 260%
GCR: Medium+
Maximum black: 100%
Dot gain: CMY 16%, K19%
Paper: Grade #3 paper
Test profile: CGATS21-2-CRPC5

PSO SC-B Paper v3 NEW 2017
Profile: PSOsc-b_paper_v3_FOGRA54.icc
SC-B paper, super calandered paper, satin finish
Paper: commercial offset, SC-B paper (super-calendered, satined), printing condition PC6, dot gain curve 2013-B, white measuring pad.
Test profile: FOGRA54.txt

WAN-IFRAnewspaper 26v5
Profile: WAN-IFRAnewspaper26v5.icc
Color space: Primary and secondary colors from ISO 12647-3: 2013
Dot gain: 26%
Maximum paint application: 220%
Maximum GCR: Long black with an early black start

eciCMYK – CMYK exchange colour space NEW 2017
Profile: eciCMYK.icc
FOGRA53 is a CMYK exchange color space and is used for color communication in print production.​