GSO ISO/PAS 15339-2:2021
ISO/PAS 15339-2:2015
Gulf Standard
Current Edition
· Approved on 01 July 2021
Graphic technology — Printing from digital data across multiple technologies — Part 2: Characterized reference printing conditions, CRPC1-CRPC7
Adoption by Endorsement!
This document is to indicate the endorsement of
ISO/PAS 15339-2:2015
Auto Update!
Adoption by endorsement for the latest version of this international/national standard and the previous adopted edition remains effective for 2 years starting from the date of last international update.
GSO ISO/PAS 15339-2:2021 Files
No files for this standard are available in the store currently.
GSO ISO/PAS 15339-2:2021 Scope
ISO/PAS 15339-2 specifies a limited number of characterized reference printing conditions that span the expected range of colour gamuts used for the production of printed materials from digital data, regardless of the printing process used. Their use is described in ISO/PAS 15339‑1.
Best Sellers From Metrology Sector
GSO OIML R87:2021
OIML R87:2016
Gulf Standard
Quantity of product in prepackages
GSO OIML R79:2021
OIML R79:2015
Gulf Standard
Labeling requirements for prepackages
OS GSO OIML R76-1:2009
OIML R 76-1:2006
Omani Standard
Non-automatic weighing instruments –
Part 1: Metrological and technical requirements - Tests
GSO OIML R 76-1:2009
OIML R 76-1:2006
Gulf Standard
Non-automatic weighing instruments –
Part 1: Metrological and technical requirements - Tests
Recently Published from Metrology Sector
GSO ISO 80004-1:2024
ISO 80004-1:2023
Gulf Standard
Nanotechnologies – Vocabulary
— Part 1: Core vocabulary
GSO IEC 62055-31:2024
IEC 62055-31:2022
Gulf Standard
Electricity metering - Payment systems - Part 31: Particular requirements - Static payment meters for active energy (classes 0,5, 1 and 2)
GSO ISO 16399:2024
ISO 16399:2023
Gulf Standard
Agricultural irrigation equipment
— Meters for irrigation water
GSO ISO 8529-3:2024
ISO 8529-3:2023
Gulf Standard
Neutron reference radiation fields
— Part 3: Calibration of area and personal dosemeters and determination of their response as a function of neutron energy and angle of incidence