Color and gloss measurement with digital standards
Réf. 7635
color2go d/8
Horizontal close-tolerance spectrophotometer with software
- Control of the color hue with d/8 geometry
- 60° gloss measurement
- Fluorescence Indication
- Exchange of digital standards within color2go family
Features
The color2go is a portable spectrophotometer, that combines color and 60° gloss measurement with a compact and rugged design. Operation via the large touchscreen is icon-based and just as intuitive as using the instrument connected to the included smart-chart data analysis software. In addtion, the color2go provides you with a warning message on the display if whether a material contains fluorescence.
- Color and 60° gloss measurement in one
- Exchange of digital standards within color2go family due to excellent inter-instrument agreement
- Compact, light weighted and rugged design
- State-of-the-art and intuitive operation via icon-based color touch display
- Garage for safety storage of instrument and checking tile
- High-tech LED illumination for excellent short-term, long-term and temperature stability
- 10-year warranty on LED light source - no lamp change needed
- Easy-to-use and at the same time powerful smart chart software for data analysis included
Technical Attributes
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- Measuring Capability
- Color, Gloss
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- Color Geometry
- d:8° (spin)
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- Sample Port
- 12 mm
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- Measuring Area
- 08 mm
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- Spectral Range Colorimetric
- 400 - 700 nm, 10 nm
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- Measurement Range
- 0 - 160% remission
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- Repeatability Color
- 0.01 ΔE* (10 consecutive measurements on white)
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- Reproducibility Color
- 0.1 ΔE94 (average of 12 BCRA II tiles)
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- Color Systems
- CIELab/Ch, Lab(h), XYZ; Yxy
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- Color Differences
- ΔE*; ΔE(h); ΔECMC; ΔE94; ΔE99; ΔE2000; E2000 PF; ΔE DIN6175-2019
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- Color Indices
- YIE313, YID1925, WIE313, CIE, Berger, Color Strength, Opacity, Metamerism, Grayscale
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- Illuminants
- A, C, D50, D55, D65, D75, F2, F6, F7, F8, F10, F11, UL30, CIE 015:2018 LED Illuminants
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- Observer
- 2°, 10°
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- Repeatability Gloss 0-20
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± 0,1 GU
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- Repeatability Gloss 20-100
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± 0,2 GU
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- Reproducibility Gloss 0-20
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± 0,5 GU
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- Reproducibility Gloss 20-100
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± 1,0 GU
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- Gloss Geometry
- 60°
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- Gloss Aperture
- 5 x 10 mm
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- Measurement Range Gloss
-
0 - 100
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- Measuring time
- < 2.5 sec
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- Memory
- 4.000 Standards and 10.000 Samples
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- Interface
- USB Type C, WiFi optional
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- Type d'affichage ou aucun affichage sans espace réservé
- 2.8 " Color Touchscreen
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- Langues
- Chinese English French German Italian Japanese Portuguese Russian Spanish
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- Power supply
- Internal rechargeable battery
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- Power supply
- 100 - 240 V, 50/60 Hz
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- Battery
- 3.6 V, 2350 mAh, 8.46 Wh
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- Battery Capacity
- 800 readings
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- Weight
- 0.59 kg
-
- Weight
- 1.3 lb
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- Operating temperature
- 10 - 40 °C
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- Storing temperature
- 0 - 60 °C
-
- Operating temperature
- 50 - 104 °F
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- Storing temperature
- 32 - 140 °F
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- Relative humidity
- Up to 85 % non-condensing at 35 °C (95 °F)
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- Dimensions: L x W x H
- 17.3 x 8.8 x 9.1 cm
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- Dimensions: L x W x H
- 6.8 x 3.5 x 3.6 in
Technical Properties
Color Measurement
Gloss Measurement
General
Standards
Delivery Content
Spectrophotomètre
Boite de rangement et de protection (7645)
Standard de test Couleur et de brillant
Standard blanc de calibrage
Certificat
Logiciel Smart-Lab avec deux licences à télécharger :
Smart-Lab Color (7083) ou Smart-Process Color (7084)
Câble USB (type C/USB A) pour transfert des données et alimentation
(7078)
Alimentation externe (type A/C/G/I) (7305)
Capuchon de protection (7637), dragonne
Manuel
Mallette de transport
Formation d'une journée
Boite de rangement et de protection (7645)
Standard de test Couleur et de brillant
Standard blanc de calibrage
Certificat
Logiciel Smart-Lab avec deux licences à télécharger :
Smart-Lab Color (7083) ou Smart-Process Color (7084)
Câble USB (type C/USB A) pour transfert des données et alimentation
(7078)
Alimentation externe (type A/C/G/I) (7305)
Capuchon de protection (7637), dragonne
Manuel
Mallette de transport
Formation d'une journée
Downloads
Consignes de sécurité
Instructions rapides
Connaissance
Les éléments de base de la mesure de couleur
La perception visuelle des couleurs est influencée par nos préférences de couleur individuelles, qui dépendent de facteurs personnels (humeur, âge, sexe, etc.), de l'environnement (éclairage, environnement, etc.) ainsi que de notre capacité à communiquer les couleurs et les différences de couleur. Une couleur semble différente dans les grands magasins (éclairage fluorescent blanc froid) et à la maison (éclairage chaud et incandescent). Afin de garantir une couleur et une apparence cohérentes dans toutes les circonstances possibles, il est essentiel de normaliser la source lumineuse et l'observateur mais aussi de comprendre les données de réémission spectrale de l'objet. Ces informations serviront de base au calcul des données colorimétriques car elles seront utilisées pour la communication des couleurs et le contrôle qualité des couleurs en production.
Read moreColor Difference Equations for Solid Colors
It is now almost 100 years since, in 1931, the CIE Yxy chromaticity color space was defined by the “International Commission on Illumination (CIE)”. To overcome its limitations of not being uniform, the CIE recommended two alternate color spaces since then: CIELAB (or CIE 1976 L*a*b*) and CIELUV (or CIE L*u*v*). They are based on the opponent color theory of color vision, which says that two colors cannot be both green and red at the same time, nor blue and yellow at the same time. During the last years developments of new color difference equations and color spaces were carried out. Their goal was to improve the correlation between visual perception and instrumentally measured values. Additionally, they wanted to permit the use of a single number tolerance for all colors.
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