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Color measurement with fixed or variable aperture

Nº de art. 7600

color2view
Color measurement with fixed aperture

  • Objective evaluation of Color, 20° / 60° Gloss and lightfastness by combining 3 measurement technologies in one instrument
  • Fixed aperture (32 mm) with extra-large measuring spot (22 mm) guarantees highly reliable readings

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Features

The color2view combines intuitive navigation, breakthrough technical performance, and multiple measurement methods - 45°c:0° color, 20°/60° gloss, and fluorescence - in one benchtop spectrophotometer.

  • Objective 45°c:0° color measurement –  to measure color as you see it
  • 20° and 60° gloss measurement to clearly differentiate medium to high gloss samples
  • Quantification of fluorescence to predict long term color stability 
  • Compact and lightweight design with sample opening "top and front" to best suit different sample sizes 
  • Large color touch display with icon-based menu for ease-of-use
  • Live preview of the measurement spot to avoid false readings 
  • Smart high tech LEDs with peak performance for digital standards
  • Exchange of digital standards between Benchtop and portable instrument – without any extra profiling
  • Professional data analysis with smart-chart
     

Technical Attributes

    Technical Properties

  • Measuring Capability
    Color, Gloss, Fluorescence
  • Color Measurement

  • Geometría de color
    45°c:0°
  • Puerto de muestra
    32 mm
  • Área de medida
    22 mm
  • Rango espectral
    400 - 700 nm, 10 nm resolution
  • Rango espectral de fluorescencia
    300 - 760 nm, 10 nm resolution
  • Rango de medición
    0 - 170% remission
  • Repetibilidad
    0.01 ΔE94 (10 readings on white)
  • Reproducibilidad
    0.1 ΔE94 (average of 12 BCRA II tiles)
  • Sistema de color
    CIELab/Ch, Lab (h), XYZ, Yxy
  • Índices
    YIE313, YID1925, WIE313, CIE, Berger, Color Strength, Opacity, Metamerism, Grayscale
  • Iluminantes
    A, C, D50, D55, D65, D75, F2, F6, F7, F8, F10, F11, UL30, CIE 015:2018 LED Normlicht
  • Observador
    2°, 10°
  • Gloss Measurement

  • Gloss Measurement
     20°60°
    Measurement Range0 - 100 GU0 - 100 GU
    Aperture Size9 x 10 mm9 x 16 mm
    Repeatability0 - 100 GU: ± 0.2 GU0 - 20 GU: ± 0.1 GU
    20 - 100 GU: ± 0.2 GU
    Reproducibility0 - 100 GU: ± 1.0 GU0 - 20 GU: ± 0.5 GU
    20 - 100 GU: ± 1.0 GU
    Available for Aperture32 mm, 12 mm32 mm
  • General

  • Memoria
    4,000 standards and 10,000 samples
  • Interfaz
    USB-cable, LAN
  • Pantalla
    5" Capacitive Color Touchscreen
  • Idiomas
    Chinese English French German Italian Japanese Russian Spanish
  • Alimentación
    12 V DC; max. 3 A
  • Peso
    7 kg
  • Peso
    15.5 lb
  • Temperatura de operación
    10 - 40 °C
  • Temperatura de almacenaje
    0 - 60 °C
  • Temperatura de operación
    50 - 104 °F
  • Temperatura de almacenaje
    32 - 140 °F
  • Humedad relativa
    Up to 85% at 35 °C (95 °F), non-condensing
  • Dimensiones L x W x H
    39 x 26 x 19 cm
  • Dimensiones L x W x H
    15.35 x 10.2 x 7.5 in

Delivery Content

Instrumento color2view
Estándar de calibración de blanco
Estándar de prueba de color y brillo
Certifi cado
Software con 2 licencias para descargar:
smart-lab (7083) o smart-process Color (7084)
Cable USB para transferencia de datos
Fuente de alimentación
Manual de instrucciones
Formación de 1 día

Conocimiento

Componentes básicos de la medición del color

La percepción visual del color está influenciada por nuestras preferencias de color individuales, que dependen de factores personales (estado de ánimo, edad, sexo, etc.), el entorno (iluminación, entorno, etc.), así como nuestra capacidad para comunicar el color y las diferencias de color. Un color se ve diferente en los grandes almacenes (iluminación fluorescente blanca fría) que en casa (iluminación incandescente cálida). Para garantizar un color y una apariencia consistentes en todas las circunstancias posibles, es esencial estandarizar la fuente de luz, el observador y comprender los datos de remisión espectral del objeto. Esta información será la base para el cálculo de los datos colorimétricos, ya que se utiliza para la comunicación del color y el control de calidad del color en la producción.

Read more

Color 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.

Read more

Color Measurement of Fluorescent Colors – a CHALLENGE

The world around us is bright and colorful. Neon colors in particular have been back in trend for several years. The prerequisite for this is the use of fluorescent pigments in the paint, plastic and many other industries. Although these have been widely used for many years, the quality control of fluorescent material still remains a major challenge. The following article describes theoretical background of fluorescence, why a standard spectrophotometer is not suitable for the quality control of fluorescent material and what possibilities the new combination of spectrophotometer and fluorimeter offers - especially with regard to predicting the lightfastness of a material.

Read more
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