Principle of measurement, Spectral fitting method, De scr ipti on – Konica Minolta Chroma Meter CS-200 User Manual

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scr

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Principle of Measurement

Spectral Fitting Method

Konica Minolta’s newly-developed spectral fitting method provides tristimulus values
(XYZ = red, green, blue) with significantly higher accuracy than that of conventional tris-
timulus colorimeters. This is achieved by using the output from 40 sensors to calculate
the spectral response corresponding to human eye sensitivity (CIE 1931 color-matching
functions).

• The CS-200 uses 40 sensors for sensitivity covering the entire visible region and

multiplies each sensor output by appropriate coefficients. This adjusts the spectral
response of the instrument to close to the CIE 1931 color-matching functions.

• In additon to the 2˚ Standard Observer, the 10˚ Standard Observer (for object-color

measurements) can also be selected, which is impossible with conventional tristimu-
lus colorimeters.

Object is measured with this spectral response and gained tristimulus values (X,Y, and Z)
are converted into L

v

xy, L

v

u'v', L

v

T∆uv, and dominant wavelength through calculation to

be displayed as measurement value.

Chromaticity coordinates (x,y) in Lvxy (CIE 1931 color space) can be obtained through
following formula.

X

Y

x=

, y=

X+Y+Z

X+Y+Z

X,Y, and Z are tristimulus values.

380 400

500

600

700

780

1.0

0.5

380 400

500

600

700

780

1.0

0.5

CIE 1931
color-matching functions

Spectral sensitivity of

conventional tristimulus

colorimeters

Relative sensitivity

Relative sensitivity

Wavelength (nm)

CIE 1931
color-matching functions

Spectral sensitivity
of the CS-200

Wavelength (nm)

CIE 1931 color-matching functions and spectral response
of the CS-200

CIE 1931 color-matching functions and spectral response
of a conventional tristimulus colorimeter