specification hyperion colorimeter
Contents Hyperion... 3 2 Highlights... 3 3 General specifications... 4 4 Typical spectral sensitivity... 4 0mm measurement specifications... 6 Actual measurement data... 6 7 Hyperion 0mm dimensions... 8 8 Hyperion M8 fibre dimensions... 9 2
Hyperion The Hyperion colorimeter offers a unique combination of high speed and accurate colour measurement capabilities packed in a robust package. The improvement compared to the previous colorimeters is that the Hyperion has a significant improvement on filter characteristics and an incredible speed upgrade. It is actually 4x times faster than our previous models making accurate colour measurements possible in 0ms at cd/m 2. The Hyperion colorimeter is available with a 0mm spot size. A fibre version is also available with several optics, custom optics can be applied on request. Added to the filter characteristics the high sensitivity, ultralow noise electronics and a huge dynamic range make it the ideal device for display measurements even at low levels. 2 Highlights Highly accurate colour measurement according to human eye (CIE93) Fast colour measurement even at low luminance level Flicker luminance (Y) function: 2000 samples/second Autorange function Powerful MCU enables internal JEITA flicker calculation Mechanical shutter USBMTC standard compliant Windows, Linux and MAC OSX compatible Directly supported in Labview, Labwindows, Visual Studio via VISA library 3
3 General specifications Interfaces USB 2.0 RS 232 Trigger in & out USBMTC compliant, SCPI command set, high speed device For PC and embedded purposes, using same command set as USB V compliant 4 Typical spectral sensitivity Power ratings Min voltage Typical voltage Max voltage Max current USB power 4.7V.00V.2V 300mA 9V power 8.7V 9.00V 9.2V 300mA Measurement system Photo detector Spectral response Measurement parameters Size (HxWxD) Weight Mounting 3 silicon photo diode using XYZ interference filter Approximates CIE 93 colour matching functions XYZ, Yxy, Yuv, correlated colour temperature (CCT), dominant wavelength DWL, Flicker, Response time 3x70x47 mm (without lens system) 670 gram 2 M3 thread holes spread over four sides 4
0mm measurement specifications Measurement system Optical system Acceptance angle º (+/ 2.) Measurement spot size 3. mm at 0 mm distance 8 mm at 00 mm distance Flicker measurement speed (sample mode) Luminance 2000 samples / second, XYZ 2000 samples / second Correct detected frequency of at least Hz Colour measurement speed Colour 22 ms or higher, depending on luminance level (including communication) 0 cd/m² with DC level light at 6 ms. PWM requires longer integration (multiple frames) Sample mode signal frequency response Parameter a F 3db Gain DC 00 Hz Gain 2 DC 00 Hz Gain 3 DC 00 Hz Colorimeter specification Parameter Range Accuracy Repeatability Resolution 6 bit for X, Y and Z >80 db without averaging Luminance (Y) 0.00 cd/m² 20,000 cd/m² +/2% of measured value, measured at white image Y +/ 0.% at 0. cd/m² ¹ integration time between of LCD display, Luminance of app. 0 cd/m², Y +/ 0.2% at cd/m² ¹ 0.ms s x=00 y= 2 Y +/ 0.% at cd/m² ¹ Y +/ 0.% at 0 cd/m² ¹ Chromaticity (x,y) +/ 0.00 after calibration, measured at white image of LCD display, Luminance of app. 0 cd/m², x=00 y= 2 x,y +/ 0.00 for Y at 0. cd/m² ¹ x,y +/ 0.000 for Y at cd/m² ¹ x,y +/ 0.000 for Y at cd/m² ¹ x,y +/ 0.0002 for Y at 0 cd/m² ¹ Measurement speed samples / s for Y at 0. cd/m² ¹ 020 samples / s for Y at cd/m² ¹ samples / s for Y at cd/m² ¹ samples / s for Y at 0 cd/m² ¹ Flicker (contrast method) cd/m² or higher +/ % flicker frequency 30Hz AC/DC 0% sine +/ 0.2% wave. Sine wave at 0 cd/m² Flicker (JEITA method) cd/m² or higher +/ db flicker frequency 30Hz AC/DC 0% sine +/ 0.2dB wave. Sine wave at 0 cd/m² Operating temperature 03 C ² Shutter lifetime >000000 Shutter speed 20300 ms depending on temperature and lifetime All measurements are performed 20 times on a LED display with sufficient signal noise ratio, value is based on 2 sigma. Sample speed depends on the measured sample. If the sample uses PWM, it will take longer. Use of lower rated values is strongly recommended to ensure repeatability. 2 Operating temperature reaches from 0 to degrees. Dark level compensation is optimized for operating in temperatures between 0 and 3 degrees.
6 Actual measurement data Luminance Setting : max integration time 00ms Setting 3: max integration time 2ms Setting 2: max integration time 000ms Measurement range from to level level from to level level from to level level (%) (cd/m²) (%) (cd/m²) (%) (cd/m²) 0.00 0.00 0.00 Accuracy (for white) 0.0 0. 0 00 Repeatability (2 sigma) 0.0 0. 0 00 +/% +/% +/4% +/3% +/3% +/2% +/2% +/2% +/% +/% +/.2% +/0.6% +/% +/% +/0.2% +/% 0.0009 0.002 0.0036 0.0 0.04 0.06 0.4 4 0.0 0. 0 00 0.0 0. 0 00 +/% +/% +/4% +/3% +/3% +/2% +/2% +/2% +/3% +/0.6% +/0.% +/0.% +/% +/% +/0.2% +/0.08% 0.0006 0.002 0.003 0.06 0.042 0.068 0.4 0.23 0.0 0. 0 00 0.0 0. 0 00 +/% +/% +/4% +/3% +/3% +/2% +/2% +/2% +/% +/0.% +/0.2% +/0.2% +/0.% +/0.3% +/0.07% +/0.07% 0.000 0.0009 0.0024 0.04 0.03 0.062 0.6 0.2 6
Chromaticity Setting : max integration time 00ms Setting 3: max integration time 2ms Setting 2: max integration time 000ms Measurement range from to level from to level from to level 0. 0. 0. Accuracy (for white) 0. 0 00 Repeatability (2 sigma) 0. 0 00 +/0.00 +/0.002 +/0.002 +/0.00 +/0.00 +/0.00 +/0.00 0.006 0.0026 0.0006 0.00066 0.0003 0.0007 0.0004 0. 0 00 0. 0 00 +/0.00 +/0.002 +/0.00 +/0.00 +/0.00 +/0.00 +/0.00 0.0037 0.004 0.0006 0.00067 0.00028 0.0002 0.0002 0. 0 00 0. 0 00 +/0.003 +/0.002 +/0.00 +/0.00 +/0.00 +/0.00 +/0.00 0.00 0.00022 0.00033 0.00066 0.00033 0.00022 0.000 Speed Setting : max integration time 00ms Setting 3: max integration time 2ms Setting 2: max integration time 000ms from to times/sec from to times/sec from to times/sec xylv 0. 0 00 3000 8 8 0 0. 0 00 3000 3.7 3.7 0 0. 0 00 3000 0.6 0.9 0.6 0.9 0 7
7 Hyperion 0mm dimensions 8
8 Hyperion M8 fibre dimensions 9
Admesy B.V. Sleestraat 3 604 CA Ittervoort The Netherlands T +3 (0)47 600 232 F +3 (0)47 600 36 www.admesy.com info@admesy.com The material in this document is subject to change. No rights can be derived from the content of this document. All rights reserved. No part of this document may be reproduced, stored in a database or retrieval system, or published in any form or way, electronically, mechanically, by print, photo print, microfilm or any other means without prior written permission from the publisher. Version.0.0 08f/207 0