Small Display Measurement Aperture
The Chroma 71242 Small-Size Measuring Probe for display color analysis with its precision light path design and lens module, it can accurately measure a wide range of small-sized display devices, including smart wearables, mobile phones, and other flexible display devices.

 


Optical System Structure
The optical system architecture of the Chroma 71242 Display Color Analyzer enables accurate measurement of various display devices, including flexible displays.
With the help of a compact and lightweight motorized shutter module, the light emitted by the tested light source is converged into the optical uniformization module through the objective lens. The module uniformly mixes the light emitted by each point on the test area and projects it onto the X, Y, Z filtered sensor, saving time spent on manual calibration.

 


High Contrast Measurements
In recent years, the Video Electronics Standards Association (VESA) has established clear DisplayHDR specifications for the display industry, ranging from the entry-level DisplayHDR 400 to the high-end DisplayHDR 1400 standards. These standards cover brightness and black levels from 0.02cd/m2 to 1400cd/m2, with higher contrast resulting in more realistic images. The performance of the display is considerably improved when built in compliance with the relevant standards. High Dynamic Range (HDR) provides high contrast display with brighter light and deeper darkness. With the growing development of LCD with MiniLED backlight, the demand for high contrast measurement is also rising. The 71242 was specifically developed to meet this need and has the ability to measure 0.001cd/m2 ~ 5000cd/m2 with contrast ratios of up to one million.

 


Optical Uniformizing Module
By reducing the loss of luminous flux, the amount of light available for use can be increased. This is the main factor that allows our system to achieve fast and accurate measurements in its low-brightness measurement mode. First, the light homogenization module not only achieves a uniform light distribution, but also reduces the loss caused by the transmission of the incoming light into the system, thereby optimizing the usage efficiency of the incoming light. Second, the sensor uses a high-transmittance Y filter and a high-sensitivity light detector to further enhance the efficiency of the amount of incoming light and achieve accurate ultra-low brightness measurement results.

 


Analog-to-Digital Converter (ADC)
The in-built 20-bit A/D converter greatly improves the range of luminance and chromaticity measurement with its multiplexing and pA precision current measurement circuit. And with the fast algorithm developed by Chroma, the measured analog values can be quickly converted into precise figures.

 

Optical Measurement Software

The 71242 Display Color Analyzer is equipped with optical measurement software that captures the measurement data, saves it on a computer, and imports it into a report for processing. The included optical measurement SDK allows users to easily develop test programs to suit their needs.


Color Measurement
The digital/analog display provides 4 different display modes: xyY、TΔuvY、u′ v′ Y and XYZ. The desired measurement mode can be selected according to the user's needs, and can be set to perform a single measurement or continuous measurement.


Gamma Measurement
The Gamma value is used by displays to address the difference between the brightness perceived by the human eye and the actual intensity of the light source. VESA's FPD Measurement Standard 302-5A expresses Gamma as L = aVγ+Lb, plotted in the two graphs below. The Perceived Brightness graph illustrates how the human eye responds to changes in brightness, while the Gamma 2.2 Curve graph depicts the curvature of the display output's transition from black to white. Quantitative research has shown that the human perception of brightness follows a non-linear curve—the higher the brightness level, the less responsive our eyes are to changes in that brightness. Consequently, fine-tuning the Gamma value plays an important role in ensuring the luminance of the display matches the brightness perceived by the human eye.
Gamma measurement is available for red, green, blue and white colors. In addition to the standard Gamma curve, the Gamma value and curve of each color are displayed after the measurement is completed. Users can adjust measurement color scales up to 4096 (12bit) according to their needs.

*VESA stands for Video Electronics Standards Association

Flicker Measurement
VESA and JEITA have each defined different methods for measuring the flicker level. VESA's FMA (Flicker Modulation Amplitude) method involves assessing the variation in brightness of the liquid crystal display (shown in Figure 1). The VESA FMA equation is as follows: FMA = AC/DC= Vmax-Vmin/ [(Vmax+Vmin)/2]X100%

The JEITA measurement method (shown in Figure 2) uses a luminance meter to measure the center of the screen. The data measured by the meter is sent to the filter that corresponds to the human eye's perception of flicker. The data is output to the FFT analyzer, which is then used to obtain the distribution of power at different frequencies, calculated as follows: JEITA = 10*log (Px/P0)[dB]
*P0 denotes the power spectrum at frequency 0, and Px denotes the power spectrum at different frequencies.

Figure 1

Figure 1

The Chroma 71242 Small Sized Measuring Probe complies with both the VESA and the JEITA standard, offering two flicker measurement modes: FMA and FLVL. The FMA measurement mode shows the AC/DC relationship between the change in brightness (AC) and the basic quantity (DC). The FLVL (JEITA/VESA) measurement mode separates all the different frequencies of the AC quantity, while the optical measurement software shows a graph of the flicker value of each frequency, making it easier to locate the frequency point of the generated flicker.

FMA

FLVL

*VESA stands for Video Electronics Standards Association
JEITA stands for Japan Electronics and Information Technology Industries Association


Delta E (ΔE) Measurement
Delta E (also referred to as ΔE or dE) is a color measurement standard established by the International Commission on Illumination (CIE). It uses a specific formula to convert RGB and tristimulus values into the L*a*b* color space to compare the differences between two colors. "Delta", or Δ, is a Greek letter used to represent difference or change, and "E" refers to "Empfindung", which means sensation in German. In full, Delta E refers to perceptual difference, so the measured value of Delta E represents the difference between the displayed color and the original input color. A lower Delta E value indicates higher color accuracy, while a higher Delta E value indicates a more noticeable color difference.
Chroma 71242 supports Delta E 2000 measurement. The software provides an editable list for the three primary colors (RGB) ranging from 0 to 255. This function can be used in conjunction with color gamut, gamma, and white point measurement. By setting the upper limit for Delta E, users can easily determine whether the color difference meets the specifications. Also supports measurements with standard test images from the Chroma VPG 2238.

*CIE stands for Commission internationale de l'éclairage

 

Color coordinate conversion diagram


Color Gamut Measurement
Provides multiple color gamut options such as B.T 2020, Adobe RGB, and NTSC. The color gamut triangles added to the color coordinates make the measured values more intuitive. After measurement, the ratio of each color gamut triangle is calculated in real-time, allowing the operator to immediately view the extent to which the DUT fills each gamut.


Color Calibration
To meet the user's calibration needs, the optical measurement software provides a special function that can directly read the values of the instrument to be calibrated, which eliminates the need to transcribe the data and avoids the problems caused by transcription errors while enhancing the efficiency and correctness of calibration.


Test Program Editing
Test items can be programmed directly on the stand-alone unit. A program interface is also provided for users to program on a computer, and the edited test program can be saved for other users to use without re-programming, which improves operating convenience and efficiency.


Multi-Probe Measurement
Users can use the optical measurement software on their personal computers to display measurement values in real-time, save test results, and output data for analysis. The system also supports multiple 71242 Small-sized Measurement Probes for simultaneous measurement, as well as outputting signals in combination with Chroma's Video Signal Generator.

 

Application Architecture


Standalone :  controlled through Color Analysis Master software
1. Real-time display of measurement results
2. Supports multi-probe setup
3. Analysis of saved test data

Display application :  controlled through Video Pattern Generator 2238
1. Graphical User Interface (GUI)
2. Programmable test items
3. One-button report output

Flat panel display application :  controlled through GO/NOGO software
1. Auto Flicker measurement
2. Test results and graphs storage
3. Integrated signal generator and probe


Flicker Measurement Structure
The 71242 performs flicker measurements in compliance with the FMA (Flicker Modulation Amplitude) and JEITA (Japan Electronics and Information Technology Industries Association) measurement methods as specified by VESA (Video Electronics Standards Association). When paired with Chroma's FPD Tester series LCD module, the system can achieve completely automated flicker adjustment.

 

Applications
Wearable devices, phones, notebooks, monitors, tablets, camera monitors, medical equipment, automotive, VR/AR, and other imaging-related products.


Wearable devices

Phone, Notebook

Monitor

Tablet

Camera Monitor

Medical Equipment

Automotive

VR/AR

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