- ens-based, expanded X2 sensor capabilities allows for enhanced color/brightness range calibration in today's HDR/high-brightness monitor market, up to 2000 nits.
- Ideal for both photo and video, as well as digital design, content creation and HDR content production and consumers with high brightness monitor/advanced calibration needs.
- Adaptable X2 sensor ensures precision calibration for today's high-brightness monitors, connected TVs and projectors plus ensures ongoing functionality with future technical advances in HDR/high-brightness monitors.
- Remastered software provides a cleaner more concise user interface (UI) experience.
- New hardware with native USB-C connection. Also includes USB-A adaptor for added convenience.
- Ultimate color control capabilities (High Brightness Workflow; Video & Cinema Targets (Rec. 709, Rec.2020); Advanced Display Mapping & Analysis; unlimited calibration settings; Soft Proofing; Studio Match for multiple monitor calibration.
- Note: Make sure HDR mode is turned off before calibrating your monitor to avoid inaccurate results.
New Spyder X2 unleashes your reach to new color horizons for photos and videos, allowing for precision monitor color calibration throughout an expansive range of brightness levels.
We've remastered our Spyder X software and expanded our sensor capabilities to deliver our most versatile monitor color calibration tool to date.
How to Determine Your Monitor's cd/m2 or NITs
The brightness capability of your monitor screen (expressed as cd/m2 or NITs) can usually be found on its packaging box or the manufacturer's website. The following link may also be helpful.
Advanced Display Mapping & Analysis
Get a better understanding of the color, brightness, contrast, gamut, tone response and white point of your monitors. You can also check screen brightness, color uniformity, and display color accuracy.
Side-by-side Multiple Computer/Display Calibration
Studio Match provides simultaneous side-by-side calibration for multiple computers/displays. Ensures consistent and accurate color reproduction across multiple connected monitors with most monitor types.
Video and Cinema Targets
Experience a more concise user interface (UI) experience.
Includes video calibration targets Rec. 709 and Rec. 2020.
Unlimited Calibration Settings
Starting with industry-standard presets, you can customize settings to meet all your calibration needs, including fully customizable gamma curves, white point, and brightness settings.
Soft Proofing
Allows you to simulate other displays and devices on your calibrated screen. For printers, you can see how prints will look for a specific printer model, paper and ink, and upload ICC printer profiles.
Room Light Monitoring
An integrated ambient light sensor measures your room light throughout the day allowing you to adjust your display brightness and contrast to ideal levels. The software can either warn you to recalibrate or do it automatically using custom profiles based on light level.
How it works
Display calibration optimizes your monitor's color performance and accuracy for your workflow (photography, videography, etc.). This quick and easy process measures, evaluates and corrects your monitor display for an accurate view into your digital world.
Spyder monitor calibrators create an ICC display profile that is used by the video card and color managed software in your computer's operating system. A calibrated display enables your computer to show a true color representation of your image file within your editing software so you can make accurate editing decision to create the look you want.
Step One
Download, install and launch the Spyder software. You'll be prompted to answer a few questions about your display and workflow which will be saved for future calibrations. You may also find this link helpful:
Step Two
Place the Spyder device on your display within the outline and let the Spyder software go to work. It will take a series of measurements to build the ICC profile and help you adjust your display's brightness.
Step Three
When the measurements are completed, remove the sensor from your display and save the profile which remains housed in your computer to be used for this monitor moving forward. You can always simply delete the profile to return to your monitor's factory default settings.