Our UN32C6500VF review focuses on image quality, color accuracy, input lag, and more. The Samsung model fared better than the other edge-lit LED-based models we tested. In fact, it exceeded the Sony EX700 and Panasonic model by a significant margin, showing the greatest difference in darker scenes.
Image quality
The image quality of UN32C6500VF depends on many factors, including the dE value, the source-to-image receptor distance, the image orientation, the focal spot size, and the amount of magnification. These factors affect the resulting image quality and the reproduction of fine low-contrast detail. Despite these limitations, the UN32C6500VF delivers good image quality.
TV Feature Video
Image quality can degrade over time due to distortions introduced during the acquisition or processing of an image. Examples include noise, blurring, ringing, and compression artifacts. While human observers perceive image quality differently, objective measures of image quality are highly correlated with subjective perceptions. These metrics enable us to track unperceived errors in the image processing pipeline, and to compare the performance of various image processing algorithms.
Color accuracy
If you want to test the color accuracy of a monitor, you can use the dE2000 test. It measures the difference between the reproduced color and the target color. While dE is important, it is not always indicative of color accuracy. For example, two different monitors with the same dE can have dramatically different reds.
The dE2000 test is based on the CIE 1976 Uniform Color Diagram, which is highly non-uniform. In comparison, the NTSC Color Gamut has been out-of-date for over thirty years. The i1Pro displays are calibrated. The X-Rite i1Pro color measurement tool is Spectracal-certified. The color gamut represents the range of colors that a display can reproduce, and the color accuracy is a measure of how closely the display reproduces the color from the original source. This value is usually expressed as a delta E (or dE), where the lower the value, the more accurate the display’s color reproduction is.
Color accuracy is a critical feature for monitors. It affects the way you view content and how accurately you can judge the content’s quality. For this reason, color accuracy is important when working with content requiring accurate reproduction of colors. If a monitor’s color accuracy is not up to snuff, you may not be able to tell the difference.
Input lag
Samsung’s UN32C6500VF monitor has a large LED set, but it has a large input lag. The display’s default 120 Hz AutoMotion Plus mode causes a 200ms delay in the processing of video images, which makes it impossible to play games. You can reduce the delay by enabling “Game Mode,” which activates the default settings for the monitor’s optical digital output.
Input lag is the time it takes for an image to register on the screen. This delay occurs because the TV does a lot of image processing. Because the television has so many pixels to process, it can take a while for the input to register on the screen. It can be noticeable in video games, where a lower input lag can mean the difference between winning and losing. However, input lag does not matter when watching movies. It can cause a slight delay when scrolling through a menu on a smart television.
Gaming is the most important activity for this monitor, and it’s important to have a low input lag. An input lag of 16ms or less is ideal. Input lag can be a significant problem, especially for those who play games on their PC or console. Xbox gamers, for example, use signals with a 1440p resolution, and their input lag can be significant.