When deciding whether to purchase a Samsung UN40ES6100F television, you’ll need to consider several factors. First, you’ll want to determine whether the price is reasonable. After all, there are lots of new TVs on the market, and you should be able to find a unit that fits your budget. In addition to the price, you’ll want to consider what other consumers have to say about the unit. Many experts and users have provided good reviews of the UN40ES6100F, describing both the pros and cons of the unit. In addition, you can also leave a review and rate the TV so that others can read about your experience with it as well.
MU6100 lacks room correction feature
The MU6100’s display is unimpressive in terms of color accuracy. It follows the target frequency response with only limited low-frequency extension, and it lacks a room correction feature, which helps minimize resonances in the lower mid-range. This model also suffers from dynamic range compression, which is noticeable at higher volumes.
Better digital room correction systems are more accurate and use smarter applications of filters to improve audio quality. These systems measure how loud or soft various frequencies are as they reach the microphone. Some, however, aren’t equipped to deal with reverberation decay, which can have a profound effect on the overall sound of an instrument.
The Dirac Live room correction feature identifies and corrects acoustic problems based on the speaker’s position in the room. This technology also allows you to adjust the sound to correct for any distortion in the room. The software uses a microphone array to measure the audio signal. The microphones need to be pointed toward a screen to get the best results. The software then maps the speaker location in three dimensions.
Most AV receivers and subwoofers have room correction as a standard feature. It is a great way to make audio sound more natural. For example, a good room correction will make basslines sound as deep as the recording, and movie dialogue will sound realistic and enveloping.
The Dirac room correction system can be operated via a PC. It requires Windows or Mac operating system, and the software allows you to adjust both the input and output gain. The software will also backout if it detects clipping. You can even tweak the target curves individually for center speakers and subs. You can also set the maximum frequency.
When it comes to black uniformity and contrast, the MU6100 is a bit better than the LG UJ7700. While IPS is better for brighter rooms and a wider viewing angle, VA panels produce deeper blacks in dim rooms and are more contrast-rich. The Samsung has better out-of-the-box colors and a slightly better response time. It is also better at handling reflections and has better viewing angles.
Despite the MU6100’s lack of room correction feature, it has a proprietary room correction system. Pioneer calls it MCACC and has improved it in recent years. It is a simplified version of ARC, and uses the same USB microphone. You connect the PC to the subwoofer, and the system applies correction to bass frequencies. However, this system does not combat standing waves.
MU6100 accuracy is disappointing
The MU6100’s accuracy is disappointing, especially in movie mode. While it closely follows the target frequency response, it has a lack of low-frequency extension. It also lacks a room correction feature, which helps reduce resonances in the lower midrange. In addition, dynamic range compression is present at higher volumes.
While the MU6100 is similar to the LG UJ7700, it has a different subpixel structure. The UJ7700 is better for bright rooms, as it uses an IPS panel, while the MU6100 has a VA panel. VA panels have higher contrast and black uniformity than IPS panels, but IPS panels are better for wide viewing angles. This difference can make the UJ7700 uncomfortable to use for PC use.