Haier M95E vs Haier M90E

If there is one category in which the Haier M95E absolutely shines, it is the HDR effect, driven by the raw power of the backlighting. This television cannot be denied the fact that it is a truly bright device. In both most film scenes and during our synthetic measurements, the panel easily achieved, and often even exceeded, the threshold of 1200-1500 nits. This has a direct impact on the viewing experience – the image has a punch and genuinely allows one to feel the magic of materials recorded in this format. However, one must be aware of a certain compromise. When exceptionally demanding scenes appear on the screen, full of small but intense points of light, the M95E does not lose its resonance or dim, but pays a different price for it. A very strong and noticeably distracting halo effect is generated around these bright elements. It is clear here that the algorithms controlling the dimming have been programmed to prioritise brightness and the visibility of the smallest details, even if this comes at the expense of pristine blacks. We are not entirely convinced that this is the healthiest approach; nonetheless, it must be acknowledged that the overall capabilities of the M95E in this regard are indeed significant. A huge advantage is the fact that we are dealing with a Mini LED QLED type construction. The use of a layer of quantum dots brings measurable benefits in the form of wide coverage of the colour palette, which in our tests reached nearly 96% of the DCI-P3 space. This guarantees that the television has full predispositions for displaying vibrant and properly saturated colours.

Haier M90E is a television that does not lack brightness. In most film scenes, the peak luminance exceeds 1000 nits, which gives the image a distinct 'kick' and high dynamics. It performs really well in typical bright HDR materials. However, one must take into account the aforementioned dimming algorithm. In scenes that are not uniformly bathed in light – for example, when displaying single stars on a black sky – the high brightness highlights imperfections in zone control. Instead of a precise point of light, we often see a pronounced halo effect around bright objects. Despite these shortcomings, the overall image presentation can be pleasing, largely due to the colour reproduction. The manufacturer used a phosphor PFS coating, which allows for a wide coverage of the colour palette. In our measurements, the coverage of the DCI-P3 space reached a solid 95%.

Each television is primarily evaluated based on its default cinema mode – in this case, "Movie" – which theoretically should be the "best" and most faithful upon being taken out of the box. Unfortunately, in the case of the Haier M95E, the word "best" is certainly not synonymous with the word "good." Already during SDR viewing, the picture revealed evident problems: white balance skewed too much to red, and excessive, unnatural colour saturation led to visible colour deviations. What’s worse, the M95E also struggles with brightness management (gamma curve), excessively darkening the entire scene. Such behaviour is hard to commend, as it directly leads to details merging into shadows that are irrevocably lost in a black blob.

However, the real disaster occurred after switching to HDR material, while still remaining in "Movie" mode. It’s hard for us to guess who came up with such a fantastic idea – or perhaps it was simply a complete oversight of this stage by Haier's engineers – but instead of cinematic fidelity, the picture began to resemble a garish "Dynamic" mode. The white balance exposed immense problems with the blue colour, which in turn resulted in unnatural sharpening and artificial over-saturation of the entire scene. As if that weren’t enough, the EOTF curve characteristics mercilessly revealed that the television also has fundamental issues with local dimming management in this setting. We have not calibrated many Haier models in our career, but we already know for sure that the M95E definitely needs such calibration.

For the measurements, we selected the Film mode, which is supposed to offer an image closest to the creators' intentions. Unfortunately, in the case of the M90E, its characteristics – apart from the reduced brightness – differ little from the Dynamic mode. Both in SDR and HDR materials, the image is distinctly tinged with a cool blue hue. The white balance is heavily skewed towards blue, which resembles typical, aggressive 'store' settings. This results in an unnatural representation of skin tones and makes the image fatiguing to the eyes over extended viewing periods. The management of brightness also negatively impacts colour fidelity. The television struggles to maintain proper levels – small details are often too dim, while larger, bright areas of the image suffer from clipping. These deviations in the brightness curve, combined with the cool white balance, lead to very significant colour reproduction errors (DeltaE) in the factory settings.

The calibration process left us with extremely mixed feelings. On the one hand, we noted considerable success in the area of colour accuracy. By using the available options in the menu, we managed to tame the white balance and bring it down to an acceptable level. As a result, SDR content finally freed itself from the irritating red dominance, and the HDR image no longer resembled a vibrant, shop display mode. We also succeeded in clearly adjusting the entire colour palette and its saturation – perhaps not perfectly, but as much as the software allowed, and the difference was visible to the naked eye.

And unfortunately, this is where our list of improvements essentially ends, as the M95E simply did not allow for more. As we indicated earlier, most settings related to image brightness do not respond to our commands at all. This means that we were unable to grasp its fundamental characteristics in any way – neither the gamma curve nor the EOTF. In practice, the television in SDR content still tends to darken details, as confirmed by the elevated gamma, merging details in the shadows. Meanwhile, the EOTF curve in HDR mode still ruthlessly exposes all the aforementioned problems with chaotic local dimming management. And although the calibration process itself yielded a lot, removing most of the colour issues, in the end, we had to capitulate.

Haier M90E clearly benefits from professional calibration, particularly with SDR content. The television's menu offers a sufficient number of tools to effectively correct factory errors. We managed to 'tame' the white balance and eliminate the dominant blue tint. We also corrected, though to a lesser extent, the brightness curve (gamma), which allowed us to recover some detail in the shadows that were too heavily dimmed out of the box. The final effect in SDR is a picture that is significantly more natural and pleasant to watch. In HDR mode, the success is only partial. Although we were able to improve the white balance here as well, colour reproduction errors (Color Checker) remained at a high level. Analysis of the EOTF curve (responsible for brightness in HDR) indicates the cause of the problem: the television imposes its own interpretation of the signal and does not provide tools for modifying this curve. The source of the high errors is not the calibration itself, but the specific characteristics of the device – aggressive and imprecise zone dimming interferes with measurements and is 'firmly' embedded in the characteristics of this model.

Well, what happens to those colour connections when a lower quality material full of compression artifacts comes on screen? Unfortunately, we have some bad news for you. Although the menu contains an option responsible for smoothing tonal transitions in older content, we definitely DO NOT RECOMMEND using it. Its activation causes an avalanche of additional, hideous artifacts and noticeably blurs the entire image, and what's funniest – it often doesn't even remove those unwanted "jaggies" it was supposed to fight against. This function might as well not exist at all.

We can write many more positive remarks about the general upscaling process, which raises lower resolutions to the native 4K matrix. The image after upscaling looks really decent – it is neither overly jagged nor artificially smoothed. In this particular matter, the M95E simply performs well.

The evaluation of the image processor must be divided into two separate aspects, as the Haier M90E behaves inconsistently here. The first issue is the upscaling itself, that is, scaling lower resolution content to 4K. In this task, the television performs quite decently. The algorithms effectively enhance detail, resulting in a relatively sharp, clear, and legible final image. In this regard, it is hard to have major objections to the device.

The situation is completely different with materials that have a high degree of compression, as encountered in older recordings or on platforms like YouTube with lower bitrate. Here, the processor "struggles" with smoothing tonal transitions and masking imperfections in the source. The television fails to hide compression blocks, resulting in a very harsh, "digital" character of the image. The lack of effective artifact reduction can severely discourage viewing lower quality content on this screen.

In terms of motion fluidity and blur, our feelings are quite mixed, as the M95E is a paradox of a television. Let's start with absolute admiration: at the heart of the device is a 144Hz panel, but what truly impresses is its performance with 120Hz content, which is crucial for sports and console gaming. We must state with full responsibility that Haier has equipped this television with one of the best VA panels currently available on the market regarding the minimisation of blur. It is rare to encounter an LCD panel that offers such clean, sharp, and ghosting-free motion. In this respect, the M95E is simply phenomenal.

And that is precisely why the unpleasant surprise that awaits us on the software side is so painful. It turns out that this fantastic hardware potential is completely underutilised, as the television practically offers no effective options for improving fluidity. The motion smoothing systems that should assist with lower frame-rate content can indeed be found in the Menu, but they essentially do not respond to our settings. The conclusion is brutally simple: if you intend to watch high-fluidity material, you must be sure that the source is broadcasting it at native 120. In every other case, you must accept a rather raw, stuttering image, as the M95E will do nothing to smooth it out.

The Haier M90E is equipped with a simple yet functional motion smoothing system (MEMC). In the settings menu, the user will find a three-level adjustment scale: low, medium, and high. This allows for the adjustment of the degree of intervention in the image to one’s own preferences – from gentle smoothing of 24p films to maximum fluidity (the soap opera effect). The system operates stably and fulfills its purpose in typical applications.

When it comes to features for gamers, the Haier M95E presents some very strong arguments. First of all, it is fully ready for the new generation of consoles and powerful PCs. It is equipped with two full-fledged HDMI 2.1 ports, which seamlessly handle 4K signals at 120Hz, and even allow for gameplay at 144Hz. This is the foundation that guarantees us the full use of the potential of our gear. Moreover, the key technologies work flawlessly here. The television flawlessly detects the console and automatically switches to low latency mode (ALLM), so we don’t have to fiddle with the settings. The frame synchronization (VRR) works just as efficiently, eliminating annoying screen tearing when game fluidity slightly drops. Considering the incredibly low motion blur of the panel, which we have already mentioned, the M95E creates a really comfortable and responsive gaming environment. Of course, this is not a perfect package. A dedicated "Game Bar," which is a handy menu for gamers, would be useful, but this is essentially just a nice addition. A more serious failing is the lack of support for the HGiG standard, which complicates the perfect HDR configuration on the console and may lead to overexposures. Despite these shortcomings, the basic "gaming" set that the M95E offers is really solid and fully functional.

From a hardware perspective, the Haier M90E is a solid proposition. The television is equipped with two full-bandwidth HDMI 2.1 ports, which supports key technologies: VRR (Variable Refresh Rate) and ALLM (Auto Low Latency Mode). It is also worth noting the proper implementation of the Dolby Vision mode for gaming, which maintains a relatively low input lag. Problems arise with the software configuration. The biggest drawback is the forced, continuous dynamic tone mapping by the television’s processor. This prevents correct HDR calibration from the console using system test patterns (HGiG) – the television ignores source settings and processes the image on its own terms. We also noted shortcomings in the interface: the M90E does not have a typical "Game Bar" (overlay with parameters), which is standard among competitors. Collaboration with Xbox consoles proved problematic with unusual parameters – the device struggles to correctly display a resolution of 1440p at a refresh rate of 120 Hz. Despite the aforementioned software shortcomings, the Haier M90E remains a very appealing screen for gamers. The overall reception is saved by the solid hardware base. The native refresh rate of 144 Hz and the presence of full-fledged HDMI 2.1 ports are advantages that are crucial for everyday use. If we are looking for a television that ensures high fluidity and supports 4K signal, this model will fulfil its task.