Comparison TCL 65C9K vs TCL 65C8K
Add to comparison | ![]() | ![]() |
|---|---|---|
| TCL 65C9K | TCL 65C8K | |
| Outdated Product | Outdated Product | |
| TOP sellers | ||
Can operate at 288 Hz in FHD mode. Built-in light sensor. Peak brightness of 5800 cd/m². Processor analyzes and enhances the image using advanced AI capabilities. | Built-in light sensor. HDR brightness up to 4500 nits. The processor analyzes and enhances the image with advanced AI capabilities. | |
| Size | 65 " | 65 " |
| Operating system | Google TV (Android TV) | Google TV (Android TV) |
| CPU | TCL TSR AiPQ | TCL TSR AiPQ |
Display | ||
| Matrix | QLED | QLED |
| Backlight type | Mini LED | Mini LED |
| Screen surface | anti-glare | |
| Resolution | 3840x2160 px | 3840x2160 px |
| Upscaling | up to 4K | up to 4K |
| Dynamic contrast | 58 000 000:1 | |
| Frame rate | 100/120 Hz | 100/120 Hz |
| Frame rate (game mode) | 144 Hz | 144 Hz |
| Colour gamut DCI-P3 | 97 % | 97 % |
| HDR support | HDR10+, Dolby Vision | HDR10+, Dolby Vision |
| IMAX Enhanced | ||
| Brightness / contrast enhancement | ||
| Colour enhancement | ||
| AMD compatible | AMD FreeSync Premium Pro | AMD FreeSync Premium Pro |
Multimedia | ||
| Speaker system | Bang & Olufsen | Bang & Olufsen |
| Audio decoders | Dolby Atmos, DTS Virtual:X | Dolby Atmos, DTS Virtual:X |
| Digital tuner | DVB-T2 (terrestrial) DVB-C (cable) DVB-S (satellite) DVB-S2 (satellite) | DVB-T2 (terrestrial) DVB-C (cable) DVB-S (satellite) DVB-S2 (satellite) |
Features | ||
| Features | AirPlay 2 Wi-Fi 6 (802.11ax) Miracast Google Cast (Chromecast) Bluetooth v5.4 voice control Google Assistant | AirPlay 2 Wi-Fi 6 (802.11ax) Miracast Google Cast (Chromecast) Bluetooth v5.4 voice control Google Assistant |
Connectors | ||
| HDMI | 4 | 4 |
| HDMI version | v 2.1 | v 2.1 |
| HDMI technologies | CEC, eARC, ALLM, VRR | eARC, CEC, ALLM, VRR |
| Additional inputs | USB-A LAN | USB-A LAN |
| Outputs | optical | optical |
General | ||
| Wall mount | VESA 300x300 mm | VESA 300x300 mm |
| Stand shape | monolithic | monolithic |
| Power consumption | 85 W | 67 W |
| Energy efficiency class (new) | E | D |
| Dimensions (WxHxD) | 1434x860x368 mm | 1434x890x368 mm |
| Dimensions without stand (WxHxD) | 1434x824x50 mm | 1434x824x50 mm |
| Weight | 23.1 kg | 23.3 kg |
| Color | ||
| Added to E-Catalog | july 2025 | april 2025 |
Compare TCL 65C9K and 65C8K
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Glossary
Screen surface
The type of coating used on the TV screen.
— Matte. Historically, the first type of coating for LCD screens, which is often found today. Screens with such a coating generally have average characteristics of brightness, saturation and colour reproduction quality, in terms of these indicators they are inferior to glossy counterparts. However, the matte coating has one important advantage: it has virtually no glare from ambient light. In some situations, this can be an important advantage — for example, if the TV is installed opposite the window. And for some users it is more pleasant to look at the screen without glare, albeit relatively dim.
— Glossy. A coating designed to improve the brightness and colour quality of the visible image compared to matte screens. The creators have managed to achieve this goal: "glossy" screens really provide rich, vibrant colours and a brighter image. The key disadvantage of such screens is the appearance of glare from ambient light on them — this can ruin the whole viewing experience. Because of this, the classic glossy coating is practically not used today, anti-glare solutions have taken its place (see below).
— Glossy (anti-glare). Modification of the glossy coating, created, as the name implies, in order to eliminate the main drawback of the classic gloss — glare from external lighting. This is not to say th...at such screens do not glare at all, but there are much less reflections on them than on ordinary glossy ones. As for the image quality, it is at least not much worse, and often even better (especially since such coatings are constantly being improved). Thanks to all this, most modern TVs of all price categories are equipped with anti-glare screens.
— Matte. Historically, the first type of coating for LCD screens, which is often found today. Screens with such a coating generally have average characteristics of brightness, saturation and colour reproduction quality, in terms of these indicators they are inferior to glossy counterparts. However, the matte coating has one important advantage: it has virtually no glare from ambient light. In some situations, this can be an important advantage — for example, if the TV is installed opposite the window. And for some users it is more pleasant to look at the screen without glare, albeit relatively dim.
— Glossy. A coating designed to improve the brightness and colour quality of the visible image compared to matte screens. The creators have managed to achieve this goal: "glossy" screens really provide rich, vibrant colours and a brighter image. The key disadvantage of such screens is the appearance of glare from ambient light on them — this can ruin the whole viewing experience. Because of this, the classic glossy coating is practically not used today, anti-glare solutions have taken its place (see below).
— Glossy (anti-glare). Modification of the glossy coating, created, as the name implies, in order to eliminate the main drawback of the classic gloss — glare from external lighting. This is not to say th...at such screens do not glare at all, but there are much less reflections on them than on ordinary glossy ones. As for the image quality, it is at least not much worse, and often even better (especially since such coatings are constantly being improved). Thanks to all this, most modern TVs of all price categories are equipped with anti-glare screens.
Dynamic contrast
The level of dynamic contrast provided by the TV screen.
Contrast in a general sense is the ratio in brightness between the brightest whites and the darkest blacks that the screen can produce. Other things being equal, the higher the screen contrast, the better the quality of colour reproduction and detail, the lower the likelihood that it will be impossible to see details in too bright or too dark areas of the image. Formally, the main characteristic of screens is static contrast (see above), but even in advanced matrices it is relatively low. Therefore, manufacturers went to the trick, introducing such a characteristic as "dynamic contrast".
Dynamic contrast ratio is the difference between the brightest whites at the highest screen brightness settings and the darkest blacks at the lowest. These contrast ratios can be quite impressive—much higher than static—however, it is impossible to achieve such values within a single frame, and dynamic contrast ratio is stated more for promotional purposes than for describing the actual specifications of the screen. However, it cannot be said that this indicator is completely unrelated to reality. The fact is that many TVs use automatic brightness control, which changes the settings depending on the characteristics of the image. This control is based on the fact that when displaying bright scenes, there is no need to provide a deep black level, and in dark scenes, high brightness of light areas is not needed — th...ese are the features of the human eye. This means that in bright scenes you can increase the overall brightness, and in dark scenes you can reduce it; the maximum brightness difference achievable in this mode of operation is precisely described by dynamic contrast.
Contrast in a general sense is the ratio in brightness between the brightest whites and the darkest blacks that the screen can produce. Other things being equal, the higher the screen contrast, the better the quality of colour reproduction and detail, the lower the likelihood that it will be impossible to see details in too bright or too dark areas of the image. Formally, the main characteristic of screens is static contrast (see above), but even in advanced matrices it is relatively low. Therefore, manufacturers went to the trick, introducing such a characteristic as "dynamic contrast".
Dynamic contrast ratio is the difference between the brightest whites at the highest screen brightness settings and the darkest blacks at the lowest. These contrast ratios can be quite impressive—much higher than static—however, it is impossible to achieve such values within a single frame, and dynamic contrast ratio is stated more for promotional purposes than for describing the actual specifications of the screen. However, it cannot be said that this indicator is completely unrelated to reality. The fact is that many TVs use automatic brightness control, which changes the settings depending on the characteristics of the image. This control is based on the fact that when displaying bright scenes, there is no need to provide a deep black level, and in dark scenes, high brightness of light areas is not needed — th...ese are the features of the human eye. This means that in bright scenes you can increase the overall brightness, and in dark scenes you can reduce it; the maximum brightness difference achievable in this mode of operation is precisely described by dynamic contrast.
HDMI technologies
— VRR. VRR (Variable Refresh Rate) adaptive frame rate synchronization technology allows you to adjust the refresh rate of the image on the TV screen in real time in accordance with the frame rate output by the game console or connected computer. The function ensures smooth rendering of dynamic scenes, eliminates frame breaks, and guarantees comfortable and stable gameplay. Realizable technology with standard HDMI v 2.1.
— ALLM. Automatic low latency mode for games (Auto Low Latency Mode). The TV switches to game mode when it detects a game console connection. Reducing the output delay on the TV panel screen is provided by suspending part of the image processing functions. The ALLM mode can also be useful for karaoke and video calls.
eARC. HDMI v 2.1 has an enhanced eARC (enhanced Audio Return Channel). The technology allows you to send higher quality audio from your TV to your soundbar or AV receiver. It claims to support the latest high bit rate audio formats up to 192 kHz, uncompressed 5.1 and 7.1, and 32-channel uncompressed audio. eARC also supports Dolby TrueHD, DTS-HD Master Audio, DTS:X, Dolby Atmos.
— CEC. The CEC (Consumer Electronics Control) system is designed for remote control of equipment connected to the TV using a single remote control. The devices are connected to the TV panel using an HDMI cable.
— ALLM. Automatic low latency mode for games (Auto Low Latency Mode). The TV switches to game mode when it detects a game console connection. Reducing the output delay on the TV panel screen is provided by suspending part of the image processing functions. The ALLM mode can also be useful for karaoke and video calls.
eARC. HDMI v 2.1 has an enhanced eARC (enhanced Audio Return Channel). The technology allows you to send higher quality audio from your TV to your soundbar or AV receiver. It claims to support the latest high bit rate audio formats up to 192 kHz, uncompressed 5.1 and 7.1, and 32-channel uncompressed audio. eARC also supports Dolby TrueHD, DTS-HD Master Audio, DTS:X, Dolby Atmos.
— CEC. The CEC (Consumer Electronics Control) system is designed for remote control of equipment connected to the TV using a single remote control. The devices are connected to the TV panel using an HDMI cable.
Power consumption
The electrical power normally consumed by the TV. This parameter strongly depends on the screen size and sound power (see above), however, it can be determined by other parameters — primarily additional features and technologies implemented in the design. It is worth noting that most modern LCD TVs are quite economical, and most often this parameter does not play a significant role — in most cases, power consumption is about several tens of watts. And even large models with a diagonal of 70 – 90" consume about 200 – 300 W — this can be compared with the system unit of a low-power desktop PC.
Energy efficiency class (new)
This parameter characterizes the efficiency of electricity consumption. Classes are designated in Latin letters from A to G, in ascending order of energy consumption. Actually, this was originally conceived, until more energy-efficient models pulled up to class A, which eventually received the marking A +, A ++, A +++. Further development of technology has made it possible to go even further, and in order not to produce pluses in energy efficiency labeling, in March 2021, manufacturers returned to the previous indices from G to A, where A is the most energy efficient TV. Accordingly, the 2021 models will have modern markings, while older models will be marked in the same way. Accordingly, now energy efficiency G, F, E has become the most popular, and models with energy efficiency A, D, C are rare.









