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Date
June 2024
October 2021
Official announcement date only, not the date for product release.
GTIN / MPN
Unknown
XT2155
Product identifier details, such as a unique serial number, build number, or model ID.
OS
Android 14
Android 11
Operating system type (OS) and version number.
Firmware
Android Stock UI
Android Stock UI
Specific firmware name used on the device.
Bands
-
2G / 3G / 4G
Available mobile network support options.
SIM
-
Dual SIM, Nano SIM
Type and support for Subscriber Identity Module (SIM) feature.
Score
Mobile network functionality is an important feature that must be available on modern devices. This feature enables users to use a SIM card to access online networks, facilitating connections between individuals. Good mobile networks must have a fast connection, use the latest technology, and adopt extra features to support the needs of users.
In our matrix calculation, we calculate the mobile network score using a technology adoption approach. If a device offers more complete features on the network bands and uses extra features on the SIM card function, it will receive a higher score. A higher score on this segment will provide a faster and more flexible experience when using the mobile network function.
WLAN
Wi-Fi 802.11 a/b/g/n/ac, Dual Band
Wi-Fi 802.11 b/g/n
Available enabled features on wireless internet network connection hardware.
Bluetooth
5.0, A2DP, LE
5.0, A2DP, LE
Version and features of Bluetooth hardware.
USB
USB Type-C
USB Type-C
Type of connectivity port hardware.
Score
Similar to the mobile network function, the connectivity feature is also an important feature for modern devices. With this feature, devices can connect to other supporting gadgets, such as internet routers, computers, speakers, wearable devices, and others.
Good connectivity features on devices must adopt all the latest wireless connection technologies available. This ability allows devices to make more connections to other devices using the latest Bluetooth technology with lower latency and achieve faster internet connection from the WLAN network.
In this situation, we use a calculation methodology with a technology approach. If a device supports more features on the WLAN function, uses the latest Bluetooth version, and has a modern universal connection port, we can assign a high score to the device. This means that a higher score will bring a more flexible user experience in terms of connectivity.
Dimension
( ? )
164.8 x 75.5 x 8.5 mm
Dimensions of the device in millimeters (Height x Width x Length).
Weight
460 g
184 g
Weight of the device in grams.
Material
Plastic
Plastic
Type of main body materials and any extra features if available.
Color Options
Blue
Gray, Blue
Official available body color options.
Score
The body material is an important consideration for users who want a premium device or need the device for long term use. Therefore, the device must have a good and strong body material component.
In this segmentation, we measure the body and design score using a quality and variety color approach. If a device uses good materials like aluminum and stainless steel, the score will be higher than a device that adopts plastic as the main body material component. If a device uses a more premium body material component and also provides extra protection from water and dust damage, the score will be even higher.
However, we do not include body dimensions and weight information in our matrix calculation because these factors are subjective and can vary from user to user. Some users may prefer larger and bolder devices, while others may prefer smaller and lighter ones. Therefore, we do not include this information in the score calculation.
CPU
Unisoc T606
Unisoc T606
Chipset (CPU) hardware name and series.
GPU
Mali-G57
Mali-G57 MP1
Graphic (GPU) hardware name and series.
Score
The chipset performance on a device is a vital aspect that concerns most people. This is reasonable because most users want a device that can process tasks quickly. The CPU and GPU are the main components that affect performance.
The CPU processes tasks, and the GPU renders images. Both are related to providing the best experience for users. The better the CPU, the more efficient the device will be in terms of battery consumption, because the best CPU is smarter and more advanced in handling system logic.
We calculate the matrix for this segmentation using a performance result approach, where the data is obtained from several benchmark tools. This is done to bring more relevance to the actual data from the performance score. Additionally, the latest chipset model is not always better than the older chipset model because we use an overall performance approach that calculates based on real performance and not just based on the chipset model.
The total score is calculated from the combination of the CPU and GPU scores. The higher the score, the faster and smoother the processing will be for the user's needs.
RAM
4GB
2GB
Amount of random access memory (RAM) in size capacity.
Internal
128GB
32GB
Total amount of internal memory storage capacity.
External
MicroSDXC
MicroSDXC
Type of third party memory expansion feature, if available.
Score
Besides the chipset, memory is also an important component that users must consider when purchasing a device, as it is closely related to the device's performance.
For instance, multitasking is a simple example that highlights the importance of memory performance. If the RAM storage is insufficient, the user may not be able to run several apps simultaneously, and if the RAM runs out, the apps may crash, which can cause the device to reboot automatically.
Moreover, modern apps require large RAM usage to run smoothly, making the RAM sector a crucial factor in our matrix calculation score. We can say that 65% of the score comes from the RAM performance.
We also consider the internal storage when calculating our score. A larger internal storage size will result in a higher score, as the internal storage is crucial for multimedia purposes, among others. Therefore, we pay more attention to this sector.
However, we do not include external storage in our matrix score calculation because several modern users prefer to use cloud storage services instead of physical expansion memory. Furthermore, cloud storage services offer many benefits such as ease of use, safety, and lower cost, as opposed to buying external memory expansion, which is more expensive and less safe.
Size
10.1"
6.5"
Screen size in inches.
Panel
IPS LCD
IPS LCD
Type of display panel hardware.
Resolution
800 x 1280 pixels
720 x 1600 pixels
Screen resolution in pixels.
Other
~149 ppi density
20:9 ratio, (~270 ppi density)
Any extra display and screen features if available.
Score
To ensure the best user experience while using a device, the display and screen sector must be given special attention by the user. This is because the display and screen sector is the first thing that users see on their device, and high definition images on the display screen will enhance the user experience.
A good display screen hardware and software can greatly enhance activities such as navigating, using apps and games, and enjoying entertainment content on the device. When measuring the quality of a display panel, we look at the technology used, screen resolution, and extra features such as screen refresh rate, PPI, and screen protector. However, screen size is not included in our calculation matrix because it is relative and difficult to quantify.
A higher score on the display and screen segmentation means that the device will have excellent visual quality and provide the user with the best experience for any image or visual activity.
Type
Li-Po
Li-Po
Type of battery model.
Capacity
( ? )
4000 mAh
Battery capacity in milliampere hours (mAh).
Feature
-
-
Any extra features related to the power sector, if available.
Charger Model
USB Type-C
USB Type-C
Charging method and type of charger port model.
Score
A good device is one that can last all day. Modern devices can typically endure for more than 20 hours under normal use, although some may only last for 16 to 18 hours. Therefore, if you want a device with a good battery life, you should pay attention to the battery segmentation on the device.
To help users determine how good the battery sector is on a device, we calculate a score using several metrics. First, we calculate the battery capacity and also consider battery features such as whether it supports fast charging or not.
We also factor in the charger method support to create a score. If the device supports multiple charge methods, such as wireless charging, we give it a higher score in the battery segmentation. However, we do not include battery type information in our matrix calculation because it is unnecessary.
It's important to note that a higher score on the battery segmentation does not necessarily mean that the device will have better battery endurance life than other devices. Although it is usually the case, our score is not based solely on battery life but also on the advanced battery features and support available on the device.
Rear
Dual Setup
Dual Setup
Total number of rear cameras.
+
(Main) 13 MP, AF
(Main) 13 MP, f/2.2, 26mm, PDAF
Details of the main camera unit.
+
(Depth) 0.08 MP
(Macro) 2 MP, f/2.4
Details of the secondary camera unit, if available.
+
-
-
Details of the third camera unit, if available.
+
-
-
Details of the fourth camera unit, if available.
Front
Single Setup
Single Setup
Total front camera number, if available.
+
5 MP
5 MP, f/2.2
Details of the main front camera unit, if available.
+
-
-
Details of the secondary front camera unit, if available.
Feature
Video Recording 720p@30fps
Video Recording 1080p@30fps
Available video recording support and features.
Score
The camera feature is a brilliant thing that modern devices offer. With this feature, we can capture any moment as quickly as possible and share the result directly on social media to show others the interesting moments we capture.
Generally, modern devices come equipped with a single camera, while others have more than one camera setup. This is amazing because with a variety of camera lens styles on a single device, we can take photos in multiple styles, including portrait photos, landscape photos, or take photos of faraway objects using zoom cameras.
A good camera feature should produce high quality, clear images with low noise and offer multiple lens styles. You can determine the quality of the camera feature by looking at the score on the camera segmentation. If the score is high, that means the camera feature on that device is brilliant and very good.
For the matrix calculation, we not only consider individual camera specifications but also combine all information data. We consider how many camera lenses are available on the device, how good the main camera features are for both rear and front cameras, and how good the camera can be used for recording video. All of these factors directly impact the matrix calculation score.
Type
Loudspeaker
Loudspeaker
Primary sound system type.
Extras
3.5mm jack
3.5mm jack
Extra sound system features.
Score
For those who love listening to music, watching movies, and playing competitive online games on their device, it's important to pay attention to the audio and sound quality. Not all modern devices have good audio and sound quality, with many only being average.
To determine the quality of audio and sound, you can check the score we have calculated for this segmentation. Our matrix calculation is based on available features, such as the presence of a 3.5mm jack and stereo speaker support. If a device has these extra features, it will receive a higher score. Additionally, we may give extra points if the device collaborates with popular and trusted sound system makers, as this ensures a higher quality of sound.
Biometric
-
Fingerprint (at the rear)
Biometric security hardware model, if available.
GPS
Yes, A-GPS, GLONASS, BDS, GALILEO
Yes, A-GPS
Global Positioning System (GPS) hardware support and features.
NFC
-
-
Near Field Communication (NFC) function support.
Other
Accelerometer
Accelerometer, Proximity
Available sensor hardware type and function.
Score
Sensors are an essential part of modern devices, providing various functionalities such as security, utility, payment, navigation, and specialized features for specific situations. A good device should have complete sensor features to fully meet the user's needs. While most modern devices have all standard sensor features, some devices have more complete sensor features than others.
To assess the quality of a device's sensor features, we calculate a score that takes into account all sensor information. However, we focus on two key sensor features, that are common security sensor and the NFC sensor. These are industry standards for all modern devices and play a critical role in ensuring security and convenience for the user.
The score resulting from the matrix calculation reflects how good a device is in terms of sensor features. A higher score indicates that the device has more complete sensor features and is more flexible in use. This, in turn, makes the user happier with the device.
USD
~ $130
~ $120
Price in US dollars (USD).
EUR
~ €120
~ €100
Price in Euros (EUR).
Teclast M50S and Motorola Moto E20 share a similar build quality as both devices are constructed with plastic materials. In this instance, as both phones employ the same build material, it results in a tie in terms of build quality. The overall durability and resilience of the devices would likely be comparable, and any distinctions would likely arise from additional design features or engineering considerations beyond the basic material used. Therefore, the build quality comparison between the Teclast M50S and Motorola Moto E20 becomes a neutral factor due to their shared use of plastic.
Both of devices share a common feature in their covers, making their build quality comparable. The utilization of the same material underscores their uniformity in terms of both aesthetics and durability, leaving consumers to make their choices based on other distinguishing features or preferences in the Teclast M50S and Motorola Moto E20.
In terms of visual quality performance, the Teclast M50S with its ~149 pixels per inch (ppi), is in direct competition with the Motorola Moto E20, which boasts an even higher ppi of ~270. The Motorola Moto E20 gains an advantage in this comparison, as the higher ppi number signifies a more densely packed arrangement of pixels within a one inch square on its display.
This increased pixel density results in a sharper, more detailed visual experience. Pixels per inch (ppi) is a metric that quantifies the pixel density on a screen, and a higher ppi generally translates to a clearer display. In the case of the Motorola Moto E20, its elevated ppi of ~270 indicates a superior capacity to render images, text, and videos with increased clarity, making it more adept at providing users with a visually striking and clear display compared to the Teclast M50S.
In the realm of display panel technology, the Teclast M50S and Motorola Moto E20 share a common ground, both featuring IPS LCD screens. IPS LCD brings forth advantages such as wide viewing angles, accurate color reproduction, and enhanced visibility. The identical utilization of IPS LCD in both devices ensures that users can expect a consistent and reliable visual experience. This similarity becomes particularly notable in scenarios where display technology plays a pivotal role, providing users with a comparable and satisfactory viewing experience on both the Teclast M50S and Motorola Moto E20.
From the screen refresh rate features, the Teclast M50S and the Motorola Moto E20 align with their 60Hz screen refresh rates. This commonality suggests that both devices deliver a comparable level of smoothness and responsiveness in visual interactions. The refresh rate, measured in hertz (Hz), determines how frequently a display refreshes per second, playing a pivotal role in optimizing the user experience, particularly during activities such as scrolling or gaming. In this comparison, the Teclast M50S and the Motorola Moto E20 find themselves in a tie, providing users with an equally display performance.
Comparing the Teclast M50S that which lacks mobile SIM support, with the Motorola Moto E20 boasting 4G capabilities, reveals a notable disparity. The absence of mobile SIM support in the Teclast M50S places it at a distinct disadvantage, especially for those reliant on seamless connectivity through mobile networks. In situations where users prioritize mobile SIM features, the Motorola Moto E20 emerges as the preferred choice.
Assessing Wi-Fi technology reveals significant differences between the Teclast M50S and Motorola Moto E20. First, the Teclast M50S features Wi-Fi 5, while Motorola Moto E20 utilizes by Wi-Fi 4 technology. From a technical standpoint, Teclast M50S holds superiority given that Wi-Fi 5 offers heightened speeds, increased capacity, and superior performance compared to Wi-Fi 4. Consequently, the Teclast M50S ensures a more seamless and efficient connectivity experience than Motorola Moto E20.
Next, in the Bluetooth technology sector, the Teclast M50S and Motorola Moto E20 both come equipped with Bluetooth 5.0 technology. This condition results in a tie for both devices, as they use the same Bluetooth version. So, in terms of Bluetooth connectivity, there is no distinct advantage between the Teclast M50S and the Motorola Moto E20, as they offer comparable features and performance within the realm of Bluetooth technology.
Unfortunately, both the Teclast M50S and Motorola Moto E20 lack NFC features, resulting in a tie between them. The absence of NFC constrains these devices in terms of modern connectivity and functionality. NFC serves as a wireless technology that enables seamless data exchange between devices in close proximity, offering diverse applications such as contactless payments, swift file sharing, and simplified pairing with other compatible devices. Consequently, users of Teclast M50S and Motorola Moto E20 may encounter limitations in fully exploiting the potential for hassle free connectivity.
In this RAM comparison, our focus is specifically on evaluating the performance of the highest variant RAM option available for both devices. By narrowing the scope to the top tier RAM configurations, we aim to provide a targeted analysis of the devices capabilities in terms of memory capacity and speed. This approach allows for a more direct and relevant assessment, particularly for users who prioritize and invest in the most robust RAM configurations offered by each device.
Considering the specification data, Teclast M50S boasts 4GB of RAM, surpassing Motorola Moto E20 offering 2GB RAM. In this scenario, Teclast M50S holds a distinct advantage due to its larger RAM capacity. A greater RAM amount is beneficial for multitasking and handling resource intensive applications. With more RAM, the device can efficiently manage multiple tasks simultaneously, leading to smoother performance and faster responsiveness. This translates into a superior user experience, especially for those who engage in demanding tasks or run numerous apps concurrently.
Similar to our approach in comparing RAM, we focus exclusively on evaluating the highest variant of internal memory available for both devices. This targeted comparison ensures a comprehensive analysis of the devices storage capabilities by considering their top tier configurations. By concentrating on the highest internal memory variants, we provide users with insights relevant to those seeking maximum storage capacity and performance. This approach acknowledges that consumers who opt for the highest memory configurations prioritize ample storage for various applications, multimedia content, and files.
Referring to the specification data, Teclast M50S emerges as the superior choice over Motorola Moto E20, evident in its internal memory configuration of 128GB, surpassing the 32GB range offered by the latter. The advantage of having a larger internal memory becomes apparent as it allows users to store a greater volume of data, including apps, photos, videos, and files. This expanded storage capacity is particularly advantageous for users with extensive multimedia libraries, those engaged in content creation, or those who require ample space for various applications. Teclast M50S higher internal memory range positions it as a more suitable option for individuals seeking a device with generous storage capabilities, accommodating diverse needs and ensuring a smoother user experience.
Differing from the Teclast M50S, the Motorola Moto E20 stands out by offering an extra feature external memory expansion option. This feature, notably absent in the Teclast M50S, proves to be quite beneficial for users seeking versatility and increased storage flexibility. With this capability, users can enhance the device existing storage by adding a compatible external memory card. It's particularly advantageous for individuals needing extra space to store large files, multimedia content, or additional applications, all without being confined to the limitations of the device internal storage. The external memory expansion feature empowers users to personalize and expand their storage capacity based on their evolving needs, providing a convenient solution for those with dynamic or expanding data requirements.
Within the domain of gaming experience comparisons, evaluating performance by individual devices on a global scale becomes a more viable approach, given the inherent challenges associated with directly comparing devices side by side based solely on CPU and GPU specifications. The complexity, nuanced software optimizations, and diverse user preferences make a comprehensive side by side comparison using hardware specifications alone a difficult task. Relying solely on such technical data may lead to ambiguous or misrepresented results. Therefore, focusing on the overall performance of individual devices can provides a more holistic perspective.
First, The Teclast M50S adopts an entry-level hardware configuration, featuring the Unisoc T606 processor coupled with the Mali-G57. While this combination is suitable for basic tasks and casual use, it falls short in delivering a robust gaming experience for more demanding titles. Technically adept at handling low to mid graphic presets, the Teclast M50S may struggle with the demands of hardcore gaming, limiting its ability to provide optimal performance and graphical fidelity. Users seeking a device primarily for casual or less graphics intensive gaming may find the Teclast M50S sufficient, but those with a penchant for more resource intensive games might need to explore higher tier options for a smoother and more immersive gaming experience.
Next, Motorola Moto E20 is equipped with entry-level hardware, featuring the Unisoc T606 processor and Mali-G57 MP1. While not tailored for hardcore gaming enthusiasts, this device still holds its ground for casual gaming experiences. The combination of the Unisoc T606 and Mali-G57 MP1 allows the Motorola Moto E20 to handle less graphics intensive games smoothly and efficiently. However, its technical specifications suggest that it might struggle with the demands of high-end, resource intensive gaming. Nevertheless, for users looking for a budget friendly smartphone that can handle everyday tasks and provide a decent gaming experience at lower to mid-level graphic settings, the Motorola Moto E20 remains a viable and cost effective option.
Move to RAM specification hardware, the comparison between Teclast M50S and Motorola Moto E20 suggests that the former may offer a superior performance due to its larger RAM capacity. A larger RAM amount contributes significantly to the overall performance of a mobile device, particularly in the context of gaming. RAM functions as the temporary storage space for active applications, including games. With a greater RAM capacity, a device like Teclast M50S can efficiently handle and store more game related data, reducing the likelihood of slowdowns, lags, or interruptions during gameplay. This is crucial for demanding games that require quick data access and smooth transitions. In essence, a larger RAM capacity allows for better and smoother gameplay.
For an optimal gaming experience, the Teclast M50S distinguishes itself with its notably larger 10.1" screen, surpassing the Motorola Moto E20, which features a comparatively smaller 6.5" display. The discrepancy in screen size proves to be a significant factor, exerting a substantial impact on the gaming experience of these devices. A larger screen not only affords gamers a more expansive and immersive field of view, enhancing the appreciation of in game details and environments, but it also proves crucial in games that demand precision and swift reactions. Furthermore, the larger screen contributes to an even more immersive gaming atmosphere, ultimately elevating the overall enjoyment of the gaming experience.
Considering the screen refresh rate for gaming experience, both the Teclast M50S and Motorola Moto E20 stand on equal footing with identical 60Hz screen refresh time features. This parity in refresh rates implies that both devices offer the same level of performance in this aspect, resulting in a tie between them. The 60Hz refresh rate shared by Teclast M50S and Motorola Moto E20 ensures smoother transitions between frames, reducing motion blur and contributing to an enhanced gaming experience. As neither device holds a distinct advantage in this particular feature, users can expect a comparable and satisfactory gaming performance from both the Teclast M50S and Motorola Moto E20, making the choice between them more dependent on other factors.
When it comes to the main camera features, both the Teclast M50S and Motorola Moto E20 share a common ground, utilizing a Dual Setup. The similarity in their camera configurations suggests that the two devices offer a comparable photography experience. So, in this case, the outcome is a tie, as both the Teclast M50S and Motorola Moto E20 provide similar main camera capabilities, making it a matter of user preference and other device features when choosing between the two.
Examining the main camera resolution features, it appears that the Teclast M50S and Motorola Moto E20 are on an equivalent level, both equipped with a 13 MP camera. This parallel specification results in a tie between the two devices in terms of megapixel count. A 50 MP camera provides a substantial resolution, allowing for detailed and clear images. While other factors contribute to overall camera performance, the identical main camera resolution positions the Teclast M50S and Motorola Moto E20 on an even playing field, leaving users to consider additional features and capabilities when making a choice between the two.
When discussing front camera features, the Teclast M50S and Motorola Moto E20 appear to be on par, as both devices feature a Single Setup camera configuration. This similarity results in a tie when considering the basic front camera setup. However, it's crucial to note that the differentiation may lie in specific features unique to each devices camera system. Examining additional specifications, such as sensor quality, image processing capabilities, and any specialized features, will likely reveal distinctions that can influence the overall performance and user experience of the front cameras on the Teclast M50S and Motorola Moto E20. While they share a common Single Setup, the truth may be in the details when comparing the specific attributes that contribute to the overall imaging capabilities of these devices.
When look on to front camera features of the Teclast M50S and Motorola Moto E20, a striking similarity becomes apparent, as both devices are equipped with an 5 MP front facing camera. This identical camera setup results in a tie when evaluating this specific aspect of the devices. While the resolution remains the same, it's important to note that factors such as sensor quality, image processing algorithms, and additional features can still contribute to nuanced differences in the overall front camera performance. However, in terms of the basic front camera megapixel count, the Teclast M50S and Motorola Moto E20 stand on equal footing with an 5 MP configuration.
Sadly, the both of Teclast M50S and Motorola Moto E20 are lack Optical Image Stabilization (OIS) feature in the video recording sector, leaving them with standard video recording capabilities. OIS is crucial for video recording as it helps mitigate the effects of hand movements, shakes, and vibrations, ensuring that the captured footage remains smooth and stable. Without OIS, videos recorded on devices like the Teclast M50S and Motorola Moto E20 may suffer from noticeable jitteriness, particularly in situations where the camera is handheld or subject to external movements. The absence of OIS limits the devices ability to deliver professionally looking and steady video content, which can be a significant consideration for users who prioritize high quality video recording in various environments.
Assessment of battery capacity performance between the Teclast M50S and Motorola Moto E20 is currently impeded due to a shortage of data. The absence of comprehensive information prevents an accurate comparison at this point. Patience is advised as we await the completion of data collection, which is crucial for a thorough evaluation of the two devices. Only with a comprehensive dataset can a final and informed judgment be made regarding the battery capabilities of the Teclast M50S and Motorola Moto E20, allowing consumers to make well-informed decisions based on reliable information.
Talking on fast charging capabilities, the Teclast M50S and Motorola Moto E20 share a similar standing, as neither device is equipped with a fast charging feature. With both smartphones relying solely on standard charging methods, the absence of rapid charging technology levels the playing field. Consequently, users can expect a comparable charging experience from both the Teclast M50S and the Motorola Moto E20, eliminating any significant advantage in this aspect. The absence of fast charging features positions the devices on equal footing, resulting in a tie when it comes to evaluating their charging capabilities.
At the security features, it becomes evident that the Teclast M50S falls short in comparison to the Motorola Moto E20. The Teclast M50S lacks any dedicated biometric sensor, a notable distinction from the Motorola Moto E20, where a dedicated biometric sensor is present. This disparity underscores that, in terms of security, the Motorola Moto E20 holds a distinct advantage over the Teclast M50S. The absence of a dedicated biometric sensor on the Teclast M50S emphasizes the Motorola Moto E20 superior security features, offering users a more advanced and secure means of device access and authentication.
Pros list
No notable advantages found on this device
No notable advantages found on this device
Cons list
No significant disadvantage features found on this device
No significant disadvantage features found on this device
Point Result
Final Score
/ 1000
/ 1000
The total score is calculated based on all segmentation scores, and the maximum score is 1000. The total score reflects the overall quality of the device. If a device has a higher total score than its competitors, it is considered better overall.
However, a high total score does not necessarily mean that the device is excellent in all segmentation scores. If you are looking for a device with specific features, it is best to look at the score for that particular segmentation to make an informed decision.
Based on our calculation matrix, the best device overall on this comparison page is :
After comparing the specifications data above, we can confidently say that Teclast M50S has better overall performance than Motorola Moto E20, based on the final score data.
After comparing the specifications data above, we can conclude that Teclast M50S has a very similar overall performance to Motorola Moto E20, based on the final score data.
After comparing the specifications data above, we can confidently say that Motorola Moto E20 has better overall performance than Teclast M50S, based on the final score data.
[*] This means that there are multiple series numbers (GTIN/MPN) associated with this product.
Prices listed are for reference only and may not reflect the actual market price. Additionally, the price of the product may vary between different countries.
It's important to note that it may not always be 100% correct. Factors such as missing information from the manufacturer or third-party sources, differences in how information is reported, and human error during data collection can impact accuracy.