Samsung Galaxy F13

Samsung Galaxy F13

Triple Setup

207 gram

6000 mAh

Android 12

6.6" (Inch)

4GB RAM

Nokia T21

Nokia T21

Single Setup

466 gram

8200 mAh

Android 12

10.4" (Inch)

4GB RAM

Announced

Date

June 2022

September 2022

Official announcement date only, not the date for product release.

Model Detail

GTIN / MPN

SM-E135F / SM-E135DS

Unknown

Product identifier details, such as a unique serial number, build number, or model ID.

Platform

OS

Android 12

Android 12

Operating system type (OS) and version number.

Firmware

One UI 4.1

Android Stock UI

Specific firmware name used on the device.

Network

Bands

2G / 3G / 4G

2G / 3G / 4G

Available mobile network support options.

SIM

Dual SIM, Nano SIM

Dual SIM, Nano SIM

Type and support for Subscriber Identity Module (SIM) feature.

Score

90
90

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.

Connectivity

WLAN

Wi-Fi 802.11 a/b/g/n/ac, Dual Band

Wi-Fi 802.11 a/b/g/n/ac, Dual Band

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

90
90

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.

Body & Design

Dimension

165.4 x 76.9 x 9.3 mm

247.5 x 157.3 x 7.5 mm

Dimensions of the device in millimeters (Height x Width x Length).

Weight

207 g

466 g

Weight of the device in grams.

Material

Plastic

Aluminum

Type of main body materials and any extra features if available.

Color Options

Blue, Brown, Green

Gray

Official available body color options.

Score

75
85

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.

Performance

CPU

Exynos 850

Unisoc Tiger T612

Chipset (CPU) hardware name and series.

GPU

Mali-G52

Mali-G57

Graphic (GPU) hardware name and series.

Score

95
95

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.

Memory

RAM

4GB

4GB

Amount of random access memory (RAM) in size capacity.

Internal

64GB / 128GB

64GB / 128GB

Total amount of internal memory storage capacity.

External

MicroSDXC

MicroSDXC

Type of third party memory expansion feature, if available.

Score

95
95

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.

Screen & Display

Size

6.6"

10.4"

Screen size in inches.

Panel

IPS LCD

IPS LCD

Type of display panel hardware.

Resolution

1080 x 2408 pixels

1200 x 2000 pixels

Screen resolution in pixels.

Other

20:9 ratio, (~400 ppi density)

5:3 ratio, (~224 ppi density)

Any extra display and screen features if available.

Score

90
90

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.

Battery

Type

Li-Po

Li-Po

Type of battery model.

Capacity

6000 mAh

8200 mAh

Battery capacity in milliampere hours (mAh).

Feature

Fast charging 15W

Fast charging 18W

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

100
100

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.

Camera

Rear

Triple Setup

Single Setup

Total number of rear cameras.

+

(Main) 50 MP, f/1.8

8 MP, AF

Details of the main camera unit.

+

(Ultrawide) 5 MP, f/2.2, 123˚

-

Details of the secondary camera unit, if available.

+

(Depth) 2 MP, f/2.4

-

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.

+

8 MP, f/2.2

8 MP

Details of the main front camera unit, if available.

+

-

-

Details of the secondary front camera unit, if available.

Feature

Video Recording 1080p@30fps

Video Recording 1080p@30fps

Available video recording support and features.

Score

90
80

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.

Audio & Sound

Type

Loudspeaker

Loudspeaker

Primary sound system type.

Extras

3.5mm jack

3.5mm jack, Stereo Speaker

Extra sound system features.

Score

95
100

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.

Sensor

Biometric

Fingerprint (at the side)

-

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

Yes

Yes

Near Field Communication (NFC) function support.

Other

Accelerometer, Proximity, Compass

Accelerometer, Proximity

Available sensor hardware type and function.

Score

100
80

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.

Price

USD

~ $160

~ $140

Price in US dollars (USD).

EUR

~ €150

~ €130

Price in Euros (EUR).

Comparison Breakdown

Durability

The build quality of the Nokia T21 surpasses that of the Samsung Galaxy F13, owing to the difference in their construction materials. The Nokia T21 features an aluminum structure body, which generally offers a more robust and premium feel compared to the plastic build of the Samsung Galaxy F13. The aluminum constructions tend to provide a sturdier and more durable build, suggesting a higher resistance to physical impacts and wear over time. In contrast, plastic, while lightweight, may be perceived as less resilient in terms of structural integrity. Thus, from a general perspective, the Nokia T21 aluminum build contributes to an overall better built device compared to the Samsung Galaxy F13 plastic construction.

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 Samsung Galaxy F13 and Nokia T21.

Visual Quality

In the domain of visual quality, the Samsung Galaxy F13 outshines the Nokia T21, owing to its superior pixel density measured in pixels per inch (ppi). With an impressive ppi of ~400, the Samsung Galaxy F13 surpasses the Nokia T21, which boasts ~224 ppi. the ppi is represents the number of pixels densely packed within a one inch square on a display.

A higher ppi indicates a more concentrated pixel arrangement, resulting in a sharper and more detailed visual experience. This characteristic proves especially advantageous for tasks such as reading text, viewing images, and watching videos. Consequently, the Samsung Galaxy F13 elevated ppi contributes to a visually appealing and clear display, ultimately enhancing the overall user experience in comparison to the Nokia T21.

In the realm of display panel technology, the Samsung Galaxy F13 and Nokia T21 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 Samsung Galaxy F13 and Nokia T21.

From the screen refresh rate features, the Samsung Galaxy F13 and the Nokia T21 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 Samsung Galaxy F13 and the Nokia T21 find themselves in a tie, providing users with an equally display performance.

Connectivity Features

If we compare the Samsung Galaxy F13 and Nokia T21, both are supported by 4G networks, their performance in this aspect will be a tie. The absence of a distinction in their network support positions the Samsung Galaxy F13 and Nokia T21 on equal footing, making the performance in this regard identical. Users seeking advanced 4G connectivity features can find both devices to be equally capable, offering a comparable experience in terms of network performance.

Concerning Wi-Fi sector technology, Samsung Galaxy F13 and Nokia T21 are on the same level, featuring with the Wi-Fi 5 technology. This similarity in wireless capabilities results in a tie when comparing their Wi-Fi technology. Both devices deliver similar performance in terms of data transfer speeds, connectivity, and efficiency. In this scenario, neither Samsung Galaxy F13 nor Nokia T21 holds a distinct advantage over the other, as they share the same technological foundation in the realm of wireless connectivity.

Next, in the Bluetooth technology sector, the Samsung Galaxy F13 and Nokia T21 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 Samsung Galaxy F13 and the Nokia T21, as they offer comparable features and performance within the realm of Bluetooth technology.

Now, Samsung Galaxy F13 and Nokia T21 stand on equal ground as both incorporate NFC technology, this results in a draw between the two. NFC (Near Field Communication) is a wireless communication technology that enables the seamless exchange of data between devices in close proximity, typically within a few centimeters. It finds application in various scenarios, from mobile payments to instant data transfer, making it a valuable feature for modern smartphones.

RAM & Storage

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, the Samsung Galaxy F13 is equipped with 4GB of RAM, while the Nokia T21 offers a range of 4GB. Ultimately, both devices share an equivalent RAM configuration, resulting in a tie between them. A substantial RAM amount is advantageous for device performance, enabling smoother multitasking and efficient handling of memory intensive tasks. With ample RAM, applications can run concurrently without experiencing slowdowns or performance bottlenecks. This becomes particularly beneficial for users who engage in activities such as gaming, video editing, or running multiple applications simultaneously.

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.

Turning attention to the internal memory specifications, Samsung Galaxy F13 presents a range of 64GB / 128GB of internal memory storage, while Nokia T21 offers a 64GB / 128GB internal memory storage. In this context, both devices share an identical internal memory capacity, resulting in a tie between them. The parity in internal memory amounts suggests that users can expect a similar level of storage capabilities from both Samsung Galaxy F13 and Nokia T21. This tie indicates that, in terms of internal memory storage alone, neither device holds a distinct advantage over the other, providing users with a comparable storage experience regardless of their choice between the two.

Gaming Experience

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 Samsung Galaxy F13 adopts an entry-level hardware configuration, featuring the Exynos 850 processor coupled with the Mali-G52. 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 Samsung Galaxy F13 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 Samsung Galaxy F13 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, Nokia T21 is equipped with entry-level hardware, featuring the Unisoc Tiger T612 processor and Mali-G57. While not tailored for hardcore gaming enthusiasts, this device still holds its ground for casual gaming experiences. The combination of the Unisoc Tiger T612 and Mali-G57 allows the Nokia T21 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 Nokia T21 remains a viable and cost effective option.

Reflecting the hardware performance specifications, both the Samsung Galaxy F13 and Nokia T21 may showcase real life performance results that are either side by side or nearly identical. While not perfectly identical, the subtle differences between the two devices may not significantly impact the overall gaming experience. The closely matched specifications suggest that users can expect a similar level of performance from both devices in terms of gaming. Whether navigating through graphics intensive games or engaging in casual gaming experiences, the overall gaming performance of the Samsung Galaxy F13 and Nokia T21 is likely to be comparable.

Achieving an optimal gaming experience, the comparison of screen sizes between the Samsung Galaxy F13 and the Nokia T21 may one of emerges as a crucial factor. The Samsung Galaxy F13, equipped with a 6.6" screen, is notably smaller than the Nokia T21, which boasts a more generous 10.4" display. This substantial contrast in size is poised to exert a significant impact on the gaming experience. A larger screen, exemplified by the Nokia T21, offers gamers a more expansive and immersive field of view, enhancing the appreciation of in-game details and facilitating improved navigation within virtual environments. This advantage becomes especially critical in gaming scenarios that require precision and swift reactions. Consequently, the Nokia T21, with its larger screen size, is positioned to deliver a superior gaming experience by providing players with a more visually immersive and enjoyable platform.

Considering the screen refresh rate for gaming experience, both the Samsung Galaxy F13 and Nokia T21 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 Samsung Galaxy F13 and Nokia T21 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 Samsung Galaxy F13 and Nokia T21, making the choice between them more dependent on other factors.

Camera Features

The main camera setup of the Samsung Galaxy F13 surpasses that Nokia T21, offering a more comprehensive photography experience. The Samsung Galaxy F13 boasts Triple Setup configuration, providing users with a versatile range of shooting options, enabling users to capture diverse scenes with precision and creativity. In contrast, the Nokia T21 falls behind with its Single Setup features, limiting the variety of photographic capabilities available to users. The additional lens on the Samsung Galaxy F13 enhances its imaging capabilities, making it a more enticing choice for those seeking a more sophisticated and dynamic camera system.

Navigating the landscape of main camera resolution, the Samsung Galaxy F13 emerges as a standout against the Nokia T21, showcasing an impressive 50 MP camera, while the Nokia T21 only comes with 8 MP. Higher megapixel counts typically correlate with finer details and heightened clarity in captured images. This increased resolution opens up possibilities for more extensive cropping and zooming without sacrificing image quality, a significant boon for photography enthusiasts keen on capturing intricate details.

Furthermore, elevated megapixel counts contribute to heightened performance in well lit conditions, yielding sharp and vibrant images. While it's crucial to acknowledge that megapixels alone do not determine camera quality, a larger count, exemplified in the Samsung Galaxy F13, often signals a camera potential for delivering visually stunning and meticulously detailed photographs.

When discussing front camera features, the Samsung Galaxy F13 and Nokia T21 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 Samsung Galaxy F13 and Nokia T21. 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 Samsung Galaxy F13 and Nokia T21, a striking similarity becomes apparent, as both devices are equipped with an 8 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 Samsung Galaxy F13 and Nokia T21 stand on equal footing with an 8 MP configuration.

Sadly, the both of Samsung Galaxy F13 and Nokia T21 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 Samsung Galaxy F13 and Nokia T21 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.

Battery Endurance

Substantial contrast in battery capacity between the Samsung Galaxy F13 and the Nokia T21, with the Nokia T21 boasting an impressive 8200 mAh compared to the Samsung Galaxy F13 8200 mAh, significantly impacts their overall performance. In this scenario, the larger battery in the Nokia T21 proves advantageous for several reasons. A bigger battery translates to a higher energy reservoir, allowing the device to sustain prolonged usage without requiring frequent recharges. This is particularly beneficial for users who heavily rely on their smartphones throughout the day, ensuring that the Nokia T21 can provide a longer lasting and more dependable power supply.

In a positive development, both the Samsung Galaxy F13 and Nokia T21 incorporate the advantageous Fast Charging feature. However, when delving into the specifics, the Nokia T21 emerges as the more advanced choice. The Nokia T21 boasts a Fast Charging capability of 18W, surpassing the Samsung Galaxy F13 15W Fast Charging. This notable difference in charging speeds positions the Nokia T21 as the superior option in terms of battery replenishment time. With its faster charging performance, the Nokia T21 ensures a swifter and more efficient charging experience, making it a preferred choice for users who prioritize rapid battery charging without compromising on overall device performance.

Security Features

At the security features, Samsung Galaxy F13 demonstrates superiority over Nokia T21, primarily owing to its incorporation of a dedicated biometric sensor designed to enhance the device security. This contrasts sharply with Nokia T21, which lacks a dedicated biometric sensor, resulting in all security measures remaining at a standard level. The absence of a specialized security sensor on Nokia T21 places it at a disadvantage, as Samsung Galaxy F13 provides users with an elevated and secure means of device access and authentication through its dedicated biometric feature.

Advantages

Pros list

No notable advantages found on this device

  • Multiple rear camera options
  • NFC capability
  • Large internal memory
  • Expandable storage with external memory card
  • Fast charging feature
  • Dedicated biometric sensor

No notable advantages found on this device

  • High quality build materials
  • NFC capability
  • Large internal memory
  • Expandable storage with external memory card
  • Fast charging feature
  • Stereo speaker function

Disadvantages

Cons list

No significant disadvantage features found on this device

  • Lacks 5G network support
  • Low quality body material used
  • Relatively small RAM capacity
  • Average WLAN connection speed
  • Uses old Bluetooth version

No significant disadvantage features found on this device

  • Lacks 5G network support
  • No physical security sensor supported
  • Relatively small RAM capacity
  • Average WLAN connection speed
  • Uses old Bluetooth version

Benchmark

Point Result

Samsung Galaxy F13

Build Quality : 75
Display : 90
Camera : 90
Performance : 95
Memory : 95
Network : 90
Connectivity : 90
Battery : 100
Sensor : 100
Audio : 95

Nokia T21

Build Quality : 85
Display : 90
Camera : 80
Performance : 95
Memory : 95
Network : 90
Connectivity : 90
Battery : 100
Sensor : 80
Audio : 100

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 :

The Winner is :

Samsung Galaxy F13

Samsung Galaxy F13

After comparing the specifications data above, we can confidently say that Samsung Galaxy F13 has better overall performance than Nokia T21, based on the final score data.

The Winner is :

Both are Winner!

After comparing the specifications data above, we can conclude that Samsung Galaxy F13 has a very similar overall performance to Nokia T21, based on the final score data.

The Winner is :

Nokia T21

Nokia T21

After comparing the specifications data above, we can confidently say that Nokia T21 has better overall performance than Samsung Galaxy F13, 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.

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