samsung tft display mobile free sample

Guangzhou Calisoon Electronics Co., Ltd. was established in 2002, with two professional manufacturing and production factories,run by a team more than 200 elites, located in Haizhu district, Guangzhou. Our company specializes in professional manufacture with mobile phone battery & Mobile phone LCD，sales service covering Asia, Europe, the United States and other regions, is a collection of R&D, production and sales as one of the high-tech enterprises.

During these 18 years, the company team has continuously accumulated independent research and development experience, continuously upgraded the technical system, thoroughly understood the needs of the industry, and closely monitored the user experience. We understand that we must give customers stable product, quality after-sales service, and improvement on the repair success rate to achieve the maximum value. In the future, we will continue to explore better technological applications, continue to improve and optimize product quality, and strive to become a trusted hardware provider in the mobile phone aftermarket industry.

ISO27001 and ISO27701 certification are international standards for information protection and personal information protection management systems established by the International Organization for Standardization (ISO) and the International Electrotechnical Commission (IEC). Samsung MagicINFO was certified after a strict screening and verification process by international judges reviewing 114 information security items, 114 personal information security items and 49 other requirements with a personal information handler and personal information processor.

The "p-display" nomenclature used in this article refers to the number of pixels displayed across the width of a given phone"s screen. Earlier phones with lower than 720p (lower than HD ready resolution) are not included in this listing. The lists below are dynamic lists and may be sorted into alphabetical order by clicking on the "sort icons" at the top of the first column.

Market forces made us endure screens interrupted with various sorts of notches and cutouts for a considerable time, but that’s all about to end soon. In the last few years, we have seen the Android community evolve from hating notches to being indifferent towards them. But living with the new wave of bezel-less, full-view display phones has convinced us that the world is better off without notches and it’s imperative that natural order be restored to our phone screens. (हिंदी में पढ़िए)

For now, most of the true full-view and notch-less display phones use Pop-up cameras or sliders, but a few tech giants including Samsung, Oppo, and Xiaomi have already demonstrated prototypes or released phones that place the front camera behind the screen.

Samsung Galaxy Z Fold 3 5G is the world’s first commercially available phone with an under-display camera (UDC). The main screen of this foldable phone is a 7.6-inch Dynamic AMOLED 2X panel with a 22.5:18 aspect ratio, QXGA+ (2208 x 1768) resolution, 120Hz refresh rate, and 374ppi. Thanks to that UDC, you get a 88.57 % screen to body ratio.

Xiaomi’s Mi Mix 4 is yet another under-screen camera phone. It calls its implementation CUP (Camera Under Panel), but the mechanism is pretty much the same as the other under-display selfie cameras out there. Above its 20MP selfie camera lies 400ppi pixels of the screen. This display stretches 6.67-inches and sports 120Hz refresh rate.

Asus Zenfone 8 Flip has a 6.67-inch (2400 × 1080 pixels) Full HD+ E4 AMOLED HDR10+ display with 90Hz refresh rate, 200Hz touch sampling rate, 110% DCI-P3 color coverage, up to 1000 nits brightness, and Corning Gorilla Glass 6 protection. This full screen fascia is possible thanks to a flip camera module.

OnePlus was one of the first few Android OEMs to usher in a notch, and it’s also one of the first in the premium segment to get rid with OnePlus 7 Pro (review). It further continued the trend with OnePlus 7T Pro which comes with a gorgeous true full-view display with extremely narrow bezels.

The elevating module opens like a fin and also makes room for the earpiece and LED flash. Anyway, the result is an immersive full-view AMOLED display that extends edge to edge. The Reno 10X Zoom has flagship-grade specs, including the Snapdragon 855, but all the tech housed within makes it a tad thick and heavy.

The Galaxy A80 is the only phone from Samsung with an AMOLED screen that extends edge to edge. Yes, even the high-end S-series and Note-series flagships rely on cutouts or punch holes to accommodate the front camera.

The Galaxy A80 implements the bezel-less, full-view screen using an elevating and swivel camera system. Thus the triple rear cameras also double as front selfie shooters. Perhaps this unnecessarily complicated design can be held responsible for disproportionately inflating the price. So, if you really consider an immersive full-view AMOLED screen from Samsung a top priority, you may consider the Snapdragon 730-powered Galaxy A80.

The 6Z (globally known as the Zenfone 6) is one of the most impressive phones we have seen from Asus in India. The 6Z (review) has a gorgeous and well-calibrated IPS LCD display that covers the entire facia. The selfie camera is housed in a flip module and this glass body phone houses a massive 5000mAh battery while being reasonably manageable.

Xiaomi’s Redmi K20 Pro (review) brandishes an impressive set of specs that you’d otherwise find on phones priced significantly higher. With the K20 Pro, Xiaomi pays due attention to design and the phone gets a full-view AMOLED display (6.4-inch, full HD+) with an in-display fingerprint sensor lying underneath.

Oppo Reno, which is a trimmed-down version of the Oppo Reno 10X Zoom, has the same design with shark-fin pop-up and is also slimmer and significantly lighter. The handset has a 6.4-inch AMOLED display (Full HD) with around 87% screen-to-body ratio that targets DCI-P3 color gamut and is shielded by Gorilla Glass variant.

Motorola One Fusion Plus rocks a 6.5-inch full HD+ notch-less TFT-LCD screen. It’s pop-up camera houses a 16MP sensor. Pivot and by the back you get a 64MP quartet.

The Realme X (review) is a very competent phone that includes trendy features like a full-view AMOLED screen with minimal bezels on three sides, in-display fingerprint sensor, and pop-up camera – all for a sub Rs. 20,000 price.

Redmi K20 passes on most of what’s good with the Redmi K20 Pro at a lower price point. The handset has the same design as the Pro variant and the same immersive full-view AMOLED display.

The Redmi K20 is however driven by Snapdragon 730 and replaces the Sony 48MP sensor with a Samsung sensor of the same resolution. Other features include in-display fingerprint reader, Pop-up camera, and 4000mAh battery with fast charging.

The Vivo 15 Pro has been around for a while, but it’s still a relevant option, especially at the new price. Both the V15 Pro and V15 employ a pop-up front camera and have a full-view display. The Pro variant, however, benefits from a better AMOLED screen and is powered by Snapdragon 675.

Huawei Y9 Prime is the first Huawei phone in India to deliver a full-view screen. The IPS LCD display on the phone measures 6.59-inch and is full HD sharp.

Samsung has developed one of the best full-view display devices globally. One such example of the same is the Samsung Galaxy Note 20 Ultra. The smartphone has a 6.9-inch dynamic AMOLED display complemented with a 120HZ refresh rate. The device has 12GB RAM and 256GB internal storage that can be expanded up to 1TB via a microSD card. It is powered by Samsung’s own Exynos 9 series processor.

iQOO took the whole market by storm with the launch of the iQOO 9 Pro 5G. The smartphone stands as a strong competitor of devices like the OnePlus 9 Pro in the market. It comes with a 6.78-inch AMOLED display that also has a 120Hz refresh rate to offer a smoother experience. The smartphone runs on the Qualcomm Snapdragon 8 Gen 1 processor paired with 12GB RAM and 256GB internal storage in the high-end variant of the device.

The Xiaomi 12 Pro could be hailed as one of the best devices launched by the company so far. The smartphone has a 6.73-inch AMOLED display with a 120Hz refresh rate The smartphone works on the Qualcomm Snapdragon 8 Gen 1 processor for high-speed performance, It also has 8GB RAM and 256GB internal storage to store all your data.

The flagship devices by Vivo have always amazed the users in terms of camera prowess, performance, and display capabilities. Vivo X70 Pro follows the same trend with its 6.56-inch AMOLED display coupled with a 120Hz refresh rate. Though we will say that the smartphone lags behind in terms of the processor as it has a MediaTek Dimensity 1200 processor. Apart from that, it has 8GB RAM and 128GB internal storage that cannot be expanded.

The OnePlus 10 series failed to make an impact like the OnePlus 9 series due to the changes and experiments. Still, the OnePlus 10 Pro was something which the audience loved because of the specs. The device works on the Qualcomm Snapdragon 8 Gen 1 processor with 12GB RAM and 256GB internal storage. The smartphone comes equipped with a Fluid AMOLED display and 120Hz refresh rate.

The Samsung Galaxy S21 FE packs a compact 6.4-inch Dynamic AMOLED display along with a 120Hz refresh rate. The device runs on the Samsung Exynos 2100 processor accompanied by 8GB RAM and 128GB internal storage that is non-expandable in nature. The smartphone operates on the Android 12 operating system offering the user a snappy interface without lots of bloatware.

The Samsung Galaxy S21 FE features a triple rear camera setup consisting of a 12MP primary shooter, a 12MP secondary shooter, and an 8MP tertiary shooter. On the front, it has a 32MP camera for the sake for selfies and video calls. A 4500mAh battery powered the handset and it also comes with fast charging support.

Corresponding Author: Poong-Lyul Rhee, MD, PhD. Health Information Center, Samsung Medical Center, 50 Irwon-dong, Gangnam-gu, Seoul 135-710, Korea. Tel: +82-2-3410-3409, Fax: +82-2-3410-0392, moc.gnusmas@eehr.lp

In healthcare, mobile computing made possible by smartphones is becoming an important tool among healthcare professionals. However, currently there is very little research into the effectiveness of such applications of technology. This study aims to present a framework for a smartphone application to give doctors mobile access to patient information, then review the consequences of its use and discuss its future direction.

Since 2003 when Samsung Medical Center introduced its first mobile application, a need to develop a new application targeting the latest smartphone technology was identified. To that end, an application named Dr. SMART S was officially launched on December 22nd, 2010.

Looking at the usage data, we can see the use of Dr. SMART S by doctors is growing in sync with the popularity of smartphones. Since u-Health seem an inevitable future trend, a more rigorous study needs to be conducted on how such mobile applications as Dr. SMART S affect the quality of care and patient safety to derive directions for further improvements.

In healthcare industry, mobile computing allowed by smartphones is becoming an important tool and has grown in popularity among health care professionals during the past 5 years [1,2]. The smartphone is much more than just a phone [3]. Basically it is very useful for doctor as a personal organizer with calendar and a communication tool with email account. The latest smartphone has a built-in high quality camera. This could potentially be used in the emergency setting to photograph injuries or lesions. Common examples of other popular applications (apps) are osiriX, which allows doctors to view radiology images, Pubsearch, which provides access to millions of journals indexed in Pubmed, Epocrates, which services information on dosages, interactions, contraindications as well as images of drugs, and iDoc which contains 20 medical textbooks [3]. Other examples of information and communication technology (ICT) convergence on the smartphones are "Voalte One" and "Zone Service," which combines phone calls, text messaging, and alarm alerts all in one device, simplifying the communication between the health professionals [3,4]. In practice, many hours of doctors" time have been wasted trying to refer a patient [3]. Thus there are moves to provide doctors with apps in order to provide collaborative and efficient patient care. Doylestown Hospital at Pennsylvania and Mount Sinai Hospital at Toronto recently developed in-house iPhone apps that give doctors secure, remote access to patient records, test results, vital statistics, medical reference apps, and breaking health alerts [5,6]. They enable doctors to make critical treatment decisions, whenever and wherever they want [7].

There is very limited research evidence which influences academic circles, although those case studies were reported on the vendors" brochure. This study aimed at presenting a framework of smartphone apps running on Google"s Android in order to give doctors mobile access to patient information, review consequences of its use and discuss its future direction. In this paper, we described the technical framework in the detail and summarized the results of its use after its adoption into our clinical setting. At the conclusion, we discussed on directions in the future researches.

Samsung Medical Center (SMC) was founded on November 9, 1994 under the philosophy to contribute to improving health of the nation through the best medical service, the advanced medical research and development of outstanding medical personnel. SMC is an academic, nonprofit tertiary care hospital with 1,951 sickbeds where approximately 6,500 staffs including over 1,200 doctors and 2,000 nurses are working. Equipped with the advanced medical service infrastructures, such as the outstanding medical staff, Samsung Medical Information System (SMIS), picture archiving communication system (PACS), clinical pathology automation system and logistics automation system, SMC is leading the new hospital culture in Korea by being the best hospital in high-tech medical services and providing the patient-centered medical services in the genuine sense. SMC attends to about 8,500 outpatients per day, has an average of 1,800 inpatients daily, and performs about 160 complex surgical procedures every day in 2011.

It was August, 2003 that SMC introduced a mobile app for the first time (Figure 2). At that time, it was rare for hospital to introduce "Zone Service" using smartphones as part of an effort to realize fixed mobile convergence (FMC) [4]. The first app was developed to run on the Palm OS, which was adapted to Samsung smartphone, "SCH-M3300." Since then, the app was upgraded by 3 times. The first upgrade was for migration from Palm OS to Windows OS. However, the latest upgrade was for both restructuring content and moving to Google Android. SMC also renamed the app as Dr. SMART S, in that it might help doctors be smarter on the smartphone, "Samsung Galaxy S." The contents provided by Dr. SMART S include information of inpatient, outpatient, patient at operating room and patient at emergency room, consultation notes, and patient list waiting to admit. Those are what doctors always want to know although they roam around here and there leaving their offices. It is a microcosmic version of SMIS. There were few changes during last 8 years.

History of mobile application on smartphones. MITs: mobile intelligent terminals, OS: operating system, App.: application, mSMIS: mobile Samsung Medical Information System.

Dr. SMART S is made up with major 3 components, terminal, network infrastructure, and server group, at the technical framework level (Figure 3). The terminal is a kind of smartphone which can have downloadable apps run on the OS. SMC has used Samsung Galaxy S as terminal, which loads Dr. SMART S run on Google Android. The app was developed using Eclipse IDE (Platform 3.5). SMC makes full use of both wireless and wired network as network infrastructure [8]. The end point connected by terminal wirelessly is Aruba Access Point (AP-70, IEEE 802.11 a/b/g). The wired is composed of backbone switch (10 Gbps) at computer room, distribution switch (1 Gbps) from computer room to every floor, and workgroup switch (100 Mbps) at every floor. Major component of server group is mobile server which retrieves data from legacy system and provides them to terminal. The legacy system stores transaction results on SMIS and responds to mobile server"s request. Authentication server between mobile server and legacy system controls users at the security level. OS and database management system (DBMS) on the mobile server are Windows Server 2003, and MySQL 5, respectively. Development tool for mobile server software module was NetBeans 6.0. Legacy system uses Hewlett-Packard Integrity Superdome as hardware, HP-Unix 11.23 as OS, TMAX 4.0 as middleware, and Oracle 10g as DBMS, respectively.

In order to execute Dr. SMART S, the app has to be downloaded into smartphone. Login screen is displayed in the case of pushing app"s icon. Identification (ID) and password (PW) entered into login screen are encrypted and transferred to mobile server through wireless network. The wireless connection is made by the app even though users don"t know network preference. This connection process is two levels of user authentication since media access control (MAC) address of terminal is compared with information of legacy system along with ID and PW check [6]. The two levels of user authentication enable to prevent not-allowed user"s access although a phone is lost [9]. The encryption of data packet maintains the confidentiality of any patient data communication between terminal and server group. The information from ID or MAC address gives users the authority to access patient data with their own level. The terminal is automatically disconnected from network in the case there is not any action on the terminal for a certain period of time which is set by SMC"s policy. After login, the app displays default screen organized by 6 main menus. Details of patient information are displayed on the phone when pushing one of them. The algorithm for using Dr. SMART S and its overall content structure is shown in Figure 4.

In June, 2010, SMC formed task force team (TFT) in order to develop mobile apps that meet doctors" needs. TFT was composed of doctors from internal medicine and surgery as the primary user group; and IT technicians including developers and graphic designers. An initial set of user needs were drawn from the TFT meetings. Then TFT went around the whole hospital area in order to judge whether the needs were adequate to the real clinical setting and defined the final set of requirements. In August, 2010, TFT developed a prototype of display layouts based on the requirements. Since September, 2010, TFT started to develop smartphone application named "Dr. SMART S," based on the requirements and display layouts. In November, 2010, TFT distributed the developed application to the members of task force and tested its functions in detail. After accommodating software bugs and other requests for improvements identified in the testing stage, Dr. SMART S was officially launched on December 22nd, 2010.

The Login screen where ID and PW can be entered pops up when a user selects the Dr. SMART S app icon from the smartphone display (Figure 5A). Then a default screen consisting of 6 main menus is provided if the login process succeeds (Figure 5B). The menu labeled as "inpatient" shows a list of inpatients together with their names, doctors, and other clinical information such as main disease and infection (Figure 5C). When one of inpatients is selected, the buttons labeled as "Vital Sign," "Order," "Examination Results," "Images," and "EMR" are displayed. Vital sign contains vital information for the last two days. It is displayed as a graph or a table (Figure 5D). Orders contain information on drugs, examinations and treatments. It is set to drug information by default (Figure 5E). In case of laboratory examination, the numeric values are colored as red or blue depending whether they cross the thresholds or not. It helps doctors grasp the patient status easily and quickly (Figure 5F). Consultation note, one of the 6 main menus, allows doctors to communicate one another for consultation (Figure 5G). By pressing a dial button, one can directly call the other doctor (consulter) for questions (Figure 5H).

The size of a smartphone display is so small that TFT decided to restrict contents only to view but not to enter data. Since PACS on the smartphone was not approved by the government at the time, TFT did not provide the service although the function itself had already been implemented.

In this paper, we presented our experience of the development, implementation, and deployment of Dr. SMART S that is a smartphone app for Google"s Android mobile platform that allows doctors for access to patients and their medical information from anywhere within SMC, anytime. As such, it can greatly improve the quality of care as well as achieves the "wait-less" objective in SMC"s IT strategy. A unique contribution of our study is that it is one of the early studies on smartphone apps for the use in the real clinical setting with the analysis on their usage.

Nonetheless, there are obstacles that must be addressed before smartphone apps can indeed help doctors and other clinicians make better clinical decisions. An example of such barriers is PACS: recently a plan to legally revitalize the use of mobile PACS has been proposed, but there still remain practical regulatory barriers such as banning access from outside of hospitals [10]. While the majority of people agree that those apps can greatly enhance the use of health information for better healthcare, they also express concerns over information security and protection. These concerns should be addressed by adopting appropriate technology solutions as well as improving security-awareness of people who use the mobile technology.

Finally, the most important observation we make is that, in the long run, the mobile health applications will lead to a new model of healthcare service coupled with state-of-the-art technologies, regardless of their short-term success or failure in the market. One of the most representative examples is the ubiquitous health service, in which smartphones play a pivotal role that relays all sorts of health information data between various kinds of portable health devices such as glucose meters and health information services monitored by physicians. Therefore, we must constantly investigate opportunities for improved quality of care and patient safety offered by smartphone apps such as Dr. SMART S and conduct rigorous analyses on the outcome of the use such apps.

2. Lee MH, Kim J, Jee SH, Yoo SK. Integrated solution for physical activity monitoring based on mobile phone and PC. Healthc Inform Res.2011;17:76–86. PubMed]

4. Choi JS, Lee WB. Economic analysis on the introduction of hospital mobile zone service: a case study of S hospital"s communication expenses. Telecommun Rev.2010;20:683–695.

The Galaxy A13 brings 5G and more power than ever to Samsung"s budget line, but they both come at a high cost. There are better value Galaxy A series phones out there for those buying unlocked, but the Galaxy A13 is still a reasonable buy from US carriers if you can find a good deal.

The Galaxy A10 series has been an affordable way to dip your toe into the Samsung phone family for a few years now. The modest spec sheets have always come with reasonable prices and solid update commitments. Now, though, Samsung is hoping that 5G speeds will raise the budget line’s profile enough to justify an increased price tag. Find out if the gamble paid off in our Samsung Galaxy A13 5G review.

The Samsung Galaxy A13 5G is the successor to the Galaxy A12, though it offers quite a few significant changes. For starters, Samsung has finally trimmed back the number of configurations. Where there were technically six different Galaxy A12 options, you’ll only find the Galaxy A13 5G with 4GB of RAM and 64GB of expandable storage. If you don’t need the latest and greatest speeds, you can also pick up a 4G LTE version of the Galaxy A13. It swaps the Dimensity 700 processor for an in-house Exynos 850 option. It’s also available in black through most US carriers or green exclusively from Samsung (the Galaxy A12 offered white, blue, and red colorways).

The Galaxy A13 we tested arrived running Android 11 out of the box with Samsung’s One UI skin on top. It was on the November 2021 security patch with the June 2021 Google Play system update. It has since received Android 12 and will continue to benefit from Samsung’s robust update policy. According to Samsung, the Galaxy A13 5G will receive four years of security patches and two years of software updates.

Beyond the software, Samsung tapped Mediatek’s Dimensity 700 5G chipset to keep the lights on. It’s not the most potent Dimensity option, but it’s a fair match on paper for the $249 price point. However, that price point represents a sharp increase of $70 over last year. Samsung’s single configuration of RAM and storage may not seem like much, but you can add a microSD card to hold extra photos and apps. The same 5,000mAh battery and 6.5-inch HD+ display are back from the previous model, too.

The packaging is slimmer than ever this time around — it holds the device, a SIM ejector tool, essential paperwork, and a USB-C cable. Samsung’s trend of ditching the charging block has finally hit the budget-friendly realm, so you’ll have to supply your own.

Of course, the most significant change Samsung brought to the Galaxy A13 is 5G support. It’s nice to see a degree of future-proofing on a budget-friendly device, even if it did come alongside a price increase. Mediatek’s Dimensity 700 chipset feels like a far better match for the Galaxy A13 than last year’s Helio P35, too, as I hardly noticed any lag or stuttering this time around.

Samsung kept the side-mounted fingerprint reader from the Galaxy A12, which proved a good decision. It’s quick and easy to reach, and I found that it responded well to my prompts.

The Galaxy A13 5G also houses a hefty 5,000mAh battery. In my testing, I had no issues pushing the device through two full days of usage before hunting for a charger. Samsung’s new 5G support may have drained the juice a little quicker, but the difference isn’t enough to stop this being a multi-day phone on a single charge.

I was also particularly impressed with the performance of Samsung’s primary rear camera. It’s a 50MP camera, though images pixel bin down to 12.5MP by default. I found that it delivered sharp results in good lighting, and the portrait mode’s edge detection was impressive, especially on static objects — you can see an example of this in the image above. The color reproduction is generally good, too, even if it’s not always perfect due to Samsung’s tendency to dial up the contrast (as we’ll see later). Either way, it looks plenty good for those that want to share vibrant snaps on social media.

Samsung has been slowly ditching chargers from its packaging over the last few years, and now it’s the Galaxy A13’s turn. While there are good reasons not to include plugs in boxes, it’s a disappointing change in the context of a budget device like this. The Galaxy A13 is a perfect fit for someone getting their first smartphone. As a result, they may not already have a USB-C charging block and will have to spend some extra money. When you grab a charger, the 15W speeds aren’t exactly impressive, either. I found that a half-hour plugged in gathers about a 20% charge, and a full charge takes more than two hours.

Samsung also made an interesting design decision to add ridges to the back of last year’s Galaxy A12, only to take them away this year. The Galaxy A13 isn’t completely smooth, but the lightly textured back panel feels more like a pebble. This gets quite slippery when handled with slightly wet fingers (don’t actually get the phone wet, though — there’s no IP rating of any kind). In spite of the raised retail price, Samsung chose plastic for the overall construction, which doesn’t feel particularly premium or durable.

Although Samsung’s primary camera performs pretty well on the Galaxy A13 5G, the peripheral options leave something to be desired. For starters, Samsung eliminated the 5MP ultrawide lens from last year but kept the 2MP macro option. On the bright side, you can get that 5MP ultrawide shooter back, but it’ll come at the cost of 5G. I can’t imagine that too many people would choose a low-resolution macro shooter over the ability to fit more in an image, but that’s what you get. The selfie lens also dropped from 8MP to 5MP, though it still captures fine images and has a wider aperture for improved portrait shots.

While the aforementioned main camera is easily one of the phone’s strengths, Samsung’s processing can go overboard. Take the No Parking bags in the sample above. They show up as very red in the image, whereas, in reality, they were more of a traffic cone orange. All of my other images showed good color accuracy, though.

Even though Samsung added a 90Hz refresh rate to its 6.5-inch HD+ panel, I’m hard-pressed to say it’s an improvement that the phone needed. The panel itself isn’t very sharp, nor is it the brightest, which makes the smoother animations feel like an unnecessary boost when there are more crucial issues to address. Unfortunately, the top and bottom bezels are also relatively large for a $200+ device in 2022.

My final problem with the Samsung Galaxy A13 5G comes back to that $249 price tag. It’s a $70 increase over the Galaxy A12, yet the upgrades don’t quite justify the cost. The design and display don’t feel more premium than last year, and the lack of an ultrawide camera sticks out pretty badly. If Samsung had found a way to keep the price steady or increase it by just $20, it would be a different story.

Samsung’s Galaxy A13 5G offers the most complete package of any A10 series device to date, but it does so at a cost. The addition of 5G provides better longevity than previous models, it’s more powerful than ever, and the 50MP primary camera offers pleasing results in good lighting. However, the lack of improvements to the peripheral cameras and missing ultrawide shooter, the weak display, and the bland design raise some questions about the $70 price increase. I can’t help but feel that Samsung would’ve been better off skipping 5G and making improvements to the rest of the package instead to make it a better overall starter smartphone.

For as difficult as the Samsung Galaxy A13 5G can be to justify unlocked, US carrier access tells a slightly different story. Right now, it’s available for free from T-Mobile or for $2 per month at AT&T over 36 months. Paying $72 is much easier to justify than $249 outright.

Nevertheless, the increased price puts the Galaxy A13 5G in competition with a new class of budget devices. It’s still about $30 more affordable than the OnePlus Nord N20 ($282), which is a T-Mobile exclusive. The latest in the Nord lineup sports a 64MP primary shooter with a Snapdragon 695 processor under the hood. It also offers quicker 33W wired charging and a single configuration with 6GB of RAM and 128GB of storage.

The Galaxy A13 5G also has a brand-new rival from Samsung itself — the Galaxy A23 5G. It’s just $50 more expensive at $299 and packs a 5,000mAh battery with 25W wired charging and a design that comes right from the Galaxy A53. That means a fourth rear camera, and it doesn’t even come at the cost of a headphone jack.

Samsung’s budget offering opens the price gap even wider over Motorola’s Moto G 5G (2022) ($399). That phone comes in with the Mediatek Dimensity 700 processor. Motorola’s primary camera matches Samsung’s 50MP, though the Moto G 5G offers Android 12 right out of the box — just don’t expect too many updates afterward, nor NFC support or basic video quality recording options. While you may prefer Motorola’s software experience or OnePlus’ charging speeds, overall, we still recommend the Galaxy A13 5G as the best option.

Samsung"s new Galaxy A13 brings 5G to the budget sphere for the very first time. It packs a hefty 5,000mAh battery to keep you moving for hours on end with three rear cameras to capture your daily life.

In recent years OLED technology has emerged as the leading smartphone display technology, and the world"s most popular phone vendors are all shipping AMOLED smartphones.

In 2018, over 500 million AMOLED screens were produced - mostly to satisfy demand from mobile phones vendors. The smartphone OLED 2018 market was led by Samsung, whohas been using AMOLEDs in its high-end phones for many years, followed by Apple, LG, Xiaomi, Huawei and others. Samsung is branding its smartphone OLED displays as Super AMOLED display.

Most premium phones today adopt flexible OLED displays. Apple for example is using a flexible 5.8" 1125x2436 OLED (made by SDC) in its 2018 iPhone XS (the iPhone XS Max sports a larger 6.5" 1242x2688 flexible AMOLED). Display experts say that the iPhone XS Display is the world"s best smartphone display.

Most display experts and consumers agree that OLED displays are the world"s best smartphone displays. The best smartphone OLED displays are the Super AMOLED displays produced by Samsung Display, but other OLED producers (such as LG and BOE Display) are also producing high quality OLEDs.

Many competitors who trade with cheaper prices show no or less tax, which is a disadvantage for commercial customers. The location of the item is not decisive for this, as is shown at the top of Ebay, but the company headquarters / tax number of the seller, which can be found at the bottom of the imprint. 3) Compatibility: This device is ONLY compatible with the Samsung Galaxy A53 5G SM-A536B not with other Samsung models. You can find the model numbers in different ways, for example on the battery cover (small writing on the underside), on the packaging or under the battery if it is removable. Huawei devices have the model number written on the battery cover (small writing on the bottom), or under the battery (if the battery is removable).  IMPORTANT! The devices are very sensitive. B.