Comparison Lenovo XiaoXin Pad 2022 128 GB / 6 ГБ vs Lenovo Tab M10 Plus 3rd Gen 128 GB / LTE

The maximum brightness in nits provided by the tablet screen.

The brighter the display, the more readable the picture remains on it under intense ambient light. Also, high brightness is important for the correct display of HDR content. However, a large margin for this indicator affects the cost and power consumption of the screen. Manufacturers can specify standard, maximum, and peak brightness values. At the same time, an equal sign cannot be put between the maximum and peak brightness. The first indicates the ability of the screen to produce the specified brightness over its entire area, while the peak one - in a limited area and for a short time (mainly for HDR content).

This parameter shows how much of the tablet's front panel area is on the display. The higher the display/body ratio, the thinner the frames and the more compact the tablet (with the same diagonal), the more elegant and aesthetically pleasing it looks. This indicator is also important when holding the tablet with both hands at once (for example, in games): thin frames or even frameless models allow you to reach further with your fingers without removing your hands from the device.

The amount of random access memory (RAM) installed in the tablet. This memory is used for direct data processing, and therefore its volume is one of the main indicators of system speed and power. However note that the optimal amount of RAM strongly depends on the OS used — different systems and even different versions of the same "OS" can vary greatly in terms of consumed resources. But models on the same OS can be compared with each other in terms of the amount of RAM.

As for specific values, indicators in 1 GB or less in our time are definitely a sign of a weak tablet. 2 GB and 3 GB can be called the entry level, 4 GB and 6 GB are middle class, and in the most advanced models, 8 GB, or even 16 GB can be installed (or even more) RAM.

The ability of the tablet to work in mobile networks of the GSM standard.

This communication standard is considered obsolete, but is still used in some countries as the main one; in addition, GSM modules are usually compatible with 3G (UMTS) and LTE networks. In tablets, this function is usually used to make voice calls — the data transfer rate in GSM networks is very low, and there is usually no talk of comfortable Internet surfing or video calling.

The type of SIM card used in a tablet with a GSM module primarily describes its form factor.

– micro SIM. The largest type of "sim cards" widely used in modern devices: it assumes a size of 15x12 mm. It was introduced back in 2010, nowadays it is being replaced by more compact and advanced nano-SIM and eSIM. Note that in extreme cases, a card for a microSIM slot can be made by simply cutting a larger mini-SIM to the desired dimensions. However, such an operation is associated with a certain risk and requires accuracy, so it is better to contact your mobile operator to replace the SIM card with a suitable one.

— Nano-SIM. The smallest form factor of classic (replaceable) SIM-cards is 12x9 mm. In such cards, the frames are cut off almost “to the very chip”, so there is, in fact, nowhere to further reduce the traditional “sim cards”. This standard appeared back in 2012, but it is still extremely common.

– e-SIM. This type of SIM card is an electronic module that is built right into the device and cannot be replaced. For authorization in the network of a mobile operator, you need to make the appropriate settings in the e-SIM; at the same time, such modules are able to save several sets of settings at once, which makes it easy to switch between different operators — no need to bother with the physical replacement of the SIM card, just change the profile in the settings. Another advantage of such modules is compact...ness. However, before buying a phone with an e-SIM, it doesn't hurt to clarify whether this technology is supported by your mobile operator — even nowadays, not every network is compatible with such modules.

— 3G. Support for third-generation mobile networks (3G) by the modem. Usually it means work in UMTS networks (development of the GSM standard); Depending on the data transfer technologies supported by the network and the tablet itself, the maximum connection speed can vary from 2 to 70 Mbps. This is comparable to the speed of terrestrial Internet connection channels, so 3G connection can be comfortably used for web surfing, downloading files, watching streaming video, video calling, etc. In many models, classic voice calls to mobile and landline numbers are also available; most often these are devices with a small diagonal, which allows you to hold the tablet to your ear like a regular phone.

— 4G (LTE). Tablet support for 4th generation mobile communications — 4G(LTE). Such a connection provides data transfer speeds up to 173 Mbps according to the official specification (1 Gbps in the future), which gives even more comfort when surfing the Internet and other similar tasks than in 3G networks. In many LTE-tablets, classic voice calls to mobile and landline numbers are also available; most often these are devices with a small diagonal, which allows you to hold the tablet to your ear like a regular phone.

Note that the implementation of LTE in different countries and even regions is uneven, so before buying a tablet with such a module, it's ok to clarify the availability of coverage.
<...br> — 5G. Further, after 4G, the development of mobile communication standards. In the official specifications of this generation, a peak speed of 20 Gbps for reception and 10 Gbps for transmission, guaranteed reception and transmission speeds (at high network load) of 100 and 50 Mbps, respectively, as well as a number of solutions aimed at increasing reliability and overall communication quality. A set of such solutions includes, in particular, multi-element antenna arrays (Massive MIMO) and beamforming technologies (Beamforming) at base stations, as well as the possibility of direct communication between subscriber devices. With all this, this standard allows to reduce energy consumption in comparison with its predecessors.
Separately, it is worth touching on rumors about the dangers of 5G communications for health. According to modern scientific data, such a connection does not pose a danger to the human body, and the rumors mentioned are conspiracy theories that are not supported by any weighty arguments.

Bluetooth version supported by the tablet.

Bluetooth itself is a technology for direct wireless communication between various electronic devices. It can be used for various purposes, in particular, exchanging files with another Bluetooth device (laptop, mobile phone), connecting wireless headphones and headsets, peripheral devices (keyboards, mice), etc. The Bluetooth connection does not require both devices to be in line of sight and is stable as they move within range. The range and additional features depend on the connection version:

• 2.0. The earliest of the Bluetooth variations used in today's tablets. Provides a data transfer rate of about 2.1 Mbps.
• 2.1. This version differs from 2.0 in a number of improvements: enhanced security, reduced power consumption and compatibility with NFC technology.
• 3.0. This version is a combination of a Bluetooth 2.1 module and a high-speed add-on that allows you to transfer data at speeds up to 24 Mbps. Thanks to this, the connection is able to automatically adapt to the situation: for small amounts of data, a slow channel is used that does not consume much energy, and for large volumes, the high-speed part is used.
• 4.0. June 2010 version. It is notable for the fact that it combines three protocols: classic, high-speed and BLE (low power consumption). The latter is the most economical at the time of release - the power consumption is so low that the CR2032 "tablet" batteries la...st for several years of operation. The data transfer rate via the BLE protocol is up to 1 Mbps. According to the classical and high-speed protocol, Bluetooth 4.0 is almost the same as version 3.0 (see above).
• 4.1. Development of the version 4.0 described above. One of the key improvements was the optimization of collaboration with LTE cellular modules in order to avoid mutual interference. In addition, it became possible to operate Bluetooth devices simultaneously in several roles (for example, to broadcast audio to a headset and remotely control another device).
• 4.2. The next, after 4.1, is a key update to the Bluetooth standard. Introduced a number of key innovations for working in the "Internet of Things" (Internet of Things), as well as general improvements in speed and noise immunity.
• 5.0. Bluetooth version 5.0, introduced in 2016. In general, it continued the trend set by the 4.2 standard, has even more extensive opportunities for working with the Internet of Things. In particular, in the Bluetooth Low Energy protocol (see "4.0" above), it became possible to double the data transfer rate (up to 2 Mbps) at the cost of reducing the range, as well as quadruple the range at the cost of reducing the speed; in addition, a number of improvements have been introduced regarding simultaneous operation with a large number of connected devices.
• Bluetooth v 5.1. Update of the version described above v 5.0. In addition to general improvements in the quality and reliability of communication, this update has implemented such an interesting feature as determining the direction from which the Bluetooth signal is coming. Thanks to this, it becomes possible to determine the location of connected devices with an accuracy of a centimeter, which can be useful when searching for various accessories - for example, Bluetooth headphones or a wireless gamepad.
• Bluetooth v 5.2. The next, after 5.1, is the Bluetooth 5th generation update. The main innovations in this version are a number of security improvements, additional power optimization in LE mode, and a new audio signal format for synchronized parallel playback on multiple devices.
• Bluetooth v 5.3. The Bluetooth v 5.3 wireless protocol was introduced at the dawn of 2022. Among the innovations, it accelerated the process of negotiating the communication channel between the controller and the device, implemented the function of quickly switching between the state of operation in a small duty cycle and high-speed mode, improved the throughput and stability of the connection by reducing the susceptibility to interference. In case of unexpected interference in the Low Energy mode of operation, the procedure for selecting a communication channel for switching is now accelerated. There are no fundamental innovations in protocol 5.3, but a number of qualitative improvements are seen in it.

Auxiliary function, the main purpose of which is the acceleration of the so-called "cold start" of the main GPS receiver of the device (see GPS module). A "cold start" is the launch of a GPS receiver from scratch, when no data on the location of satellites and other service information has yet been loaded into it. Obtaining this data in the classical way, directly from satellites, can take a significant amount of time (up to several minutes); the situation is especially complicated in areas with dense buildings, where the signal from satellites is subject to reflections and distortions. Devices equipped with aGPS (Assisted GPS) can receive service information from auxiliary sources such as mobile base stations or even Wi-Fi access points; this simplifies location determination and reduces the cold start time by several times.

By itself, fast charging, as the name suggests, reduces the charging time compared to the standard procedure. For this, increased voltage and/or current strength is used, as well as a special "smart" process control. But the possibilities and features of such charging may be different, depending on the specific technology used in the device. The same technology must be supported by the charger — this is the only way to 100% guarantee correct operation. However some types of fast charging are mutually compatible — however, this point should be clarified separately, and compatibility is not always complete.

Here is a brief description of the most popular technologies nowadays:

— Quick Charge (1.0, 2.0, 3.0, 4.0, 5.0). Technology created by Qualcomm and used in gadgets with Qualcomm processors. The later the version, the more perfect the technology: for example, Quick Charge 2.0 had 3 fixed voltage options, and version 3.0 introduced smooth adjustment in the range from 3.6 to 20 V. Most often, gadgets with a newer version of Quick Charge are also compatible with older chargers, but for full use it is desirable to match the versions.
Also note that certain versions of Quick Charge have become the basis for some other technologies, such as Asus BoostMaster and Meizu mCharge. However, again, the mutual compatibility of devices supporting these technologies needs to be clarified separately.

— Pump Express. Ow...n development of MediaTek, used in gadgets with processors of this brand. Also available in several versions, with improvements and additions as it develops.

— Samsung Charge (Samsung Fast Charge, Adaptive Fast Charging). Samsung's proprietary fast charging technology. It has been used without any changes since 2015, in light of which it looks rather modest against the background of newer standards. Nevertheless, it is able to provide good speed, especially in the first 50% of the charge.

— Huawei PowerUp. One of Huawei's proprietary technologies. Formally similar to Quick Charge 2.0, but used with both Qualcomm and other brands of mobile processors, so compatibility is not guaranteed. In general, it is considered obsolete, gradually being replaced by more advanced standards like the SuperCharge Protocol.

— Huawei FastCharge Protocol. Relatively simple fast charging technology used in gadgets from Huawei. In fact, it is an analogue of Huawei Power Up, fundamentally different only in name.

— Huawei SuperCharge Protocol. Another proprietary technology from Huawei introduced in 2016; for 2021 is available in several versions. In some devices, the power of such charging exceeds 60 V — not a record, but a very solid indicator.