Xiaomi on Wednesday introduced its new Redmi Note 5 and Redmi Note 5 Pro smartphones in India. The key difference between the new phablets and their predecessors is a large 5.99” display with an 18:9 aspect ratio, but there are many other improvements too, including new design, camera, software and so on. The Redmi Note 5 will continue to employ the Qualcomm Snapdragon 625 SoC, but the Redmi Note 5 Pro will use a more powerful Snapdragon 636. The Redmi Note 5 will be priced below $200, whereas the Redmi Note 5 Pro will address audiences demanding higher performance/improved features and will therefore cost more than $200.

New Display & Look

Displays with an 18:9 aspect ratio introduced to the mass market by the LG G6 and the Samsung Galaxy S8/S8+ last year will become more widespread on higher-end, mainstream and specialized smartphones this year. The new Redmi Note 5 and Redmi Note 5 Pro handsets from Xiaomi are outfitted with large 5.99” IPS displays featuring a 1080×2160 resolution and covered by Corning Gorilla Glass for protection.

The larger screens naturally have an impact on overall design of the new smartphones, so it is not surprising that the Redmi Note 5 and Redmi Note 5 Pro look significantly different than their predecessors. Both phones come in an aluminum unibody chassis with rounded edges and antenna separated from the rest of the back cover using polycarbonate strips that look like metal. When compared to the Redmi Note 4, the tapered back covers of the Redmi Note 5/Note 5 Pro seem to have even more rounded edges and a slightly different texture. Xiaomi says that the new shape is more comfortable to use, but keep in mind that all physical features of all mobile gadgets are very individual.

In addition to new design, Xiaomi will also offer a broader choice of colors with the new phablets. The Redmi Note 5 and Redmi Note 5 Pro will be available in matte black, matte blue, matte gold and matte rose gold colors in India. The color lineup might be different in other countries, but it is hard to make guesses about what exactly the manufacturer will offer at this point.

Under the Hood

Now, let’s take a look under the hood. The Xiaomi Redmi Note 5 is based on the Qualcomm Snapdragon 625 SoC, the same model was used for the Redmi Note 4. The chip has eight ARM Cortex-A53 general-purpose cores, the Adreno 506 graphics processor as well as Qualcomm’s X9 LTE modem, its performance and capabilities are well known, so there is nothing new here. It is a bit strange to see one SoC be inside both Redmi Note 4 and Redmi Note 5, but perhaps Xiaomi decided to stick to the chip due to cost reasons in a bid to price the RM5 competitively.

By contrast, the Xiaomi Redmi Note 5 Pro is powered by the Snapdragon 636 featuring Kryo 260 CPU (four semi-custom ARM Cortex A73 cores at 1.8 GHz and four semi-custom ARM Cortex-A53 cores at 1.6 GHz), the Adreno 509 GPU, an LPDDR4X memory controller as well as Qualcomm’s X12 LTE modem. Since A73 cores are among the highest-performing mobile CPU cores today, the Redmi Note 5 Pro will offer significantly higher peak general-purpose performance than the Redmi Note 5. Meanwhile, the S636 will also maintain similar energy efficiency in power saving mode (when compared to the S625) since low-power A53 derivatives are still there; besides, both SoCs are made using Samsung’s 14LPP process technology and therefore their voltages and other physical characteristics are similar.

When it comes to DRAM and storage configurations, Xiaomi will offer various versions of the Redmi Note 5 and Redmi Note 5 Pro — there will be models with 3 GB of memory and 32 GB of NAND flash (the entry-level Note 5), variants with 4 GB of DRAM and 64 GB of storage as well as 6 GB of LPDDR4X with 64 GB of NAND (the flagship Note 5 Pro model). The new Redmi Note 5 smartphones have microSD slots that support cards of up to 128 GB, so it is easy to upgrade internal storage of the new devices (but keep in mind that you are going to need microSD cards with A1 or A2 badges to install software on them).

As for operating system, the new Redmi Note 5 and Redmi Note 5 Pro will ship with the Android Nougat version 7.1.2 with the MIUI 9 on top.

Imaging: New Sensors, Improved Software and LED Flash for Selfies

In addition to different SoCs, the Redmi Note 5 and Redmi Note 5 Pro have vastly different imaging capabilities. The Redmi Note 5 is outfitted with a 12 MP sensor with f/2.2 aperture and a dual-tone LED flash on the back as well as a 5 MP sensor with f/2.0 aperture and a LED flash on the front. Xiaomi claims that the new back-facing camera works better in low light conditions and also has an improved white balance, but one has to test the handset to verify such claims.

By contrast, the Redmi Note 5 Pro comes with a ‘dual’ camera on the back that is comprised of a Sony IMX 486 12 MP (f/2.2, 1.25 μm) sensor, a 5 MP (f/2.0, 1.12 μm) depth sensor from Samsung and a dual-tone LED flash. The camera supports electronic image stabilization, phase detection autofocus as well as a variety of capabilities enabled by a depth sensor. Xiaomi says that the Redmi Note 5 Pro rear camera software features machine learning-based enhancements for more accurate edge detection by using semantic segmentation. On the front, the phone has a Sony IMX376 20 MP (f/2.0, 1/2.8”) sensor with a 4500K LED flash. This camera is also outfitted with the same ML-based software for edge detection, but since it does not have a depth sensor, the algorithm probably works a bit differently here. To further improve quality of selfies made by the front camera, Xiaomi also furnished its Redmi Note 5 Pro smartphone with its Beautify 4.0 software enhancement that supports multiple filters to remove various face imperfections. It is noteworthy that the camera software with Beautify 4.0 enhancements was tuned with India in mind and it remains to be seen whether the company introduces region- and/or country-specific camera enhancements in different parts of the world.

Connectivity, Battery, Security

Connectivity is a mixed bag for the Redmi Note 5. The smartphones support 802.11n Wi-Fi, Bluetooth 4.2 and a microUSB 2.0 port for charging. Both 802.11n and microUSB look a tad outdated for 2018 smartphones. Capping Wi-Fi to 802.11n is something that Xiaomi did to the  S625-based Redmi Note 4, so it is not completely surprising that the company did the same to the Xiaomi Redmi Note 5. Perhaps, Xiaomi will rethink its Wi-Fi support for the Redmi Note 5 aimed at different markets, but only time will tell (frankly, it is something unlikely to happen). Connectivity of the Redmi Note 5 Pro was improved considerably compared to the RN4/RN5. The handset supports 802.11ac Wi-Fi and Bluetooth 5.0, but it still uses microUSB 2.0 port for charging.

As for WWAN connectivity, the Snapdragon 625 and 636 support LTE, WCDMA, CDMA and GSM, but since this was an India-specific announcement, Xiaomi revealed bands fthat are relevant for this country and particular models. In any case, the best thing one can get out of the S625/X9 is 300 Mbps DL and 150 Mbps UL, whereas the S636/X12 supports up to 600 Mbps DL and 150 Mbps UL. Exact capabilities of particular smartphones depend on what manufacturers decide to support.

Next up is biometric security, which is a standard capability nowadays. The Redmi Note 5 and Redmi Note 5 Pro are equipped with fingerprint readers, but the latter will also support Face Unlock feature after it gets an OTA update in late March. According to Xiaomi, its face recognition mechanism works faster than its fingerprint reader, but at present the company does not go beyond that.

Both new smartphones from Xiaomi are equipped with a 4000 mAh battery that enables them to last for at least a day of active usage (based on the manufacturer’s clams). The company is known for using high-capacity batteries in its handsets, so the Redmi Note 5 and Redmi Note 5 Pro are not exceptions.

Xiaomi Note 5 and Note 5 Pro Smartphones
  Redmi Note 5
3 GB/32 GB
Redmi Note 5
4 GB/64 GB
Redmi Note 5 Pro
4 GB/64 GB
Redmi Note 5 Pro
6 GB/64 GB
SoC Qualcomm Snapdragon 625
8 × ARM Cortex-A53 at 2 GHz
Adreno 506 at 624 MHz
Qualcomm Snapdragon 636
4 × custom ARM Cortex-A73 at 1.8 GHz
4 × custom ARM Cortex-A53 at 1.6 GHz
Adreno 509
Storage 32 GB + microSD 64 GB + microSD
Display 5.99" 2160×1080 (403 ppi)
450 nits brightness
1000:1 contrast ratio
84% NTSC color gamut
Network 4G: LTE FDD 1/3/5, LTE TDD 40/41
3G: WCDMA 1/2/5/8
2G: 2/3/5/8
LTE Down: 300 Mb/s
Up: 150 Mb/s
Down: 600 Mb/s
Up: 150 Mb/s
Fingerprint  Yes
Dimensions 158.5 × 75.5 × 8.1 mm
6.24 × 2.97 × 0.32 inches
Weight ~180 grams
Rear Camera

12 MP (f/2.2 aperture)

dual-tone LED flash

12 MP (f/2.2, 1.25 μm)
Sony IMX 486 sensor

5 MP (f/2.0, 1.12 μm)
Samsung depth sensor

Dual-tone LED flash
Front Camera 5 MP (f/2.0 aperture)
LED flash
Sony IMX376 20 MP (f/2.0, 1/2.8”) sensor
4500K LED flash
Battery 4000 mAh
OS Google Android 7.1.2 with MIUI 9
Connectivity 802.11 b/g/n Wi-Fi, Bluetooth 4.2, microUSB 2.0, 3.5mm TRRS 802.11 b/g/ac Wi-Fi, Bluetooth 5
microUSB 2.0, 3.5mm TRRS
Navigation GPS + GLONASS
SIM Size Nano SIM + micro SD/Dual Nano SIM
Colors Black, Gold, Blue, Rose Gold
Launch Countries India
Price Rs. 9,999
Rs. 11,999
Rs. 13,999
Rs. 16,999

Price & Availability

Xiaomi will start selling its new Redmi Note 5 and Redmi Note 5 Pro smartphones in India this month and will gradually expand their availability to other markets in the coming months and quarters. The Redmi Note 5 will retail starting from Rs. 9,999 ($156) for the 3 GB + 32 GB version and Rs. 11,999 ($187) for the 4 GB + 64 GB variant. The Redmi Note 5 Pro will naturally be more expensive: the flagship model with 6 GB of LPDDR4X and 64 GB of NAND will cost Rs. 16,999 ($265), whereas a SKU with 4 GB of DRAM and 64 GB of storage will be priced at Rs. 13,999 ($219).

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Source: Xiaomi



View All Comments

  • bubblyboo - Friday, February 16, 2018 - link

    I mean any addition of A7X procs is good, especially on low end phones. The Snapdragon 65X was good but barely any OEMs (almost no US based companies) used it since they're pretty much equal to Snapdragon 8XX phones in use, and would have ended up cannibalizing sales. Reply
  • serendip - Friday, February 16, 2018 - link

    That's exactly what happened, OEMs either didn't use the 650 or put it in almost-flagship devices like Samsung. Guess I'm lucky I got the 650 in cheap devices like a Redmi Note 3 and a Mi Max. Battery life is outstanding with 10+ hours screen on time for both phones even though the chip is on an ancient 28nm process. A 660 or 670 at 14nm or 10nm could be even more efficient. Reply
  • amelech - Monday, February 19, 2018 - link

    I have a Redmi Note 3 SE with Snapdragon 650 and it's pretty good but I am looking for an upgrade so this might be the ticket. My headphone jack stopped working a while ago and the device is slowing down a wee bit now. Also didn't get an upgrade to Android 7 Reply
  • serendip - Tuesday, February 20, 2018 - link

    Slap a custom ROM on it, you can do this even without unlocking the bootloader. Oreo ROMs are already available on the RN3 Pro. I've got a Mi Max with the same chip and it flies on Nougat and Oreo. Reply
  • AnandTech2 - Thursday, February 15, 2018 - link

    Is it just me or does anyone else HATE all these 18:9 phones.. coming from a Nexus 6 and a Mate 9 with default settings i find myself having to hold my pixel 2xl almost inches from my face to be able to read the screen.. that or holding it at a normal distance and having to squint to focus. It's something about the skinnier screen, it makes my eyes feel as if I'm going cross eyed to focus into the center of the screen.. The ironic thing is, i can pick up any phone noticabley smaller like a G5+ 5.2in or moto g2 force 5.5in that isn't 18:9 and it feels good even though it's a half inch or more smaller..

    Same thing happens with the s8+ and the note 8.. can't focus right.. i swear it's making my vision worse than it was when i got this 2XL.
  • ZolaIII - Friday, February 16, 2018 - link

    I hate it but from different perspective. They cost more (as are bigger & with more pixels), they consume more energy (from both the display & GPU) and their aren't really more useful for any purpose. I see them as the big fashionable downgrade. Reply
  • serendip - Friday, February 16, 2018 - link

    I actually prefer them because the total screen size is larger for the same chassis size, or you can use a smaller chassis for the same size screen. Those onscreen button can be disabled to get full display coverage like when watching movies or reading stuff. Reply
  • serendip - Friday, February 16, 2018 - link

    The problem is when you expect a wider screen but you're actually getting a longer but skinny one. A 5.5" 16:9 screen is wider than a 5.5" 18:9 - conversely, the 6" 18:9 Note 5 screen has the same width as its predecessor's screen.

    I wish reviewers would also quite screen width. I spend more time reading and writing on a phone so I'd prefer something closer to 4:3 or 16:10.
  • ZolaIII - Friday, February 16, 2018 - link

    Compared to the same diagonal 16:9 display the experience is worse. You actually get a bunch of dead space or used for on display buttons. The main reason is advertised screen to body ratio but it's actually a step in the wrong direction.
    Writing this on large 6.44" conservative 16:9 display smartphone.
  • serendip - Friday, February 16, 2018 - link

    That's why you can't compare an 18:9 display with a 16:9 display of the same diagonal size, the former will always be narrower in width. Just by looking at numbers, an iPhone X might seem like it has a larger display than an iPhone 8 Plus, but the actual width is narrower. That means physical text size for the same font size is also smaller.

    If you're using something huge like a Mi Max, the overall chassis size could be reduced if a *larger* 18:9 screen was used, but keeping the same width. Software buttons take up less space than hardware buttons.

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