Comparison between:
- Oppo Find X7 Ultra
- Vivo X100 Ultra
- Xiaomi 14 Ultra
- Honor Magic6 Ultimate
Brand and model
Information about the brand, model and model alias (if any) of a specific device.
| Oppo Find X7 Ultra | Vivo X100 Ultra | Xiaomi 14 Ultra | Honor Magic6 Ultimate | |
 |  |  |  | |
| Model alias | PHY110 | V2366GA V2366HA | - | Magic 6 Ultimate BVL-AN20 |
Design
Information about the dimensions and weight of the device, shown in different measurement units. Body materials, available colors, certifications.
| Width | 76.2 mm 7.62 cm 0.25 ft 3 in | 75.57 mm 7.557 cm 0.248 ft 2.975 in | 75.3 mm 7.53 cm 0.247 ft 2.965 in | 75.8 mm 7.58 cm 0.249 ft 2.984 in |
| Height | 164.3 mm 16.43 cm 0.539 ft 6.469 in | 164.07 mm 16.407 cm 0.538 ft 6.459 in | 161.4 mm 16.14 cm 0.53 ft 6.354 in | 162.5 mm 16.25 cm 0.533 ft 6.398 in |
| Thickness | 9.5 mm 0.95 cm 0.031 ft 0.374 in | 9.23 mm 0.923 cm 0.03 ft 0.363 in | 8.49 mm 0.849 cm 0.028 ft 0.334 in | 8.9 mm 0.89 cm 0.029 ft 0.35 in |
| Weight | 221 g 0.49 lbs 7.8 oz | 229 g 0.5 lbs 8.08 oz | 223 g 0.49 lbs 7.87 oz | 227 g 0.5 lbs 8.01 oz |
| Volume | 118.94 cm³ 7.22 in³ | 114.44 cm³ 6.95 in³ | 103.18 cm³ 6.27 in³ | 109.63 cm³ 6.66 in³ |
| Colors | Black Dark Blue Brown-Orange | Space Gray Titanium Silver Moonlight White | Black White Blue Titanium Edition | Purple Sky Ink Black |
| Body materials | Aluminium alloy Glass Faux leather | Aluminium alloy Glass | Aluminium alloy Glass Faux leather Ceramic Titanium | Glass Aluminium alloy Faux leather |
| Certification | IP68 | - | IP68 | IP68 |
SIM card
The Subscriber Identity Module (SIM) is used in mobile devices for storing data authenticating the subscribers of mobile services.
| SIM card type | Nano-SIM | Nano-SIM | Nano-SIM | Nano-SIM |
| Number of SIM cards | 2 | 2 | 2 | 2 |
| Features | Dual SIM stand-by (Both cards are active. When one is busy, the other is not active) | Dual SIM stand-by (Both cards are active. When one is busy, the other is not active) | Dual SIM stand-by (Both cards are active. When one is busy, the other is not active) | Dual SIM stand-by (Both cards are active. When one is busy, the other is not active) |
Networks
A mobile (cellular) network is a radio system, which allows a large number of mobile devices to communicate with each other.
| GSM | GSМ 850 МНz (В5) GSМ 900 МНz (В8) GSМ 1900 МНz (В2) | GSМ 850 МНz (В5) GSМ 900 МНz (В8) GSМ 1900 МНz (В2) | GSМ 850 МНz (В5) GSМ 900 МНz (В8) GSМ 1900 МНz (В2) | GSМ 850 МНz (В5) GSМ 900 МНz (В8) GSМ 1900 МНz (В2) |
| CDMA | CDMA 800 MHz (BC0) | CDMA 800 MHz (BC0) | - | CDMA 800 MHz (BC0) |
| W-CDMA | W-CDMA 850 MHz (B5) W-CDMA 850 MHz (B6) W-CDMA 900 MHz (B8) W-CDMA 900 MHz (B19) W-CDMA 1700 MHz (B4) W-CDMA 1900 MHz (B2) W-CDMA 2100 MHz (B1) | W-CDMA 850 MHz (B5) W-CDMA 850 MHz (B6) W-CDMA 900 MHz (B8) W-CDMA 900 MHz (B19) W-CDMA 1700 MHz (B4) W-CDMA 1900 MHz (B2) W-CDMA 2100 MHz (B1) | W-CDMA 850 MHz (B5) W-CDMA 850 MHz (B6) W-CDMA 900 MHz (B8) W-CDMA 900 MHz (B19) W-CDMA 1700 MHz (B4) W-CDMA 2100 MHz (B1) | W-CDMA 850 MHz (B5) W-CDMA 850 MHz (B6) W-CDMA 900 MHz (B8) W-CDMA 900 MHz (B19) W-CDMA 1700 MHz (B4) W-CDMA 1900 MHz (B2) W-CDMA 2100 MHz (B1) |
| LTE | LТЕ-FDD 700 МНz (В12) LТЕ-FDD 700 МНz (В13) LТЕ-FDD 700 МНz (В17) LТЕ-FDD 700 МНz (В28) LТЕ-FDD 800 МНz (В20) LТЕ-FDD 850 МНz (В5) LТЕ-FDD 850 МНz (В18) LТЕ-FDD 850 МНz (В19) LТЕ-FDD 850 МНz (В26) LТЕ-FDD 900 МНz (В8) LТЕ-FDD 1700 МНz (В4) LТЕ-FDD 1700 МНz (В66) LТЕ-FDD 1800 МНz (В3) LТЕ-FDD 1900 МНz (В2) LТЕ-FDD 2100 МНz (В1) LТЕ-FDD 2600 МНz (В7) LТЕ-ТDD 1900 МНz (В39) LТЕ-ТDD 2000 МНz (В34) LТЕ-ТDD 2300 МНz (В40) LТЕ-ТDD 2600 МНz (В38) | LТЕ-FDD 700 МНz (В12) LТЕ-FDD 700 МНz (В17) LТЕ-FDD 700 МНz (В28) LТЕ-FDD 800 МНz (В20) LТЕ-FDD 850 МНz (В5) LТЕ-FDD 850 МНz (В18) LТЕ-FDD 850 МНz (В19) LТЕ-FDD 850 МНz (В26) LТЕ-FDD 900 МНz (В8) LТЕ-FDD 1700 МНz (В4) LТЕ-FDD 1700 МНz (В66) LТЕ-FDD 1800 МНz (В3) LТЕ-FDD 1900 МНz (В2) LТЕ-FDD 1900 МНz (В25) LТЕ-FDD 2100 МНz (В1) LТЕ-FDD 2600 МНz (В7) LТЕ-ТDD 1900 МНz (В39) LТЕ-ТDD 2000 МНz (В34) LТЕ-ТDD 2300 МНz (В40) LТЕ-ТDD 2600 МНz (В38) | LТЕ-FDD 700 МНz (В12) LТЕ-FDD 700 МНz (В13) LТЕ-FDD 700 МНz (В17) LТЕ-FDD 700 МНz (В28) LТЕ-FDD 800 МНz (В20) LТЕ-FDD 850 МНz (В5) LТЕ-FDD 850 МНz (В18) LТЕ-FDD 850 МНz (В19) LТЕ-FDD 850 МНz (В26) LТЕ-FDD 900 МНz (В8) LТЕ-FDD 1500 МНz (В32) LТЕ-FDD 1700 МНz (В4) LТЕ-FDD 1700 МНz (В66) LТЕ-FDD 1800 МНz (В3) LТЕ-FDD 1900 МНz (В2) LТЕ-FDD 1900 МНz (В25) LТЕ-FDD 2100 МНz (В1) LТЕ-FDD 2600 МНz (В7) LТЕ-ТDD 1900 МНz (В39) LТЕ-ТDD 2000 МНz (В34) LТЕ-ТDD 2300 МНz (В40) LТЕ-ТDD 2600 МНz (В38) | LТЕ-FDD 700 МНz (В12) LТЕ-FDD 700 МНz (В17) LТЕ-FDD 700 МНz (В28) LТЕ-FDD 800 МНz (В20) LТЕ-FDD 850 МНz (В5) LТЕ-FDD 850 МНz (В18) LТЕ-FDD 850 МНz (В19) LТЕ-FDD 850 МНz (В26) LТЕ-FDD 900 МНz (В8) LТЕ-FDD 1700 МНz (В4) LТЕ-FDD 1800 МНz (В3) LТЕ-FDD 1900 МНz (В2) LТЕ-FDD 2100 МНz (В1) LТЕ-ТDD 1900 МНz (В39) LТЕ-ТDD 2000 МНz (В34) LТЕ-ТDD 2300 МНz (В40) LТЕ-ТDD 2600 МНz (В38) |
| 5G NR | 5G-FDD 700 MHz (n12) 5G-FDD 700 MHz (n28) 5G-FDD 800 MHz (n20) 5G-FDD 850 MHz (n5) 5G-FDD 900 MHz (n8) 5G-FDD 1700 MHz (n66) 5G-FDD 1800 MHz (n3) 5G-FDD 1900 MHz (n2) 5G-FDD 2100 MHz (n1) 5G-TDD 2300 MHz (n40) 5G-TDD 2500 MHz (n41) 5G-FDD 2600 MHz (n7) 5G-TDD 2600 MHz (n38) 5G-TDD 3500 MHz (n78) 5G-TDD 3700 MHz (n77) 5G-TDD 4700 MHz (n79) | 5G-FDD 700 MHz (n12) 5G-FDD 700 MHz (n28) 5G-FDD 800 MHz (n20) 5G-FDD 850 MHz (n5) 5G-FDD 900 MHz (n8) 5G-FDD 1700 MHz (n66) 5G-FDD 1800 MHz (n3) 5G-FDD 1900 MHz (n2) 5G-FDD 1900 MHz (n25) 5G-FDD 2100 MHz (n1) 5G-TDD 2300 MHz (n40) 5G-TDD 2500 MHz (n41) 5G-FDD 2600 MHz (n7) 5G-TDD 2600 MHz (n38) 5G-TDD 3500 MHz (n78) 5G-TDD 3700 MHz (n77) 5G-TDD 4700 MHz (n79) | 5G-FDD 700 MHz (n28) 5G-FDD 800 MHz (n20) 5G-FDD 850 MHz (n5) 5G-FDD 900 MHz (n8) 5G-SDL 1500 MHz (n75) 5G-FDD 1700 MHz (n66) 5G-FDD 1800 MHz (n3) 5G-FDD 2100 MHz (n1) 5G-TDD 2300 MHz (n40) 5G-TDD 2500 MHz (n41) 5G-FDD 2600 MHz (n7) 5G-TDD 2600 MHz (n38) 5G-TDD 3500 MHz (n78) 5G-TDD 3700 MHz (n77) | 5G-FDD 700 MHz (n28) 5G-FDD 850 MHz (n5) 5G-FDD 900 MHz (n8) 5G-FDD 1800 MHz (n3) 5G-FDD 2100 MHz (n1) 5G-TDD 2500 MHz (n41) 5G-TDD 2600 MHz (n38) 5G-TDD 3500 MHz (n78) 5G-TDD 3700 MHz (n77) 5G-TDD 4700 MHz (n79) |
Mobile network technologies and bandwidth
Communication between devices within mobile networks is realized via various generations of network technologies, which provide different bandwidth.
| Mobile network technologies | UМТS GРRS НSРА+ | UМТS GРRS НSРА+ ЕV-DО Rеv. А | UМТS GРRS LТЕ | ЕDGЕ НSРА+ 5G ΝSА |
| 4x4 MIMO | - | - | HOnor C1+ RF enhancement chip |
Operating system
Operating system is the system software, which manages and controls the functioning of the hardware components of the device.
| Operating system (OS) | СоlоrОS 14 (Аndrоid 14) | ОriginОS 4.0 (Аndrоid 14) | Хiаоmi НyреrОS | МаgiсОS 8.0 (Аndrоid 14) |
System on Chip (SoC)
A system on a chip (SoC) includes into a single chip some of the main hardware components of the mobile device.
| SoC | Quаlсоmm Snарdrаgоn 8 Gеn 3 (SМ8650-АВ) | Quаlсоmm Snарdrаgоn 8 Gеn 3 (SМ8650-АВ) | Quаlсоmm Snарdrаgоn 8 Gеn 3 (SМ8650-АВ) | Quаlсоmm Snарdrаgоn 8 Gеn 3 (SМ8650-АВ) |
| Process technology | 4 nm | 4 nm | 4 nm | 4 nm |
| CPU | 1х 3.3 GНz АRМ Соrtех-Х4, 5х 3.2 GНz АRМ Соrtех-А720, 2х 2.3 GНz АRМ Соrtех-А520 | 1х 3.3 GНz АRМ Соrtех-Х4, 5х 3.2 GНz АRМ Соrtех-А720, 2х 2.3 GНz АRМ Соrtех-А520 | 1х 3.3 GНz АRМ Соrtех-Х4, 5х 3.2 GНz АRМ Соrtех-А720, 2х 2.3 GНz АRМ Соrtех-А520 | 1х 3.3 GНz АRМ Соrtех-Х4, 5х 3.2 GНz АRМ Соrtех-А720, 2х 2.3 GНz АRМ Соrtех-А520 |
| CPU bits | 64 bit | 64 bit | 64 bit | 64 bit |
| Instruction set | ARMv9-A | ARMv9-A | ARMv9-A | ARMv9-A |
| Level 1 cache memory (L1) | 16 KB + 16 KB | 16 KB + 16 KB | 16 KB + 16 KB | 16 KB + 16 KB |
| CPU cores | 8 | 8 | 8 | 8 |
| CPU frequency | 3300 MHz | 3300 MHz | 3300 MHz | 3300 MHz |
| GPU | Qualcomm Adreno 750 | Qualcomm Adreno 750 | Qualcomm Adreno 750 | Qualcomm Adreno 750 |
| GPU frequency | 903 MHz | 903 MHz | 903 MHz | 903 MHz |
| RAM capacity | 12 GB 16 GB | 12 GB 16 GB | 12 GB 16 GB | 16 GB |
| RAM type | LPDDR5X | LPDDR5X | LPDDR5X | LPDDR5X |
| RAM channels | Quad channel | Quad channel | Quad channel | Quad channel |
| RAM frequency | 4399 MHz | 4933 MHz | 4933 MHz | 4399 MHz |
| 7930 mm² dual-cycle VC cooling system | - | 4000 sq.mm ring pump cooling system with a gas-liquid separation channel | Ultra-wide cooling system |
Storage
Every mobile device has a built-in storage (internal memory) with a fixed capacity.
| Storage | 256 GB 512 GB | 256 GB 512 GB 1024 GB | 256 GB 512 GB 1024 GB | 512 GB 1024 GB |
| eMMC 5.1 | UFS 2.1 | eMMC 5.1 | UFS 2.1 |
Display
The display of a mobile device is characterized by its technology, resolution, pixel density, diagonal length, color depth, etc.
| Type/technology | AMOLED | AMOLED | C8 AMOLED | OLED |
| Diagonal size | 6.82 in 173.23 mm 17.32 cm | 6.78 in 172.21 mm 17.22 cm | 6.73 in 170.94 mm 17.09 cm | 6.8 in 172.72 mm 17.27 cm |
| Width | 3.26 in 82.83 mm 8.28 cm | 2.78 in 70.67 mm 7.07 cm | 3.22 in 81.74 mm 8.17 cm | 2.79 in 70.88 mm 7.09 cm |
| Height | 5.99 in 152.14 mm 15.21 cm | 6.18 in 157.04 mm 15.7 cm | 5.91 in 150.13 mm 15.01 cm | 6.2 in 157.51 mm 15.75 cm |
| Aspect ratio | 1.837:1 | 2.222:1 | 1.837:1 | 2.222:1 |
| Resolution | 1176 x 2160 pixels | 1080 x 2400 pixels | 1176 x 2160 pixels | 1080 x 2400 pixels |
| Pixel density | 361 ppi 141 ppcm | 388 ppi 152 ppcm | 365 ppi 143 ppcm | 387 ppi 152 ppcm |
| Color depth | 30 bit 1073741824 colors | 30 bit 1073741824 colors | 36 bit 68719476736 colors | 30 bit 1073741824 colors |
| Display area | 100.98 % | 89.8 % | 101.3 % | 90.93 % |
| Other features | Capacitive Multi-touch Scratch resistant | Capacitive Multi-touch Scratch resistant | Capacitive Multi-touch Scratch resistant | Capacitive Multi-touch Scratch resistant |
| 3D curved glass screen Corning Gorilla Glass Victus 2 LTPO backplane 1-120 Hz adaptive refresh rate 240 Hz touch sampling rate 1600 cd/m² HBM brightness 4500 cd/m² peak brightness 100% DCI-P3 100% sRGB 2160 Hz PWM dimming Dolby Vision HDR Vivid HDR10+ ZReal ProXDR photonic matrix TÜV Rheinland Smart Eye Care 3.0 | 3D curved glass screen E7 LTPO 1-120 Hz adaptive refresh rate 3000 cd/m² peak brightness 10-bit color bit depth 100% DCI-P3 103% NTSC 8000000:1 1440 Hz PWM dimming HDR ZReal Engine | 3D curved glass screen Xiaomi Dragon Crystal Glass LTPO 1 Hz - 120 Hz refresh rate DC dimming 100% DCI-P3 3000 cd/m² peak brightness 12-bit color bit depth HDR Vivid HDR10+ Dolby Vision HDR Vivid HLG ZReal Engine TUV Rheinland Flicker-free Certified TUV Rheinland Low Blue Light Certified | Honor Giant Rhino Glass Four-side curved screen Main display manufacturer - Visionox Secondary display supplier - BOE LTPO backplane 1 Hz - 120 Hz adaptive refresh rate 1600 cd/m² HBM 5000 cd/m² peak brightness 4320 Hz PWM dimming DCI-P3 Dynamic Dimming Technology Circadian Night Display TUV Rheinland Eye Safe Display 3.0 HDR10+ Dolby Vision ZReal HDR Vivid |
Sensors
Different sensors measure different physical quantities and convert them into signals recognizable by the mobile device.
| Sensors | Proximity Light Accelerometer Compass Gyroscope Pedometer Geomagnetic Fingerprint Hall | Proximity Light Accelerometer Compass Gyroscope Pedometer Geomagnetic Magnetometer Fingerprint Gravity Flicker sensor | Accelerometer Compass Gyroscope Barometer Fingerprint Ultrasonic proximity sensor | Proximity Light Accelerometer Compass Gyroscope Barometer Fingerprint Hall |
| In-display fingerprint sensor Color temperature sensor 602 mm³ Bionic Super Vibration | In-display 3D ultrasonic fingerprint sensor X-axis linear motor | X-axis linear motor In-display fingerprint sensor | In-display fingerprint sensor Flicker Sensor Color Temperature Sensor |
Main rear camera
The main camera of the mobile device is usually placed on its back and can be combined with one or more additional cameras.
| Sensor model | Sony LYT-900 | Sony LYT-900 | Sony LYT-900 | OmniVision OV50H (OVH9000) |
| Sensor type | CMOS BSI+ | CMOS BSI 2 | CMOS BSI 2 | PureCel |
| Sensor format | 1 | 1 | 1 | 1/1.3" |
| Pixel size | 1.6 µm 0.001600 mm | 1.6 µm 0.001600 mm | 1.6 µm 0.001600 mm | 1.2 µm 0.001200 mm |
| Aperture | f/1.8 | f/1.75 | f/1.63 - 4 | f/1.4 - 2 |
| Focal length and 35 mm equivalent | 23 mm *(35 mm / full frame) | 23 mm *(35 mm / full frame) | 23 mm *(35 mm / full frame) | - |
| Number of lenses | 8 | - | 7 | - |
| Flash type | LED | Dual LED | LED | LED |
| Image resolution | 8120 x 6180 pixels 50.18 MP | 8120 x 6180 pixels 50.18 MP | 8120 x 6180 pixels 50.18 MP | 8768 x 6144 pixels 53.87 MP |
| Video resolution | 3840 x 2160 pixels 8.29 MP | 3840 x 2160 pixels 8.29 MP | 7680 x 4320 pixels 33.18 MP | 3840 x 2160 pixels 8.29 MP |
| Video FPS | 60 fps | 120 fps | 24 fps | 60 fps |
| Features | Autofocus Continuous autofocus Continuous shooting Digital zoom Optical zoom Digital image stabilization Optical image stabilization Geotagging Panorama HDR Touch focus Face detection White balance settings ISO settings Exposure compensation Self-timer Scene mode Macro mode Contrast detection autofocus (CDAF) Laser autofocus (LAF) Multi-directional PDAF RAW HEIF Hasselblad Master Mode | Autofocus Continuous shooting Digital zoom Optical zoom Digital image stabilization Optical image stabilization Geotagging Panorama HDR Touch focus Face detection White balance settings ISO settings Exposure compensation Self-timer Scene mode Macro mode Phase detection autofocus (PDAF) | Autofocus Continuous autofocus Continuous shooting Digital zoom Optical zoom Digital image stabilization Optical image stabilization Geotagging Panorama HDR Touch focus Face detection White balance settings ISO settings Exposure compensation Self-timer Scene mode Macro mode Phase detection autofocus (PDAF) FusionLM ToneLM ColorLM PortraitLM | Autofocus Continuous shooting Digital zoom Optical zoom Digital image stabilization Optical image stabilization Geotagging Panorama HDR Touch focus Face detection White balance settings ISO settings Exposure compensation Self-timer Scene mode Macro mode Phase detection autofocus (PDAF) LiDAR array focusing system |
| - | Zeiss T* coating Vivo BlueImage algorithm Vivo V3+ imaging chip | Xiaomi AISP Leica Summilux Lens ALD polarizing filter 1024-step variable aperture Super QPD pixel size - 3.2 μm | OmniVision OV50H(40) = OVH9000 = Light Hunter 900 = Light Fusion 900 |
Ultra-wide camera
Specifications of the ultra-wide camera of the device. This type of camera captures a wider field of view compared to the main camera.
| Sensor model | - | Sony LYT-600 | Sony IMX858 | Samsung S5KJN1 |
| Sensor format | - | 1/2" | - | - |
| Aperture | f/2 | f/2.2 | f/1.8 | f/2 |
| Focal length equivalent (35 mm) | 14 mm *(35 mm / full frame) | 14 mm *(35 mm / full frame) | 12 mm *(35 mm / full frame) | - |
| Field of view | 123 ° | - | 122 ° | 122 ° |
| Number of lenses | 6 | - | 6 | - |
| Image resolution | 50 MP | 50 MP | 50 MP | 50 MP |
| Features | Autofocus | - | Autofocus Digital image stabilization | Autofocus Digital image stabilization |
| 4 cm macro shooting | Zeiss T* coating | - | 2.5 cm macro photography |
Telephoto camera
Specifications of the telephoto camera. These cameras are used to capture distant objects by using optical zoom to make them look closer without losing resolution and detail.
| Sensor model | - | Samsung ISOCELL HP9 | - | Samsung ISOCELL HP3 |
| Sensor format | 1/1.56" | 1/1.4" | - | 1/1.49" |
| Pixel size | 1 µm 0.001000 mm | - | - | - |
| Aperture | f/2.6 | f/2.67 | f/1.8 | f/2.6 |
| Focal length equivalent (35 mm) | 65 mm *(35 mm / full frame) | 85 mm *(35 mm / full frame) | 75 mm *(35 mm / full frame) | - |
| Number of lenses | 5 | - | 6 | - |
| Optical zoom | - | 7 x | - | 5 x |
| Image resolution | 50 MP | 200 MP | 50 MP | 180 MP |
| Features | Autofocus Optical image stabilization | CIPA 4.5 stabilization | Digital image stabilization Optical image stabilization | Optical image stabilization |
| Second telephoto camera - 50 MP Aperture size - f/4.3 (#2) Focal length (35 mm equivalent) - 135 mm (#2) 4-element lens (#2) 6x optical zoom (#2) Autofocus (#2) OIS (#2) | Zeiss T* coating Zeiss APO certification | Second telephoto camera - 50 MP Aperture size - f/2.5 (#2) Focal length equivalent - 120 mm (#2) 4-element lens (#2) OIS (#2) EIS (#2) | 100x digital zoom |
Front camera
Modern smartphones have one or more front cameras and their positioning has led to various design concepts – pop-up camera, rotating camera, notch, punch hole, under-display camera, etc.
| Sensor type | CMOS | CMOS | CMOS | CMOS |
| Sensor format | 1/2.74" | - | - | - |
| Pixel size | 0.8 µm 0.000800 mm | - | - | - |
| Aperture | f/2.4 | - | - | f/2 |
| Focal length and 35 mm equivalent | 21 mm *(35 mm / full frame) | - | - | - |
| Field of view | 81 ° | - | - | 90 ° |
| Number of lenses | 5 | - | - | - |
| Image resolution | 6944 x 4655 pixels 32.32 MP | 8504 x 5901 pixels 50.18 MP | 6944 x 4655 pixels 32.32 MP | 8512 x 5821 pixels 49.55 MP |
| Video resolution | 3840 x 2160 pixels 8.29 MP | 3840 x 2160 pixels 8.29 MP | 3840 x 2160 pixels 8.29 MP | 3840 x 2160 pixels 8.29 MP |
| Video FPS | 60 fps | 30 fps | 60 fps | 30 fps |
| Features | Face unlock HDR Autofocus Face detection Digital image stabilization | Face detection Face unlock | Face unlock HDR Face detection Digital image stabilization Autofocus Phase detection autofocus (PDAF) Panorama | Face unlock HDR Face detection Digital image stabilization Autofocus |
| MariSilicon X chip | - | - | Secondary front camera - 3D depth sensor |
Audio
Information about the type of speakers and the audio technologies supported by the device.
| Speaker | Loudspeaker Earpiece Stereo speakers | Loudspeaker Earpiece | Loudspeaker Earpiece Stereo speakers | Loudspeaker Earpiece Stereo speakers |
| - | - | Dolby Atmos Hi-Res Audio Hi-Res Audio Wireless Four microphones with active noise cancellation | DTS:X Ultra |
Radio
The radio in a mobile device is a built-in FM radio receiver.
| Radio | No | No | No | No |
Tracking/Positioning
Information about the positioning and navigation technologies supported by the device.
| Tracking/Positioning | GРS А-GРS GLОΝАSS | GРS А-GРS GLОΝАSS | GРS А-GРS GLОΝАSS | GРS А-GРS GLОΝАSS |
Wi-Fi
Wi-Fi is a technology that provides wireless data connections between various devices within a short range.
| Wi-Fi | 802.11а 802.11b 802.11g Wi-Fi 6 (802.11ах) Wi-Fi 7 (802.11bе) Wi-Fi Disрlаy 802.11а 802.11ас 5GНz | 802.11а 802.11b 802.11g Wi-Fi 6 (802.11ах) Wi-Fi 7 (802.11bе) Wi-Fi Disрlаy 802.11а 802.11ас 5GНz | 802.11а 802.11b 802.11g Wi-Fi 6 (802.11ах) Wi-Fi 6Е (802.11ах) Wi-Fi 7 (802.11bе) Wi-Fi Disрlаy 802.11а 802.11ас 5GНz | 802.11а 802.11b 802.11g Wi-Fi 6 (802.11ах) Wi-Fi 7 (802.11bе) Wi-Fi Disрlаy 802.11а 802.11ас 5GНz |
| 2x2 MIMO 8 Spatial-streaming MU-MIMO | - | 2x2 MIMO 8x8 MU-MIMO | 2x2 MIMO |
Bluetooth
Bluetooth is a standard for secure wireless data transfer between different types of devices over short distances.
| Version | 5.4 | 5.4 | 5.4 | 5.3 |
| Features | A2DP LE | A2DP LE | A2DP EDR HID LE | A2DP BLE |
| - | - | Dual-antenna | - |
USB
The Universal Serial Bus (USB) is an industry standard that allows different electronic devices to exchange data.
| Connector type | USB Type-C | USB Type-C | USB Type-C | USB Type-C |
| Version | - | 3.2 | 3.2 | 3.2 |
| Features | Charging Mass storage On-The-Go | Charging Mass storage On-The-Go | Charging Mass storage On-The-Go | Charging Mass storage On-The-Go |
| - | Gen 1 - 5 Gbps DisplayPort Alt Mode | Gen 2 - 10 Gbps Power Delivery DisplayPort Alt Mode | Gen 1 - 5 Gbps DisplayPort 1.2 Alt Mode |
Headphone jack
The headphone jack is an audio phone connector, a.k.a. an audio jack. The most widely used one in mobile devices is the 3.5 mm headphone jack.
| Headphone jack | No | No | No | No |
Connectivity
Information about other important connectivity technologies supported by the devices.
| Connectivity | Computer sync OTA sync Tethering NFC VoLTE | Computer sync OTA sync Infrared Tethering NFC VoIP VoLTE | Computer sync OTA sync Infrared Tethering NFC VoLTE ViLTE VoWiFi | Computer sync OTA sync Infrared Tethering NFC VoLTE ViLTE |
| - | Tiantong satellite communication | Two-way satellite communication | - |
Browser
A web browser is a software application for accessing, fetching, displaying and navigating through information on the World Wide Web.
| Browser | HTML HTML5 CSS 3 | HTML HTML5 CSS 3 | HTML HTML5 CSS 3 | HTML HTML5 CSS 3 |
Audio file formats/codecs
Mobile devices support various audio file formats and codecs, which respectively store and code/decode digital audio data.
| Audio file formats/codecs | AAC AAC+ AMR AMR-WB aptX aptX HD eAAC+ FLAC MIDI MP3 OGG WMA WAV LDAC TWS+ SBC LHDC | 3GPP AAC AMR aptX aptX HD FLAC MP3 WMA WAV aptX Adaptive aptX Lossless LDAC LHDC | AAC AAC+ AMR AMR-WB aptX aptX HD eAAC+ FLAC MIDI MP3 OGG WMA WAV LDAC LHDC 5.0 LC3 APE AWB | AAC AMR-WB aptX aptX HD FLAC MP3 OGG WMA WAV APE AMR-NB LDAC LHDC |
Video file formats/codecs
Mobile devices support various video file formats and codecs, which respectively store and code/decode digital video data.
| Video file formats/codecs | 3GPP AVI DivX Flash Video H.263 H.264 MKV MP4 WebM WMV Xvid | 3GPP AVI H.264 H.265 MP4 MPEG-4 VC-1 VP8 VP9 WebM WMV9 Xvid | 3GPP AVI DivX H.263 H.264 H.265 MKV MP4 VC-1 WebM WMV Xvid ASF | AVI MKV MP4 WMV WEBM 3GP ASF |
Battery
The batteries of mobile devices differ in capacity and technology. They provide the electrical charge needed for the functioning of the devices.
| Capacity | 5000 mAh | 5500 mAh | 5300 mAh | 5600 mAh |
| Type | Li-Polymer | Li-Polymer | Li-Polymer | Li-Polymer |
| 4G talk time | - | 20 h 1200 min 0.8 days | - | - |
| 4G stand-by time | - | 545 h 32700 min 22.7 days | - | - |
| Charger output power | 10 V / 10 A | 11 V / 7.3 A | 10 V / 9 A | 20 V / 4 A 11 V / 6 A 10 V / 4 A 10 V / 2.25 A 10 V / 2 A |
| Quick charge technology | SuperVOOC | - | - | - |
| Features | Wireless charging Fast charging Non-removable | Wireless charging Fast charging Non-removable | Wireless charging Fast charging Non-removable | Wireless charging Fast charging Non-removable |
| 50W wireless charging 10W reverse wireless charging | 30W wireless charging | Global model battery capacity - 5000 mAh Xiaomi Surge P2 Chip Xiaomi Surge G1 Chip 80W wireless charging | 66W wireless charging Reverse wireless charging Honor E1 energy efficiency chip |
| Oppo Find X7 Ultra | Vivo X100 Ultra | Xiaomi 14 Ultra | Honor Magic6 Ultimate |
