Please note: The information provided here is an approximate comparison intended solely for general familiarization and should not be taken as definitive. Differences in usage patterns, software updates, and individual device performance can influence the practical experience. It is advisable to consider hands-on evaluations and current user reviews for a more informed decision.

On this page, iPhone 15 Pro Max goes toe-to-toe with MatePad 10.4. Each has its strengths, but iPhone 15 Pro Max released in 2023 shows clear advantages over the MatePad 10.4 model. Delve into the comparison below to see the detailed breakdown.

Brand

apple

huawei

Model

iPhone 15 Pro Max

MatePad 10.4

Released

2022

Operating System

iOS 17

Huawei HarmonyOS 2.0

CPU

Apple A17 Pro APL1002 / APL1V02 (T8130)

HiSilicon Honor KIRIN710A

2000 MHz

RAM

LPDDR5 SDRAM

-

LPDDR4x SDRAM

-

4 GB

Graphical Controller

Apple A17MP6

ARM Mali-G51MP4

Memory

64

Display Diagonal

6.7

Resolution

2000x1200

Display Type

AM-OLED

IPS TFT LCD

Display Refresh Rate

-

Main Camera

5.0 x optical zoom

4160x3120 px

13.0 MP

1.0 x optical zoom

Video Recording

1920x1080 px

30 fps

Flash

Yes

Yes

Front Camera

8.0 MP

3264x2448 px

Video Recording

1920x1080 px

30 fps

Battery

Lithium-ion

4422 mAh

Lithium-ion

-

Bluetooth

5.1

Protection from solid materials

6 Totally protected from dust

Yes

Protection from liquids

8 Persistently protected against immersion beyond 1 meter of depth

Yes

Depth

8.25 mm

Mass

450 g

SIM Card Slot

e-SIM (embedded), Nano-SIM (4FF)

Nano-SIM (4FF)

Scratch Resistant Screen

Corning Ceramic Shield

Yes

Number of Display Scales

16.8

Display Width

2.8 Inch

Display Height

5.35 Inch

Additional sensors

Barometer, Light intensity sensor, Proximity sensor, Step counter, IR face sensor, LiDAR

Hall sensor, Light intensity sensor

Compass

Yes

No

Accelerometer

Yes

Yes

Gyroscope

Yes

No

NFC

Yes

No

A/V Out

DisplayPort (Unspecified)

No

Display Light Reflection Mode

Yes

Yes

Upon analyzing the specifications provided for the iPhone 15 Pro Max and the MatePad 10.4, here is a professional comparative overview:

The iPhone 15 Pro Max, released in 2023, represents a significant advancement over the MatePad 10.4 from the 2022 year. Notably, the iPhone 15 Pro Max operates on iOS 17 and is powered by the more robust Apple A17 Pro APL1002 / APL1V02 (T8130) processor has 3780 MHz, compared to the MatePad 10.4's HiSilicon Honor KIRIN710A running at 2000 MHz. This suggests a leap in processing power and efficiency.

The MatePad 10.4 offers an upgrade in RAM, boasting 4 GB with LPDDR4x SDRAM compared to the iPhone 15 Pro Max's 8 GB LPDDR5 SDRAM, which implies a more responsive multitasking experience.

Display technology has seen enhancements as well, with the iPhone 15 Pro Max featuring a larger 6.7-inch AM-OLED screen and a higher resolution of 1290x2796 pixels, eclipsing the MatePad 10.4's 10.4-inch display with 2000x1200 pixels. The superior pixel density of the iPhone 15 Pro Max ensures crisper, more detailed visuals.

Camera capabilities exhibit a considerable upgrade; the iPhone 15 Pro Max's main camera boasts an impressive 13.0 MP sensor with a 1.0 x optical zoom. The MatePad 10.4's 48.0 MP and 5.0 x optical zoom. . The iPhone 15 Pro Max's higher resolution support indicates a superior video capture experience

Battery capacity in the MatePad 10.4 is also greater, with a 7250 mAh battery compared to the iPhone 15 Pro Max mini's 4422 mAh, suggesting longer usage times between charges.

The first device has 6 Totally protected from dust solid and 6 Totally protected from dust liquid protection, while the second device has simple solid and liquid protection. They also maintain a suite of sensors: the iPhone 15 Pro Max has Barometer, Light intensity sensor, Proximity sensor, Step counter, IR face sensor, LiDAR; the MatePad 10.4 has Hall sensor, Light intensity sensor.

In conclusion, the iPhone 15 Pro Max demonstrates significant superiority. However, both smartphones retain their merits in their respective release contexts.