Motorola Moto G82 vs Xiaomi Redmi Note 12 Pro+ - Detailed Phone Comparison

Detailed Comparison

Specification

General

Launch Date June 7, 2022 November 1, 2022
Release Year 2022 2022

Physical

Volume 95.9 cm³ 110.19 cm³
Screen Size to Weight Ratio 3.82 "/g 3.2 "/g
Weight 173 g 208.4 g
Height 160.9 mm 162.9 mm
Width 74.5 mm 76 mm
Thickness 8 mm 8.9 mm
Foldable Design No No
Available Colors
  • Meteorite Gray
  • White Lily
  • Arctic White
  • Obsidian Black
  • Iceberg Blue
  • Trend edition

Display

Screen Size 6.6 " 6.67 "
Resolution 1080 x 2400 1080 x 2400
Aspect Ratio 20:9 20:9
Screen-to-Body Ratio 87.7 % 86.8 %
Pixel Density 402 PPI 395 PPI
Refresh Rate 120 Hz 120 Hz
Typical Brightness N/A 500 nits
HBM Brightness N/A 900 nits
Peak Brightness N/A N/A

Hardware

Battery Capacity per Screen Area 114.78 mAh/in² 112.39 mAh/in²
Battery Density 52.14 mAh/cm³ 45.38 mAh/cm³
Battery Capacity 5000 mAh 5000 mAh
NFC Support Yes Yes
Chipset Qualcomm SM6375 Snapdragon 695 5G (6 nm) Mediatek Dimensity 1080 (6 nm)
CPU Octa-core (2x2.2 GHz Kryo 660 Gold & 6x1.7 GHz Kryo 660 Silver) Octa-core (2x2.6 GHz Cortex-A78 & 6x2.0 GHz Cortex-A55)
GPU Adreno 619 Mali-G68 MC4

Connectivity

USB Version 2.0 2.0
OTG Support 1
DisplayPort
DisplayPort Version N/A N/A
USB Features USB Type-C 2.0 USB Type-C 2.0, OTG

Software

Operating System Android Android
Initial OS Version 12 12
Maximum OS Version 13 14

Comparison Summary

Motorola Moto G82 vs. Xiaomi Redmi Note 12 Pro+: A Real-World Comparison

Let's dive into a head-to-head comparison of the Motorola Moto G82 and the Xiaomi Redmi Note 12 Pro+, dissecting their specs and uncovering what they truly offer the everyday user.

1. Specifications Breakdown

FeatureMotorola Moto G82Xiaomi Redmi Note 12 Pro+Real-World Implications
Design
Dimensions (mm)160.9 x 74.5 x 8162.9 x 76 x 8.9Redmi Note 12 Pro+ is slightly larger and heavier. Moto G82 might feel more comfortable for one-handed use.
Weight (g)173208.4Noticeable weight difference; Redmi Note 12 Pro+ feels more substantial.
Display
TypeAMOLED, 120HzOLED, 120Hz, Dolby Vision, HDR10+Both offer smooth scrolling, but Redmi Note 12 Pro+ boasts superior color reproduction and HDR support for richer visuals.
Size6.6"6.67"Negligible size difference in real-world usage.
Resolution1080 x 24001080 x 2400Identical resolution; sharpness is comparable on both devices.
Performance
ChipsetSnapdragon 695 5GDimensity 1080Dimensity 1080 generally offers better performance in demanding tasks and gaming.
CPUOcta-core (2.2 GHz)Octa-core (2.6 GHz)Redmi Note 12 Pro+ has a slight edge in processing power, translating to faster app loading and multitasking.
GPUAdreno 619Mali-G68 MC4Mali-G68 MC4 provides a more significant performance boost for graphics-intensive applications.
RAM6GB8GBMore RAM in the Redmi Note 12 Pro+ enables smoother multitasking and handling of demanding apps.
Camera
Main Camera50MP200MPRedmi Note 12 Pro+ boasts significantly higher resolution, potentially capturing more detail. Real-world results can vary.
Video Recording1080p@60fps4K@30fpsRedmi Note 12 Pro+ can record in higher resolution, but Moto G82 offers smoother slow-motion at 1080p.
Battery Life
Capacity5000mAh5000mAhSimilar battery capacity suggests comparable longevity.
Fast Charging30W120WRedmi Note 12 Pro+ charges significantly faster, minimizing downtime.
Other
Price RangeLowMediumMoto G82 offers better value for its price, while Redmi Note 12 Pro+ demands a premium.

2. Key Insights

The Moto G82 shines as a budget-friendly option, offering a solid AMOLED display with a 120Hz refresh rate for smooth visuals. Its Snapdragon 695 provides decent performance for everyday tasks.

The Redmi Note 12 Pro+, on the other hand, is a performance-oriented device. Its Dimensity 1080 chipset, coupled with 8GB of RAM, handles demanding tasks and gaming with ease. The standout feature is the 200MP main camera and blazing-fast 120W charging. However, real-world camera performance needs further evaluation beyond megapixel count.

3. User Profiles and Recommendations

Moto G82: Ideal for budget-conscious users who prioritize a smooth display and reliable performance for everyday use – social media, browsing, and light gaming.

Redmi Note 12 Pro+: Suitable for power users and mobile photographers who demand top-tier performance, fast charging, and a high-resolution camera. Gamers will appreciate the powerful GPU.

4. Buying Decision Framework

  1. What is your budget? The Moto G82 offers excellent value in the low-price segment, while the Redmi Note 12 Pro+ commands a higher price.
  2. What are your performance needs? For demanding tasks and gaming, the Redmi Note 12 Pro+ is the clear winner.
  3. How important is camera quality and charging speed? If these are top priorities, the Redmi Note 12 Pro+ with its 200MP camera and 120W charging is the better choice. However, megapixels don't tell the whole story, so research actual image quality comparisons.

My Choice: Xiaomi Redmi Note 12 Pro+

While the Moto G82 is a compelling budget option, I would choose the Redmi Note 12 Pro+. The significant jump in performance, the potential of the 200MP camera (pending real-world reviews), and the incredibly fast 120W charging are too enticing. I value a fluid, responsive experience, and the Redmi Note 12 Pro+ promises to deliver precisely that. The price difference is justifiable for the added performance and features, especially for someone like me who pushes their phone to its limits with multitasking, content creation, and occasional gaming. However, I would thoroughly research image quality comparisons before committing, as raw megapixel count doesn't guarantee superior photos.

Alex Griffin
Alex Griffin

Technology analyst specializing in mobile devices and consumer electronics.

Core Expertise

  • Mobile technology analysis
  • Consumer electronics evaluation
  • Technical specification interpretation
  • User experience insights

Professional Mission Empowering readers to make informed technology decisions by transforming intricate specifications into understandable, practical guidance.

Demystifying technology, one device at a time.