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OPPO, vivo, and Honor testing 144Hz/165Hz high-refresh screens

OPPO, vivo, and Honor testing 144Hz/165Hz high-refresh screens
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💡Track hardware trends in mobile displays that impact the performance and UX of AI-integrated mobile applications.

⚡ 30-Second TL;DR

What Changed

OPPO, vivo, and Honor are testing 144Hz/165Hz display panels

Why It Matters

The push for higher refresh rates indicates a competitive hardware race in the mobile sector, though software optimization remains the primary bottleneck for user experience.

What To Do Next

If developing mobile AI applications, optimize UI rendering pipelines to ensure compatibility with variable refresh rate displays.

Who should care:Developers & AI Engineers

Key Points

  • OPPO, vivo, and Honor are testing 144Hz/165Hz display panels
  • Xiaomi and Huawei are currently maintaining 120Hz standards
  • High refresh rates are currently restricted to gaming support rather than global UI

🧠 Deep Insight

Web-grounded analysis with 20 cited sources.

🔑 Enhanced Key Takeaways

  • The perceived difference between 120Hz and 144Hz or 165Hz is often marginal for most users, as the system interface itself is frequently capped at 120Hz and many applications are not optimized to leverage refresh rates beyond this threshold.
  • LTPO (Low-Temperature Polycrystalline Oxide) display technology is crucial for managing power consumption in high-refresh-rate screens, enabling dynamic adjustment of refresh rates from as low as 1Hz up to 120Hz or more, thereby extending battery life.
  • While OPPO, vivo, and Honor are testing these higher refresh rates, dedicated gaming smartphones like the RedMagic 11 Pro and ASUS ROG Phone 9 Pro already feature 165Hz displays, and some mainstream flagships like the Samsung Galaxy S26 Ultra offer 144Hz in gaming modes.
  • Beyond 165Hz, the industry is already exploring even higher refresh rates, with internal testing of 185Hz panels and evaluation of 200Hz prototypes reported by 2026, indicating a continuous push for faster displays.
📊 Competitor Analysis▸ Show
Feature/CompetitorXiaomi (Flagships 2025-2026)Huawei (LTPO)RedMagic 11 Pro (Gaming)ASUS ROG Phone 9 Pro (Gaming)Samsung Galaxy S26 Ultra (Flagship)OnePlus 15 (Flagship)
Max Refresh Rate120Hz (Adaptive 1-120Hz)120Hz (Adaptive 1-120Hz)165Hz AMOLED165Hz144Hz (Gaming Mode)165Hz (Gaming Mode)
Display TypeAMOLEDOLED (LTPO)AMOLEDAMOLEDDynamic AMOLEDAMOLED
ProcessorSnapdragon 8 Gen 3 (Xiaomi 15 Ultra)N/ASnapdragon 8 Elite Gen 3Snapdragon 8 EliteSnapdragon 8 Elite Gen 3 for GalaxyQualcomm Snapdragon 8 Elite Gen 3
Key DifferentiatorMainstream flagship, HyperOSPower efficiency with LTPODedicated cooling fanSpecialized gaming features, triggersPremium mainstream, S Pen supportHigh refresh rate in gaming mode
Release Date2025 (Xiaomi 15 Ultra)N/ANovember 2025November 2024March 2026March 2026 (approx)

🛠️ Technical Deep Dive

  • LTPO Technology: Low-Temperature Polycrystalline Oxide (LTPO) is a backplane technology for OLED screens that replaces the TFT in the OLED drive circuit with an IGZO TFT to reduce display power consumption.
  • Adaptive Refresh Rate: LTPO screens support adaptive refresh rates, dynamically adjusting from as low as 1Hz (for static content like always-on displays) to 120Hz or higher (for smooth animations and gaming), optimizing power consumption and extending battery life.
  • Power Consumption: Running displays at 144Hz or 165Hz significantly increases energy consumption compared to 120Hz or lower, necessitating adaptive refresh rate systems to prevent excessive battery drain.
  • Perceptual Threshold: The visual improvement from 120Hz to 144Hz or 165Hz is often described as marginal for most users, with the most significant perceived smoothness jump occurring from 60Hz to 120Hz/144Hz.
  • Software Optimization: The full benefit of ultra-high refresh rates (144Hz/165Hz) is often limited by the operating system's UI being capped at 120Hz and a lack of optimization in most mobile applications and games to support frame rates beyond 120fps.

🔮 Future ImplicationsAI analysis grounded in cited sources

Mainstream adoption of 144Hz/165Hz refresh rates for system-wide UI will remain limited.
The marginal perceived benefit over 120Hz for most users, coupled with the significant battery drain and lack of widespread app optimization, suggests these ultra-high refresh rates will primarily remain a niche feature for dedicated gaming scenarios.
LTPO technology will become a standard requirement for any smartphone aiming for refresh rates above 120Hz.
To mitigate the substantial power consumption associated with higher refresh rates, dynamic and efficient refresh rate adjustment offered by LTPO is essential for maintaining acceptable battery life in future devices.
The utility of 144Hz/165Hz displays will heavily depend on broader software and game developer support.
Without operating system interfaces and a wider array of mobile games and applications being optimized to render content at these higher frame rates, the hardware capability will be underutilized, offering little real-world advantage.

Timeline

2017-11
Razer Phone launched as the first smartphone with a 120Hz display.
2018
Asus ROG Phone introduced as the first smartphone with a 90Hz AMOLED display.
2019-05
OnePlus 7 Pro released with a 90Hz OLED display, popularizing high refresh rates.
2020-03
RedMagic 5G became the first smartphone to feature a 144Hz display.
2021-03
RedMagic 6 and 6 Pro were released, pushing smartphone refresh rates to 165Hz.
2025-11
RedMagic 11 Pro launched with a 165Hz AMOLED display, continuing the trend in gaming phones.
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Original source: IT之家