Seamless Transition for Multiple Display Refresh Rates

Organization Name

google llc

Inventor(s)

Chien-Hui Wen of Cupertino CA (US)

Yichi Chen of Santa Clara CA (US)

Hsin-Yu Chen of Taoyuan City 330 (TW)

Seamless Transition for Multiple Display Refresh Rates - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240096256 titled 'Seamless Transition for Multiple Display Refresh Rates

Simplified Explanation

The example device described in the abstract includes a display component that can operate at different refresh rates based on certain triggers. The device also includes processors that can perform operations such as identifying rate change triggering events, determining current brightness values, and transitioning the display component to a different refresh rate in response to these events.

• The device has a display component that can operate at different refresh rates.
• Processors in the device can identify rate change triggering events.
• The device can determine current brightness values of the display component.
• Based on environmental state measurements, the device can determine threshold brightness values.
• The device can transition the display component to a different refresh rate if the current brightness value meets or exceeds the threshold brightness value.

Potential Applications

This technology could be applied in devices such as smartphones, tablets, and laptops to optimize display performance based on ambient lighting conditions.

Problems Solved

This technology solves the problem of inefficient display performance in varying lighting conditions by automatically adjusting the refresh rate based on the brightness level of the display.

Benefits

The benefits of this technology include improved display visibility, reduced power consumption, and enhanced user experience in different lighting environments.

Potential Commercial Applications

A potential commercial application of this technology could be in the development of smart devices with adaptive display capabilities for better user experience and energy efficiency.

Possible Prior Art

One possible prior art for this technology could be display brightness adjustment based on ambient light sensors in smartphones and tablets.

What is the impact of this technology on energy consumption in devices?

This technology can help reduce energy consumption in devices by optimizing the display refresh rate based on ambient lighting conditions, leading to more efficient power usage.

How does this technology improve user experience in different lighting environments?

By automatically adjusting the display refresh rate based on ambient brightness levels, this technology ensures better visibility and readability of the screen for users in various lighting conditions, enhancing their overall experience.

Original Abstract Submitted

an example device includes a display component that is configured to operate at a first refresh rate or a second refresh rate. the device also includes one or more processors operable to perform operations. the operations include identifying a rate change triggering event while the display component is operating at the first refresh rate. the operations further include determining a current brightness value of the display component. the operations also include determining, based on an environmental state measurement associated with an environment around the device, a threshold brightness value. the operations additionally include transitioning the display component from the first refresh rate to the second refresh rate m response to identifying the rate change triggering event if the current brightness value of the display component meets or exceeds the threshold brightness value.