DYNAMIC TIMING CALIBRATION SYSTEMS AND METHODS

Organization Name

google llc

Inventor(s)

Jens Kristian Poulsen of Kitchener (CA)

DYNAMIC TIMING CALIBRATION SYSTEMS AND METHODS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240202150 titled 'DYNAMIC TIMING CALIBRATION SYSTEMS AND METHODS

The patent application describes systems and methods for dynamic adaption and correction of internal delays in devices connected to a common time-multiplexed bus.

• Devices can operate reliably at a higher bus frequency by correcting for inherent and unknown delays within components and the system.
• Actual delays are measured using multiple readings with the bus, utilizing intrinsic noise and jitter to increase measurement precision.
• Uncertainties are used as self-dithering for increased measurement resolution.
• Delays can be adjusted in multiple step sizes during adaption to speed up the process.

1. 1. 1. Potential Applications:

- Industrial automation systems - Communication networks - Automotive electronics - Aerospace systems - Medical devices

1. 1. 1. Problems Solved:

- Improving reliability of devices operating at higher bus frequencies - Correcting for internal delays within components and systems - Enhancing measurement precision using intrinsic noise and jitter

1. 1. 1. Benefits:

- Increased reliability in high-frequency operations - Improved accuracy in measuring internal delays - Enhanced performance of connected devices

1. 1. 1. Commercial Applications:
         1. Title: Dynamic Adaption and Correction Technology for Enhanced Device Performance

This technology can be utilized in various industries such as industrial automation, telecommunications, automotive, aerospace, and healthcare for improving the efficiency and reliability of connected devices operating at high frequencies.

1. 1. 1. Prior Art:

Further research can be conducted in the field of time-multiplexed bus systems, dynamic adaption techniques, and internal delay correction methods to explore existing technologies related to this innovation.

1. 1. 1. Frequently Updated Research:

Stay updated on advancements in time-multiplexed bus systems, dynamic adaption algorithms, and internal delay correction techniques to enhance the performance of connected devices.

1. 1. 1. 1. Questions about Dynamic Adaption and Correction Technology:

1. How does the use of intrinsic noise and jitter improve measurement precision in this technology?

  - The use of intrinsic noise and jitter helps increase the accuracy of measurements by leveraging uncertainties as self-dithering for enhanced resolution.
  

2. What are the potential challenges in implementing dynamic adaption and correction for internal delays in devices connected to a common time-multiplexed bus?

  - Some challenges may include ensuring compatibility with existing systems, optimizing adaption algorithms for different devices, and managing the complexity of adjusting delays in real-time.

Original Abstract Submitted

provided herein are systems and methods for performing dynamic adaption and correction for internal delays in devices connected to a common time-multiplexed bus. the methods allow devices to operate reliably at a higher bus frequency by correcting for inherent and unknown delays within the components and in the system by measuring the actual delays using multiple readings with the bus. intrinsic noise and jitter are used to increase the precision of the measurements, thereby essentially using these uncertainties as self-dithering for increased measurement resolution. during adaption, delays may be adjusted in multiple step sizes to speed adaption time.