Apple inc. (20240192508). Device Alignment Systems simplified abstract
Contents
Device Alignment Systems
Organization Name
Inventor(s)
Chih Jen Chen of San Jose CA (US)
Brian S. Lau of Seattle WA (US)
Christopher Patton of San Jose CA (US)
Device Alignment Systems - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240192508 titled 'Device Alignment Systems
The abstract describes a head-mounted device with display projectors that provide images, conveyed to eye boxes through waveguides. Optical couplers like prisms couple the images into the waveguides, guiding them to output couplers that direct the images towards the eye boxes for user viewing. Sensor circuitry measures potential misalignment between optical components, with control circuitry adjusting the components using zero hold power piezoelectric actuators to correct misalignment.
- Head-mounted device with display projectors
- Waveguides used to convey images to eye boxes
- Optical couplers like prisms couple images into waveguides
- Sensor circuitry measures misalignment between optical components
- Control circuitry adjusts components using piezoelectric actuators to correct misalignment
Potential Applications: - Augmented reality devices - Virtual reality headsets - Military applications for enhanced vision systems
Problems Solved: - Correcting misalignment between optical components - Ensuring accurate image projection for user viewing
Benefits: - Improved image quality - Enhanced user experience - Increased accuracy in visual displays
Commercial Applications: - Consumer electronics industry for AR/VR devices - Military and defense sector for advanced vision systems
Prior Art: Research on waveguide technology in AR/VR devices Studies on optical couplers for image projection
Frequently Updated Research: Ongoing advancements in waveguide technology for improved image quality
Questions about Head-Mounted Device Technology: 1. How does the sensor circuitry detect misalignment between optical components? 2. What are the potential implications of using piezoelectric actuators for adjusting optical components?
Original Abstract Submitted
a head-mounted device may have display projectors that provide images. waveguides may be used in conveying the images to eye boxes. optical couplers such as prisms may be used to couple the images from the projectors into the waveguides. the waveguides may guide the images to output couplers that couple the images toward eye boxes for viewing by a user. during operation of the head-mounted device, sensor circuitry may be used to measure for potential misalignment between optical components such as projectors, couplers, and waveguides. control circuitry may provide control commands to zero hold power piezoelectric actuators or other positioners based on the sensor measurements, thereby tilting and otherwise repositioning the optical components relative to each other to correct for optical component misalignment.