HEAD-MOUNTED DISPLAY DEVICES WITH REDUCED WIRELESS INTERFERENCE BY OPTOELECTRONIC COMPONENTS

Organization Name

meta platforms technologies, llc

Inventor(s)

Francis Lawrence Leard of Sudbury MA (US)

Javier Rodriguez De Luis of Kirkland WA (US)

Afsoon Jamali of Issaquah WA (US)

Olga Vladimirovna Barykina-tassa of San Mateo CA (US)

HEAD-MOUNTED DISPLAY DEVICES WITH REDUCED WIRELESS INTERFERENCE BY OPTOELECTRONIC COMPONENTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240168344 titled 'HEAD-MOUNTED DISPLAY DEVICES WITH REDUCED WIRELESS INTERFERENCE BY OPTOELECTRONIC COMPONENTS

The patent application describes an electronic device with antennas and optoelectronic components, including electrodes with specified sheet resistance. The electrodes may be made of various materials such as aluminum doped zinc oxide, sub-wavelength-roughened electrodes, nano-imprinted electrodes, electroplated electrodes, or indium tin oxide.

• The electrodes may also include boundary layers of indium molybdenum oxide and/or indium niobium oxide.
• Field-induced alignment is used to align the electrodes.
• The antennas are positioned in a separate layer from the optoelectronic components in the device.
• The device is suitable for use in a head-mounted display device.

Potential Applications: - Head-mounted display devices - Wearable technology - Communication devices

Problems Solved: - Improved performance of electronic devices - Enhanced signal reception and transmission

Benefits: - Higher efficiency in signal processing - Better integration of antennas and optoelectronic components - Enhanced user experience in head-mounted displays

Commercial Applications: Title: Enhanced Electronic Devices for Wearable Technology This technology can be applied in the development of advanced wearable devices for various industries, including telecommunications, healthcare, and entertainment. The improved signal processing and integration of components offer a competitive edge in the market for wearable technology.

Prior Art: There is limited information available on prior art related to this specific technology. Further research may be needed to explore existing patents or publications in this field.

Frequently Updated Research: Stay updated on the latest advancements in optoelectronics and antenna technology to enhance the performance of electronic devices. Research on materials science and device integration can provide valuable insights for future developments in this area.

Questions about the Technology: Question 1: How does the field-induced alignment of electrodes contribute to the performance of the electronic device? Answer: Field-induced alignment helps ensure the precise positioning of electrodes, leading to improved signal processing and overall device efficiency.

Question 2: What are the key advantages of using boundary layers in the electrodes of the electronic device? Answer: Boundary layers enhance the conductivity and stability of the electrodes, resulting in better performance and longevity of the device.

Original Abstract Submitted

an electronic device includes one or more antennas and one or more optoelectronic components. the one or more optoelectronic components include one or more electrodes. the one or more electrodes have a specified sheet resistance. the one or more electrodes may include aluminum doped zinc oxide, sub-wavelength-roughened electrodes, nano-imprinted electrodes, electroplated electrodes, indium tin oxide or one or more boundary layers. the one or more boundary layers may include one or more layers of indium molybdenum oxide and/or one or more layers of indium niobium oxide. the one or more electrodes may be aligned via field-induced alignment. the one or more antennas may be positioned in a first layer of the electronic device and the one or more optoelectronic components may be positioned in a second layer of the electronic device distinct from the first layer. the electronic device may be used in a head-mounted display device.