WEARABLE ELECTRONIC DEVICE

Organization Name

HUAWEI TECHNOLOGIES CO., LTD.

Inventor(s)

Rongguang Yang of Dongguan (CN)

Huiting Zhong of Dongguan (CN)

Bing Liu of Xi’an (CN)

Jianming Gao of Xi’an (CN)

Menglong Zhao of Xi’an (CN)

Bin Zhang of Dongguan (CN)

Huilan Li of Dongguan (CN)

Pan Zhang of Xi’an (CN)

Xiaogang Gou of Xi’an (CN)

WEARABLE ELECTRONIC DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18560911 titled 'WEARABLE ELECTRONIC DEVICE

The wearable electronic device described in the patent application consists of a housing and a circuit board assembly, with the circuit board assembly located inside the housing and fastened relative to it. The housing is made of carbon fiber material and has an inner surface with a conductive layer that connects the scattered carbon fiber material electrically. This conductive layer also serves to connect the housing to the circuit board assembly.

• The housing is integrally formed as a conductor by using the conductive layer on its inner surface.
• The conductive layer electrically connects the carbon fiber material within the housing.
• The housing is electrically connected to the circuit board assembly through the conductive layer.

Potential Applications: - This technology can be used in various wearable electronic devices such as smartwatches, fitness trackers, and health monitoring devices. - It can also be applied in sports equipment to provide real-time data tracking and analysis.

Problems Solved: - Provides a reliable and efficient way to connect the housing to the circuit board assembly in wearable devices. - Ensures a strong electrical connection between the carbon fiber material in the housing.

Benefits: - Improved durability and performance of wearable electronic devices. - Enhanced electrical connectivity for better functionality.

Commercial Applications: Title: "Enhanced Connectivity in Wearable Electronic Devices" This technology can be commercially used in the production of high-quality wearable devices for consumers, athletes, and healthcare professionals. It can also be integrated into sports equipment for data tracking and analysis purposes.

Prior Art: Readers can explore prior art related to this technology by researching patents in the field of wearable electronics, carbon fiber materials, and electrical connections in devices.

Frequently Updated Research: Researchers are constantly exploring new materials and methods to improve the performance and connectivity of wearable electronic devices. Stay updated on the latest advancements in this field for potential future developments.

Questions about the Technology: 1. How does the conductive layer improve the electrical connectivity in the wearable electronic device? The conductive layer on the inner surface of the housing ensures a strong electrical connection between the carbon fiber material and the circuit board assembly, enhancing the overall performance of the device.

2. What are the potential implications of using carbon fiber material in wearable electronic devices? Carbon fiber material offers lightweight and durable properties, making it ideal for use in wearable devices where strength and performance are crucial.

Original Abstract Submitted

The wearable electronic device includes a housing and a circuit board assembly. The circuit board assembly is located inside the housing, and is fastened relative to the housing. The housing includes a carbon fiber material, and the housing has an inner surface. The housing includes a conductive layer disposed on the inner surface. The conductive layer electrically connects the carbon fiber material scattered in the housing. The housing is electrically connected to the circuit board assembly by using the conductive layer. In the technical solution, the housing is integrally formed as a conductor by using the conductive layer disposed on the inner surface of the housing, and the housing is further electrically connected to the circuit board assembly by using the conductive layer.