A Wireless Charging Application for Wearable Tech Extended to Smart Glasses
It comes as no surprise that Virtual Reality and Augmented Reality technology have been booming in the recent years and the market is projected to grow at more than 40% annually through 2030. Current options for smart glasses include audio glasses, social glasses, AR glasses, and XR glasses. Implementation to date has been bounded by a controlled environment due to technological and mechanical limitations. Renesas aims to develop technology that enable smart glasses to evolve into an everyday product.
To that end, the Wireless Power team at Renesas has engineered a wireless charging design into a pair of audio glasses to showcase as a benchmark for future smart glasses. The greatest advantage of implementing a wireless power design into smart glasses is removing any charging ports/pins that would otherwise make the product susceptible to common dust and water damage. In order for the smart glasses to be scaled into the general population, they need to first become lifestyle-friendly and this reference design implementation is a step in the right direction.
Figure 1: Off-the-shelf smart glasses with wireless charging addition
Here is a brief insight to the process of creating the prototype. First, the P9222-R receiver was implemented into the side of the smart glasses frame where the battery and existing chips are located. The connections from the receiver were appropriately wired across the frame so that it was connected to the receiver coil that was sanded into the nosepad. Afterwards, we tinkered around with a prototype stand that would be simple to place on a nightstand for charging that is both functional and design foward. A Tx coil is connected to a P9235A-RB transmitter on the nose bridge where the nosepad would be resting when put on the stand. They used a 3D printer to create a hollow platform for the nose stand that discretely hides the Tx chip as shown below.
Figure 2: Charging stand prototype
There were a handful of hurdles that thyr encountered during the prototype process. This left a couple nuances regarding the design approach for consideration in future prototypes. As most wireless products implement a flat coil with a much larger surface area, they have leniency in contact positioning. However, the small form factor of the rod coil in prototype’s Rx and Tx requires precise alignment between the coils. It would be ideal for future models to include magnetic positioning to ensure alignment of the contact points. The product path for this concept going forward includes a portable charging case and a 3D printed stand to conceal the coil inside.
Figure 3: The final version of the prototype ready for demonstration at CES 2022
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