Insights #2973: CAD renders of iPhone 15 Pro Max, Sony TWS headphones, and 3D-printed batteries.

iPhone 15 Pro Max CAD renders leaked, Sony flagship headphones certified in the US, and a startup uses 3D printing for battery production.

iPhone 15 Pro Max Render Leaks

The upcoming iPhone 15 Pro Max has made its way into the news with leaked CAD renders. The renders showcase a sleek and minimalist design, featuring no ports or buttons on the exterior of the device.

Rumors suggest that Apple may be opting for a completely wireless experience with this model, using MagSafe technology for charging and data transfer. Additionally, sources claim that there will be significant improvements to camera quality and battery life.

Sony Flagship Headphones Certified in USA

The highly anticipated flagship headphones from Sony have passed certification in the United States. According to reports, these over-ear headphones will feature advanced noise cancellation technology along with high-resolution audio capabilities.

Additionally, users can expect improved comfort thanks to ear cups designed specifically for long listening sessions. While pricing details remain unknown at this time, experts predict that they will come at a premium price point compared to other Sony headphone models currently available on the market.

Startup Adapts 3D Printing Technology For Battery Production

An American startup is making waves by adapting their use of 3D printing technology towards producing batteries instead of traditional manufacturing methods.. This innovative approach aims to reduce production costs while increasing efficiency by allowing customized designs tailored towards specific applications or devices.

This development could pave new paths within industries ranging from electric vehicles all through consumer electronics as well as renewable energy storage solutions where cost-effective mass-production alternatives are essential factors when it comes down onto commercialization decisions regarding emerging technologies such as solid-state electrolyte batteries which promise higher energy densities than current lithium-ion counterparts without safety hazards associated – however require more expensive materials thus rendering them less affordable if produced via conventional means due too many steps involved during fabrication process itself..