The Moto G Power 5G (2025) is quickly making its presence known across different certification sites, and some important information about this forthcoming device is now coming to light. Building upon the success of the Moto G Power 5G (2024), which was introduced in March this year exclusively in North America, the 2025 model is anticipated to have a similar release schedule, possibly debuting in early 2025 with a wider availability in other regions.
Certification Insights
This Motorola smartphone has been identified on the FCC (as reported by 91mobiles), TUV Rheinland, and UL Demko certification platforms, which have disclosed several key specifications like battery size, charging features, and aesthetic design. Here’s a summary of the details that have surfaced so far.
Model Variants and Connectivity
The FCC documentation verifies that the Moto G Power 5G (2025) will be designated with the model number XT2515-1. Notably, the listing also mentions other models numbered XT2515-2, XT2515-3, and XT2515V, indicating that these variants are tailored for different markets but share the same features.
The documentation also highlights a comprehensive array of connectivity options for the Moto G Power 5G (2025), including support for 5G, 4G LTE, Wi-Fi at both 2.4GHz and 5GHz, Bluetooth BR/EDR/LE, and NFC. Furthermore, the device will come equipped with GNSS, FM radio, and WPT (wireless power transfer) functionality. This guarantees that the Moto G Power 5G (2025) will provide strong connectivity and flexibility for users globally.
Charging and Battery Specs
The listing indicates that the Moto G Power 5G (2025) will support wireless charging. Importantly, the UL Demko certification points out that the Moto G Power charger can achieve a maximum charging speed of 20W. For comparison, the G Power (2024) offers 15W for wireless charging and 30W for wired charging.
The battery has been listed with a rated capacity of 4850mAh (with a typical capacity of 5000mAh), matching the previous model's specs. While the battery capacity stays the same, a more efficient chipset could potentially enhance battery performance.
