Description
Edifier HECATE GM5 True Wireless Gaming Earbuds with aptX Low Latency
Edifier HECATE GM5 Qualcomm AptX Low Latency True Wireless Gaming Earbuds- Bluetooth V5.2 Wireless Earphones with Dual-mic ENC Noise Cancellation, 40H Playtime.
Designed to deliver undistorted sound accuracy and low-latency bluetooth for an immersive gaming experience.
Featuring precise sound details, these earbuds provide an original and futuristic look to enhance your gaming style.
With aptX Low Latency technology, you can enjoy lag free audio with zero interference.
FEATURES
- POWERFUL CHIPSET:Â The Edifier HECATE GM5 True Wireless Gaming Earbuds offer the latest in wireless gaming audio quality. Styled with a Qualcomm QCC3046 chipset for cutting-edge aptX adaptive technology, and a high-speed Bluetooth V5.2 wireless connection, dynamic gaming audio is now accessible to all.
- TRUE WIRELESS MIRRORING:Â Experience the next level of gaming with Edifier HECATE GM5 True Wireless Gaming Earbuds. Utilizing aptX Low Latency technology and true wireless mirroring, you can seamlessly switch between single and dual-ear mode with ease. Enjoy lag-free audio for an immersive gaming experience.
- LONG BATTERY LIFE:Â Experience up to 40 hours of uninterrupted gaming with Edifier HECATE GM5 True Wireless Gaming Earbuds. With 8 hours of power from the earbuds and 32 hours of power from the charging case, you get longer and smoother audio streaming, thanks to aptX Low Latency technology.
- CRYSTAL CLEAR COMMUNICATIONS:Â Featuring a comfortable half-in-ear design and aptX Low Latency technology, they produce crystal-clear audio with minimal sound delay. Environmental noise cancellation also ensures a distraction-free experience during calls.
- IMPRESSIVEÂ DIAPHRAGM DRIVER UNIT:Â These earbuds come with a powerful 12mm diaphragm driver unit delivering up to 98dB of sound pressure level and low-frequency content down to 20Hz, making it suitable for even the most demanding audio needs. Enjoy enhanced audio with aptX Low Latency technology for seamless audio synchronization.