In the realm of digital audio, the quality of your connections can significantly influence your listening experience. The Pearl Optical 3.5mm Mini M Toslink Fiber-Optic Cable by AudioQuest is meticulously designed to deliver superior sound clarity. Ideal for connecting devices like soundbars, subwoofers, and various A/V components, this cable ensures that your audio signals are transmitted with precision and minimal distortion.
Optimized for Modern Devices
With the widespread use of the 3.5mm Mini Optical connector—commonly found on devices ranging from Mac laptops to high-end portable audio equipment—the Pearl Optical cable offers seamless compatibility. This ensures that whether you're connecting to a home theater system or a portable device, your audio transmission remains flawless.
Low-Dispersion Fiber for Accurate Sound
At the core of the Pearl Optical cable is its low-dispersion fiber conductor. In optical transmissions, light dispersion can lead to timing errors, affecting audio quality. By utilizing polished low-dispersion fiber, this cable minimizes such errors, resulting in improved bandwidth and a more accurate audio reproduction.
Precision-Polished Fiber Ends
To further enhance performance, the Pearl Optical cable features precision-polished fiber ends. This meticulous attention to detail ensures optimal signal transfer, reducing jitter and providing a clearer, more detailed sound.
Durable and In-Wall Rated Design
Constructed with a black/gray stripe in-wall rated PVC jacket, the Pearl Optical cable is both durable and versatile. Its design allows for safe installation within walls, making it a suitable choice for both professional setups and home installations.
Available Lengths to Suit Your Needs
Understanding that different setups require varying cable lengths, AudioQuest offers the Pearl Optical cable in multiple sizes, ranging from 0.75 meters to 16 meters. This flexibility ensures you can select the perfect length for your specific requirements, eliminating excess cable clutter while maintaining optimal performance.
