The Enova Solutions “3 m XLR female to 1/4″ plug 3 pole microphone cable” is meticulously crafted to deliver outstanding audio quality for both analog balanced and digital AES/EBU signals. It features a robust design with ENOVA XLR female connectors on one end and 1/4″ 3-pin jacks on the other, making it suitable for a wide range of professional audio applications including live performances, studio recordings, and more.
Each connector is made from high-grade metal and includes strain relief and a cable kink protection grommet to ensure a secure, clean connection. The cable is assembled by hand and undergoes a 100% functional check to maintain the highest standards of quality and reliability.
The 3-meter length provides ample reach without sacrificing signal integrity, housed in a flexible and durable black outer jacket. The cable’s conductors are made from high-quality Oxygen-Free Copper (OFC) with a cross-section of 2 x 0.22 mm² (AWG 24 with 7x 0.20 mm strands), ensuring minimal resistance and maximum signal clarity. Insulation is provided by Flexible PolyEster (FPE), a material known for its combination of strength, flexibility, and resistance to temperature variations. A spiral shield further protects against electromagnetic interference, preserving the purity of the audio signal across its length.
Specifications
- Brand: ENOVA
- Series: A1-Serie
- Version: Cable Version
- Connector Type: XLR (female 3-pin) to 1/4″ Jack (3-pin)
- Cable Type: XLR female to 1/4″ Plug
- Number of Contacts: 3
- Gender: Cable female to male
- Cable Surface Color: Black
- Cable Length: 3 meters
- Cable Diameter: Ø 6.5 mm
- Wire Size: 24 AWG 0.22 mm²
- Working Temperature Minimum: -20° C
- Working Temperature Maximum: +60° C
- Applications: DJ, Keyboard player, Singer, Sound engineer
- AES/EBU Compatibility: Suitable up to 200 m
- Additional Features: OFC copper, FPE insulation, spiral shield, supplied with Velcro closure
This cable is an excellent choice for professionals seeking a reliable, high-quality connection that supports both the complexities of digital audio and the nuances of analog signals efficiently.
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