The “10 m XLR female to 1/4″ plug 3 pole microphone cable” from Enova Solutions is engineered for superior performance in transmitting both analog balanced and digital AES/EBU audio signals. Featuring a 10-meter length, this cable extends your connectivity range, making it perfect for large venues and complex setup configurations where distance can be a challenge.
Constructed with high-quality materials, the cable includes ENOVA XLR female 3-pin connectors and 1/4″ 3-pin jacks, both made of durable metal with strain relief and a kink protection grommet to ensure a clean and secure connection. The professional-grade cable is hand-assembled and passes through a 100% functional check to guarantee reliability and the highest level of performance.
The cable’s outer jacket is crafted from a flexible and robust black material, with a diameter of 6.5 mm. It uses high-quality Oxygen-Free Copper (OFC) for its conductors, ensuring minimal signal loss and maximum clarity. These conductors are insulated with Flexible Polyester (FPE), a material recognized for its strength, flexibility, and resistance to varying temperatures. A spiral shield further protects the integrity of the audio signal, preventing electromagnetic interference from impacting the quality of the transmission.
Specifications
- Brand: ENOVA
- Series: A1-Serie
- Version: Cable Version
- Connector Type: XLR (female 3-pin) and 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: 10 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 audio professionals who require a reliable, high-quality connection that can handle both the complexities of digital audio and the nuances of analog signals across extended distances.
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