Soundcraft Cobranet 32x32 Card
Description
Soundcraft Cobranet 32x32 Card
The Soundcraft Cobranet 32x32 Card unlocks expansive digital audio routing for live sound rigs and studio setups, delivering the channel capacity and precision needed to manage complex mixing scenarios without sacrificing sonic integrity. Its 32x32 channel architecture gives you the routing flexibility to handle multi-band festival setups, orchestrate intricate live arrangements, or craft demanding studio sessions where every signal path matters. The intuitive networking capabilities let you distribute and manage sound across multiple locations while keeping audio fidelity rock-solid throughout your chain.
Network Architecture & Channel Capacity
This card sends and receives up to 32 audio channels to and from a CobraNet network, with configurable input and output channel assignments via onboard DIP switches. The default configuration provides 32 output and 32 input channels, allowing you to tailor the card's behavior to your specific console and system requirements.
Integration & System Requirements
CobraNet cards used in Soundcraft consoles must operate as the conductor of the CobraNet system, ensuring stable network management and synchronized audio distribution across all connected devices. This conductor role centralizes control and timing for your entire networked audio environment.
Key Features
- Sends and receives up to 32 audio channels over CobraNet network
- Configurable input and output channels via DIP switches
- Default configuration: 32 output channels and 32 input channels
- Operates as CobraNet system conductor in Soundcraft consoles
- Part Number: A520.006000SP
- Enables distributed audio routing across multiple locations
- Supports complex mixing scenarios and multi-band setups
- Maintains audio fidelity in networked environments
The Soundcraft Cobranet 32x32 Card removes routing constraints from your technical setup, letting you focus on what matters—the performance itself—while the card handles sophisticated digital audio distribution with the reliability and stability your gigs demand.
More Information
| Condition | New |
|---|---|
| Country of Manufacture | China |
Reviews
At a Glance
The Soundcraft Cobranet 32x32 Card is a networked audio interface card that routes up to 32 channels of audio input and output across multiple locations, making it ideal for touring bands, festivals, and large live venues where you need to manage sound from different stage areas or front-of-house positions without losing audio quality. Built for Soundcraft consoles, it acts as the conductor of your networked audio system, centralizing control and timing so your technical team can focus on the performance while the card handles complex routing behind the scenes. Choose it when you need rock-solid networked audio distribution across a sprawling venue or multi-stage setup.
Frequently Asked Questions
What is a CobraNet card and how does it work?
The Soundcraft Cobranet 32x32 Card sends and receives up to 32 audio channels over a CobraNet network, allowing you to distribute sound across multiple locations without running long analog cables. In Soundcraft consoles, it operates as the network conductor, centralizing control and timing for all connected devices to ensure synchronized, stable audio distribution.
Can I configure the input and output channels?
Yes, the card has configurable input and output channel assignments via onboard DIP switches. The default configuration provides 32 output and 32 input channels, but you can tailor these to match your specific console and system requirements.
What consoles does this card work with?
This card is designed for Soundcraft consoles and must operate as the CobraNet system conductor in those consoles to ensure stable network management and synchronized audio distribution.
What are typical use cases for this card?
It excels in multi-band festival setups, complex studio sessions spanning multiple rooms, large live venues with distributed mixing positions, and any scenario where you need to route many audio channels across networked infrastructure without compromising fidelity.