The Harrison D510mx 10x2 analog mixer interface module for the D510r rack offers professional-grade analog summing in a compact, modular system. Designed to occupy two slots in the Harrison D510r 500 Series rack, this module transforms your setup into a powerful 10x2 summing mixer. With eight 500 Series module slots and two dedicated analog inputs, it provides precise level and pan controls across all channels. Dual headphone outputs with independent blend controls enhance monitoring capabilities, making it ideal for mixdowns, tracking, and headphone-based workflows. Known for its signature analog summing, Harrison delivers the weight, depth, and clarity that producers rely on for polished productions. This module integrates seamlessly with optional components like the D510dante interface, offering expanded monitoring flexibility.

Level and Pan Controls for Precise Summing

The Harrison D510mx features dedicated level and pan controls for each of its ten input channels, allowing for precise stereo mixdowns. Whether you're summing stems or blending individual tracks, these controls provide nuanced adjustments for achieving professional results. The pan settings adhere to a -3dB pan law, ensuring consistent imaging and balance across the stereo field. This functionality gives producers the tools to craft mixes that are both transparent and spatially dynamic, capturing every detail in the audio spectrum. With its intuitive layout, the D510mx simplifies the summing process while delivering the renowned Harrison sound quality.

Dual Headphone Outputs for Tailored Monitoring

This summing module includes two independent headphone outputs, each equipped with blend controls for customized monitoring. Users can create tailored headphone mixes, either from the direct analog outputs or from sources connected via the optional D510dante interface. This feature is especially useful for producers working in collaborative environments or for artists requiring isolated monitoring during recording sessions. With its clean, high-headroom headphone amplifier design, the D510mx ensures accurate and detailed playback, giving users confidence in their mixes and monitoring decisions.

Advanced Integration With Dante Compatibility

When paired with the optional D510dante audio interface card, the D510mx expands its functionality to include seamless networked audio integration. Producers can route audio from any connected Dante device directly to the module's headphone outputs or summing channels, making it a versatile tool for hybrid analog-digital workflows. The ability to combine traditional analog summing with modern networked audio connectivity ensures compatibility with a wide range of professional setups. This advanced integration makes the D510mx an invaluable addition to any production environment, maximizing flexibility without compromising sound quality.

Compact Design With Premium Engineering

The D510mx is engineered to fit within two slots of the Harrison D510r rack, creating an ultracompact yet powerful 10x2 summing mixer. Its robust circuitry delivers low noise, high headroom, and exceptional frequency response from 20 Hz to 20 kHz. With a maximum input level of +24 dBu and minimal distortion (THD+N < 0.003%), the module maintains pristine audio fidelity across all operating conditions. The module's durable build ensures reliable performance over time, making it a trusted choice for both studio and portable setups. Designed with precision, the D510mx combines Harrison's legacy of analog excellence with cutting-edge modular design.

Perfect for Producers Seeking Analog Depth

The Harrison D510mx offers unparalleled analog summing capabilities in a compact, rack-mounted format. Its level and pan controls, dual headphone outputs, and Dante compatibility make it ideal for producers and engineers looking for a flexible and professional-grade summing solution. Whether in a studio or mobile setup, the D510mx delivers the signature depth and clarity that Harrison is known for. Add this module to your D510r rack and elevate your productions with the power of analog summing.