8-Element Linear Microphone Array Module with Raw Audio Output for Acoustic Data Acquisition-GYHA-LA08-Pro

8-Element Linear Microphone Array Module with Raw Audio Output for Acoustic Data Acquisition-GYHA-LA08-Pro

GYHA-LA08-Pro is an 8-element linear MEMS microphone array module designed for high-precision acoustic data acquisition, sound source localization, and AI audio algorithm development. Featuring eight synchronized high-sensitivity silicon microphones in a linear array configuration, the module provides pure raw audio output without built-in noise reduction, echo cancellation, or signal processing, preserving complete acoustic information for professional analysis and algorithm training.

Product Highlights

8-Element Linear MEMS Microphone Array

GYHA-LA08-Pro integrates eight high-performance MEMS microphones arranged in a precise linear array structure. Compared with conventional single microphones or low-channel microphone arrays, the increased microphone density provides higher spatial sampling resolution, improved sound field reconstruction capability, and enhanced sound source localization accuracy.


Pure Raw Audio Output for Algorithm Development

Unlike commercial voice modules with embedded DSP processing, AMM-LA08-Pro outputs original, unprocessed microphone signals directly from the hardware.

The module does not apply:

  • Noise suppression (NS)
  • Acoustic echo cancellation (AEC)
  • Automatic gain control (AGC)
  • Voice enhancement algorithms
  • Compression processing

This ensures the original acoustic characteristics are fully preserved, making it ideal for:

  • AI speech dataset collection
  • Acoustic algorithm research
  • Beamforming algorithm development
  • Sound localization experiments
  • Professional audio analysis

High Precision Spatial Audio Capture

The eight microphones are synchronously sampled with accurate phase consistency, enabling precise spatial acoustic information acquisition.

The linear microphone arrangement provides strong directional characteristics and creates a solid hardware foundation for:

  • Direction of arrival (DOA) estimation
  • Beamforming
  • Sound source tracking
  • Spatial audio analysis

Long-Distance Far-Field Pickup Capability

Through optimized acoustic design and high-performance audio acquisition circuitry, GYHA-LA08-Pro supports effective far-field voice capture up to 10 meters.

The module can accurately capture:

  • Human speech
  • Environmental sounds
  • Weak acoustic signals
  • Multi-source audio scenes

while maintaining excellent signal integrity.


Plug-and-Play USB Integration

The module adopts a standard USB audio interface, supporting:

  • Windows
  • Linux
  • Android
  • Embedded platforms

No additional driver development is required, allowing rapid integration into:

  • Smart conferencing terminals
  • AI voice devices
  • Acoustic measurement equipment
  • Research platforms
  • Intelligent sensing systems

Stable Industrial Audio Acquisition

Designed with professional-grade audio acquisition circuits and electromagnetic interference protection, GYHA-LA08-Pro provides:

  • Low noise operation
  • Stable long-term recording
  • Reliable multi-channel synchronization
  • Consistent audio performance

It is suitable for continuous professional audio acquisition applications.


Product Applications

AI Voice Algorithm Development

The raw multi-channel audio output provides high-quality training data for:

  • Speech recognition models
  • Noise reduction algorithms
  • Beamforming algorithms
  • Sound event detection
  • Acoustic AI applications

Acoustic Research & Measurement

Suitable for:

  • Acoustic laboratory experiments
  • Sound field analysis
  • Spatial audio research
  • Audio signal processing

Smart Conference System Development

Provides multi-channel acoustic input for:

  • Voice tracking
  • Speaker localization
  • Far-field voice capture
  • Intelligent meeting devices

Sound Source Localization Systems

The linear microphone array architecture supports advanced acoustic localization algorithms including:

  • DOA estimation
  • TDOA analysis
  • Beamforming processing

Technical Specifications

Microphone Array Parameters

ParameterSpecification
Microphone Configuration8-Microphone Linear Array
Microphone TypeHigh Sensitivity MEMS Microphone
Microphone Sensitivity-32 dB
Signal-to-Noise Ratio (SNR)65 dB
Acoustic Overload Point (AOP)126 dB SPL
Array StructureLinear Equal-Spaced Layout

Audio Performance

ParameterSpecification
Audio OutputRaw Multi-channel Audio
Sampling Rate16kHz / 48kHz
Resolution16bit / 24bit / 32bit
Effective Pickup Distance≤10 meters
Built-in Noise ReductionNo
Built-in Echo CancellationNo
Built-in Algorithm ProcessingNo

Electrical Characteristics

ParameterSpecification
InterfaceUSB Audio Interface
Operating Voltage5V ±5%
Operating Current120mA
Maximum Power Consumption0.6W
System CompatibilityWindows / Linux / Android / Embedded Systems

Why Choose SISTC Linear Microphone Array?

With more than 15 years of experience in MEMS microphone technology and acoustic sensing solutions, SISTC provides professional microphone array hardware platforms for global AI audio developers and intelligent device manufacturers.

Our expertise includes:

  • MEMS microphone design and manufacturing
  • Multi-channel microphone array development
  • Beamforming hardware platforms
  • Acoustic AI sensing solutions
  • OEM/ODM customization

SISTC helps customers accelerate acoustic algorithm development with reliable hardware platforms and high-quality raw audio acquisition solutions.

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