Type BZ-7852

Electroacoustic Engine Software

Electroacoustic data acquisition and analysis engine for use with Type 3670 DAQ that can be programmed to produce user defined, automated test applications

Demande de devis

Electroacoustic (EA) Engine BZ-7852 is an electroacoustic test environment intended to drive Production Test USB DAQ Type 3670 and simplify the measurement of accurate acoustic and vibration data in a production test environment. It can generate final test measurements for further analysis and evaluation, without the need for waveform generation, hardware control or digital signal processing programming experience. 

The EA Engine can be operated from the command line or programmatically from popular languages such as C#, MATLAB® or Python® to develop custom user interfaces, and the results can be easily accessed in a range of commercial analysis software as well as Microsoft® Excel®.


Test software interface to Type 3670 data acquisition hardware for closed-loop measurements on audio devices, for example, create custom software for:

  • Repetitive testing for production QA for audio devices with multiple built-in microphones and speakers
  • Testing smart devices with voice recognition systems for speech intelligibility and error rates
  • Measuring system frequency response and distortion at frequencies up to 40 kHz
  • Recording high-resolution time data from a device under test (DUT) under external excitation for post-processing

The EA Engine uses standard Windows command line instructions to access all functionality and setup parameters are stored in XML files allowing simple programming and control from almost any programming environment including C#, MATLAB and Python.

Measurement data is stored in XML or MAT files for simple programmatic access or in CSV files for access, analysis and display in Microsoft Excel.

Time data is stored as calibrated data in WAV, HDF5 or MATLAB for easy post-processing in BK Connect® and many third-party applications.


Calibration of all devices connected to the inputs and outputs to produce accurate results in true engineering units is achieved through single command lines and the calibrated values are automatically stored in the system setup XML files.

In addition, the frequency response of sources connected to the outputs can be characterised and corrected to produce a flattened response during subsequent testing.


The EA Engine can perform closed-loop measurement of the frequency response of any audio or vibration device. Tests using step-sine, swept-sine, random or an arbitrary waveform are provided, and the results can be stored as single channel results in narrowband spectra or CPB and cross-channel measurements in many formats including complex FRFs.

For each test, the latency between signal output and signal input is automatically measured and corrected, both for the internal delay and, optionally for the physical distance between source and receiver.


Calibration Input – based on known physical value
Output – closed loop to calibrated input
Equalisation – calculated from a known signal with a flat frequency response
Time Recording Selected input channel and source output channels Saved as calibrated WAV, HDF5 or MATLAB formats
Measurement methods Random excitation – white or pink noise
Swept sine Step Sine – with optional THD and Rub & Buzz calculation
Waveform streaming – user-defined time data excitation
Result types Spectra
Phase assigned spectra
Synthesised CPB (from FFT)
Special functions Integration/Differentiation – where the inputs are defined as Displacement, Velocity or Acceleration
Settling time – provides an optional period of excitation at the start of the test before measurement begins