Auditory Stimulation and measurement system for Experimental Audiology - in conformity with the standard EN 60645-1 for audiometers

What is g.PAH - programmable attenuator and headphone buffer ?

The device is used to accurately attenuate a sound signal in steps of 1 dB. If the input signal is e.g. attenuated by 20 dB then the output signal amplitude is 1/10th of the input signal amplitude. Such an accurate control of damping is necessary in the field of e.g. objective audiometry.

Sound signals generated e.g. by a CD player or PC/notebook soundcard are sent to g.PAH input. The device - controlled via a serial interface - attenuates the signals by the specified damping factors. The output sound signal is then sent to a standard high-end head phone or speakers for audiometry and presented to the subject. The device is equipped with 2 separately controlled channels. The included demo software allows to adjust the attenuation for each channel per mouse-click. The protocol for the serial interface is described and allows to integrate the device into almost any experimental or routine setup.

The g.PAH will be delivered in an advanced design. The switching times between the gauges are now in conformity with the standard EN 60645-1 for audiometers.

Download Info-sheet (PDF 411 kByte)

Demo software for setting the g.PAH parameters

Example: ASSR stimulated by an amplitude modulated sinosoidal wave

This example displays the ASSR which can be evoked and quantified using g.BSamp, g.Recorder and g.PAH.

The upper panel in the figure to the left displays one example of an amplitude modulated sound signal typically used in ASSR: A sinusoidal carrier of 1000 Hz is modulated by 88 Hz. The lower panel displays the power spectrum of the stimulus including the carrier and the 2 spectral lines at the modulation frequencies (lower panel, blue graph).

This stimulation sequence is sent to the programmable attenuator and headbuffer g.PAH via the soundcard of the PC/notebook. The EEG is then recorded via g.Recorder. A trigger signal allows for online averaging of 1 second EEG sweeps in synchrony to the stimulus. Thereafter the spectrum of the averaged EEG signal is computed yielding the ASSR.

The result of the computation is given by the red graph in the lower panel. The ASSR can clearly be identified at the modulating frequency of 88 Hz.

Depending on the stimulation signal ASSR at different frequencies can be identified in the frequency domain. Typically Multiple Auditory Steady-State Responses (MASTER) are evoked using 4 different carrier and 4 different modulating frequencies. The lower panel displays ASSR for a normal hearing subject. The 4 frequency components at the modulating frequencies of 80, 90, 100, 110 can clearly be identified in the spectrum.

For a comprehensive overview on ASSR see: Picton TW, John MS, Dimitrijevic A, Purcell D (2003) Human auditory steady-state responses. Int J Audiol. 42: 177-219