Restricting exposure to pulsed and broadband magnetic fields.

A general procedure is described for application of the new ICNIRP exposure guidelines to pulsed and broadband magnetic fields below 100 kHz. The procedure involves weighting of the spectral components with a function that takes into account the basic restrictions and reference levels. A simple first-order RC response or its piecewise linear equivalent is proposed for the weighting function. The weighting can be performed either on the Fourier transformed sample of the measured signal or in real time by processing the signal with an analog or digital filter circuit. The cut-off frequency of the filter is 820 Hz. The occupational exposure criteria are exceeded when the weighted peak magnetic flux density exceeds 43 microT or equivalently the weighted peak dB/dt exceeds 0.22 T s(-1). The maximal peak exposures allowed by the proposed approach are compared with the stimulation thresholds computed with a stimulation model. The results strongly suggest that the safety margin to the stimulation is greater for non-sinusoidal than for sinusoidal waveforms, and at low frequencies it is higher than at high frequencies. The increase of the low-frequency safety margin is desirable to avoid magnetophosphenes and possible CNS effects that may occur below the level predicted by the classical nerve models. Measurement techniques and examples of measured magnetic fields are presented. Particularly high exposures were measured inside MRI equipment and anti-theft gates.