Abstract
This paper describes a time domain magnetic field measurement process for measuring magnetic fields near printed circuit boards (PCBs) with a loop probe. In carrying out measurements, the loop probe needs to be calibrated in the frequency domain. In this process, a microstrip line with a Teflon substrate serving as the standard magnetic field source is employed as a means of calibrating the probe. The standard magnetic field intensities of the line are calculated by an approximate equation obtained from Ampere's law to simplify the calibration. The sensor-factor of the probe obtained from this method agrees with that obtained through the use of a standard G-TEM cell in 2 dB at frequencies below 1GHz. The waveforms of magnetic fields near a PCB having a four-layer construction are measured using a 10mm diameter loop probe as the calibrated magnetic field sensor. The generation of magnetic field waveforms causing the radiated emission from the PCB is found to depend on the circuit operating conditions. It is clarified that the time domain magnetic field measurement process is an effective tool for analyzing the sources of emission radiated from PCBs, and for investigating the radiation mechanism.
