Magnetic Detector - How IT Works

How It Works

The Marconi version consisted of an endless iron band built up of 70 strands of number 40 gage silk-covered iron wire. In operation, the band passes over two grooved pulleys rotated by a wind-up clockwork motor. The iron band passes through the center of glass tube which is close wound with a single layer along several millimeters with number 36 gage silk-covered copper wire. This coil functions as the radio frequency excitation coil. Over this winding is a small bobbin wound with wire of the same gauge to a resistance of about 140 ohms. This coil functions as the audio pickup coil. Around these coils two weak permanent horseshoe magnets are arranged to magnetize the iron band as it passes through the glass tube.

The magnet poles are arranged to create two opposite magnetic fields each directed toward (or away) from the center of the coils in opposite directions along the wire. This functions to magnetize the iron band first in one direction as it approaches the center of the coils, then reverse its magnetism to the opposite direction as it leaves from the other side of the coil. This causes a reversal of the iron band’s magnetism just as it passes through the coils. This continuous reversal in magnetism induces a very weak DC current in the audio pickup coil.

The radio signal from the antenna is tuned and passed through the excitation coil, the other end of which is connected to ground. That radio signal in the excitation coil aids the reversal of the magnetization of the iron band as it passes under the audio pickup coil. This works by agitating the magnetic domains to reduce reluctance in the iron band. Changes in the amplitude of the radio signal change the rate of magnetic reversal in the moving iron band. This causes variation in the magnetic flux through the audio pickup coil causing the current in the audio pickup coil to vary. The audio pickup coil is connected to a telephone receiver which converts the varying current to sound.

From a technical standpoint, several subtle prerequisites are necessary for operation. The strength of the magnetic field of the permanent magnets at the iron band must be of the same order of magnitude as the strength of the field generated by the radio frequency excitation coil, allowing the radio frequency signal to significantly contribute to the total the magnetic field. Also, the radio signal applied to the excitation coil roughly matches the impedance of the excitation coil which is very low and requires a special tuner design considerations. The impedance of the telephone earphone must roughly match the impedance of the audio pickup coil, which is a few hundred ohms. The iron band moves a few millimeters per second. Its sensitivity does not approach that of a good mineral detector, yet it is a reliable and surprisingly sensitive detector for radio.