Abstract: A method of manufacturing an RFID tag that includes forming an antenna pattern and a reinforcing layer on one surface of a film made of a resin material, applying a thermosetting adhesive onto the reinforcing layer and the antenna pattern, mounting a circuit chip on the antenna pattern via the thermosetting adhesive, pinching the circuit chip and the other surface of the film, and fixing the circuit chip to the antenna pattern by hardening the thermosetting adhesive. The reinforcing layer is formed within a region where the circuit chip is mounted and the circuit chip includes a first protrusion contacting the antenna pattern and a second protrusion contacting the reinforcing layer.

Abstract: The present invention relates to a magnetic disk device and provides a magnetic disk device in which data recording areas are separately set based on the inner recording boundary or outer recording boundary of the head measured for each magnetic disk device. When the recording linear (angular) density that has to be attained to ensure a prescribed capacity cannot be attained by the head, the recording linear (angular) density that has to be attained by the head is reduced and the prescribed capacity is realized by expanding the data recording area. A method using a counter-electromotive force generated when the head is moved toward a stopper or ramp load or a method by which the measurements are conducted based on the head position information from the servo signal can be used for measuring the positions of the inner recording boundary and outer recording boundary of the head.

Abstract: A magnetic recording medium characterized by comprising: a nonmagnetic substrate; and, provided on the nonmagnetic substrate in the following order, a first underlayer of a nonmagnetic material composed mainly of chromium, a second underlayer of an antiferromagnetic material, with a body-centered cubic structure, having a Neel temperature of at least 60.degree. C., the second underlayer being such that, when the crystal lattice of the antiferromagnetic material is compared with the crystal lattice in the body-centered cubic structure of the first underlayer, the length of a side of the lattice in the (100) face of the former is approximately equal to the length of a diagonal of the lattice in the (100) face of the latter, permitting the second underlayer to be epitaxially grown onto the first underlayer, and a recording layer of a magnetic material composed mainly of cobalt.