This disclosure refers to a method for confectioning resistors that each comprise a PTC ceramic plate and metallic electrode layers covering opposite faces of the ceramic plate, said method comprising the following steps: measuring an electrical resistance of a resistor to be confectioned by applying an electrical potential to one of electrode layers such that an electric current flows from one of the electrode layers through the ceramic plate to the electrode layer on the opposite face of the ceramic plate, comparing the measured resistance to a target resistance, and removing, if the measured resistance is lower than the target resistance, a section of at least one of the electrode layers. This disclosure also refers to such a resistor and a heating device comprising such resistors.

An integrated circuit including a first passive component of capacitive, resistive, or inductive type, including: a plurality of second and third passive components of said type, each having a same first theoretical value Compu_t, the second components being connected together so that their values add, and each third component being associated with a first switch having its state determining whether the value of the third component adds to the values of the second components; and a plurality of fourth passive components of said type, each associated with a second switch having its state determining whether the value of the fourth component adds to the values of the second components, at least one of the fourth passive components having a second theoretical value equal to (1−P).Compu_t or to (1+P).Compu_t, P being positive and smaller than ½.

A current detection system includes an inductor and a detection circuit coupled across the inductor. The inductor is configured to receive an input signal that includes an input current and generate a voltage across the inductor. The current detection circuit includes a sensing network and a transconductance amplifier. The sensing network includes a capacitor and is configured to monitor a voltage across the inductor. The transconductance amplifier is configured to receive a differential voltage indicative of a voltage drop across the capacitor and output a differential output current proportional to the differential voltage.

A calibration system adapted to calibrate a resistance of an electrical device having a lead wire comprises a resistance detector adapted to detect the resistance of the electrical device, a first container containing an etching solution adapted to etch the lead wire, and a heater configured to heat the electrical device. If a first resistance of the electrical device detected by the resistance detector at a first temperature is within a first predetermined range, the electrical device is heated with the heater to a second temperature higher than the first temperature. A second resistance of the electrical device is detected by the resistance detector at the second temperature. If the second resistance is beyond a second predetermined range, the lead wire is etched by the etching solution to adjust the resistance of the electrical device until the second resistance at the second temperature is within the second predetermined range.

A carrier includes a base on which a circuit board is mounted, a loading device mounted on the base, a first pressing device mounted on the base, and a second pressing device mounted on the base. The loading device is configured to load an electronic device on the base. The first pressing device is configured to press a first lead end protruding from the electronic device on the circuit board to electrically contact the circuit board. The second pressing device is configured to press a second lead end of the electronic device on the base.

An integrated circuit including a first passive component of capacitive, resistive, or inductive type, including: a plurality of second and third passive components of said type, each having a same first theoretical value Compu_t, the second components being connected together so that their values add, and each third component being associated with a first switch having its state determining whether the value of the third component adds to the values of the second components; and a plurality of fourth passive components of said type, each associated with a second switch having its state determining whether the value of the fourth component adds to the values of the second components, at least one of the fourth passive components having a second theoretical value equal to (1P).Compu_t or to (1+P).Compu_t, P being positive and smaller than .

A current detection system includes an inductor and a detection circuit coupled across the inductor. The inductor is configured to receive an input signal that includes an input current and generate a voltage across the inductor. The current detection circuit includes a sensing network and a transconductance amplifier. The sensing network includes a capacitor and is configured to monitor a voltage across the inductor. The transconductance amplifier is configured to receive a differential voltage indicative of a voltage drop across the capacitor and output a differential output current proportional to the differential voltage.

A current detection system includes an inductor and a detection circuit coupled across the inductor. The inductor is configured to receive an input signal that includes an input current and generate a voltage across the inductor. The current detection circuit includes a sensing network and a transconductance amplifier. The sensing network includes a capacitor and is configured to monitor a voltage across the inductor. The transconductance amplifier is configured to receive a differential voltage indicative of a voltage drop across the capacitor and output a differential output current proportional to the differential voltage.

An apparatus for checking an inductor includes a detector outputting a detection signal including information corresponding to a parallel resistance component of a checking target inductor; and a determiner receiving the detection signal and determining whether the checking target inductor is satisfactory based on a magnitude of the parallel resistance component.

A carrier includes a base on which a circuit board is mounted, a loading device mounted on the base, a first pressing device mounted on the base, and a second pressing device mounted on the base. The loading device is configured to load an electronic device on the base. The first pressing device is configured to press a first lead end protruding from the electronic device on the circuit board to electrically contact the circuit board. The second pressing device is configured to press a second lead end of the electronic device on the base.