Time-related jitters caused by small noise voltage due to electromagnetic noise induce malfunction of digital equipment. The jitters increase with not only magnitude of the noise but also resonance of digital circuits in the equipment. In this report, we proposes a linear equivalent circuit model of a digital CMOS gate for analyzing circuit resonance and verifies the validity of the model.

We have designed a torque magnetometer using a 60-kG split-type superconducting magnet. A balance torque compensates the torque acting on a sample in the magnetic field. The feedback circuit for a sample direction consists of an optical position sensor, a moving coil, and a PID controller. We measured the coil current to know a sample torque. The whole torque machinery is directly rotated by a stepping motor of angular resolution 0.0036. An advantage of the torque apparatus is a wide dynamic range up to 1000 dyncm. The sample temperature can be controlled between 4 K and 300 K.