Description

Compound:
Module «Power module and USB oscilloscope»
Module «Function Generator»
Module “Hard Magnetic Materials”
Module “Soft magnetic materials. Temperature coefficient of resistance/capacitance»
Module «RLC Meter»
Module «Multimeters»
Module “Barrier effect. Photoconductivity»
Module “Forward and inverse piezoelectric effect”
Set of minimodules
A set of conductors on the topic “Electrical conductivity”
Hall Sensor
Insulation resistance measuring device
Frame 2×4
Set of connecting conductors and cables
Guidelines
Technical description
USB Oscilloscope Software
ELCUT program (professional version, perpetual license)
ELCUT User Manual
Files with examples of solving problems of electrostatics and magnetostatics in the professional version of ELCUT
Technical parameters of the kit:
AC supply voltage — 220V
Supply voltage frequency — 50Hz
Power consumption — no more than 50W Operating temperature range — +10…+35˚С
Humidity — up to 80%
Overall dimensions: 862x265x680mm (LxWxH), weight no more than 30 kg.
List of laboratory work and experiments:
Conductors and semiconductors
1. Determination of resistivity of conductors. Determination of the resistance value of conductors based on the results of numerical calculation of the electric field of direct currents.
2. Study of the temperature dependence of conductor resistance.
3. Contact phenomena in conductors and thermoelectromotive force.
4. Study of the temperature dependence of semiconductor resistance.
5. Photoconductivity.
6. Contact phenomena in semiconductors and the barrier photoelectric effect.
Dielectrics
7. Measurement of dielectric constant and dielectric loss angle of solid dielectrics. Determination of the capacity of a conductor system based on the results of a numerical calculation of the electrostatic field.
8. Measurement of the dependence of dielectric constant and dielectric loss angle on temperature.
9. Measurement of dielectric constant and dielectric loss angle of active dielectrics.
10. Study of the direct and inverse piezoelectric effect.
11. Electrical breakdown in dielectrics. Determination of electrical strength of air and paper. Numerical calculation of the electrostatic field, determination of the strength value and maximum field energy density.
Magnetic materials
12. Removing the main magnetization curve of a ferromagnet.
13. Study of the properties of a ferromagnet using a hysteresis loop.
14. Determination of the Curie point.
15. Study of hard magnetic materials. Numerical calculation of the magnetostatic field, determination of the value of magnetic induction