TESLA Premium Gaussmeter
LEVEL 1 PACKAGE

  • Sale
  • Regular price €690,00


A simple and classic gaussmeter, which nevertheless offers all the essential functions for measuring a magnetic field.

Its Hall effect probe is capable of measuring up to 20,000 Gauss (2 Tesla), while indicating the + or - polarity of the magnet.

Technical characteristics:

  • Model Name: TESLA Basic

  • Screen Type: Digital Digital

  • Backlight: Yes

  • Maximum induction: 20000 Gauss ( 2 Tesla)

  • Measurement units available: Gauss or Tesla.

  • Maximum value memorization: Yes (Peak)

  • Reset: Yes (Reset)

  • Polarity indication: Yes, display of an S or N sign (South or North)

  • Measuring gauge: Yes, gradual bar up to maximum capacity.

  • Probe technology: Hall effect

  • Probe type: Radial (flat. Probe parallel to surface)

  • Works on: Ferrite / Samarium-cobalt / Neodymium / Electromagnet / Any DC (0Hz) magnetic field source

  • Magnetometer operating temperature: -5 to +55°C

  • Probe operating temperature: -5 to +60°C

  • Accuracy: 2% up to 10000 Gauss (5% from 10 to 20000 Gauss)
  • Power supply: 9 Volt battery (Included)

  • Battery level indication: Yes, gradual bar (like on smartphone)

  • Autonomy: About 3000 measurements.

  • Dimensions: 165x86x35

  • Weight: 270g

  • Type of packaging: Cardboard with foamed slots.

  • Warranty: 36 months for the Gaussmeter - Teslameter and its Hall effect probe, under normal conditions of use.

Ideal for use on magnetic plates, bar separators, sorting magnets, recycling overbands, lifting or clamping electromagnets, and in general any magnet or electromagnet that does not generate frequency or eddy currents.
If you want the Gaussmeter to be accompanied by a certificate of conformity, remember to ask for it when ordering.


Tips:

:
- Remember that the air gap is the enemy of magnetic performance. Remember to remove any impurities stuck to the inductive sensor of the probe. Similarly, properly clean your magnetic equipment. For example, a clearance of 1 mm between a neodymium magnetic device and the sensor of the probe, can represent a loss of 1000 Gauss (0.1 T).
- The temperature specific to the magnet or the electromagnet directly influences the maximum induction Br that it is capable of supplying. The periodic readings carried out on a magnetic material must be made for an identical temperature.
- The quality of the measurement of induction in contact with a magnet or magnetic system also depends on the person performing the measurement. Patience is important to find the point where the induction is strongest.
- Any intervention in an environment emitting magnetic fields must be carried out by qualified personnel, and in accordance with the regulations in force on the protection of the health of workers subjected to magnetic fields.