Product Structure; Working Principle - TEFAL IH2018 Guide De L'utilisateur

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TE-PLAQUINDUCTION-NC00127885_Q7_final
Specification
Maximum
Model
Input Power
EN
IH2018
A. Ceramic glass
B. Air entry
C. Air exit
D. Control panel
E. Digital Display Screen
F. Manual Heat button
G. Hot Milk button
Principle and Characteristics

Working Principle

An induction hotplate works by heating a
receptacle using the currents induced by a
magnetic field. When an electric current
passes through a coil, it generates a magnetic
field. On an induction hotplate, this magnetic
field is then induced into the base of the
receptacle. Foucault currents of very low
intensity pass through the base of the
receptacle. Despite their low intensity, these
currents generate heat in the receptacle as
they pass through it. The principle behind the
induction hotplate is to multiply these
Foucault currents while changing the
direction of the very high frequency field in
order to heat the bottom of the receptacle.
The heating process is instantaneous,
because as soon as the coil power supply is
activated, the receptacle is heated. Food is
then heated through contact with the base of
the pan.
For the induction method to function
properly, the cooking utensil must be
ferromagnetic. (See details in the section
Cooking utensils).
Power Adjustment
Range
2100W
450W-2100W
12/9/14
Display
Applicable Power
Type
Digital
Display

Product Structure

H. Stew Button
I.
Fry Button
J.
Deep fry Button
K. Boil water Button
L.
Timer Button
M. "+"/"-"Button
N. On/off Button
Eddy
current
Magnetic
field
20
11:37
Page 20
Supply
220V-240V/
50Hz
Ferromagnetic
receptacle
Cooker surface
Coil
Magnetic
field

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