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The original setting was 75°C and is now to be increased to, for
example, 85°C. Press "+ 5" twice. The setting is now increased in
steps of 5°C to 85°C.
Press "OK" when the desired temperature is reached to return to
the heating screen.
The new target temperature is now 85°C so that the workpiece
is now heated to 85°C instead of 75°C. The heating process has
continued normally during the adjustment.
This principle applies in all four heating modes.
NOTE!
It is never possible to increase the setting to higher than
the maximum values preset in the generator by pressing "+
5". If the maximum is set, for example, to 120°C, then the
temperature cannot be set higher by pressing "+ 5". The
setting will then stop at 120°C.
The same applies to the time. If the maximum time is, for
example, 5:00, then the time cannot be set higher by pressing
"+ 5".
Remember that the process continues to run normally while you
are changing the settings. If the target is adjusted too late (i.e. if
the time or temperature has already almost been reached) and
"OK" has not been pressed during the input, the process will still
switch off at the original value.
9.5 Heating
Heating of a workpiece starts by determining which of the four
heating modes is to be used. Each of the four modes is described
below with a description of what happens during heating.
Temperature mode:
Determine whether all the settings are as desired (section 7).
Alter the desired temperature, if necessary.
Activate the "Hold temp" and "Log" functions, if desired.
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NOTE!
The desired temperature and desired power do not have to
be set if an inductor with identification feature is connected.
In this case the generator automatically adopts the settings
defined in the program (1, 2 or 3) for the corresponding
inductor.
Press "Start"
. The process starts and the following screen
appears.
Press "info"
for further information on the heating process
and the following screen is displayed.
Press "Previous"
to return to the previous screen.
The process runs according to the set value, irrespective of which
of the two screens is displayed.
The exact process routine depends on the "active" functions and
how they are set. For example, the ΔT function
When the set value is reached, the process stops and the most
recent data from the process are displayed.
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