Principle of operation
RES-409
Page 5
The use of RESISTRON temperature controllers
results in:
• Repeatable quality of the heatseals under any
conditions
• Increased machine capacity
• Extended life of the heatsealing bands and teflon
coatings
• Simple operation and control of the sealing process
3
Principle of operation
The resistance of the heatsealing band, which is
temperature-sensitive, is monitored 50x per second
(60x at 60Hz) by measuring the current and voltage.
The temperature calculated with the help of these
measurements is displayed and compared with the set
point.
The primary voltage of the impulse transformer is
adjusted by phase-angle control, if the measured
values deviate from the set point. The resulting change
in the current through the heatsealing band leads to a
change in the band temperature and thus also its
resistance. This change is measured and evaluated by
the RESISTRON temperature controller.
The control loop is closed: ACTUAL temperature = SET
temperature. Even minute thermal loads on the
heatsealing band are detected and can be corrected
quickly and precisely.
A highly high response thermo-electric control loop is
formed which is highly accurate because purely
electrical variables are measured at a high sampling
rate. A high secondary current can be controlled
because power is controlled on the primary side of the
transformer. This allows optimum adaptation to the
load and to the required dynamic range despite the
exceptionally compact dimensions of the controller.
PLEASE NOTE!
RESISTRON temperature controllers play a significant
role in enhancing the performance of modern
machines. However, the full benefit can only be
obtained from the advanced technology offered by this
control system if all the system components, in other
words the heatsealing band, the impulse transformer,
the wiring, the timing signals and the controller itself,
are carefully compatible and interrelated.
We will be pleased to
contribute our many
years of experience
towards optimizing
your
heatsealing system.
R=f(T)
+
_
Set point
Start
Indicators
and
controls
or
bus interface
Actual value
LINE
RESISTRON controller
Heatsealing band R = f (T)
Current
transformer
Impulse transformer
UR
IR
prim.
U1
sec.
U2