2.3. CONNECTION
Before wiring, check on the label that
the model corresponds to your needs.
The controller must be powered by an
AC voltage. We recommend protecting
the instrument with a fuse not
exceeding 2A.
Do not connect anything to the unused
terminals, as they may be connected
to internal circuits.
NOTE:
For the STATOP 9601, there are
two connection options, depending
on the power supply voltage.
Two types of output are offered
for the STATOP 9604: Relay or
Logic voltage 0/24V (to drive static
relays). Connection depends on
the type of output.
2.4. POSITIONING THE
SENSOR
The quality of control depends greatly
on the position of the sensor. This
must be placed so as to detect
temperature variations in the shortest
time. If the process needs a constant temperature, the sensor will be installed near the heating
unit. For control in which the temperature varies frequently, the sensor will be placed close
to the objects to heat. In all cases, we recommend making a few tests to determine the best
position of the sensor.
In an application involving liquid, the use of a stirrer will help to eliminate the temperature
differences.
Using the right type of sensor is very important to get an accurate measurement. The scale
of the controler must be determined in accordance with the sensor used and the required
setpoint temperatures.
The accuracy of STATOP 9601 and 9604 controllers is only limited by the specifications of
the sensor.
1
230 V~
2
115 V~
3
4
5
6
7
8
9
10
1
90...260 V~
2
3
4
5
6
7
8
9
10
19
STATOP 9601
STATOP 9604
11
12
13
14
15
16
17
18
19
20
Alarm
11
12
+
Output
13
(relay or
14
-
logic)
15
16
17
18
19
20