14
User’s Manual
40015
40015
Min. 0-5V input percentage
limit for Voltage isolator
40016
40016
Max. 0-5V input percentage
limit for Voltage isolator
40017
40017
Min. 0-10V input percentage
limit for Voltage isolator
40018
40018
Max. 0-10V input percentage
limit for Voltage isolator
40019
40019
Select an adjustment source
0 = from trimmer, 1 =
from
Modbus,
2
=
Modbus + trimmer for
fine tuning (+/- 12.5%)
40021
40021
Offset (in points) for 0-5 V
INPUT
40022
40022
Gain (x 1000) for 0-5V INPUT
40031
40031
Minimum value for 0-5V
INPUT
Minimum value on 0-5V
input
40032
40032
Maximum value for 0-5V
INPUT
Maximum value on 0-5V
input
40033
40033
Peak reset command
Writing a value other
than zero will reset the
values read as minimum
and maximum
40034
40034
Difference = Maximum value
- minimum value for 0-5V
INPUT
N
points
difference
between minimum and
maximum
value
measured on 0-5V input
reading
The CANBUS version of the DIPOT device can be interfaced to the CANBUS line with our boards
DST4400, DST4601, DST4601PX, GC310, GC350 and GC500.
The CANbus interface should not be powered from an outside source as it powered by a DC/DC source
in the device.
Connect the CAN_H signal (High Level Can Voltage Input/output) and the CAN_L signal (Low Level Can
Voltage Input/output) of the CANBUS to pins 4 and 2 of J4 respectively.
Connect the cable screen to pin 3 of J4.
DO NOT USE pin 1 of J4 (GND RESERVED).
A 120 ohm termination resistance should be connected directly between terminals 4 and 2 of J4.
4.2.1
The DIPOT module can be used in applications with generators that are not equipped with CANBUS
communication and installed a great distance from the control devices (DST4601, GC310 ...).
It can indeed be difficult to send a control signal of a few volts without problems that could make the
generator malfunction.
Using the DIPOT module with CANBUS you can send the speed regulation command at a distance while
maintaining the high accuracy and safety of the command. Furthermore, again using the CANBUS line,
you can also simultaneously acquire the oil pressure and coolant temperature values via the analog
inputs.
