16
ENG
“FCR3 three-phase controller” +030222150 - rel. 1.3 - 12.01.2021
6.4 Linear and quadratic function
The output voltage can be managed so as to provide smooth variations
in the fi rst part of the curve or respond with a linear relationship across
the entire range, depending on the type of load.
Consequently, linear or quadratic mode can be selected
•
LINEAR: the relationship between input IN and output OUT is linear
•
QUADRATIC: the control signal IN is converted as IN= IN2/100, this
gives output control with a quadratic curve.
Dipswitches
Function
Dip S2.5
Lineare o
Qudratica
OFF: Linear function: IN=IN
ON: Quadratic function: IN = IN
2
/100
Tab. 6.f
OFF
ON
DipS2.1/SEL
LINFCR
LINMEM
LIN
Lineare
Quadratica
0/OFF: Lineare
1/ON: Quadratica
O
UT
%
I
N
O
UT
MAX
O
UT
M
I
N
99/100
0
Fig. 6.d
Associated parameters
Par.
Modb
Range
Def
UoM
Description
Activation
LINFCR
DI.3
0/1
0
1%
Select linear-quadratic - dip S2.5
Dip S2.1=OFF
LINMEM
CO.3
0/1
0
1%
Select minimum/cut-off from memory
Dip S2.1=ON
SEL
IR.1
0/1
R
1
Select parameter settings, manual =0, internal =1 (S2.1)
Tab. 6.g
6.5 Override
output
The output can be controlled at a set value, at any time, via the serial
connection, irrespective of the value calculated by the controller. The
function fi rst needs to be enabled; however detailed knowledge of the
system is required, so that sudden variations do not cause high peak
current draw. It ‘s added a delay, there are all the protections and diff erent
alarms; also the output considers OUTMIN and OUTMAX limit setted.
Par.
Modb
Range
Def
UoM
Description
Activation
OUTFCR
IR.9
0..100
0
1%
Controller output value
EOVR=0
OUTMEM
HR.10
0..100
0
1%
Output value in memory for override
EOVR=1
EOVR
CO.11
0/1
0
1
Override output value 0= disable, 1 = enable
WE=1
WE
CO.1
0/1
0
1
Enable modifi cation of EOVR (WE=0 no modifi cation allowed)
Tab. 6.h
6.6 Alarm conditions and management
The alarm is activated in the following cases:
•
closing of the contact connected to digital input SW1 and SW2 (or
opening if set as normally closed, and closing if set as normally open)
•
minimum or maximum internal temperature threshold exceeded
•
built-in temperature probe short-circuited or open
Depending on the alarm, the eff ects diff er both regarding the controller
output, the digital output and the signal LED
The alarm from digital input has an eff ect both on the parameters read,
on red LED DL3, on the relay digital output and on the controller output.
Digital input status
Dig. input
STID
Dig. input mode
MODID
Alarm fl ag
ALARM
LED
DL3 – Red
FCR output
Out
Relay digital output
CO-COM
SW1+SW2 = Closed
1 = Closed
0 = normally closed
0 = no alarm
Off normal
Open
Closed
SW1o SW2 = Open
0 = Open
0 = normally closed
1 = alarm
On
ALMO (0-50-100%)
Closed
Open
SW1+SW2 = Closed
1 = Closed
1 = normally open
1 = alarm
On
ALMO (0-50-100%)
Closed
Open
SW1o SW2 = Open
0 = Open
1 = normally open
0 = no alarm
Off normal
Open
Closed
Tab. 6.i
Associated parameters
Par.
Modb
Range
Def
UoM
Description
Stato
STIDFCR
DI.10
0/1
R
1
Digital input readings
0: at least 1 open
1: both closed
MODID
CO.11
0/1
0
1
Digital input logic
0: normally closed
1: normally open
ALRM
DI.11
0/1
R
1
Alarm digital input status
0: inactive
1: active
ALMO
HR.9
0/1/2
0
1
Output status in the event of alarms (ALRM)
0. 0%
1. 50%
2. 100%
Tab. 6.j