ICAR PQS
rev8 may18
45 / 86
M23 – ANALOG OUTPUTS (AOUn,n=1..4)
Psw (M15)
UoM Default
Range
P23.n.01
Output type
Usr
OFF
OFF
0..20mA
4….20mA
0…10V
-5V…+5V
P23.n.02
Reference measurement
Usr
OFF
OFF- (misure)
P23.n.03
Channel number (x)
Usr
1
OFF / 1-99
P23.n.04
Start of scale value
Usr
0
-9999 - +9999
P23.n.05
Multiplier
Usr
x1
/100 – x10k
P23.n.06
End of scale value
Usr
0
-9999 - +9999
P23.n.07
Multiplier
Usr
x1
/100 – x10k
Note: this menu is divided into 4 sections for the analog outputs AOU1...AOU4 available with OUT 2AN expansion modules
P23.n.01
-
Specifies the type of output analog signal. The sensor should be connected to the appropriate terminal on the basis of the type selected. See
analog output module manual.
P23.n.02
- Measurement on which the analog output value depends.
P23.n.03
– If the reference measurement is an internal multichannel measurement (AINx for example), the channel is defined.
P23.n.04
and
P23.n.05
- Define the value of the measurement that corresponds to a min. output value in the range (0mA, 4mA, 0V, -5V, etc.).
P23.n.06
and
P23.n.07
- Define the value of the measurement that corresponds to a max. value in the range (20ma, 10V, +5V, etc.).
Application example: The analog output AOU2 must emit a 0..20mA signal proportional to tha total active power, form 0 to 500kW.
Therefore, we must program section 2 of this menu, that is referred to AOU2.
P23.2.01 = 0…20mA
P23.2.02 = kW tot
P23.2.03 = 1 (not used)
P23.2.04 = 0
P23.2.05 = x1
P23.2.06 = 500
P23.2.07 = x1k
M24 – PULSES (PULn, n=1…6)
Psw (M15)
UoM Default
Range
P24.n.01
Pulse source
Usr
OFF
OFF-Kwh-kvar-kVA
P24.n.02
Counting unit
Usr
100
10/100/1k/10k
P24.n.03
Pulse duration
Usr
s
0.1
0.1-1.00
Note: this menu is divided into 6 sections, for the generation of energy consumption pulse variables PUL1…PUL6.
P24.n.01
- Defines which energy meter should generate the pulse of the 6 possible meters managed by the 8BGA.
kWh =
Active energy.
Kvarh
= Reactive
energy.
kVAh
= Apparent energy.
P24.n.02
- The quantity of energy which must accumulate for a pulse to be emitted (for example 10Wh, 100Wh, 1kWh, etc.).
P24.n.03
= Pulse duration.
Application example: For every 0,1 kWhoutput by generator, a pulse of 100ms ha sto be generated on output OUT10.
First of all we should generate an internal pulse variable, forinstance PUL1. So we must program section 1 of this menu as follows:
P24.1.01 = kWh G (active energy)
P24.1.02 = 100Wh (correspond to 0,1 kWh)
P24.1.03 = 0,5
Now we must set output OUT10 and link it to PUL1:
P04.10.01 = PULx
P04.10.02 = 1 (PUL1)
P04.10.03 = NOR
M25 – USER ALARMS (UAn, n=1…8)
Psw (M15)
UoM Default
Range
P25.n.01
Alarm source
Usr
OFF
OFF-INPx-OUTx-LIMx-REMx
P25.n.02
Channel number (x)
Usr
1
1-8
P25.n.03
Text
Usr
UAn
(testo – 20 char)
Note: this menu is divided into 8 sections for user alarms UA1...UA8
P25.n.01
- Defines the digital input or internal variable that generates the user alarm when it is activated.
P25.n.02
- Channel number x with reference to the previous parameter.
P25.n.03 -
Free text that appears in the alarm window.
Example of application: User alarm UA3 must be generated by the closing of input INP5, and must display the message ‘Panel door open’.
In this case, set the section of menu 3 (for alarm UA3):
P25.3.01 = INPx
P25.3.02 = 5
P25.3.03 = ‘Door open’
M26 – ALARM PROPERTIES (ALAn, n=1…xxxx)
Psw (M15) Default
Range
P26.n.01
Alarm enable
Adv
(see table)
OFF – ON
P26.n.02
Retnitive
Adv
(see table)
OFF - RIT
P26.n.03
Operating mode
Adv
(see table)
AUT-MAN
AUT
P26.n.04
Global alarm 1
Adv
(see table)
OFF – GLB1
P26.n.05
Global alarm 2
Adv
(see table)
OFF – GLB2
P26.n.06
Global alarm 3
Adv
(see table)
OFF – GLB3
P26.n.07
Step disconnection
Adv
(see table)
OFF
IMMEDIATE
SLOW
P26.n.08
Slave disconnection mode
Adv
(see table)
GENERAL - LOCAL
P26.n.09
Inhibition from input
Adv
(see table)
OFF - ON
