Icar RPC 8BGA Manuel Complet page 45

ICAR PQS
M23 – ANALOG OUTPUTS (AOUn,n=1..4)
P23.n.01 Output type
P23.n.02 Reference measurement
P23.n.03 Channel number (x)
P23.n.04 Start of scale value
P23.n.05 Multiplier
P23.n.06 End of scale value
P23.n.07 Multiplier
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)
P24.n.01 Pulse source
P24.n.02 Counting unit
P24.n.03 Pulse duration
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)
P25.n.01 Alarm source
P25.n.02 Channel number (x)
P25.n.03 Text
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)
P26.n.01 Alarm enable
P26.n.02 Retnitive
P26.n.03 Operating mode
P26.n.04 Global alarm 1
P26.n.05 Global alarm 2
P26.n.06 Global alarm 3
P26.n.07 Step disconnection
P26.n.08 Slave disconnection mode
P26.n.09 Inhibition from input
Psw (M15) UoM Default
Usr OFF
Usr OFF
Usr 1
Usr 0
Usr x1
Usr 0
Usr x1
Psw (M15) UoM Default
Usr OFF
Usr 100
Usr s 0.1
Psw (M15) UoM Default
Usr OFF
Usr 1
Usr UAn
Psw (M15) Default
Adv (see table)
Adv (see table)
Adv (see table)
Adv (see table)
Adv (see table)
Adv (see table)
Adv (see table)
Adv (see table)
Adv (see table)
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rev9 jan19
Range
OFF
0..20mA
4....20mA
0...10V
-5V...+5V
OFF- (misure)
OFF / 1-99
-9999 - +9999
/100 – x10k
-9999 - +9999
/100 – x10k
Range
OFF-Kwh-kvar-kVA
10/100/1k/10k
0.1-1.00
Range
OFF-INPx-OUTx-LIMx-REMx
1-8
(testo – 20 char)
Range
OFF – ON
OFF - RIT
AUT-MAN
AUT
OFF – GLB1
OFF – GLB2
OFF – GLB3
OFF
IMMEDIATE
SLOW
GENERAL - LOCAL
OFF - ON