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Transcript of CPU
Totally IntegratedAutomation Portal
Table of contentsCPU [CPU 1214C DC/DC/Rly] 3 - 1
Program blocks
DATE AND TIME FC [FC1] 4 - 1
DSE-9470_SLAVE_10 [DB3] 5 - 1
DSE-7320_SLAVE_11 [DB5] 6 - 1
Main [OB1] 7 - 1
DATE AND TIME DB [DB4] 8 - 1
OUTGOING 400A FC [FC2] 9 - 1
OUTGOING 400A DB [DB8] 10 - 1
MEMORY=PERIPHERAL [FC3] 11 - 1
DSE-9470 FC [FC4] 12 - 1
DSE-9470 HMI DB [DB6] 13 - 1
DSE-7320 HMI DB [DB9] 14 - 1
DSE-7320 FC [FC5] 15 - 1
HMI MESSAGES [FC6] 16 - 1
OUTGOING 250A FC [FC8] 17 - 1
OUTGOING 250A DB [DB12] 18 - 1
OUTGOING 100A FC [FC7] 19 - 1
OUTGOING 100A DB [DB13] 20 - 1
OUTGOING 80_63_25A FC [FC9] 21 - 1
OUTGOING 80_63_25A DB [DB14] 22 - 1
Diagnostic error interrupt [OB82] 23 - 1
System blocks
Program resources
MB_COMM_LOAD [FB1080] 24 - 1
MB_COMM_LOAD_DB [DB1] 25 - 1
MB_MASTER [FB1081] 26 - 1
MB_MASTER_DB [DB2] 27 - 1
IEC_Timer_0_DB [DB7] 28 - 1
Technology objects 29 - 1
PLC tags
Default tag table [409]
PLC tags 30 - 1
User constants 31 - 1
PLC data types
UDT_DATA_PTR_SLAVE_10 32 - 1
UDT_MB_MASTER_SLAVE_10 33 - 1
UDT_DATA_PTR_SLAVE_11 34 - 1
UDT_MB_MASTER_SLAVE_11 35 - 1
Watch and force tables
Force table 36 - 1
Text lists 37 - 1
Local modules
DI 4x24VDC_1 38 - 1
DI 16x24VDC/DQ 16xRelay_1 39 - 1
DI 16x24VDC/DQ 16xRelay_2 40 - 1
AI 8x13BIT_1 41 - 1
AI 8x13BIT_2 42 - 1
AI 8x13BIT_3 43 - 1
AI 8x13BIT_4 44 - 1
AI 8x13BIT_5 45 - 1
AI 8x13BIT_6 46 - 1
CM 1241 (RS422/485)_1 47 - 1
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly]
CPU
General\Project information
Name CPU Author SARFRAZ Comment
Slot 1
General\Catalog information
Short designation CPU 1214C DC/DC/Rly Description Work memory 75 KB; 24VDC powersupply with DI14 x 24VDC SINK/SOURCE, DQ10 x relay and AI2 onboard; 6 high-speed counters and 4pulse outputs on board; signalboard expands on-board I/O; up to3 communication modules for seri‐al communication; up to 8 signalmodules for I/O expansion; 0.04ms/1000 instructions; PROFINET in‐terface for programming, HMI andPLC to PLC communication
Order number 6ES7 214-1HG31-0XB0
Firmware version V3.0
PROFINET interface\General\Project information
Name PROFINET interface_1 Comment Name DI14/DO10_1
Comment Name AI2_1 Comment
Name DI 4x24VDC_1 Comment
PROFINET interface\General\Catalog information
Short designation DI4 signal board (200 kHz) Description Signal board DI4 x 24 VDC / 200kHz SOURCE; selectable input de‐lay; plug-in terminal blocks
Order number 6ES7 221-3BD30-0XB0
Firmware version V1.0
PROFINET interface\Anchor (ParameterNode_E1_Menu )
The TreeNode Pa‐rameter‐Node_E1_Menu wasnot filled by someACF
PROFINET interface\Advanced options\Anchor (ParameterInterfaceOptionsMenu)
The TreeNode Pa‐rameterInterfaceOp‐tionsMenu was notfilled by some ACF
PROFINET interface\Advanced options\Anchor (ParameterRealtimeSettingsMenu)
The TreeNode Pa‐rameterRealtimeSet‐tingsMenu was notfilled by some ACF
PROFINET interface\Advanced options\Port (X1) (P1)\General\Project information
Name Port_1 Comment
PROFINET interface\Advanced options\Port (X1) (P1)\Anchor (PortInterconnectionMenu)
The TreeNode Por‐tInterconnectionMe‐nu was not filled bysome ACF
PROFINET interface\Advanced options\Port (X1) (P1)\Anchor (PortOptionsMenu)
The TreeNode Por‐tOptionsMenu wasnot filled by someACF
PROFINET interface\Advanced options\Port (X1) (P1)\Hardware identifier\Hardware identifier
Hardware identifier 65
PROFINET interface\Digital inputs\Input filters
I0.0 - I0.3 6.40ms I0.4 - I0.7 6.40ms I4.0 - I4.3 6.40ms
I1.0 - I1.3 6.40ms I1.4 - I1.7 6.40ms
PROFINET interface\Digital inputs\Channel0
Channel address I0.0 Enable rising edgedetection
0 Enable falling edgedetection
0
Channel address I4.0 Enable rising edgedetection
0 Enable pulse catch 0
Enable falling edgedetection
0 Enable pulse catch 0
PROFINET interface\Digital inputs\Channel1
Channel address I0.1 Enable rising edgedetection
0 Enable falling edgedetection
0
Channel address I4.1 Enable rising edgedetection
0 Enable pulse catch 0
Enable falling edgedetection
0 Enable pulse catch 0
PROFINET interface\Digital inputs\Channel2
Channel address I0.2 Enable rising edgedetection
0 Enable falling edgedetection
0
Channel address I4.2 Enable rising edgedetection
0 Enable pulse catch 0
Enable falling edgedetection
0 Enable pulse catch 0
PROFINET interface\Digital inputs\Channel3
Channel address I0.3 Enable rising edgedetection
0 Enable falling edgedetection
0
Channel address I4.3 Enable rising edgedetection
0 Enable pulse catch 0
Enable falling edgedetection
0 Enable pulse catch 0
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PROFINET interface\Digital inputs\Channel4
Channel address I0.4 Enable rising edgedetection
0 Enable falling edgedetection
0
Enable pulse catch 0
PROFINET interface\Digital inputs\Channel5
Channel address I0.5 Enable rising edgedetection
0 Enable falling edgedetection
0
Enable pulse catch 0
PROFINET interface\Digital inputs\Channel6
Channel address I0.6 Enable rising edgedetection
0 Enable falling edgedetection
0
Enable pulse catch 0
PROFINET interface\Digital inputs\Channel7
Channel address I0.7 Enable rising edgedetection
0 Enable falling edgedetection
0
Enable pulse catch 0
PROFINET interface\Digital inputs\Channel8
Channel address I1.0 Enable rising edgedetection
0 Enable falling edgedetection
0
Enable pulse catch 0
PROFINET interface\Digital inputs\Channel9
Channel address I1.1 Enable rising edgedetection
0 Enable falling edgedetection
0
Enable pulse catch 0
PROFINET interface\Digital inputs\Channel10
Channel address I1.2 Enable rising edgedetection
0 Enable falling edgedetection
0
Enable pulse catch 0
PROFINET interface\Digital inputs\Channel11
Channel address I1.3 Enable rising edgedetection
0 Enable falling edgedetection
0
Enable pulse catch 0
PROFINET interface\Digital inputs\Channel12
Channel address I1.4 Enable pulse catch 0
PROFINET interface\Digital inputs\Channel13
Channel address I1.5 Enable pulse catch 0
PROFINET interface\Analog inputs\Noise reduction
Integration time 50 Hz (20 ms)
PROFINET interface\Analog inputs\Channel0
Channel address IW64 Measurement type Voltage Voltage range 0..10 V
Smoothing Weak (4 cycles) Enable overflow di‐agnostics
1
PROFINET interface\Analog inputs\Channel1
Channel address IW66 Measurement type Voltage Voltage range 0..10 V
Smoothing Weak (4 cycles) Enable overflow di‐agnostics
1
PROFINET interface\Digital outputs
Reaction to CPUSTOP
Use substitute value
PROFINET interface\Digital outputs\Channel0
Channel address Q0.0 Substitute a valueof 1 on a changefrom RUN to STOP.
0
PROFINET interface\Digital outputs\Channel1
Channel address Q0.1 Substitute a valueof 1 on a changefrom RUN to STOP.
0
PROFINET interface\Digital outputs\Channel2
Channel address Q0.2 Substitute a valueof 1 on a changefrom RUN to STOP.
0
PROFINET interface\Digital outputs\Channel3
Channel address Q0.3 Substitute a valueof 1 on a changefrom RUN to STOP.
0
PROFINET interface\Digital outputs\Channel4
Channel address Q0.4 Substitute a valueof 1 on a changefrom RUN to STOP.
0
PROFINET interface\Digital outputs\Channel5
Channel address Q0.5 Substitute a valueof 1 on a changefrom RUN to STOP.
0
PROFINET interface\Digital outputs\Channel6
Channel address Q0.6 Substitute a valueof 1 on a changefrom RUN to STOP.
0
PROFINET interface\Digital outputs\Channel7
Channel address Q0.7 Substitute a valueof 1 on a changefrom RUN to STOP.
0
PROFINET interface\Digital outputs\Channel8
Channel address Q1.0 Substitute a valueof 1 on a changefrom RUN to STOP.
0
PROFINET interface\Digital outputs\Channel9
Channel address Q1.1 Substitute a valueof 1 on a changefrom RUN to STOP.
0
PROFINET interface\Time synchronization
Enable time syn‐chronization via NTPserver
Enable time synchronization viaNTP server
IP addresses Network time server1
0.0.0.0
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Network time server2
0.0.0.0 Network time server3
0.0.0.0 Network time server4
0.0.0.0
Update interval 10sec
PROFINET interface\Hardware identifier\Hardware identifier
Hardware identifier 64 Hardware identifier 264 Hardware identifier 270
PROFINET interface\I/O addresses\Input addresses
Start address 0 End address 1 Start address 4
End address 4 Process image Cyclic PI Process image Cyclic PI
PROFINET interface\I/O addresses\Output addresses
Start address 0 End address 1 Process image Cyclic PI
Overview of addresses
Inputs True Outputs True Address gaps False
Slot True
Overview of addresses\Overview of addresses
Type Addr. from Addr. to Module PIP DP PN Rack Slot
I 0 1 DI14/DO10_1 None - - 0 1 1
I 64 67 AI2_1 None - - 0 1 2
I 1000 1003 HSC_1 None - - 0 1 16
I 1004 1007 HSC_2 None - - 0 1 17
I 1008 1011 HSC_3 None - - 0 1 18
I 1012 1015 HSC_4 None - - 0 1 19
I 1016 1019 HSC_5 None - - 0 1 20
I 1020 1023 HSC_6 None - - 0 1 21
I 4 4 DI 4x24VDC_1 None - - 0 1 3
I 8 9 DI 16x24VDC/DQ16xRelay_1
None - - 0 2
I 12 13 DI 16x24VDC/DQ16xRelay_2
None - - 0 3
I 128 143 AI 8x13BIT_1 None - - 0 4
I 144 159 AI 8x13BIT_2 None - - 0 5
I 160 175 AI 8x13BIT_3 None - - 0 6
I 176 191 AI 8x13BIT_4 None - - 0 7
I 192 207 AI 8x13BIT_5 None - - 0 8
I 208 223 AI 8x13BIT_6 None - - 0 9
Q 0 1 DI14/DO10_1 None - - 0 1 1
Q 1000 1001 Pulse_1 None - - 0 1 32
Q 1002 1003 Pulse_2 None - - 0 1 33
Q 1004 1005 Pulse_3 None - - 0 1 34
Q 1006 1007 Pulse_4 None - - 0 1 35
Q 8 9 DI 16x24VDC/DQ16xRelay_1
None - - 0 2
Q 12 13 DI 16x24VDC/DQ16xRelay_2
None - - 0 3
High speed counters (HSC)\HSC1\General\Enable
Enable this highspeed counter
0
High speed counters (HSC)\HSC1\General\Project information
Name HSC_1 Comment
High speed counters (HSC)\HSC1\Function
Type of counting Count Operating phase Single phase Input source Integrated CPU input
Counting directionis specified by
User program (internal directioncontrol)
Initial counting di‐rection
Count up
Frequency measur‐ing period
-/-sec
High speed counters (HSC)\HSC1\Reset to initial values\Reset values
Initial counter value 0 Initial reference val‐ue
0
High speed counters (HSC)\HSC1\Reset to initial values\Reset options
Use external resetinput
0 Reset signal level -/-
High speed counters (HSC)\HSC1\Event configuration\
Generate interruptfor counter valueequals referencevalue event.
0 RidPrefixCvEqualsPv 49152 Event name: 0
Hardware interrupt: 0 Counter value equalto reference value0
Counter value equal to referencevalue0
ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC1\Event configuration\
Generate interruptfor external resetevent.
0 RidPrefixExternalRe‐set
49408 Event name: 0
Hardware interrupt: 0 External reset0 External reset0 ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC1\Event configuration\
Generate interruptfor change of direc‐tion event.
0 RidPrefixDirection‐Change
49280 Event name: 0
Hardware interrupt: 0 Change of direc‐tion0
Change of direction0 ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC1\Hardware inputs
Clock generator in‐put
--- Direction input --- Reset input ---
Speed 100.00000kHz
High speed counters (HSC)\HSC1\I/O addresses\Input addresses
Start address 1000 End address 1003 Process image Cyclic PI
High speed counters (HSC)\HSC1\Hardware identifier\Hardware identifier
Hardware identifier 257
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High speed counters (HSC)\HSC2\General\Enable
Enable this highspeed counter
0
High speed counters (HSC)\HSC2\General\Project information
Name HSC_2 Comment
High speed counters (HSC)\HSC2\Function
Type of counting Count Operating phase Single phase Input source Integrated CPU input
Counting directionis specified by
User program (internal directioncontrol)
Initial counting di‐rection
Count up
Frequency measur‐ing period
-/-sec
High speed counters (HSC)\HSC2\Reset to initial values\Reset values
Initial counter value 0 Initial reference val‐ue
0
High speed counters (HSC)\HSC2\Reset to initial values\Reset options
Use external resetinput
0 Reset signal level -/-
High speed counters (HSC)\HSC2\Event configuration\
Generate interruptfor counter valueequals referencevalue event.
0 RidPrefixCvEqualsPv 49152 Event name: 0
Hardware interrupt: 0 Counter value equalto reference value1
Counter value equal to referencevalue1
ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC2\Event configuration\
Generate interruptfor external resetevent.
0 RidPrefixExternalRe‐set
49408 Event name: 0
Hardware interrupt: 0 External reset1 External reset1 ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC2\Event configuration\
Generate interruptfor change of direc‐tion event.
0 RidPrefixDirection‐Change
49280 Event name: 0
Hardware interrupt: 0 Change of direc‐tion1
Change of direction1 ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC2\Hardware inputs
Clock generator in‐put
--- Direction input --- Reset input ---
Speed 100.00000kHz
High speed counters (HSC)\HSC2\I/O addresses\Input addresses
Start address 1004 End address 1007 Process image Cyclic PI
High speed counters (HSC)\HSC2\Hardware identifier\Hardware identifier
Hardware identifier 258
High speed counters (HSC)\HSC3\General\Enable
Enable this highspeed counter
0
High speed counters (HSC)\HSC3\General\Project information
Name HSC_3 Comment
High speed counters (HSC)\HSC3\Function
Type of counting Count Operating phase Single phase Input source Integrated CPU input
Counting directionis specified by
User program (internal directioncontrol)
Initial counting di‐rection
Count up
Frequency measur‐ing period
-/-sec
High speed counters (HSC)\HSC3\Reset to initial values\Reset values
Initial counter value 0 Initial reference val‐ue
0
High speed counters (HSC)\HSC3\Reset to initial values\Reset options
Use external resetinput
0 Reset signal level -/-
High speed counters (HSC)\HSC3\Event configuration\
Generate interruptfor counter valueequals referencevalue event.
0 RidPrefixCvEqualsPv 49152 Event name: 0
Hardware interrupt: 0 Counter value equalto reference value2
Counter value equal to referencevalue2
ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC3\Event configuration\
Generate interruptfor external resetevent.
0 RidPrefixExternalRe‐set
49408 Event name: 0
Hardware interrupt: 0 External reset2 External reset2 ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC3\Event configuration\
Generate interruptfor change of direc‐tion event.
0 RidPrefixDirection‐Change
49280 Event name: 0
Hardware interrupt: 0 Change of direc‐tion2
Change of direction2 ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC3\Hardware inputs
Clock generator in‐put
--- Direction input --- Reset input ---
Speed 100.00000kHz
High speed counters (HSC)\HSC3\I/O addresses\Input addresses
Start address 1008 End address 1011 Process image Cyclic PI
High speed counters (HSC)\HSC3\Hardware identifier\Hardware identifier
Hardware identifier 259
Totally IntegratedAutomation Portal
High speed counters (HSC)\HSC4\General\Enable
Enable this highspeed counter
0
High speed counters (HSC)\HSC4\General\Project information
Name HSC_4 Comment
High speed counters (HSC)\HSC4\Function
Type of counting Count Operating phase Single phase Input source Integrated CPU input
Counting directionis specified by
User program (internal directioncontrol)
Initial counting di‐rection
Count up
Frequency measur‐ing period
-/-sec
High speed counters (HSC)\HSC4\Reset to initial values\Reset values
Initial counter value 0 Initial reference val‐ue
0
High speed counters (HSC)\HSC4\Reset to initial values\Reset options
Use external resetinput
0 Reset signal level -/-
High speed counters (HSC)\HSC4\Event configuration\
Generate interruptfor counter valueequals referencevalue event.
0 RidPrefixCvEqualsPv 49152 Event name: 0
Hardware interrupt: 0 Counter value equalto reference value3
Counter value equal to referencevalue3
ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC4\Event configuration\
Generate interruptfor external resetevent.
0 RidPrefixExternalRe‐set
49408 Event name: 0
Hardware interrupt: 0 External reset3 External reset3 ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC4\Event configuration\
Generate interruptfor change of direc‐tion event.
0 RidPrefixDirection‐Change
49280 Event name: 0
Hardware interrupt: 0 Change of direc‐tion3
Change of direction3 ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC4\Hardware inputs
Clock generator in‐put
--- Direction input --- Reset input ---
Speed 30.00000kHz
High speed counters (HSC)\HSC4\I/O addresses\Input addresses
Start address 1012 End address 1015 Process image Cyclic PI
High speed counters (HSC)\HSC4\Hardware identifier\Hardware identifier
Hardware identifier 260
High speed counters (HSC)\HSC5\General\Enable
Enable this highspeed counter
0
High speed counters (HSC)\HSC5\General\Project information
Name HSC_5 Comment
High speed counters (HSC)\HSC5\Function
Type of counting Count Operating phase Single phase Input source Integrated CPU input
Counting directionis specified by
User program (internal directioncontrol)
Initial counting di‐rection
Count up
Frequency measur‐ing period
-/-sec
High speed counters (HSC)\HSC5\Reset to initial values\Reset values
Initial counter value 0 Initial reference val‐ue
0
High speed counters (HSC)\HSC5\Reset to initial values\Reset options
Use external resetinput
0 Reset signal level -/-
High speed counters (HSC)\HSC5\Event configuration\
Generate interruptfor counter valueequals referencevalue event.
0 RidPrefixCvEqualsPv 49152 Event name: 0
Hardware interrupt: 0 Counter value equalto reference value4
Counter value equal to referencevalue4
ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC5\Event configuration\
Generate interruptfor external resetevent.
0 RidPrefixExternalRe‐set
49408 Event name: 0
Hardware interrupt: 0 External reset4 External reset4 ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC5\Event configuration\
Generate interruptfor change of direc‐tion event.
0 RidPrefixDirection‐Change
49280 Event name: 0
Hardware interrupt: 0 Change of direc‐tion4
Change of direction4 ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC5\Hardware inputs
Clock generator in‐put
--- Direction input --- Reset input ---
Speed 30.00000kHz
High speed counters (HSC)\HSC5\I/O addresses\Input addresses
Start address 1016 End address 1019 Process image Cyclic PI
High speed counters (HSC)\HSC5\Hardware identifier\Hardware identifier
Hardware identifier 261
Totally IntegratedAutomation Portal
High speed counters (HSC)\HSC6\General\Enable
Enable this highspeed counter
0
High speed counters (HSC)\HSC6\General\Project information
Name HSC_6 Comment
High speed counters (HSC)\HSC6\Function
Type of counting Count Operating phase Single phase Input source Integrated CPU input
Counting directionis specified by
User program (internal directioncontrol)
Initial counting di‐rection
Count up
Frequency measur‐ing period
-/-sec
High speed counters (HSC)\HSC6\Reset to initial values\Reset values
Initial counter value 0 Initial reference val‐ue
0
High speed counters (HSC)\HSC6\Reset to initial values\Reset options
Use external resetinput
0 Reset signal level -/-
High speed counters (HSC)\HSC6\Event configuration\
Generate interruptfor counter valueequals referencevalue event.
0 RidPrefixCvEqualsPv 49152 Event name: 0
Hardware interrupt: 0 Counter value equalto reference value5
Counter value equal to referencevalue5
ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC6\Event configuration\
Generate interruptfor external resetevent.
0 RidPrefixExternalRe‐set
49408 Event name: 0
Hardware interrupt: 0 External reset5 External reset5 ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC6\Event configuration\
Generate interruptfor change of direc‐tion event.
0 RidPrefixDirection‐Change
49280 Event name: 0
Hardware interrupt: 0 Change of direc‐tion5
Change of direction5 ValueNull 0
ValueNull 0 EventPriority 6
High speed counters (HSC)\HSC6\Hardware inputs
Clock generator in‐put
--- Direction input --- Reset input ---
Speed 30.00000kHz
High speed counters (HSC)\HSC6\I/O addresses\Input addresses
Start address 1020 End address 1023 Process image Cyclic PI
High speed counters (HSC)\HSC6\Hardware identifier\Hardware identifier
Hardware identifier 262
Pulse generators (PTO/PWM)\PTO1/PWM1\General\Enable
Enable this pulsegenerator
0
Pulse generators (PTO/PWM)\PTO1/PWM1\General\Project information
Name Pulse_1 Comment
Pulse generators (PTO/PWM)\PTO1/PWM1\Parameter assignment\Pulse options
Signal type PWM Output source: Integrated CPU output Time base: Milliseconds
Pulse duration for‐mat
Hundredths Cycle time 100ms Initial pulse dura‐tion
50Hundredths
Pulse generators (PTO/PWM)\PTO1/PWM1\Hardware outputs
Pulse output: Q0.0
Pulse generators (PTO/PWM)\PTO1/PWM1\I/O addresses\Output addresses
Start address 1000 End address 1001 Process image Cyclic PI
Pulse generators (PTO/PWM)\PTO1/PWM1\Hardware identifier\Hardware identifier
Hardware identifier 265
Pulse generators (PTO/PWM)\PTO2/PWM2\General\Enable
Enable this pulsegenerator
0
Pulse generators (PTO/PWM)\PTO2/PWM2\General\Project information
Name Pulse_2 Comment
Pulse generators (PTO/PWM)\PTO2/PWM2\Parameter assignment\Pulse options
Signal type PWM Output source: Integrated CPU output Time base: Milliseconds
Pulse duration for‐mat
Hundredths Cycle time 100ms Initial pulse dura‐tion
50Hundredths
Pulse generators (PTO/PWM)\PTO2/PWM2\Hardware outputs
Pulse output: Q0.2
Pulse generators (PTO/PWM)\PTO2/PWM2\I/O addresses\Output addresses
Start address 1002 End address 1003 Process image Cyclic PI
Pulse generators (PTO/PWM)\PTO2/PWM2\Hardware identifier\Hardware identifier
Hardware identifier 266
Pulse generators (PTO/PWM)\PTO3/PWM3\General\Enable
Enable this pulsegenerator
0
Pulse generators (PTO/PWM)\PTO3/PWM3\General\Project information
Name Pulse_3 Comment
Pulse generators (PTO/PWM)\PTO3/PWM3\Parameter assignment\Pulse options
Signal type PWM Output source: Integrated CPU output Time base: Milliseconds
Pulse duration for‐mat
Hundredths Cycle time 100ms Initial pulse dura‐tion
50Hundredths
Pulse generators (PTO/PWM)\PTO3/PWM3\Hardware outputs
Pulse output: Q0.4
Pulse generators (PTO/PWM)\PTO3/PWM3\I/O addresses\Output addresses
Start address 1004 End address 1005 Process image Cyclic PI
Pulse generators (PTO/PWM)\PTO3/PWM3\Hardware identifier\Hardware identifier
Hardware identifier 267
Totally IntegratedAutomation Portal
Pulse generators (PTO/PWM)\PTO4/PWM4\General\Enable
Enable this pulsegenerator
0
Pulse generators (PTO/PWM)\PTO4/PWM4\General\Project information
Name Pulse_4 Comment
Pulse generators (PTO/PWM)\PTO4/PWM4\Parameter assignment\Pulse options
Signal type PWM Output source: Integrated CPU output Time base: Milliseconds
Pulse duration for‐mat
Hundredths Cycle time 100ms Initial pulse dura‐tion
50Hundredths
Pulse generators (PTO/PWM)\PTO4/PWM4\Hardware outputs
Pulse output: Q0.6
Pulse generators (PTO/PWM)\PTO4/PWM4\I/O addresses\Output addresses
Start address 1006 End address 1007 Process image Cyclic PI
Pulse generators (PTO/PWM)\PTO4/PWM4\Hardware identifier\Hardware identifier
Hardware identifier 268
Startup
Startup after POWERON
Warm restart - RUN Comparison presetto actual configura‐tion
Startup CPU even if mismatch Parameter assign‐ment time for dis‐tributed I/O
60000ms
Cycle
Cycle monitoringtime
150ms Enable minimum cy‐cle time for cyclicOBs
0
Minimum cycle time 1ms
Communication load
Cycle load due tocommunication
20%
System and clock memory\System memory bits
Enable the use ofsystem memorybyte
1 Address of systemmemory byte (MBx)
2 First cycle %M2.0 (FirstScan)
Diagnostic statuschanged
%M2.1 (DiagStatusUpdate) Always 1 (high) %M2.2 (AlwaysTRUE) Always 0 (low) %M2.3 (AlwaysFALSE)
System and clock memory\Clock memory bits
Enable the use ofclock memory byte
1 Address of clockmemory byte (MBx)
3 10 Hz clock %M3.0 (Clock_10Hz)
5 Hz clock %M3.1 (Clock_5Hz) 2.5 Hz clock %M3.2 (Clock_2.5Hz) 2 Hz clock %M3.3 (Clock_2Hz)
1.25 Hz clock %M3.4 (Clock_1.25Hz) 1 Hz clock %M3.5 (Clock_1Hz) 0.625 Hz clock %M3.6 (Clock_0.625Hz)
0.5 Hz clock %M3.7 (Clock_0.5Hz)
Web server\General
Activate web serveron this module
True Permit access onlywith HTTPS
False
Web server\Automatic update
Enable automaticupdate
True Update interval 10s
Web server\User defined web pages
Application name HTML source path Default HTML page Files with dynamic content Web DB number Fragment DB number
index.htm .htm;.html 333 334
Time of day\Local time
Time zone (UTC +05:00) Islamabad, Karachi,Tashkent, Ekaterinburg
Time of day\Daylight saving time
Activate daylightsaving time
0 Difference betweenstandard and day‐light saving time
60mins
Time of day\Daylight saving time\Start of daylight saving time
Starting week of themonth:
Last Sunday of March
at 01:00 a.m.
Time of day\Daylight saving time\Start of standard time
Last Sunday of October
at 02:00 a.m.
Protection\
Level of protection No protection
Protection\Password for read/write access
Password Confirm password
Anchor (ParameterCommunicationMenu)
The TreeNode Pa‐rameterCommunica‐tionMenu was notfilled by some ACF
Anchor (AddressesOverviewMenu)
The AddressesOver‐viewMenu was notfilled by some ACF
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CPU [CPU 1214C DC/DC/Rly] / Program blocks
DATE AND TIME FC [FC1]
DATE AND TIME FC Properties
General
Name DATE AND TIME FC Number 1 Type FC Language LAD
Numbering automatic
Information
Title Author SARFRAZ Comment Family
Version 0.1 User-definedID
Name Data type Default value Comment
Input
Output
InOut
Temp
Constant
Return
DATE AND TIME FC Void
Network 1: DATE AND TIME
RD_SYS_T
DTL
T_CONV
TODTL Time_Of_Day
"DATE AND TIME DB".RET_VAL
"DATE AND TIME DB"."READ DATE AND TIME"
"DATE AND TIME DB".
"READ DATE AND TIME"
"DATE AND TIME DB"."TIME OF DAY"
EN ENO
RET_VAL
OUT
DTL
EN
IN
ENO
OUT
TODTL Time_Of_Day
Symbol Address Type Comment
"DATE AND TIME DB"."READ DATEAND TIME"
DTL
"DATE AND TIME DB"."TIME OFDAY"
Time_Of_Day
"DATE AND TIME DB".RET_VAL Word
Network 2: WRITE PLC TIME
TON
Time
WR_SYS_T
DTL"WR_SYS_T_HMI"
%M100.2%M100.2
"IEC_Timer_0_DB"
%DB7%DB7
t#5s ..."DATE AND TIME DB".
"WRITE DATE AND TIME"
"DATE AND TIME DB".RET_VAL1
IN
PT
Q
ET
Time
EN
IN
ENO
RET_VAL
DTL
Symbol Address Type Comment
"DATE AND TIME DB"."WRITE DATEAND TIME"
DTL
"DATE AND TIME DB".RET_VAL1 Word
"WR_SYS_T_HMI" %M100.2 Bool
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
DSE-9470_SLAVE_10 [DB3]
DSE-9470_SLAVE_10 Properties
General
Name DSE-9470_SLAVE_10 Number 3 Type DB Language DB
Numbering automatic
Information
Title Author SARFRAZ Comment Family
Version 0.1 User-definedID
Name Data type Offset Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Static
MB_MASTER "UDT_MB_MAS‐TER_SLAVE_10"
0.0 False True True False
DATA_PTR "UDT_DA‐TA_PTR_SLAVE_10"
0.0 False True True False Data area used to communicatewith the Modbus slave
DATA Array[0..20] ofInt
0.0 False True True False
DATA[0] Int 0.0 0 False True True False
DATA[1] Int 2.0 0 False True True False
DATA[2] Int 4.0 0 False True True False
DATA[3] Int 6.0 0 False True True False
DATA[4] Int 8.0 0 False True True False
DATA[5] Int 10.0 0 False True True False
DATA[6] Int 12.0 0 False True True False
DATA[7] Int 14.0 0 False True True False
DATA[8] Int 16.0 0 False True True False
DATA[9] Int 18.0 0 False True True False
DATA[10] Int 20.0 0 False True True False
DATA[11] Int 22.0 0 False True True False
DATA[12] Int 24.0 0 False True True False
DATA[13] Int 26.0 0 False True True False
DATA[14] Int 28.0 0 False True True False
DATA[15] Int 30.0 0 False True True False
DATA[16] Int 32.0 0 False True True False
DATA[17] Int 34.0 0 False True True False
DATA[18] Int 36.0 0 False True True False
DATA[19] Int 38.0 0 False True True False
DATA[20] Int 40.0 0 False True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
DSE-7320_SLAVE_11 [DB5]
DSE-7320_SLAVE_11 Properties
General
Name DSE-7320_SLAVE_11 Number 5 Type DB Language DB
Numbering automatic
Information
Title Author SARFRAZ Comment Family
Version 0.1 User-definedID
Name Data type Offset Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Static
MB_MASTER "UDT_MB_MAS‐TER_SLAVE_11"
0.0 False True True False
DATA_PTR "UDT_DA‐TA_PTR_SLAVE_11"
0.0 False True True False Data area used to communicatewith the Modbus slave
DATA Array[0..90] ofInt
0.0 False True True False
DATA[0] Int 0.0 0 False True True False
DATA[1] Int 2.0 0 False True True False
DATA[2] Int 4.0 0 False True True False
DATA[3] Int 6.0 0 False True True False
DATA[4] Int 8.0 0 False True True False
DATA[5] Int 10.0 0 False True True False
DATA[6] Int 12.0 0 False True True False
DATA[7] Int 14.0 0 False True True False
DATA[8] Int 16.0 0 False True True False
DATA[9] Int 18.0 0 False True True False
DATA[10] Int 20.0 0 False True True False
DATA[11] Int 22.0 0 False True True False
DATA[12] Int 24.0 0 False True True False
DATA[13] Int 26.0 0 False True True False
DATA[14] Int 28.0 0 False True True False
DATA[15] Int 30.0 0 False True True False
DATA[16] Int 32.0 0 False True True False
DATA[17] Int 34.0 0 False True True False
DATA[18] Int 36.0 0 False True True False
DATA[19] Int 38.0 0 False True True False
DATA[20] Int 40.0 0 False True True False
DATA[21] Int 42.0 0 False True True False
DATA[22] Int 44.0 0 False True True False
DATA[23] Int 46.0 0 False True True False
DATA[24] Int 48.0 0 False True True False
DATA[25] Int 50.0 0 False True True False
DATA[26] Int 52.0 0 False True True False
DATA[27] Int 54.0 0 False True True False
DATA[28] Int 56.0 0 False True True False
DATA[29] Int 58.0 0 False True True False
DATA[30] Int 60.0 0 False True True False
DATA[31] Int 62.0 0 False True True False
DATA[32] Int 64.0 0 False True True False
DATA[33] Int 66.0 0 False True True False
DATA[34] Int 68.0 0 False True True False
DATA[35] Int 70.0 0 False True True False
DATA[36] Int 72.0 0 False True True False
DATA[37] Int 74.0 0 False True True False
DATA[38] Int 76.0 0 False True True False
DATA[39] Int 78.0 0 False True True False
DATA[40] Int 80.0 0 False True True False
DATA[41] Int 82.0 0 False True True False
DATA[42] Int 84.0 0 False True True False
DATA[43] Int 86.0 0 False True True False
DATA[44] Int 88.0 0 False True True False
DATA[45] Int 90.0 0 False True True False
DATA[46] Int 92.0 0 False True True False
DATA[47] Int 94.0 0 False True True False
DATA[48] Int 96.0 0 False True True False
DATA[49] Int 98.0 0 False True True False
DATA[50] Int 100.0 0 False True True False
DATA[51] Int 102.0 0 False True True False
DATA[52] Int 104.0 0 False True True False
DATA[53] Int 106.0 0 False True True False
DATA[54] Int 108.0 0 False True True False
DATA[55] Int 110.0 0 False True True False
DATA[56] Int 112.0 0 False True True False
DATA[57] Int 114.0 0 False True True False
DATA[58] Int 116.0 0 False True True False
DATA[59] Int 118.0 0 False True True False
Totally IntegratedAutomation Portal
Name Data type Offset Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
DATA[60] Int 120.0 0 False True True False
DATA[61] Int 122.0 0 False True True False
DATA[62] Int 124.0 0 False True True False
DATA[63] Int 126.0 0 False True True False
DATA[64] Int 128.0 0 False True True False
DATA[65] Int 130.0 0 False True True False
DATA[66] Int 132.0 0 False True True False
DATA[67] Int 134.0 0 False True True False
DATA[68] Int 136.0 0 False True True False
DATA[69] Int 138.0 0 False True True False
DATA[70] Int 140.0 0 False True True False
DATA[71] Int 142.0 0 False True True False
DATA[72] Int 144.0 0 False True True False
DATA[73] Int 146.0 0 False True True False
DATA[74] Int 148.0 0 False True True False
DATA[75] Int 150.0 0 False True True False
DATA[76] Int 152.0 0 False True True False
DATA[77] Int 154.0 0 False True True False
DATA[78] Int 156.0 0 False True True False
DATA[79] Int 158.0 0 False True True False
DATA[80] Int 160.0 0 False True True False
DATA[81] Int 162.0 0 False True True False
DATA[82] Int 164.0 0 False True True False
DATA[83] Int 166.0 0 False True True False
DATA[84] Int 168.0 0 False True True False
DATA[85] Int 170.0 0 False True True False
DATA[86] Int 172.0 0 False True True False
DATA[87] Int 174.0 0 False True True False
DATA[88] Int 176.0 0 False True True False
DATA[89] Int 178.0 0 False True True False
DATA[90] Int 180.0 0 False True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
Main [OB1]
Main Properties
General
Name Main Number 1 Type OB Language LAD
Numbering automatic
Information
Title "Main Program Sweep (Cy‐cle)"
Author SARFRAZ Comment Family
Version 0.1 User-definedID
Name Data type Default value Comment
Temp
Constant
Network 1: CALL FUNCTION BLOCKS
"DATE AND TIME FC"
%FC1
"OUTGOING 400A FC"
%FC2
"MEMORY=PERIPHERAL"
%FC3
"DSE-9470 FC"
%FC4
"DSE-7320 FC"
%FC5
"HMI MESSAGES"
%FC6
"OUTGOING 250A FC"
%FC8
"OUTGOING 100A FC"
%FC7
"OUTGOING 80_63_25A FC"
%FC9
%FC1
%FC2
%FC3
%FC4
%FC5
%FC6
%FC8
%FC7
%FC9
EN ENO
EN ENO
EN ENO
EN ENO
EN ENO
EN ENO
EN ENO
EN ENO
EN ENO
Symbol Address Type Comment
Network 2: MB_COMM_LOAD
MB_COMM_LOAD
"MB_COMM_LOAD_DB"
%DB1%DB1
"FirstScan"
%M2.0%M2.0
"CM_1241_(RS422_485)_
1"
269269
9600
0
0
0
0
1000
"MB_MASTER_DB"
%DB2%DB2
"MB_COMM_LOAD_DB".DONE
"MB_COMM_LOAD_DB".ERROR
"MB_COMM_LOAD_DB".STATUS
EN
REQ
PORT
BAUD
PARITY
FLOW_CTRL
RTS_ON_DLY
RTS_OFF_DLY
RESP_TO
MB_DB
ENO
DONE
ERROR
STATUS
Symbol Address Type Comment
"CM_1241_(RS422_485)_1" 269 PORT
"FirstScan" %M2.0 Bool
"MB_COMM_LOAD_DB".DONE Bool Boolean indicating completion without error
"MB_COMM_LOAD_DB".ERROR Bool Boolean indicating completion with error
"MB_COMM_LOAD_DB".STATUS Word Status of the current operation
Network 3: INITIAL START REQUEST AFTER RESTART CPU
Totally IntegratedAutomation Portal
RS"REQ SLAVE 10"
%M100.7%M100.7
"INITIAL START REQUEST"
%M101.2%M101.2
"REQ SLAVE 11"
%M101.0%M101.0
"REQ SLAVE 10"
%M100.7%M100.7
"REQ SLAVE 11"
%M101.0%M101.0
R
S1
Q
Symbol Address Type Comment
"INITIAL START REQUEST" %M101.2 Bool
"REQ SLAVE 10" %M100.7 Bool
"REQ SLAVE 11" %M101.0 Bool
Network 4: DSE-7320
MB_MASTER
"MB_MASTER_DB"
%DB2%DB2
11
0
442496
90
"DSE-7320_SLAVE_11".MB_MASTER.DATA_
PTR
P#DB5.DBX0.0P#DB5.DBX0.0
"DONE SLAVE 11"
%M200.0%M200.0
"BUSY SLAVE 11"
%M200.1%M200.1
"ERROR SLAVE 11"
%M200.2%M200.2
"MB_MASTER_DB".STATUS
"REQ SLAVE 11"
%M101.0%M101.0
EN
REQ
MB_ADDR
MODE
DATA_ADDR
DATA_LEN
DATA_PTR
ENO
DONE
BUSY
ERROR
STATUS
Symbol Address Type Comment
"BUSY SLAVE 11" %M200.1 Bool
"DONE SLAVE 11" %M200.0 Bool
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR
P#DB5.DBX0.0 Block_UDT Data area used to communicate with the Modbus slave
"ERROR SLAVE 11" %M200.2 Bool
"MB_MASTER_DB".STATUS Word Status or error code of the completed operation
"REQ SLAVE 11" %M101.0 Bool
Network 5: ONLY one request to FB MB_MASTER is active (SLAVE10)
S
R
"DONE SLAVE 11"
%M200.0%M200.0
"REQ SLAVE 10"
%M100.7%M100.7
"INITIAL START REQUEST"
%M101.2%M101.2"REQ SLAVE 11"
%M101.0%M101.0
Symbol Address Type Comment
"DONE SLAVE 11" %M200.0 Bool
"INITIAL START REQUEST" %M101.2 Bool
"REQ SLAVE 10" %M100.7 Bool
"REQ SLAVE 11" %M101.0 Bool
Network 6: DSE-9470
MB_MASTER
"MB_MASTER_DB"%DB2%DB2
10
0
442496
20
"DSE-9470_SLAVE_10".MB_MASTER.DATA_
PTR
P#DB3.DBX0.0P#DB3.DBX0.0
"DONE SLAVE 10"
%M300.0%M300.0
"BUSY SLAVE 10"
%M300.1%M300.1
"ERROR SLAVE 10"
%M300.2%M300.2
"MB_MASTER_DB".STATUS
"REQ SLAVE 10"
%M100.7%M100.7
EN
REQ
MB_ADDR
MODE
DATA_ADDR
DATA_LEN
DATA_PTR
ENO
DONE
BUSY
ERROR
STATUS
Symbol Address Type Comment
"BUSY SLAVE 10" %M300.1 Bool
"DONE SLAVE 10" %M300.0 Bool
"DSE-9470_SLAVE_10".MB_MAS‐TER.DATA_PTR
P#DB3.DBX0.0 Block_UDT Data area used to communicate with the Modbus slave
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"ERROR SLAVE 10" %M300.2 Bool
"MB_MASTER_DB".STATUS Word Status or error code of the completed operation
"REQ SLAVE 10" %M100.7 Bool
Network 7: ONLY one request to FB MB_MASTER is active (SLAVE11)
R
S
"DONE SLAVE 10"
%M300.0%M300.0
"REQ SLAVE 10"
%M100.7%M100.7
"INITIAL START REQUEST"
%M101.2%M101.2"REQ SLAVE 11"
%M101.0%M101.0
Symbol Address Type Comment
"DONE SLAVE 10" %M300.0 Bool
"INITIAL START REQUEST" %M101.2 Bool
"REQ SLAVE 10" %M100.7 Bool
"REQ SLAVE 11" %M101.0 Bool
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
DATE AND TIME DB [DB4]
DATE AND TIME DB Properties
General
Name DATE AND TIME DB Number 4 Type DB Language DB
Numbering automatic
Information
Title Author SARFRAZ Comment Family
Version 0.1 User-definedID
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Static
RET_VAL Word 16#0 True True True False
READ DATE AND TIME DTL DTL#1970-01-01-00:00:00 True True True False
YEAR UInt 1970 True True True False
MONTH USInt 1 True True True False
DAY USInt 1 True True True False
WEEKDAY USInt 5 True True True False
HOUR USInt 0 True True True False
MINUTE USInt 0 True True True False
SECOND USInt 0 True True True False
NANOSECOND UDInt 0 True True True False
TIME OF DAY Time_Of_Day TOD#00:00:00 False True True False
WRITE DATE AND TIME DTL DTL#2015-04-08-00:00:00 False True True False
YEAR UInt 2015 False True True False
MONTH USInt 4 False True True False
DAY USInt 8 False True True False
WEEKDAY USInt 4 False True True False
HOUR USInt 0 False True True False
MINUTE USInt 0 False True True False
SECOND USInt 0 False True True False
NANOSECOND UDInt 0 False True True False
RET_VAL1 Word 16#0 False True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
OUTGOING 400A FC [FC2]
OUTGOING 400A FC Properties
General
Name OUTGOING 400A FC Number 2 Type FC Language LAD
Numbering automatic
Information
Title Author SARFRAZ Comment Family
Version 0.1 User-definedID
Name Data type Default value Comment
Input
Output
InOut
Temp
1 Real
2 Real
3 Real
4 Real
5 Real
6 Real
7 Real
8 Real
9 Real
10 Real
11 Real
12 Real
Constant
Return
OUTGOING 400A FC Void
Network 1: 8K1_400A MAGNETIC CONTACTOR OUTPUT 16R2
A type (Sports Club+A type + Guest House) FEEDER CIRCUIT 220KW_400A
Totally IntegratedAutomation Portal
Network 1: 8K1_400A MAGNETIC CONTACTOR OUTPUT 16R2 (1.1 / 2.1)
TimeTON
SR
TimeTON
R
S
DInt>=
TimeTON
DInt>=
DInt>=
"8Q1 MCCB ON_MEMORY
BIT"
%M0.0%M0.0
"8Q1 MCCB TRIP_MEMORY
BIT"
%M0.1%M0.1
"8K1_400A_AUTO/MANUAL SELECTION"
%M160.0%M160.0
"8K1_400A_OVER LOADED
SET BIT"
%M102.0%M102.0
"8K1_AUXILIARY FEED BACK FAULT"
%M412.0%M412.0
"8K1 CONTACTOR ON OUTPUT 16R2"
%Q0.0%Q0.0
"8K1_400A_AUTO/MANUAL SELECTION"
%M160.0%M160.0
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"8K1 CONTACTOR ON OUTPUT 16R2"
%Q0.0%Q0.0 "8K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M0.2%M0.2"OUTGOING 400A DB".
"8K1_AUXILIARY CHECK TIMER"
t#2s
"8K1_400A_AUTO/MANUAL SELECTION"
%M160.0%M160.0
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"8K1_400A_REVERT SET BIT"
%M102.1%M102.1
"8K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M0.2%M0.2"8K1_400A_
OVER LOADED SET BIT"
%M102.0%M102.0
"8K1_400A_AUTO/MANUAL SELECTION"
%M160.0%M160.0
"8K1_400A_REVERT SET BIT"
%M102.1%M102.1
"8K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M0.2%M0.2 "OUTGOING 400A DB".
"8K1_AUXILIARY CHECK TIMER".
Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"8K1_400A_OVER LOADED
SET BIT"
%M102.0%M102.0
"OUTGOING 400A DB".
"TRIPPED REVERT ON DELAY_8K1
M/C 400A"
"OUTGOING 400A DB".
"TRIPPED REVERT ON DELAY_8K1 M/C 400A".PT
"OUTGOING 400A DB".
"TRIPPED REVERT ON DELAY_8K1 M/C 400A".Q
"8K1_400A_REVERT SET BIT"
%M102.1%M102.1
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K1 M/C 400A".Q
"8K1_400A_REVERT SET BIT"
%M102.1%M102.1
"OUTGOING 400A DB"."L1_OUT INT (8CT1)
400A"
"OUTGOING 400A DB"."SV_AMPERE 8K1 M/
C 400A"
"8K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M0.2%M0.2
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"8K1_400A_AUTO/MANUAL SELECTION"
%M160.0%M160.0
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K1 M/
C 400A"
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K1 M/C 400A".PT
"OUTGOING 400A DB"."L2_OUT INT (8CT1.
1) 400A"
"OUTGOING 400A DB"."SV_AMPERE 8K1 M/
C 400A"
"OUTGOING 400A DB"."L3_OUT INT (8CT1.
2) 400A"
"OUTGOING
"8K1_400A_AUTO/MANUAL SELECTION"
%M160.0%M160.0
"8K1_400A_MANUAL ON/
OFF"
%M170.0%M170.0
S
R1
Q
2.1 ( Page9 - 3)
Totally IntegratedAutomation Portal
Network 1: 8K1_400A MAGNETIC CONTACTOR OUTPUT 16R2 (2.1 / 2.1)
1.1 ( Page9 - 2)
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
"OUTGOING 400A DB"."SV_AMPERE 8K1 M/
C 400A"
0
"8CT1 (0....400A)":P
%IW128:P%IW128:P
27648
#"1" 0
#"1"
400
"OUTGOING 400A DB"."L1_OUT INT (8CT1) 400A"
0
"8CT1.1 (0....400A)":P
%IW130:P%IW130:P
27648
#"2" 0
#"2"
400
"OUTGOING 400A DB"."L2_OUT INT (8CT1.1) 400A"
0
"8CT1.2 (0....400A)":P
%IW132:P%IW132:P
27648
#"3" 0
#"3"
400
"OUTGOING 400A DB"."L3_OUT INT (8CT1.2) 400A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"8CT1 (0....400A)":P %IW128:P Int
"8CT1.1 (0....400A)":P %IW130:P Int
"8CT1.2 (0....400A)":P %IW132:P Int
"8K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M0.2 Bool
"8K1 CONTACTOR ON OUTPUT16R2"
%Q0.0 Bool
"8K1_400A_AUTO/MANUAL SELEC‐TION"
%M160.0 Bool
"8K1_400A_MANUAL ON/OFF" %M170.0 Bool
"8K1_400A_OVER LOADED SETBIT"
%M102.0 Bool
"8K1_400A_REVERT SET BIT" %M102.1 Bool
"8K1_AUXILIARY FEED BACKFAULT"
%M412.0 Bool
"8Q1 MCCB ON_MEMORY BIT" %M0.0 Bool
"8Q1 MCCB TRIP_MEMORY BIT" %M0.1 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 400A DB"."8K1_AUX‐ILIARY CHECK TIMER"
IEC_Timer
"OUTGOING 400A DB"."8K1_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 400A DB"."INRUSHOFF DELAY_8K1 M/C 400A"
IEC_Timer
"OUTGOING 400A DB"."INRUSHOFF DELAY_8K1 M/C 400A".PT
Time
"OUTGOING 400A DB"."INRUSHOFF DELAY_8K1 M/C 400A".Q
Bool
"OUTGOING 400A DB"."L1_OUTINT (8CT1) 400A"
Int
"OUTGOING 400A DB"."L2_OUTINT (8CT1.1) 400A"
Int
"OUTGOING 400A DB"."L3_OUTINT (8CT1.2) 400A"
Int
"OUTGOING 400A DB"."SV_AM‐PERE 8K1 M/C 400A"
Int
"OUTGOING 400A DB"."TRIPPEDREVERT ON DELAY_8K1 M/C 400A"
IEC_Timer
"OUTGOING 400A DB"."TRIPPEDREVERT ON DELAY_8K1 M/C400A".PT
Time
"OUTGOING 400A DB"."TRIPPEDREVERT ON DELAY_8K1 M/C400A".Q
Bool
#"1" Real
#"2" Real
#"3" Real
Network 2: 8K4_400A MAGNETIC CONTACTOR OUTPUT 16R2.1
C type FEEDER CIRCUIT 220KW_400A
Totally IntegratedAutomation Portal
Network 2: 8K4_400A MAGNETIC CONTACTOR OUTPUT 16R2.1 (1.1 / 2.1)
Time
TON
SR
Time
TON
R
S
DInt
>=
Time
TON
DInt
>=
DInt
>=
"8Q4 MCCB ON_MEMORY
BIT"
%M0.3%M0.3
"8Q4 MCCB TRIP_MEMORY
BIT"
%M0.4%M0.4
"8K4_400A_AUTO/MANUAL SELECTION"
%M160.1%M160.1
"8K4_400A_OVER LOADED
SET BIT"
%M102.2%M102.2
"8K4_AUXILIARY FEED BACK FAULT"
%M412.1%M412.1 "8K4 CONTACTOR ON OUTPUT 16R2.
1"
%Q0.1%Q0.1
"8K4_400A_AUTO/MANUAL SELECTION"
%M160.1%M160.1
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7 "8K4 CONTACTOR ON OUTPUT 16R2.
1"
%Q0.1%Q0.1
"8K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M0.5%M0.5"OUTGOING 400A DB".
"8K4_AUXILIARY CHECK TIMER"
t#2s
"8K4_400A_AUTO/MANUAL SELECTION"
%M160.1%M160.1
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"8K4_400A_REVERT SET BIT"
%M102.3%M102.3
"8K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M0.5%M0.5"8K4_400A_
OVER LOADED SET BIT"
%M102.2%M102.2
"8K4_400A_AUTO/MANUAL SELECTION"
%M160.1%M160.1
"8K4_400A_REVERT SET BIT"
%M102.3%M102.3
"8K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M0.5%M0.5 "OUTGOING 400A DB".
"8K4_AUXILIARY CHECK TIMER".
Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"8K4_400A_OVER LOADED
SET BIT"
%M102.2%M102.2
"OUTGOING 400A DB".
"TRIPPED REVERT ON DELAY_8K4
M/C 400A"
"OUTGOING 400A DB".
"TRIPPED REVERT ON DELAY_8K4 M/C 400A".PT
"OUTGOING 400A DB".
"TRIPPED REVERT ON DELAY_8K4 M/C 400A".Q
"8K4_400A_REVERT SET BIT"
%M102.3%M102.3
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K4 M/C 400A".Q
"8K4_400A_REVERT SET BIT"
%M102.3%M102.3
"OUTGOING 400A DB"."L1_OUT INT (8CT4)
400A"
"OUTGOING 400A DB"."SV_AMPERE 8K4 M/
C 400A"
"8K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M0.5%M0.5
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"8K4_400A_AUTO/MANUAL SELECTION"
%M160.1%M160.1
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K4 M/
C 400A"
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K4 M/C 400A".PT
"OUTGOING 400A DB"."L2_OUT INT (8CT4.
1) 400A"
"OUTGOING 400A DB"."SV_AMPERE 8K4 M/
C 400A"
"OUTGOING 400A DB"."L3_OUT INT (8CT4.
2) 400A"
"8K4_400A_AUTO/MANUAL SELECTION"
%M160.1%M160.1
"8K4_400A_MANUAL ON/
OFF"
%M170.1%M170.1
S
R1
Q
2.1 ( Page9 - 6)
Totally IntegratedAutomation Portal
Network 2: 8K4_400A MAGNETIC CONTACTOR OUTPUT 16R2.1 (2.1 / 2.1)
1.1 ( Page9 - 5)DInt
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
"OUTGOING 400A DB"."SV_AMPERE 8K4 M/
C 400A"
0
"8CT4 (0....400A)":P
%IW134:P%IW134:P
27648
#"4" 0
#"4"
400
"OUTGOING 400A DB"."L1_OUT INT (8CT4) 400A"
0
"8CT4.1 (0....400A)":P
%IW136:P%IW136:P
27648
#"5" 0
#"5"
400
"OUTGOING 400A DB"."L2_OUT INT (8CT4.1) 400A"
0
"8CT4.2 (0....400A)":P
%IW138:P%IW138:P
27648
#"6" 0
#"6"
400
"OUTGOING 400A DB"."L3_OUT INT (8CT4.2) 400A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"8CT4 (0....400A)":P %IW134:P Int
"8CT4.1 (0....400A)":P %IW136:P Int
"8CT4.2 (0....400A)":P %IW138:P Int
"8K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M0.5 Bool
"8K4 CONTACTOR ON OUTPUT16R2.1"
%Q0.1 Bool
"8K4_400A_AUTO/MANUAL SELEC‐TION"
%M160.1 Bool
"8K4_400A_MANUAL ON/OFF" %M170.1 Bool
"8K4_400A_OVER LOADED SETBIT"
%M102.2 Bool
"8K4_400A_REVERT SET BIT" %M102.3 Bool
"8K4_AUXILIARY FEED BACKFAULT"
%M412.1 Bool
"8Q4 MCCB ON_MEMORY BIT" %M0.3 Bool
"8Q4 MCCB TRIP_MEMORY BIT" %M0.4 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 400A DB"."8K4_AUX‐ILIARY CHECK TIMER"
IEC_Timer
"OUTGOING 400A DB"."8K4_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 400A DB"."INRUSHOFF DELAY_8K4 M/C 400A"
IEC_Timer
"OUTGOING 400A DB"."INRUSHOFF DELAY_8K4 M/C 400A".PT
Time
"OUTGOING 400A DB"."INRUSHOFF DELAY_8K4 M/C 400A".Q
Bool
"OUTGOING 400A DB"."L1_OUTINT (8CT4) 400A"
Int
"OUTGOING 400A DB"."L2_OUTINT (8CT4.1) 400A"
Int
"OUTGOING 400A DB"."L3_OUTINT (8CT4.2) 400A"
Int
"OUTGOING 400A DB"."SV_AM‐PERE 8K4 M/C 400A"
Int
"OUTGOING 400A DB"."TRIPPEDREVERT ON DELAY_8K4 M/C 400A"
IEC_Timer
"OUTGOING 400A DB"."TRIPPEDREVERT ON DELAY_8K4 M/C400A".PT
Time
"OUTGOING 400A DB"."TRIPPEDREVERT ON DELAY_8K4 M/C400A".Q
Bool
#"4" Real
#"5" Real
#"6" Real
Network 3: 8K8_400A MAGNETIC CONTACTOR OUTPUT 16R3
M type FEEDER CIRCUIT 220KW_400A
Totally IntegratedAutomation Portal
Network 3: 8K8_400A MAGNETIC CONTACTOR OUTPUT 16R3 (1.1 / 2.1)
TimeTON
SR
TimeTON
R
S
DInt>=
TimeTON
DInt>=
DInt>=
"8Q8 MCCB ON_MEMORY
BIT"
%M0.6%M0.6
"8Q8 MCCB TRIP_MEMORY
BIT"
%M0.7%M0.7
"8K8_400A_AUTO/MANUAL SELECTION"
%M160.2%M160.2
"8K8_400A_OVER LOADED
SET BIT"
%M102.4%M102.4
"8K8_AUXILIARY FEED BACK FAULT"
%M412.2%M412.2
"8K8 CONTACTOR ON OUTPUT 16R3"
%Q0.2%Q0.2
"8K8_400A_AUTO/MANUAL SELECTION"
%M160.2%M160.2
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"8K8 CONTACTOR ON OUTPUT 16R3"
%Q0.2%Q0.2 "8K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M1.0%M1.0"OUTGOING 400A DB".
"8K8_AUXILIARY CHECK TIMER"
t#2s
"8K8_400A_AUTO/MANUAL SELECTION"
%M160.2%M160.2
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"8K8_400A_REVERT SET BIT"
%M102.5%M102.5
"8K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M1.0%M1.0"8K8_400A_
OVER LOADED SET BIT"
%M102.4%M102.4
"8K8_400A_AUTO/MANUAL SELECTION"
%M160.2%M160.2
"8K8_400A_REVERT SET BIT"
%M102.5%M102.5
"8K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M1.0%M1.0 "OUTGOING 400A DB".
"8K8_AUXILIARY CHECK TIMER".
Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"8K8_400A_OVER LOADED
SET BIT"
%M102.4%M102.4
"OUTGOING 400A DB".
"TRIPPED REVERT ON DELAY_8K8
M/C 400A"
"OUTGOING 400A DB".
"TRIPPED REVERT ON DELAY_8K8 M/C 400A".PT
"OUTGOING 400A DB".
"TRIPPED REVERT ON DELAY_8K8 M/C 400A".Q
"8K8_400A_REVERT SET BIT"
%M102.5%M102.5
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K8 M/C 400A".Q
"8K8_400A_REVERT SET BIT"
%M102.5%M102.5
"OUTGOING 400A DB"."L1_OUT INT (8CT8)
400A"
"OUTGOING 400A DB"."SV_AMPERE 8K8 M/
C 400A"
"8K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M1.0%M1.0
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"8K8_400A_AUTO/MANUAL SELECTION"
%M160.2%M160.2
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K8 M/
C 400A"
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K8 M/C 400A".PT
"OUTGOING 400A DB"."L2_OUT INT (8CT8.
1) 400A"
"OUTGOING 400A DB"."SV_AMPERE 8K8 M/
C 400A"
"OUTGOING 400A DB"."L3_OUT INT (8CT8.
2) 400A"
"OUTGOING
"8K8_400A_AUTO/MANUAL SELECTION"
%M160.2%M160.2
"8K8_400A_MANUAL ON/
OFF"
%M170.2%M170.2
S
R1
Q
2.1 ( Page9 - 9)
Totally IntegratedAutomation Portal
Network 3: 8K8_400A MAGNETIC CONTACTOR OUTPUT 16R3 (2.1 / 2.1)
1.1 ( Page9 - 8)
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
"OUTGOING 400A DB"."SV_AMPERE 8K8 M/
C 400A"
0
"8CT8 (0....400A)":P
%IW140:P%IW140:P
27648
#"7" 0
#"7"
400
"OUTGOING 400A DB"."L1_OUT INT (8CT8) 400A"
0
"8CT8.1 (0....400A)":P
%IW142:P%IW142:P
27648
#"8" 0
#"8"
400
"OUTGOING 400A DB"."L2_OUT INT (8CT8.1) 400A"
0
"8CT8.2 (0....400A)":P
%IW144:P%IW144:P
27648
#"9" 0
#"9"
400
"OUTGOING 400A DB"."L3_OUT INT (8CT8.2) 400A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"8CT8 (0....400A)":P %IW140:P Int
"8CT8.1 (0....400A)":P %IW142:P Int
"8CT8.2 (0....400A)":P %IW144:P Int
"8K8 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M1.0 Bool
"8K8 CONTACTOR ON OUTPUT16R3"
%Q0.2 Bool
"8K8_400A_AUTO/MANUAL SELEC‐TION"
%M160.2 Bool
"8K8_400A_MANUAL ON/OFF" %M170.2 Bool
"8K8_400A_OVER LOADED SETBIT"
%M102.4 Bool
"8K8_400A_REVERT SET BIT" %M102.5 Bool
"8K8_AUXILIARY FEED BACKFAULT"
%M412.2 Bool
"8Q8 MCCB ON_MEMORY BIT" %M0.6 Bool
"8Q8 MCCB TRIP_MEMORY BIT" %M0.7 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 400A DB"."8K8_AUX‐ILIARY CHECK TIMER"
IEC_Timer
"OUTGOING 400A DB"."8K8_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 400A DB"."INRUSHOFF DELAY_8K8 M/C 400A"
IEC_Timer
"OUTGOING 400A DB"."INRUSHOFF DELAY_8K8 M/C 400A".PT
Time
"OUTGOING 400A DB"."INRUSHOFF DELAY_8K8 M/C 400A".Q
Bool
"OUTGOING 400A DB"."L1_OUTINT (8CT8) 400A"
Int
"OUTGOING 400A DB"."L2_OUTINT (8CT8.1) 400A"
Int
"OUTGOING 400A DB"."L3_OUTINT (8CT8.2) 400A"
Int
"OUTGOING 400A DB"."SV_AM‐PERE 8K8 M/C 400A"
Int
"OUTGOING 400A DB"."TRIPPEDREVERT ON DELAY_8K8 M/C 400A"
IEC_Timer
"OUTGOING 400A DB"."TRIPPEDREVERT ON DELAY_8K8 M/C400A".PT
Time
"OUTGOING 400A DB"."TRIPPEDREVERT ON DELAY_8K8 M/C400A".Q
Bool
#"7" Real
#"8" Real
#"9" Real
Network 4: 9K1_400A MAGNETIC CONTACTOR OUTPUT 16R3.1
Bungalow-9-15 FEEDER CIRCUIT 220KW_400A
Totally IntegratedAutomation Portal
Network 4: 9K1_400A MAGNETIC CONTACTOR OUTPUT 16R3.1 (1.1 / 2.1)
Time
TON
SR
Time
TON
R
S
DInt
>=
Time
TON
DInt
>=
DInt
>=
"9Q1 MCCB ON_MEMORY
BIT"
%M1.1%M1.1
"9Q1 MCCB TRIP_MEMORY
BIT"
%M1.2%M1.2
"9K1_400A_AUTO/MANUAL SELECTION"
%M160.3%M160.3
"9K1_400A_OVER LOADED
SET BIT"
%M102.6%M102.6
"9K1_AUXILIARY FEED BACK FAULT"
%M412.3%M412.3 "9K1 CONTACTOR ON OUTPUT 16R3.
1"
%Q0.3%Q0.3
"9K1_400A_AUTO/MANUAL SELECTION"
%M160.3%M160.3
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7 "9K1 CONTACTOR ON OUTPUT 16R3.
1"
%Q0.3%Q0.3
"9K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M1.3%M1.3"OUTGOING 400A DB".
"9K1_AUXILIARY CHECK TIMER"
t#2s
"9K1_400A_AUTO/MANUAL SELECTION"
%M160.3%M160.3
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"9K1_400A_REVERT SET BIT"
%M102.7%M102.7
"9K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M1.3%M1.3"9K1_400A_
OVER LOADED SET BIT"
%M102.6%M102.6
"9K1_400A_AUTO/MANUAL SELECTION"
%M160.3%M160.3
"9K1_400A_REVERT SET BIT"
%M102.7%M102.7
"9K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M1.3%M1.3 "OUTGOING 400A DB".
"9K1_AUXILIARY CHECK TIMER".
Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"9K1_400A_OVER LOADED
SET BIT"
%M102.6%M102.6
"OUTGOING 400A DB".
"TRIPPED REVERT ON DELAY_9K1
M/C 400A"
"OUTGOING 400A DB".
"TRIPPED REVERT ON DELAY_9K1 M/C 400A".PT
"OUTGOING 400A DB".
"TRIPPED REVERT ON DELAY_9K1 M/C 400A".Q
"9K1_400A_REVERT SET BIT"
%M102.7%M102.7
"OUTGOING 400A DB".
"INRUSH OFF DELAY_9K1 M/C 400A".Q
"9K1_400A_REVERT SET BIT"
%M102.7%M102.7
"OUTGOING 400A DB"."L1_OUT INT (9CT1)
400A"
"OUTGOING 400A DB"."SV_AMPERE 9K1 M/
C 400A"
"9K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M1.3%M1.3
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"9K1_400A_AUTO/MANUAL SELECTION"
%M160.3%M160.3
"OUTGOING 400A DB".
"INRUSH OFF DELAY_9K1 M/
C 400A"
"OUTGOING 400A DB".
"INRUSH OFF DELAY_9K1 M/C 400A".PT
"OUTGOING 400A DB"."L2_OUT INT (9CT1.
1) 400A"
"OUTGOING 400A DB"."SV_AMPERE 9K1 M/
C 400A"
"OUTGOING 400A DB"."L3_OUT INT (9CT1.
2) 400A"
"9K1_400A_AUTO/MANUAL SELECTION"
%M160.3%M160.3
"9K1_400A_MANUAL ON/
OFF"
%M170.3%M170.3
S
R1
Q
2.1 ( Page9 - 12)
Totally IntegratedAutomation Portal
Network 4: 9K1_400A MAGNETIC CONTACTOR OUTPUT 16R3.1 (2.1 / 2.1)
1.1 ( Page9 - 11)DInt
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
"OUTGOING 400A DB"."SV_AMPERE 9K1 M/
C 400A"
0
"9CT1 (0....400A)":P
%IW146:P%IW146:P
27648
#"10" 0
#"10"
400
"OUTGOING 400A DB"."L1_OUT INT (9CT1) 400A"
0
"9CT1.1 (0....400A)":P
%IW148:P%IW148:P
27648
#"11" 0
#"11"
400
"OUTGOING 400A DB"."L2_OUT INT (9CT1.1) 400A"
0
"9CT1.2 (0....400A)":P
%IW150:P%IW150:P
27648
#"12" 0
#"12"
400
"OUTGOING 400A DB"."L3_OUT INT (9CT1.2) 400A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"9CT1 (0....400A)":P %IW146:P Int
"9CT1.1 (0....400A)":P %IW148:P Int
"9CT1.2 (0....400A)":P %IW150:P Int
"9K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M1.3 Bool
"9K1 CONTACTOR ON OUTPUT16R3.1"
%Q0.3 Bool
"9K1_400A_AUTO/MANUAL SELEC‐TION"
%M160.3 Bool
"9K1_400A_MANUAL ON/OFF" %M170.3 Bool
"9K1_400A_OVER LOADED SETBIT"
%M102.6 Bool
"9K1_400A_REVERT SET BIT" %M102.7 Bool
"9K1_AUXILIARY FEED BACKFAULT"
%M412.3 Bool
"9Q1 MCCB ON_MEMORY BIT" %M1.1 Bool
"9Q1 MCCB TRIP_MEMORY BIT" %M1.2 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 400A DB"."9K1_AUX‐ILIARY CHECK TIMER"
IEC_Timer
"OUTGOING 400A DB"."9K1_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 400A DB"."INRUSHOFF DELAY_9K1 M/C 400A"
IEC_Timer
"OUTGOING 400A DB"."INRUSHOFF DELAY_9K1 M/C 400A".PT
Time
"OUTGOING 400A DB"."INRUSHOFF DELAY_9K1 M/C 400A".Q
Bool
"OUTGOING 400A DB"."L1_OUTINT (9CT1) 400A"
Int
"OUTGOING 400A DB"."L2_OUTINT (9CT1.1) 400A"
Int
"OUTGOING 400A DB"."L3_OUTINT (9CT1.2) 400A"
Int
"OUTGOING 400A DB"."SV_AM‐PERE 9K1 M/C 400A"
Int
"OUTGOING 400A DB"."TRIPPEDREVERT ON DELAY_9K1 M/C 400A"
IEC_Timer
"OUTGOING 400A DB"."TRIPPEDREVERT ON DELAY_9K1 M/C400A".PT
Time
"OUTGOING 400A DB"."TRIPPEDREVERT ON DELAY_9K1 M/C400A".Q
Bool
#"10" Real
#"11" Real
#"12" Real
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
OUTGOING 400A DB [DB8]
OUTGOING 400A DB Properties
General
Name OUTGOING 400A DB Number 8 Type DB Language DB
Numbering automatic
Information
Title Author SARFRAZ Comment Family
Version 0.1 User-definedID
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Static
L1_OUT INT (8CT1) 400A Int 0 False True True False
L2_OUT INT (8CT1.1) 400A Int 0 False True True False
L3_OUT INT (8CT1.2) 400A Int 0 False True True False
SV_AMPERE 8K1 M/C 400A Int 0 True True True False
INRUSH OFF DELAY_8K1 M/C400A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
TRIPPED REVERT ON DELAY_8K1M/C 400A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
8K1_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
L1_OUT INT (8CT4) 400A Int 0 False True True False
L2_OUT INT (8CT4.1) 400A Int 0 False True True False
L3_OUT INT (8CT4.2) 400A Int 0 False True True False
SV_AMPERE 8K4 M/C 400A Int 0 True True True False
INRUSH OFF DELAY_8K4 M/C400A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
TRIPPED REVERT ON DELAY_8K4M/C 400A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
8K4_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
L1_OUT INT (8CT8) 400A Int 0 False True True False
L2_OUT INT (8CT8.1) 400A Int 0 False True True False
L3_OUT INT (8CT8.2) 400A Int 0 False True True False
SV_AMPERE 8K8 M/C 400A Int 0 True True True False
INRUSH OFF DELAY_8K8 M/C400A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
Totally IntegratedAutomation Portal
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
TRIPPED REVERT ON DELAY_8K8M/C 400A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
8K8_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
L1_OUT INT (9CT1) 400A Int 0 False True True False
L2_OUT INT (9CT1.1) 400A Int 0 False True True False
L3_OUT INT (9CT1.2) 400A Int 0 False True True False
SV_AMPERE 9K1 M/C 400A Int 0 True True True False
INRUSH OFF DELAY_9K1 M/C400A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
TRIPPED REVERT ON DELAY_9K1M/C 400A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
9K1_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
MEMORY=PERIPHERAL [FC3]
MEMORY=PERIPHERAL Properties
General
Name MEMORY=PERIPHERAL Number 3 Type FC Language FBD
Numbering automatic
Information
Title Author Comment Family
Version 0.1 User-definedID
Name Data type Default value Comment
Input
Output
InOut
Temp
Constant
Return
MEMORY=PERIPHERAL Void
Network 1: SIMATIC S7-1200, CPU 1214C, 6ES7214-1HG31-0XB0 (SLOT-01)
Totally IntegratedAutomation Portal
Network 1: SIMATIC S7-1200, CPU 1214C, 6ES7214-1HG31-0XB0 (SLOT-01) (1.1 / 2.1)
=
=
=
=
=
=
=
=
=
=
"8Q1 MCCB ON_MEMORY
BIT"
%M0.0%M0.0
"8Q1 MCCB ON_INPUT"
%I0.0%I0.0
"8Q1 MCCB TRIP_MEMORY
BIT"
%M0.1%M0.1
"8Q1 MCCB TRIP_INPUT"
%I0.1%I0.1
"8K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M0.2%M0.2
"8K1 CONTACTOR ON
FEED BACK_INPUT"
%I0.2%I0.2
"8Q4 MCCB ON_MEMORY
BIT"
%M0.3%M0.3
"8Q4 MCCB ON_INPUT"
%I0.3%I0.3
"8Q4 MCCB TRIP_MEMORY
BIT"
%M0.4%M0.4
"8Q4 MCCB TRIP_INPUT"
%I0.4%I0.4
"8K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M0.5%M0.5
"8K4 CONTACTOR ON
FEED BACK_INPUT"
%I0.5%I0.5
"8Q8 MCCB ON_MEMORY
BIT"
%M0.6%M0.6
"8Q8 MCCB ON_INPUT"
%I0.6%I0.6
"8Q8 MCCB TRIP_MEMORY
BIT"
%M0.7%M0.7
"8Q8 MCCB TRIP_INPUT"
%I0.7%I0.7
"8K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M1.0%M1.0
"8K8 CONTACTOR ON
FEED BACK_INPUT"
%I1.0%I1.0
"9Q1 MCCB ON_MEMORY
BIT"
%M1.1%M1.1
"9Q1 MCCB ON_INPUT"
%I1.1%I1.1
"9Q1 MCCB TRIP_MEMORY
%M1.2%M1.2
2.1 ( Page11 - 3)
Totally IntegratedAutomation Portal
Network 1: SIMATIC S7-1200, CPU 1214C, 6ES7214-1HG31-0XB0 (SLOT-01) (2.1 / 2.1)
1.1 ( Page11 - 2)
=
=
=
=
TRIP_MEMORY BIT"
"9Q1 MCCB TRIP_INPUT"
%I1.2%I1.2
"9K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M1.3%M1.3
"9K1 CONTACTOR ON
FEED BACK_INPUT"
%I1.3%I1.3
"9Q4 MCCB ON_MEMORY
BIT"
%M1.4%M1.4
"9Q4 MCCB ON_INPUT"
%I1.4%I1.4
"9Q4 MCCB TRIP_MEMORY
BIT"
%M1.5%M1.5
"9Q4 MCCB TRIP_INPUT"
%I1.5%I1.5
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"8K1 CONTACTOR ON FEEDBACK_INPUT"
%I0.2 Bool
"8K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M0.2 Bool
"8K4 CONTACTOR ON FEEDBACK_INPUT"
%I0.5 Bool
"8K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M0.5 Bool
"8K8 CONTACTOR ON FEEDBACK_INPUT"
%I1.0 Bool
"8K8 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M1.0 Bool
"8Q1 MCCB ON_INPUT" %I0.0 Bool
"8Q1 MCCB ON_MEMORY BIT" %M0.0 Bool
"8Q1 MCCB TRIP_INPUT" %I0.1 Bool
"8Q1 MCCB TRIP_MEMORY BIT" %M0.1 Bool
"8Q4 MCCB ON_INPUT" %I0.3 Bool
"8Q4 MCCB ON_MEMORY BIT" %M0.3 Bool
"8Q4 MCCB TRIP_INPUT" %I0.4 Bool
"8Q4 MCCB TRIP_MEMORY BIT" %M0.4 Bool
"8Q8 MCCB ON_INPUT" %I0.6 Bool
"8Q8 MCCB ON_MEMORY BIT" %M0.6 Bool
"8Q8 MCCB TRIP_INPUT" %I0.7 Bool
"8Q8 MCCB TRIP_MEMORY BIT" %M0.7 Bool
"9K1 CONTACTOR ON FEEDBACK_INPUT"
%I1.3 Bool
"9K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M1.3 Bool
"9Q1 MCCB ON_INPUT" %I1.1 Bool
"9Q1 MCCB ON_MEMORY BIT" %M1.1 Bool
"9Q1 MCCB TRIP_INPUT" %I1.2 Bool
"9Q1 MCCB TRIP_MEMORY BIT" %M1.2 Bool
"9Q4 MCCB ON_INPUT" %I1.4 Bool
"9Q4 MCCB ON_MEMORY BIT" %M1.4 Bool
"9Q4 MCCB TRIP_INPUT" %I1.5 Bool
"9Q4 MCCB TRIP_MEMORY BIT" %M1.5 Bool
Network 2: SIMATIC S7-1200, DIGITAL INPUT SB 1221, 6ES7221-3BD30-0XB0 (SLOT-01)
=
=
=
=
"6U1 CHARGER FAILURE
MEMORY BIT"
%M4.0%M4.0
"6U1 CHARGER FAILURE"
%I4.0%I4.0
"6U7 CHARGER FAILURE
MEMORY BIT"
%M4.1%M4.1
"6U7 CHARGER FAILURE"
%I4.1%I4.1
"SPARE(3)"
%M4.2%M4.2
"SPARE"
%I4.2%I4.2
"SPARE(4)"
%M4.3%M4.3
"SPARE(1)"%I4.3%I4.3
Symbol Address Type Comment
"6U1 CHARGER FAILURE MEMORYBIT"
%M4.0 Bool
"6U1 CHARGER FAILURE" %I4.0 Bool
"6U7 CHARGER FAILURE MEMORYBIT"
%M4.1 Bool
"6U7 CHARGER FAILURE" %I4.1 Bool
"SPARE" %I4.2 Bool
"SPARE(1)" %I4.3 Bool
"SPARE(3)" %M4.2 Bool
"SPARE(4)" %M4.3 Bool
Network 3: SIMATIC S7-1200, DIGITAL I/O SM 1223, 6ES7223-1PL32-0XB0 (SLOT-02)
Totally IntegratedAutomation Portal
Network 3: SIMATIC S7-1200, DIGITAL I/O SM 1223, 6ES7223-1PL32-0XB0 (SLOT-02) (1.1 / 2.1)
=
=
=
=
=
=
=
=
=
=
"9K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.0%M8.0
"9K4 CONTACTOR ON
FEED BACK_INPUT"
%I8.0%I8.0
"9Q8 MCCB ON_MEMORY
BIT"
%M8.1%M8.1
"9Q8 MCCB ON_INPUT"
%I8.1%I8.1
"9Q8 MCCB TRIP_MEMORY
BIT"
%M8.2%M8.2
"9Q8 MCCB TRIP_INPUT"
%I8.2%I8.2
"9K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.3%M8.3
"9K8 CONTACTOR ON
FEED BACK_INPUT"
%I8.3%I8.3
"10Q1 MCCB ON_MEMORY
BIT"
%M8.4%M8.4
"10Q1 MCCB ON_INPUT"
%I8.4%I8.4
"10Q1 MCCB TRIP_MEMORY
BIT"
%M8.5%M8.5
"10Q1 MCCB TRIP_INPUT"
%I8.5%I8.5
"10K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.6%M8.6
"10K1 CONTACTOR ON
FEED BACK_INPUT"
%I8.6%I8.6
"10Q4 MCCB ON_MEMORY
BIT"
%M8.7%M8.7
"10Q4 MCCB ON_INPUT"
%I8.7%I8.7
"10Q4 MCCB TRIP_MEMORY
BIT"
%M9.0%M9.0
"10Q4 MCCB TRIP_INPUT"
%I9.0%I9.0
"10K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.1%M9.1
"10K4 CONTACTOR ON
FEED BACK_INPUT"
%I9.1%I9.1
2.1 ( Page11 - 6)
Totally IntegratedAutomation Portal
Network 3: SIMATIC S7-1200, DIGITAL I/O SM 1223, 6ES7223-1PL32-0XB0 (SLOT-02) (2.1 / 2.1)
1.1 ( Page11 - 5)
=
=
=
=
=
=
"11Q1 MCCB ON_MEMORY
BIT"
%M9.2%M9.2
"11Q1 MCCB ON_INPUT"
%I9.2%I9.2
"11Q1 MCCB TRIP_MEMORY
BIT"
%M9.3%M9.3
"11Q1 MCCB TRIP_INPUT"
%I9.3%I9.3
"11K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.4%M9.4
"11K1 CONTACTOR ON
FEED BACK_INPUT"
%I9.4%I9.4
"11Q4 MCCB ON_MEMORY
BIT"
%M9.5%M9.5
"11Q4 MCCB ON_INPUT"
%I9.5%I9.5
"11Q4 MCCB TRIP_MEMORY
BIT"
%M9.6%M9.6
"11Q4 MCCB TRIP_INPUT"
%I9.6%I9.6
"11K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.7%M9.7
"11K4 CONTACTOR ON
FEED BACK_INPUT"
%I9.7%I9.7
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"9K4 CONTACTOR ON FEEDBACK_INPUT"
%I8.0 Bool
"9K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M8.0 Bool
"9K8 CONTACTOR ON FEEDBACK_INPUT"
%I8.3 Bool
"9K8 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M8.3 Bool
"9Q8 MCCB ON_INPUT" %I8.1 Bool
"9Q8 MCCB ON_MEMORY BIT" %M8.1 Bool
"9Q8 MCCB TRIP_INPUT" %I8.2 Bool
"9Q8 MCCB TRIP_MEMORY BIT" %M8.2 Bool
"10K1 CONTACTOR ON FEEDBACK_INPUT"
%I8.6 Bool
"10K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M8.6 Bool
"10K4 CONTACTOR ON FEEDBACK_INPUT"
%I9.1 Bool
"10K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M9.1 Bool
"10Q1 MCCB ON_INPUT" %I8.4 Bool
"10Q1 MCCB ON_MEMORY BIT" %M8.4 Bool
"10Q1 MCCB TRIP_INPUT" %I8.5 Bool
"10Q1 MCCB TRIP_MEMORY BIT" %M8.5 Bool
"10Q4 MCCB ON_INPUT" %I8.7 Bool
"10Q4 MCCB ON_MEMORY BIT" %M8.7 Bool
"10Q4 MCCB TRIP_INPUT" %I9.0 Bool
"10Q4 MCCB TRIP_MEMORY BIT" %M9.0 Bool
"11K1 CONTACTOR ON FEEDBACK_INPUT"
%I9.4 Bool
"11K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M9.4 Bool
"11K4 CONTACTOR ON FEEDBACK_INPUT"
%I9.7 Bool
"11K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M9.7 Bool
"11Q1 MCCB ON_INPUT" %I9.2 Bool
"11Q1 MCCB ON_MEMORY BIT" %M9.2 Bool
"11Q1 MCCB TRIP_INPUT" %I9.3 Bool
"11Q1 MCCB TRIP_MEMORY BIT" %M9.3 Bool
"11Q4 MCCB ON_INPUT" %I9.5 Bool
"11Q4 MCCB ON_MEMORY BIT" %M9.5 Bool
"11Q4 MCCB TRIP_INPUT" %I9.6 Bool
"11Q4 MCCB TRIP_MEMORY BIT" %M9.6 Bool
Network 4: SIMATIC S7-1200, DIGITAL I/O SM 1223, 6ES7223-1PL32-0XB0 (SLOT-03)
Totally IntegratedAutomation Portal
Network 4: SIMATIC S7-1200, DIGITAL I/O SM 1223, 6ES7223-1PL32-0XB0 (SLOT-03) (1.1 / 2.1)
=
=
=
=
=
=
=
=
=
=
"11Q8 MCCB ON_MEMORY
BIT"
%M12.0%M12.0
"11Q8 MCCB ON_INPUT"
%I12.0%I12.0
"11Q8 MCCB TRIP_MEMORY
BIT"
%M12.1%M12.1
"11Q8 MCCB TRIP_INPUT"
%I12.1%I12.1
"11K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M12.2%M12.2
"11K8 CONTACTOR ON
FEED BACK_INPUT"
%I12.2%I12.2
"12Q1 MCCB ON_MEMORY
BIT"
%M12.3%M12.3
"12Q1 MCCB ON_INPUT"
%I12.3%I12.3
"12Q1 MCCB TRIP_MEMORY
BIT"
%M12.4%M12.4
"12Q1 MCCB TRIP_INPUT"
%I12.4%I12.4
"12K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M12.5%M12.5
"12K1 CONTACTOR ON
FEED BACK_INPUT"
%I12.5%I12.5
"13Q1 MCCB ON_MEMORY
BIT"
%M12.6%M12.6
"13Q1 MCCB ON_INPUT"
%I12.6%I12.6
"13Q1 MCCB TRIP_MEMORY
BIT"
%M12.7%M12.7
"13Q1 MCCB TRIP_INPUT"
%I12.7%I12.7
"13K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.0%M13.0
"13K1 CONTACTOR ON
FEED BACK_INPUT"
%I13.0%I13.0
"13Q4 MCCB ON_MEMORY
BIT"
%M13.1%M13.1
"13Q4 MCCB ON_INPUT"
%I13.1%I13.1
"13Q4 MCCB TRIP_MEMORY
%M13.2%M13.2
2.1 ( Page11 - 9)
Totally IntegratedAutomation Portal
Network 4: SIMATIC S7-1200, DIGITAL I/O SM 1223, 6ES7223-1PL32-0XB0 (SLOT-03) (2.1 / 2.1)
1.1 ( Page11 - 8)
=
=
=
=
=
=
TRIP_MEMORY BIT"
"13Q4 MCCB TRIP_INPUT"
%I13.2%I13.2
"13K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.3%M13.3
"13K4 CONTACTOR ON
FEED BACK_INPUT"
%I13.3%I13.3
"13Q8 MCCB ON_MEMORY
BIT"
%M13.4%M13.4
"13Q8 MCCB ON_INPUT"
%I13.4%I13.4
"13Q8 MCCB TRIP_MEMORY
BIT"
%M13.5%M13.5
"13Q8 MCCB TRIP_INPUT"
%I13.5%I13.5
"13K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.6%M13.6
"13K8 CONTACTOR ON
FEED BACK_INPUT"
%I13.6%I13.6
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"GENERATOR ACB CLOSE
INPUT"
%I13.7%I13.7
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"11K8 CONTACTOR ON FEEDBACK_INPUT"
%I12.2 Bool
"11K8 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M12.2 Bool
"11Q8 MCCB ON_INPUT" %I12.0 Bool
"11Q8 MCCB ON_MEMORY BIT" %M12.0 Bool
"11Q8 MCCB TRIP_INPUT" %I12.1 Bool
"11Q8 MCCB TRIP_MEMORY BIT" %M12.1 Bool
"12K1 CONTACTOR ON FEEDBACK_INPUT"
%I12.5 Bool
"12K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M12.5 Bool
"12Q1 MCCB ON_INPUT" %I12.3 Bool
"12Q1 MCCB ON_MEMORY BIT" %M12.3 Bool
"12Q1 MCCB TRIP_INPUT" %I12.4 Bool
"12Q1 MCCB TRIP_MEMORY BIT" %M12.4 Bool
"13K1 CONTACTOR ON FEEDBACK_INPUT"
%I13.0 Bool
"13K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M13.0 Bool
"13K4 CONTACTOR ON FEEDBACK_INPUT"
%I13.3 Bool
"13K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M13.3 Bool
"13K8 CONTACTOR ON FEEDBACK_INPUT"
%I13.6 Bool
"13K8 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M13.6 Bool
"13Q1 MCCB ON_INPUT" %I12.6 Bool
"13Q1 MCCB ON_MEMORY BIT" %M12.6 Bool
"13Q1 MCCB TRIP_INPUT" %I12.7 Bool
"13Q1 MCCB TRIP_MEMORY BIT" %M12.7 Bool
"13Q4 MCCB ON_INPUT" %I13.1 Bool
"13Q4 MCCB ON_MEMORY BIT" %M13.1 Bool
"13Q4 MCCB TRIP_INPUT" %I13.2 Bool
"13Q4 MCCB TRIP_MEMORY BIT" %M13.2 Bool
"13Q8 MCCB ON_INPUT" %I13.4 Bool
"13Q8 MCCB ON_MEMORY BIT" %M13.4 Bool
"13Q8 MCCB TRIP_INPUT" %I13.5 Bool
"13Q8 MCCB TRIP_MEMORY BIT" %M13.5 Bool
"GENERATOR ACB CLOSE INPUT" %I13.7 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
DSE-9470 FC [FC4]
DSE-9470 FC Properties
General
Name DSE-9470 FC Number 4 Type FC Language LAD
Numbering automatic
Information
Title Author Comment Family
Version 0.1 User-definedID
Name Data type Default value Comment
Input
Output
InOut
Temp
1 Real
2 Real
Constant
Return
DSE-9470 FC Void
Network 1: REMOTE MONITORING DSE-9470 SLAVE 10
Totally IntegratedAutomation Portal
MOVE
DIV
Int
CONV
toInt Real
DIV
Real
DIVInt
DIVInt
MOVE
MOVE
MOVE
MOVE
CONVtoInt Real
DIVReal
"DSE-9470_SLAVE_10".MB_MASTER.DATA_
PTR.DATA[1]
%DB3.DBW2%DB3.DBW2"DSE-9470 HMI DB"."CHARGER TEMPERATURE"
"DSE-9470_SLAVE_10".MB_MASTER.DATA_
PTR.DATA[3]
%DB3.DBW6%DB3.DBW6
10
"DSE-9470 HMI DB"."OUTPUT CURRENT"
"DSE-9470_SLAVE_10".MB_MASTER.DATA_
PTR.DATA[6]
%DB3.DBW12%DB3.DBW12
#"1" #"1"
1000.0"DSE-9470 HMI DB"."OUTPUT VOLTAGE"
"DSE-9470_SLAVE_10".MB_MASTER.DATA_
PTR.DATA[8]
%DB3.DBW16%DB3.DBW16
1000
"DSE-9470 HMI DB"."ACTIVE CURRUNT LIMIT"
"DSE-9470_SLAVE_10".MB_MASTER.DATA_PTR.DATA[10]
%DB3.DBW20%DB3.DBW20
10
"DSE-9470 HMI DB"."MAIN VOLTAGE"
"DSE-9470_SLAVE_10".MB_MASTER.DATA_PTR.DATA[12]
%DB3.DBW24%DB3.DBW24"DSE-9470 HMI DB"."FAULT LED"
"DSE-9470_SLAVE_10".MB_MASTER.DATA_PTR.DATA[14]
%DB3.DBW28%DB3.DBW28"DSE-9470 HMI DB"."FAULT LED 2"
"DSE-9470_SLAVE_10".MB_MASTER.DATA_PTR.DATA[16]
%DB3.DBW32%DB3.DBW32"DSE-9470 HMI DB"."OUTPUT POWER"
"DSE-9470_SLAVE_10".MB_MASTER.DATA_PTR.DATA[18]
%DB3.DBW36%DB3.DBW36"DSE-9470 HMI DB"."CHARGER OUTPUT OFF"
"DSE-9470_SLAVE_10".MB_MASTER.DATA_PTR.DATA[19]
%DB3.DBW38%DB3.DBW38
#"2" #"2"
10.0"DSE-9470 HMI DB"."MAINS FREQUENCY"
EN
IN
ENO
OUT1
EN
IN1
IN2
ENO
OUT
Int
EN
IN
ENO
OUT
toInt Real
EN
IN1
IN2
ENO
OUT
Real
EN
IN1
IN2
ENO
OUT
Int
EN
IN1
IN2
ENO
OUT
Int
EN
IN
ENO
OUT1
EN
IN
ENO
OUT1
EN
IN
ENO
OUT1
EN
IN
ENO
OUT1
EN
IN
ENO
OUT
toInt Real
EN
IN1
IN2
ENO
OUT
Real
Symbol Address Type Comment
"DSE-9470 HMI DB"."ACTIVE CUR‐RUNT LIMIT"
Int
"DSE-9470 HMI DB"."CHARGEROUTPUT OFF"
Int
"DSE-9470 HMI DB"."CHARGERTEMPERATURE"
Int
"DSE-9470 HMI DB"."FAULT LED 2" Int
"DSE-9470 HMI DB"."FAULT LED" Int
"DSE-9470 HMI DB"."MAIN VOLT‐AGE"
Int
"DSE-9470 HMI DB"."MAINS FRE‐QUENCY"
Real
"DSE-9470 HMI DB"."OUTPUT CUR‐RENT"
Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"DSE-9470 HMI DB"."OUTPUT POW‐ER"
Int
"DSE-9470 HMI DB"."OUTPUTVOLTAGE"
Real
"DSE-9470_SLAVE_10".MB_MAS‐TER.DATA_PTR.DATA[1]
%DB3.DBW2 Int
"DSE-9470_SLAVE_10".MB_MAS‐TER.DATA_PTR.DATA[3]
%DB3.DBW6 Int
"DSE-9470_SLAVE_10".MB_MAS‐TER.DATA_PTR.DATA[6]
%DB3.DBW12 Int
"DSE-9470_SLAVE_10".MB_MAS‐TER.DATA_PTR.DATA[8]
%DB3.DBW16 Int
"DSE-9470_SLAVE_10".MB_MAS‐TER.DATA_PTR.DATA[10]
%DB3.DBW20 Int
"DSE-9470_SLAVE_10".MB_MAS‐TER.DATA_PTR.DATA[12]
%DB3.DBW24 Int
"DSE-9470_SLAVE_10".MB_MAS‐TER.DATA_PTR.DATA[14]
%DB3.DBW28 Int
"DSE-9470_SLAVE_10".MB_MAS‐TER.DATA_PTR.DATA[16]
%DB3.DBW32 Int
"DSE-9470_SLAVE_10".MB_MAS‐TER.DATA_PTR.DATA[18]
%DB3.DBW36 Int
"DSE-9470_SLAVE_10".MB_MAS‐TER.DATA_PTR.DATA[19]
%DB3.DBW38 Int
#"1" Real
#"2" Real
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
DSE-9470 HMI DB [DB6]
DSE-9470 HMI DB Properties
General
Name DSE-9470 HMI DB Number 6 Type DB Language DB
Numbering automatic
Information
Title Author Comment Family
Version 0.1 User-definedID
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Static
CHARGER TEMPERATURE Int 0 False True True False
OUTPUT CURRENT Int 0 False True True False
OUTPUT VOLTAGE Real 0.0 False True True False
ACTIVE CURRUNT LIMIT Int 0 False True True False
MAIN VOLTAGE Int 0 False True True False
FAULT LED Int 0 False True True False
FAULT LED 2 Int 0 False True True False
OUTPUT POWER Int 0 False True True False
CHARGER OUTPUT OFF Int 0 False True True False
MAINS FREQUENCY Real 0.0 False True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
DSE-7320 HMI DB [DB9]
DSE-7320 HMI DB Properties
General
Name DSE-7320 HMI DB Number 9 Type DB Language DB
Numbering automatic
Information
Title Author Comment Family
Version 0.1 User-definedID
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Static
MAINS FREQUENCY Real 0.0 False True True False
MAINS VOLTS (L1-L2) Int 0 False True True False
MAINS VOLTS (L2-L3) Int 0 False True True False
MAINS VOLTS (L3-L1) Int 0 False True True False
MAINS VOLTS (L1-N) Int 0 False True True False
MAINS VOLTS (L2-N) Int 0 False True True False
MAINS VOLTS (L3-N) Int 0 False True True False
GENERATOR FREQUENCY Real 0.0 False True True False
GENERATOR VOLTS (L1-L2) Int 0 False True True False
GENERATOR VOLTS (L2-L3) Int 0 False True True False
GENERATOR VOLTS (L3-L1) Int 0 False True True False
GENERATOR VOLTS (L1-N) Int 0 False True True False
GENERATOR VOLTS (L2-N) Int 0 False True True False
GENERATOR VOLTS (L3-N) Int 0 False True True False
GENERATOR CURRENT (L1) Int 0 False True True False
GENERATOR CURRENT (L2) Int 0 False True True False
GENERATOR CURRENT (L3) Int 0 False True True False
GENERATOR POWER KW (L1) DInt 0 False True True False
GENERATOR POWER KW (L2) DInt 0 False True True False
GENERATOR POWER KW (L3) DInt 0 False True True False
GENERATOR VAr (L1) DInt 0 False True True False
GENERATOR VAr (L2) DInt 0 False True True False
GENERATOR VAr (L3) DInt 0 False True True False
OIL PRESSURE Real 0.0 False True True False
COOLANT ENGINE TEMPERA‐TURE
Real 0.0 False True True False
FUEL LEVEL Int 0 False True True False
OIL TEMPERATURE Real 0.0 False True True False
ENGINE SPEED DInt 0 False True True False
CHARGE ALTERNATOR VOLTAGE Real 0.0 False True True False
PLANT BATTERY VOLTAGE Real 0.0 False True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
DSE-7320 FC [FC5]
DSE-7320 FC Properties
General
Name DSE-7320 FC Number 5 Type FC Language LAD
Numbering automatic
Information
Title Author Comment Family
Version 0.1 User-definedID
Name Data type Default value Comment
Input
Output
InOut
Temp
1 Real
2 Real
3 Real
4 Real
5 Int
6 Real
7 Real
8 Real
9 DInt
10 DInt
11 DInt
Constant
Return
DSE-7320 FC Void
Network 1: REMOTE MONITORING DSE-7320 SLAVE 11
Totally IntegratedAutomation Portal
Network 1: REMOTE MONITORING DSE-7320 SLAVE 11 (1.1 / 3.1)
CONV
toInt Real
DIV
Real
DIV
Int
DIV
Int
DIV
Int
DIV
Int
DIV
Int
DIV
Int
CONV
toInt Real
DIV
Real
DIV
Int
DIV
Int
DIV
Int
"DSE-7320_SLAVE_11".MB_MASTER.DATA_
PTR.DATA[1]
%DB5.DBW2%DB5.DBW2
#"1" #"1"
10.0"DSE-7320 HMI DB"."MAINS FREQUENCY"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_
PTR.DATA[4]
%DB5.DBW8%DB5.DBW8
10
"DSE-7320 HMI DB"."MAINS VOLTS (L1-L2)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_
PTR.DATA[6]
%DB5.DBW12%DB5.DBW12
10
"DSE-7320 HMI DB"."MAINS VOLTS (L2-L3)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_
PTR.DATA[8]
%DB5.DBW16%DB5.DBW16
10
"DSE-7320 HMI DB"."MAINS VOLTS (L3-L1)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[10]
%DB5.DBW20%DB5.DBW20
10
"DSE-7320 HMI DB"."MAINS VOLTS (L1-N)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[12]
%DB5.DBW24%DB5.DBW24
10
"DSE-7320 HMI DB"."MAINS VOLTS (L2-N)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[14]
%DB5.DBW28%DB5.DBW28
10
"DSE-7320 HMI DB"."MAINS VOLTS (L3-N)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[15]
%DB5.DBW30%DB5.DBW30
#"2" #"2"
10.0"DSE-7320 HMI DB"."GENERATOR FREQUENCY"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[18]
%DB5.DBW36%DB5.DBW36
10
"DSE-7320 HMI DB"."GENERATOR VOLTS (L1-L2)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[20]
%DB5.DBW40%DB5.DBW40
10
"DSE-7320 HMI DB"."GENERATOR VOLTS (L2-L3)"
EN
IN
ENO
OUT
toInt Real
EN
IN1
IN2
ENO
OUT
Real
EN
IN1
IN2
ENO
OUT
Int
EN
IN1
IN2
ENO
OUT
Int
EN
IN1
IN2
ENO
OUT
Int
EN
IN1
IN2
ENO
OUT
Int
EN
IN1
IN2
ENO
OUT
Int
EN
IN1
IN2
ENO
OUT
Int
EN
IN
ENO
OUT
toInt Real
EN
IN1
IN2
ENO
OUT
Real
EN
IN1
IN2
ENO
OUT
Int
EN
IN1
IN2
ENO
OUT
Int
EN ENO
Int
2.1 ( Page15 - 3)
Totally IntegratedAutomation Portal
Network 1: REMOTE MONITORING DSE-7320 SLAVE 11 (2.1 / 3.1)
1.1 ( Page15 - 2)
DIV
Int
DIV
Int
DIV
Int
DIV
Int
DIV
Int
DIVInt
DIV
DInt
DIV
DInt
DIV
DInt
DIV
DInt
DIV
DInt
DIV
DInt
DIV
DInt
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[22]
%DB5.DBW44%DB5.DBW44
10
"DSE-7320 HMI DB"."GENERATOR VOLTS (L3-L1)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[24]
%DB5.DBW48%DB5.DBW48
10
"DSE-7320 HMI DB"."GENERATOR VOLTS (L1-N)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[26]
%DB5.DBW52%DB5.DBW52
10
"DSE-7320 HMI DB"."GENERATOR VOLTS (L2-N)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[28]
%DB5.DBW56%DB5.DBW56
10
"DSE-7320 HMI DB"."GENERATOR VOLTS (L3-N)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[30]
%DB5.DBW60%DB5.DBW60
10
"DSE-7320 HMI DB"."GENERATOR CURRENT (L1)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[32]
%DB5.DBW64%DB5.DBW64
10
"DSE-7320 HMI DB"."GENERATOR CURRENT (L2)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[34]
%DB5.DBW68%DB5.DBW68
10
"DSE-7320 HMI DB"."GENERATOR CURRENT (L3)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[36]
%DB5.DBW72%DB5.DBW72
10
#"9" #"9"
10 "DSE-7320 HMI DB"."GENERATOR POWER KW (L1)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[38]
%DB5.DBW76%DB5.DBW76
10
#"10" #"10"
10 "DSE-7320 HMI DB"."GENERATOR POWER KW (L2)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[40]
%DB5.DBW80%DB5.DBW80
10
#"11" #"11"
10 "DSE-7320 HMI DB"."GENERATOR POWER KW (L3)"
"DSE-7320_
%DB5.DBW84%DB5.DBW84 "DSE-7320 HMI DB".
EN
IN1
IN2
ENO
OUT
EN
IN1
IN2
ENO
OUT
Int
EN
IN1
IN2
ENO
OUT
Int
EN
IN1
IN2
ENO
OUT
Int
EN
IN1
IN2
ENO
OUT
Int
EN
IN1
IN2
ENO
OUT
Int
EN
IN1
IN2
ENO
OUT
Int
EN
IN1
IN2
ENO
OUT
DInt
EN
IN1
IN2
ENO
OUT
DInt
EN
IN1
IN2
ENO
OUT
DInt
EN
IN1
IN2
ENO
OUT
DInt
EN
IN1
IN2
ENO
OUT
DInt
EN
IN1
IN2
ENO
OUT
DInt
EN ENO
DInt
3.1 ( Page15 - 4)
Totally IntegratedAutomation Portal
Network 1: REMOTE MONITORING DSE-7320 SLAVE 11 (3.1 / 3.1)
2.1 ( Page15 - 3)
DIV
DInt
DIV
DInt
CONV
toInt Real
DIV
Real
CONV
toInt Real
DIV
Int MOVE
CONV
toInt Real
DIV
Real MOVE
MOVE
CONVtoInt Real
DIVReal
CONV
toInt Real
DIV
Real
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[42]
10
DB"."GENERATOR VAr (L1)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[44]
%DB5.DBW88%DB5.DBW88
10
"DSE-7320 HMI DB"."GENERATOR VAr (L2)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[46]
%DB5.DBW92%DB5.DBW92
10
"DSE-7320 HMI DB"."GENERATOR VAr (L3)"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[47]
%DB5.DBW94%DB5.DBW94
#"3" #"3"
100.0"DSE-7320 HMI DB"."OIL PRESSURE"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[49]
%DB5.DBW98%DB5.DBW98 "DSE-7320 HMI DB"."COOLANT ENGINE TEMPERATURE"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[51]
%DB5.DBW102%DB5.DBW102
10
#"5" #"5""DSE-7320 HMI DB"."FUEL LEVEL"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[53]
%DB5.DBW106%DB5.DBW106
#"6" #"6"
100.0
#"6" 0.0"DSE-7320 HMI DB"."OIL TEMPERATURE"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[55]
%DB5.DBW110%DB5.DBW110"DSE-7320 HMI DB"."ENGINE SPEED"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[57]
%DB5.DBW114%DB5.DBW114
#"7" #"7"
10.0"DSE-7320 HMI DB"."CHARGE ALTERNATOR VOLTAGE"
"DSE-7320_SLAVE_11".MB_MASTER.DATA_PTR.DATA[59]
%DB5.DBW118%DB5.DBW118
#"8" #"8"
10.0"DSE-7320 HMI DB"."PLANT BATTERY VOLTAGE"
IN1
IN2
OUT
EN
IN1
IN2
ENO
OUT
DInt
EN
IN1
IN2
ENO
OUT
DInt
EN
IN
ENO
OUT
toInt Real
EN
IN1
IN2
ENO
OUT
Real
EN
IN
ENO
OUT
toInt Real
EN
IN1
IN2
ENO
OUT
Int
EN
IN
ENO
OUT1
EN
IN
ENO
OUT
toInt Real
EN
IN1
IN2
ENO
OUT
Real
EN
IN
ENO
OUT1
EN
IN
ENO
OUT1
EN
IN
ENO
OUT
toInt Real
EN
IN1
IN2
ENO
OUT
Real
EN
IN
ENO
OUT
toInt Real
EN
IN1
IN2
ENO
OUT
Real
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"DSE-7320 HMI DB"."CHARGE AL‐TERNATOR VOLTAGE"
Real
"DSE-7320 HMI DB"."COOLANT EN‐GINE TEMPERATURE"
Real
"DSE-7320 HMI DB"."ENGINESPEED"
DInt
"DSE-7320 HMI DB"."FUEL LEVEL" Int
"DSE-7320 HMI DB"."GENERATORCURRENT (L1)"
Int
"DSE-7320 HMI DB"."GENERATORCURRENT (L2)"
Int
"DSE-7320 HMI DB"."GENERATORCURRENT (L3)"
Int
"DSE-7320 HMI DB"."GENERATORFREQUENCY"
Real
"DSE-7320 HMI DB"."GENERATORPOWER KW (L1)"
DInt
"DSE-7320 HMI DB"."GENERATORPOWER KW (L2)"
DInt
"DSE-7320 HMI DB"."GENERATORPOWER KW (L3)"
DInt
"DSE-7320 HMI DB"."GENERATORVAr (L1)"
DInt
"DSE-7320 HMI DB"."GENERATORVAr (L2)"
DInt
"DSE-7320 HMI DB"."GENERATORVAr (L3)"
DInt
"DSE-7320 HMI DB"."GENERATORVOLTS (L1-L2)"
Int
"DSE-7320 HMI DB"."GENERATORVOLTS (L1-N)"
Int
"DSE-7320 HMI DB"."GENERATORVOLTS (L2-L3)"
Int
"DSE-7320 HMI DB"."GENERATORVOLTS (L2-N)"
Int
"DSE-7320 HMI DB"."GENERATORVOLTS (L3-L1)"
Int
"DSE-7320 HMI DB"."GENERATORVOLTS (L3-N)"
Int
"DSE-7320 HMI DB"."MAINS FRE‐QUENCY"
Real
"DSE-7320 HMI DB"."MAINS VOLTS(L1-L2)"
Int
"DSE-7320 HMI DB"."MAINS VOLTS(L1-N)"
Int
"DSE-7320 HMI DB"."MAINS VOLTS(L2-L3)"
Int
"DSE-7320 HMI DB"."MAINS VOLTS(L2-N)"
Int
"DSE-7320 HMI DB"."MAINS VOLTS(L3-L1)"
Int
"DSE-7320 HMI DB"."MAINS VOLTS(L3-N)"
Int
"DSE-7320 HMI DB"."OIL PRES‐SURE"
Real
"DSE-7320 HMI DB"."OIL TEMPERA‐TURE"
Real
"DSE-7320 HMI DB"."PLANT BAT‐TERY VOLTAGE"
Real
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[1]
%DB5.DBW2 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[4]
%DB5.DBW8 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[6]
%DB5.DBW12 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[8]
%DB5.DBW16 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[10]
%DB5.DBW20 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[12]
%DB5.DBW24 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[14]
%DB5.DBW28 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[15]
%DB5.DBW30 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[18]
%DB5.DBW36 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[20]
%DB5.DBW40 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[22]
%DB5.DBW44 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[24]
%DB5.DBW48 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[26]
%DB5.DBW52 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[28]
%DB5.DBW56 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[30]
%DB5.DBW60 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[32]
%DB5.DBW64 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[34]
%DB5.DBW68 Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[36]
%DB5.DBW72 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[38]
%DB5.DBW76 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[40]
%DB5.DBW80 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[42]
%DB5.DBW84 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[44]
%DB5.DBW88 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[46]
%DB5.DBW92 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[47]
%DB5.DBW94 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[49]
%DB5.DBW98 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[51]
%DB5.DBW102 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[53]
%DB5.DBW106 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[55]
%DB5.DBW110 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[57]
%DB5.DBW114 Int
"DSE-7320_SLAVE_11".MB_MAS‐TER.DATA_PTR.DATA[59]
%DB5.DBW118 Int
#"1" Real
#"2" Real
#"3" Real
#"5" Int
#"6" Real
#"7" Real
#"8" Real
#"9" DInt
#"10" DInt
#"11" DInt
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
HMI MESSAGES [FC6]
HMI MESSAGES Properties
General
Name HMI MESSAGES Number 6 Type FC Language FBD
Numbering automatic
Information
Title Author Comment Family
Version 0.1 User-definedID
Name Data type Default value Comment
Input
Output
InOut
Temp
Constant
Return
HMI MESSAGES Void
Network 1: HMI ALARM TEXT MEMORY WORD
Totally IntegratedAutomation Portal
Network 1: HMI ALARM TEXT MEMORY WORD (1.1 / 4.1)
=
=
=
=
=
=
=
=
=
=
"8Q1 MCCB OFF_MESSAGE
BIT"
%M400.0%M400.0
"8Q1 MCCB ON_MEMORY
BIT"
%M0.0%M0.0
"8Q1 MCCB TRIP_MESSAGE
BIT"
%M400.1%M400.1
"8Q1 MCCB TRIP_MEMORY
BIT"
%M0.1%M0.1
"8Q4 MCCB OFF MESSAGE
BIT"
%M400.2%M400.2
"8Q4 MCCB ON_MEMORY
BIT"
%M0.3%M0.3
"8Q4 MCCB TRIP_MESSAGE
BIT"
%M400.3%M400.3
"8Q4 MCCB TRIP_MEMORY
BIT"
%M0.4%M0.4
"8Q8 MCCB OFF MESSAGE
BIT"
%M400.4%M400.4
"8Q8 MCCB ON_MEMORY
BIT"
%M0.6%M0.6
"8Q8 MCCB TRIP_MESSAGE
BIT"
%M400.5%M400.5
"8Q8 MCCB TRIP_MEMORY
BIT"
%M0.7%M0.7
"9Q1 MCCB OFF MESSAGE
BIT"
%M400.6%M400.6
"9Q1 MCCB ON_MEMORY
BIT"
%M1.1%M1.1
"9Q1 MCCB TRIP_MESSAGE
BIT"
%M400.7%M400.7
"9Q1 MCCB TRIP_MEMORY
BIT"
%M1.2%M1.2
"9Q4 MCCB OFF MESSAGE
BIT"
%M401.0%M401.0
"9Q4 MCCB ON_MEMORY
BIT"
%M1.4%M1.4
"9Q4 MCCB TRIP_MESSAGE
BIT"
%M401.1%M401.1
"9Q4 MCCB TRIP_MEMORY
BIT"
%M1.5%M1.5
"6U1 CHARGER
%M401.2%M401.2
2.1 ( Page16 - 3)
Totally IntegratedAutomation Portal
Network 1: HMI ALARM TEXT MEMORY WORD (2.1 / 4.1)
1.1 ( Page16 - 2)
=
=
=
=
=
=
=
=
=
=
=
"6U1 CHARGER FAILURE
MESSAGE BIT"
"6U1 CHARGER FAILURE
MEMORY BIT"
%M4.0%M4.0
"6U7 CHARGER FAILURE
MESSAGE BIT"
%M401.3%M401.3
"6U7 CHARGER FAILURE
MEMORY BIT"
%M4.1%M4.1
"SPARE(11)"
%M401.4%M401.4
"SPARE(3)"
%M4.2%M4.2
"SPARE(12)"
%M401.5%M401.5
"SPARE(4)"
%M4.3%M4.3
"9Q8 MCCB OFF_MESSAGE
BIT"
%M401.6%M401.6
"9Q8 MCCB ON_MEMORY
BIT"
%M8.1%M8.1
"9Q8 MCCB TRIP_MESSAGE
BIT"
%M401.7%M401.7
"9Q8 MCCB TRIP_MEMORY
BIT"
%M8.2%M8.2
"10Q1 MCCB OFF_MESSAGE
BIT"
%M402.0%M402.0
"10Q1 MCCB ON_MEMORY
BIT"
%M8.4%M8.4
"10Q1 MCCB TRIP_MESSAGE
BIT"
%M402.1%M402.1
"10Q1 MCCB TRIP_MEMORY
BIT"
%M8.5%M8.5
"10Q4 MCCB OFF_MESSAGE
BIT"
%M402.2%M402.2
"10Q4 MCCB ON_MEMORY
BIT"
%M8.7%M8.7
"10Q4 MCCB TRIP_MESSAGE
BIT"
%M402.3%M402.3
"10Q4 MCCB TRIP_MEMORY
BIT"
%M9.0%M9.0
"11Q1 MCCB OFF_MESSAGE
BIT"
%M402.4%M402.4
"11Q1 MCCB ON_MEMORY
BIT"
%M9.2%M9.2
"11Q1 MCCB
%M402.5%M402.5
3.1 ( Page16 - 4)
Totally IntegratedAutomation Portal
Network 1: HMI ALARM TEXT MEMORY WORD (3.1 / 4.1)
2.1 ( Page16 - 3)
=
=
=
=
=
=
=
=
=
=
"11Q1 MCCB TRIP_MESSAGE
BIT"
"11Q1 MCCB TRIP_MEMORY
BIT"
%M9.3%M9.3
"11Q4 MCCB OFF_MESSAGE
BIT"
%M402.6%M402.6
"11Q4 MCCB ON_MEMORY
BIT"
%M9.5%M9.5
"11Q4 MCCB TRIP_MESSAGE
BIT"
%M402.7%M402.7
"11Q4 MCCB TRIP_MEMORY
BIT"
%M9.6%M9.6
"11Q8 MCCB OFF_MESSAGE
BIT"
%M403.0%M403.0
"11Q8 MCCB ON_MEMORY
BIT"
%M12.0%M12.0
"11Q8 MCCB TRIP_MESSAGE
BIT"
%M403.1%M403.1
"11Q8 MCCB TRIP_MEMORY
BIT"
%M12.1%M12.1
"12Q1 MCCB OFF_MESSAGE
BIT"
%M403.2%M403.2
"12Q1 MCCB ON_MEMORY
BIT"
%M12.3%M12.3
"12Q1 MCCB TRIP_MESSAGE
BIT"
%M403.3%M403.3
"12Q1 MCCB TRIP_MEMORY
BIT"
%M12.4%M12.4
"13Q1 MCCB OFF_MESSAGE
BIT"
%M403.4%M403.4
"13Q1 MCCB ON_MEMORY
BIT"
%M12.6%M12.6
"13Q1 MCCB TRIP_MESSAGE
BIT"
%M403.5%M403.5
"13Q1 MCCB TRIP_MEMORY
BIT"
%M12.7%M12.7
"13Q4 MCCB OFF_MESSAGE
BIT"
%M403.6%M403.6
"13Q4 MCCB ON_MEMORY
BIT"
%M13.1%M13.1
"13Q4 MCCB TRIP_MESSAGE
BIT"
%M403.7%M403.7
4.1 ( Page16 - 5)
Totally IntegratedAutomation Portal
Network 1: HMI ALARM TEXT MEMORY WORD (4.1 / 4.1)
3.1 ( Page16 - 4)
=
=
=
=
"13Q4 MCCB TRIP_MEMORY
BIT"
%M13.2%M13.2
"13Q8 MCCB OFF_MESSAGE
BIT"
%M404.0%M404.0
"13Q8 MCCB ON_MEMORY
BIT"
%M13.4%M13.4
"13Q8 MCCB TRIP_MESSAGE
BIT"
%M404.1%M404.1
"13Q8 MCCB TRIP_MEMORY
BIT"
%M13.5%M13.5
"MAINS ACB INCOMING
SUPPLY FAILED"
%M404.2%M404.2
"GENERATOR ACB CLOSE
MEMORY BIT"
%M13.7%M13.7
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"6U1 CHARGER FAILURE MEMORYBIT"
%M4.0 Bool
"6U1 CHARGER FAILURE MESSAGEBIT"
%M401.2 Bool
"6U7 CHARGER FAILURE MEMORYBIT"
%M4.1 Bool
"6U7 CHARGER FAILURE MESSAGEBIT"
%M401.3 Bool
"8Q1 MCCB OFF_MESSAGE BIT" %M400.0 Bool
"8Q1 MCCB ON_MEMORY BIT" %M0.0 Bool
"8Q1 MCCB TRIP_MEMORY BIT" %M0.1 Bool
"8Q1 MCCB TRIP_MESSAGE BIT" %M400.1 Bool
"8Q4 MCCB OFF MESSAGE BIT" %M400.2 Bool
"8Q4 MCCB ON_MEMORY BIT" %M0.3 Bool
"8Q4 MCCB TRIP_MEMORY BIT" %M0.4 Bool
"8Q4 MCCB TRIP_MESSAGE BIT" %M400.3 Bool
"8Q8 MCCB OFF MESSAGE BIT" %M400.4 Bool
"8Q8 MCCB ON_MEMORY BIT" %M0.6 Bool
"8Q8 MCCB TRIP_MEMORY BIT" %M0.7 Bool
"8Q8 MCCB TRIP_MESSAGE BIT" %M400.5 Bool
"9Q1 MCCB OFF MESSAGE BIT" %M400.6 Bool
"9Q1 MCCB ON_MEMORY BIT" %M1.1 Bool
"9Q1 MCCB TRIP_MEMORY BIT" %M1.2 Bool
"9Q1 MCCB TRIP_MESSAGE BIT" %M400.7 Bool
"9Q4 MCCB OFF MESSAGE BIT" %M401.0 Bool
"9Q4 MCCB ON_MEMORY BIT" %M1.4 Bool
"9Q4 MCCB TRIP_MEMORY BIT" %M1.5 Bool
"9Q4 MCCB TRIP_MESSAGE BIT" %M401.1 Bool
"9Q8 MCCB OFF_MESSAGE BIT" %M401.6 Bool
"9Q8 MCCB ON_MEMORY BIT" %M8.1 Bool
"9Q8 MCCB TRIP_MEMORY BIT" %M8.2 Bool
"9Q8 MCCB TRIP_MESSAGE BIT" %M401.7 Bool
"10Q1 MCCB OFF_MESSAGE BIT" %M402.0 Bool
"10Q1 MCCB ON_MEMORY BIT" %M8.4 Bool
"10Q1 MCCB TRIP_MEMORY BIT" %M8.5 Bool
"10Q1 MCCB TRIP_MESSAGE BIT" %M402.1 Bool
"10Q4 MCCB OFF_MESSAGE BIT" %M402.2 Bool
"10Q4 MCCB ON_MEMORY BIT" %M8.7 Bool
"10Q4 MCCB TRIP_MEMORY BIT" %M9.0 Bool
"10Q4 MCCB TRIP_MESSAGE BIT" %M402.3 Bool
"11Q1 MCCB OFF_MESSAGE BIT" %M402.4 Bool
"11Q1 MCCB ON_MEMORY BIT" %M9.2 Bool
"11Q1 MCCB TRIP_MEMORY BIT" %M9.3 Bool
"11Q1 MCCB TRIP_MESSAGE BIT" %M402.5 Bool
"11Q4 MCCB OFF_MESSAGE BIT" %M402.6 Bool
"11Q4 MCCB ON_MEMORY BIT" %M9.5 Bool
"11Q4 MCCB TRIP_MEMORY BIT" %M9.6 Bool
"11Q4 MCCB TRIP_MESSAGE BIT" %M402.7 Bool
"11Q8 MCCB OFF_MESSAGE BIT" %M403.0 Bool
"11Q8 MCCB ON_MEMORY BIT" %M12.0 Bool
"11Q8 MCCB TRIP_MEMORY BIT" %M12.1 Bool
"11Q8 MCCB TRIP_MESSAGE BIT" %M403.1 Bool
"12Q1 MCCB OFF_MESSAGE BIT" %M403.2 Bool
"12Q1 MCCB ON_MEMORY BIT" %M12.3 Bool
"12Q1 MCCB TRIP_MEMORY BIT" %M12.4 Bool
"12Q1 MCCB TRIP_MESSAGE BIT" %M403.3 Bool
"13Q1 MCCB OFF_MESSAGE BIT" %M403.4 Bool
"13Q1 MCCB ON_MEMORY BIT" %M12.6 Bool
"13Q1 MCCB TRIP_MEMORY BIT" %M12.7 Bool
"13Q1 MCCB TRIP_MESSAGE BIT" %M403.5 Bool
"13Q4 MCCB OFF_MESSAGE BIT" %M403.6 Bool
"13Q4 MCCB ON_MEMORY BIT" %M13.1 Bool
"13Q4 MCCB TRIP_MEMORY BIT" %M13.2 Bool
"13Q4 MCCB TRIP_MESSAGE BIT" %M403.7 Bool
"13Q8 MCCB OFF_MESSAGE BIT" %M404.0 Bool
"13Q8 MCCB ON_MEMORY BIT" %M13.4 Bool
"13Q8 MCCB TRIP_MEMORY BIT" %M13.5 Bool
"13Q8 MCCB TRIP_MESSAGE BIT" %M404.1 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"MAINS ACB INCOMING SUPPLYFAILED"
%M404.2 Bool
"SPARE(3)" %M4.2 Bool
"SPARE(4)" %M4.3 Bool
"SPARE(11)" %M401.4 Bool
"SPARE(12)" %M401.5 Bool
Network 2: 8K1_400A LOAD MONITORING L1_L2_L3 SET BIT
Totally IntegratedAutomation Portal
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"8K1_400A_L1 LOAD LIMIT EXCCEEDED"
%M405.0%M405.0
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K1 M/
C 400A".Q
"OUTGOING 400A DB"."L1_OUT INT (8CT1)
400A"
"OUTGOING 400A DB"."SV_
AMPERE 8K1 M/C 400A"
"8K1_400A_L2 LOAD LIMIT EXCCEEDED"
%M405.1%M405.1
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K1 M/
C 400A".Q
"OUTGOING 400A DB"."L2_OUT INT (8CT1.
1) 400A"
"OUTGOING 400A DB"."SV_
AMPERE 8K1 M/C 400A"
"8K1_400A_L3 LOAD LIMIT EXCCEEDED"
%M405.2%M405.2
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K1 M/
C 400A".Q
"OUTGOING 400A DB"."L3_OUT INT (8CT1.
2) 400A"
"OUTGOING 400A DB"."SV_
AMPERE 8K1 M/C 400A"
"8K1_AUXILIARY FEED BACK FAULT"
%M412.0%M412.0
"OUTGOING 400A DB".
"8K1_AUXILIARY CHECK TIMER".
Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"8K1 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M0.2%M0.2
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"8K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M0.2 Bool
"8K1_400A_L1 LOAD LIMIT EX‐CCEEDED"
%M405.0 Bool
"8K1_400A_L2 LOAD LIMIT EX‐CCEEDED"
%M405.1 Bool
"8K1_400A_L3 LOAD LIMIT EX‐CCEEDED"
%M405.2 Bool
"8K1_AUXILIARY FEED BACKFAULT"
%M412.0 Bool
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 400A DB"."8K1_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 400A DB"."INRUSHOFF DELAY_8K1 M/C 400A".Q
Bool
"OUTGOING 400A DB"."L1_OUTINT (8CT1) 400A"
Int
"OUTGOING 400A DB"."L2_OUTINT (8CT1.1) 400A"
Int
"OUTGOING 400A DB"."L3_OUTINT (8CT1.2) 400A"
Int
"OUTGOING 400A DB"."SV_AM‐PERE 8K1 M/C 400A"
Int
Network 3: 8K4_400A LOAD MONITORING L1_L2_L3 SET BIT
Totally IntegratedAutomation Portal
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"8K4_400A_L1 LOAD LIMIT EXCCEEDED"
%M405.3%M405.3
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K4 M/
C 400A".Q
"OUTGOING 400A DB"."L1_OUT INT (8CT4)
400A"
"OUTGOING 400A DB"."SV_
AMPERE 8K4 M/C 400A"
"8K4_400A_L2 LOAD LIMIT EXCCEEDED"
%M405.4%M405.4
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K4 M/
C 400A".Q
"OUTGOING 400A DB"."L2_OUT INT (8CT4.
1) 400A"
"OUTGOING 400A DB"."SV_
AMPERE 8K4 M/C 400A"
"8K4_400A_L3 LOAD LIMIT EXCCEEDED"
%M405.5%M405.5
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K4 M/
C 400A".Q
"OUTGOING 400A DB"."L3_OUT INT (8CT4.
2) 400A"
"OUTGOING 400A DB"."SV_
AMPERE 8K4 M/C 400A"
"8K4_AUXILIARY FEED BACK FAULT"
%M412.1%M412.1
"OUTGOING 400A DB".
"8K4_AUXILIARY CHECK TIMER".
Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"8K4 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M0.5%M0.5
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"8K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M0.5 Bool
"8K4_400A_L1 LOAD LIMIT EX‐CCEEDED"
%M405.3 Bool
"8K4_400A_L2 LOAD LIMIT EX‐CCEEDED"
%M405.4 Bool
"8K4_400A_L3 LOAD LIMIT EX‐CCEEDED"
%M405.5 Bool
"8K4_AUXILIARY FEED BACKFAULT"
%M412.1 Bool
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 400A DB"."8K4_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 400A DB"."INRUSHOFF DELAY_8K4 M/C 400A".Q
Bool
"OUTGOING 400A DB"."L1_OUTINT (8CT4) 400A"
Int
"OUTGOING 400A DB"."L2_OUTINT (8CT4.1) 400A"
Int
"OUTGOING 400A DB"."L3_OUTINT (8CT4.2) 400A"
Int
"OUTGOING 400A DB"."SV_AM‐PERE 8K4 M/C 400A"
Int
Network 4: 8K8_400A LOAD MONITORING L1_L2_L3 SET BIT
Totally IntegratedAutomation Portal
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"8K8_400A_L1 LOAD LIMIT EXCCEEDED"
%M405.6%M405.6
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K8 M/
C 400A".Q
"OUTGOING 400A DB"."L1_OUT INT (8CT4)
400A"
"OUTGOING 400A DB"."SV_
AMPERE 8K8 M/C 400A"
"8K8_400A_L2 LOAD LIMIT EXCCEEDED"
%M405.7%M405.7
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K8 M/
C 400A".Q
"OUTGOING 400A DB"."L2_OUT INT (8CT8.
1) 400A"
"OUTGOING 400A DB"."SV_
AMPERE 8K8 M/C 400A"
"8K8_400A_L3 LOAD LIMIT EXCCEEDED"
%M406.0%M406.0
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 400A DB".
"INRUSH OFF DELAY_8K8 M/
C 400A".Q
"OUTGOING 400A DB"."L3_OUT INT (8CT8.
2) 400A"
"OUTGOING 400A DB"."SV_
AMPERE 8K8 M/C 400A"
"8K8_AUXILIARY FEED BACK FAULT"
%M412.2%M412.2
"OUTGOING 400A DB".
"8K8_AUXILIARY CHECK TIMER".
Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"8K8 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M1.0%M1.0
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"8K8 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M1.0 Bool
"8K8_400A_L1 LOAD LIMIT EX‐CCEEDED"
%M405.6 Bool
"8K8_400A_L2 LOAD LIMIT EX‐CCEEDED"
%M405.7 Bool
"8K8_400A_L3 LOAD LIMIT EX‐CCEEDED"
%M406.0 Bool
"8K8_AUXILIARY FEED BACKFAULT"
%M412.2 Bool
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 400A DB"."8K8_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 400A DB"."INRUSHOFF DELAY_8K8 M/C 400A".Q
Bool
"OUTGOING 400A DB"."L1_OUTINT (8CT4) 400A"
Int
"OUTGOING 400A DB"."L2_OUTINT (8CT8.1) 400A"
Int
"OUTGOING 400A DB"."L3_OUTINT (8CT8.2) 400A"
Int
"OUTGOING 400A DB"."SV_AM‐PERE 8K8 M/C 400A"
Int
Network 5: 9K1_400A LOAD MONITORING L1_L2_L3 SET BIT
Totally IntegratedAutomation Portal
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"9K1_400A_L1 LOAD LIMIT EXCCEEDED"
%M406.1%M406.1
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 400A DB".
"INRUSH OFF DELAY_9K1 M/
C 400A".Q
"OUTGOING 400A DB"."L1_
OUT INT (9CT1) 400A"
"OUTGOING 400A DB"."SV_
AMPERE 9K1 M/C 400A"
"9K1_400A_L2 LOAD LIMIT EXCCEEDED"
%M406.2%M406.2
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 400A DB".
"INRUSH OFF DELAY_9K1 M/
C 400A".Q
"OUTGOING 400A DB"."L2_OUT INT (9CT1.
1) 400A"
"OUTGOING 400A DB"."SV_
AMPERE 9K1 M/C 400A"
"9K1_400A_L3 LOAD LIMIT EXCCEEDED"
%M406.3%M406.3
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 400A DB".
"INRUSH OFF DELAY_9K1 M/
C 400A".Q
"OUTGOING 400A DB"."L3_OUT INT (9CT1.
2) 400A"
"OUTGOING 400A DB"."SV_
AMPERE 9K1 M/C 400A"
"9K1_AUXILIARY FEED BACK FAULT"
%M412.3%M412.3
"OUTGOING 400A DB".
"9K1_AUXILIARY CHECK TIMER".
Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"9K1 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M1.3%M1.3
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"9K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M1.3 Bool
"9K1_400A_L1 LOAD LIMIT EX‐CCEEDED"
%M406.1 Bool
"9K1_400A_L2 LOAD LIMIT EX‐CCEEDED"
%M406.2 Bool
"9K1_400A_L3 LOAD LIMIT EX‐CCEEDED"
%M406.3 Bool
"9K1_AUXILIARY FEED BACKFAULT"
%M412.3 Bool
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 400A DB"."9K1_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 400A DB"."INRUSHOFF DELAY_9K1 M/C 400A".Q
Bool
"OUTGOING 400A DB"."L1_OUTINT (9CT1) 400A"
Int
"OUTGOING 400A DB"."L2_OUTINT (9CT1.1) 400A"
Int
"OUTGOING 400A DB"."L3_OUTINT (9CT1.2) 400A"
Int
"OUTGOING 400A DB"."SV_AM‐PERE 9K1 M/C 400A"
Int
Network 6: 9K4_250A LOAD MONITORING L1_L2_L3 SET BIT
Totally IntegratedAutomation Portal
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"9K4_250A_L1 LOAD LIMIT EXCCEEDED"
%M406.4%M406.4
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 250A DB".
"INRUSH OFF DELAY_9K4 M/
C 250A".Q
"OUTGOING 250A DB"."L1_
OUT INT (9CT4) 250A"
"OUTGOING 250A DB"."SV_
AMPERE 9K4 M/C 250A"
"9K4_250A_L2 LOAD LIMIT EXCCEEDED"
%M406.5%M406.5
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 250A DB".
"INRUSH OFF DELAY_9K4 M/
C 250A".Q
"OUTGOING 250A DB"."L2_OUT INT (9CT4.
1) 250A"
"OUTGOING 250A DB"."SV_
AMPERE 9K4 M/C 250A"
"9K4_250A_L3 LOAD LIMIT EXCCEEDED"
%M406.6%M406.6
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 250A DB".
"INRUSH OFF DELAY_9K4 M/
C 250A".Q
"OUTGOING 250A DB"."L3_OUT INT (9CT4.
2) 250A"
"OUTGOING 250A DB"."SV_
AMPERE 9K4 M/C 250A"
"9K4_AUXILIARY FEED BACK FAULT"
%M412.4%M412.4
"OUTGOING 250A DB".
"9K4_AUXILIARY CHECK TIMER".
Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"9K4 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M8.0%M8.0
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"9K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M8.0 Bool
"9K4_250A_L1 LOAD LIMIT EX‐CCEEDED"
%M406.4 Bool
"9K4_250A_L2 LOAD LIMIT EX‐CCEEDED"
%M406.5 Bool
"9K4_250A_L3 LOAD LIMIT EX‐CCEEDED"
%M406.6 Bool
"9K4_AUXILIARY FEED BACKFAULT"
%M412.4 Bool
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 250A DB"."9K4_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 250A DB"."INRUSHOFF DELAY_9K4 M/C 250A".Q
Bool
"OUTGOING 250A DB"."L1_OUTINT (9CT4) 250A"
Int
"OUTGOING 250A DB"."L2_OUTINT (9CT4.1) 250A"
Int
"OUTGOING 250A DB"."L3_OUTINT (9CT4.2) 250A"
Int
"OUTGOING 250A DB"."SV_AM‐PERE 9K4 M/C 250A"
Int
Network 7: 9K8_250A LOAD MONITORING L1_L2_L3 SET BIT
Totally IntegratedAutomation Portal
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"9K8_250A_L1 LOAD LIMIT EXCCEEDED"
%M406.7%M406.7
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 250A DB".
"INRUSH OFF DELAY_9K8 M/
C 250A".Q
"OUTGOING 250A DB"."L1_
OUT INT (9CT8) 250A"
"OUTGOING 250A DB"."SV_
AMPERE 9K8 M/C 250A"
"9K8_250A_L2 LOAD LIMIT EXCCEEDED"
%M407.0%M407.0
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 250A DB".
"INRUSH OFF DELAY_9K8 M/
C 250A".Q
"OUTGOING 250A DB"."L2_OUT INT (9CT8.
1) 250A"
"OUTGOING 250A DB"."SV_
AMPERE 9K8 M/C 250A"
"9K8_250A_L3 LOAD LIMIT EXCCEEDED"
%M407.1%M407.1
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 250A DB".
"INRUSH OFF DELAY_9K8 M/
C 250A".Q
"OUTGOING 250A DB"."L3_OUT INT (9CT8.
2) 250A"
"OUTGOING 250A DB"."SV_
AMPERE 9K8 M/C 250A"
"9K8_AUXILIARY FEED BACK FAULT"
%M412.5%M412.5
"OUTGOING 250A DB".
"9K8_AUXILIARY CHECK TIMER".
Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"9K8 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M8.3%M8.3
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"9K8 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M8.3 Bool
"9K8_250A_L1 LOAD LIMIT EX‐CCEEDED"
%M406.7 Bool
"9K8_250A_L2 LOAD LIMIT EX‐CCEEDED"
%M407.0 Bool
"9K8_250A_L3 LOAD LIMIT EX‐CCEEDED"
%M407.1 Bool
"9K8_AUXILIARY FEED BACKFAULT"
%M412.5 Bool
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 250A DB"."9K8_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 250A DB"."INRUSHOFF DELAY_9K8 M/C 250A".Q
Bool
"OUTGOING 250A DB"."L1_OUTINT (9CT8) 250A"
Int
"OUTGOING 250A DB"."L2_OUTINT (9CT8.1) 250A"
Int
"OUTGOING 250A DB"."L3_OUTINT (9CT8.2) 250A"
Int
"OUTGOING 250A DB"."SV_AM‐PERE 9K8 M/C 250A"
Int
Network 8: 10K1_250A LOAD MONITORING L1_L2_L3 SET BIT
Totally IntegratedAutomation Portal
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"10K1_250A_L1 LOAD LIMIT EXCCEEDED"
%M407.2%M407.2
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 250A DB".
"INRUSH OFF DELAY_10K1 M/
C 250A".Q
"OUTGOING 250A DB"."L1_
OUT INT (10CT1) 250A"
"OUTGOING 250A DB"."SV_AMPERE 10K1
M/C 250A"
"10K1_250A_L2 LOAD LIMIT EXCCEEDED"
%M407.3%M407.3
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 250A DB".
"INRUSH OFF DELAY_10K1 M/
C 250A".Q
"OUTGOING 250A DB"."L2_
OUT INT (10CT1.1)
250A"
"OUTGOING 250A DB"."SV_AMPERE 10K1
M/C 250A"
"10K1_250A_L3 LOAD LIMIT EXCCEEDED"
%M407.4%M407.4
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 250A DB".
"INRUSH OFF DELAY_10K1 M/
C 250A".Q
"OUTGOING 250A DB"."L3_
OUT INT (10CT1.2)
250A"
"OUTGOING 250A DB"."SV_AMPERE 10K1
M/C 250A"
"10K1_AUXILIARY FEED BACK FAULT"
%M412.6%M412.6
"OUTGOING 250A DB".
"10K1_AUXILIARY
CHECK TIMER".Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"10K1 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M8.6%M8.6
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"10K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M8.6 Bool
"10K1_250A_L1 LOAD LIMIT EX‐CCEEDED"
%M407.2 Bool
"10K1_250A_L2 LOAD LIMIT EX‐CCEEDED"
%M407.3 Bool
"10K1_250A_L3 LOAD LIMIT EX‐CCEEDED"
%M407.4 Bool
"10K1_AUXILIARY FEED BACKFAULT"
%M412.6 Bool
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 250A DB"."10K1_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 250A DB"."INRUSHOFF DELAY_10K1 M/C 250A".Q
Bool
"OUTGOING 250A DB"."L1_OUTINT (10CT1) 250A"
Int
"OUTGOING 250A DB"."L2_OUTINT (10CT1.1) 250A"
Int
"OUTGOING 250A DB"."L3_OUTINT (10CT1.2) 250A"
Int
"OUTGOING 250A DB"."SV_AM‐PERE 10K1 M/C 250A"
Int
Totally IntegratedAutomation Portal
Network 9: 10K4_250A LOAD MONITORING L1_L2_L3 SET BIT
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"10K4_250A_L1 LOAD LIMIT EXCCEEDED"
%M407.5%M407.5
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 250A DB".
"INRUSH OFF DELAY_10K4 M/
C 250A".Q
"OUTGOING 250A DB"."L1_
OUT INT (10CT4) 250A"
"OUTGOING 250A DB"."SV_AMPERE 10K4
M/C 250A"
"10K4_250A_L2 LOAD LIMIT EXCCEEDED"
%M407.6%M407.6
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 250A DB".
"INRUSH OFF DELAY_10K4 M/
C 250A".Q
"OUTGOING 250A DB"."L2_
OUT INT (10CT4.1)
250A"
"OUTGOING 250A DB"."SV_AMPERE 10K4
M/C 250A"
"10K4_250A_L3 LOAD LIMIT EXCCEEDED"
%M407.7%M407.7
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 250A DB".
"INRUSH OFF DELAY_10K4 M/
C 250A".Q
"OUTGOING 250A DB"."L3_
OUT INT (10CT4.2)
250A"
"OUTGOING 250A DB"."SV_AMPERE 10K4
M/C 250A"
"10K4_AUXILIARY FEED BACK FAULT"
%M412.7%M412.7
"OUTGOING 250A DB".
"10K4_AUXILIARY
CHECK TIMER".Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"10K4 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M9.1%M9.1
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"10K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M9.1 Bool
"10K4_250A_L1 LOAD LIMIT EX‐CCEEDED"
%M407.5 Bool
"10K4_250A_L2 LOAD LIMIT EX‐CCEEDED"
%M407.6 Bool
"10K4_250A_L3 LOAD LIMIT EX‐CCEEDED"
%M407.7 Bool
"10K4_AUXILIARY FEED BACKFAULT"
%M412.7 Bool
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 250A DB"."10K4_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 250A DB"."INRUSHOFF DELAY_10K4 M/C 250A".Q
Bool
"OUTGOING 250A DB"."L1_OUTINT (10CT4) 250A"
Int
"OUTGOING 250A DB"."L2_OUTINT (10CT4.1) 250A"
Int
"OUTGOING 250A DB"."L3_OUTINT (10CT4.2) 250A"
Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"OUTGOING 250A DB"."SV_AM‐PERE 10K4 M/C 250A"
Int
Network 10: 11K1_100A LOAD MONITORING L1_L2_L3 SET BIT
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"11K1_100A_L1 LOAD LIMIT EXCCEEDED"
%M408.0%M408.0
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K1 M/
C 100A".Q
"OUTGOING 100A DB"."L1_
OUT INT (11CT1) 100A"
"OUTGOING 100A DB"."SV_AMPERE 11K1
M/C 100A"
"11K1_100A_L2 LOAD LIMIT EXCCEEDED"
%M408.1%M408.1
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K1 M/
C 100A".Q
"OUTGOING 100A DB"."L2_
OUT INT (11CT1.1)
100A"
"OUTGOING 100A DB"."SV_AMPERE 11K1
M/C 100A"
"11K1_100A_L3 LOAD LIMIT EXCCEEDED"
%M408.2%M408.2
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K1 M/
C 100A".Q
"OUTGOING 100A DB"."L3_
OUT INT (11CT1.2)
100A"
"OUTGOING 100A DB"."SV_AMPERE 11K1
M/C 100A"
"11K1_AUXILIARY FEED BACK FAULT"
%M413.0%M413.0
"OUTGOING 100A DB".
"11K1_AUXILIARY
CHECK TIMER".Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"11K1 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M9.4%M9.4
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"11K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M9.4 Bool
"11K1_100A_L1 LOAD LIMIT EX‐CCEEDED"
%M408.0 Bool
"11K1_100A_L2 LOAD LIMIT EX‐CCEEDED"
%M408.1 Bool
"11K1_100A_L3 LOAD LIMIT EX‐CCEEDED"
%M408.2 Bool
"11K1_AUXILIARY FEED BACKFAULT"
%M413.0 Bool
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 100A DB"."11K1_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 100A DB"."INRUSHOFF DELAY_11K1 M/C 100A".Q
Bool
"OUTGOING 100A DB"."L1_OUTINT (11CT1) 100A"
Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"OUTGOING 100A DB"."L2_OUTINT (11CT1.1) 100A"
Int
"OUTGOING 100A DB"."L3_OUTINT (11CT1.2) 100A"
Int
"OUTGOING 100A DB"."SV_AM‐PERE 11K1 M/C 100A"
Int
Network 11: 11K4_100A LOAD MONITORING L1_L2_L3 SET BIT
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"11K4_100A_L1 LOAD LIMIT EXCCEEDED"
%M408.3%M408.3
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K4 M/
C 100A".Q
"OUTGOING 100A DB"."L1_
OUT INT (11CT4) 100A"
"OUTGOING 100A DB"."SV_AMPERE 11K4
M/C 100A"
"11K4_100A_L2 LOAD LIMIT EXCCEEDED"
%M408.4%M408.4
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K4 M/
C 100A".Q
"OUTGOING 100A DB"."L2_
OUT INT (11CT4.1)
100A"
"OUTGOING 100A DB"."SV_AMPERE 11K4
M/C 100A"
"11K4_100A_L3 LOAD LIMIT EXCCEEDED"
%M408.5%M408.5
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K4 M/
C 100A".Q
"OUTGOING 100A DB"."L3_
OUT INT (11CT4.2)
100A"
"OUTGOING 100A DB"."SV_AMPERE 11K4
M/C 100A"
"11K4_AUXILIARY FEED BACK FAULT"
%M413.1%M413.1
"OUTGOING 100A DB".
"11K4_AUXILIARY
CHECK TIMER".Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"11K4 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M9.7%M9.7
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"11K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M9.7 Bool
"11K4_100A_L1 LOAD LIMIT EX‐CCEEDED"
%M408.3 Bool
"11K4_100A_L2 LOAD LIMIT EX‐CCEEDED"
%M408.4 Bool
"11K4_100A_L3 LOAD LIMIT EX‐CCEEDED"
%M408.5 Bool
"11K4_AUXILIARY FEED BACKFAULT"
%M413.1 Bool
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 100A DB"."11K4_AUX‐ILIARY CHECK TIMER".Q
Bool
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"OUTGOING 100A DB"."INRUSHOFF DELAY_11K4 M/C 100A".Q
Bool
"OUTGOING 100A DB"."L1_OUTINT (11CT4) 100A"
Int
"OUTGOING 100A DB"."L2_OUTINT (11CT4.1) 100A"
Int
"OUTGOING 100A DB"."L3_OUTINT (11CT4.2) 100A"
Int
"OUTGOING 100A DB"."SV_AM‐PERE 11K4 M/C 100A"
Int
Network 12: 11K8_100A LOAD MONITORING L1_L2_L3 SET BIT
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"11K8_100A_L1 LOAD LIMIT EXCCEEDED"
%M408.6%M408.6
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K8 M/
C 100A".Q
"OUTGOING 100A DB"."L1_
OUT INT (11CT8) 100A"
"OUTGOING 100A DB"."SV_AMPERE 11K8
M/C 100A"
"11K8_100A_L2 LOAD LIMIT EXCCEEDED"
%M408.7%M408.7
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K8 M/
C 100A".Q
"OUTGOING 100A DB"."L2_
OUT INT (11CT8.1)
100A"
"OUTGOING 100A DB"."SV_AMPERE 11K8
M/C 100A"
"11K8_100A_L3 LOAD LIMIT EXCCEEDED"
%M409.0%M409.0
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K8 M/
C 100A".Q
"OUTGOING 100A DB"."L3_
OUT INT (11CT8.2)
100A"
"OUTGOING 100A DB"."SV_AMPERE 11K8
M/C 100A"
"11K8_AUXILIARY FEED BACK FAULT"
%M413.2%M413.2
"OUTGOING 100A DB".
"11K8_AUXILIARY
CHECK TIMER".Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"11K8 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M12.2%M12.2
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"11K8 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M12.2 Bool
"11K8_100A_L1 LOAD LIMIT EX‐CCEEDED"
%M408.6 Bool
"11K8_100A_L2 LOAD LIMIT EX‐CCEEDED"
%M408.7 Bool
"11K8_100A_L3 LOAD LIMIT EX‐CCEEDED"
%M409.0 Bool
"11K8_AUXILIARY FEED BACKFAULT"
%M413.2 Bool
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 100A DB"."11K8_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 100A DB"."INRUSHOFF DELAY_11K8 M/C 100A".Q
Bool
"OUTGOING 100A DB"."L1_OUTINT (11CT8) 100A"
Int
"OUTGOING 100A DB"."L2_OUTINT (11CT8.1) 100A"
Int
"OUTGOING 100A DB"."L3_OUTINT (11CT8.2) 100A"
Int
"OUTGOING 100A DB"."SV_AM‐PERE 11K8 M/C 100A"
Int
Network 13: 12K1_100A LOAD MONITORING L1_L2_L3 SET BIT
SR
&
>=DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"12K1_100A_L1 LOAD LIMIT EXCCEEDED"
%M409.1%M409.1
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 100A DB".
"INRUSH OFF DELAY_12K1 M/
C 100A".Q
"OUTGOING 100A DB"."L1_
OUT INT (12CT1) 100A"
"OUTGOING 100A DB"."SV_AMPERE 12K1
M/C 100A"
"12K1_100A_L2 LOAD LIMIT EXCCEEDED"
%M409.2%M409.2
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 100A DB".
"INRUSH OFF DELAY_12K1 M/
C 100A".Q
"OUTGOING 100A DB"."L2_
OUT INT (12CT1.1)
100A"
"OUTGOING 100A DB"."SV_AMPERE 12K1
M/C 100A"
"12K1_100A_L3 LOAD LIMIT EXCCEEDED"
%M409.3%M409.3
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 100A DB".
"INRUSH OFF DELAY_12K1 M/
C 100A".Q
"OUTGOING 100A DB"."L3_
OUT INT (12CT1.2)
100A"
"OUTGOING 100A DB"."SV_AMPERE 12K1
M/C 100A"
"12K1_AUXILIARY FEED BACK FAULT"
%M413.3%M413.3
"OUTGOING 100A DB".
"12K1_AUXILIARY
CHECK TIMER".Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"12K1 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M12.5%M12.5
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"12K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M12.5 Bool
"12K1_100A_L1 LOAD LIMIT EX‐CCEEDED"
%M409.1 Bool
"12K1_100A_L2 LOAD LIMIT EX‐CCEEDED"
%M409.2 Bool
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"12K1_100A_L3 LOAD LIMIT EX‐CCEEDED"
%M409.3 Bool
"12K1_AUXILIARY FEED BACKFAULT"
%M413.3 Bool
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 100A DB"."12K1_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 100A DB"."INRUSHOFF DELAY_12K1 M/C 100A".Q
Bool
"OUTGOING 100A DB"."L1_OUTINT (12CT1) 100A"
Int
"OUTGOING 100A DB"."L2_OUTINT (12CT1.1) 100A"
Int
"OUTGOING 100A DB"."L3_OUTINT (12CT1.2) 100A"
Int
"OUTGOING 100A DB"."SV_AM‐PERE 12K1 M/C 100A"
Int
Network 14: 13K1_80A LOAD MONITORING L1_L2_L3 SET BIT
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"13K1_80A_L1 LOAD LIMIT EXCCEEDED"
%M409.4%M409.4
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 80_63_25A DB"."INRUSH OFF
DELAY_13K1 M/C 80A".Q
"OUTGOING 80_63_25A DB".
"L1_OUT INT (13CT1) 80A"
"OUTGOING 80_63_25A DB"."SV_AMPERE
13K1 M/C 80A"
"13K1_80A_L2 LOAD LIMIT EXCCEEDED"
%M409.5%M409.5
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 80_63_25A DB"."INRUSH OFF
DELAY_13K1 M/C 80A".Q
"OUTGOING 80_63_25A DB".
"L2_OUT INT (13CT1.1) 80A"
"OUTGOING 80_63_25A DB"."SV_AMPERE
13K1 M/C 80A"
"13K1_80A_L3 LOAD LIMIT EXCCEEDED"
%M409.6%M409.6
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 80_63_25A DB"."INRUSH OFF
DELAY_13K1 M/C 80A".Q
"OUTGOING 80_63_25A DB".
"L3_OUT INT (13CT1.2) 80A"
"OUTGOING 80_63_25A DB"."SV_AMPERE
13K1 M/C 80A"
"13K1_AUXILIARY FEED BACK FAULT"
%M413.4%M413.4
"OUTGOING 80_63_25A DB".
"13K1_AUXILIARY
CHECK TIMER".Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"13K1 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M13.0%M13.0
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"13K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M13.0 Bool
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"13K1_80A_L1 LOAD LIMIT EX‐CCEEDED"
%M409.4 Bool
"13K1_80A_L2 LOAD LIMIT EX‐CCEEDED"
%M409.5 Bool
"13K1_80A_L3 LOAD LIMIT EX‐CCEEDED"
%M409.6 Bool
"13K1_AUXILIARY FEED BACKFAULT"
%M413.4 Bool
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 80_63_25ADB"."13K1_AUXILIARY CHECK TIM‐ER".Q
Bool
"OUTGOING 80_63_25A DB"."IN‐RUSH OFF DELAY_13K1 M/C80A".Q
Bool
"OUTGOING 80_63_25ADB"."L1_OUT INT (13CT1) 80A"
Int
"OUTGOING 80_63_25ADB"."L2_OUT INT (13CT1.1) 80A"
Int
"OUTGOING 80_63_25ADB"."L3_OUT INT (13CT1.2) 80A"
Int
"OUTGOING 80_63_25ADB"."SV_AMPERE 13K1 M/C 80A"
Int
Network 15: 13K4_63A LOAD MONITORING L1_L2_L3 SET BIT
Totally IntegratedAutomation Portal
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"13K4_63A_L1 LOAD LIMIT EXCCEEDED"
%M409.7%M409.7
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 80_63_25A DB"."INRUSH OFF
DELAY_13K4 M/C 63A".Q
"OUTGOING 80_63_25A DB".
"L1_OUT INT (13CT4) 63A"
"OUTGOING 80_63_25A DB"."SV_AMPERE
13K4 M/C 63A"
"13K4_63A_L2 LOAD LIMIT EXCCEEDED"
%M410.0%M410.0
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 80_63_25A DB"."INRUSH OFF
DELAY_13K4 M/C 63A".Q
"OUTGOING 80_63_25A DB".
"L2_OUT INT (13CT4.1) 63A"
"OUTGOING 80_63_25A DB"."SV_AMPERE
13K4 M/C 63A"
"13K4_63A_L3 LOAD LIMIT EXCCEEDED"
%M410.1%M410.1
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 80_63_25A DB"."INRUSH OFF
DELAY_13K4 M/C 63A".Q
"OUTGOING 80_63_25A DB".
"L3_OUT INT (13CT4.2) 63A"
"OUTGOING 80_63_25A DB"."SV_AMPERE
13K4 M/C 63A"
"13K4_AUXILIARY FEED BACK FAULT"
%M413.5%M413.5
"OUTGOING 80_63_25A DB".
"13K4_AUXILIARY
CHECK TIMER".Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"13K4 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M13.3%M13.3
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"13K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M13.3 Bool
"13K4_63A_L1 LOAD LIMIT EX‐CCEEDED"
%M409.7 Bool
"13K4_63A_L2 LOAD LIMIT EX‐CCEEDED"
%M410.0 Bool
"13K4_63A_L3 LOAD LIMIT EX‐CCEEDED"
%M410.1 Bool
"13K4_AUXILIARY FEED BACKFAULT"
%M413.5 Bool
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 80_63_25ADB"."13K4_AUXILIARY CHECK TIM‐ER".Q
Bool
"OUTGOING 80_63_25A DB"."IN‐RUSH OFF DELAY_13K4 M/C63A".Q
Bool
"OUTGOING 80_63_25ADB"."L1_OUT INT (13CT4) 63A"
Int
"OUTGOING 80_63_25ADB"."L2_OUT INT (13CT4.1) 63A"
Int
"OUTGOING 80_63_25ADB"."L3_OUT INT (13CT4.2) 63A"
Int
"OUTGOING 80_63_25ADB"."SV_AMPERE 13K4 M/C 63A"
Int
Totally IntegratedAutomation Portal
Network 16: 13K8_25A LOAD MONITORING L1_L2_L3 SET BIT
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
>=
DInt
SR
&
"13K8_25A_L1 LOAD LIMIT EXCCEEDED"
%M410.2%M410.2
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 80_63_25A DB"."INRUSH OFF
DELAY_13K8 M/C 25A".Q
"OUTGOING 80_63_25A DB".
"L1_OUT INT (13CT8) 25A"
"OUTGOING 80_63_25A DB"."SV_AMPERE
13K8 M/C 25A"
"13K8_25A_L2 LOAD LIMIT EXCCEEDED"
%M410.3%M410.3
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 80_63_25A DB"."INRUSH OFF
DELAY_13K8 M/C 25A".Q
"OUTGOING 80_63_25A DB".
"L1_OUT INT (13CT8) 25A"
"OUTGOING 80_63_25A DB"."SV_AMPERE
13K8 M/C 25A"
"13K8_25A_L3 LOAD LIMIT EXCCEEDED"
%M410.4%M410.4
"MESSAGE RESET HMI"
%M150.0%M150.0
"OUTGOING 80_63_25A DB"."INRUSH OFF
DELAY_13K8 M/C 25A".Q
"OUTGOING 80_63_25A DB".
"L1_OUT INT (13CT8) 25A"
"OUTGOING 80_63_25A DB"."SV_AMPERE
13K8 M/C 25A"
"13K8_AUXILIARY FEED BACK FAULT"
%M413.6%M413.6
"OUTGOING 80_63_25A DB".
"13K8_AUXILIARY
CHECK TIMER".Q
"MESSAGE RESET HMI"
%M150.0%M150.0
"13K8 CONTACTOR ON
FEED BACK_MEMORY BIT"
%M13.6%M13.6
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
IN1
IN2
DInt
S
R1 Q
Symbol Address Type Comment
"13K8 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M13.6 Bool
"13K8_25A_L1 LOAD LIMIT EX‐CCEEDED"
%M410.2 Bool
"13K8_25A_L2 LOAD LIMIT EX‐CCEEDED"
%M410.3 Bool
"13K8_25A_L3 LOAD LIMIT EX‐CCEEDED"
%M410.4 Bool
"13K8_AUXILIARY FEED BACKFAULT"
%M413.6 Bool
"MESSAGE RESET HMI" %M150.0 Bool
"OUTGOING 80_63_25ADB"."13K8_AUXILIARY CHECK TIM‐ER".Q
Bool
"OUTGOING 80_63_25A DB"."IN‐RUSH OFF DELAY_13K8 M/C25A".Q
Bool
"OUTGOING 80_63_25ADB"."L1_OUT INT (13CT8) 25A"
Int
"OUTGOING 80_63_25ADB"."SV_AMPERE 13K8 M/C 25A"
Int
Totally IntegratedAutomation Portal
Network 17: MAINS ACB INCOMING SUPPLY FAILED
=
&
<=
Int
<=
Int
<=
Int
"MAINS ACB INCOMING
SUPPLY FAILED"
%M404.2%M404.2
"DSE-7320 HMI DB"."MAINS VOLTS (L1-N)
"
160
"DSE-7320 HMI DB"."MAINS VOLTS (L2-N)
"
160
"DSE-7320 HMI DB"."MAINS VOLTS (L2-N)
"
160
IN1
IN2
Int
IN1
IN2
Int
IN1
IN2
Int
Symbol Address Type Comment
"DSE-7320 HMI DB"."MAINS VOLTS(L1-N)"
Int
"DSE-7320 HMI DB"."MAINS VOLTS(L2-N)"
Int
"MAINS ACB INCOMING SUPPLYFAILED"
%M404.2 Bool
Network 18: GENERATOR ACB INCOMING SUPPLY FAILED
=
&
<=Int
<=
Int
<=
Int
"GENERATOR ACB INCOMING SUPPLY FAILED"
%M404.3%M404.3
"DSE-7320 HMI DB".
"GENERATOR VOLTS (L1-N)
"
160
"DSE-7320 HMI DB".
"GENERATOR VOLTS (L2-N)
"
160
"DSE-7320 HMI DB".
"GENERATOR VOLTS (L3-N)
"
160
IN1
IN2
Int
IN1
IN2
Int
IN1
IN2
Int
Symbol Address Type Comment
"DSE-7320 HMI DB"."GENERATORVOLTS (L1-N)"
Int
"DSE-7320 HMI DB"."GENERATORVOLTS (L2-N)"
Int
"DSE-7320 HMI DB"."GENERATORVOLTS (L3-N)"
Int
"GENERATOR ACB INCOMING SUP‐PLY FAILED"
%M404.3 Bool
Network 19: AUTO/MANUAL MODE SELECTION
Totally IntegratedAutomation Portal
Network 19: AUTO/MANUAL MODE SELECTION (1.1 / 2.1)
=
=
=
=
=
=
=
=
=
"8K1_400A_AUTO/MANUAL SELECTION MESSAGE BIT"
%M414.0%M414.0
"8K1_400A_AUTO/MANUAL
SELECTION"
%M160.0%M160.0
"8K4_400A_AUTO/MANUAL SELECTION MESSAGE BIT"
%M414.1%M414.1
"8K4_400A_AUTO/MANUAL
SELECTION"
%M160.1%M160.1
"8K8_400A_AUTO/MANUAL SELECTION MESSAGE BIT"
%M414.2%M414.2
"8K8_400A_AUTO/MANUAL
SELECTION"
%M160.2%M160.2
"9K1_400A_AUTO/MANUAL SELECTION MESSAGE BIT"
%M414.3%M414.3
"9K1_400A_AUTO/MANUAL
SELECTION"
%M160.3%M160.3
"9K4_250A_AUTO/MANUAL SELECTION MESSAGE BIT"
%M414.4%M414.4
"9K4_250A_AUTO/MANUAL
SELECTION"
%M160.4%M160.4
"9K8_250A_AUTO/MANUAL SELECTION MESSAGE BIT"
%M414.5%M414.5
"9K8_250A_AUTO/MANUAL
SELECTION"
%M160.5%M160.5
"10K1_250A_AUTO/MANUAL SELECTION MESSAGE BIT"
%M414.6%M414.6
"10K1_250A_AUTO/MANUAL
SELECTION"
%M160.6%M160.6
"10K4_250A_AUTO/MANUAL SELECTION MESSAGE BIT"
%M414.7%M414.7
"10K4_250A_AUTO/MANUAL
SELECTION"
%M160.7%M160.7
"11K1_100A_AUTO/MANUAL SELECTION MESSAGE BIT"
%M415.0%M415.0
"11K1_100A_AUTO/MANUAL
SELECTION"
%M161.0%M161.0
"11K4_100A_AUTO/MANUAL
%M415.1%M415.1
2.1 ( Page16 - 25)
Totally IntegratedAutomation Portal
Network 19: AUTO/MANUAL MODE SELECTION (2.1 / 2.1)
1.1 ( Page16 - 24)
=
=
=
=
=
=
AUTO/MANUAL SELECTION MESSAGE BIT"
"11K4_100A_AUTO/MANUAL
SELECTION"
%M161.1%M161.1
"11K8_100A_AUTO/MANUAL SELECTION MESSAGE BIT"
%M415.2%M415.2
"11K8_100A_AUTO/MANUAL
SELECTION"
%M161.2%M161.2
"12K1_100A_AUTO/MANUAL SELECTION MESSAGE BIT"
%M415.3%M415.3
"12K1_100A_AUTO/MANUAL
SELECTION"
%M161.3%M161.3
"13K1_80A_AUTO/MANUAL SELECTION MESSAGE BIT"
%M415.4%M415.4
"13K1_80A_AUTO/MANUAL
SELECTION"
%M161.4%M161.4
"13K4_63A_AUTO/MANUAL SELECTION MESSAGE BIT"
%M415.5%M415.5
"13K4_63A_AUTO/MANUAL
SELECTION"
%M161.5%M161.5
"13K8_25A_AUTO/MANUAL SELECTION MESSAGE BIT"
%M415.6%M415.6
"13K8_25A_AUTO/MANUAL
SELECTION"
%M161.6%M161.6
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"8K1_400A_AUTO/MANUAL SELEC‐TION MESSAGE BIT"
%M414.0 Bool
"8K1_400A_AUTO/MANUAL SELEC‐TION"
%M160.0 Bool
"8K4_400A_AUTO/MANUAL SELEC‐TION MESSAGE BIT"
%M414.1 Bool
"8K4_400A_AUTO/MANUAL SELEC‐TION"
%M160.1 Bool
"8K8_400A_AUTO/MANUAL SELEC‐TION MESSAGE BIT"
%M414.2 Bool
"8K8_400A_AUTO/MANUAL SELEC‐TION"
%M160.2 Bool
"9K1_400A_AUTO/MANUAL SELEC‐TION MESSAGE BIT"
%M414.3 Bool
"9K1_400A_AUTO/MANUAL SELEC‐TION"
%M160.3 Bool
"9K4_250A_AUTO/MANUAL SELEC‐TION MESSAGE BIT"
%M414.4 Bool
"9K4_250A_AUTO/MANUAL SELEC‐TION"
%M160.4 Bool
"9K8_250A_AUTO/MANUAL SELEC‐TION MESSAGE BIT"
%M414.5 Bool
"9K8_250A_AUTO/MANUAL SELEC‐TION"
%M160.5 Bool
"10K1_250A_AUTO/MANUAL SE‐LECTION MESSAGE BIT"
%M414.6 Bool
"10K1_250A_AUTO/MANUAL SE‐LECTION"
%M160.6 Bool
"10K4_250A_AUTO/MANUAL SE‐LECTION MESSAGE BIT"
%M414.7 Bool
"10K4_250A_AUTO/MANUAL SE‐LECTION"
%M160.7 Bool
"11K1_100A_AUTO/MANUAL SE‐LECTION MESSAGE BIT"
%M415.0 Bool
"11K1_100A_AUTO/MANUAL SE‐LECTION"
%M161.0 Bool
"11K4_100A_AUTO/MANUAL SE‐LECTION MESSAGE BIT"
%M415.1 Bool
"11K4_100A_AUTO/MANUAL SE‐LECTION"
%M161.1 Bool
"11K8_100A_AUTO/MANUAL SE‐LECTION MESSAGE BIT"
%M415.2 Bool
"11K8_100A_AUTO/MANUAL SE‐LECTION"
%M161.2 Bool
"12K1_100A_AUTO/MANUAL SE‐LECTION MESSAGE BIT"
%M415.3 Bool
"12K1_100A_AUTO/MANUAL SE‐LECTION"
%M161.3 Bool
"13K1_80A_AUTO/MANUAL SELEC‐TION MESSAGE BIT"
%M415.4 Bool
"13K1_80A_AUTO/MANUAL SELEC‐TION"
%M161.4 Bool
"13K4_63A_AUTO/MANUAL SELEC‐TION MESSAGE BIT"
%M415.5 Bool
"13K4_63A_AUTO/MANUAL SELEC‐TION"
%M161.5 Bool
"13K8_25A_AUTO/MANUAL SELEC‐TION MESSAGE BIT"
%M415.6 Bool
"13K8_25A_AUTO/MANUAL SELEC‐TION"
%M161.6 Bool
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
OUTGOING 250A FC [FC8]
OUTGOING 250A FC Properties
General
Name OUTGOING 250A FC Number 8 Type FC Language LAD
Numbering manual
Information
Title Author SARFRAZ Comment Family
Version 0.1 User-definedID
Name Data type Default value Comment
Input
Output
InOut
Temp
1 Real
2 Real
3 Real
4 Real
5 Real
6 Real
7 Real
8 Real
9 Real
10 Real
11 Real
12 Real
Constant
Return
OUTGOING 250A FC Void
Network 1: 9K4_250A MAGNETIC CONTACTOR OUTPUT 16R4
B type FEEDER CIRCUIT 140KW_250A
Totally IntegratedAutomation Portal
Network 1: 9K4_250A MAGNETIC CONTACTOR OUTPUT 16R4 (1.1 / 2.1)
TimeTON
SR
TimeTON
R
S
DInt>=
TimeTON
DInt>=
DInt>=
"9Q4 MCCB ON_MEMORY
BIT"
%M1.4%M1.4
"9Q4 MCCB TRIP_MEMORY
BIT"
%M1.5%M1.5
"9K4_250A_AUTO/MANUAL SELECTION"
%M160.4%M160.4
"9K4_250A_OVER LOADED
SET BIT"
%M103.0%M103.0
"9K4_AUXILIARY FEED BACK FAULT"
%M412.4%M412.4
"9K4 CONTACTOR ON OUTPUT 16R4"
%Q0.4%Q0.4
"9K4_250A_AUTO/MANUAL SELECTION"
%M160.4%M160.4
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"9K4 CONTACTOR ON OUTPUT 16R4"
%Q0.4%Q0.4 "9K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.0%M8.0"OUTGOING 250A DB".
"9K4_AUXILIARY CHECK TIMER"
t#2s
"9K4_250A_AUTO/MANUAL SELECTION"
%M160.4%M160.4
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"9K4_250A_REVERT SET BIT"
%M103.1%M103.1
"9K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.0%M8.0"9K4_250A_
OVER LOADED SET BIT"
%M103.0%M103.0
"9K4_250A_AUTO/MANUAL SELECTION"
%M160.4%M160.4
"9K4_250A_REVERT SET BIT"
%M103.1%M103.1
"9K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.0%M8.0 "OUTGOING 250A DB".
"9K4_AUXILIARY CHECK TIMER".
Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"9K4_250A_OVER LOADED
SET BIT"
%M103.0%M103.0
"OUTGOING 250A DB".
"TRIPPED REVERT ON DELAY_9K4
M/C 250A"
"OUTGOING 250A DB".
"TRIPPED REVERT ON DELAY_9K4 M/C 250A".PT
"OUTGOING 250A DB".
"TRIPPED REVERT ON DELAY_9K4 M/C 250A".Q
"9K4_250A_REVERT SET BIT"
%M103.1%M103.1
"OUTGOING 250A DB".
"INRUSH OFF DELAY_9K4 M/C 250A".Q
"9K4_250A_REVERT SET BIT"
%M103.1%M103.1
"OUTGOING 250A DB"."L1_OUT INT (9CT4)
250A"
"OUTGOING 250A DB"."SV_AMPERE 9K4 M/
C 250A"
"9K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.0%M8.0
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"9K4_250A_AUTO/MANUAL SELECTION"
%M160.4%M160.4
"OUTGOING 250A DB".
"INRUSH OFF DELAY_9K4 M/
C 250A"
"OUTGOING 250A DB".
"INRUSH OFF DELAY_9K4 M/C 250A".PT
"OUTGOING 250A DB"."L2_OUT INT (9CT4.
1) 250A"
"OUTGOING 250A DB"."SV_AMPERE 9K4 M/
C 250A"
"OUTGOING 250A DB"."L3_OUT INT (9CT4.
2) 250A"
"OUTGOING
"9K4_250A_AUTO/MANUAL SELECTION"
%M160.4%M160.4
"9K4_250A_MANUAL ON/
OFF"
%M170.4%M170.4
S
R1
Q
2.1 ( Page17 - 3)
Totally IntegratedAutomation Portal
Network 1: 9K4_250A MAGNETIC CONTACTOR OUTPUT 16R4 (2.1 / 2.1)
1.1 ( Page17 - 2)
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
"OUTGOING 250A DB"."SV_AMPERE 9K4 M/
C 250A"
0
"9CT4 (0....250A)"
%IW152%IW152
27648
#"1" 0
#"1"
250
"OUTGOING 250A DB"."L1_OUT INT (9CT4) 250A"
0
"9CT4.1 (0....250A)"
%IW154%IW154
27648
#"2" 0
#"2"
250
"OUTGOING 250A DB"."L2_OUT INT (9CT4.1) 250A"
0
"9CT4.2 (0....250A)":P
%IW156:P%IW156:P
27648
#"3" 0
#"3"
250
"OUTGOING 250A DB"."L3_OUT INT (9CT4.2) 250A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"9CT4 (0....250A)" %IW152 Int
"9CT4.1 (0....250A)" %IW154 Int
"9CT4.2 (0....250A)":P %IW156:P Int
"9K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M8.0 Bool
"9K4 CONTACTOR ON OUTPUT16R4"
%Q0.4 Bool
"9K4_250A_AUTO/MANUAL SELEC‐TION"
%M160.4 Bool
"9K4_250A_MANUAL ON/OFF" %M170.4 Bool
"9K4_250A_OVER LOADED SETBIT"
%M103.0 Bool
"9K4_250A_REVERT SET BIT" %M103.1 Bool
"9K4_AUXILIARY FEED BACKFAULT"
%M412.4 Bool
"9Q4 MCCB ON_MEMORY BIT" %M1.4 Bool
"9Q4 MCCB TRIP_MEMORY BIT" %M1.5 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 250A DB"."9K4_AUX‐ILIARY CHECK TIMER"
IEC_Timer
"OUTGOING 250A DB"."9K4_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 250A DB"."INRUSHOFF DELAY_9K4 M/C 250A"
IEC_Timer
"OUTGOING 250A DB"."INRUSHOFF DELAY_9K4 M/C 250A".PT
Time
"OUTGOING 250A DB"."INRUSHOFF DELAY_9K4 M/C 250A".Q
Bool
"OUTGOING 250A DB"."L1_OUTINT (9CT4) 250A"
Int
"OUTGOING 250A DB"."L2_OUTINT (9CT4.1) 250A"
Int
"OUTGOING 250A DB"."L3_OUTINT (9CT4.2) 250A"
Int
"OUTGOING 250A DB"."SV_AM‐PERE 9K4 M/C 250A"
Int
"OUTGOING 250A DB"."TRIPPEDREVERT ON DELAY_9K4 M/C 250A"
IEC_Timer
"OUTGOING 250A DB"."TRIPPEDREVERT ON DELAY_9K4 M/C250A".PT
Time
"OUTGOING 250A DB"."TRIPPEDREVERT ON DELAY_9K4 M/C250A".Q
Bool
#"1" Real
#"2" Real
#"3" Real
Network 2: 9K8_250A MAGNETIC CONTACTOR OUTPUT 16R4.1
Spare FEEDER CIRCUIT 140KW_250A
Totally IntegratedAutomation Portal
Network 2: 9K8_250A MAGNETIC CONTACTOR OUTPUT 16R4.1 (1.1 / 2.1)
Time
TON
SR
Time
TON
R
S
DInt
>=
Time
TON
DInt
>=
DInt
>=
"9Q8 MCCB ON_MEMORY
BIT"
%M8.1%M8.1
"9Q8 MCCB TRIP_MEMORY
BIT"
%M8.2%M8.2
"9K8_250A_AUTO/MANUAL SELECTION"
%M160.5%M160.5
"9K8_250A_OVER LOADED
SET BIT"
%M103.2%M103.2
"9K8_AUXILIARY FEED BACK FAULT"
%M412.5%M412.5 "9K8 CONTACTOR ON OUTPUT 16R4.
1"
%Q0.5%Q0.5
"9K8_250A_AUTO/MANUAL SELECTION"
%M160.5%M160.5
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7 "9K8 CONTACTOR ON OUTPUT 16R4.
1"
%Q0.5%Q0.5
"9K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.3%M8.3"OUTGOING 250A DB".
"9K8_AUXILIARY CHECK TIMER"
t#2s
"9K8_250A_AUTO/MANUAL SELECTION"
%M160.5%M160.5
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"9K8_250A_REVERT SET BIT"
%M103.3%M103.3
"9K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.3%M8.3"9K8_250A_
OVER LOADED SET BIT"
%M103.2%M103.2
"9K8_250A_AUTO/MANUAL SELECTION"
%M160.5%M160.5
"9K8_250A_REVERT SET BIT"
%M103.3%M103.3
"9K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.3%M8.3 "OUTGOING 250A DB".
"9K8_AUXILIARY CHECK TIMER".
Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"9K8_250A_OVER LOADED
SET BIT"
%M103.2%M103.2
"OUTGOING 250A DB".
"TRIPPED REVERT ON DELAY_9K8
M/C 250A"
"OUTGOING 250A DB".
"TRIPPED REVERT ON DELAY_9K8 M/C 250A".PT
"OUTGOING 250A DB".
"TRIPPED REVERT ON DELAY_9K8 M/C 250A".Q
"9K8_250A_REVERT SET BIT"
%M103.3%M103.3
"OUTGOING 250A DB".
"INRUSH OFF DELAY_9K8 M/C 250A".Q
"9K8_250A_REVERT SET BIT"
%M103.3%M103.3
"OUTGOING 250A DB"."L1_OUT INT (9CT8)
250A"
"OUTGOING 250A DB"."SV_AMPERE 9K8 M/
C 250A"
"9K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.3%M8.3
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"9K8_250A_AUTO/MANUAL SELECTION"
%M160.5%M160.5
"OUTGOING 250A DB".
"INRUSH OFF DELAY_9K8 M/
C 250A"
"OUTGOING 250A DB".
"INRUSH OFF DELAY_9K8 M/C 250A".PT
"OUTGOING 250A DB"."L2_OUT INT (9CT8.
1) 250A"
"OUTGOING 250A DB"."SV_AMPERE 9K8 M/
C 250A"
"OUTGOING 250A DB"."L3_OUT INT (9CT8.
2) 250A"
"9K8_250A_AUTO/MANUAL SELECTION"
%M160.5%M160.5
"9K8_250A_MANUAL ON/
OFF"
%M170.5%M170.5
S
R1
Q
2.1 ( Page17 - 6)
Totally IntegratedAutomation Portal
Network 2: 9K8_250A MAGNETIC CONTACTOR OUTPUT 16R4.1 (2.1 / 2.1)
1.1 ( Page17 - 5)DInt
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
"OUTGOING 250A DB"."SV_AMPERE 9K8 M/
C 250A"
0
"9CT8 (0....250A)"
%IW158%IW158
27648
#"4" 0
#"4"
250
"OUTGOING 250A DB"."L1_OUT INT (9CT8) 250A"
0
"9CT8.1 (0....250A)"
%IW160%IW160
27648
#"5" 0
#"5"
250
"OUTGOING 250A DB"."L2_OUT INT (9CT8.1) 250A"
0
"9CT8.2 (0....250A)":P
%IW162:P%IW162:P
27648
#"6" 0
#"6"
250
"OUTGOING 250A DB"."L3_OUT INT (9CT8.2) 250A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"9CT8 (0....250A)" %IW158 Int
"9CT8.1 (0....250A)" %IW160 Int
"9CT8.2 (0....250A)":P %IW162:P Int
"9K8 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M8.3 Bool
"9K8 CONTACTOR ON OUTPUT16R4.1"
%Q0.5 Bool
"9K8_250A_AUTO/MANUAL SELEC‐TION"
%M160.5 Bool
"9K8_250A_MANUAL ON/OFF" %M170.5 Bool
"9K8_250A_OVER LOADED SETBIT"
%M103.2 Bool
"9K8_250A_REVERT SET BIT" %M103.3 Bool
"9K8_AUXILIARY FEED BACKFAULT"
%M412.5 Bool
"9Q8 MCCB ON_MEMORY BIT" %M8.1 Bool
"9Q8 MCCB TRIP_MEMORY BIT" %M8.2 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 250A DB"."9K8_AUX‐ILIARY CHECK TIMER"
IEC_Timer
"OUTGOING 250A DB"."9K8_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 250A DB"."INRUSHOFF DELAY_9K8 M/C 250A"
IEC_Timer
"OUTGOING 250A DB"."INRUSHOFF DELAY_9K8 M/C 250A".PT
Time
"OUTGOING 250A DB"."INRUSHOFF DELAY_9K8 M/C 250A".Q
Bool
"OUTGOING 250A DB"."L1_OUTINT (9CT8) 250A"
Int
"OUTGOING 250A DB"."L2_OUTINT (9CT8.1) 250A"
Int
"OUTGOING 250A DB"."L3_OUTINT (9CT8.2) 250A"
Int
"OUTGOING 250A DB"."SV_AM‐PERE 9K8 M/C 250A"
Int
"OUTGOING 250A DB"."TRIPPEDREVERT ON DELAY_9K8 M/C 250A"
IEC_Timer
"OUTGOING 250A DB"."TRIPPEDREVERT ON DELAY_9K8 M/C250A".PT
Time
"OUTGOING 250A DB"."TRIPPEDREVERT ON DELAY_9K8 M/C250A".Q
Bool
#"4" Real
#"5" Real
#"6" Real
Network 3: 10K1_250A MAGNETIC CONTACTOR OUTPUT 16R5
Spare FEEDER CIRCUIT 140KW_250A
Totally IntegratedAutomation Portal
Network 3: 10K1_250A MAGNETIC CONTACTOR OUTPUT 16R5 (1.1 / 2.1)
Time
TON
SR
Time
TON
R
S
DInt
>=
Time
TON
DInt>=
"10Q1 MCCB ON_MEMORY
BIT"
%M8.4%M8.4
"10Q1 MCCB TRIP_MEMORY
BIT"
%M8.5%M8.5
"10K1_250A_AUTO/MANUAL SELECTION"
%M160.6%M160.6
"10K1_250A_OVER LOADED
SET BIT"
%M103.4%M103.4
"10K1_AUXILIARY FEED BACK FAULT"
%M412.6%M412.6
"10K1 CONTACTOR ON OUTPUT 16R5"
%Q0.6%Q0.6
"10K1_250A_AUTO/MANUAL SELECTION"
%M160.6%M160.6
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"10K1 CONTACTOR ON OUTPUT 16R5"
%Q0.6%Q0.6 "10K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.6%M8.6 "OUTGOING 250A DB"."10K1_
AUXILIARY CHECK TIMER"
t#2s
"10K1_250A_AUTO/MANUAL SELECTION"
%M160.6%M160.6
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"10K1_250A_REVERT SET BIT"
%M103.5%M103.5
"10K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.6%M8.6"10K1_250A_OVER LOADED
SET BIT"
%M103.4%M103.4
"10K1_250A_AUTO/MANUAL SELECTION"
%M160.6%M160.6
"10K1_250A_REVERT SET BIT"
%M103.5%M103.5
"10K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.6%M8.6
"OUTGOING 250A DB"."10K1_
AUXILIARY CHECK TIMER".
Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"10K1_250A_OVER LOADED
SET BIT"
%M103.4%M103.4
"OUTGOING 250A DB".
"TRIPPED REVERT ON DELAY_10K1 M/C 250A"
"OUTGOING 250A DB".
"TRIPPED REVERT ON DELAY_10K1 M/C 250A".PT
"OUTGOING 250A DB".
"TRIPPED REVERT ON DELAY_10K1 M/C 250A".Q
"10K1_250A_REVERT SET BIT"
%M103.5%M103.5
"OUTGOING 250A DB".
"INRUSH OFF DELAY_10K1 M/
C 250A".Q"10K1_250A_REVERT SET BIT"
%M103.5%M103.5
"OUTGOING 250A DB"."L1_OUT INT (
10CT1) 250A"
"OUTGOING 250A DB"."SV_AMPERE 10K1 M/C 250A"
"10K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M8.6%M8.6
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"OUTGOING 250A DB".
"INRUSH OFF DELAY_10K1 M/
C 250A"
"OUTGOING 250A DB".
"INRUSH OFF DELAY_10K1 M/C 250A".PT
"OUTGOING 250A DB"."L2_OUT INT (10CT1.1) 250A"
"OUTGOING 250A DB"."SV_AMPERE 10K1 M/C 250A"
"OUTGOING 250A DB"."L3_OUT INT (10CT1.2) 250A"
"10K1_250A_AUTO/MANUAL SELECTION"
%M160.6%M160.6
"10K1_250A_MANUAL ON/
OFF"
%M170.6%M170.6
S
R1
Q
2.1 ( Page17 - 9)
Totally IntegratedAutomation Portal
Network 3: 10K1_250A MAGNETIC CONTACTOR OUTPUT 16R5 (2.1 / 2.1)
1.1 ( Page17 - 8)
DInt
>=
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
250A"
"OUTGOING 250A DB"."SV_AMPERE 10K1 M/C 250A"
0
"10CT1 (0....250A)"
%IW164%IW164
27648
#"7" 0
#"7"
250
"OUTGOING 250A DB"."L1_OUT INT (10CT1) 250A"
0
"10CT1.1 (0....250A)"
%IW166%IW166
27648
#"8" 0
#"8"
250
"OUTGOING 250A DB"."L2_OUT INT (10CT1.1) 250A"
0
"10CT1.2 (0....250A)":P
%IW168:P%IW168:P
27648
#"9" 0
#"9"
250
"OUTGOING 250A DB"."L3_OUT INT (10CT1.2) 250A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"10CT1 (0....250A)" %IW164 Int
"10CT1.1 (0....250A)" %IW166 Int
"10CT1.2 (0....250A)":P %IW168:P Int
"10K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M8.6 Bool
"10K1 CONTACTOR ON OUTPUT16R5"
%Q0.6 Bool
"10K1_250A_AUTO/MANUAL SE‐LECTION"
%M160.6 Bool
"10K1_250A_MANUAL ON/OFF" %M170.6 Bool
"10K1_250A_OVER LOADED SETBIT"
%M103.4 Bool
"10K1_250A_REVERT SET BIT" %M103.5 Bool
"10K1_AUXILIARY FEED BACKFAULT"
%M412.6 Bool
"10Q1 MCCB ON_MEMORY BIT" %M8.4 Bool
"10Q1 MCCB TRIP_MEMORY BIT" %M8.5 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 250A DB"."10K1_AUX‐ILIARY CHECK TIMER"
IEC_Timer
"OUTGOING 250A DB"."10K1_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 250A DB"."INRUSHOFF DELAY_10K1 M/C 250A"
IEC_Timer
"OUTGOING 250A DB"."INRUSHOFF DELAY_10K1 M/C 250A".PT
Time
"OUTGOING 250A DB"."INRUSHOFF DELAY_10K1 M/C 250A".Q
Bool
"OUTGOING 250A DB"."L1_OUTINT (10CT1) 250A"
Int
"OUTGOING 250A DB"."L2_OUTINT (10CT1.1) 250A"
Int
"OUTGOING 250A DB"."L3_OUTINT (10CT1.2) 250A"
Int
"OUTGOING 250A DB"."SV_AM‐PERE 10K1 M/C 250A"
Int
"OUTGOING 250A DB"."TRIPPEDREVERT ON DELAY_10K1 M/C250A"
IEC_Timer
"OUTGOING 250A DB"."TRIPPEDREVERT ON DELAY_10K1 M/C250A".PT
Time
"OUTGOING 250A DB"."TRIPPEDREVERT ON DELAY_10K1 M/C250A".Q
Bool
#"7" Real
#"8" Real
#"9" Real
Network 4: 10K4_250A MAGNETIC CONTACTOR OUTPUT 16R5.1
Spare FEEDER CIRCUIT 140KW_250A
Totally IntegratedAutomation Portal
Network 4: 10K4_250A MAGNETIC CONTACTOR OUTPUT 16R5.1 (1.1 / 2.1)
TimeTON
SR
TimeTON
R
S
DInt>=
TimeTON
DInt
>=
"10Q4 MCCB ON_MEMORY
BIT"
%M8.7%M8.7
"10Q4 MCCB TRIP_MEMORY
BIT"
%M9.0%M9.0
"10K4_250A_AUTO/MANUAL SELECTION"
%M160.7%M160.7
"10K4_250A_OVER LOADED
SET BIT"
%M103.6%M103.6
"10K4_AUXILIARY FEED BACK FAULT"
%M412.7%M412.7 "10K4 CONTACTOR ON OUTPUT 16R5.
1"
%Q0.7%Q0.7
"10K4_250A_AUTO/MANUAL SELECTION"
%M160.7%M160.7
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7 "10K4 CONTACTOR ON OUTPUT 16R5.
1"
%Q0.7%Q0.7
"10K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.1%M9.1"OUTGOING 250A DB"."10K4_
AUXILIARY CHECK TIMER"
t#2s
"10K4_250A_AUTO/MANUAL SELECTION"
%M160.7%M160.7
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"10K4_250A_REVERT SET BIT"
%M103.7%M103.7
"10K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.1%M9.1"10K4_250A_OVER LOADED
SET BIT"
%M103.6%M103.6
"10K4_250A_AUTO/MANUAL SELECTION"
%M160.7%M160.7
"10K4_250A_REVERT SET BIT"
%M103.7%M103.7
"10K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.1%M9.1
"OUTGOING 250A DB"."10K4_
AUXILIARY CHECK TIMER".
Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"10K4_250A_OVER LOADED
SET BIT"
%M103.6%M103.6
"OUTGOING 250A DB".
"TRIPPED REVERT ON DELAY_10K4 M/C 250A"
"OUTGOING 250A DB".
"TRIPPED REVERT ON DELAY_10K4 M/C 250A".PT
"OUTGOING 250A DB".
"TRIPPED REVERT ON DELAY_10K4 M/C 250A".Q
"10K4_250A_REVERT SET BIT"
%M103.7%M103.7
"OUTGOING 250A DB".
"INRUSH OFF DELAY_10K4 M/
C 250A".Q"10K4_250A_REVERT SET BIT"
%M103.7%M103.7
"OUTGOING 250A DB"."L1_OUT INT (
10CT4) 250A"
"OUTGOING 250A DB"."SV_AMPERE 10K4 M/C 250A"
"10K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.1%M9.1
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"10K4_250A_AUTO/MANUAL SELECTION"
%M160.7%M160.7
"OUTGOING 250A DB".
"INRUSH OFF DELAY_10K4 M/
C 250A"
"OUTGOING 250A DB".
"INRUSH OFF DELAY_10K4 M/C 250A".PT
"OUTGOING 250A DB"."L2_OUT INT (10CT4.1) 250A"
"OUTGOING 250A DB"."SV_AMPERE 10K4 M/C 250A"
"OUTGOING 250A DB"."L3_OUT INT (10CT4.2)
"10K4_250A_AUTO/MANUAL SELECTION"
%M160.7%M160.7
"10K4_250A_MANUAL ON/
OFF"
%M170.7%M170.7
S
R1
Q
2.1 ( Page17 - 12)
Totally IntegratedAutomation Portal
Network 4: 10K4_250A MAGNETIC CONTACTOR OUTPUT 16R5.1 (2.1 / 2.1)
1.1 ( Page17 - 11)
DInt>=
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_XtoInt Real
SCALE_XtoReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
10CT4.2) 250A"
"OUTGOING 250A DB"."SV_AMPERE 10K4 M/C 250A"
0
"10CT4 (0....250A)"
%IW170%IW170
27648
#"10" 0
#"10"
250
"OUTGOING 250A DB"."L1_OUT INT (10CT4) 250A"
0
"10CT4.1 (0....250A)"
%IW172%IW172
27648
#"11" 0
#"11"
250
"OUTGOING 250A DB"."L2_OUT INT (10CT4.1) 250A"
0
"10CT4.2 (0....250A)":P
%IW174:P%IW174:P
27648
#"12" 0
#"12"
250
"OUTGOING 250A DB"."L3_OUT INT (10CT4.2) 250A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"10CT4 (0....250A)" %IW170 Int
"10CT4.1 (0....250A)" %IW172 Int
"10CT4.2 (0....250A)":P %IW174:P Int
"10K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M9.1 Bool
"10K4 CONTACTOR ON OUTPUT16R5.1"
%Q0.7 Bool
"10K4_250A_AUTO/MANUAL SE‐LECTION"
%M160.7 Bool
"10K4_250A_MANUAL ON/OFF" %M170.7 Bool
"10K4_250A_OVER LOADED SETBIT"
%M103.6 Bool
"10K4_250A_REVERT SET BIT" %M103.7 Bool
"10K4_AUXILIARY FEED BACKFAULT"
%M412.7 Bool
"10Q4 MCCB ON_MEMORY BIT" %M8.7 Bool
"10Q4 MCCB TRIP_MEMORY BIT" %M9.0 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 250A DB"."10K4_AUX‐ILIARY CHECK TIMER"
IEC_Timer
"OUTGOING 250A DB"."10K4_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 250A DB"."INRUSHOFF DELAY_10K4 M/C 250A"
IEC_Timer
"OUTGOING 250A DB"."INRUSHOFF DELAY_10K4 M/C 250A".PT
Time
"OUTGOING 250A DB"."INRUSHOFF DELAY_10K4 M/C 250A".Q
Bool
"OUTGOING 250A DB"."L1_OUTINT (10CT4) 250A"
Int
"OUTGOING 250A DB"."L2_OUTINT (10CT4.1) 250A"
Int
"OUTGOING 250A DB"."L3_OUTINT (10CT4.2) 250A"
Int
"OUTGOING 250A DB"."SV_AM‐PERE 10K4 M/C 250A"
Int
"OUTGOING 250A DB"."TRIPPEDREVERT ON DELAY_10K4 M/C250A"
IEC_Timer
"OUTGOING 250A DB"."TRIPPEDREVERT ON DELAY_10K4 M/C250A".PT
Time
"OUTGOING 250A DB"."TRIPPEDREVERT ON DELAY_10K4 M/C250A".Q
Bool
#"10" Real
#"11" Real
#"12" Real
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
OUTGOING 250A DB [DB12]
OUTGOING 250A DB Properties
General
Name OUTGOING 250A DB Number 12 Type DB Language DB
Numbering manual
Information
Title Author SARFRAZ Comment Family
Version 0.1 User-definedID
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Static
L1_OUT INT (9CT4) 250A Int 0 False True True False
L2_OUT INT (9CT4.1) 250A Int 0 False True True False
L3_OUT INT (9CT4.2) 250A Int 0 False True True False
SV_AMPERE 9K4 M/C 250A Int 0 True True True False
INRUSH OFF DELAY_9K4 M/C250A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
TRIPPED REVERT ON DELAY_9K4M/C 250A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
9K4_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
L1_OUT INT (9CT8) 250A Int 0 False True True False
L2_OUT INT (9CT8.1) 250A Int 0 False True True False
L3_OUT INT (9CT8.2) 250A Int 0 False True True False
SV_AMPERE 9K8 M/C 250A Int 0 True True True False
INRUSH OFF DELAY_9K8 M/C250A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
TRIPPED REVERT ON DELAY_9K8M/C 250A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
9K8_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
L1_OUT INT (10CT1) 250A Int 0 False True True False
L2_OUT INT (10CT1.1) 250A Int 0 False True True False
L3_OUT INT (10CT1.2) 250A Int 0 False True True False
SV_AMPERE 10K1 M/C 250A Int 0 True True True False
INRUSH OFF DELAY_10K1 M/C250A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
Totally IntegratedAutomation Portal
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
TRIPPED REVERT ON DE‐LAY_10K1 M/C 250A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
10K1_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
L1_OUT INT (10CT4) 250A Int 0 False True True False
L2_OUT INT (10CT4.1) 250A Int 0 False True True False
L3_OUT INT (10CT4.2) 250A Int 0 False True True False
SV_AMPERE 10K4 M/C 250A Int 0 True True True False
INRUSH OFF DELAY_10K4 M/C250A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
TRIPPED REVERT ON DE‐LAY_10K4 M/C 250A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
10K4_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
OUTGOING 100A FC [FC7]
OUTGOING 100A FC Properties
General
Name OUTGOING 100A FC Number 7 Type FC Language LAD
Numbering manual
Information
Title Author SARFRAZ Comment Family
Version 0.1 User-definedID
Name Data type Default value Comment
Input
Output
InOut
Temp
1 Real
2 Real
3 Real
4 Real
5 Real
6 Real
7 Real
8 Real
9 Real
10 Real
11 Real
12 Real
Constant
Return
OUTGOING 100A FC Void
Network 1: 11K1_100A MAGNETIC CONTACTOR OUTPUT 16R6
Servant Quarters FEEDER CIRCUIT 59KW_100A
Totally IntegratedAutomation Portal
Network 1: 11K1_100A MAGNETIC CONTACTOR OUTPUT 16R6 (1.1 / 2.1)
Time
TON
SR
Time
TON
R
S
DInt
>=
Time
TON
DInt>=
"11Q1 MCCB ON_MEMORY
BIT"
%M9.2%M9.2
"11Q1 MCCB TRIP_MEMORY
BIT"
%M9.3%M9.3
"11K1_100A_AUTO/MANUAL SELECTION"
%M161.0%M161.0
"11K1_100A_OVER LOADED
SET BIT"
%M104.0%M104.0
"11K1_AUXILIARY FEED BACK FAULT"
%M413.0%M413.0
"11K1 CONTACTOR ON OUTPUT 16R6"
%Q1.0%Q1.0
"11K1_100A_AUTO/MANUAL SELECTION"
%M161.0%M161.0
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"11K1 CONTACTOR ON OUTPUT 16R6"
%Q1.0%Q1.0 "11K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.4%M9.4 "OUTGOING 100A DB"."11K1_
AUXILIARY CHECK TIMER"
t#2s
"11K1_100A_AUTO/MANUAL SELECTION"
%M161.0%M161.0
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"11K1_100A_REVERT SET BIT"
%M104.1%M104.1
"11K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.4%M9.4"11K1_100A_OVER LOADED
SET BIT"
%M104.0%M104.0
"11K1_100A_AUTO/MANUAL SELECTION"
%M161.0%M161.0
"11K1_100A_REVERT SET BIT"
%M104.1%M104.1
"11K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.4%M9.4
"OUTGOING 100A DB"."11K1_
AUXILIARY CHECK TIMER".
Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"11K1_100A_OVER LOADED
SET BIT"
%M104.0%M104.0
"OUTGOING 100A DB".
"TRIPPED REVERT ON DELAY_11K1 M/C 100A"
"OUTGOING 100A DB".
"TRIPPED REVERT ON DELAY_11K1 M/C 100A".PT
"OUTGOING 100A DB".
"TRIPPED REVERT ON DELAY_11K1 M/C 100A".Q
"11K1_100A_REVERT SET BIT"
%M104.1%M104.1
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K1 M/
C 100A".Q"11K1_100A_REVERT SET BIT"
%M104.1%M104.1
"OUTGOING 100A DB"."L1_OUT INT (
11CT1) 100A"
"OUTGOING 100A DB"."SV_AMPERE 11K1 M/C 100A"
"11K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.4%M9.4
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"11K1_100A_AUTO/MANUAL SELECTION"
%M161.0%M161.0
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K1 M/
C 100A"
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K1 M/C 100A".PT
"OUTGOING 100A DB"."L2_OUT INT (11CT1.1) 100A"
"OUTGOING 100A DB"."SV_AMPERE 11K1 M/C 100A"
"OUTGOING 100A DB"."L3_OUT INT (11CT1.2) 100A"
"11K1_100A_AUTO/MANUAL SELECTION"
%M161.0%M161.0
"11K1_100A_MANUAL ON/
OFF"
%M171.0%M171.0
S
R1
Q
2.1 ( Page19 - 3)
Totally IntegratedAutomation Portal
Network 1: 11K1_100A MAGNETIC CONTACTOR OUTPUT 16R6 (2.1 / 2.1)
1.1 ( Page19 - 2)
DInt
>=
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
100A"
"OUTGOING 100A DB"."SV_AMPERE 11K1 M/C 100A"
0
"11CT1 (0....100A)"
%IW176%IW176
27648
#"1" 0
#"1"
100
"OUTGOING 100A DB"."L1_OUT INT (11CT1) 100A"
0
"11CT1.1 (0....100A)"
%IW178%IW178
27648
#"2" 0
#"2"
100
"OUTGOING 100A DB"."L2_OUT INT (11CT1.1) 100A"
0
"11CT1.2 (0....100A)"
%IW180%IW180
27648
#"3" 0
#"3"
100
"OUTGOING 100A DB"."L3_OUT INT (11CT1.2) 100A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"11CT1 (0....100A)" %IW176 Int
"11CT1.1 (0....100A)" %IW178 Int
"11CT1.2 (0....100A)" %IW180 Int
"11K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M9.4 Bool
"11K1 CONTACTOR ON OUTPUT16R6"
%Q1.0 Bool
"11K1_100A_AUTO/MANUAL SE‐LECTION"
%M161.0 Bool
"11K1_100A_MANUAL ON/OFF" %M171.0 Bool
"11K1_100A_OVER LOADED SETBIT"
%M104.0 Bool
"11K1_100A_REVERT SET BIT" %M104.1 Bool
"11K1_AUXILIARY FEED BACKFAULT"
%M413.0 Bool
"11Q1 MCCB ON_MEMORY BIT" %M9.2 Bool
"11Q1 MCCB TRIP_MEMORY BIT" %M9.3 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 100A DB"."11K1_AUX‐ILIARY CHECK TIMER"
IEC_Timer
"OUTGOING 100A DB"."11K1_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 100A DB"."INRUSHOFF DELAY_11K1 M/C 100A"
IEC_Timer
"OUTGOING 100A DB"."INRUSHOFF DELAY_11K1 M/C 100A".PT
Time
"OUTGOING 100A DB"."INRUSHOFF DELAY_11K1 M/C 100A".Q
Bool
"OUTGOING 100A DB"."L1_OUTINT (11CT1) 100A"
Int
"OUTGOING 100A DB"."L2_OUTINT (11CT1.1) 100A"
Int
"OUTGOING 100A DB"."L3_OUTINT (11CT1.2) 100A"
Int
"OUTGOING 100A DB"."SV_AM‐PERE 11K1 M/C 100A"
Int
"OUTGOING 100A DB"."TRIPPEDREVERT ON DELAY_11K1 M/C100A"
IEC_Timer
"OUTGOING 100A DB"."TRIPPEDREVERT ON DELAY_11K1 M/C100A".PT
Time
"OUTGOING 100A DB"."TRIPPEDREVERT ON DELAY_11K1 M/C100A".Q
Bool
#"1" Real
#"2" Real
#"3" Real
Network 2: 11K4_100A MAGNETIC CONTACTOR OUTPUT 16R6.1
Bungalow-1 FEEDER CIRCUIT 59KW_100A
Totally IntegratedAutomation Portal
Network 2: 11K4_100A MAGNETIC CONTACTOR OUTPUT 16R6.1 (1.1 / 2.1)
TimeTON
SR
TimeTON
R
S
DInt>=
TimeTON
DInt
>=
"11Q4 MCCB ON_MEMORY
BIT"
%M9.5%M9.5
"11Q4 MCCB TRIP_MEMORY
BIT"
%M9.6%M9.6
"11K4_100A_AUTO/MANUAL SELECTION"
%M161.1%M161.1
"11K4_100A_OVER LOADED
SET BIT"
%M104.2%M104.2
"11K4_AUXILIARY FEED BACK FAULT"
%M413.1%M413.1 "11K4 CONTACTOR ON OUTPUT 16R6.
1"
%Q1.1%Q1.1
"11K4_100A_AUTO/MANUAL SELECTION"
%M161.1%M161.1
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7 "11K4 CONTACTOR ON OUTPUT 16R6.
1"
%Q1.1%Q1.1
"11K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.7%M9.7"OUTGOING 100A DB"."11K4_
AUXILIARY CHECK TIMER"
t#2s
"11K4_100A_AUTO/MANUAL SELECTION"
%M161.1%M161.1
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"11K4_100A_REVERT SET BIT"
%M104.3%M104.3
"11K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.7%M9.7"11K4_100A_OVER LOADED
SET BIT"
%M104.2%M104.2
"11K4_100A_AUTO/MANUAL SELECTION"
%M161.1%M161.1
"11K4_100A_REVERT SET BIT"
%M104.3%M104.3
"11K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.7%M9.7
"OUTGOING 100A DB"."11K4_
AUXILIARY CHECK TIMER".
Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"11K4_100A_OVER LOADED
SET BIT"
%M104.2%M104.2
"OUTGOING 100A DB".
"TRIPPED REVERT ON DELAY_11K4 M/C 100A"
"OUTGOING 100A DB".
"TRIPPED REVERT ON DELAY_11K4 M/C 100A".PT
"OUTGOING 100A DB".
"TRIPPED REVERT ON DELAY_11K4 M/C 100A".Q
"11K4_100A_REVERT SET BIT"
%M104.3%M104.3
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K4 M/
C 100A".Q"11K4_100A_REVERT SET BIT"
%M104.3%M104.3
"OUTGOING 100A DB"."L1_OUT INT (
11CT4) 100A"
"OUTGOING 100A DB"."SV_AMPERE 11K4 M/C 100A"
"11K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M9.7%M9.7
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"11K4_100A_AUTO/MANUAL SELECTION"
%M161.1%M161.1
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K4 M/
C 100A"
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K4 M/C 100A".PT
"OUTGOING 100A DB"."L2_OUT INT (11CT4.1) 100A"
"OUTGOING 100A DB"."SV_AMPERE 11K4 M/C 100A"
"OUTGOING 100A DB"."L3_OUT INT (11CT4.2)
"11K4_100A_AUTO/MANUAL SELECTION"
%M161.1%M161.1
"11K4_100A_MANUAL ON/
OFF"
%M171.1%M171.1
S
R1
Q
2.1 ( Page19 - 6)
Totally IntegratedAutomation Portal
Network 2: 11K4_100A MAGNETIC CONTACTOR OUTPUT 16R6.1 (2.1 / 2.1)
1.1 ( Page19 - 5)
DInt>=
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_XtoInt Real
SCALE_XtoReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
11CT4.2) 100A"
"OUTGOING 100A DB"."SV_AMPERE 11K4 M/C 100A"
0
"11CT4 (0....100A)"
%IW182%IW182
27648
#"4" 0
#"4"
100
"OUTGOING 100A DB"."L1_OUT INT (11CT4) 100A"
0
"11CT4.1 (0....100A)"
%IW184%IW184
27648
#"5" 0
#"5"
100
"OUTGOING 100A DB"."L2_OUT INT (11CT4.1) 100A"
0
"11CT4.2 (0....100A)"
%IW186%IW186
27648
#"6" 0
#"6"
100
"OUTGOING 100A DB"."L3_OUT INT (11CT4.2) 100A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"11CT4 (0....100A)" %IW182 Int
"11CT4.1 (0....100A)" %IW184 Int
"11CT4.2 (0....100A)" %IW186 Int
"11K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M9.7 Bool
"11K4 CONTACTOR ON OUTPUT16R6.1"
%Q1.1 Bool
"11K4_100A_AUTO/MANUAL SE‐LECTION"
%M161.1 Bool
"11K4_100A_MANUAL ON/OFF" %M171.1 Bool
"11K4_100A_OVER LOADED SETBIT"
%M104.2 Bool
"11K4_100A_REVERT SET BIT" %M104.3 Bool
"11K4_AUXILIARY FEED BACKFAULT"
%M413.1 Bool
"11Q4 MCCB ON_MEMORY BIT" %M9.5 Bool
"11Q4 MCCB TRIP_MEMORY BIT" %M9.6 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 100A DB"."11K4_AUX‐ILIARY CHECK TIMER"
IEC_Timer
"OUTGOING 100A DB"."11K4_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 100A DB"."INRUSHOFF DELAY_11K4 M/C 100A"
IEC_Timer
"OUTGOING 100A DB"."INRUSHOFF DELAY_11K4 M/C 100A".PT
Time
"OUTGOING 100A DB"."INRUSHOFF DELAY_11K4 M/C 100A".Q
Bool
"OUTGOING 100A DB"."L1_OUTINT (11CT4) 100A"
Int
"OUTGOING 100A DB"."L2_OUTINT (11CT4.1) 100A"
Int
"OUTGOING 100A DB"."L3_OUTINT (11CT4.2) 100A"
Int
"OUTGOING 100A DB"."SV_AM‐PERE 11K4 M/C 100A"
Int
"OUTGOING 100A DB"."TRIPPEDREVERT ON DELAY_11K4 M/C100A"
IEC_Timer
"OUTGOING 100A DB"."TRIPPEDREVERT ON DELAY_11K4 M/C100A".PT
Time
"OUTGOING 100A DB"."TRIPPEDREVERT ON DELAY_11K4 M/C100A".Q
Bool
#"4" Real
#"5" Real
#"6" Real
Network 3: 11K8_100A MAGNETIC CONTACTOR OUTPUT 18R1
Bungalow-2 FEEDER CIRCUIT 59KW_100A
Totally IntegratedAutomation Portal
Network 3: 11K8_100A MAGNETIC CONTACTOR OUTPUT 18R1 (1.1 / 2.1)
Time
TON
SR
Time
TON
R
S
DInt
>=
Time
TON
DInt>=
"11Q8 MCCB ON_MEMORY
BIT"
%M12.0%M12.0
"11Q8 MCCB TRIP_MEMORY
BIT"
%M12.1%M12.1
"11K8_100A_AUTO/MANUAL SELECTION"
%M161.2%M161.2
"11K8_100A_OVER LOADED
SET BIT"
%M104.4%M104.4
"11K8_AUXILIARY FEED BACK FAULT"
%M413.2%M413.2
"11K8 CONTACTOR ON OUTPUT 18R1"
%Q8.0%Q8.0
"11K8_100A_AUTO/MANUAL SELECTION"
%M161.2%M161.2
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"11K8 CONTACTOR ON OUTPUT 18R1"
%Q8.0%Q8.0 "11K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M12.2%M12.2 "OUTGOING 100A DB"."11K8_
AUXILIARY CHECK TIMER"
t#2s
"11K8_100A_AUTO/MANUAL SELECTION"
%M161.2%M161.2
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"11K8_100A_REVERT SET BIT"
%M104.5%M104.5
"11K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M12.2%M12.2"11K8_100A_OVER LOADED
SET BIT"
%M104.4%M104.4
"11K8_100A_AUTO/MANUAL SELECTION"
%M161.2%M161.2
"11K8_100A_REVERT SET BIT"
%M104.5%M104.5
"11K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M12.2%M12.2
"OUTGOING 100A DB"."11K8_
AUXILIARY CHECK TIMER".
Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"11K8_100A_OVER LOADED
SET BIT"
%M104.4%M104.4
"OUTGOING 100A DB".
"TRIPPED REVERT ON DELAY_11K8 M/C 100A"
"OUTGOING 100A DB".
"TRIPPED REVERT ON DELAY_11K8 M/C 100A".PT
"OUTGOING 100A DB".
"TRIPPED REVERT ON DELAY_11K8 M/C 100A".Q
"11K8_100A_REVERT SET BIT"
%M104.5%M104.5
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K8 M/
C 100A".Q"11K8_100A_REVERT SET BIT"
%M104.5%M104.5
"OUTGOING 100A DB"."L1_OUT INT (
11CT8) 100A"
"OUTGOING 100A DB"."SV_AMPERE 11K8 M/C 100A"
"11K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M12.2%M12.2
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"11K8_100A_AUTO/MANUAL SELECTION"
%M161.2%M161.2
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K8 M/
C 100A"
"OUTGOING 100A DB".
"INRUSH OFF DELAY_11K8 M/C 100A".PT
"OUTGOING 100A DB"."L2_OUT INT (11CT8.1) 100A"
"OUTGOING 100A DB"."SV_AMPERE 11K8 M/C 100A"
"OUTGOING 100A DB"."L3_OUT INT (11CT8.2) 100A"
"11K8_100A_AUTO/MANUAL SELECTION"
%M161.2%M161.2
"11K8_100A_MANUAL ON/
OFF"
%M171.2%M171.2
S
R1
Q
2.1 ( Page19 - 9)
Totally IntegratedAutomation Portal
Network 3: 11K8_100A MAGNETIC CONTACTOR OUTPUT 18R1 (2.1 / 2.1)
1.1 ( Page19 - 8)
DInt
>=
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
100A"
"OUTGOING 100A DB"."SV_AMPERE 11K8 M/C 100A"
0
"11CT8 (0....100A)"
%IW188%IW188
27648
#"7" 0
#"7"
100
"OUTGOING 100A DB"."L1_OUT INT (11CT8) 100A"
0
"11CT8.1 (0....100A)"
%IW190%IW190
27648
#"8" 0
#"8"
100
"OUTGOING 100A DB"."L2_OUT INT (11CT8.1) 100A"
0
"11CT8.2 (0....100A)"
%IW192%IW192
27648
#"9" 0
#"9"
100
"OUTGOING 100A DB"."L3_OUT INT (11CT8.2) 100A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"11CT8 (0....100A)" %IW188 Int
"11CT8.1 (0....100A)" %IW190 Int
"11CT8.2 (0....100A)" %IW192 Int
"11K8 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M12.2 Bool
"11K8 CONTACTOR ON OUTPUT18R1"
%Q8.0 Bool
"11K8_100A_AUTO/MANUAL SE‐LECTION"
%M161.2 Bool
"11K8_100A_MANUAL ON/OFF" %M171.2 Bool
"11K8_100A_OVER LOADED SETBIT"
%M104.4 Bool
"11K8_100A_REVERT SET BIT" %M104.5 Bool
"11K8_AUXILIARY FEED BACKFAULT"
%M413.2 Bool
"11Q8 MCCB ON_MEMORY BIT" %M12.0 Bool
"11Q8 MCCB TRIP_MEMORY BIT" %M12.1 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 100A DB"."11K8_AUX‐ILIARY CHECK TIMER"
IEC_Timer
"OUTGOING 100A DB"."11K8_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 100A DB"."INRUSHOFF DELAY_11K8 M/C 100A"
IEC_Timer
"OUTGOING 100A DB"."INRUSHOFF DELAY_11K8 M/C 100A".PT
Time
"OUTGOING 100A DB"."INRUSHOFF DELAY_11K8 M/C 100A".Q
Bool
"OUTGOING 100A DB"."L1_OUTINT (11CT8) 100A"
Int
"OUTGOING 100A DB"."L2_OUTINT (11CT8.1) 100A"
Int
"OUTGOING 100A DB"."L3_OUTINT (11CT8.2) 100A"
Int
"OUTGOING 100A DB"."SV_AM‐PERE 11K8 M/C 100A"
Int
"OUTGOING 100A DB"."TRIPPEDREVERT ON DELAY_11K8 M/C100A"
IEC_Timer
"OUTGOING 100A DB"."TRIPPEDREVERT ON DELAY_11K8 M/C100A".PT
Time
"OUTGOING 100A DB"."TRIPPEDREVERT ON DELAY_11K8 M/C100A".Q
Bool
#"7" Real
#"8" Real
#"9" Real
Network 4: 12K1_100A MAGNETIC CONTACTOR OUTPUT 18R1.1
Bungalow-3 FEEDER CIRCUIT 59KW_100A
Totally IntegratedAutomation Portal
Network 4: 12K1_100A MAGNETIC CONTACTOR OUTPUT 18R1.1 (1.1 / 2.1)
TimeTON
SR
TimeTON
R
S
DInt>=
TimeTON
DInt
>=
"12Q1 MCCB ON_MEMORY
BIT"
%M12.3%M12.3
"12Q1 MCCB TRIP_MEMORY
BIT"
%M12.4%M12.4
"12K1_100A_AUTO/MANUAL SELECTION"
%M161.3%M161.3
"12K1_100A_OVER LOADED
SET BIT"
%M104.6%M104.6
"12K1_AUXILIARY FEED BACK FAULT"
%M413.3%M413.3 "12K1 CONTACTOR ON OUTPUT 18R1.
1"
%Q8.1%Q8.1
"12K1_100A_AUTO/MANUAL SELECTION"
%M161.3%M161.3
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7 "12K1 CONTACTOR ON OUTPUT 18R1.
1"
%Q8.1%Q8.1
"12K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M12.5%M12.5"OUTGOING 100A DB"."12K1_
AUXILIARY CHECK TIMER"
t#2s
"12K1_100A_AUTO/MANUAL SELECTION"
%M161.3%M161.3
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"12K1_100A_REVERT SET BIT"
%M104.7%M104.7
"12K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M12.5%M12.5"12K1_100A_OVER LOADED
SET BIT"
%M104.6%M104.6
"12K1_100A_AUTO/MANUAL SELECTION"
%M161.3%M161.3
"12K1_100A_REVERT SET BIT"
%M104.7%M104.7
"12K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M12.5%M12.5
"OUTGOING 100A DB"."12K1_
AUXILIARY CHECK TIMER".
Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"12K1_100A_OVER LOADED
SET BIT"
%M104.6%M104.6
"OUTGOING 100A DB".
"TRIPPED REVERT ON DELAY_12K1 M/C 100A"
"OUTGOING 100A DB".
"TRIPPED REVERT ON DELAY_12K1 M/C 100A".PT
"OUTGOING 100A DB".
"TRIPPED REVERT ON DELAY_12K1 M/C 100A".Q
"12K1_100A_REVERT SET BIT"
%M104.7%M104.7
"OUTGOING 100A DB".
"INRUSH OFF DELAY_12K1 M/
C 100A".Q"12K1_100A_REVERT SET BIT"
%M104.7%M104.7
"OUTGOING 100A DB"."L1_OUT INT (
12CT1) 100A"
"OUTGOING 100A DB"."SV_AMPERE 12K1 M/C 100A"
"12K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M12.5%M12.5
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"12K1_100A_AUTO/MANUAL SELECTION"
%M161.3%M161.3
"OUTGOING 100A DB".
"INRUSH OFF DELAY_12K1 M/
C 100A"
"OUTGOING 100A DB".
"INRUSH OFF DELAY_12K1 M/C 100A".PT
"OUTGOING 100A DB"."L2_OUT INT (12CT1.1) 100A"
"OUTGOING 100A DB"."SV_AMPERE 12K1 M/C 100A"
"OUTGOING 100A DB"."L3_OUT INT (12CT1.2)
"12K1_100A_AUTO/MANUAL SELECTION"
%M161.3%M161.3
"12K1_100A_MANUAL ON/
OFF"
%M171.3%M171.3
S
R1
Q
2.1 ( Page19 - 12)
Totally IntegratedAutomation Portal
Network 4: 12K1_100A MAGNETIC CONTACTOR OUTPUT 18R1.1 (2.1 / 2.1)
1.1 ( Page19 - 11)
DInt>=
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_XtoInt Real
SCALE_XtoReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
12CT1.2) 100A"
"OUTGOING 100A DB"."SV_AMPERE 12K1 M/C 100A"
0
"12CT1 (0....100A)"
%IW194%IW194
27648
#"10" 0
#"10"
100
"OUTGOING 100A DB"."L1_OUT INT (12CT1) 100A"
0
"12CT1.1 (0....100A)"
%IW196%IW196
27648
#"11" 0
#"11"
100
"OUTGOING 100A DB"."L2_OUT INT (12CT1.1) 100A"
0
"12CT1.2 (0....100A)"
%IW198%IW198
27648
#"12" 0
#"12"
100
"OUTGOING 100A DB"."L3_OUT INT (12CT1.2) 100A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"12CT1 (0....100A)" %IW194 Int
"12CT1.1 (0....100A)" %IW196 Int
"12CT1.2 (0....100A)" %IW198 Int
"12K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M12.5 Bool
"12K1 CONTACTOR ON OUTPUT18R1.1"
%Q8.1 Bool
"12K1_100A_AUTO/MANUAL SE‐LECTION"
%M161.3 Bool
"12K1_100A_MANUAL ON/OFF" %M171.3 Bool
"12K1_100A_OVER LOADED SETBIT"
%M104.6 Bool
"12K1_100A_REVERT SET BIT" %M104.7 Bool
"12K1_AUXILIARY FEED BACKFAULT"
%M413.3 Bool
"12Q1 MCCB ON_MEMORY BIT" %M12.3 Bool
"12Q1 MCCB TRIP_MEMORY BIT" %M12.4 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 100A DB"."12K1_AUX‐ILIARY CHECK TIMER"
IEC_Timer
"OUTGOING 100A DB"."12K1_AUX‐ILIARY CHECK TIMER".Q
Bool
"OUTGOING 100A DB"."INRUSHOFF DELAY_12K1 M/C 100A"
IEC_Timer
"OUTGOING 100A DB"."INRUSHOFF DELAY_12K1 M/C 100A".PT
Time
"OUTGOING 100A DB"."INRUSHOFF DELAY_12K1 M/C 100A".Q
Bool
"OUTGOING 100A DB"."L1_OUTINT (12CT1) 100A"
Int
"OUTGOING 100A DB"."L2_OUTINT (12CT1.1) 100A"
Int
"OUTGOING 100A DB"."L3_OUTINT (12CT1.2) 100A"
Int
"OUTGOING 100A DB"."SV_AM‐PERE 12K1 M/C 100A"
Int
"OUTGOING 100A DB"."TRIPPEDREVERT ON DELAY_12K1 M/C100A"
IEC_Timer
"OUTGOING 100A DB"."TRIPPEDREVERT ON DELAY_12K1 M/C100A".PT
Time
"OUTGOING 100A DB"."TRIPPEDREVERT ON DELAY_12K1 M/C100A".Q
Bool
#"10" Real
#"11" Real
#"12" Real
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
OUTGOING 100A DB [DB13]
OUTGOING 100A DB Properties
General
Name OUTGOING 100A DB Number 13 Type DB Language DB
Numbering manual
Information
Title Author SARFRAZ Comment Family
Version 0.1 User-definedID
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Static
L1_OUT INT (11CT1) 100A Int 0 False True True False
L2_OUT INT (11CT1.1) 100A Int 0 False True True False
L3_OUT INT (11CT1.2) 100A Int 0 False True True False
SV_AMPERE 11K1 M/C 100A Int 0 True True True False
INRUSH OFF DELAY_11K1 M/C100A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
TRIPPED REVERT ON DE‐LAY_11K1 M/C 100A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
11K1_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
L1_OUT INT (11CT4) 100A Int 0 False True True False
L2_OUT INT (11CT4.1) 100A Int 0 False True True False
L3_OUT INT (11CT4.2) 100A Int 0 False True True False
SV_AMPERE 11K4 M/C 100A Int 0 True True True False
INRUSH OFF DELAY_11K4 M/C100A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
TRIPPED REVERT ON DE‐LAY_11K4 M/C 100A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
11K4_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
L1_OUT INT (11CT8) 100A Int 0 False True True False
L2_OUT INT (11CT8.1) 100A Int 0 False True True False
L3_OUT INT (11CT8.2) 100A Int 0 False True True False
SV_AMPERE 11K8 M/C 100A Int 0 True True True False
INRUSH OFF DELAY_11K8 M/C100A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
Totally IntegratedAutomation Portal
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
TRIPPED REVERT ON DE‐LAY_11K8 M/C 100A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
11K8_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
L1_OUT INT (12CT1) 100A Int 0 False True True False
L2_OUT INT (12CT1.1) 100A Int 0 False True True False
L3_OUT INT (12CT1.2) 100A Int 0 False True True False
SV_AMPERE 12K1 M/C 100A Int 0 True True True False
INRUSH OFF DELAY_12K1 M/C100A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
TRIPPED REVERT ON DE‐LAY_12K1 M/C 100A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
12K1_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
OUTGOING 80_63_25A FC [FC9]
OUTGOING 80_63_25A FC Properties
General
Name OUTGOING 80_63_25A FC Number 9 Type FC Language LAD
Numbering manual
Information
Title Author SARFRAZ Comment Family
Version 0.1 User-definedID
Name Data type Default value Comment
Input
Output
InOut
Temp
1 Real
2 Real
3 Real
4 Real
5 Real
6 Real
7 Real
8 Real
9 Real
Constant
Return
OUTGOING 80_63_25A FC Void
Network 1: 13K1_80A MAGNETIC CONTACTOR OUTPUT 18R2
Bungalow 4-8 FEEDER CIRCUIT 45KW_80A
Totally IntegratedAutomation Portal
Network 1: 13K1_80A MAGNETIC CONTACTOR OUTPUT 18R2 (1.1 / 2.1)
Time
TON
SR
Time
TON
R
S
DInt
>=
Time
TON
DInt>=
"13Q1 MCCB ON_MEMORY
BIT"
%M12.6%M12.6
"13Q1 MCCB TRIP_MEMORY
BIT"
%M12.7%M12.7
"13K1_80A_AUTO/MANUAL SELECTION"
%M161.4%M161.4
"13K1_80A_OVER LOADED
SET BIT"
%M105.0%M105.0
"13K1_AUXILIARY FEED BACK FAULT"
%M413.4%M413.4
"13K1 CONTACTOR ON OUTPUT 18R2"
%Q8.2%Q8.2
"13K1_80A_AUTO/MANUAL SELECTION"
%M161.4%M161.4
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"13K1 CONTACTOR ON OUTPUT 18R2"
%Q8.2%Q8.2 "13K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.0%M13.0 "OUTGOING 80_63_25A DB".
"13K1_AUXILIARY
CHECK TIMER"
t#2s
"13K1_80A_AUTO/MANUAL SELECTION"
%M161.4%M161.4
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"13K1_80A_REVERT SET BIT"
%M105.1%M105.1
"13K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.0%M13.0"13K1_80A_
OVER LOADED SET BIT"
%M105.0%M105.0
"13K1_80A_AUTO/MANUAL SELECTION"
%M161.4%M161.4
"13K1_80A_REVERT SET BIT"
%M105.1%M105.1
"13K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.0%M13.0
"OUTGOING 80_63_25A DB".
"13K1_AUXILIARY
CHECK TIMER".Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"13K1_80A_OVER LOADED
SET BIT"
%M105.0%M105.0
"OUTGOING 80_63_25A DB".
"TRIPPED REVERT ON DELAY_13K1 M/C
80A"
"OUTGOING 80_63_25A DB".
"TRIPPED REVERT ON DELAY_13K1 M/C 80A".PT
"OUTGOING 80_63_25A DB".
"TRIPPED REVERT ON DELAY_13K1 M/C 80A".Q
"13K1_80A_REVERT SET BIT"
%M105.1%M105.1
"OUTGOING 80_63_25A DB"."INRUSH OFF DELAY_13K1 M/
C 80A".Q"13K1_80A_
REVERT SET BIT"
%M105.1%M105.1
"OUTGOING 80_63_25A DB"."L1_OUT INT (13CT1) 80A"
"OUTGOING 80_63_25A DB"."SV_AMPERE 13K1 M/C
80A"
"13K1 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.0%M13.0
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"13K1_80A_AUTO/MANUAL SELECTION"
%M161.4%M161.4
"OUTGOING 80_63_25A DB"."INRUSH OFF DELAY_13K1 M/
C 80A"
"OUTGOING 80_63_25A DB"."INRUSH OFF DELAY_13K1 M/
C 80A".PT
"OUTGOING 80_63_25A DB"."L2_OUT INT (13CT1.1) 80A"
"OUTGOING 80_63_25A DB"."SV_AMPERE 13K1 M/C
80A"
"OUTGOING 80_63_25A DB"."L3_OUT INT (13CT1.2) 80A"
"13K1_80A_AUTO/MANUAL SELECTION"
%M161.4%M161.4
"13K1_80A_MANUAL ON/
OFF"
%M171.4%M171.4
S
R1
Q
2.1 ( Page21 - 3)
Totally IntegratedAutomation Portal
Network 1: 13K1_80A MAGNETIC CONTACTOR OUTPUT 18R2 (2.1 / 2.1)
1.1 ( Page21 - 2)
DInt
>=
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_XtoInt Real
SCALE_XtoReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
13CT1.2) 80A"
"OUTGOING 80_63_25A DB"."SV_AMPERE 13K1 M/C
80A"
0
"13CT1 (0....100A)"
%IW200%IW200
27648
#"1" 0
#"1"
100
"OUTGOING 80_63_25A DB"."L1_OUT INT (13CT1) 80A"
0
"13CT1.1 (0....100A)"
%IW202%IW202
27648
#"2" 0
#"2"
100
"OUTGOING 80_63_25A DB"."L2_OUT INT (13CT1.1) 80A"
0
"13CT1.2 (0....100A)"
%IW204%IW204
27648
#"3" 0
#"3"
100
"OUTGOING 80_63_25A DB"."L3_OUT INT (13CT1.2) 80A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"13CT1 (0....100A)" %IW200 Int
"13CT1.1 (0....100A)" %IW202 Int
"13CT1.2 (0....100A)" %IW204 Int
"13K1 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M13.0 Bool
"13K1 CONTACTOR ON OUTPUT18R2"
%Q8.2 Bool
"13K1_80A_AUTO/MANUAL SELEC‐TION"
%M161.4 Bool
"13K1_80A_MANUAL ON/OFF" %M171.4 Bool
"13K1_80A_OVER LOADED SETBIT"
%M105.0 Bool
"13K1_80A_REVERT SET BIT" %M105.1 Bool
"13K1_AUXILIARY FEED BACKFAULT"
%M413.4 Bool
"13Q1 MCCB ON_MEMORY BIT" %M12.6 Bool
"13Q1 MCCB TRIP_MEMORY BIT" %M12.7 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 80_63_25ADB"."13K1_AUXILIARY CHECK TIM‐ER"
IEC_Timer
"OUTGOING 80_63_25ADB"."13K1_AUXILIARY CHECK TIM‐ER".Q
Bool
"OUTGOING 80_63_25A DB"."IN‐RUSH OFF DELAY_13K1 M/C 80A"
IEC_Timer
"OUTGOING 80_63_25A DB"."IN‐RUSH OFF DELAY_13K1 M/C80A".PT
Time
"OUTGOING 80_63_25A DB"."IN‐RUSH OFF DELAY_13K1 M/C80A".Q
Bool
"OUTGOING 80_63_25ADB"."L1_OUT INT (13CT1) 80A"
Int
"OUTGOING 80_63_25ADB"."L2_OUT INT (13CT1.1) 80A"
Int
"OUTGOING 80_63_25ADB"."L3_OUT INT (13CT1.2) 80A"
Int
"OUTGOING 80_63_25ADB"."SV_AMPERE 13K1 M/C 80A"
Int
"OUTGOING 80_63_25A DB"."TRIP‐PED REVERT ON DELAY_13K1 M/C80A"
IEC_Timer
"OUTGOING 80_63_25A DB"."TRIP‐PED REVERT ON DELAY_13K1 M/C80A".PT
Time
"OUTGOING 80_63_25A DB"."TRIP‐PED REVERT ON DELAY_13K1 M/C80A".Q
Bool
#"1" Real
#"2" Real
#"3" Real
Network 2: 13K4_63A MAGNETIC CONTACTOR OUTPUT 18R2.1
Street Lights + Sewerage pump (40 hp) +Surgery + Security FEEDER CIRCUIT 37KW_63A
Totally IntegratedAutomation Portal
Network 2: 13K4_63A MAGNETIC CONTACTOR OUTPUT 18R2.1 (1.1 / 2.1)
TimeTON
SR
TimeTON
R
S
DInt>=
TimeTON
DInt
>=
"13Q4 MCCB ON_MEMORY
BIT"
%M13.1%M13.1
"13Q4 MCCB TRIP_MEMORY
BIT"
%M13.2%M13.2
"13K4_63A_AUTO/MANUAL SELECTION"
%M161.5%M161.5
"13K4_63A_OVER LOADED
SET BIT"
%M105.2%M105.2
"13K4_AUXILIARY FEED BACK FAULT"
%M413.5%M413.5 "13K4 CONTACTOR ON OUTPUT 18R2.
1"
%Q8.3%Q8.3
"13K4_63A_AUTO/MANUAL SELECTION"
%M161.5%M161.5
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7 "13K4 CONTACTOR ON OUTPUT 18R2.
1"
%Q8.3%Q8.3
"13K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.3%M13.3"OUTGOING 80_63_25A DB".
"13K4_AUXILIARY
CHECK TIMER"
t#2s
"13K4_63A_AUTO/MANUAL SELECTION"
%M161.5%M161.5
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"13K4_63A_REVERT SET BIT"
%M105.3%M105.3
"13K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.3%M13.3"13K4_63A_
OVER LOADED SET BIT"
%M105.2%M105.2
"13K4_63A_AUTO/MANUAL SELECTION"
%M161.5%M161.5
"13K4_63A_REVERT SET BIT"
%M105.3%M105.3
"13K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.3%M13.3
"OUTGOING 80_63_25A DB".
"13K4_AUXILIARY
CHECK TIMER".Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"13K4_63A_OVER LOADED
SET BIT"
%M105.2%M105.2
"OUTGOING 80_63_25A DB".
"TRIPPED REVERT ON DELAY_13K4 M/C
63A"
"OUTGOING 80_63_25A DB".
"TRIPPED REVERT ON DELAY_13K4 M/C 63A".PT
"OUTGOING 80_63_25A DB".
"TRIPPED REVERT ON DELAY_13K4 M/C 63A".Q
"13K4_63A_REVERT SET BIT"
%M105.3%M105.3
"OUTGOING 80_63_25A DB"."INRUSH OFF DELAY_13K4 M/
C 63A".Q"13K4_63A_
REVERT SET BIT"
%M105.3%M105.3
"OUTGOING 80_63_25A DB"."L1_OUT INT (13CT4) 63A"
"OUTGOING 80_63_25A DB"."SV_AMPERE 13K4 M/C
63A"
"13K4 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.3%M13.3
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"13K4_63A_AUTO/MANUAL SELECTION"
%M161.5%M161.5
"OUTGOING 80_63_25A DB"."INRUSH OFF DELAY_13K4 M/
C 63A"
"OUTGOING 80_63_25A DB"."INRUSH OFF DELAY_13K4 M/
C 63A".PT
"OUTGOING 80_63_25A DB"."L2_OUT INT (13CT4.1) 63A"
"OUTGOING 80_63_25A DB"."SV_AMPERE 13K4 M/C
63A"
"OUTGOING 80_63_25A DB".
"13K4_63A_AUTO/MANUAL SELECTION"
%M161.5%M161.5
"13K4_63A_MANUAL ON/
OFF"
%M171.5%M171.5
S
R1
Q
2.1 ( Page21 - 6)
Totally IntegratedAutomation Portal
Network 2: 13K4_63A MAGNETIC CONTACTOR OUTPUT 18R2.1 (2.1 / 2.1)
1.1 ( Page21 - 5)
DInt>=
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
63_25A DB"."L3_OUT INT (13CT4.2) 63A"
"OUTGOING 80_63_25A DB"."SV_AMPERE 13K4 M/C
63A"
0
"13CT4 (0....100A)"
%IW206%IW206
27648
#"4" 0
#"4"
100
"OUTGOING 80_63_25A DB"."L1_OUT INT (13CT4) 63A"
0
"13CT4.1 (0....100A)"
%IW208%IW208
27648
#"5" 0
#"5"
100
"OUTGOING 80_63_25A DB"."L2_OUT INT (13CT4.1) 63A"
0
"13CT4.2 (0....100A)"
%IW210%IW210
27648
#"6" 0
#"6"
100
"OUTGOING 80_63_25A DB"."L3_OUT INT (13CT4.2) 63A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"13CT4 (0....100A)" %IW206 Int
"13CT4.1 (0....100A)" %IW208 Int
"13CT4.2 (0....100A)" %IW210 Int
"13K4 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M13.3 Bool
"13K4 CONTACTOR ON OUTPUT18R2.1"
%Q8.3 Bool
"13K4_63A_AUTO/MANUAL SELEC‐TION"
%M161.5 Bool
"13K4_63A_MANUAL ON/OFF" %M171.5 Bool
"13K4_63A_OVER LOADED SETBIT"
%M105.2 Bool
"13K4_63A_REVERT SET BIT" %M105.3 Bool
"13K4_AUXILIARY FEED BACKFAULT"
%M413.5 Bool
"13Q4 MCCB ON_MEMORY BIT" %M13.1 Bool
"13Q4 MCCB TRIP_MEMORY BIT" %M13.2 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 80_63_25ADB"."13K4_AUXILIARY CHECK TIM‐ER"
IEC_Timer
"OUTGOING 80_63_25ADB"."13K4_AUXILIARY CHECK TIM‐ER".Q
Bool
"OUTGOING 80_63_25A DB"."IN‐RUSH OFF DELAY_13K4 M/C 63A"
IEC_Timer
"OUTGOING 80_63_25A DB"."IN‐RUSH OFF DELAY_13K4 M/C63A".PT
Time
"OUTGOING 80_63_25A DB"."IN‐RUSH OFF DELAY_13K4 M/C63A".Q
Bool
"OUTGOING 80_63_25ADB"."L1_OUT INT (13CT4) 63A"
Int
"OUTGOING 80_63_25ADB"."L2_OUT INT (13CT4.1) 63A"
Int
"OUTGOING 80_63_25ADB"."L3_OUT INT (13CT4.2) 63A"
Int
"OUTGOING 80_63_25ADB"."SV_AMPERE 13K4 M/C 63A"
Int
"OUTGOING 80_63_25A DB"."TRIP‐PED REVERT ON DELAY_13K4 M/C63A"
IEC_Timer
"OUTGOING 80_63_25A DB"."TRIP‐PED REVERT ON DELAY_13K4 M/C63A".PT
Time
"OUTGOING 80_63_25A DB"."TRIP‐PED REVERT ON DELAY_13K4 M/C63A".Q
Bool
#"4" Real
#"5" Real
#"6" Real
Network 3: 13K8_25A MAGNETIC CONTACTOR OUTPUT 18R3
Servant Quarter-2 FEEDER CIRCUIT 11KW_25A
Totally IntegratedAutomation Portal
Network 3: 13K8_25A MAGNETIC CONTACTOR OUTPUT 18R3 (1.1 / 2.1)
Time
TON
SR
Time
TON
R
S
DInt
>=
Time
TON
DInt>=
"13Q8 MCCB ON_MEMORY
BIT"
%M13.4%M13.4
"13Q8 MCCB TRIP_MEMORY
BIT"
%M13.5%M13.5
"13K8_25A_AUTO/MANUAL SELECTION"
%M161.6%M161.6
"13K8_25A_OVER LOADED
SET BIT"
%M105.4%M105.4
"13K8_AUXILIARY FEED BACK FAULT"
%M413.6%M413.6
"13K8 CONTACTOR ON OUTPUT 18R3"
%Q8.4%Q8.4
"13K8_25A_AUTO/MANUAL SELECTION"
%M161.6%M161.6
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"13K8 CONTACTOR ON OUTPUT 18R3"
%Q8.4%Q8.4 "13K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.6%M13.6 "OUTGOING 80_63_25A DB".
"13K8_AUXILIARY
CHECK TIMER"
t#2s
"13K8_25A_AUTO/MANUAL SELECTION"
%M161.6%M161.6
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"13K8_25A_REVERT SET BIT"
%M105.5%M105.5
"13K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.6%M13.6"13K8_25A_
OVER LOADED SET BIT"
%M105.4%M105.4
"13K8_25A_AUTO/MANUAL SELECTION"
%M161.6%M161.6
"13K8_25A_REVERT SET BIT"
%M105.5%M105.5
"13K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.6%M13.6
"OUTGOING 80_63_25A DB".
"13K8_AUXILIARY
CHECK TIMER".Q
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"13K8_25A_OVER LOADED
SET BIT"
%M105.4%M105.4
"OUTGOING 80_63_25A DB".
"TRIPPED REVERT ON DELAY_13K8 M/C
25A"
"OUTGOING 80_63_25A DB".
"TRIPPED REVERT ON DELAY_13K8 M/C 25A".PT
"OUTGOING 80_63_25A DB".
"TRIPPED REVERT ON DELAY_13K8 M/C 25A".Q
"13K8_25A_REVERT SET BIT"
%M105.5%M105.5
"OUTGOING 80_63_25A DB"."INRUSH OFF DELAY_13K8 M/
C 25A".Q"13K8_25A_
REVERT SET BIT"
%M105.5%M105.5
"OUTGOING 80_63_25A DB"."L1_OUT INT (13CT8) 25A"
"OUTGOING 80_63_25A DB"."SV_AMPERE 13K8 M/C
25A"
"13K8 CONTACTOR ON FEED BACK_MEMORY BIT"
%M13.6%M13.6
"GENERATOR ACB CLOSE MEMORY BIT"
%M13.7%M13.7
"13K8_25A_AUTO/MANUAL SELECTION"
%M161.6%M161.6
"OUTGOING 80_63_25A DB"."INRUSH OFF DELAY_13K8 M/
C 25A"
"OUTGOING 80_63_25A DB"."INRUSH OFF DELAY_13K8 M/
C 25A".PT
"OUTGOING 80_63_25A DB"."L2_OUT INT (13CT8.1) 25A"
"OUTGOING 80_63_25A DB"."SV_AMPERE 13K8 M/C
25A"
"OUTGOING 80_63_25A DB"."L3_OUT INT (13CT8.2) 25A"
"13K8_25A_AUTO/MANUAL SELECTION"
%M161.6%M161.6
"13K8_25A_MANUAL ON/
OFF"
%M171.6%M171.6
S
R1
Q
2.1 ( Page21 - 9)
Totally IntegratedAutomation Portal
Network 3: 13K8_25A MAGNETIC CONTACTOR OUTPUT 18R3 (2.1 / 2.1)
1.1 ( Page21 - 8)
DInt
>=
NORM_X
toInt Real
SCALE_X
toReal Int
NORM_XtoInt Real
SCALE_XtoReal Int
NORM_X
toInt Real
SCALE_X
toReal Int
13CT8.2) 25A"
"OUTGOING 80_63_25A DB"."SV_AMPERE 13K8 M/C
25A"
0
"13CT8 (0....40A)"
%IW212%IW212
27648
#"7" 0
#"7"
40
"OUTGOING 80_63_25A DB"."L1_OUT INT (13CT8) 25A"
0
"13CT8.1 (0....40A)"
%IW214%IW214
27648
#"8" 0
#"8"
40
"OUTGOING 80_63_25A DB"."L2_OUT INT (13CT8.1) 25A"
0
"13CT8.2 (0....40A)"
%IW216%IW216
27648
#"9" 0
#"9"
40
"OUTGOING 80_63_25A DB"."L3_OUT INT (13CT8.2) 25A"
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
EN
MIN
VALUE
MAX
ENO
OUT
toInt Real
EN
MIN
VALUE
MAX
ENO
OUT
toReal Int
Totally IntegratedAutomation Portal
Symbol Address Type Comment
"13CT8 (0....40A)" %IW212 Int
"13CT8.1 (0....40A)" %IW214 Int
"13CT8.2 (0....40A)" %IW216 Int
"13K8 CONTACTOR ON FEEDBACK_MEMORY BIT"
%M13.6 Bool
"13K8 CONTACTOR ON OUTPUT18R3"
%Q8.4 Bool
"13K8_25A_AUTO/MANUAL SELEC‐TION"
%M161.6 Bool
"13K8_25A_MANUAL ON/OFF" %M171.6 Bool
"13K8_25A_OVER LOADED SETBIT"
%M105.4 Bool
"13K8_25A_REVERT SET BIT" %M105.5 Bool
"13K8_AUXILIARY FEED BACKFAULT"
%M413.6 Bool
"13Q8 MCCB ON_MEMORY BIT" %M13.4 Bool
"13Q8 MCCB TRIP_MEMORY BIT" %M13.5 Bool
"GENERATOR ACB CLOSE MEMORYBIT"
%M13.7 Bool
"OUTGOING 80_63_25ADB"."13K8_AUXILIARY CHECK TIM‐ER"
IEC_Timer
"OUTGOING 80_63_25ADB"."13K8_AUXILIARY CHECK TIM‐ER".Q
Bool
"OUTGOING 80_63_25A DB"."IN‐RUSH OFF DELAY_13K8 M/C 25A"
IEC_Timer
"OUTGOING 80_63_25A DB"."IN‐RUSH OFF DELAY_13K8 M/C25A".PT
Time
"OUTGOING 80_63_25A DB"."IN‐RUSH OFF DELAY_13K8 M/C25A".Q
Bool
"OUTGOING 80_63_25ADB"."L1_OUT INT (13CT8) 25A"
Int
"OUTGOING 80_63_25ADB"."L2_OUT INT (13CT8.1) 25A"
Int
"OUTGOING 80_63_25ADB"."L3_OUT INT (13CT8.2) 25A"
Int
"OUTGOING 80_63_25ADB"."SV_AMPERE 13K8 M/C 25A"
Int
"OUTGOING 80_63_25A DB"."TRIP‐PED REVERT ON DELAY_13K8 M/C25A"
IEC_Timer
"OUTGOING 80_63_25A DB"."TRIP‐PED REVERT ON DELAY_13K8 M/C25A".PT
Time
"OUTGOING 80_63_25A DB"."TRIP‐PED REVERT ON DELAY_13K8 M/C25A".Q
Bool
#"7" Real
#"8" Real
#"9" Real
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
OUTGOING 80_63_25A DB [DB14]
OUTGOING 80_63_25A DB Properties
General
Name OUTGOING 80_63_25A DB Number 14 Type DB Language DB
Numbering manual
Information
Title Author SARFRAZ Comment Family
Version 0.1 User-definedID
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Static
L1_OUT INT (13CT1) 80A Int 0 False True True False
L2_OUT INT (13CT1.1) 80A Int 0 False True True False
L3_OUT INT (13CT1.2) 80A Int 0 False True True False
SV_AMPERE 13K1 M/C 80A Int 0 True True True False
INRUSH OFF DELAY_13K1 M/C80A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
TRIPPED REVERT ON DE‐LAY_13K1 M/C 80A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
13K1_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
L1_OUT INT (13CT4) 63A Int 0 False True True False
L2_OUT INT (13CT4.1) 63A Int 0 False True True False
L3_OUT INT (13CT4.2) 63A Int 0 False True True False
SV_AMPERE 13K4 M/C 63A Int 0 True True True False
INRUSH OFF DELAY_13K4 M/C63A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
TRIPPED REVERT ON DE‐LAY_13K4 M/C 63A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
13K4_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
L1_OUT INT (13CT8) 25A Int 0 False True True False
L2_OUT INT (13CT8.1) 25A Int 0 False True True False
L3_OUT INT (13CT8.2) 25A Int 0 False True True False
SV_AMPERE 13K8 M/C 25A Int 0 True True True False
INRUSH OFF DELAY_13K8 M/C25A
IEC_TIMER True True True False
ST Time t#0s True True True False
PT Time t#5s True True True False
ET Time t#0s True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
Totally IntegratedAutomation Portal
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
TRIPPED REVERT ON DE‐LAY_13K8 M/C 25A
IEC_TIMER True True True False
ST Time t#0m True True True False
PT Time t#1m True True True False
ET Time t#0m True True True False
RU Bool false True False False False
IN Bool false True True True False
Q Bool false True True True False
13K8_AUXILIARY CHECK TIMER IEC_TIMER False True True False
ST Time t#0s False True True False
PT Time t#0s False True True False
ET Time t#0s False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks
Diagnostic error interrupt [OB82]
Diagnostic error interrupt Properties
General
Name Diagnostic error interrupt Number 82 Type OB Language LAD
Numbering automatic
Information
Title Author Comment Family
Version 0.1 User-definedID
Name Data type Default value Comment
Input
IO_State Word IO state of the HW object
LADDR HW_ANY Hardware identifier
Channel UInt Channel number
MultiError Bool =true if more than one error is present
Temp
Constant
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks / System blocks / Program resources
MB_COMM_LOAD [FB1080]
MB_COMM_LOAD Properties
General
Name MB_COMM_LOAD Number 1080 Type FB Language LAD
Numbering automatic
Information
Title Author SIMATIC Comment Family MODBUS
Version 2.0 User-definedID
MB_CM_LD
Name Data type Default value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Input
REQ Bool FALSE Non-retain True True False The enable to initiate a Mod‐bus configuration operation
PORT PORT 16#FFFF Non-retain True True False The PtP hardware address
BAUD UDInt 0 Non-retain True True False The baud rate of the PtP port
PARITY UInt 0 Non-retain True True False The parity of the PtP port
FLOW_CTRL UInt 0 Non-retain True True False Transmit and receive flowcontrol
RTS_ON_DLY UInt 0 Non-retain True True False The enable time of RTS be‐fore sending the first charac‐ter
RTS_OFF_DLY UInt 0 Non-retain True True False The enable time of RTS aftersending the last character
RESP_TO UInt 1000 Non-retain True True False The time to wait for the Mod‐bus slave to respond
Output
DONE Bool FALSE Non-retain True True False Boolean indicating comple‐tion without error
ERROR Bool FALSE Non-retain True True False Boolean indicating comple‐tion with error
STATUS Word W#16#0 Non-retain True True False Status of the current opera‐tion
InOut
MB_DB MB_BASE False False False The instance DB of the Mod‐bus master or slave
Input
Output
InOut
Static
Static
ICHAR_GAP UInt 0 Non-retain True True False
RETRIES UInt 2 Non-retain True True False
WRREC_STATUS Word 2 Non-retain True True False
RDREC_STATUS Word 2 Non-retain True True False
SFC_STATUS Word 2 Non-retain True True False
Port_CFG_SFB Array[0..25] ofByte
Non-retain False False False
Port_CFG_SFB[0] Byte 16#0 Non-retain False False False
Port_CFG_SFB[1] Byte 16#0 Non-retain False False False
Port_CFG_SFB[2] Byte 16#0 Non-retain False False False
Port_CFG_SFB[3] Byte 16#0 Non-retain False False False
Port_CFG_SFB[4] Byte 16#0 Non-retain False False False
Port_CFG_SFB[5] Byte 16#0 Non-retain False False False
Port_CFG_SFB[6] Byte 16#0 Non-retain False False False
Port_CFG_SFB[7] Byte 16#0 Non-retain False False False
Port_CFG_SFB[8] Byte 16#0 Non-retain False False False
Port_CFG_SFB[9] Byte 16#0 Non-retain False False False
Port_CFG_SFB[10] Byte 16#0 Non-retain False False False
Port_CFG_SFB[11] Byte 16#0 Non-retain False False False
Port_CFG_SFB[12] Byte 16#0 Non-retain False False False
Port_CFG_SFB[13] Byte 16#0 Non-retain False False False
Port_CFG_SFB[14] Byte 16#0 Non-retain False False False
Port_CFG_SFB[15] Byte 16#0 Non-retain False False False
Port_CFG_SFB[16] Byte 16#0 Non-retain False False False
Port_CFG_SFB[17] Byte 16#0 Non-retain False False False
Port_CFG_SFB[18] Byte 16#0 Non-retain False False False
Port_CFG_SFB[19] Byte 16#0 Non-retain False False False
Port_CFG_SFB[20] Byte 16#0 Non-retain False False False
Port_CFG_SFB[21] Byte 16#0 Non-retain False False False
Port_CFG_SFB[22] Byte 16#0 Non-retain False False False
Port_CFG_SFB[23] Byte 16#0 Non-retain False False False
Port_CFG_SFB[24] Byte 16#0 Non-retain False False False
Port_CFG_SFB[25] Byte 16#0 Non-retain False False False
Send_CFG_SFB Array[0..16] ofByte
Non-retain False False False
Send_CFG_SFB[0] Byte 16#0 Non-retain False False False
Send_CFG_SFB[1] Byte 16#0 Non-retain False False False
Send_CFG_SFB[2] Byte 16#0 Non-retain False False False
Send_CFG_SFB[3] Byte 16#0 Non-retain False False False
Send_CFG_SFB[4] Byte 16#0 Non-retain False False False
Totally IntegratedAutomation Portal
Name Data type Default value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Send_CFG_SFB[5] Byte 16#0 Non-retain False False False
Send_CFG_SFB[6] Byte 16#0 Non-retain False False False
Send_CFG_SFB[7] Byte 16#0 Non-retain False False False
Send_CFG_SFB[8] Byte 16#0 Non-retain False False False
Send_CFG_SFB[9] Byte 16#0 Non-retain False False False
Send_CFG_SFB[10] Byte 16#0 Non-retain False False False
Send_CFG_SFB[11] Byte 16#0 Non-retain False False False
Send_CFG_SFB[12] Byte 16#0 Non-retain False False False
Send_CFG_SFB[13] Byte 16#0 Non-retain False False False
Send_CFG_SFB[14] Byte 16#0 Non-retain False False False
Send_CFG_SFB[15] Byte 16#0 Non-retain False False False
Send_CFG_SFB[16] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB Array[0..60] ofByte
Non-retain False False False
Rcv_CFG_SFB[0] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[1] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[2] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[3] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[4] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[5] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[6] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[7] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[8] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[9] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[10] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[11] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[12] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[13] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[14] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[15] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[16] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[17] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[18] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[19] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[20] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[21] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[22] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[23] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[24] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[25] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[26] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[27] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[28] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[29] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[30] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[31] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[32] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[33] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[34] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[35] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[36] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[37] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[38] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[39] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[40] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[41] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[42] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[43] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[44] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[45] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[46] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[47] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[48] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[49] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[50] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[51] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[52] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[53] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[54] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[55] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[56] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[57] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[58] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[59] Byte 16#0 Non-retain False False False
Rcv_CFG_SFB[60] Byte 16#0 Non-retain False False False
STOP_BITS USInt 1 Non-retain True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks / System blocks / Program resources
MB_COMM_LOAD_DB [DB1]
MB_COMM_LOAD_DB Properties
General
Name MB_COMM_LOAD_DB Number 1 Type DB Language DB
Numbering automatic
Information
Title Author SIMATIC Comment Family MODBUS
Version 2.0 User-definedID
MB_CM_LD
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Input
REQ Bool FALSE False True True False The enable to initiate a Modbus config‐uration operation
PORT PORT 16#FFFF False True True False The PtP hardware address
BAUD UDInt 0 False True True False The baud rate of the PtP port
PARITY UInt 0 False True True False The parity of the PtP port
FLOW_CTRL UInt 0 False True True False Transmit and receive flow control
RTS_ON_DLY UInt 0 False True True False The enable time of RTS before sendingthe first character
RTS_OFF_DLY UInt 0 False True True False The enable time of RTS after sendingthe last character
RESP_TO UInt 1000 False True True False The time to wait for the Modbus slaveto respond
Output
DONE Bool FALSE False True True False Boolean indicating completion withouterror
ERROR Bool FALSE False True True False Boolean indicating completion with er‐ror
STATUS Word W#16#0 False True True False Status of the current operation
InOut
MB_DB MB_BASE False False False False The instance DB of the Modbus masteror slave
Static
ICHAR_GAP UInt 0 False True True False
RETRIES UInt 2 False True True False
WRREC_STATUS Word 2 False True True False
RDREC_STATUS Word 2 False True True False
SFC_STATUS Word 2 False True True False
Port_CFG_SFB Array[0..25] ofByte
False False False False
Port_CFG_SFB[0] Byte 16#0 False False False False
Port_CFG_SFB[1] Byte 16#0 False False False False
Port_CFG_SFB[2] Byte 16#0 False False False False
Port_CFG_SFB[3] Byte 16#0 False False False False
Port_CFG_SFB[4] Byte 16#0 False False False False
Port_CFG_SFB[5] Byte 16#0 False False False False
Port_CFG_SFB[6] Byte 16#0 False False False False
Port_CFG_SFB[7] Byte 16#0 False False False False
Port_CFG_SFB[8] Byte 16#0 False False False False
Port_CFG_SFB[9] Byte 16#0 False False False False
Port_CFG_SFB[10] Byte 16#0 False False False False
Port_CFG_SFB[11] Byte 16#0 False False False False
Port_CFG_SFB[12] Byte 16#0 False False False False
Port_CFG_SFB[13] Byte 16#0 False False False False
Port_CFG_SFB[14] Byte 16#0 False False False False
Port_CFG_SFB[15] Byte 16#0 False False False False
Port_CFG_SFB[16] Byte 16#0 False False False False
Port_CFG_SFB[17] Byte 16#0 False False False False
Port_CFG_SFB[18] Byte 16#0 False False False False
Port_CFG_SFB[19] Byte 16#0 False False False False
Port_CFG_SFB[20] Byte 16#0 False False False False
Port_CFG_SFB[21] Byte 16#0 False False False False
Port_CFG_SFB[22] Byte 16#0 False False False False
Port_CFG_SFB[23] Byte 16#0 False False False False
Port_CFG_SFB[24] Byte 16#0 False False False False
Port_CFG_SFB[25] Byte 16#0 False False False False
Send_CFG_SFB Array[0..16] ofByte
False False False False
Send_CFG_SFB[0] Byte 16#0 False False False False
Send_CFG_SFB[1] Byte 16#0 False False False False
Send_CFG_SFB[2] Byte 16#0 False False False False
Send_CFG_SFB[3] Byte 16#0 False False False False
Send_CFG_SFB[4] Byte 16#0 False False False False
Send_CFG_SFB[5] Byte 16#0 False False False False
Send_CFG_SFB[6] Byte 16#0 False False False False
Send_CFG_SFB[7] Byte 16#0 False False False False
Send_CFG_SFB[8] Byte 16#0 False False False False
Send_CFG_SFB[9] Byte 16#0 False False False False
Send_CFG_SFB[10] Byte 16#0 False False False False
Totally IntegratedAutomation Portal
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Send_CFG_SFB[11] Byte 16#0 False False False False
Send_CFG_SFB[12] Byte 16#0 False False False False
Send_CFG_SFB[13] Byte 16#0 False False False False
Send_CFG_SFB[14] Byte 16#0 False False False False
Send_CFG_SFB[15] Byte 16#0 False False False False
Send_CFG_SFB[16] Byte 16#0 False False False False
Rcv_CFG_SFB Array[0..60] ofByte
False False False False
Rcv_CFG_SFB[0] Byte 16#0 False False False False
Rcv_CFG_SFB[1] Byte 16#0 False False False False
Rcv_CFG_SFB[2] Byte 16#0 False False False False
Rcv_CFG_SFB[3] Byte 16#0 False False False False
Rcv_CFG_SFB[4] Byte 16#0 False False False False
Rcv_CFG_SFB[5] Byte 16#0 False False False False
Rcv_CFG_SFB[6] Byte 16#0 False False False False
Rcv_CFG_SFB[7] Byte 16#0 False False False False
Rcv_CFG_SFB[8] Byte 16#0 False False False False
Rcv_CFG_SFB[9] Byte 16#0 False False False False
Rcv_CFG_SFB[10] Byte 16#0 False False False False
Rcv_CFG_SFB[11] Byte 16#0 False False False False
Rcv_CFG_SFB[12] Byte 16#0 False False False False
Rcv_CFG_SFB[13] Byte 16#0 False False False False
Rcv_CFG_SFB[14] Byte 16#0 False False False False
Rcv_CFG_SFB[15] Byte 16#0 False False False False
Rcv_CFG_SFB[16] Byte 16#0 False False False False
Rcv_CFG_SFB[17] Byte 16#0 False False False False
Rcv_CFG_SFB[18] Byte 16#0 False False False False
Rcv_CFG_SFB[19] Byte 16#0 False False False False
Rcv_CFG_SFB[20] Byte 16#0 False False False False
Rcv_CFG_SFB[21] Byte 16#0 False False False False
Rcv_CFG_SFB[22] Byte 16#0 False False False False
Rcv_CFG_SFB[23] Byte 16#0 False False False False
Rcv_CFG_SFB[24] Byte 16#0 False False False False
Rcv_CFG_SFB[25] Byte 16#0 False False False False
Rcv_CFG_SFB[26] Byte 16#0 False False False False
Rcv_CFG_SFB[27] Byte 16#0 False False False False
Rcv_CFG_SFB[28] Byte 16#0 False False False False
Rcv_CFG_SFB[29] Byte 16#0 False False False False
Rcv_CFG_SFB[30] Byte 16#0 False False False False
Rcv_CFG_SFB[31] Byte 16#0 False False False False
Rcv_CFG_SFB[32] Byte 16#0 False False False False
Rcv_CFG_SFB[33] Byte 16#0 False False False False
Rcv_CFG_SFB[34] Byte 16#0 False False False False
Rcv_CFG_SFB[35] Byte 16#0 False False False False
Rcv_CFG_SFB[36] Byte 16#0 False False False False
Rcv_CFG_SFB[37] Byte 16#0 False False False False
Rcv_CFG_SFB[38] Byte 16#0 False False False False
Rcv_CFG_SFB[39] Byte 16#0 False False False False
Rcv_CFG_SFB[40] Byte 16#0 False False False False
Rcv_CFG_SFB[41] Byte 16#0 False False False False
Rcv_CFG_SFB[42] Byte 16#0 False False False False
Rcv_CFG_SFB[43] Byte 16#0 False False False False
Rcv_CFG_SFB[44] Byte 16#0 False False False False
Rcv_CFG_SFB[45] Byte 16#0 False False False False
Rcv_CFG_SFB[46] Byte 16#0 False False False False
Rcv_CFG_SFB[47] Byte 16#0 False False False False
Rcv_CFG_SFB[48] Byte 16#0 False False False False
Rcv_CFG_SFB[49] Byte 16#0 False False False False
Rcv_CFG_SFB[50] Byte 16#0 False False False False
Rcv_CFG_SFB[51] Byte 16#0 False False False False
Rcv_CFG_SFB[52] Byte 16#0 False False False False
Rcv_CFG_SFB[53] Byte 16#0 False False False False
Rcv_CFG_SFB[54] Byte 16#0 False False False False
Rcv_CFG_SFB[55] Byte 16#0 False False False False
Rcv_CFG_SFB[56] Byte 16#0 False False False False
Rcv_CFG_SFB[57] Byte 16#0 False False False False
Rcv_CFG_SFB[58] Byte 16#0 False False False False
Rcv_CFG_SFB[59] Byte 16#0 False False False False
Rcv_CFG_SFB[60] Byte 16#0 False False False False
STOP_BITS USInt 1 False True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks / System blocks / Program resources
MB_MASTER [FB1081]
MB_MASTER Properties
General
Name MB_MASTER Number 1081 Type FB Language LAD
Numbering automatic
Information
Title Author SIMATIC Comment Family MODBUS
Version 2.0 User-definedID
MB_MASTR
Name Data type Default value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Base MB_BASE True True False
Input
Output
InOut
Static
S_PORT UInt 16#FFFF Non-retain False False False
S_RESP_TO UInt 1000 Non-retain False False False
S_ICHAR_GAP UInt 28 Non-retain False False False
S_RETRIES UInt 2 Non-retain False False False
Input
REQ Bool FALSE Non-retain True True False The enable to initiate a Mod‐bus master request
MB_ADDR UInt 0 Non-retain True True False The station address of theModbus slave
MODE USInt 0 Non-retain True True False Specifies a read, write, or di‐agnostic operation
DATA_ADDR UDInt 0 Non-retain True True False The Modbus data address
DATA_LEN UInt 0 Non-retain True True False The Modbus data length
Output
DONE Bool FALSE Non-retain True True False Boolean indicating comple‐tion without error
BUSY Bool FALSE Non-retain True True False Boolean indicating operationin progress
ERROR Bool FALSE Non-retain True True False Boolean indicating comple‐tion with error
STATUS Word W#16#0 Non-retain True True False Status or error code of thecompleted operation
InOut
DATA_PTR Variant False False False Data area used to communi‐cate with the Modbus slave
Static
SEND_PTP_SFB Array[0..11] ofByte
Non-retain False False False
SEND_PTP_SFB[0] Byte 16#0 Non-retain False False False
SEND_PTP_SFB[1] Byte 16#0 Non-retain False False False
SEND_PTP_SFB[2] Byte 16#0 Non-retain False False False
SEND_PTP_SFB[3] Byte 16#0 Non-retain False False False
SEND_PTP_SFB[4] Byte 16#0 Non-retain False False False
SEND_PTP_SFB[5] Byte 16#0 Non-retain False False False
SEND_PTP_SFB[6] Byte 16#0 Non-retain False False False
SEND_PTP_SFB[7] Byte 16#0 Non-retain False False False
SEND_PTP_SFB[8] Byte 16#0 Non-retain False False False
SEND_PTP_SFB[9] Byte 16#0 Non-retain False False False
SEND_PTP_SFB[10] Byte 16#0 Non-retain False False False
SEND_PTP_SFB[11] Byte 16#0 Non-retain False False False
RCV_PTP_SFB Array[0..11] ofByte
Non-retain False False False
RCV_PTP_SFB[0] Byte 16#0 Non-retain False False False
RCV_PTP_SFB[1] Byte 16#0 Non-retain False False False
RCV_PTP_SFB[2] Byte 16#0 Non-retain False False False
RCV_PTP_SFB[3] Byte 16#0 Non-retain False False False
RCV_PTP_SFB[4] Byte 16#0 Non-retain False False False
RCV_PTP_SFB[5] Byte 16#0 Non-retain False False False
RCV_PTP_SFB[6] Byte 16#0 Non-retain False False False
RCV_PTP_SFB[7] Byte 16#0 Non-retain False False False
RCV_PTP_SFB[8] Byte 16#0 Non-retain False False False
RCV_PTP_SFB[9] Byte 16#0 Non-retain False False False
RCV_PTP_SFB[10] Byte 16#0 Non-retain False False False
RCV_PTP_SFB[11] Byte 16#0 Non-retain False False False
RCV_RST_SFB Array[0..9] ofByte
Non-retain False False False
RCV_RST_SFB[0] Byte 16#0 Non-retain False False False
RCV_RST_SFB[1] Byte 16#0 Non-retain False False False
RCV_RST_SFB[2] Byte 16#0 Non-retain False False False
RCV_RST_SFB[3] Byte 16#0 Non-retain False False False
RCV_RST_SFB[4] Byte 16#0 Non-retain False False False
RCV_RST_SFB[5] Byte 16#0 Non-retain False False False
RCV_RST_SFB[6] Byte 16#0 Non-retain False False False
RCV_RST_SFB[7] Byte 16#0 Non-retain False False False
Totally IntegratedAutomation Portal
Name Data type Default value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
RCV_RST_SFB[8] Byte 16#0 Non-retain False False False
RCV_RST_SFB[9] Byte 16#0 Non-retain False False False
PF_FREQUENCY Real 0.0 Non-retain False False False
BLOCKED_PROC_TIMEOUT Real 0.5 Non-retain True True False
CURRENT_TIME_VALUE UDInt 0 Non-retain False False False
SAVED_TIME_VALUE UDInt 0 Non-retain False False False
SAVED_SLAVE_ADDR Word 0 Non-retain False False False
SAVED_MODE Word 0 Non-retain False False False
SAVED_DATA_ADDR DWord 0 Non-retain False False False
SAVED_DATA_LEN UInt 0 Non-retain False False False
MB_STATE UInt 0 Non-retain False False False
COMM_SENT_COUNT UInt 0 Non-retain False False False
BYTE_COUNT USInt 0 Non-retain False False False
INIT_OK Bool FALSE Non-retain False False False
ACTIVE Bool FALSE Non-retain False False False
BROADCAST_FLAG Bool FALSE Non-retain False False False
EXTENDED_ADDRESSING Bool FALSE Non-retain True True False
SAVED_START_ADDR UInt 0 Non-retain False False False
TXBuf_Function_Offset UDInt 0 Non-retain False False False
TXBuf_Address_Offset UDInt 0 Non-retain False False False
TXBuf_Quantity_Offset UDInt 0 Non-retain False False False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks / System blocks / Program resources
MB_MASTER_DB [DB2]
MB_MASTER_DB Properties
General
Name MB_MASTER_DB Number 2 Type DB Language DB
Numbering automatic
Information
Title Author SIMATIC Comment Family MODBUS
Version 2.0 User-definedID
MB_MASTR
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Base MB_BASE False True True False
Input
Output
InOut
Static
S_PORT UInt 16#FFFF False False False False
S_RESP_TO UInt 1000 False False False False
S_ICHAR_GAP UInt 28 False False False False
S_RETRIES UInt 2 False False False False
Input
REQ Bool FALSE False True True False The enable to initiate a Modbus masterrequest
MB_ADDR UInt 0 False True True False The station address of the Modbusslave
MODE USInt 0 False True True False Specifies a read, write, or diagnosticoperation
DATA_ADDR UDInt 0 False True True False The Modbus data address
DATA_LEN UInt 0 False True True False The Modbus data length
Output
DONE Bool FALSE False True True False Boolean indicating completion withouterror
BUSY Bool FALSE False True True False Boolean indicating operation in pro‐gress
ERROR Bool FALSE False True True False Boolean indicating completion with er‐ror
STATUS Word W#16#0 False True True False Status or error code of the completedoperation
InOut
DATA_PTR Variant False False False False Data area used to communicate withthe Modbus slave
Static
SEND_PTP_SFB Array[0..11] ofByte
False False False False
SEND_PTP_SFB[0] Byte 16#0 False False False False
SEND_PTP_SFB[1] Byte 16#0 False False False False
SEND_PTP_SFB[2] Byte 16#0 False False False False
SEND_PTP_SFB[3] Byte 16#0 False False False False
SEND_PTP_SFB[4] Byte 16#0 False False False False
SEND_PTP_SFB[5] Byte 16#0 False False False False
SEND_PTP_SFB[6] Byte 16#0 False False False False
SEND_PTP_SFB[7] Byte 16#0 False False False False
SEND_PTP_SFB[8] Byte 16#0 False False False False
SEND_PTP_SFB[9] Byte 16#0 False False False False
SEND_PTP_SFB[10] Byte 16#0 False False False False
SEND_PTP_SFB[11] Byte 16#0 False False False False
RCV_PTP_SFB Array[0..11] ofByte
False False False False
RCV_PTP_SFB[0] Byte 16#0 False False False False
RCV_PTP_SFB[1] Byte 16#0 False False False False
RCV_PTP_SFB[2] Byte 16#0 False False False False
RCV_PTP_SFB[3] Byte 16#0 False False False False
RCV_PTP_SFB[4] Byte 16#0 False False False False
RCV_PTP_SFB[5] Byte 16#0 False False False False
RCV_PTP_SFB[6] Byte 16#0 False False False False
RCV_PTP_SFB[7] Byte 16#0 False False False False
RCV_PTP_SFB[8] Byte 16#0 False False False False
RCV_PTP_SFB[9] Byte 16#0 False False False False
RCV_PTP_SFB[10] Byte 16#0 False False False False
RCV_PTP_SFB[11] Byte 16#0 False False False False
RCV_RST_SFB Array[0..9] ofByte
False False False False
RCV_RST_SFB[0] Byte 16#0 False False False False
RCV_RST_SFB[1] Byte 16#0 False False False False
RCV_RST_SFB[2] Byte 16#0 False False False False
RCV_RST_SFB[3] Byte 16#0 False False False False
RCV_RST_SFB[4] Byte 16#0 False False False False
RCV_RST_SFB[5] Byte 16#0 False False False False
RCV_RST_SFB[6] Byte 16#0 False False False False
RCV_RST_SFB[7] Byte 16#0 False False False False
Totally IntegratedAutomation Portal
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
RCV_RST_SFB[8] Byte 16#0 False False False False
RCV_RST_SFB[9] Byte 16#0 False False False False
PF_FREQUENCY Real 0.0 False False False False
BLOCKED_PROC_TIMEOUT Real 0.5 False True True False
CURRENT_TIME_VALUE UDInt 0 False False False False
SAVED_TIME_VALUE UDInt 0 False False False False
SAVED_SLAVE_ADDR Word 0 False False False False
SAVED_MODE Word 0 False False False False
SAVED_DATA_ADDR DWord 0 False False False False
SAVED_DATA_LEN UInt 0 False False False False
MB_STATE UInt 0 False False False False
COMM_SENT_COUNT UInt 0 False False False False
BYTE_COUNT USInt 0 False False False False
INIT_OK Bool FALSE False False False False
ACTIVE Bool FALSE False False False False
BROADCAST_FLAG Bool FALSE False False False False
EXTENDED_ADDRESSING Bool FALSE False True True False
SAVED_START_ADDR UInt 0 False False False False
TXBuf_Function_Offset UDInt 0 False False False False
TXBuf_Address_Offset UDInt 0 False False False False
TXBuf_Quantity_Offset UDInt 0 False False False False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Program blocks / System blocks / Program resources
IEC_Timer_0_DB [DB7]
IEC_Timer_0_DB Properties
General
Name IEC_Timer_0_DB Number 7 Type DB Language DB
Numbering automatic
Information
Title Author Simatic Comment Family IEC
Version 1.0 User-definedID
IEC_TMR
Name Data type Start value Retain Accessiblefrom HMI
Visible inHMI
Setpoint Comment
Static
ST Time T#0ms False True True False
PT Time T#0ms False True True False
ET Time T#0ms False True True False
RU Bool false False False False False
IN Bool false False True True False
Q Bool false False True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly]
Technology objects
This folder is empty.
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / PLC tags / Default tag table [409]
PLC tags
PLC tags
Name Data type Address Retain Visible inHMI
Accessiblefrom HMI
Comment
System_Byte Byte %MB2 False True True
FirstScan Bool %M2.0 False True True
DiagStatusUpdate Bool %M2.1 False True True
AlwaysTRUE Bool %M2.2 False True True
AlwaysFALSE Bool %M2.3 False True True
Clock_Byte Byte %MB3 False True True
Clock_10Hz Bool %M3.0 False True True
Clock_5Hz Bool %M3.1 False True True
Clock_2.5Hz Bool %M3.2 False True True
Clock_2Hz Bool %M3.3 False True True
Clock_1.25Hz Bool %M3.4 False True True
Clock_1Hz Bool %M3.5 False True True
Clock_0.625Hz Bool %M3.6 False True True
Clock_0.5Hz Bool %M3.7 False True True
WR_SYS_T_HMI Bool %M100.2 False True True
8CT1 (0....400A) Int %IW128 False True True
REQ SLAVE 10 Bool %M100.7 False True True
REQ SLAVE 11 Bool %M101.0 False True True
DONE SLAVE 11 Bool %M200.0 False True True
BUSY SLAVE 11 Bool %M200.1 False True True
ERROR SLAVE 11 Bool %M200.2 False True True
DONE SLAVE 10 Bool %M300.0 False True True
BUSY SLAVE 10 Bool %M300.1 False True True
ERROR SLAVE 10 Bool %M300.2 False True True
8Q1 MCCB ON_INPUT Bool %I0.0 False True True
8Q1 MCCB ON_MEMORY BIT Bool %M0.0 False True True
8Q1 MCCB TRIP_INPUT Bool %I0.1 False True True
8K1 CONTACTOR ON FEED BACK_INPUT Bool %I0.2 False True True
8Q1 MCCB TRIP_MEMORY BIT Bool %M0.1 False True True
8K1 CONTACTOR ON FEED BACK_MEMORYBIT
Bool %M0.2 False True True
8Q4 MCCB ON_INPUT Bool %I0.3 False True True
8Q4 MCCB TRIP_INPUT Bool %I0.4 False True True
8Q4 MCCB ON_MEMORY BIT Bool %M0.3 False True True
8Q4 MCCB TRIP_MEMORY BIT Bool %M0.4 False True True
8K4 CONTACTOR ON FEED BACK_INPUT Bool %I0.5 False True True
8K4 CONTACTOR ON FEED BACK_MEMORYBIT
Bool %M0.5 False True True
8Q8 MCCB ON_INPUT Bool %I0.6 False True True
8Q8 MCCB ON_MEMORY BIT Bool %M0.6 False True True
8Q8 MCCB TRIP_INPUT Bool %I0.7 False True True
8Q8 MCCB TRIP_MEMORY BIT Bool %M0.7 False True True
8K8 CONTACTOR ON FEED BACK_INPUT Bool %I1.0 False True True
8K8 CONTACTOR ON FEED BACK_MEMORYBIT
Bool %M1.0 False True True
9Q1 MCCB ON_INPUT Bool %I1.1 False True True
9Q1 MCCB ON_MEMORY BIT Bool %M1.1 False True True
9Q1 MCCB TRIP_MEMORY BIT Bool %M1.2 False True True
9Q1 MCCB TRIP_INPUT Bool %I1.2 False True True
9K1 CONTACTOR ON FEED BACK_INPUT Bool %I1.3 False True True
9K1 CONTACTOR ON FEED BACK_MEMORYBIT
Bool %M1.3 False True True
9Q4 MCCB ON_INPUT Bool %I1.4 False True True
9Q4 MCCB ON_MEMORY BIT Bool %M1.4 False True True
9Q4 MCCB TRIP_INPUT Bool %I1.5 False True True
9Q4 MCCB TRIP_MEMORY BIT Bool %M1.5 False True True
6U1 CHARGER FAILURE MEMORY BIT Bool %M4.0 False True True
6U1 CHARGER FAILURE Bool %I4.0 False True True
6U7 CHARGER FAILURE Bool %I4.1 False True True
6U7 CHARGER FAILURE MEMORY BIT Bool %M4.1 False True True
SPARE(3) Bool %M4.2 False True True
SPARE Bool %I4.2 False True True
Totally IntegratedAutomation Portal
Name Data type Address Retain Visible inHMI
Accessiblefrom HMI
Comment
SPARE(1) Bool %I4.3 False True True
SPARE(4) Bool %M4.3 False True True
9K4 CONTACTOR ON FEED BACK_INPUT Bool %I8.0 False True True
9K4 CONTACTOR ON FEED BACK_MEMORYBIT
Bool %M8.0 False True True
9Q8 MCCB ON_INPUT Bool %I8.1 False True True
9Q8 MCCB TRIP_INPUT Bool %I8.2 False True True
9K8 CONTACTOR ON FEED BACK_INPUT Bool %I8.3 False True True
10Q1 MCCB ON_INPUT Bool %I8.4 False True True
10Q1 MCCB TRIP_INPUT Bool %I8.5 False True True
10K1 CONTACTOR ON FEED BACK_INPUT Bool %I8.6 False True True
10Q4 MCCB ON_INPUT Bool %I8.7 False True True
10Q4 MCCB TRIP_INPUT Bool %I9.0 False True True
10K4 CONTACTOR ON FEED BACK_INPUT Bool %I9.1 False True True
11Q1 MCCB ON_INPUT Bool %I9.2 False True True
11Q1 MCCB TRIP_INPUT Bool %I9.3 False True True
11K1 CONTACTOR ON FEED BACK_INPUT Bool %I9.4 False True True
11Q4 MCCB ON_INPUT Bool %I9.5 False True True
11Q4 MCCB TRIP_INPUT Bool %I9.6 False True True
11K4 CONTACTOR ON FEED BACK_INPUT Bool %I9.7 False True True
9Q8 MCCB ON_MEMORY BIT Bool %M8.1 False True True
9Q8 MCCB TRIP_MEMORY BIT Bool %M8.2 False True True
9K8 CONTACTOR ON FEED BACK_MEMORYBIT
Bool %M8.3 False True True
10Q1 MCCB ON_MEMORY BIT Bool %M8.4 False True True
10Q1 MCCB TRIP_MEMORY BIT Bool %M8.5 False True True
10K1 CONTACTOR ON FEED BACK_MEMO‐RY BIT
Bool %M8.6 False True True
10Q4 MCCB ON_MEMORY BIT Bool %M8.7 False True True
10Q4 MCCB TRIP_MEMORY BIT Bool %M9.0 False True True
10K4 CONTACTOR ON FEED BACK_MEMO‐RY BIT
Bool %M9.1 False True True
11Q1 MCCB ON_MEMORY BIT Bool %M9.2 False True True
11Q1 MCCB TRIP_MEMORY BIT Bool %M9.3 False True True
11K1 CONTACTOR ON FEED BACK_MEMO‐RY BIT
Bool %M9.4 False True True
11Q4 MCCB ON_MEMORY BIT Bool %M9.5 False True True
11Q4 MCCB TRIP_MEMORY BIT Bool %M9.6 False True True
11K4 CONTACTOR ON FEED BACK_MEMO‐RY BIT
Bool %M9.7 False True True
11Q8 MCCB ON_INPUT Bool %I12.0 False True True
11Q8 MCCB TRIP_INPUT Bool %I12.1 False True True
11Q8 MCCB ON_MEMORY BIT Bool %M12.0 False True True
11Q8 MCCB TRIP_MEMORY BIT Bool %M12.1 False True True
11K8 CONTACTOR ON FEED BACK_INPUT Bool %I12.2 False True True
11K8 CONTACTOR ON FEED BACK_MEMO‐RY BIT
Bool %M12.2 False True True
12Q1 MCCB ON_INPUT Bool %I12.3 False True True
12Q1 MCCB ON_MEMORY BIT Bool %M12.3 False True True
12Q1 MCCB TRIP_INPUT Bool %I12.4 False True True
12Q1 MCCB TRIP_MEMORY BIT Bool %M12.4 False True True
12K1 CONTACTOR ON FEED BACK_INPUT Bool %I12.5 False True True
12K1 CONTACTOR ON FEED BACK_MEMO‐RY BIT
Bool %M12.5 False True True
13Q1 MCCB ON_INPUT Bool %I12.6 False True True
13Q1 MCCB ON_MEMORY BIT Bool %M12.6 False True True
13Q1 MCCB TRIP_INPUT Bool %I12.7 False True True
13Q1 MCCB TRIP_MEMORY BIT Bool %M12.7 False True True
13K1 CONTACTOR ON FEED BACK_INPUT Bool %I13.0 False True True
13K1 CONTACTOR ON FEED BACK_MEMO‐RY BIT
Bool %M13.0 False True True
13Q4 MCCB ON_INPUT Bool %I13.1 False True True
13Q4 MCCB TRIP_INPUT Bool %I13.2 False True True
13Q4 MCCB ON_MEMORY BIT Bool %M13.1 False True True
13K4 CONTACTOR ON FEED BACK_MEMO‐RY BIT
Bool %M13.3 False True True
13Q4 MCCB TRIP_MEMORY BIT Bool %M13.2 False True True
13K4 CONTACTOR ON FEED BACK_INPUT Bool %I13.3 False True True
13Q8 MCCB ON_INPUT Bool %I13.4 False True True
13Q8 MCCB ON_MEMORY BIT Bool %M13.4 False True True
Totally IntegratedAutomation Portal
Name Data type Address Retain Visible inHMI
Accessiblefrom HMI
Comment
13Q8 MCCB TRIP_INPUT Bool %I13.5 False True True
13Q8 MCCB TRIP_MEMORY BIT Bool %M13.5 False True True
13K8 CONTACTOR ON FEED BACK_INPUT Bool %I13.6 False True True
13K8 CONTACTOR ON FEED BACK_MEMO‐RY BIT
Bool %M13.6 False True True
GENERATOR ACB CLOSE INPUT Bool %I13.7 False True True
GENERATOR ACB CLOSE MEMORY BIT Bool %M13.7 False True True
8CT1.1 (0....400A) Int %IW130 False True True
8CT1.2 (0....400A) Int %IW132 False True True
8CT4 (0....400A) Int %IW134 False True True
8CT4.1 (0....400A) Int %IW136 False True True
8CT4.2 (0....400A) Int %IW138 False True True
8CT8 (0....400A) Int %IW140 False True True
8CT8.1 (0....400A) Int %IW142 False True True
8CT8.2 (0....400A) Int %IW144 False True True
9CT1 (0....400A) Int %IW146 False True True
9CT1.1 (0....400A) Int %IW148 False True True
9CT1.2 (0....400A) Int %IW150 False True True
9CT4 (0....250A) Int %IW152 False True True
9CT4.1 (0....250A) Int %IW154 False True True
9CT4.2 (0....250A) Int %IW156 False True True
9CT8 (0....250A) Int %IW158 False True True
9CT8.1 (0....250A) Int %IW160 False True True
9CT8.2 (0....250A) Int %IW162 False True True
10CT1 (0....250A) Int %IW164 False True True
10CT1.1 (0....250A) Int %IW166 False True True
10CT1.2 (0....250A) Int %IW168 False True True
10CT4 (0....250A) Int %IW170 False True True
10CT4.1 (0....250A) Int %IW172 False True True
10CT4.2 (0....250A) Int %IW174 False True True
11CT1 (0....100A) Int %IW176 False True True
11CT1.1 (0....100A) Int %IW178 False True True
11CT1.2 (0....100A) Int %IW180 False True True
11CT4 (0....100A) Int %IW182 False True True
11CT4.1 (0....100A) Int %IW184 False True True
11CT4.2 (0....100A) Int %IW186 False True True
11CT8 (0....100A) Int %IW188 False True True
11CT8.1 (0....100A) Int %IW190 False True True
11CT8.2 (0....100A) Int %IW192 False True True
12CT1 (0....100A) Int %IW194 False True True
12CT1.1 (0....100A) Int %IW196 False True True
12CT1.2 (0....100A) Int %IW198 False True True
13CT1 (0....100A) Int %IW200 False True True
13CT1.1 (0....100A) Int %IW202 False True True
13CT1.2 (0....100A) Int %IW204 False True True
13CT4 (0....100A) Int %IW206 False True True
13CT4.1 (0....100A) Int %IW208 False True True
13CT4.2 (0....100A) Int %IW210 False True True
13CT8 (0....40A) Int %IW212 False True True
13CT8.1 (0....40A) Int %IW214 False True True
13CT8.2 (0....40A) Int %IW216 False True True
SPARE(6) Int %IW218 False True True
SPARE(7) Int %IW220 False True True
SPARE(8) Int %IW222 False True True
SPARE(9) Int %IW64 False True True
SPARE(10) Int %IW66 False True True
INITIAL START REQUEST Bool %M101.2 False True True
8K1 CONTACTOR ON OUTPUT 16R2 Bool %Q0.0 False True True
8K4 CONTACTOR ON OUTPUT 16R2.1 Bool %Q0.1 False True True
8K8 CONTACTOR ON OUTPUT 16R3 Bool %Q0.2 False True True
9K1 CONTACTOR ON OUTPUT 16R3.1 Bool %Q0.3 False True True
9K4 CONTACTOR ON OUTPUT 16R4 Bool %Q0.4 False True True
9K8 CONTACTOR ON OUTPUT 16R4.1 Bool %Q0.5 False True True
10K1 CONTACTOR ON OUTPUT 16R5 Bool %Q0.6 False True True
Totally IntegratedAutomation Portal
Name Data type Address Retain Visible inHMI
Accessiblefrom HMI
Comment
10K4 CONTACTOR ON OUTPUT 16R5.1 Bool %Q0.7 False True True
11K1 CONTACTOR ON OUTPUT 16R6 Bool %Q1.0 False True True
11K4 CONTACTOR ON OUTPUT 16R6.1 Bool %Q1.1 False True True
11K8 CONTACTOR ON OUTPUT 18R1 Bool %Q8.0 False True True
12K1 CONTACTOR ON OUTPUT 18R1.1 Bool %Q8.1 False True True
13K1 CONTACTOR ON OUTPUT 18R2 Bool %Q8.2 False True True
13K4 CONTACTOR ON OUTPUT 18R2.1 Bool %Q8.3 False True True
13K8 CONTACTOR ON OUTPUT 18R3 Bool %Q8.4 False True True
SPARE 18R3.1 Bool %Q8.5 False True True
SPARE 18R4 Bool %Q8.6 False True True
SPARE 18R4.1 Bool %Q8.7 False True True
SPARE 18R5 Bool %Q9.0 False True True
SPARE 18R5.1 Bool %Q9.1 False True True
SPARE 18R6 Bool %Q9.2 False True True
SPARE 18R6.1 Bool %Q9.3 False True True
SPARE 18R7 Bool %Q9.4 False True True
SPARE 18R7.1 Bool %Q9.5 False True True
SPARE 18R8 Bool %Q9.6 False True True
SPARE 18R8.1 Bool %Q9.7 False True True
SPARE 20R1 Bool %Q12.0 False True True
SPARE 20R1.1 Bool %Q12.1 False True True
8K1_400A_OVER LOADED SET BIT Bool %M102.0 False True True
8K1_400A_REVERT SET BIT Bool %M102.1 False True True
8K4_400A_OVER LOADED SET BIT Bool %M102.2 False True True
8K4_400A_REVERT SET BIT Bool %M102.3 False True True
8K8_400A_OVER LOADED SET BIT Bool %M102.4 False True True
8K8_400A_REVERT SET BIT Bool %M102.5 False True True
9K1_400A_OVER LOADED SET BIT Bool %M102.6 False True True
9K1_400A_REVERT SET BIT Bool %M102.7 False True True
9K4_250A_OVER LOADED SET BIT Bool %M103.0 False True True
9K4_250A_REVERT SET BIT Bool %M103.1 False True True
9K8_250A_OVER LOADED SET BIT Bool %M103.2 False True True
9K8_250A_REVERT SET BIT Bool %M103.3 False True True
10K1_250A_OVER LOADED SET BIT Bool %M103.4 False True True
10K1_250A_REVERT SET BIT Bool %M103.5 False True True
10K4_250A_OVER LOADED SET BIT Bool %M103.6 False True True
10K4_250A_REVERT SET BIT Bool %M103.7 False True True
11K1_100A_OVER LOADED SET BIT Bool %M104.0 False True True
11K1_100A_REVERT SET BIT Bool %M104.1 False True True
11K4_100A_OVER LOADED SET BIT Bool %M104.2 False True True
11K4_100A_REVERT SET BIT Bool %M104.3 False True True
11K8_100A_OVER LOADED SET BIT Bool %M104.4 False True True
11K8_100A_REVERT SET BIT Bool %M104.5 False True True
12K1_100A_OVER LOADED SET BIT Bool %M104.6 False True True
12K1_100A_REVERT SET BIT Bool %M104.7 False True True
13K1_80A_OVER LOADED SET BIT Bool %M105.0 False True True
13K1_80A_REVERT SET BIT Bool %M105.1 False True True
13K4_63A_OVER LOADED SET BIT Bool %M105.2 False True True
13K4_63A_REVERT SET BIT Bool %M105.3 False True True
13K8_25A_OVER LOADED SET BIT Bool %M105.4 False True True
13K8_25A_REVERT SET BIT Bool %M105.5 False True True
HMI MESSAGES MW400 Word %MW400 False True True
HMI MESSAGES MW402 Word %MW402 False True True
HMI MESSAGES MW404 Word %MW404 False True True
HMI MESSAGES MW406 Word %MW406 False True True
8Q1 MCCB OFF_MESSAGE BIT Bool %M400.0 False True True
8Q1 MCCB TRIP_MESSAGE BIT Bool %M400.1 False True True
8Q4 MCCB OFF MESSAGE BIT Bool %M400.2 False True True
8Q4 MCCB TRIP_MESSAGE BIT Bool %M400.3 False True True
8Q8 MCCB OFF MESSAGE BIT Bool %M400.4 False True True
8Q8 MCCB TRIP_MESSAGE BIT Bool %M400.5 False True True
9Q1 MCCB OFF MESSAGE BIT Bool %M400.6 False True True
9Q1 MCCB TRIP_MESSAGE BIT Bool %M400.7 False True True
9Q4 MCCB OFF MESSAGE BIT Bool %M401.0 False True True
Totally IntegratedAutomation Portal
Name Data type Address Retain Visible inHMI
Accessiblefrom HMI
Comment
9Q4 MCCB TRIP_MESSAGE BIT Bool %M401.1 False True True
6U1 CHARGER FAILURE MESSAGE BIT Bool %M401.2 False True True
6U7 CHARGER FAILURE MESSAGE BIT Bool %M401.3 False True True
SPARE(11) Bool %M401.4 False True True
SPARE(12) Bool %M401.5 False True True
9Q8 MCCB OFF_MESSAGE BIT Bool %M401.6 False True True
9Q8 MCCB TRIP_MESSAGE BIT Bool %M401.7 False True True
10Q1 MCCB OFF_MESSAGE BIT Bool %M402.0 False True True
10Q1 MCCB TRIP_MESSAGE BIT Bool %M402.1 False True True
10Q4 MCCB OFF_MESSAGE BIT Bool %M402.2 False True True
10Q4 MCCB TRIP_MESSAGE BIT Bool %M402.3 False True True
11Q1 MCCB OFF_MESSAGE BIT Bool %M402.4 False True True
11Q1 MCCB TRIP_MESSAGE BIT Bool %M402.5 False True True
11Q4 MCCB OFF_MESSAGE BIT Bool %M402.6 False True True
11Q4 MCCB TRIP_MESSAGE BIT Bool %M402.7 False True True
11Q8 MCCB OFF_MESSAGE BIT Bool %M403.0 False True True
11Q8 MCCB TRIP_MESSAGE BIT Bool %M403.1 False True True
12Q1 MCCB OFF_MESSAGE BIT Bool %M403.2 False True True
12Q1 MCCB TRIP_MESSAGE BIT Bool %M403.3 False True True
13Q1 MCCB OFF_MESSAGE BIT Bool %M403.4 False True True
13Q1 MCCB TRIP_MESSAGE BIT Bool %M403.5 False True True
13Q4 MCCB OFF_MESSAGE BIT Bool %M403.6 False True True
13Q4 MCCB TRIP_MESSAGE BIT Bool %M403.7 False True True
13Q8 MCCB OFF_MESSAGE BIT Bool %M404.0 False True True
13Q8 MCCB TRIP_MESSAGE BIT Bool %M404.1 False True True
MAINS ACB INCOMING SUPPLY FAILED Bool %M404.2 False True True
MESSAGE RESET HMI Bool %M150.0 False True True
8K1_400A_L1 LOAD LIMIT EXCCEEDED Bool %M405.0 False True True
8K1_400A_L2 LOAD LIMIT EXCCEEDED Bool %M405.1 False True True
8K1_400A_L3 LOAD LIMIT EXCCEEDED Bool %M405.2 False True True
HMI MESSAGES MW408 Word %MW408 False True True
HMI MESSAGES MW410 Word %MW410 False True True
8K4_400A_L1 LOAD LIMIT EXCCEEDED Bool %M405.3 False True True
8K4_400A_L2 LOAD LIMIT EXCCEEDED Bool %M405.4 False True True
8K4_400A_L3 LOAD LIMIT EXCCEEDED Bool %M405.5 False True True
8K8_400A_L1 LOAD LIMIT EXCCEEDED Bool %M405.6 False True True
8K8_400A_L2 LOAD LIMIT EXCCEEDED Bool %M405.7 False True True
8K8_400A_L3 LOAD LIMIT EXCCEEDED Bool %M406.0 False True True
HMI MESSAGES MW412 Word %MW412 False True True
8K1_AUXILIARY FEED BACK FAULT Bool %M412.0 False True True
8K4_AUXILIARY FEED BACK FAULT Bool %M412.1 False True True
8K8_AUXILIARY FEED BACK FAULT Bool %M412.2 False True True
9K1_AUXILIARY FEED BACK FAULT Bool %M412.3 False True True
9K1_400A_L1 LOAD LIMIT EXCCEEDED Bool %M406.1 False True True
9K1_400A_L2 LOAD LIMIT EXCCEEDED Bool %M406.2 False True True
9K1_400A_L3 LOAD LIMIT EXCCEEDED Bool %M406.3 False True True
9K4_AUXILIARY FEED BACK FAULT Bool %M412.4 False True True
9K8_AUXILIARY FEED BACK FAULT Bool %M412.5 False True True
10K1_AUXILIARY FEED BACK FAULT Bool %M412.6 False True True
10K4_AUXILIARY FEED BACK FAULT Bool %M412.7 False True True
9K4_250A_L1 LOAD LIMIT EXCCEEDED Bool %M406.4 False True True
9K4_250A_L2 LOAD LIMIT EXCCEEDED Bool %M406.5 False True True
9K4_250A_L3 LOAD LIMIT EXCCEEDED Bool %M406.6 False True True
9K8_250A_L1 LOAD LIMIT EXCCEEDED Bool %M406.7 False True True
9K8_250A_L2 LOAD LIMIT EXCCEEDED Bool %M407.0 False True True
9K8_250A_L3 LOAD LIMIT EXCCEEDED Bool %M407.1 False True True
10K1_250A_L1 LOAD LIMIT EXCCEEDED Bool %M407.2 False True True
10K1_250A_L2 LOAD LIMIT EXCCEEDED Bool %M407.3 False True True
10K1_250A_L3 LOAD LIMIT EXCCEEDED Bool %M407.4 False True True
10K4_250A_L1 LOAD LIMIT EXCCEEDED Bool %M407.5 False True True
10K4_250A_L2 LOAD LIMIT EXCCEEDED Bool %M407.6 False True True
10K4_250A_L3 LOAD LIMIT EXCCEEDED Bool %M407.7 False True True
11K1_AUXILIARY FEED BACK FAULT Bool %M413.0 False True True
11K4_AUXILIARY FEED BACK FAULT Bool %M413.1 False True True
Totally IntegratedAutomation Portal
Name Data type Address Retain Visible inHMI
Accessiblefrom HMI
Comment
11K8_AUXILIARY FEED BACK FAULT Bool %M413.2 False True True
12K1_AUXILIARY FEED BACK FAULT Bool %M413.3 False True True
11K1_100A_L1 LOAD LIMIT EXCCEEDED Bool %M408.0 False True True
11K1_100A_L2 LOAD LIMIT EXCCEEDED Bool %M408.1 False True True
11K1_100A_L3 LOAD LIMIT EXCCEEDED Bool %M408.2 False True True
11K4_100A_L1 LOAD LIMIT EXCCEEDED Bool %M408.3 False True True
11K4_100A_L2 LOAD LIMIT EXCCEEDED Bool %M408.4 False True True
11K4_100A_L3 LOAD LIMIT EXCCEEDED Bool %M408.5 False True True
11K8_100A_L1 LOAD LIMIT EXCCEEDED Bool %M408.6 False True True
11K8_100A_L2 LOAD LIMIT EXCCEEDED Bool %M408.7 False True True
11K8_100A_L3 LOAD LIMIT EXCCEEDED Bool %M409.0 False True True
12K1_100A_L1 LOAD LIMIT EXCCEEDED Bool %M409.1 False True True
12K1_100A_L2 LOAD LIMIT EXCCEEDED Bool %M409.2 False True True
12K1_100A_L3 LOAD LIMIT EXCCEEDED Bool %M409.3 False True True
13K1_AUXILIARY FEED BACK FAULT Bool %M413.4 False True True
13K4_AUXILIARY FEED BACK FAULT Bool %M413.5 False True True
13K8_AUXILIARY FEED BACK FAULT Bool %M413.6 False True True
13K1_80A_L1 LOAD LIMIT EXCCEEDED Bool %M409.4 False True True
13K1_80A_L2 LOAD LIMIT EXCCEEDED Bool %M409.5 False True True
13K1_80A_L3 LOAD LIMIT EXCCEEDED Bool %M409.6 False True True
13K4_63A_L1 LOAD LIMIT EXCCEEDED Bool %M409.7 False True True
13K4_63A_L2 LOAD LIMIT EXCCEEDED Bool %M410.0 False True True
13K4_63A_L3 LOAD LIMIT EXCCEEDED Bool %M410.1 False True True
13K8_25A_L1 LOAD LIMIT EXCCEEDED Bool %M410.2 False True True
13K8_25A_L2 LOAD LIMIT EXCCEEDED Bool %M410.3 False True True
13K8_25A_L3 LOAD LIMIT EXCCEEDED Bool %M410.4 False True True
8K1_400A_AUTO/MANUAL SELECTION Bool %M160.0 False True True
8K4_400A_AUTO/MANUAL SELECTION Bool %M160.1 False True True
8K8_400A_AUTO/MANUAL SELECTION Bool %M160.2 False True True
9K1_400A_AUTO/MANUAL SELECTION Bool %M160.3 False True True
9K4_250A_AUTO/MANUAL SELECTION Bool %M160.4 False True True
9K8_250A_AUTO/MANUAL SELECTION Bool %M160.5 False True True
10K1_250A_AUTO/MANUAL SELECTION Bool %M160.6 False True True
10K4_250A_AUTO/MANUAL SELECTION Bool %M160.7 False True True
11K1_100A_AUTO/MANUAL SELECTION Bool %M161.0 False True True
11K4_100A_AUTO/MANUAL SELECTION Bool %M161.1 False True True
11K8_100A_AUTO/MANUAL SELECTION Bool %M161.2 False True True
12K1_100A_AUTO/MANUAL SELECTION Bool %M161.3 False True True
13K1_80A_AUTO/MANUAL SELECTION Bool %M161.4 False True True
13K4_63A_AUTO/MANUAL SELECTION Bool %M161.5 False True True
13K8_25A_AUTO/MANUAL SELECTION Bool %M161.6 False True True
8K1_400A_MANUAL ON/OFF Bool %M170.0 False True True
8K4_400A_MANUAL ON/OFF Bool %M170.1 False True True
8K8_400A_MANUAL ON/OFF Bool %M170.2 False True True
9K1_400A_MANUAL ON/OFF Bool %M170.3 False True True
9K4_250A_MANUAL ON/OFF Bool %M170.4 False True True
9K8_250A_MANUAL ON/OFF Bool %M170.5 False True True
10K1_250A_MANUAL ON/OFF Bool %M170.6 False True True
10K4_250A_MANUAL ON/OFF Bool %M170.7 False True True
11K1_100A_MANUAL ON/OFF Bool %M171.0 False True True
11K4_100A_MANUAL ON/OFF Bool %M171.1 False True True
11K8_100A_MANUAL ON/OFF Bool %M171.2 False True True
12K1_100A_MANUAL ON/OFF Bool %M171.3 False True True
13K1_80A_MANUAL ON/OFF Bool %M171.4 False True True
13K4_63A_MANUAL ON/OFF Bool %M171.5 False True True
13K8_25A_MANUAL ON/OFF Bool %M171.6 False True True
GENERATOR ACB INCOMING SUPPLYFAILED
Bool %M404.3 False True True
HMI MESSAGES MW414 Word %MW414 False True True
8K1_400A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M414.0 False True True
8K4_400A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M414.1 False True True
8K8_400A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M414.2 False True True
9K1_400A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M414.3 False True True
Totally IntegratedAutomation Portal
Name Data type Address Retain Visible inHMI
Accessiblefrom HMI
Comment
9K4_250A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M414.4 False True True
9K8_250A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M414.5 False True True
10K1_250A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M414.6 False True True
10K4_250A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M414.7 False True True
11K1_100A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M415.0 False True True
11K4_100A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M415.1 False True True
11K8_100A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M415.2 False True True
12K1_100A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M415.3 False True True
13K1_80A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M415.4 False True True
13K4_63A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M415.5 False True True
13K8_25A_AUTO/MANUAL SELECTIONMESSAGE BIT
Bool %M415.6 False True True
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / PLC tags / Default tag table [409]
User constants
User constants
Name Data type Value Comment
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / PLC data types
UDT_DATA_PTR_SLAVE_10
UDT_DATA_PTR_SLAVE_10 Properties
General
Name UDT_DATA_PTR_SLAVE_10 Number 3 Type UDT Language
Numbering
Information
Title Author Comment Family
Version User-definedID
Name Data type Default value Accessiblefrom HMI
Visible inHMI
Setpoint Comment
DATA Array[0..20] of Int True True False
DATA[0] Int 0 True True False
DATA[1] Int 0 True True False
DATA[2] Int 0 True True False
DATA[3] Int 0 True True False
DATA[4] Int 0 True True False
DATA[5] Int 0 True True False
DATA[6] Int 0 True True False
DATA[7] Int 0 True True False
DATA[8] Int 0 True True False
DATA[9] Int 0 True True False
DATA[10] Int 0 True True False
DATA[11] Int 0 True True False
DATA[12] Int 0 True True False
DATA[13] Int 0 True True False
DATA[14] Int 0 True True False
DATA[15] Int 0 True True False
DATA[16] Int 0 True True False
DATA[17] Int 0 True True False
DATA[18] Int 0 True True False
DATA[19] Int 0 True True False
DATA[20] Int 0 True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / PLC data types
UDT_MB_MASTER_SLAVE_10
UDT_MB_MASTER_SLAVE_10 Properties
General
Name UDT_MB_MAS‐TER_SLAVE_10
Number 2 Type UDT Language
Numbering
Information
Title Author Comment Family
Version User-definedID
Name Data type Default value Accessiblefrom HMI
Visible inHMI
Setpoint Comment
DATA_PTR "UDT_DA‐TA_PTR_SLAVE_10"
True True False Data area used to communicate with the Modbusslave
DATA Array[0..20] of Int True True False
DATA[0] Int 0 True True False
DATA[1] Int 0 True True False
DATA[2] Int 0 True True False
DATA[3] Int 0 True True False
DATA[4] Int 0 True True False
DATA[5] Int 0 True True False
DATA[6] Int 0 True True False
DATA[7] Int 0 True True False
DATA[8] Int 0 True True False
DATA[9] Int 0 True True False
DATA[10] Int 0 True True False
DATA[11] Int 0 True True False
DATA[12] Int 0 True True False
DATA[13] Int 0 True True False
DATA[14] Int 0 True True False
DATA[15] Int 0 True True False
DATA[16] Int 0 True True False
DATA[17] Int 0 True True False
DATA[18] Int 0 True True False
DATA[19] Int 0 True True False
DATA[20] Int 0 True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / PLC data types
UDT_DATA_PTR_SLAVE_11
UDT_DATA_PTR_SLAVE_11 Properties
General
Name UDT_DATA_PTR_SLAVE_11 Number 4 Type UDT Language
Numbering
Information
Title Author Comment Family
Version User-definedID
Name Data type Default value Accessiblefrom HMI
Visible inHMI
Setpoint Comment
DATA Array[0..90] of Int True True False
DATA[0] Int 0 True True False
DATA[1] Int 0 True True False
DATA[2] Int 0 True True False
DATA[3] Int 0 True True False
DATA[4] Int 0 True True False
DATA[5] Int 0 True True False
DATA[6] Int 0 True True False
DATA[7] Int 0 True True False
DATA[8] Int 0 True True False
DATA[9] Int 0 True True False
DATA[10] Int 0 True True False
DATA[11] Int 0 True True False
DATA[12] Int 0 True True False
DATA[13] Int 0 True True False
DATA[14] Int 0 True True False
DATA[15] Int 0 True True False
DATA[16] Int 0 True True False
DATA[17] Int 0 True True False
DATA[18] Int 0 True True False
DATA[19] Int 0 True True False
DATA[20] Int 0 True True False
DATA[21] Int 0 True True False
DATA[22] Int 0 True True False
DATA[23] Int 0 True True False
DATA[24] Int 0 True True False
DATA[25] Int 0 True True False
DATA[26] Int 0 True True False
DATA[27] Int 0 True True False
DATA[28] Int 0 True True False
DATA[29] Int 0 True True False
DATA[30] Int 0 True True False
DATA[31] Int 0 True True False
DATA[32] Int 0 True True False
DATA[33] Int 0 True True False
DATA[34] Int 0 True True False
DATA[35] Int 0 True True False
DATA[36] Int 0 True True False
DATA[37] Int 0 True True False
DATA[38] Int 0 True True False
DATA[39] Int 0 True True False
DATA[40] Int 0 True True False
DATA[41] Int 0 True True False
DATA[42] Int 0 True True False
DATA[43] Int 0 True True False
DATA[44] Int 0 True True False
DATA[45] Int 0 True True False
DATA[46] Int 0 True True False
DATA[47] Int 0 True True False
DATA[48] Int 0 True True False
DATA[49] Int 0 True True False
DATA[50] Int 0 True True False
DATA[51] Int 0 True True False
DATA[52] Int 0 True True False
DATA[53] Int 0 True True False
DATA[54] Int 0 True True False
DATA[55] Int 0 True True False
DATA[56] Int 0 True True False
DATA[57] Int 0 True True False
DATA[58] Int 0 True True False
DATA[59] Int 0 True True False
DATA[60] Int 0 True True False
DATA[61] Int 0 True True False
DATA[62] Int 0 True True False
DATA[63] Int 0 True True False
DATA[64] Int 0 True True False
DATA[65] Int 0 True True False
Totally IntegratedAutomation Portal
Name Data type Default value Accessiblefrom HMI
Visible inHMI
Setpoint Comment
DATA[66] Int 0 True True False
DATA[67] Int 0 True True False
DATA[68] Int 0 True True False
DATA[69] Int 0 True True False
DATA[70] Int 0 True True False
DATA[71] Int 0 True True False
DATA[72] Int 0 True True False
DATA[73] Int 0 True True False
DATA[74] Int 0 True True False
DATA[75] Int 0 True True False
DATA[76] Int 0 True True False
DATA[77] Int 0 True True False
DATA[78] Int 0 True True False
DATA[79] Int 0 True True False
DATA[80] Int 0 True True False
DATA[81] Int 0 True True False
DATA[82] Int 0 True True False
DATA[83] Int 0 True True False
DATA[84] Int 0 True True False
DATA[85] Int 0 True True False
DATA[86] Int 0 True True False
DATA[87] Int 0 True True False
DATA[88] Int 0 True True False
DATA[89] Int 0 True True False
DATA[90] Int 0 True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / PLC data types
UDT_MB_MASTER_SLAVE_11
UDT_MB_MASTER_SLAVE_11 Properties
General
Name UDT_MB_MAS‐TER_SLAVE_11
Number 1 Type UDT Language
Numbering
Information
Title Author Comment Family
Version User-definedID
Name Data type Default value Accessiblefrom HMI
Visible inHMI
Setpoint Comment
DATA_PTR "UDT_DA‐TA_PTR_SLAVE_11"
True True False Data area used to communicate with the Modbusslave
DATA Array[0..90] of Int True True False
DATA[0] Int 0 True True False
DATA[1] Int 0 True True False
DATA[2] Int 0 True True False
DATA[3] Int 0 True True False
DATA[4] Int 0 True True False
DATA[5] Int 0 True True False
DATA[6] Int 0 True True False
DATA[7] Int 0 True True False
DATA[8] Int 0 True True False
DATA[9] Int 0 True True False
DATA[10] Int 0 True True False
DATA[11] Int 0 True True False
DATA[12] Int 0 True True False
DATA[13] Int 0 True True False
DATA[14] Int 0 True True False
DATA[15] Int 0 True True False
DATA[16] Int 0 True True False
DATA[17] Int 0 True True False
DATA[18] Int 0 True True False
DATA[19] Int 0 True True False
DATA[20] Int 0 True True False
DATA[21] Int 0 True True False
DATA[22] Int 0 True True False
DATA[23] Int 0 True True False
DATA[24] Int 0 True True False
DATA[25] Int 0 True True False
DATA[26] Int 0 True True False
DATA[27] Int 0 True True False
DATA[28] Int 0 True True False
DATA[29] Int 0 True True False
DATA[30] Int 0 True True False
DATA[31] Int 0 True True False
DATA[32] Int 0 True True False
DATA[33] Int 0 True True False
DATA[34] Int 0 True True False
DATA[35] Int 0 True True False
DATA[36] Int 0 True True False
DATA[37] Int 0 True True False
DATA[38] Int 0 True True False
DATA[39] Int 0 True True False
DATA[40] Int 0 True True False
DATA[41] Int 0 True True False
DATA[42] Int 0 True True False
DATA[43] Int 0 True True False
DATA[44] Int 0 True True False
DATA[45] Int 0 True True False
DATA[46] Int 0 True True False
DATA[47] Int 0 True True False
DATA[48] Int 0 True True False
DATA[49] Int 0 True True False
DATA[50] Int 0 True True False
DATA[51] Int 0 True True False
DATA[52] Int 0 True True False
DATA[53] Int 0 True True False
DATA[54] Int 0 True True False
DATA[55] Int 0 True True False
DATA[56] Int 0 True True False
DATA[57] Int 0 True True False
DATA[58] Int 0 True True False
DATA[59] Int 0 True True False
DATA[60] Int 0 True True False
DATA[61] Int 0 True True False
DATA[62] Int 0 True True False
DATA[63] Int 0 True True False
Totally IntegratedAutomation Portal
Name Data type Default value Accessiblefrom HMI
Visible inHMI
Setpoint Comment
DATA[64] Int 0 True True False
DATA[65] Int 0 True True False
DATA[66] Int 0 True True False
DATA[67] Int 0 True True False
DATA[68] Int 0 True True False
DATA[69] Int 0 True True False
DATA[70] Int 0 True True False
DATA[71] Int 0 True True False
DATA[72] Int 0 True True False
DATA[73] Int 0 True True False
DATA[74] Int 0 True True False
DATA[75] Int 0 True True False
DATA[76] Int 0 True True False
DATA[77] Int 0 True True False
DATA[78] Int 0 True True False
DATA[79] Int 0 True True False
DATA[80] Int 0 True True False
DATA[81] Int 0 True True False
DATA[82] Int 0 True True False
DATA[83] Int 0 True True False
DATA[84] Int 0 True True False
DATA[85] Int 0 True True False
DATA[86] Int 0 True True False
DATA[87] Int 0 True True False
DATA[88] Int 0 True True False
DATA[89] Int 0 True True False
DATA[90] Int 0 True True False
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Watch and force tables
Force table
Name Address Display format Force value Comment
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Local modules
DI 4x24VDC_1
DI 4x24VDC_1
General\Project information
Name DI 4x24VDC_1 Comment
General\Catalog information
Short designation DI4 signal board (200 kHz) Description Signal board DI4 x 24 VDC / 200kHz SOURCE; selectable input de‐lay; plug-in terminal blocks
Order number 6ES7 221-3BD30-0XB0
Firmware version V1.0
Digital inputs\Input filters
I4.0 - I4.3 6.40ms
Digital inputs\Channel0
Channel address I4.0 Enable rising edgedetection
0 Enable falling edgedetection
0
Enable pulse catch 0
Digital inputs\Channel1
Channel address I4.1 Enable rising edgedetection
0 Enable falling edgedetection
0
Enable pulse catch 0
Digital inputs\Channel2
Channel address I4.2 Enable rising edgedetection
0 Enable falling edgedetection
0
Enable pulse catch 0
Digital inputs\Channel3
Channel address I4.3 Enable rising edgedetection
0 Enable falling edgedetection
0
Enable pulse catch 0
I/O addresses\Input addresses
Start address 4 End address 4 Process image Cyclic PI
Hardware identifier\Hardware identifier
Hardware identifier 270
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Local modules
DI 16x24VDC/DQ 16xRelay_1
DI 16x24VDC/DQ 16xRelay_1
General\Project information
Name DI 16x24VDC/DQ 16xRelay_1 Author SARFRAZ Comment
Slot 2
General\Catalog information
Short designation SM 1223 DI16/DQ16 x relay Description Digital input/output module DI16 x24VDC SINK/SOURCE and DQ16 xrelay; configurable input delay;plug-in terminal blocks
Order number 6ES7 223-1PL32-0XB0
Firmware version V2.0
DI16/DO16\Project information
Name DI16/DO16 Comment
DI16/DO16\Digital inputs\Input filters
I8.0 - I8.3 6.40ms I8.4 - I8.7 6.40ms I9.0 - I9.3 6.40ms
I9.4 - I9.7 6.40ms
DI16/DO16\Digital inputs\Channel0
Channel address I8.0
DI16/DO16\Digital inputs\Channel1
Channel address I8.1
DI16/DO16\Digital inputs\Channel2
Channel address I8.2
DI16/DO16\Digital inputs\Channel3
Channel address I8.3
DI16/DO16\Digital inputs\Channel4
Channel address I8.4
DI16/DO16\Digital inputs\Channel5
Channel address I8.5
DI16/DO16\Digital inputs\Channel6
Channel address I8.6
DI16/DO16\Digital inputs\Channel7
Channel address I8.7
DI16/DO16\Digital inputs\Channel8
Channel address I9.0
DI16/DO16\Digital inputs\Channel9
Channel address I9.1
DI16/DO16\Digital inputs\Channel10
Channel address I9.2
DI16/DO16\Digital inputs\Channel11
Channel address I9.3
DI16/DO16\Digital inputs\Channel12
Channel address I9.4
DI16/DO16\Digital inputs\Channel13
Channel address I9.5
DI16/DO16\Digital inputs\Channel14
Channel address I9.6
DI16/DO16\Digital inputs\Channel15
Channel address I9.7
DI16/DO16\Digital outputs
Reaction to CPUSTOP
Use substitute value
DI16/DO16\Digital outputs\Channel0
Channel address Q8.0 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel1
Channel address Q8.1 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel2
Channel address Q8.2 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel3
Channel address Q8.3 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel4
Channel address Q8.4 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel5
Channel address Q8.5 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel6
Channel address Q8.6 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel7
Channel address Q8.7 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel8
Channel address Q9.0 Substitute a valueof 1 on a changefrom RUN to STOP.
0
Totally IntegratedAutomation Portal
DI16/DO16\Digital outputs\Channel9
Channel address Q9.1 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel10
Channel address Q9.2 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel11
Channel address Q9.3 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel12
Channel address Q9.4 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel13
Channel address Q9.5 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel14
Channel address Q9.6 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel15
Channel address Q9.7 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\I/O addresses\Input addresses
Start address 8 End address 9 Process image Cyclic PI
DI16/DO16\I/O addresses\Output addresses
Start address 8 End address 9 Process image Cyclic PI
DI16/DO16\Hardware identifier\Hardware identifier
Hardware identifier 271
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Local modules
DI 16x24VDC/DQ 16xRelay_2
DI 16x24VDC/DQ 16xRelay_2
General\Project information
Name DI 16x24VDC/DQ 16xRelay_2 Author SARFRAZ Comment
Slot 3
General\Catalog information
Short designation SM 1223 DI16/DQ16 x relay Description Digital input/output module DI16 x24VDC SINK/SOURCE and DQ16 xrelay; configurable input delay;plug-in terminal blocks
Order number 6ES7 223-1PL32-0XB0
Firmware version V2.0
DI16/DO16\Project information
Name DI16/DO16 Comment
DI16/DO16\Digital inputs\Input filters
I12.0 - I12.3 6.40ms I12.4 - I12.7 6.40ms I13.0 - I13.3 6.40ms
I13.4 - I13.7 6.40ms
DI16/DO16\Digital inputs\Channel0
Channel address I12.0
DI16/DO16\Digital inputs\Channel1
Channel address I12.1
DI16/DO16\Digital inputs\Channel2
Channel address I12.2
DI16/DO16\Digital inputs\Channel3
Channel address I12.3
DI16/DO16\Digital inputs\Channel4
Channel address I12.4
DI16/DO16\Digital inputs\Channel5
Channel address I12.5
DI16/DO16\Digital inputs\Channel6
Channel address I12.6
DI16/DO16\Digital inputs\Channel7
Channel address I12.7
DI16/DO16\Digital inputs\Channel8
Channel address I13.0
DI16/DO16\Digital inputs\Channel9
Channel address I13.1
DI16/DO16\Digital inputs\Channel10
Channel address I13.2
DI16/DO16\Digital inputs\Channel11
Channel address I13.3
DI16/DO16\Digital inputs\Channel12
Channel address I13.4
DI16/DO16\Digital inputs\Channel13
Channel address I13.5
DI16/DO16\Digital inputs\Channel14
Channel address I13.6
DI16/DO16\Digital inputs\Channel15
Channel address I13.7
DI16/DO16\Digital outputs
Reaction to CPUSTOP
Use substitute value
DI16/DO16\Digital outputs\Channel0
Channel address Q12.0 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel1
Channel address Q12.1 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel2
Channel address Q12.2 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel3
Channel address Q12.3 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel4
Channel address Q12.4 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel5
Channel address Q12.5 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel6
Channel address Q12.6 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel7
Channel address Q12.7 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel8
Channel address Q13.0 Substitute a valueof 1 on a changefrom RUN to STOP.
0
Totally IntegratedAutomation Portal
DI16/DO16\Digital outputs\Channel9
Channel address Q13.1 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel10
Channel address Q13.2 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel11
Channel address Q13.3 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel12
Channel address Q13.4 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel13
Channel address Q13.5 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel14
Channel address Q13.6 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\Digital outputs\Channel15
Channel address Q13.7 Substitute a valueof 1 on a changefrom RUN to STOP.
0
DI16/DO16\I/O addresses\Input addresses
Start address 12 End address 13 Process image Cyclic PI
DI16/DO16\I/O addresses\Output addresses
Start address 12 End address 13 Process image Cyclic PI
DI16/DO16\Hardware identifier\Hardware identifier
Hardware identifier 272
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Local modules
AI 8x13BIT_1
AI 8x13BIT_1
General\Project information
Name AI 8x13BIT_1 Author SARFRAZ Comment
Slot 4
General\Catalog information
Short designation SM 1231 AI8 Description Analog input module AI8 x 13 bits;plug-in terminal blocks; input: 2.5V,5V, 10V and 0 to 20mA; configura‐ble frequency suppression; configu‐rable smoothing; configurable diag‐nostics
Order number 6ES7 231-4HF32-0XB0
Firmware version V2.0
AI8\Project information
Name AI8 Comment
AI8\Module diagnostics
Enable power sup‐ply diagnostics
1 Additional diagnos‐tics may be selectedfor each input/output.
AI8\Analog inputs\Noise reduction
Integration time 50 Hz (20 ms)
AI8\Analog inputs\Channel0
Channel address IW128 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel1
Channel address IW130 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel2
Channel address IW132 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel3
Channel address IW134 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel4
Channel address IW136 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel5
Channel address IW138 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel6
Channel address IW140 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel7
Channel address IW142 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\I/O addresses\Input addresses
Start address 128 End address 143 Process image Cyclic PI
AI8\Hardware identifier\Hardware identifier
Hardware identifier 273
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Local modules
AI 8x13BIT_2
AI 8x13BIT_2
General\Project information
Name AI 8x13BIT_2 Author SARFRAZ Comment
Slot 5
General\Catalog information
Short designation SM 1231 AI8 Description Analog input module AI8 x 13 bits;plug-in terminal blocks; input: 2.5V,5V, 10V and 0 to 20mA; configura‐ble frequency suppression; configu‐rable smoothing; configurable diag‐nostics
Order number 6ES7 231-4HF32-0XB0
Firmware version V2.0
AI8\Project information
Name AI8 Comment
AI8\Module diagnostics
Enable power sup‐ply diagnostics
1 Additional diagnos‐tics may be selectedfor each input/output.
AI8\Analog inputs\Noise reduction
Integration time 50 Hz (20 ms)
AI8\Analog inputs\Channel0
Channel address IW144 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel1
Channel address IW146 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel2
Channel address IW148 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel3
Channel address IW150 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel4
Channel address IW152 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel5
Channel address IW154 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel6
Channel address IW156 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel7
Channel address IW158 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\I/O addresses\Input addresses
Start address 144 End address 159 Process image Cyclic PI
AI8\Hardware identifier\Hardware identifier
Hardware identifier 274
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Local modules
AI 8x13BIT_3
AI 8x13BIT_3
General\Project information
Name AI 8x13BIT_3 Author SARFRAZ Comment
Slot 6
General\Catalog information
Short designation SM 1231 AI8 Description Analog input module AI8 x 13 bits;plug-in terminal blocks; input: 2.5V,5V, 10V and 0 to 20mA; configura‐ble frequency suppression; configu‐rable smoothing; configurable diag‐nostics
Order number 6ES7 231-4HF32-0XB0
Firmware version V2.0
AI8\Project information
Name AI8 Comment
AI8\Module diagnostics
Enable power sup‐ply diagnostics
1 Additional diagnos‐tics may be selectedfor each input/output.
AI8\Analog inputs\Noise reduction
Integration time 50 Hz (20 ms)
AI8\Analog inputs\Channel0
Channel address IW160 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel1
Channel address IW162 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel2
Channel address IW164 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel3
Channel address IW166 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel4
Channel address IW168 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel5
Channel address IW170 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel6
Channel address IW172 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel7
Channel address IW174 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\I/O addresses\Input addresses
Start address 160 End address 175 Process image Cyclic PI
AI8\Hardware identifier\Hardware identifier
Hardware identifier 275
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Local modules
AI 8x13BIT_4
AI 8x13BIT_4
General\Project information
Name AI 8x13BIT_4 Author SARFRAZ Comment
Slot 7
General\Catalog information
Short designation SM 1231 AI8 Description Analog input module AI8 x 13 bits;plug-in terminal blocks; input: 2.5V,5V, 10V and 0 to 20mA; configura‐ble frequency suppression; configu‐rable smoothing; configurable diag‐nostics
Order number 6ES7 231-4HF32-0XB0
Firmware version V2.0
AI8\Project information
Name AI8 Comment
AI8\Module diagnostics
Enable power sup‐ply diagnostics
1 Additional diagnos‐tics may be selectedfor each input/output.
AI8\Analog inputs\Noise reduction
Integration time 50 Hz (20 ms)
AI8\Analog inputs\Channel0
Channel address IW176 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel1
Channel address IW178 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel2
Channel address IW180 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel3
Channel address IW182 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel4
Channel address IW184 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel5
Channel address IW186 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel6
Channel address IW188 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel7
Channel address IW190 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\I/O addresses\Input addresses
Start address 176 End address 191 Process image Cyclic PI
AI8\Hardware identifier\Hardware identifier
Hardware identifier 276
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Local modules
AI 8x13BIT_5
AI 8x13BIT_5
General\Project information
Name AI 8x13BIT_5 Author SARFRAZ Comment
Slot 8
General\Catalog information
Short designation SM 1231 AI8 Description Analog input module AI8 x 13 bits;plug-in terminal blocks; input: 2.5V,5V, 10V and 0 to 20mA; configura‐ble frequency suppression; configu‐rable smoothing; configurable diag‐nostics
Order number 6ES7 231-4HF32-0XB0
Firmware version V2.0
AI8\Project information
Name AI8 Comment
AI8\Module diagnostics
Enable power sup‐ply diagnostics
1 Additional diagnos‐tics may be selectedfor each input/output.
AI8\Analog inputs\Noise reduction
Integration time 50 Hz (20 ms)
AI8\Analog inputs\Channel0
Channel address IW192 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel1
Channel address IW194 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel2
Channel address IW196 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel3
Channel address IW198 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel4
Channel address IW200 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel5
Channel address IW202 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel6
Channel address IW204 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel7
Channel address IW206 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\I/O addresses\Input addresses
Start address 192 End address 207 Process image Cyclic PI
AI8\Hardware identifier\Hardware identifier
Hardware identifier 277
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Local modules
AI 8x13BIT_6
AI 8x13BIT_6
General\Project information
Name AI 8x13BIT_6 Author SARFRAZ Comment
Slot 9
General\Catalog information
Short designation SM 1231 AI8 Description Analog input module AI8 x 13 bits;plug-in terminal blocks; input: 2.5V,5V, 10V and 0 to 20mA; configura‐ble frequency suppression; configu‐rable smoothing; configurable diag‐nostics
Order number 6ES7 231-4HF32-0XB0
Firmware version V2.0
AI8\Project information
Name AI8 Comment
AI8\Module diagnostics
Enable power sup‐ply diagnostics
1 Additional diagnos‐tics may be selectedfor each input/output.
AI8\Analog inputs\Noise reduction
Integration time 50 Hz (20 ms)
AI8\Analog inputs\Channel0
Channel address IW208 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel1
Channel address IW210 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel2
Channel address IW212 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel3
Channel address IW214 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel4
Channel address IW216 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
1
Enable overflow di‐agnostics
1 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel5
Channel address IW218 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
0
Enable overflow di‐agnostics
0 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel6
Channel address IW220 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
0
Enable overflow di‐agnostics
0 Enable underflowdiagnostics
0
AI8\Analog inputs\Channel7
Channel address IW222 Measurement type Current Current range 4..20 mA
Smoothing Medium (16 cycles) Enable broken wirediagnostics
0
Enable overflow di‐agnostics
0 Enable underflowdiagnostics
0
AI8\I/O addresses\Input addresses
Start address 208 End address 223 Process image Cyclic PI
AI8\Hardware identifier\Hardware identifier
Hardware identifier 278
Totally IntegratedAutomation Portal
CPU [CPU 1214C DC/DC/Rly] / Local modules
CM 1241 (RS422/485)_1
CM 1241 (RS422/485)_1
General\Project information
Name CM 1241 (RS422/485)_1 Author SARFRAZ Comment
Slot 101
General\Catalog information
Short designation CM 1241 (RS422/485) Description Communication module withRS422/RS485 interface; 9-pin D-subfemale connector
Order number 6ES7 241-1CH31-0XB0
Firmware version V1.0
RS422/485 interface\General\Project information
Name RS422/485 interface Comment
RS422/485 interface\Port configuration
Operating mode Half duplex (RS485) two-wire oper‐ation
Receive line initialstate
None Baud rate 9.6 kbps
Parity No parity Data bits 8 bits per character Stop bits 1
Flow control None XON character(HEX)
0 (ASCII) NUL
XOFF character(HEX)
0 (ASCII) NUL Wait time 1000ms
RS422/485 interface\Configuration of transmitted message\Transmission options
RTS ON delay 0ms RTS OFF delay 0ms Send break at mes‐sage start
0
Number of bit timesin a break
12Bit times Send idle line aftera break
0 Idle line after abreak
12Bit times
RS422/485 interface\Configuration of received message\Message start\
Define messagestart conditions
Start on any character Recognize messagestart with brokenline
0 Recognize messagestart with idle line
0
Idle line time 40Bit times Recognize messagestart with singlecharacter
0 Message start char‐acter (HEX)
2
Message start char‐acter (ASCII)
STX Recognize messagestart with a charac‐ter sequence
0 Number of stringsto define
1
RS422/485 interface\Configuration of received message\Message start\5-character message start sequence\Message start sequence 1
Check character 1 0 Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 2 0 Character value(HEX):
0
Character value (AS‐CII):
ANY Check character 3 0
Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 4 0 Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 5 0 Character value(HEX):
0
Character value (AS‐CII):
ANY
RS422/485 interface\Configuration of received message\Message start\5-character message start sequence\Message start sequence 2
Check character 1 0 Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 2 0 Character value(HEX):
0
Character value (AS‐CII):
ANY Check character 3 0
Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 4 0 Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 5 0 Character value(HEX):
0
Character value (AS‐CII):
ANY
RS422/485 interface\Configuration of received message\Message start\5-character message start sequence\Message start sequence 3
Check character 1 0 Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 2 0 Character value(HEX):
0
Character value (AS‐CII):
ANY Check character 3 0
Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 4 0 Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 5 0 Character value(HEX):
0
Character value (AS‐CII):
ANY
RS422/485 interface\Configuration of received message\Message start\5-character message start sequence\Message start sequence 4
Check character 1 0 Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 2 0 Character value(HEX):
0
Character value (AS‐CII):
ANY Check character 3 0
Character value(HEX):
0 Character value (AS‐CII):
ANY
Totally IntegratedAutomation Portal
Check character 4 0 Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 5 0 Character value(HEX):
0
Character value (AS‐CII):
ANY
RS422/485 interface\Configuration of received message\Message end\Define message end conditions
Recognize messageend by messagetimeout
1 Message timeout 200ms Recognize messageend by responsetimeout
0
Response timeout 200ms Recognize messageend by inter-charac‐ter timeout
0 Inter-character gaptimeout
12Bit times
Recognize messageend by maximumlength
0 Maximum length ofmessage
1bytes Read messagelength from mes‐sage
0
Offset of lengthfield in message
1bytes Size of length field 1bytes The length field fol‐lowing the data isnot included in themessage length
0bytes
Recognize messageend with a charactersequence
0
RS422/485 interface\Configuration of received message\Message end\5-character message end sequence
Check character 1 0 Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 2 0 Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 3 0 Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 4 0 Character value(HEX):
0 Character value (AS‐CII):
ANY
Check character 5 0 Character value(HEX):
0 Character value (AS‐CII):
ANY
RS422/485 interface\Hardware identifier\Hardware identifier
Hardware identifier 269