02b reb500 4bis7p5 hardware
TRANSCRIPT
1
©AB
B AB
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2008-12-16 SA2008-001386
Substation Automation and Protection Training
REB 500/REB500SysBusbar Protection
Hardware
©AB
B AB
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2008-12-16
19” Rack
12 Binary inputs (+12 as option)
9 Binary outputs (+9 as option)
Redundant power supply module as option
Starcoupler modules
CPU boards
HMI with programmable LED’s
Front communication
Rear communication
SA Communication
Hardware - Central Unit
©AB
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2008-12-16
Modules 12 Binary Inputs + 9 Binary Outputs (500BIO01) Option: additional 12 Binary Inputs + 9 Binary Outputs (500BIO01) 1st Power Supply Option: 2nd Power Supply Processor (incl. Remote Communication for PC) (*
+ Transmission Module (only for FW Vers.< 6) (* Star Coupler Module (* Bus Administrator (* Option: Interface to SAS / SMS Front HMI (incl. Communication Interface to PC) Backplane with Process Bus (* that number is depending on the size of the substation
Hardware - Central Unit (for all FW Versions)
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Hardware - Development
BU011994 - 2000
BU022000 - 2003
BU03since 2001
since 2004
Central Unit 01Central Unit 02
1994 - 2003
Central Unit 03since 2004
V4.xx
V5.xx
V6.xx
V7.xx
Central Unit Bay Unit Firmware Version
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2008-12-16
Hardware - Central Unit (Type CU02, for FW Vers. 6)
Rear view(equipped with Modules for 4 BUs)
SLOT: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21
CSP
+
TRM
SBA
SCM
SCM
TRM
CIM
+
PSM
BIO
PSM
CM
P+
TRM
MB
A
SCM
BIO
SCM
Option
14 – 18 BUs
10 – 13 BUs
05 – 9 BUs
01 – 04 BUs
Binary In- and Output ModulBIO
Star Coupler Modul (Interface toBUs & BAs)
SCM
Communication Interface Modul (for SAS / SMS)
CIM
Slave Bus Administrator (forBussegment 2 – CSP)
SBA
Master Bus Administrator (forBussegment 1 – CMP)
MBA
Transmission Modul (Inter-facefrom VME to MVB Bus)
TRM
Central Slave Processor
(für BU 10-18)
CSP
Central Master Processor (für BU 1 – 9 + BIOs)
CMP
Power Supply ModulPSM
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1-18 Bay Units 19- 39 Bay Units 40 - 59 Bay Units
Hardware - Central Unit – Layout (for FW Vers. 6)
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2008-12-16
12 Binary in9 Binary out
Communicationinterface
Redundant Power supply
Starcoupler
CPU board
Serial Port GPS
TCP/IP Port
Power supply
modem
Hardware - Central Unit (Type CU03, for FW Vers. 7)
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2008-12-16
SLOT: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21SC
M
CIM
PSM
BIO
SCM
BIO
PSM
CPU
-C
PC
SCM
CPU
-M
BA
CPU
-C
PC
SCM
SCM
CPU
-M
BA
CPU
-C
PC
SCM
Option
25 – 30 BUs
21 – 25 BUs
16 – 20 BUs
11 – 15 BUs
06 – 10 BUs
01 – 05 BUs
Rear view(equipped with Modules for 10 BUs)
Hardware - Central Unit (Type CU03, for FW Vers. 7)
Binary In- and Output ModulBIO
Star Coupler Modul (Interface to BUs)
SCM
Communication Interface Modul (for SAS / SMS)
CIM
Bus Administrator
(for 20 BUs)
CPU -MBA
Central Processor CPU (for 10 BUs)
CPU -CPC
Power Supply ModulPSM
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2-30 Bay Units 31- 60 Bay Units
Hardware - Central Unit – Layout (for FW Vers. 7)
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2008-12-16
Hardware - Central Unit e.g. Binary Inputs
Blocking- Switch
• Block Busbar Protection Function
• Block Breaker Failure Protection Function
• Block End Fault Protection Function
• Block Output Relays
Push- Button
• Reset of TRIP / ALARM
• Accept isolatorimage alarm
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Hardware - Bay Unit Comparison
Option Red. Supply
CR Outputs
OC Inputs
BU03 - LPBU02BU01
+ + ++ ++Power of P
yesyesno
333HMI fix LEDs
20--HMI free prog. LEDs
544VT
444CT
16169 + 9 (as Option)
20 with other groundconn.
1612 + 12 (as Option)
V.6.xx & V.7.xxV.5.xxV.4.xxFW Version
BU03 - TP
+ + +
yes
3
20
-
9
16
20 with other groundconn.
V.7.20
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4 VTs Ratio adjustable via SW
0
0
1U
2
0
0
4
5
7
8
10
11
UL1
UL2
UL3
UL0
Voltage Transformers
4 CTs 1 or 5 A Ratio adjustable
via SW1
2
3
1
5
0
1
5
0
5
6
1
5
0
7
8
9
1
5
0
10
11
12
I1
I2
I3
I0
I
CurrentTransformers
Optical Connectionto Central Unit on
500AIP01
500PSM01
+
-
1
2
12 Binary Inputs24 – 250 VDC
Adjustable via SW
9 Binary Outputs
11
13
12CR06
CR01CR02CR03
CR04
CR05
CR07CR08CR09
Binary Outputs
1
2
3
4
5
6
7
8
9
10
14
15
16
17
18
Binary Inputs
1
2
3
456
7
8
9
1011
13
14
15
16
1718
12
OC01
OC02
OC03
OC04
OC09
OC10
OC11
OC12
OC05
OC06
OC07
OC08
500BIO01
500MTM01
500MTM01
11
13
12CR06
CR01CR02CR03
CR04
CR05
CR07CR08CR09
Binary Outputs
1
2
3
4
5
6
7
8
9
10
14
15
16
17
18
Binary Inputs
1
2
3
456
7
8
9
1011
13
14
15
16
1718
12
OC01
OC02
OC03
OC04
OC09
OC10
OC11
OC12
OC05
OC06
OC07
OC08
500BIO01
OPTION
Hardware - Bay Unit BU01 (for FW Vers. 4.xx)
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16 Binary Inputs24 – 250 VDC
Adjustable via SW
OC09
B1
OC10
B2
B3
B4
OC11
B5
OC12
B6
B7
B8
OC13
B9
OC14
B10
B11
B12
OC15
B13
OC16
B14
B15
OC01
A1
OC02
A2
A3
A4
OC03
A5
OC04
A6
A7
A8
OC05
A9
OC06
A10
A11
A12
OC07
A13
OC08
A14
A15
4 VTsRatio adjustable
via SW&
Red. Power Supply
4 CTs 1 or 5 A Ratio adjustable
via SW&
Power supply
1
2
3
1
5
0
1
5
0
5
6
1
5
0
7
8
9
1
5
0
10
11
12
I1
I2
I3
I0
I
12
P +
-
Power Supply
CurrentTransformers
16 Binary Outputs
C1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
CR01
CR02
CR03
CR04
CR05
CR06
CR07
CR08
D1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
CR09
CR10
CR11
CR12
CR13
CR14
CR15
CR16
Optical Connectionto Central Unit
Local HMI Interface 0
0
1U
2
0
0
4
5
7
8
10
11
UL1
UL2
UL3
UL0
+
-
1
2
R
Voltage Transformers
RedundantPower Supply
500UTM01
OPTION
Hardware - Bay Unit BU02 (for FW Vers. 5.xx)
©AB
B AB
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2008-12-16
16 Binary Outputs
Outputs
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
CR08
CR09
CR10
CR11
CR12
CR13
CR14
CR15
CR16
D
Outputs
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
CR01
CR02
CR03
CR04
CR05
CR06
CR07
C
20 Binary Inputs48 – 250 VDC
Adjustable via SW
Inputs1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
OC01
OC02
OC03
OC04
OC05
OC06
OC07
OC08
A
16
17
18OC09
Inputs1
2
34
5
6
7
8
9
10
11
12
13
14
15
OC10
OC11
OC12
OC13
OC14
OC15
OC16
B
OC17
OC18
OC19
OC20
16
1718
5 VTsRatio adjustable
via SW&
Red. Power Supply
VoltageTransformers
1
2
R
Redundant PowerSupply (option)
1
U
4
U1
5
7
10
13
2
8
11
140
0
0
0
U2
U3
U5
0U4
+
-
4 CTs 1 or 5 A Ratio adjustable
via SW&
Power supply
1
2
3
1
5
0
1
5
0
5
6
1
5
0
7
8
9
1
5
0
10
11
12
I1
I2
I3
I0
I
12
P +
-
Power Supply
CurrentTransformersOptical Connection
to Central Unit
Local HMI Interface
1/3 19” Rack
Hardware - Bay Unit
OPTION
©AB
B AB
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2008-12-16
16 Binary Outputs
Outputs
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
CR08
CR09
CR10
CR11
CR12
CR13
CR14
CR15
CR16
D
Outputs
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
CR01
CR02
CR03
CR04
CR05
CR06
CR07
C
20 Binary Inputs48 – 250 VDC
Adjustable via SW
Inputs1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
OC01
OC02
OC03
OC04
OC05
OC06
OC07
OC08
A
16
17
18OC09
Inputs1
2
34
5
6
7
8
9
10
11
12
13
14
15
OC10
OC11
OC12
OC13
OC14
OC15
OC16
B
OC17
OC18
OC19
OC20
16
1718
5 VTsRatio adjustable
via SW&
Red. Power Supply
VoltageTransformers
1
2
R
Redundant PowerSupply (option)
1
U
4
U1
5
7
10
13
2
8
11
140
0
0
0
U2
U3
U5
0U4
+
-
4 CTs 1 or 5 A Ratio adjustable
via SW&
Power supply
1
2
3
1
5
0
1
5
0
5
6
1
5
0
7
8
9
1
5
0
10
11
12
I1
I2
I3
I0
I
12
P +
-
Power Supply
CurrentTransformersOptical Connection
to Central Unit
Local HMI Interface
1/3 19” Rack
Hardware - Bay Unit Line Protection / DR
©AB
B AB
, 20
08
2008-12-16
16 Binary Outputs
Outputs
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
CR08
CR09
CR10
CR11
CR12
CR13
CR14
CR15
CR16
D
Outputs
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
CR01
CR02
CR03
CR04
CR05
CR06
CR07
C
20 Binary Inputs48 – 250 VDC
Adjustable via SW
Inputs1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
OC01
OC02
OC03
OC04
OC05
OC06
OC07
OC08
A
16
17
18OC09
Inputs1
2
34
5
6
7
8
9
10
11
12
13
14
15
OC10
OC11
OC12
OC13
OC14
OC15
OC16
B
OC17
OC18
OC19
OC20
16
1718
6 CTs or 3 CTs & 3 VTs or5 CTs &1 VT or Ratio adjustable via SW &Red. Power Supply
Current Transformer
1
5
0
Redundant Power Supply
1
5
0
J1
2
3
I4
I5
4
5
6
1
5
0
I6
7
8
9
+_1
2
R
1
5
0
I7
10
11
12
1
5
0
I8
13
14
15
1
5
0
I9
16
17
18
Optical Connectionto Central Unit
Local HMI Interface
1/3 19” Rack
3 CTs 1 or 5 A Ratio adjustable
via SW&
Power supply
1
2
3
1
5
0
1
5
0
5
6
1
5
0
7
8
9
1
5
0
I1
I2
I3
I
12
P +
-
Power Supply
CurrentTransformers
Hardware - Bay Unit Transformer Protection / DR
©AB
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2008-12-16
Hardware - Bay Unit arrangements
©AB
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2008-12-16
Supports quick reading of
Alarms
Events
Settings verification
Measurements
Hardware - Local HMI with 20 programmable LED’s
©AB
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1- 2 / Accuracy oftime periodic Telegram± 10 ms IEC-103 - Bus
± 1ms IEC61850 &LON - Bus The time synchronization of REB500 is possible via:
1 - Radio or satellite clock
2 - Interbay bus (IEC61850-8-1/LON/IEC60870-5-103)
3 - Minute or Second pulse (periodic via optocoupler)
4 - PC via HMI500
+
Min/Sec pulse 3 - Accuracy
± 10 ms (min)
RS 232
Starcoupler
GPS
4 - Accuracyapprox. 1min / month
Central unit
Communication - Time synchronization
©AB
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Communication – SA Interface
T1
Q0
Q1 Q2T1
Q0
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
12
T1
Q0
Q1 Q2T1
Q0
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
12
Modem Modem
Remote control via ModemRemote - HMI
IEC61850-8-1
IEC 60870-5-103 or LON
Ethernet - (TCP/IP)
Substation Automation or
Monitoring Systemse.g.: SAS5xx or SMS530
Signals for LON Event text can be adapted acc.
User specific requirements and language Further signal can be added any time with HMI500 Group alarms can be build in SAS / SMS
Signals for IEC 103 Public part Private part Generic part
HMI500via LONT1
Q0
Q1 Q2T1
Q0
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
12
HMI500via TCP/IP
T1
Q0
Q1 Q2T1
Q0
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
T1
Q0
Q1 Q2
12
Local front connection at central unit or bay unit
©AB
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CPUE
C
CPUModul
RS 232Interface
SCS/SMSInterface
Real time clock
CIM
CPUModulE
C
Starcoupler
Optical Inter-face
A/DMUXS/H
DSP
Filter Filter
DPMem.
DCDC
Local HMI
DCDC
CPUModul
Starcoupler
BinaryIn/Out
FO connection to other Bay Units
Database stored in EEPROM
Binary In-/Outregisters
Electrical
insulation
Datenbank gespeichert im EEPROM
Central unitBay unit
Bus
admin.
Communication – VME / MVB Bus
MVBMVB
MVB
VME
©AB
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Node ID:
address of the bus segment (VME)
Each CPU Board requires 2 addresses
Device ID:
address of the Device (MVB)
Communication – VME / MVB Bus Addressing
©AB
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CPUE
C
CPUModul
RS 232Interface
SCS/SMSInterface
Real time clock
CIM
CPUModulE
C
Starcoupler
Optical Inter-face
A/DMUXS/H
DSP
Filter Filter
DPMem.
DCDC
Local HMI
DCDC
CPUModul
Starcoupler
BinaryIn/Out
FO connection to other Bay Units
Database stored in EEPROM
Binary In-/Outregisters
Electrical
insulation
Datenbank gespeichert im EEPROM
Central unitBay unit
Bus
admin.
Communication – VME / MVB Bus Addressing
MVBMVB
MVB
VME
1 2
7
2
Node ID: Device ID:
1 1
0
2
5 x-2 x-3
1
1
1 1
1st BIO
2nd
BIO
4
©AB
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2008-12-16
Baden V7.50
Simple using Internet Explorer
Supporting
Single line diagram including analog values
Dynamic busbar replica
Event list
Cyclic update
Monitor - Embedded web server
©AB
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2008-12-16
Bay unit
Arrangement - De-central or central
©AB
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2008-12-16
Bay oriented module
Arrangement - Centralized panel
©AB
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2008-12-16
TXRx
RxTX
2 core optical fibre
per bay unit
Two fiber per bay unit
ST Conector
Up to 1200 meter
Fiber optical cable
©AB
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2008-12-16
1 x 500CPU05 (processor)
1 x 500PSM03 (power supply)
1 x 500SCM01 (starcoupler)
1 x 500BIO01 (input/output)
1 x 500CIM06 (communication)
1 x 500OCC02 (connection)
1-2 pieces per substation
Spare parts