L1 V5 02 Bis System Architecture G 02

October 9, 2017 | Author: Anupam0103 | Category: N/A
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Short Description

System Architecture...

Description

PACiS Network Architectures PACiS Technical Training CS&P – Support Team

PCL

1) PACiS RTU 1.1) C264 Stand-Alone 1.2) Cascade of Stand-alone 1.3) Remote Stand alone 1.4) Multi-Rack

1.1) Basic Stand-alone SCADA Serial

- MODBUS (Modicon) - DNP3 - T101

A0W A-Wired C264C

- IEC61850 - T104 - DNP3

SCADA IP

A0S A-SBUS IED

A0L A-LBUS IED SWU

C264C C264C

I/Os

LBUS IED - Vdew T103 - MODBUS (Areva) - DNP3 - T101

SWU

C264 Ethernet Switch board SBUS IED - IEC 61850

SWR

SWD

Schneider Electric - CS&P – System Architecture – G02

Redundant Ring C264 Ethernet Switch board Dual Homing C264 Ethernet Switch board

3

1.1) Basic Stand-alone A0T A-Wired GPS

C264C

I/Os

A0W A-Wired C264C

I/Os

Schneider Electric - CS&P – System Architecture – G02

A0L A-LBUS IED C264C

LBUS IED - Vdew T103 - MODBUS (Areva) - DNP3 - T101

A0S A-SBUS IED C264C

Switch SWU

SBUS IED - IEC 61850

4

1.2) Cascade Stand-alone SCADA

C264C LBUS IED

- Vdew T103 - MODBUS (Areva) - DNP3 - T101

SCADA

C264C

C264 Slave T101 DNP3 Modbus

I/Os

C264C

I/Os

Schneider Electric - CS&P – System Architecture – G02

5

1.3) Remote Stand-alone SMT Automatic Disturbance S1 Agency Tunneling

SCADA IP Ethernet : - modem - redundancy

SCADA Serial C264C

I/Os

Schneider Electric - CS&P – System Architecture – G02

LBUS IED - Vdew T103 - MODBUS (Areva) - DNP3 - T101

6

1.4) Multi-Rack Stand-alone SCADA SCADA Serial SWU

C264C MAIN

C264C

I/Os

1 to 8 Extension Racks No LHMI 4 LBUS C264 full rack (no TMU) Private Ethernet

Multi-Rack Redundant Ring SWR SWR

SWR

Schneider Electric - CS&P – System Architecture – G02

SWR

Redundant Ring C264 Ethernet Switch board

SWR

7

2) Single PACiS

2.1) Star/Tree Topology

2.1) Star/Tree Single topology PACiS Gateway

Standard Ethernet Stars topology (H63x) Tree topology (SWU) H63x

GPS

SWU

SWU

SWU

SWU

SWU

C264 Ethernet Switch board

Cubicle Schneider Electric - CS&P – System Architecture – G02

9

3) Redundant Ethernet Ring

3.1) PACiS Redundant Ring 3.2) Two Separate Redundant Ring 3.3) Redundant Computer and Ethernet 3.4) Multi-Station Ring

3.1) PACiS Redundant Ring Ethernet Redundant Ring PACiS Gateway

H35 H35

SWR

SWR

SWR

SWR

GPS

SWR

Schneider Electric - CS&P – System Architecture – G02

Other Subnet

Redundant Ring C264 Ethernet Switch board

Full Bay on SBUS

SWU

Cubicle

Redundant Ring switch

H35

SWU

C264 Ethernet Switch board 11

3.2) Redundant Rings EcoSUI Clients & Station 2 Redundant Ring PACiS EcoSui Clients (HMI) H35

H35

H35

H35

H35

PACiS EcoSui Servers

PACiS EcoSui Servers

2 IP Address no loop

2 IP Address no loop H35

SWR

H35

SWR

SWR

SWR

GPS

Schneider Electric - CS&P – System Architecture – G02

12

3.3) Redundant Ring & Computers Redundant Ring Redundant Computers

H35

SWR

SWR

SWR

SWR

SWR

Computers Main Power supply Main Schneider Electric - CS&P – System Architecture – G02

H35

SWR

Computers Back-up Power supply Back-up 13

3.4) Multi Station Rings

NO LOOP Each Ring seen by other No redundancy of H35

H35

H35

H35

H35

H35

SWR

SWR

Schneider Electric - CS&P – System Architecture – G02

H35

SWR

SWR

SWR

H35

SWR

SWR

SWR

SWR

14

4) Dual Homing

4.1) PACiS Redundant Homing Ethernet 4.2) PACIS Dual Redundancy Homing/Ring 4.3) PRP : Parallel Redundancy Protocol

4.1) PACiS Redundant Homing Ethernet PACiS Gateway

H36

Standard Ethernet 2 separated Ethernet Stars (based here on H63x)

H36

H63x

SWD

GPS

H63x

SWD

SWD

SWD

Cubicle Schneider Electric - CS&P – System Architecture – G02

16

4.2) PACiS Dual Redundant Homing Ring PACiS Gateway

H6xx between H35x and H36x need for conversion copper optical

H36

H63x

H63x

H35 H35

2 redundant rings for each Dual Homing link

H35

H35 H35

H63x

GPS

Schneider Electric - CS&P – System Architecture – G02

H63x

SWD

H35 H35

H63x

H35

H63x

SWD

H63x

H63x

SWD

17

4.3) Station BUS : PRP Integration PRP on C264 PRP on PCi board SAN DAN : Dual Attached Node VDAN : Virtual Dual Attached Node RedBox : Redundancy Box

SAN

SAN

: Single Attached Node

only communicate with other SAN on same LAN not with any DAN/VDAN Schneider Electric - CS&P – System Architecture – G02

C264 with REU

PC SUI with H18

C264 with REU 18

6) RSTP

6.1) RSTP - Sepam 6.2) PACIS – RSTP attachment

RSTP- Sepam : Multi master scheme, daisy chain Station computer

RTU 20 AI

ADI

Maintenance

Control Center

Ethernet switch Ethernet switch

IEC61850 protocol

100 Mbit/s Ethernet Fiber Optical Ring with ring management

Ethernet switch RSTP

Lev 2 ACE850

Sepam series 80

ACE850

Sepam series 80

Schneider Electric - CS&P – System Architecture – G02

Lev 2 ACE850

ACE850

Sepam series 40

Sepam series 80

ACE850

Sepam series 80

ACE850

Sepam series 40

20

PACIS - RSTP compatibility HMI Or SCADA PACiS GATEWAYS

WARNING WITH : - PERFORMANCES - AUTOMATION - GOOSES

H17x

Backup link

Ethernet – RSTP backbone

RSTP compatible Switch (Teaming) RSTP Switch

C264+ SWS

Px4x Px3x

C264

32 ieds Max/ subring Schneider Electric - CS&P – System Architecture – G02

21

7) MULTI-PACIS

7.1) Multi Rings with Gateway IEC/IEC 7.2) Multi Rings with EcoSUI

Multi-PACiS Rings

H35

PACiS Top SS1_1

GTW IEC/IEC

H35

GTW IEC/IEC 2 IP Address no loop

H35

GTW IEC/IEC

H35

PACiS Bottom SS0_1 SWR

SWR

Schneider Electric - CS&P – System Architecture – G02

SWR

H35

H35

PACiS Bottom SS0_2 SWR

SWR

SWR

H35

PACiS Bottom SS0_3 SWR

SWR

SWR

23

Multi-PACiS Rings with EcoSUI

Schneider Electric - CS&P – System Architecture – G02

24

Multi-PACiS Rings with EcoSUI

Schneider Electric - CS&P – System Architecture – G02

25

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