Power Transmission and Distribution Example, please use your own existing network Power Automation Progress. It‘s that
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Power Transmission and Distribution
Example, please use your own existing network Power Automation
Progress. It‘s that simple.
Trainer PC IP: 192.168.1.40 Group left
Device_DIGSI PC IP: 192.168.1.1
Group right
Device_DIGSI PC IP: 192.168.1.10
Group left Device_SNTP IP: 192.168.1.5 Group right Device_SNTP IP: 192.168.1.15 Serial hub IP: 192.168.1.8 ; 7SA631 Port 5 7SJ641 Web Monitor IP: 192.168.1.41
SNTP Server
Serial Hub
DIGSI PC
Ethernet/IEC61850 Each Ethernet-Switch has it‘s own and unique IP: 192.168.1.x
Device_ABB IP: 192.168.1.6 ABB REL670
Eberle regulator IP: 192.168.1.55
Incoming Feeder IF
Bus Coupler QK Outgoing feeder OF
Group left
Device_A IP: 192.168.1.2
Device_B IP: 192.168.1.3
Device_C IP: 192.168.1.4
Group right
Device_A IP: 192.168.1.12
Device_B IP: 192.168.1.13
Device_C IP: 192.168.1.14 05/2007
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Power Transmission and Distribution
Power Automation
Progress. It‘s that simple.
Exercises: - The Trip Signal of ABB-Device (active without voltage) shall be displayed in feeder OF on LED 14 - All Siprotec devices shall be synchronized with the time of SNTP-server Insert a redundant time server
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Power Transmission and Distribution
Power Automation
Progress. It‘s that simple.
-Please install on one PC of each group the Software TNP.exe to simulate the SNTP-Server - also a Ruggedcom switch can be the timer server for testing - Connect the PC to the switch
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Power Transmission and Distribution
Power Automation
Progress. It‘s that simple.
Please install on one PC of each group the Software NTP.exe to simulate the SNTP-Server
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Power Transmission and Distribution
Settings to configure the SNTP-Server Power Automation
Progress. It‘s that simple.
1.) Define the IP address of the SNTP Server by the properties of local area connection
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Power Transmission and Distribution
Settings to configure the SNTP-Server Power Automation
Progress. It‘s that simple.
Group left Device_SNTP IP: 192.168.1.5 2.) Do the settings by the properties Group right Device_SNTP IP: 192.168.1.15 of TCP/IP and provide the IP-address manually 192.168.1.5 (.15)
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Power Transmission and Distribution
Importing IEC61850 devices from other manufacturers Power Automation
Progress. It‘s that simple.
With the new DIGSI 4, IEC61850-compliant devices with a different functionality and from other manufacturers can be integrated into a switchgear. For that, import the device description of the IED (icd file) from the file system. At first you can check, if the ICD-file is valid, do it with SCL-inspector as an included feature or use the webbased validator: http://scl-validator.erlm.siemens.de/validator/upload.html
Then add the device as a user to the station - in the same way as with SIPROTEC 4 devices. 05/2007
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Power Transmission and Distribution
Power Automation
Progress. It‘s that simple.
Insert the external ICDs: - Sntp Server - ABB REL670 - eberle20
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Power Transmission and Distribution
Implementation of external ICDs Power Automation
Progress. It‘s that simple.
1. Step: Allocate to CFC (IED_C)
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Power Transmission and Distribution
Implementation of external ICDs Power Automation
Progress. It‘s that simple.
2. Step: Create a CFC-Chart to make the Trip signal active on LED
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Power Transmission and Distribution
Time Synchronizing Server – SNTP - Server Power Automation
Progress. It‘s that simple.
Settings of the time synchronization & time format in DIGSI of all SIPROTEC devices (IED_A; IED_B; IED_C)
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Power Transmission and Distribution
Power Automation
Progress. It‘s that simple.
Step 1: Actualize the users of the station
Properties of the IEC61850 station
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Power Transmission and Distribution
Power Automation
Progress. It‘s that simple.
Step 1: Actualize the users of the station
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Power Transmission and Distribution
Power Automation
Progress. It‘s that simple.
Step 2: Opening the station for the configuration
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Power Transmission and Distribution
Power Automation
Progress. It‘s that simple.
Step 3: Select the new devices and drag them to the respective subnet and allocate the IP-addresses
1 2
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Power Transmission and Distribution
Power Automation
Progress. It‘s that simple.
Step 4: Insert a new GOOSE-application
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Power Transmission and Distribution
Power Automation
Progress. It‘s that simple.
Step 5: Select the Trip indication of REL670 as source and dedicate it to IED_C 2
1
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Power Transmission and Distribution
Power Automation
Progress. It‘s that simple.
Step 6: Saving the station description (SCD)
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Power Transmission and Distribution
Power Automation
Progress. It‘s that simple.
Step 7: Updating the parameter sets (off-line)
Distributing the allocation information into the participating devices The consistency of the data is automatically guaranteed Here, DIGSI acts device-spanning for the first time.
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Power Transmission and Distribution
Power Automation
Progress. It‘s that simple.
Step 8: Transmitting the updated parameter sets to the corresponding devices (Initialization)
At the end, transmit each changed parameter set into the device and 1.) check the time synchronization in all SIPROTEC devices by changing the time of the SNTP-server 2.) check the LED-on at SIPROTEC device IED_C
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Power Transmission and Distribution
Power Automation
Progress. It‘s that simple.
Step 9: Generating the SCD-File and export it to C:\IEC61850\...
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