Application Fault Location in Power Distribution Grids.pdf
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37th Meeting of the IFIP Working Group 10.4
Invited Talk at Workshop on Time and Dependability
January 21{25, 2000, Martinique (France)
High-Accuracy Time Services and
Fault-Tolerant Clock Synchronization
Ulrich Schmid
Technische Universitat Wien
Department of Automation
Treitlstrae 1, A-1040 Vienna
s@auto.tuwien.ac.at
January 27, 2000
High-Accuracy Time Services WG10.4 Winter Meeting 2000 1
La Carte
Motivation
Why is GPS +NTP 6= all that we need?
}
Fault-tolerant external clock synchronization
Traditional approaches
Interval-based approach
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How to achieve high accuracy?
Rate synchronization
Timestamping
Clock design
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References
Project SynUTC
http://www.auto.tuwien.ac.at/Projects/SynUTC
High-Accuracy Time Services WG10.4 Winter Meeting 2000 2
Time Services
Reference Clocks
Clients
Time Server Daemons
Synchronization Network
Time service supplies common notion of time to local
clients:
Reference clocks know right time
Server daemons consult reference clocks and adjust
local clocks accordingly
High-Accuracy Time Services WG10.4 Winter Meeting 2000 3
Application: Fault Location in Power Distribution Grids
TS = T1
Power/Transformer Station
~D T2 - T1
Power/Transformer Station
TS = T2
Lightning struck
Short circuit
Line break
L/2Fault loc.
Transmission line
(buried, overhead)
Detector
Transient wave
Demanding requirements:
Fault location within 10 m-range) 10 ns-range ac-
curacy
Up to 100+ endpoints in large power/transformer sta-
tions
Cable length L up to 100 km
Bad environmental conditions
High-Accuracy Time Services WG10.4 Winter Meeting 2000 4
Why Clock Synchronization at all?
Often heard questions:
Why not simply implement time service by dedicated
GPS receivers at all nodes?
Why bother with clock synchronization at all?
of UTC
Reliable Definition
Disconnections
GPS-Faults,
Receiver Faults
(manually synchronized)
USNO-MC
GPS-CC (Master Ctrl.)
200+ atomic clocks
GPS (SVs)
Network Network
SVs
GPS receiver
Nodes
Antennas
Disconnections,
Too
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