042 MiCOM C434 [Compatibility Mode]
description
Transcript of 042 MiCOM C434 [Compatibility Mode]
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MiCOM C434Bay Unit for Control and Monitoring
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ApplicationsPower transmission and distribution systemsWide range of I/O configurations
(max. up to 220I/14O or 58I/80O)
MiCOM C434 Bay ControllerOverview
Schneider Electric 2- Division - Name Date
(max. up to 220I/14O or 58I/80O) Ideal for standard applications
Refurbishment of existing substationsExtension of substationsNew substations
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MiCOM C434 Bay Controller General Application
Schneider Electric 3- Division - Name Date
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MiCOM C434 Bay ControllerApplication Modular bay controller for MV and HV
applications, Flexible use of I/O boards Wall, panel or rack mounting (40T/84T) with
text or graphic display (opt.) Control and monitoring of up to
24 switching devices Transformer / tap changer control and
monitoring
Schneider Electric 4- Division - Name Date
Universal acquisition of auxiliary information in a substation with up to 224 binary inputs
Applicable as stand-alone RTU withIEC 61850, IEC 60870-5-101, MODBUS or DNP3.0
Long-term recording of analog and binary information
High speed binary countersC434 with graphic display (40TE)
C434 with text display (40TE)
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C434 and P30 Hardware based on an unified platform: P139 (One Box Feeder), P132 (Overcurrent) P439 (One Box Distance), P437 (Distance Protection), P63x (Transformer Differential Protection)
Control and monitoring of switching devices. Real-time resolution 1 ms Bay operation HMI and graphic display or COMM/ binary inputs
MiCOM C434 Bay Controller Common Features
Schneider Electric 5- Division - Name Date
Bay operation HMI and graphic display or COMM/ binary inputs Display of Measurements and Sequence of Events (SOE) Extended programmable logic for customized automatic functions Dedicated communication interface (RS 485 or fiber optic) Complete setting by the HMI of the device or the unique setting tool
MiCOM S1 Studio for the complete P30 range Setting of predefined and type tested bay types (>250)
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MiCOM C434 Bay Controller Operating Scheme
Local control with graphic HMI
Fault 17:58:44
Ground fault 17:58:44Overload 17:58:44
Signals 17:58:44
Signals 17:58:44Signals 17:58:44
P532 Page H 17:58:34
P532 Page B 17:58:34
Signal panel(s) Event panelBay panel(s) Measured value panel(s)
Events 17:58:54Meas. values 17:58:44Signals 17:58:44P532 Page A 17:58:34
BB1BB2
LockedRemote 1088 A Curr. IP,max prim.
Q0
Q8
Q1 Q2
MAIN: M.c.b. trip V EXTPSS : PS 1 activePSS : PS 2 activeMAIN: Bay interlock act.MAIN: Subst. interl. act.
Voltage A-B prim. 20.7 kVVoltage B-C prim. 20.6 kVVoltage C-A prim. 20.8 kVCurrent A prim. 416 ACurrent B prim. 415 ACurrent C prim. 417 A
20.04.9805:21:32.331
23:58:17.501CB closed sig EXTEnd21.04.98
ARC
Main
enabledStart
05:21:32.331 DEV01Switch.device closedStart
Control and Display panels
Record view
Oper/Rec/OP_RCOperat. data record
(state-dependent)
Schneider Electric 6- Division - Name Date
Device type
Parameters
Device IDConfiguration
parameter
Function parameter
Global
Main functions
Parameter subset 1
Parameter subset ...
Control
Operation
Cyclic measurants
Control and testing
Operating data
recording
Measured operating
dataPhysical state signals
Logical state signals
Events
Event counters
Measured fault data
Event recording
Control and Display panels
Menu tree
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MiCOM C434 Bay Controller Functional Overview
CMD_1
Main Functions
Global Functions
SIG_1 SIG_M ILOGIC
COUNTARMV1
ARMV2TAPCH
ASC
LIMIT
...
DEV24
DEV01
LIM_1
LIM_2
ACCD
LOGIC
Schneider Electric 7- Division - Name Date
IEC/
GOOSE
MAIN
Configuration
COMM1
LT_RC SFMON OP_RC MT_RC
COMM2 MEASO MEASI
PSS
DVICE INP OUTP
MM_BC
MM_AC
MM_BS
MM_ASIRIGB
LED LOC PC
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DEVxx : Specifying the control for switchgear ILOGIC: Interlocking based on Boolean Equations LOGIC: Programmable logic AR_MV1/2:Arithmetic mean values of currents, voltages, power LT_RC: Analog and digital long-term recording ASC: Automatic synchronism check TAPCH: Tap-Changer Controller
MiCOM C434 Bay Controller Function Groups
Schneider Electric 8- Division - Name Date
TAPCH: Tap-Changer Controller COUNT: Binary counters LIMIT: Limit value monitoring (analog measured data) LIM_1/2 Limit value monitoring 1/2 (currents and voltages) SIG_1: Single pole signal SIG_M: Multi-pole signal MEASO: Analog output 20 mA (2x) MEASI: Analog input 20 mA (1x)
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PSS: Parameter subset selection ACCD: Accumulated deviations COMM1: Configurable communication protocols COMM2: Interface for setting / MODBUS-Master IEC: Communication interface for IEC 61850 GOOSE: Communication interface for IEC 61850 MM_BC: MODBUS-Master Binary commands MM_AC: MODBUS-Master Analog commands
MiCOM C434 Bay Controller Function Groups
Schneider Electric 9- Division - Name Date
MM_AC: MODBUS-Master Analog commands MM_BS: MODBUS-Master Binary signals MM_AS: MODBUS-Master Analog signals IRIGB: IRIG-B interface SFMON: Self monitoring MT_RC: Monitoring signal recording OP_RC: Operating data recording
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MiCOM C434 Bay Controller Bay Templates
Bay template databaseAutomatic assignment of:
single-line diagram (bay panel) Interlocking equations I/O configuration Serial link information configuration
C434 17:58:34
BB1BB2
Q0
Q1 Q2
Schneider Electric 10- Division - Name Date
Serial link information configurationUser configuration by HMI or PC (S1 Studio)Customizable texts, e.g. BB1, Switchgear implementation acc. to IEC 60617
LockedRemote 1088 A Curr. IP,max prim.
Q0
Q8
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MiCOM C434 Bay Controller Bay Template Configuration
Schneider Electric 11- Division - Name Date
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MiCOM C434 Bay Controller Definition of Character Set
Schneider Electric 12- Division - Name Date
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MiCOM C434 Bay Controller Configuration of I/O
Schneider Electric 13- Division - Name Date
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MiCOM C434 Bay Controller Bay Type Templates
Bay Type No. 99 (A23.107.R05)Feeder bay with circuit breaker, double busbar
Assignment of Binary Inputs and Output Relays
Switchgear unit Binary input Output relayQ0 (DEV01)
Q1 (DEV03)
Q2 (DEV05)
Q9 (DEV07)
Q8 (DEV09)
OpenClose(d) OpenClose(d) OpenClose(d) OpenClose(d) OpenClose(d)
U 601U 602 U 603U 604 U 605U 606 U 701U 702 U 703U 704
K 601K 602 K 603K 604 K 605K 606 K 701K 702 K 703K 704
Schneider Electric 14- Division - Name Date
Bay Interlock Equations for Operation without Station Interlocking
Switchgear unit Control O/C Interlock equationQ0 Close(d) /(Q1=X) & /(Q2=X) & /(Q9=X) & /(FctBl1=I) & /(FctBl2=I)Q1 Open (Q0=0) & (Q2=0)
Close(d) (Q0=0) & (Q2=0)Q2 Open (Q0=0) & (Q1=0)
Close(d) (Q0=0) & (Q1=0)Q8 Close(d) (Q9=0)Q9 Open (Q0=0)
Close(d) (Q0=0) & (Q8=0)
Bay Interlock Equations for Operation with Station Interlocking
Switchgear unit Control O/C Interlock equationQ0 Close(d) /(Q1=X) & /(Q2=X) & /(Q9=X) & /(FctBl1=I) & /(FctBl2=I)Q8 Close(d) (Q9=0)Q9 Open (Q0=0)
Close(d) (Q0=0) & (Q8=0)
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MiCOM C434 Bay Controller Control and Monitoring
Local and remote operation by integrated HMI, signal inputs or serial link
Interlocking Monitoring for operation direction,
spring drives, running time gas density etc.
Schneider Electric 15- Division - Name Date
etc. Direct control of switchgear devices
without any interposing relays Support for specific bay types: e.g.
three-position disconnectors, switch trucks with coil or direct motor control
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MiCOM C434 Bay Controller Direct Motor Control
Schneider Electric 16- Division - Name Date
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MiCOM C434 Bay Controller Function Group DEV01
Schneider Electric 17- Division - Name Date
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MiCOM C434 Bay Controller Interlocking
Support of interlocking schemes: Without interlocking With bay level interlocking Centralized interlocking on
substation computer Bay level and substation
interlocking
Schneider Electric 18- Division - Name Date
interlocking Based on type tested Boolean
Equations (like programmable logic) which could be customized
Integration of substation Interlocking by ring wiring Additional blocking signals could be
added
PHELA test of MV bay
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MiCOM C434 Bay Controller Interlocking Configuration
Schneider Electric 19- Division - Name Date
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MiCOM C434 Bay Controller Non-tariff Metering
Binary Counting Binary inputs (BI) for impulse counting from external meters Amount of available inputs and max. frequency
(pulse / interpulse ratio 1:1):C434: 24 BI @ 60 Hz
Transmission of counter values on the communication link is triggered internally by a settable cycle timer or an external
Schneider Electric 20- Division - Name Date
triggered internally by a settable cycle timer or an externaltrigger impulse
Active and Reactive Energy Metering Active and reactive energy input and output determination Based on the measurement of active and reactive power from the CT
/ VT analog inputs
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MiCOM C434 Bay Controller Binary Counter Configuration
Schneider Electric 21- Division - Name Date
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MiCOM C434 Bay Controller Tap Changer Controller
Two tap changers are supported Settable Tap changer characteristic:
Binary / BCD information Min./ Max. number of steps Operation time
Step regulating command (up/down)
Schneider Electric 22- Division - Name Date
Step regulating command (up/down) with predefined execution time and running time supervision
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MiCOM C434 Bay Controller Long-Term Recording
Long-term recording: 12 analogue channels All relevant binary information
Transmission and presentation of disturbance records
Sampling period in multiple of power network period selectable
Schneider Electric 23- Division - Name Date
network period selectable Up to 5.000 sampling values per record Pre-Trigger recording Trigger by:
Impulse, Internal condition
(e.g. limit violation detection) Continuous operation
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MiCOM C434 Bay Controller Function Group COMM1
Schneider Electric 24- Division - Name Date
Setting for IEC 60870-5-103
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MiCOM C434 Bay Controller Communication Interface
IEC IEC Modbus DNP3.060 870-5-103 60870-5-101
Time state signals + + + +Time-tagged signals + + + +Long term record transfer + + + -Commands + + + +Measured values + + + +
1)1)
2)
Schneider Electric 25- Division - Name Date
Measured values + + + +Parameter setting + - + +Clock synchronisation + + + +
1) Only with specific software, application layer of Modbus master2) Extension in private range
1)1)
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MiCOM C434 Bay Controller Key Arguments
Cost-saving by
Reduction of the number of secondary components Engineering based on standard applications Simplified documentation and testing by less components and
interfaces as well as the application of type tested functions
Schneider Electric 26- Division - Name Date
interfaces as well as the application of type tested functions Short commissioning time due to intelligent commissioning tools Improved logistics by using modules of the one platform Uniform technique for new and retrofit installations Reduction of the training expenditures by uniform technique
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