RTU S900
April 2000April 2000
S900S900Remote Terminal UnitRemote Terminal Unit
S900S900Remote Terminal UnitRemote Terminal Unit
RTU S900
RTU S900
OBJECTOBJECT
GENERALGENERALARCHITECTUREARCHITECTUREFUNCTIONAL DESCRIPTIONFUNCTIONAL DESCRIPTIONCONFIGURATIONCONFIGURATIONHARDWARE DESIGN FEATURESHARDWARE DESIGN FEATURESTOOLSTOOLS
OBJECTOBJECT
GENERALGENERALARCHITECTUREARCHITECTUREFUNCTIONAL DESCRIPTIONFUNCTIONAL DESCRIPTIONCONFIGURATIONCONFIGURATIONHARDWARE DESIGN FEATURESHARDWARE DESIGN FEATURESTOOLSTOOLS
RTU S900
GENERALGENERALGENERALGENERAL
RTU S900
Transmission and distribution applications Medium to large systems Generation (local control - data logging) Digital control command for substations
RTU S900
MARKETS
SCADA Local control Data logging Process control (programmable logic)
RTU S900
MAIN FUNCTIONS
Powerful Distributed architecture (hardware and
software) Open ended Compliance with international standards Modularity Flexibility (hardware is customised through
software) Low power consumption
RTU S900
MAIN FEATURES
TECHNOLOGYTECHNOLOGYTECHNOLOGYTECHNOLOGY
RTU S900
68020 Microprocessors in each CPU VME bus FIP Field Bus Real time Multitask Operating System : VRTX32 Data Base Management using ORACLE Performing automatic controls based on ISaGRAF Generalisation of Personal Computer for
customer's tools
RTU S900
MAIN TECHNOLOGY CHOICES
SYSTEMSYSTEMARCHITECTUREARCHITECTURE
SYSTEMSYSTEMARCHITECTUREARCHITECTURE
RTU S900
S 900
Main Rack
RTU S900
SYSTEM ARCHITECTURE
S 900
Field Bus FIP
Distributed RacksMain Rack
RTU S900
S 900
Field Bus FIP
Distributed Racks
SubstationSubstation
Main Rack
IEDsIEDs
IEDs
RTU S900
S 900
Field Bus FIP
Distributed Racks
SubstationSubstation
Control centre 1
Main Rack
IEDsIEDs
IEDs
RTU S900
S 900
Control centre 2
Field Bus FIP
Distributed Racks
SubstationSubstation
Control centre 1
Main Rack
IEDsIEDs
IEDs
RTU S900
S 900
Data BaseGenerationGraphicalControl
LocalControl Control
centre 2
Field Bus FIP
Distributed Racks
SubstationSubstation
Control centre 1
Main Rack
IEDsIEDs
IEDs
RTU S900
Data logging
Alphanumeric.Control
S 900
Data BaseGenerationGraphicalControl
LocalControl Control
centre 2
Field Bus FIP
Distributed Racks
SubstationSubstation
Control centre 1
Main Rack
IEDsIEDs
IEDs
RTU S900
Data logging
Alphanumeric.Control
S 900
Data BaseGenerationGraphicalControl
LocalControl Control
centre 2
Field Bus FIP
Distributed Racks
SubstationSubstation
Control centre 1
Main Rack
IEDsIEDs
IEDs
External Clock
RTU S900
INTERNALINTERNALARCHITECTUREARCHITECTURE
INTERNALINTERNALARCHITECTUREARCHITECTURE
RTU S900
VME BUS
VME BUS
Secondary or Distributed rack
Main rack
Field
BUS
CPU +FIP Interface
Powersupply
CPU +FIP Interface
Powersupply
FIP
RTU S900
SYSTEM ARCHITECTURE
VME BUS
VME BUS
Secondary or Distributed rack
Main rack
CPU +FIP Interface
Powersupply
CPU +FIP Interface
Powersupply
I/O I/O I/O
I/O I/O I/O
I/O
I/O
Field
BUS
FIP
RTU S900
Serial AsyncUnit
Serial AsyncUnit
VME BUS
VME BUS
Secondary or Distributed rack
Main rack
CPU +FIP Interface
Powersupply
CPU +FIP Interface
Powersupply
I/O I/O I/O
I/O I/O I/O
I/O
I/O
Serial AsyncUnit
ClockData logging
Local control
CONTROLCENTRES External
Modem
IEDs
IEDs
Serial AsyncUnit
Field
BUS
FIP
RTU S900
FUNCTIONAL DESCRIPTIONFUNCTIONAL DESCRIPTION
REMOTE CONTROLREMOTE CONTROLPROTECTION SUPERVISIONPROTECTION SUPERVISIONFIP NETWORKFIP NETWORKDATA CAPTUREDATA CAPTURESEQUENCE AUTOMATIONSEQUENCE AUTOMATIONLOCAL CONTROLLOCAL CONTROLTIME SYNCHRONIZATIONTIME SYNCHRONIZATIONFAULT PROCESSINGFAULT PROCESSING
FUNCTIONAL DESCRIPTIONFUNCTIONAL DESCRIPTION
REMOTE CONTROLREMOTE CONTROLPROTECTION SUPERVISIONPROTECTION SUPERVISIONFIP NETWORKFIP NETWORKDATA CAPTUREDATA CAPTURESEQUENCE AUTOMATIONSEQUENCE AUTOMATIONLOCAL CONTROLLOCAL CONTROLTIME SYNCHRONIZATIONTIME SYNCHRONIZATIONFAULT PROCESSINGFAULT PROCESSING
RTU S900
REMOTEREMOTECONTROLCONTROLREMOTEREMOTECONTROLCONTROL
RTU S900
Remote control(SCADA)
S900 RTU
With one, two or three control centres
Two links with CC can be duplicated
Internal or external MODEMS Half or full duplex Point-to-
point or multidrop Multi-Protocol capability IEC 60870-5-101 DNP 3 HNZ Private protocol / consult us
RTU S900
REMOTE CONTROL
PROTECTIONPROTECTIONSUPERVISIONSUPERVISIONPROTECTIONPROTECTIONSUPERVISIONSUPERVISION
RTU S900
OPN A9311
F+-
OPN A9311
F+-
G E C A L S T H O MT&D
G E C A L S T H O MT&D
OPN A9311
F+-
OPN A9311
F+-
OPN A9311
F+-
Modbus link to MODN/MiCOM Pxxx
Modbus link to MODN/MiCOM Pxxx
KITZ 101/201
Kbus link to K relays/EPAC/MiCOM Pxxx
IEC 870-5-103 (VDEW) link to IEDs
To SAU 900SAU 900 board
Optical star(optional)
G E C A L S T H O MT&D
G E C A L S T H O MT&D
Kbus link to K relays/EPAC/MiCOM Pxxx
FIP Field Bus
Main Substation
rack
SecondarySubstation
racks
RS232/485converter
RTU S900
PROTECTIONS OR IEDs SUPERVISION
Communicate Protocols forward IEDs or Relays– IEC 60870-5-103 (VDEW)
• Maximum distance = 1.4 km– IEC 60870-5-101
• Maximum distance = 100 m• Maximum distance > 10 km with external
modem– Modbus standard
• Maximum distance = 1.2 km– Modbus with transmission of time-tagged events
• Maximum distance = 1.2 km– K-Bus Courier through external KITZ101/201
• Maximum distance = 1 km
RTU S900
PROTOCOLS
Up to 256 devices (numerical protections or IEDs) Up to 32 devices per subnetwork Up to 32 subnetworks per RTU Up to 19200 baud per serial link (SAS900 and SAU900) Up to 38400 baud for the serial link velocity
summation (*) Several protocols managed in the same time Signalling (RS), Controls (RC), Measurements (RM) Numerical protections synchronised by the RTU
(*) per rack
RTU S900
CAPACITY
S900 mainrack
KITZ 201
Modem
Modem
RS232
RS232
RS232
Remote EngineerSubstation
Setting changeConfigurationDisturbanceEvent recordmeasurement
Local EngineerSubstation
Setting changeConfigurationDisturbanceEvent recordmeasurement
To SCADAWith K-Bus Courier compatible devices
K-Bus Address
G E C A L S T H O MT&D
G E C A L S T H O MT&D
G E C A L S T H O MT&D
RTU S900
PROTECTION SETTING FAULT ANALYSE
G E C A L S T H O MT&D
G E C A L S T H O MT&D
G E C A L S T H O MT&D
S900 mainrack
Modem
Modem RS232
RS232
Remote or Local EngineerSubstation
Setting changeConfigurationDisturbanceEvent recordmeasurement
To SCADA
With VDEW compatible devices
K-Bus Address
RTU S900
PROTECTION SETTING FAULT ANALYSE
FIP BUSFIP BUSFIP BUSFIP BUS
RTU S900
Lmax = 1km
l1
l2
Main rack Secondaryracks
31 secondary racks at the maximum Data rate = 1 Mbits/s Electrical network 2 m < l1 < 10 m l2 > 4m
RTU S900
FIP BUS (1)
Lmax = 1km
l1
l2
Mainrack
Secondaryracks
TTTTTT
Transmitter
Secondaryracks
Secondaryracks
Secondaryracks
Lmax = 4 km
31 secondary racks at the maximum Data rate = 1 Mbits/s Electrical network 2 m < l1 < 10 m l2 > 4m
RTU S900
FIP BUS (2)
Lmax = 1km
l1
l2
Mainrack
Secondaryracks
CCCCTT
Transmitter
Secondaryracks
Secondaryracks
Lmax = 5.6 km
Electricalopticalconverter
Optical
Lmax = 1.6 km
31 secondary racks at the maximum Data rate = 1 Mbits/s Mixed network (electrical / optical) 2 m < l1 < 10 m l2 > 4m
RTU S900
FIP BUS (3)
DATADATACAPTURECAPTURE
DATADATACAPTURECAPTURE
RTU S900
Digital inputs (signals) Digital outputs (controls) Analog measurements Digital measurements Analog setpoints Digital setpoints Pulse counting (meters) Tap changer positions Internal and Grouped
signals Bay and Substations
RTU S900
PROCESSED ENTITIES
TYPES– Single, Double – Normal, Reverse– Transient
FILTERING– State changes– Complementary faults (short &
long)– Fleeting points
SENDING OUT– Communication– Archives, Logging– Activation of an alarm loop
RTU S900
DIGITAL INPUTS (SIGNALS)
TYPES– Single, Double– Transient, Continuous
FILTERING– Non existence in Data Base– Bay or Substation under local
control– Control of activity from originator
EXECUTION– Hardware check– Direct execution– Select Before Operate
RTU S900
DIGITAL OUTPUTS (CONTROLS)
ANALOGUES– Current , Voltage– Software correction of offset, gain and
linearity DIGITALS
– 16 or 32 bits– BCD, Binary, Gray and 1-among-N
acquisition TREATMENTS
– Threshold violation, dead band, overflow
– Scaling (linear or quadratic)– Communication (cyclic, state change)– Archives, Logging, alarm loop
RTU S900
MEASUREMENTS
ANALOGUES– Current
DIGITALS– 16 or 32 bits– BCD, Binary, Gray and 1-among-N
acquisition FILTERING
– Non existence in Data Base– Bay or Substation under local control– Control of activity from originator
EXECUTION– Hardware check– Stepless transmission or linear
execution
RTU S900
SETPOINTS
TYPES– Single– Double (use of a complemented
input) FILTERING
– Confirmation of pulse change– Complementary faults for double
counting TREATMENTS
– Storing timing cumulative periods– Forcing to a preset value– Freeze from Control Centre– Communication– Scaling, Local reports
RTU S900
COUNTINGS
TYPES– 16 or 32 bits– BCD, 1-among-N and
decimal-coded acquisition TREATMENTS
– Use of one tap transition position or not
– Checking if the Tap Changer has varied by more than 1 position
– Communication– Archive, Logging
RTU S900
TAP CHANGER POSITION
INTERNAL SIGNALS– Images of system faults– Images of internal status– Images of logic states
GROUPED SIGNALS– Logical "OR" of :
• Signals• Other grouped signals• Internal signals
RTU S900
INTERNAL AND GROUPED SIGNAL
A RTU CAN MANAGE– 4 SUBSTATIONS– 64 BAYS
SUBSTATION– May be on local or remote control
BAY– May be on local or remote control– A printer may be assigned to a bay under local
control
RTU S900
BAYS AND SUBSTATIONS
4 032 Signals 1 024 Controls 480 Analog inputs 60 Analog setpoints 144 Counters 51 Digital setpoints 51 Digital measurements 51 Tap changer positions Capacity including data from
– Dedicated input and output modules– Input and output coming through serial
links– Internal input and output calculations
(PLC programs)
RTU S900
INPUT/OUTPUT CAPACITY
Signals - User settable– 1 ms– 2 ms– 5 ms– 10 ms
Measurement - User settable– 1 second for 96 analog inputs
RTU S900
TIME TAGGING & SCANNING
SEQUENCESEQUENCEAUTOMATIONAUTOMATION
SEQUENCESEQUENCEAUTOMATIONAUTOMATION
RTU S900
Interlocking Load shedding Energy management VAR compensation Tripping Auto-recloser Switching sequences Busbar transfer Switchgears control Alarms
RTU S900
FUNCTIONS
Software logic interface– ISaGRAF
five defined IEC1131-3 languages– SFC Sequential
Function Chart– FBD Function Block
Diagram– LD Ladder Diagram– ST Structured Text– IL Instruction List
RTU S900
PLC PROGRAMMATION
User programmable
Centralised automatic functions in the main rack
Distributed automatic functions in the secondary racks
Cycle : Settable from 10 ms
RTU S900
PERFORMANCES
LOCALLOCALCONTROLCONTROL
LOCALLOCALCONTROLCONTROL
RTU S900
Events (RS,RM,RCT,TP,RC,SP) Faults (communication and hardware) Pulses counting Sorting criteria Sending archives to control centre Possibility to freeze archives from control centre Sequence of events
RTU S900
DATA ARCHIVES
Events file 2000
Faults file 200
Accumulator freeze 144 (all counters)
RTU S900
DATA ARCHIVES
Possibility to connect up to 2 printers and 1 VDU User friendly MMI on VDU Printing of :
– Status changes (all entities)– Threshold violation– Non validity (entities and couplers)
Reports of :– Entities– System faults– Sorting criteria
RTU S900
DATA LOGGING
First possibility:– Connection to an
alphanumeric terminal :• status of system• commands controls• maintenance information
Second possibility:– Connection of a personal
computer with graphic representation of the substation (Procett 5000W)
RTU S900
LOCAL CONTROL
The RTU S900 can be associated to a graphic substation control point: – Local graphic Human
Machine Interface for electrical substations
– Real-time multitasking PC-based product
– Advanced HMI in WINDOWS environment
– Autonomy of the user (database, graphics)
– Software & hardware modularity
RTU S900
GRAPHIC SUBSTATION CONTROL POINT
TIMETIMESYNCHRONISATIONSYNCHRONISATION
TIMETIMESYNCHRONISATIONSYNCHRONISATION
RTU S900
Several possibilities for the time synchronisation of MiCOM S100– By the SCADA– By the Local Control Station
(serial link)– By the RTU (serial link)– Each equipment
The main rack synchronises the secondary racks by FIP-bus– Accuracy: 25 10-6 s
The RTU synchronises the numerical protections– Accuracy: up to 1 ms
The Substation Local Control synchronises the RTU– Accuracy: 3 ms
OPN A9311
F+-
OPN A9311
F+-
OPN A9311
F+-
GPS/Others
Numerical protections
Local Control
RTUmain rack
RTUsecondary racks
SCADA
RTU S900
SYNCHRONISATION
FAULT PROCESSINGFAULT PROCESSING& MAINTENANCE& MAINTENANCE
FAULT PROCESSINGFAULT PROCESSING& MAINTENANCE& MAINTENANCE
RTU S900
Main faults detected are:– Coupler faults (main and secondary racks)– IEDs faults (communication or internal failure)– Remote control fault (communication)– Synchronisation fault– Printer faults
Complete and permanent control Faults archiving
RTU S900
FAULT PROCESSING
LEDs on CPU module
On local maintenance station
On remotemaintenance station
On SCADA
On soundalarms
On printer
RTU S900
FAULT SIGNALLING
CONFIGURATIONCONFIGURATIONCONFIGURATIONCONFIGURATION
RTU S900
OPN A9311F+-
OPN A9311F+-
OPN A9311F+-
PROCETT 5000WRemote controlstation
FIP BUS
OPN A9311F+-
OPN A9311F+-
OPN A9311
F+-
IEDs
Distance or local link
Direct link between S900and SCADA (Procett 5000W)
Local controlstation
CapacityCapacityUp to 32 racksUp to 32 racksUp to 5000 I/OsUp to 5000 I/Os
CapacityCapacityUp to 32 racksUp to 32 racksUp to 5000 I/OsUp to 5000 I/Os
RTU S900
CONFIGURATION (1)
OPN A9311F+-
OPN A9311F+-
OPN A9311F+-
OPN A9311F+-
OPN A9311F+-
OPN A9311F+-
FIP BUS
PROCETT 5000WRemote controlstation
IEDs
Distance or local link
S900Concentrato
r
With a S900 in concentrator
Local controlstation
S900 Sub-RTU n°1
S900 Sub-RTU n°2
Local controlstation
CapacityCapacityUp to 9 Sub-Up to 9 Sub-RTURTUUp to 32 racks Up to 32 racks per Sub-RTUper Sub-RTUUp to 5000 Up to 5000 I/OsI/Os
CapacityCapacityUp to 9 Sub-Up to 9 Sub-RTURTUUp to 32 racks Up to 32 racks per Sub-RTUper Sub-RTUUp to 5000 Up to 5000 I/OsI/Os
RTU S900
CONFIGURATION (2)
PROCETT 5000WRemote controlstation
OPN A9311F+-
OPN A9311F+-
OPN A9311F+-IED
s
ITE29
ITE29
FIP BUS
Distance or local link
With a concentratorITE29
Local controlstation
Local controlstation
CapacityCapacityUp to 8 RTUUp to 8 RTUUp to 32 racks Up to 32 racks per RTUper RTUUp to 15000 Up to 15000 I/OsI/Os
CapacityCapacityUp to 8 RTUUp to 8 RTUUp to 32 racks Up to 32 racks per RTUper RTUUp to 15000 Up to 15000 I/OsI/Os
S900 RTU n°2
S900 RTU n°3
S900 RTU n°1
RTU S900
CONFIGURATION (3)
HARDWAREHARDWAREDESIGNDESIGN
FEATUREFEATURE
HARDWAREHARDWAREDESIGNDESIGN
FEATUREFEATURE
RTU S900
21 slots available per rack Up to 32 racks Communication links on the front face
RTU S900
S900 Remote Terminal Unit
Connection through rear panel DIN connectors Female connector (96 points DIN to solder)
RTU S900
PCU 900- Power Converter Unit– 24Vdc:±20% (PCU910)– 48/60Vdc:±20% (PCU900)– 110/125Vdc:±20% (PCU920)– 220Vdc:±20% (PCU930)– 250Vdc:-20%,+10% (PCU930)
Output voltage supplied: +5V and ±12V for the VME bus
Switched and fused protected Module width: two slots
RTU S900
CPU 930- Main CPU Module– 32-bit 68020 microprocessor– Clock frequency: 33 MHz– 8 MB static RAM with lithium
battery backup– Real-time clock– Lithium battery backed-up
clock/calendar– Watchdog timer with automatic
restart + alarm loop– Six signal loops– Eight front-panel status lamps– Module width: one slot
RTU S900
SAU 900- Serial Asynchronous Unit– Four isolated V.24/V.28 serial
asynchronous links– Baud rate from 50 to 19200
baud per channel– Insulation between interface
circuit and ground: 1.4kV peak at 50Hz
– Four front-panel 9-pin CANNON connectors
– Module width: one slot
RTU S900
FBS 910- FIP bus communication unit– VLSI FULLFIP chip– FIPLD1 medium driver (twister
pair)– Line insulation: 2.1kV peak at
50Hz– Line speed: 1Mbit/s– Front-panel 9-pin connector– Module width: plugged on
CPU 900
RTU S900
DAU 900- Digital Acquisition unit– 48 opto-isolated digital inputs– 24Vdc, 48/60Vdc, 110/125Vdc,
220/250Vdc– Dielectric insulation: 2.8kV peak at
50Hz– One common point for eight inputs– Input voltage
• 24 Vdc (DAU901): 10 mA• 48 Vdc (DAU900): 5 mA• 60 Vdc (DAU904): 3 mA• 110/125 Vdc (DAU902): 3 mA• 220/250 Vdc (DAU903): 2 mA
– Module width: one slot
RTU S900
DOU 900- Digital Output unit– 32 digital relay outputs– One common for two points– Dielectric insulation: 2.8kV peak
at 50Hz– Watchdog timer– Output control chain self-
monitored– Relays de-energised on fault
condition– Breaking capacity: 2A-250V-
250VA/600W– Three modes for execute
command• Remote Select Before Operate• Local Select Before Operate• Immediate operate
– Module width: one slot
RTU S900
DOU 920- Digital Command Output unit– 12 digital relay outputs– 2 No contacts per relays– 2 groups with 1 common for 4 relays– 2 groups with 1 common for 2 relays– Dielectric insulation: 2.8kV peak at
50Hz– Watchdog timer– Output control chain self-monitored– Relays de-energised on fault condition– Making capacity: 1000W(VA) at
L/R=40ms– Breaking capacity: 0.2A-250Vdc at
L/R=40ms, 230Vac with cos=0.4– Overload: 30A/0.5s– Module width: one slot
RTU S900
ACU 900- Analog to digital converter unit– 12-bit A/D Converter (11 bits +
sign)– Conversion rate: 120
samples/second– Common-mode rejection ratio:
99dB at 50Hz– Accuracy including AAU: better
than 0.1% (voltage), 0.2% (current) at 25° (full scale)
– Temperature coefficient: 30ppm/°C
– Module width: one slot
RTU S900
AAU 900- Analog Acquisition unit– 24 multiplexed analog inputs– Input ranges: ±5/10/20mA; 4-
20mA; ±1.25/2/5V– Series-mode rejection ratio:
36dB at 50Hz– Insulation voltage: 2.8kV peak
at 50Hz in common mode– Input impedance: 5mA-1000
Ohms; 10mA-500 Ohms; 20mA-250 Ohms
– Module width: one slot
RTU S900
AOU 900- Analog Output Unit– Six analog outputs– Output ranges: ±5/10/20mA– Resolution: 11 bit + sign– Accuracy: better than 0.2% at
25°C (full scale)– Insulation voltage: 2.8kV peak
at 50Hz in common mode– Output impedance: greater
than 1 MOhms– Load impedance: 5mA-6000
Ohms; 10mA-3000 Ohms; 20mA-1500 Ohms
– Module width: one slot
RTU S900
Influence of temperature– cold, temperature = 0°C IEC 68-2-1– dry, heat, temperature = 60°C IEC 68-2-2– Damp heat, steady state IEC 68-2-3– temperature = 40°C, relative humidity = 95%, duration = 4
days– Rapid variation temperature EC 68-2-14– variation speed = 20°C/h, limits of temperature: 0°C to 60°C– Salt mist 4 days IEC 68-2-11
Mechanical conditions :– Sinusoidal vibration IEC 68-2-6– frequency range: 10-500Hz, amplitude: 10/57Hz = ±0.035mm– acceleration: 57 to 500Hz = ± 0.5g, duration = 10 cycles
RTU S900
OPERATING CONDITIONS
Electrical security conditions :– Insulation resistance IEC 255-5
• voltage = 500V, duration = 1minute, resistance > 100MW
– Dielectric withstand IEC 255-5• voltage : 2kV (50Hz) for I/Os• voltage : 1.5kV (50Hz) for FIP link• voltage : 1kV (50Hz) for asynchronous link
– Impulse voltage withstand IEC 255-5• impulse waveform: 1.2ms/50ms• voltage : 5kV (CM) for digital input/output• voltage : 2kV (CM) for analog input/output• voltage : 3kV (CM) for power supply and FIP
RTU S900
OPERATING CONDITIONS
Immunity test magnetic disturbance IEC 1000-4-8 :– 30 A/m 50/60 Hz
Electrostatic discharge immunity IEC 1000-4-2:– Up to 8 kV for air discharge– Up to 6 kV for contact discharge
Electromagnetic perturbation immunity IEC 1000-4-3– 10 V/m for frequency range 26 to 1000 MHz
Immunity tests transients and high-frequency conducted disturbances– Surge susceptibility test IEC 1000-4-5
• voltage : 2 kV (CM) for I/O• voltage : 1kV (CM) for serial link
– Electrical fast transient/burst susceptibility test 1000-4-4• voltage : 2 kV peak voltage
– Oscillatory waves susceptibility tests• voltage : 2.5 kV (CM) , 1 kV (MD) peak voltage
RTU S900
OPERATING CONDITIONS
TOOLSTOOLSTOOLSTOOLS
RTU S900
Using a Pentium personal computer Using relational environment (ORACLE) High flexibility User friendly Man Machine Interface Import/export of data from/to control centre Automatic generation of files to be loaded
RTU S900
DATABASE GENERATION
RTU S900
DATABASE GENERATION
RTU S900
DATABASE GENERATION
RTU S900
DATABASE GENERATION
Using a Pentium personal computer Using a software logic interface (ISaGRAF) Performing tool with
– Editor– Compiler– Debugger– Simulator– Automatic documentation– Library elements
The five defined IEC 1131-3 Languages
RTU S900
AUTOMATIC GENERATION
SFC Language
Sequential Function
RTU S900
AUTOMATIC GENERATION
FDB Function Block Diagram
RTU S900
AUTOMATIC GENERATION
LD Ladder Diagram
RTU S900
AUTOMATIC GENERATION
ST Structured Text
RTU S900
AUTOMATIC GENERATION
Using a Pentium personal computer Using a software logic interface (ILOG) Performing tool with
– Professional editor– Automatic link with database elements– Automatic documentation– Library elements
RTU S900
GRAPHICAL EDITOR (LOCAL HMI)
Database & graphics management– Creation/
modification tools provided with equipment
– Easy to use (no software specialists required)
RTU S900
GRAPHICAL EDITOR (LOCAL HMI)
Using a Pentium personal computer User friendly Man Machine Interface Possibility to use RTU Data Base Display of Communication messages in :
– HEXADECIMAL, – ASCII, – Database LABELS
User programmable scripts
RTU S900
CONTROL CENTRE SIMULATOR
RTU S900
CONTROL CENTRE SIMULATOR
RTU S900
CONTROL CENTRE SIMULATOR
SIMULATION OF THE SUBTATION SIDE OF RTU 48 KEYS FOR DIGITAL INPUTS 32 LED TO DISPLAY DIGITAL OUTPUT STATE SELECTION OF 1 ANALOG INPUT THROUGH 24 OUTPUT OF 6 ANALOG SETPOINT 1 ADJUSTABLE PULSE GENERATOR INTERNAL OR EXTERNAL POWER SUPPLY
RTU S900
INPUTS OUTPUTS SIMULATOR
INPUTS OUTPUTS SIMULATOR
RTU S900