PRESENTATION ON
OVATION
FEATURES OF OVATION:
AMS Intelligent Device Manager Ovation Plant Web Alerts Ovation Operator Workstation Intuitive Programming Tools Ovation Network Ovation Process Historian Ovation Security Features Connectivity
OVATION COMPONENTS:
Network Controllers Input / Output Modules Relational Database Enterprise Integration Workstations Historians Report Servers
NETWORK FEATURES: Real time data transmission without loss ,
even during plant upsets Fast 100Mbps Communication Interchangeable Fiber-optic and copper
media with UTP, Multi-mode Fiber, and single-mode fiber for network architecture
TYPES OF NETWORKS
Network Speed Drops Points
W1 2 MB 254 16,383
W2 2 MB 254 32,000
W3 100 MB 254 2,00,000
CONTROLLER FEATURES:
Provides Ultimate Flexibility through open Computing Standards
Executes Simple or complex modulating and sequential control strategies
Performs data acquisition functions and interfaces to ovation network and I/O Subsystem
Broadcast Value and status of each point in a drop at appropriate frequency
I /O MODULE FEATURES: Provides low power consumption and heat dissipation. Feature standard DIN rail mounting for fast and easy
installation. I/O Module Consists of:
Electronic modulePersonality moduleTerminal Block
• Electronic Modules: Converts field signals into data and sends in to the
controller• Personality Module:
Characterizes the category of type of I/O and offers the number of protection features.
• In an I/O Module both personality and Electronic module should be same
Module NumberingLeft Branch - Top to bottomRight Branch- Bottom to top
• Relay I/O Module Should be mixed with standard I/O Modules
• Controller is connected to the remote nodes through Media Attachment Unit(MAU) and Remote node Controller.
• MAU-Converts electrical signal in to Optical Signals.
• Remote Node Controller(RNC) interfaces controller and Remote Modules.
• MAU and RNC are connected via Fiber Optic Cable.• 1 MAU can connect 4 RNC.
Features UTP STP Coaxial MultiMode Fiber
Single mode Fiber
Cost Low Low Moderate High High +
Installation Simple Simple Simple Differential Differential
Capacity 100Mbps
155Mbps
500Mbps 2Gbps 50Gbps
Distance 100meter
100meter
1Km 4km 30km
EMI N/R Poor Fair Excellent Excellent
CONTROLLER OCR-400:
A Set of Controllers
Primary Controller
Partner Controller(Redundant) It is called as Compact Controller. Capability to originate 16,000 points. It uses Intel Pentium processor. Speed for the processor is 400MHz. Capable of simultaneously executing as many as five process control
tasks at loop speed ranging from 10 milliseconds to 30 seconds Each control task is comprised of I/O process point input scan, the
control scheme execution followed by output scan
1. One scan task -1S task 2.Second scan task -100mS task
3.Three, Four ,Five - User Selectable
Control Scheme:Building control Sheets with an extensive set of
algorithms.Controller can provide execution of 6000
Control Sheets.• Controller Redundancy:
Ovation Network InterfaceFunctional Processor, Memory and Network ControllerProcessor Power SupplyI/O InterfaceInput power FeedI/O Power SupplyAuxiliary power SupplyRemote I/O Communication Media
Controller Specification:ITEM CAPABILITY
Bus Structure PCI Standard
Originated Points 16,000
Process Control Task Up to 5 with different execution rate, two defined
and three user definable
Control Task Execution Rate Every 10ms to 30sec in 10ms increments
Processor Intel
Memory 128MB Flash &128MB RAM
NIC Ports 4*10/100 MB Ethernet
Power 24V DC 40W
CONTROLLER I/O CAPABILITIES:ITEM CAPABILITY
Local Ovation I/O 2 Set of up to 8 independent branches of
8 modules per branch for a total of 128
modules
Direct wired local I/O Maximums
Analog =1024 or Digital or
SOE=2048
Remote Ovation I/O Up to 8 nodes of 64 modules
Maximum number of remote nodes
8 nodes per ovation controller
Maximum number of I/O Modules per remote
node
64(8 branches with 8 modules for each
branch)
Maximum number of I/O Modules per controller
512(8 nodes,8 branches for each node,8 modules
for each branch)
Maximum number of I/O Modules per controller
1024
TYPES OF I/O MODULES:
8 Channels Analog input 8 channel HART Analog input 8 channel Thermocouple input 8 channel RTD input 4 channel Analog output 16 channel Digital input 16 channel control input 16 channel Digital output 2 channel Pulse Accumulator/Counter 16 channel Sequence of Events
I/O MODULES ADDRESSING D.N.B.S
D-Device number 1-Local Ovation 2-Local Ovation 3-Local Q-Line 4-Can be
Remote Ovation Remote Q-Line Local Q-Line• 5-9 – Third Party Devices
N-Node number(used for remote 1-8)B-Branch numberS-Slot number
ANALOG I/O MODULES:
Individually Isolated Low Power Requirements Analog I/O Modules include:
13-bit Analog Input 14-bit Analog Input RTD Input Analog Output
• Locally powered and Field powered transmitters can be connected in a same module
13-bit Analog Input: Individually isolated inputs 8 channels per module Individual A/D Converter Per channel 13 bit resolution , including sign 10 updates per second under normal conditions
14-bit Analog Input:
8 channels per module Consists of 2 groups of personality and electronic modules
providing current signal of 4-20 mA and voltage signal of +/- 1V
20 updates per second under normal conditions
DIGITAL I/O MODULES: 16 channels per module Single ended or differential inputs Handling AC or DC inputs ranging from 24V to 125VSequence of Events: 16 channels per module Supports digital, single ended or differential inputs Ranges include
24 VAC/VDC Single ended/Differential ended48 VAC/VDC Single ended/Differential ended125 VAC/VDC Single ended/Differential ended
1/8 m sec event time tag resolution with in a controller
OCR400 PROCESSOR AND I/O INTERFACE MODULES
NETWORK INTERFACE PORTS:N1- Other Additional Interfaces(eg : Allen Bradlely)N2- Single Attached Network InterfacesN3- Dual Attached Network InterfacesN4- Dedicated Control Synchronization
I/O INTERFACE MODULES:R3- Supports 4 nodes of remote or 4 nodes of remote Q-LineR4- Supports 4 nodes of remote or 4 nodes of remote Q-LineQ5- Supports 4 create(1 node) local Q-line
SPECIAL MODULES: Link Controller Modules
Programming Port Pulse Accumulator
Counting of pulses Valve Positioner
Linear Variable Differential Transformer
Speed Detector
HISTORIAN ARCHITECTURE Modular Design:
Historian functions separated in to independent software subsystem.
Each subsystem performs unique function like scanning , collecting, storing , retrieving or displaying historical data.
• Client /server Architecture: Server portion runs on historian. Server collects the data from ovation network, send the data to archive storage and responds to retrieval requests.
Client application program runs on operator or engineer work station. It provides the functions to display ,print or save the data collected by server.
HISTORICAL SCANNING AND COLLECTING:
Scans or collects six type of historical dataReal time point values and statusesLaboratory dataHigh speed dataAlarm messagesOperator action messagesSequence of events messagesReport files
POINT HISTORY: Main History:
Continually collects process point data Scan up to 20,000 data points Multiple scan frequency defined by the user on 1sec
increments Collection based on dead band Selection and change in
point status
Long term storage Memory:• Collects and store process point data and retrieves data based on
user request• Scans 600 user definable points and stores the value in online
storage value• Collection based on dead band Selection and change in point status•Dedicated storage allows information to remain online for long time
EVENT HISTORY:
Events such as plant trips or equipment startup can be saved.
Once event is activated 500 user defined points are collected at 100 ms rate and scheduled for archive.
Scans and collects 1hr worth of data. OWS or EWS can generate trends or
reviews of the values collected in the event history.
POINT GROUP HISTORY:
It is similar to the event history capable to define up to 5 historical groups of 20 points each.
Scan and collect information on points with in the predefined sets at a 100ms rate for an hour.
Collection of group data associated with common control functions
Event History Point group
Scan Rate 100ms 100ms
Points Scanned 500 points Up to 5 group of 20 each
Collection rate 100ms 100ms
LABORATORY DATA
Unique data collection method for handling point data , i.e. not acquired in real time.
Up to 1000 individual points collected via manual entry or by communication with external device
Stored in to historical archive for use in trends , reports and other retrieval functions
MESSAGE HISTORY
Alarm History Receives and stores alarm sent by alarm logging drop Allows an operator or engineer to display , print or
save to a file the list of alarms collected Capability to filter the alarm list based on factors such
as Point name Time period or Originating period.
OPERATOR EVENT HISTORY Records operator actions received from OWS
or ovation controller Data Retrieval up on client application
request Filtering is done through time period
originating drop or event typeFile History Saves and archive operator shift diary output
and report generator output as data files in the historian.
File history client interface used to retrieve these data from historian by OWS or EWS
SEQUENCE OF EVENT HISTORY
Collects SOE data from controller ,sorts in to a list and searches the “first-out” events.
Interface allows the operator to view the SOE report and filter it based on tag name , controller or “first-out” point
Appropriate SOE I/O modules are equipped to perform function.
HISTORICAL DATA STORAGE AND RETRIEVAL Historical data scanned and collected is stored for
future retrievals Historian utilizes 3 storage areas
Primary storage Secondary Storage Long term Storage
• Primary Storage• Stores most recently collected data• Includes information from main event point long term histories.
• Information from primary storage transferred to secondary storage at user selectable time.
• It allows Primary storage to clear and available for collection of the next time period data
SECONDARY STORAGE
Maintains a period of historical files on hard disk.
Automatic copy of all data placed in secondary storage to long-term storage provides redundancy
Storage limits are determined by capacity of hard drive(s) and size of files.
LONG TERM STORAGE
Optical disk storage is available to store up to 5.2 gigabytes
Disk size varies from 80GB to 400GB
Storage Summary
Type Minimum Size
Primary Hard Drive 2GB
Secondary Hard Drive 4GB+
Long term Optical Disk DriveDrive Jukeboxes
5.2GB/disk80-330GB
ARCHIVE MANAGER
3 functions Moves Historical files Manages retrieval functions Manages redundancy and recovery functions
Moving Historical filesResponsible for moving historical files from one storage place to another Files are automatically moved from primary to secondary and from secondary to long term storageDeletes oldest secondary files when permanently placed in long term storage
MANAGING DATA RETRIEVALS Automatically locates stored historical data
for retrievals It can find information stored in the hard
drive when user enters the requested time. Automatic retrieval of information within
an optical jukebox is a unique functionRedundancy and Recovery Consist of two separate identical sets of
computer hardware Concurrent redundancy scheme in primary
and partner historians
RETRIEVAL HISTORICAL DATA Historical Trends
Utilize information collected in the data histories Up to 8 user definable points can be trended.Time period can be determined by the userTime periods can be defined in 3 ways
Start and End times End time with specified intervals Start time with specified intervals
• Point Review•Tabular method of displaying historical information
• Point group Review•Allows operator to display , print or save to a file the historical data collected from the point group history.
ALARM REVIEW• Allows operator to display , print or save to a file the
historical data collected from the alarm history.
Operator Event History List of events filters the list of operator events by
time period originating drops or events
SOE Review Allows the operator to view SOE report generated
by SOE history.
SQL Queries Historical data may be recalled in response to standard SQL data queries