3000 SIS - RTP

1 3000 SISC ritical Control and Safety SystemRTP Corp. 1834 SW 2nd Street Pompano Beach, Florida 33069 PHONE (954) 974-5500 FAX (954) 975-9815 EMAIL WEB: Highlights Multi Processor Architecture SIL-3 Communications Comprehensive Diagnostics Configurable Redundancy Availability in excess of (6 Nines) 12 msec Response TimeProduct OverviewParallel ProcessingRTP s unique multi-processor architecture aids the userin many ways. It minimizes the scan time providingunprecedented speed for identification of processdisruption and for responding to such disturbance. Insafety applications, the importance of this speed cannotbe overstated. The ability to identify and respond toprocess malfunctions as quickly as possible is key toavoidance of damage to process, equipment, orpersonnel.

2 For your critical control applications, the3000 has the ability to solve 300 PID loops, scan I/O,solve logic, handle alarms, perform peer to peercommunication and perform other communication ina single 5 millisecond node and chassis processor has multiple cpu sworking in parallel to perform a specific function. Thisarchitecture enables the system to maintain a 5-millisecond scan regardless of the size of the applicationor the amount of I/O. Unlike conventional control andsafety systems, the scan rate does not increase inproportion to the amount of I/O. Additional computingcapability is added as the I/O load grows, meaning thatthe system never exhibits a scan time in excess of 5milliseconds.

3 No matter how large the application, the3000 will provide the highest performance of any cpu s on the Node Processors perform thesystem s node logic solving, engineering unitsconversion, input validation and voting, alarm com-munications, data archiving communications, HMIcommunications, peer-to-peer communications, andcommunication validation functions. The cpu s on theChassis Processors perform the system s chassis I/Oscanning, 1 millisecond SOE log time stamping, resultsvalidation and voting, I/O bus validation, I/O integritychecking, field device checking, and field wirechecking functions. Due to the parallel processingarchitecture, the 3000 is able to achieve a 12 milli-second response time (screw to screw).

4 Another benefit of the multi-processor architecture iscomprehensive diagnostics. RTP brings morecomputing power to the task, enabling more diagnosticsthat, in turn, enables the High Integrity and HighAvailability the 3000 SISRTP is the Best Technology for Your Investment,Here s Why:The 3000 is a multi-processor architecture that deliversexceptional Performance and ComprehensiveDiagnostics. The results speak for themselves: AReaction Time of 12 msec, true 1 msec SOE (Analogand Digital), an MTBF of greater than 3000 years, anMTTFS of greater than 4000 years, and a PFDavg of5x10-5. Compare these numbers to any other Proof Test Diagnostics means it will never benecessary to shut down at the proof test online downloads of logic and configurationchanges do not require a periodic shut down like othersystems.

5 Compare this functionality to any Suite Software: One-time price includes unlimiteduse of Logic Development, Alarm Manager, DataArchive and Historian, and HMI without hardware orsoftware keys. Compare this functionality and priceto all other , a Safety Instrumented System (SIS) shouldalways take the process it protects to a safe state whenit is required to do so, and it should never interferewith the operation of the process at any time. The3000 does this better than any other I/O and host communications occur over SIL-3 redundant100 Megabit full duplex Ethernet networks. With an effectivebandwidth of 400 MHz, I/O and host updates are more frequent,further enhancing the improved protection the 3000 the fastest response, distributed processing is available incertain I/O cards allowing complex algorithms to be performedby the card.

6 This I/O runs its own application resulting inthroughputs of 1 millisecond. Such capability is particularlyimportant to high-speed applications such as rotating machineryor exothermic RedundancyThe 3000 SIS is extremely scalable from small systems of asingle chassis up to complex systems of sixteen chassis pernode. This unique design is built upon a set of standard hardwareand software components that supports multiple standard components (which include Node Processors,Chassis Processors, I/O chassis, power supplies and I/Omodules) are utilized to construct systems ranginge fromsimplex to figure above illustrates, from left to right: The 3000 -Q QMR with four Node Processors distributed infour I/O chassis plus additional I/O chassis with redundantpower supplies on a triple redundant I/O network.

7 Each I/Ochassis includes redundant chassis processors for maximumavailibility. The 3000 -Q QMR with four Node Processors in one dual-redundant power supply I/O chassis plus additional I/Ochassis. Each I/O chassis includes redundant chassisprocessors. The 3000 -T TMR with three Node Processors in one dual-redundant power supply I/O chassis plus additional I/Ochassis. Each I/O chassis includes redundant chassisprocessors. The 3000 -D with two Node Processors in one I/O chassiswith dual-redundant power supplies plus additional I/Ochassis. Each I/O chassis includes redundant chassisprocessors. The 3000 -S with one non-redundant Node Processor plusadditional I/O chassis.

8 Each I/O chassis includes one five nodes are shown integrated over a SIL-3 Fast Ethernetnetwork, which connects to the supervisory domain comprisedof the RTP NetSuite Integrated Software SIS System DiagramAvailability equates to redundancy and the ability to modify andrepair the processors online. Redundancy in the 3000 can beconfigured according to the level of availability is simple to design and implement; the programmingand configuration of a redundant 3000 is identical to that of anon-redundant 3000 using NetArrays (RTP s configuration andlogic development software).Dual-, triple-, or quad- redundant node processors can be locatedin separate chassis preventing the possibility that a single physicalevent would take out the safety system.

9 No other TMR orQMR product has this I/O can be wired to multiple points on the samecard, to different cards in the same chassis, or to differentcards in different chassis. The node processors can beconfigured to validate and vote redundant input values usingbuilt-in signal validation 3000 supports online program and configuration are no download buffers and all multiple processor issuesare handled automatically by the processors a QMR configuration the 3000 has an availability of SIXNINES ( ).Even more impressive, the Mean Time To Fail Safe (MTTFS)is greater than 4000 years, an order of magnitude better thanconventional safety systems.

10 This MTTFS equates to a 90%reduction in nuisance trips attributable to the safety QMR Architecture DiagramComprehensive DiagnosticsDiagnostics are the key to integrity. It is imperative that everycomponent in the system, and every system function, be testedevery scan. The 3000 provides thie capability without additionalhardware or special programming. Advanced built-indiagnostics, certified by TUV, are performed on the wiringbetween the field device and the I/O card, on the functions ofthe I/O card, and on the communications between the I/O cardand chassis processor. Proof test diagnostics occur transparentto the field device. Proof test diagnostics actually insert a faultcondition on each channel, to ensure that the card s faultdetection circuitry is capable of detecting any fault conditionon every channel.