4871 Process Controller - Equipar.com.mx

4 8 7 1 P r o c e s s C o n t r o l l e r4871 Process ControllerControl ModuleThe control module of the Parr 4871 ProcessController is a Honeywell HC900 Hybrid Controller.This controller combines analog and logic controlinto a versatile, cost-effective controller designedspecifically for process applications requiringanalog measurement combined with programmablecontrol actions.Input / OutputThe controller is adapted to each users requirementsby adding to the control chassis inputand output modules. Each moldule provides forbetween four and sixteen individual inputs oroutputs fully isolated from one another. Thesemodules include:Parr Series 4871 Process Controllers are configured during manufacturingto the design specifications of the end user.The Parr Model 4871 Process Controller hasbeen developed to provide an integrated standalone control system for controlling either asingle reactor with multiple feed and productcontrols or multiple reactors operating independentlyor in parallel.The Parr 4871 Process Controller combinesa single turnkey system containing thefollowing component parts:Control Module:• Honeywell HC-900 Hybrid Controller.Flexible, Powerful Software:• SpecView SCADA software.• System set up with graphical userinter-face configured to individualrequirements.Power Controller• Parr 4875 Power Controllers for handlingheating, cooling, safety and motorcontrol devices.Input ModulesThe analog inputs are of universal type and aremost commonly used for thermocouple or RTDtemperature sensors, strain gage type pressuretransducers, and similar devices with mV, V, orresistance inputs. Input isolation, cold junctioncompensation, and burnout protection are incorporatedinto the circuitry. Each analog input moduleprovides for eight separate inputs.The digital inputs can be logic inputs or contactclosures. These are typically used for sensing valvepositions or conditions of safety devices. Eachdigital input module provides for sixteen separateinputs.Output ModulesThe analog outputs are 4-20 mA. A suitabledropping resistor can be used to convert this to 0-5or 0-10 VDC. Analog outputs are commonly used toset stirrer motor operating speeds, position controlvalves, or drive mass flow controllers or pumps.Each analog output is capable of controlling fourseparate devices or functions.The digital outputs are open collector typecapable of sinking up to 300 mA . They arecommonly used to control heaters, solenoid valvesfor cooling or other flow control, system safetyshut down, visual and/or audible alarms, andsimilar devices. Each digital output module iscapable of controlling sixteen separate devicesor functions.w w w . p a r r i n s t . c o m

4 8 7 1 P r o c e s s C o n t r o l l e rControl LoopsThe controller can provide any number of PID orON/OFF control loops, limited solely by theavailable CPU memory.The PID control algorithm includes auto-tuningand fuzzy logic overshoot suppression for eachcontrol loop. For heating and cooling control, thePID control loops provide time proportioning of theassociated digital output.Many temperature control applications utilizetwo separate time proportioning outlets with onePID controller; one for heating and one for cooling.Control loops can be linked together to providecascade, feed forward or ratio control for difficultor advanced control applications.Both high and low limit values can be enteredfor each control loop to sound alarms or initiatesafety control schemes.Set Point ProgrammingRecipes for controlling the entire process of areactor can be written using the setpoint profilerincorporated into the control firmware. A singleprofile may be from 2 to 50 segments in length.A typical profile might be a ramp and soak of thereactor temperature but, in addition, the analog anddigital outputs can be tied to the basic profile to startand stop flows, activate stirrers or accessories, orchange alarms. Any of the setpoints within theprofile can be protected with the setpoint guaranteefunction that assures that the process variable willbe within the entered limits before the profile canproceed.The number of set point programmers islimited by the amount of available memory inthe controller CPU. Typically, at least eightseparate profiles can be running independently(8 reactors each on their own program, forexample) simultaneously.While a maximum of 70 profiles can be storedin the controller itself, an unlimited number canbe stored in the operator’s PC for rapid transferto the controller.In addition to the setpoint profiling capability,the controller is also equipped with a setpointscheduling function. This feature can operate upto 8 profiles operating on a common time base.Screenshot of typical 4871 Controller userinterface main screen.The 4871 Controller includes OperationalSequence ControlThe sequence control function offered by the4871 Controller greatly expands the capabilitiesof this control for users who wish to controlreactor systems. The operation of valves, pumpsand other peripheral devices can be programmedon either a time or an event driven basis.Sequences can be very simple timed events orthey can be very complex with multiple nesteddefault sequences programmed to occur onlyif process feedback indicates a need to takealternative actions.Communications ChannelsEach 4871 controller is equipped with a RS-232and Ethernet communication port. The RS-232 portis used to establish fundamental control logic.The Ethernet port provides communication withthe host PC when using the SpecView GUIprogram. Multiple controllers, each with a uniqueaddress, can be networked on the Ethernetinterface with a single connection to the PC.The principal advantage of the Ethernet interfaceis that it allows the user to use an existing networkinfrastructure to connect the controller to the PC.As a result, one can operate the controller over thenetwork from anywhere within your facility.Additionally, Internet access from remote locationsbecomes possible. This type of connectivity offersunique possibilities, for example, related to remotediagnostics and system troubleshooting.Three Models AvailableParr 4871 Process Controllers are available inthree differrent models to cover a wide range ofapplications. The 4871A will accept four I/Omodules (typically up to 36 inputs and outputs).The 4871B will accept up to eight I/O modules,and the 4871C will accept up to 12 I/O modules.If more than 100 inputs and outputs are required,multiple controllers can be linked.P a r r I n s t r u m e n t C o m p a n y

4 8 7 1 P r o c e s s C o n t r o l l e rFlexible, Powerful SoftwareIn most laboratory and pilot plant applications, aPC will be used for the operator interface. For plantor production applications, an industrial type userinterface box with a color graphic LCD is available.SpecView SCADA SofwareSpecView describes their product as “Softwarefor people with other jobs”. That seems to be anexcellent description of this software packageused with the 4871 controller to:• Configure the control package• Develop the graphical screen layout• Establish the data logging profiles• Prepare custom reports• Create bar graphs• Generate time trend graphs• Monitor alarms• Create flexible recipes• Retrieve and replace logged data• Operate the reactor system(s)The full software package, not just a run-timeversion, is supplied with 4871 controller so operatorscan enhance their system as they get familiarwith it or expand / change their applications.Download a demo at www.specview.com.Graphical User InterfaceAn integral part of the Honeywell Controlleris the control builder software. This is the “Dragand Drop” software that enables Parr to rapidlyestablish the controller’s internal logic and adaptit to individual systems requirements.The user can employ this same software tochange or enhance the fundamental logic of thecontroller as additional components are addedto the system or as functions need to change.Current Industrial StandardsModbus, Ethernet, auto-tuning, fuzzy logic,auto-configuring Man Machine Interface (MMI),supervisory control and data acquisition (SCADA),multi-loop control; these are a few of the termsand capabilities designed into the hardware andsoftware incorporated into the Parr 4871 controller.This is a very modern and powerful packagethat enables us to offer turnkey systems ready torun within weeks of order at very attractive pricescompared with custom programmed systemspreviously available.The photo above illustrates a six station multi-reactorsystem. Each reactor is equipped with its own constantpressure gas delivery system. The 4871 Controller maintainsall of the important system parameters, includingtemperature and stirring speed, and records the gasconsumption of each of the reactors.PC RequirementsThe PC used with the 4871 serves severalfunctions. It is the operator’s user interface forcontrolling the process. It also logs all of theoperating data generated during a process run.It can also store multiple setups for rapidtransfer to the 4871 Process CPU.Any modern PC with current Windows operatingsystem can be used with these controllers.It is important to note that the control ofthe process always resides within the 4871Controller, and not in the PC itself.w w w . p a r r i n s t . c o m

4 8 7 1 P r o c e s s C o n t r o l l e rPC GraphicalUser InterfaceData LoggingTemperaturePressureStirrer SpeedFlow RateSafety LinksParr 4871Process ControllerAlarmsAn unlimited number of4871 Controllers can becontrolled by a singlePC operating theSpecView software.The Parr 4875 Power Controller module is flexible and can be usedin remote locations from the system being controlled.Power ControllerParr designs, builds and furnishes powercontrollers to adapt the analog and digital outputsfrom the 4871 controllers to the reactors orsystems being controlled. These powercontrollers handle all of the high current powercircuits so that the control circuitry is isolatedfrom these loads. This also makes it possible toinstall the controller in a control room somedistance from the system being controlled.The power controller or controllers will bedesigned for each individual system, but as anexample, a 4875 power controller includes:1. A solid-state relay sized to handle the currentdrawn by the vessel heater. This is commonly a25-amp relay with its protective fuses.2. A solid-state relay sized to drive a solenoidvalve to control the flow of cooling water to thevessel.3. A motor speed controller that converts theanalog output signal from the controller to theelectrical signal required to drive the specificstirrer motor. A circuit breaker for the motor isalso provided.4. A lockout relay to shut down the heatercircuit should an alarm condition be detected.5. Status lights for the principal functions.6. Connections of appropriate style for thepower input and device outputs.Parr 4875Power ControllerHeating ControlCooling ControlStirrer ControlSafety InterlockUp to twelve 4875 Power ControlModules can be controlled, with individuallyisolated inputs and outputs,with one 4871 Process Controller.NOTE: One model 4875 Power Controller is required for eachreactor in a parallel system.This custom order is set up to run sixteen Reactors, two 4871Process Controllers, with sixteen 4875 Power Controllers allthrough one PC.P a r r I n s t r u m e n t C o m p a n y

4 8 7 1 P r o c e s s C o n t r o l l e r4871 Process Controller Selection GuideEach 4871 Controller will be specified and assembled to match the users intendedapplication. These applications can vary from a single reactor with full process controlto eight reactors operating in parallel. The 4871 Process Controller connects to acustomer-supplied PC with a current Windows Operating System.There are three basic parts to this configuration process.1. Basic ControllerThe base model includes all of the components that will be required forany system:• Control chassis with CPU• Communication module to PC• Power supply• Connection cable to PC• Operating and configuration software• Ethernet connection• Specview Scada SoftwareAvailable Models:4871A Process Controller for up to 4 I/O Modules4871B Process Controller for up to 8 I/O Modules4871C Process Controller for up to 12 I/O Modules2. Input and Output ModulesThese are the analog and digital inputs and outputs required to receive thesignals from the sensors (thermocouples, pressure transducers, position switches,safety interlocks, etc.) installed on the system and to drive the control devices(motors, heaters, control valves, coolant flow, etc) which operate the system.• Analog Input (AI) 8 / module• Digital Input (DI) 16 / module• Analog Output (AO) 4 / module• Digital Output (DO) 16 / module3. Power ControllerThe load carrying components are mounted separately from the data processingcomponents mounted in the controller cabinet. Typically the components mountedin a power controller would include:• A Solid state load relay for heater control• A Solid state load relay for cooling control• Motor speed controller• Fuses and circuit breakers for aboveA Model 4875 Power Controller includes a complement of heating, cooling andmotor control to operate a single reactor. Each reactor being controlled by the Model4871 Controller will require its own power controller. Power controllers can be customdesigned to meet unique requirements with additional control features or morelimited systems.Please contact the customer service department for assistancein configuring the Series 4871 Process Controllers.211 53rd StreetMoline, Illinois 61265 USAPhone: 1-309-762-7716 or 1-800-872-7720Fax: 1-309-762-9453E-mail: parr@parrinst.comhttp://www.parrinst.comBulletin 4871 3500 0207Printed in USA