Micromod MOD: MODCELL Multiloop Processor 2002N Model C and Bedienungsanleitung

MODCELL™ Multiloop Processor Installation Product Description, Installation and Wiring for 2002N Model C and Associated Hardware

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION1.3.3 2001P Logic Control Identity ModuleThe identity module gives the processor a specific level of pro

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION1.3.4 2004P Advanced Control Identity ModuleThe identity module gives the processor a specific level of

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION1.4 I/O MODULESThe descriptions included in this section give a brief overview of the functions andfeatu

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION1.4.2 2002A Current Input ModuleThe current input module is identical to the voltage input module except

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION1.4.4 2013A Thermocouple Input Module (with upscale burnout detection)The thermocouple input module is i

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION1.4.6 2004A Solid-State Relay Input ModuleThe Solid-State Relay Input module provides the necessary inte

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION1.4.8 2006A Nonisolated Digital Input ModuleThe Nonisolated Digital Input Module is primarily intended f

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION1.4.10 2011A Mechanical Relay Output ModuleThe Mechanical Relay Output Module may have dual SPST relays

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION1.4.12 2020N Remote I/O Interface ModuleRemote Input and Output Modules expand the I/O capability of a M

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION1.5.2 2032N RS-485 Communication Module for Modbus (2-Wire)This RS-485 Communication module is a 75LBC17

MicroMod Automation, Inc. The Company MicroMod Automation is dedicated to improving customer efficiency by providing the most cost-effective, applic

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION1.5.4 2034N RS-485 Communication Module for Modbus (4-Wire)This RS-485 Communication module is a pair of

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION1.6 RELATED DOCUMENTATIONReference information on the data base structure and configuration parameters f

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION16

MODCELL Multiloop ProcessorMECHANICAL INSTALLATION2 - MECHANICAL INSTALLATION2.1 GENERALRead these instructions thoroughly before starting installatio

MODCELL Multiloop ProcessorMECHANICAL INSTALLATIONTable 2-1. Module Types and Suggested LocationsBlockTypeModule TypeModule Location1 to 16 17 to 32V

MODCELL Multiloop ProcessorMECHANICAL INSTALLATION2.3.2 Current ConsumptionThe Model C multiloop processor has the capacity to handle any mix of I/O t

MODCELL Multiloop ProcessorMECHANICAL INSTALLATION2.4 MOUNTINGThe instrument must be installed in an approved enclosure or installed in a meansaccepta

MODCELL Multiloop ProcessorMECHANICAL INSTALLATION2.4.1 2002N Multiloop Processor - Flush MountThe flush mount processor can be mounted directly

MODCELL Multiloop ProcessorMECHANICAL INSTALLATION22

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3 - ELECTRICAL CONNECTIONS3.1 TERMINAL IDENTIFICATIONThe power wiring connections and input/output (I

MODCELL Multiloop ProcessorCONTENTSCONTENTSPage1 - PRODUCT DESCRIPTION1.1 OVERVIEW . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS2030FZ00002AICN TerminatorRed Pin = 24VSlot N / Slot N+1Figure 3-1. Terminations for 2002N24

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3.3 POWER CONNECTIONSWARNINGAvoid electrical shock. AC power wiring must not be connected atthe distr

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3.4.2 Shield GroundThe shield terminals, Figure 3-1, are only connected to one another; they are noti

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3.4.5 Noise Prevention MeasuresPrimary power circuit distribution system:• Ideally, each microprocess

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS• Any connection made to provide a noise ground should be kept as short as possibleusing the largest

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONSFigure 3- 2. Typical Input Circuit for 2013A Thermocouple Input ModuleThermocouple(B,E,J,K,N,R,S,T)+V

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3.5.2 2004A SSR Input (DIM)Make Solid-State Relay (SSR) connections as shown in Figure 3-4. These in

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONSS-3031-16Figure 3- 3. Typical Input Circuit for 2004A Solid State Input ModuleS11S10–+L2 or –L1 or

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS32

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3.5.3 2006A Nonisolated Digital Input (DIM)Make nonisolated digital input connections to terminal blo

MODCELL Multiloop ProcessorCONTENTSCONTENTS (Cont’d)Page3.4.2 Shield Ground . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3.5.4 2002A and 2012A Current Inputs (VCIM)Make current input connections to terminal block as shown

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONSS-3031-18Figure 3- 5. Typical Input Circuits for 2002A Current Input Module and 2012A Current Input M

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3.5.5 2001A Voltage Input (VCIM)Make volt or millivolt connections to terminal block as shown in Figu

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3.5.6 2009A RTD Input (RIM, WRIM)Make resistance input connections to terminal block as shown in Figu

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONSS-3031-29Figure 3- 7. Typical Input Circuit for 2009A RTD Input ModuleINCS201421RefRef3-WireRTDS19A/

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3.6 OUTPUT CONNECTIONSThis section describes the process output connections for the following output

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3.6.2 2005A SSR Output (DOM)Recommended connections to a customer relay are shown in Figure 3-10. Ma

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONSS-3031-22Figure 3-1 0. Typical Output Circuits for 2005A Solid State Relay Output ModuleS8S7L2–+BASE

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3.6.3 2007A Nonisolated Digital Output (DOM)Make nonisolated digital output connections as shown in F

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3.6.4 2011A Dual Mechanical Relay Outputs (DDOM)Make mechanical relay output connections as shown in

MODCELL Multiloop ProcessorCONTENTSILLUSTRATIONSPage1-1 Modcell 2002N Processor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3.6.5 2011A Form C Mechanical Relay Outputs (WDOM)Make mechanical relay output connections as shown i

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONS3.7 2020N REMOTE I/O INTERFACE CONNECTIONS (RIO)Make remote I/O interface connections as shown in Fig

MODCELL Multiloop ProcessorELECTRICAL CONNECTIONSTable 3-3. Supported Remote I/O ModulesModule DescriptionDigital Input Modules . . . . . .ICSI 08 D1

MODCELL Multiloop ProcessorCOMMUNICATIONS CONNECTIONS4 - COMMUNICATIONS CONNECTIONS4.1 ICN CONNECTIONSA typical Instrument Communications Network (ICN

MODCELL Multiloop ProcessorCOMMUNICATIONS CONNECTIONSR29, R30 and R31 on any single 1723F Field Input Board (see MOD 30 installationinstructions) sinc

MODCELL Multiloop ProcessorCOMMUNICATIONS CONNECTIONS4.2 MODBUS NETWORK CONNECTIONS4.2.1 GeneralNumerous Modbus network connection arrangements are po

MODCELL Multiloop ProcessorCOMMUNICATIONS CONNECTIONS4.2.2 2033N RS-232 Communication for ModbusThe 2033N RS-232 Communication module is a driver/rec

MODCELL Multiloop ProcessorCOMMUNICATIONS CONNECTIONSFigure 4-2. Typical Modbus Network Connections for 2033N RS-232 Communication ModuleIsolatedComm

MODCELL Multiloop ProcessorCOMMUNICATIONS CONNECTIONS4.2.3 2032N RS-485 2-Wire Communication for ModbusThe 2032N, Model C RS-485 Communication module

MODCELL Multiloop ProcessorCOMMUNICATIONS CONNECTIONSFigure 4-3. Typical Modbus Connections for 2032N RS-485, 2-Wire Module used as a Slave+5VdcPerso

MODCELL Multiloop ProcessorCONTENTSiv

MODCELL Multiloop ProcessorCOMMUNICATIONS CONNECTIONSFigure 4-4. Typical Modbus Connections for 2032N RS-485, 2-Wire Module used as a MasterBASE INST

MODCELL Multiloop ProcessorCOMMUNICATIONS CONNECTIONS4.2.4 2034N RS-485 4-Wire Communication for ModbusThe 2034N RS-485 Communication module, Figure

MODCELL Multiloop ProcessorCOMMUNICATIONS CONNECTIONSFigure 4-5. Simplified Diagram, 2034N RS-485, 4-Wire Module2034N RS-485 MODULEDATAPLCCSELCLKGND+

MODCELL Multiloop ProcessorCOMMUNICATIONS CONNECTIONSFigure 4-6. Typical Modbus Connections for 2034N RS-485, 4-Wire Module used as a SlaveIsolated +

MODCELL Multiloop ProcessorCOMMUNICATIONS CONNECTIONSFigure 4-7. Typical Modbus Connections for 2034N RS-485, 4-Wire Module used as a MasterIsolated

MODCELL Multiloop ProcessorCOMMUNICATIONS CONNECTIONSFigure 4-8. Typical Modbus Connections for a 4-Wire Master with 2-Wire SlavesIsolated +5Vdc2034N

MODCELL Multiloop ProcessorCOMMUNICATIONS CONNECTIONS60

MODCELL Multiloop ProcessorGETTING STARTED5 - GETTING STARTED5.1 INSTALLATION REQUIREMENTSThe section is intended to get you to the point where your i

MODCELL Multiloop ProcessorGETTING STARTED11. If necessary, change to the correct instrument version icon and then place andconfigure an ICN or MSC bl

MODCELL Multiloop ProcessorGETTING STARTEDcompatible, has valid checksums, no ICN or comm port mismatch), the 'downloadon warm start' attrib

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION1 - PRODUCT DESCRIPTION1.1 OVERVIEWThe MODCELL Multiloop Processor is a microprocessor-based control uni

MODCELL Multiloop ProcessorGETTING STARTED64

MODCELL Multiloop ProcessorAPPENDIX A - PLANNING FORMSAPPENDIX APLANNING FORMSA.1 GENERALThe forms included in this appendix may be copied as necessar

MODCELL Multiloop ProcessorAPPENDIX A - PLANNING FORMSI/O MODULE CURRENT CONSUMPTION PLANNING FORM FOR CONTROLLER NUMBER ____Catalog No. DescriptionMa

MODCELL Multiloop ProcessorAPPENDIX A - PLANNING FORMSModule Locations for Controller Number _____No. Module No. Module No. Module No. Module No. Modu

MODCELL Multiloop ProcessorAPPENDIX A - PLANNING FORMS2002N WIRING PLANNING FORM - FLUSHMOUNTCold JunctionSensor Location_______Wiring Connections for

MODCELL Multiloop ProcessorAPPENDIX B - SUMMARY OF HARDWARE DIFFERENCESAPPENDIX B - SUMMARY OF HARDWARE DIFFERENCESB.1 GENERALThis document is written

MODCELL Multiloop ProcessorAPPENDIX B - SUMMARY OF HARDWARE DIFFERENCESAt least one cold junction compensation input is recommended for each controlle

MODCELL Multiloop ProcessorAPPENDIX B - SUMMARY OF HARDWARE DIFFERENCESB.6 MODEL A ICN COMMUNICATION MODULEThe Model A ICN module has no 24V dc supply

MODCELL Multiloop ProcessorAPPENDIX C - MAINTENANCEAPPENDIX C - MAINTENANCEC.1 MAINTENANCECAUTION. Disconnect power before servicing.Remove dust from

MODCELL Flushmount Controller Instruction NoticeApproved Modules for Class I, Division 2 Hazardous LocationsOnly the following modules may be used in

MODCELL Multiloop ProcessorPRODUCT DESCRIPTIONThe 2002N Processor is packaged into a flush mount form for rack or panel mounting asshown in Figure 1-2

The Company’s policy is one of continuous product improvement and the right is reserved to modify the information

MODCELL Multiloop ProcessorPRODUCT DESCRIPTION1.3 BASIC HARDWAREThe descriptions included in this section give a brief overview of the functions andfe