NCSMIMNC
SMIM
April 2016 288-766-00 B
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eNET Concentrator ® System
with MODBUS Interface
2 The Interface Solution Experts
Table of Contents
The NET Concentrator® System .....................................................................3About this Manual ...............................................................................................................3
The MODBUS Interface Module (MIM)............................................................4Specifications–MIM .............................................................................................................5
Connecting the MIM to the MODBUS-RTU Network .......................................................5
Mounting ................................................................................................................................................... 5
Making the Connections............................................................................................................................ 6
PC Configuration Program .........................................................................8Navigating the PC Program ...........................................................................................10
The TIM Temperature Input Module ..............................................................11
The AIM Analog Input Module ......................................................................17
The AOM Analog Output Module ..................................................................22
The CPM NET Concentrator System Power Module ..................................27
The DIM Discrete Input Module.....................................................................30
The ROM Relay Output Module ....................................................................35
Appendix A: MODBUS RTU Support.......................................................... A-1
Appendix B: Loading a Custom Curve File............................................... A-3
Appendix C: Hot-Swapping a NET Concentrator® Module...................... A-5
Customer Service ......................................................................................... A-6
All product names are the property of their respective companies.
The Interface Solution Experts 3
NCSMIMNET Concentrator® System
with MODBUS Interface
DCS, PLC,or PC with HMI/SCADA (with NET Concentrator System OPC Server)
CITECT ICONICS Intellution US DATA
Wonderware
NET Concentrator
System
MODBUS-RTUNetwork
ModuleNumber
Distributed Field DevicesProcess Variable Transmitters
Temperature SensorsControl Valves
Discrete DevicesRelays
The NET Concentrator®
SystemThis is the user’s manual for the Moore Industries NETConcentrator® System (NCS), a modular family thatprovides a link between dispersed field-mountedprocess monitoring/control equipment and the controlroom. The NCS transports just a few, or hundreds, ofprocess signals between the field or plant floor andyour control room on a single communicationsnetwork.
The NET Concentrator System is any combination ofone Interface Module with one or more I/O modules.If there are multiple Interface Modules on one network,the individual Interface Modules are termed stations,while all the combined modules are called a system.If there is a single Interface Module on a network, it(and any attached I/O modules) is termed a system.
The Interface Module and one or more I/O modulesconnect together via DB-25 connectors integrated into
the side(s) of each module. Any combination of inputand output modules may be used within a NET Con-centrator System network. Power for up to two input/output modules is supplied by the Interface Module. Atotal of eight units can be powered by adding a NETConcentrator System Power Module, or CPM.
About this ManualWherever you see a “Note”, “Caution”, or “WARNING ”pay particular attention.
• A “Note” provides information to help you avoidminor inconveniences during calibration,installation, or operation of the NCS.
• A “Caution” provides information on steps to take inavoiding procedures and practices that could riskdamage to the NCS or other equipment.
• A “WARNING ” provides information on steps to takein avoiding procedures and practices that couldpose safety risks to personnel.
Figure 1. The NET Concentrator System Connects a Variety of Field Devices to Your Controller
NCSMIM – MIM
4 The Interface Solution Experts
NET Concentrator® SystemMODBUS Interface Module
InterfaceModule
Input or Output Module
+ + =
NET Concentrator System Station
ModuleNumber
Fully-Populated NET Concentrator System Station
ModuleNumber
ModuleNumber
InterfaceModule
ModuleNumber
InputModule
InputModule
OutputModule
InputModule
Input Module
OutputModule
InputModule
OutputModule
ModuleNumber
Input or Output Module(Not Required)
CPM PowerSupply Module
(Can be Installed at Any Position Within a Station)
Up to 8 Input/Output Modules per Interface Module (with addition of a CPM)
The MODBUSInterface Module (MIM)The MODBUS Interface Module (MIM) interfaces thewide range of NET Concentrator I/O modules toMODBUS RTU protocol. It regularly scans I/O mod-ules for process and diagnostics data and maintainsits own database for quick access from two indepen-dent MODBUS RTU slave ports. Upon power-up, theMIM automatically detects all I/O modules connected,and uploads data needed from each module in order tobegin scanning.
Figure 3. MIM Dimensional Diagram
Figure 2. NET Concentrator System stations consist of one MIM Interface Module combined with up to eight Input/Output Modules.
Note:The MIM MODBUS Interface Module provides
power for up to two Input and/or Output Modules.If more than two I/O Modules will be connected tothe Interface Module, a CPM Concentrator PowerModule is required. The CPM may be installed at
any position within a NCS station.It works in conjunction with the Interface Module to
power NCS stations of up to eight I/O Modules.
74mm
(2.9 in)
POWER
RX1READY
135mm
(5.3 in)
114mm
(4.5 in)
MIM FRONTLEFT SIDE RIGHT SIDE
MIM MODBUS INTERFACE MODULE83mm
(3.3 in)
TX1
RX2
TX2STATUSCOMMS
NCS NET CONCENTRATOR SYSTEM
The Interface Solution Experts 5
NCSMIM - MIMNET Concentrator® SystemMODBUS Interface Module
Connecting the MIMto the MODBUS RTU NetworkConnecting the MIM to the MODBUS RTU network in-volves Making the Connections and PC ConfigurationProgram.
MountingThe MIM is designed to snap easily onto 32mm,G-type (EN50035) or 35mm Top Hat (EN50022) DIN-rails. Snap the MIM onto the DIN-rail, then snap addi-tional NCS modules onto the DIN-rail to the right of theEIM, and slide together until the DB25 connectors onthe side of the MIM connect completely with the unitto its right.
Specifications
Specifications and information subject to change without notice.
MIM MODBUS Interface ModuleOne Interface Module Required Per NET Concentrator System Station
Type:Two independentlyconfigurable RS-485 ports(according to EIA RS-485,1983)Protocol Type:MODBUS RTU for Peer-to-Host Systems; MooreIndustries proprietaryprotocol for Peer-to-PeerSystemsBaud Rates: Any rate isuser selectable (1200, 2400,4800, 9600, 19200, 38400and 57600)Configuration:Accomplished using a PCwith RS-232 port and MooreIndustries’ IntelligentConfiguration Software
Communication Range:1.6km (1 mile) typical at9600 baud over 20AWGtwisted pair; 0.8km (0.5 mile)typical at 19200 baudData Access Time: Time todetect or effect a change inan I/O signal. For aMODBUS master polling anMIM station, it is the sum ofthe 3 timing components(consult the factory for peer-to-peer system throughput):1. Network CommunicationTime: Depends on baudrate, amount of system data
Communi-cations
Performance
Performance(continued)
Status andFault
Indicators
Weight
and the number of differentpolls2. Scan Time: Timerequired by the EIM to scanreal-time data in all I/Omodules within an NCSstation (see “Module ScanTime” specification for eachI/O module type and addtimes for each I/O module inthe NCS station3. Signal Response Time:Time to convert betweenphysical I/O and digitalsignals (see specification forspecific I/O type)OPC Server: Allows PC-based software packages toaccess data from theMODBUS Interface ModuleIsolation: 500Vrms,continuous, and willwithstand 1000Vrmsdielectric strength test forone minute with nobreakdown, between powerinput, each MODBUS port,case and terminals of otherattached NCS modulesPower Supply:20-30Vdc/3.6W maximumDiagnostic Data: Faultinformation provided on thefollowing conditions: error inone of the I/O modules;RAM error; systemconfiguration error; I/Omodule port failure
AmbientConditions
READY: Green LEDindicates the device hasinitialized and is runningproperlySTATUS: Red/Green LED,normally green, turns redwhen fault conditions withinthe MIM are detected.RX (one for each RS-485port): Green LED flashesas information is receivedTX (one for each RS-485port): Green LED flashesas information is transmitted
Operating Range:–40°C to +85°C(–40°F to +185°F)Storage Range:–40°C to +85°C(–40°F to +185°F)Relative Humidity:0-95%, non-condensingRFI/EMI Protection:20V/m @20-1000MHz, 1kHzAM when tested according toEN61000-4-3-1996
493 g (17.4 oz)
NCSMIM – MIM
6 The Interface Solution Experts
NET Concentrator® SystemMODBUS Interface Module
Device
MODBUS RTUNetwork Connection
Power Supply
Personal Computer(for configuration)
One or two shielded, twisted pairMODBUS RTU connections
IBM or compatible PC with:20Mb free hard disk spaceMicrosoft Windows® 95, 98, 2000, ME,or NT (Windows 98, 2000, ME and NTmay require additional RAM and harddisk space. See your Windows manualfor details.)
Table 1. Assembling the equipment for NCS Hookup
CE ConformityInstallation of any Moore Industries’ product that car-ries the CE compliance marking (Commission Electro-technique) must adhere to their respective installationguidelines in order to meet the requirements set forthin applicable EMC (Electromagnetic Compatibility)directive (EN61326). Consult the factory for additionalinformation.
To install the power supply into the terminals, insert asmall, flathead screwdriver into the pry slot, open wireterminal and place wire.
MODBUS ConnectionMODBUS RTU cabling should be shielded twisted pair.The conductors connected to the “A” and “B” terminalsand the shield to the “S” terminal at one of the MIM’sMODBUS ports. The second port can be connected toa second network.
Making the ConnectionsThe MIM has five external connections: power, I/Omodule interface connector, PC port (for configuration)and two MODBUS RTU slave ports. Refer to Table 1for requirements and Figure 4 for illustration.
Be sure the DIN-rail is connected to a systemsafety earth ground before making any other connections.
• All input signals to, and output signalsfrom, Moore Industries’ products should bewired using a shielded, twisted pairtechnique. Shields are to be connected to anearth or safety ground at one end only.
24Vdc
Recommended Ground Wiring PracticesMoore Industries recommends the following groundwiring practices:
• Any Moore Industries product in a metal case orhousing should be grounded.
• The NCS individual module bases aremechanically grounded when installed onto theDIN-rail.
Description
Note:The “S” terminals of the MIM’s MODBUSports are NOT case ground. The shield ofthe MODBUS cable must be connected to
earth ground at some other point.
• The maximum length of unshielded inputand output signal wiring should be 2 inches.
Power Sourcing Parameters for GeneralLocations, Intrinsically Safe, andNon-Incendive/Type N applicationsIn accordance with IEC 1010.1 Annex H (allmodels), the input terminals must be connectedto and/or supplied from a certified energy limitingClass 2 or a Separate Extra Low Voltage(S.E.L.V.) power supply separated from allmains by double/reinforced insulation.
The Interface Solution Experts 7
NCSMIM - MIMNET Concentrator® SystemMODBUS Interface Module
24VdcPOWERSUPPLY
+
–
POWER
RX1READY
MIM MODBUS INTERFACE MODULE
TX1
RX2
TX2STATUSCOMMS
NCS NET CONCENTRATOR SYSTEM
MIM
RS-232 PC Port(for Configuration)
AA B S
A B S
MODBUS Port 1
POWER
RX1READYTX1
RX2
TX2STATUS
AA B S
A B S
POWER
RX1READYTX1
RX2
TX2STATUSCOMMS
AA B S
A B S
MODBUS Hookups
From Primary MODBUS Host
From Secondary MODBUS Host
I/O MODULE
INPUTS/OUTPUTS
MODBUS Port 2COMMS
CHANNEL 1
CHANNEL 2
CHANNEL 3
CHANNEL 4
ModuleNumber
Figure 4. NET Concentrator System Connection Diagram
NCSMIM – MIM
8 The Interface Solution Experts
NET Concentrator® SystemMODBUS Interface Module
PC Configuration ProgramThe MIM is a MODBUS RTU slave. It has twoindependent MODBUS ports which can have differentport settings, including MODBUS address. CharacterFormats supported include: N-8-2 (default), E-8-1 and
O-8-1.You will need to connect your MIM to a PC through theRS-232 port in order to configure it with the PC Con-figuration Program.
MODBUS Port 1 and MODBUS Port 2 can be config-ured independently. The configuration screen con-tains 2 sets of the following controls– one forconfiguring each port.
After initializing the NCS Configuration Program (NCSConfig), perform the following steps in order to connectyour device to the network.
Verify that the Ready and Status leds on the MIM areboth green.
Figure 5. MIM Configuration Screen
1. Select the Communications drop down menu, andclick “Connect”. You may also click the “Connect”icon from the Communications bar.
2. Next, the Configure Communciations screen ap-pears. From the drop down menu select the SerialPort that is to be used.
3. Select “OK” from the Attempting Connection screenonce the connection has been made.
4. Drop down the Communications menu again andchoose “Upload” (up arrow). You may also directlyclick the “Upload” button from the Communciationsbar. The MIM Configuration Screen in Figure 5 will ap-pear.
The Interface Solution Experts 9
NCSMIM - MIMNET Concentrator® SystemMODBUS Interface Module
ConfigurationAfter clicking the “Interface Module Settings” buttonfrom the device tree or the “MODBUS InterfaceModule” screen, the Interface Module Settings Screenwill appear (Figure 6) with the following parameters:
Station IdentificationThis is an edit box that allows entry of a text descrip-tion of the device.
Note:Wherever an invalid value is entered in a text box, theinvalid data will turn red as a visual indication of the
illegal entry.
MODBUS Floating Point Word OrderThis selection control allows choices of: Standard orSwapped.
AddressThe device Address parameter allows you to enter orselect values from 1 to 247 (default is “1”).
Process DataTo monitor process data, click “Monitor Process Data”from the device tree or the “MODBUS InterfaceModule” screen. The screen in Figure 7 (below) ap-pears. Screen set-up is detailed below.
Monitor Process DataCheck this box in order to monitor a log of your sys-tem processes.
Update Rate (seconds)The dropdown menu allows you to select how oftenyour screen is updated.
Data Precision (digits right of decimal)Choose the amount of resolution you want to monitorby selecting the value from the dropdown menu.
StatusIndicates the present status of your system.
Last UpdateIndicates the last time that information was posted andupdated to your screen.
Figure 7. Process Data ScreenFigure 6. Interface Module Settings Screen
NCSMIM – MIM
10 The Interface Solution Experts
NET Concentrator® SystemMODBUS Interface Module
Navigating the PC ProgramThe following information applies to all modules con-nected to the MIM. It details instructions for manueveringthrough the configuration program.
Channel SelectionThere are various methods for selecting a device chan-nel for configuration, you may use any of the following:
Open the module itself in the device tree by click-ing the “+”.
In the device tree, double-click the desired deviceto open it up and expose the channels.
Highlight the module itself in the device tree. Inthe right-hand pane, buttons will appear for each chan-nel in the selected module. Select the channel youwish to configure.
SettingsWhen enabling Trimming or Custom Curve settings ina channel, check the appropriate box in the right-handpane. Open the channel from the device tree and thenopen the enabled setting. Proceed in configuring theparameter.
Adding and Removing ModulesRight-clicking is an important function in station con-figuration and in the addition or placement of moduleswithin the device tree.
You may also select the Edit dropdown menu andclick “Add Module”.
3. The selected module type with default module/channel configuration will be added to the last moduleposition in the station.
4. You may Upload the configuration present in themodule or modify the configuration to your require-ments and download the configuration to your system.
To Delete a Module1. Ensure that the station is offline.
2. Right-click the module you want to delete and se-lect “Delete” in the pop-up menu.
You may also select the Edit dropdown menu andclick “Delete”.
To Add a New Interface ModuleTo add another interface module into your system, se-lect the File dropdown menu, highlight “New” click “In-terface Module” and select “MIM”. Clicking the “New”icon in the Communications bar will also automaticallyadd an MIM.
You may also right-click any empty area within the de-vice tree and select “New”, “Interface Module” and then“MIM”.
Saving Your ConfigurationWhen saving your system configuration, you mustsave with a “.xml” file extension.
Device Tree IndicatorsYou will notice different colored indicator lights in thedevice tree. These are meant to indicate the status ofconnected modules. For a guide to the meaning ofdifferent colors, open the Help dropdown menu andselect “Tree Indicators Legend”.
LogAt the bottom of the NCS Configuration Softwarescreen is a log that indicates system messages andoperations. You may clear the log at any time byright-clicking and selecting “Clear”.
Note:When placing or replacing a module in your system
configuration, you must “Disconnect” from theCommunications drop down menu and cycle down
power before disconnecting or reconnecting to yoursystem. Once you have placed your desiredmodules, you may reconnect and repeat the
steps in “Connecting to the Network”.
To Add a Module1. Ensure that the station is offline. Highlight thecore device of the station to which the module is to beadded.
2. Right-click and select the “Add Module” pop-upmenu item. Select the desired module type.
The Interface Solution Experts 11
NCSMIM - TIMNET Concentrator® SystemTemperature Input Module
The TIM TemperatureInput ModuleThe Temperature Input Module (TIM) of the NCSfamily isolates and conditions up to four temperaturesignals and relays temperature information from theseinputs to the Interface Module.
Installing the TIMInstallation consists of physically mounting the unit,completing the input connections, and grounding theunit.
MountingThe TIM is designed to snap easily onto 32mm,G-type (EN50035) or 35mm Top Hat (EN50022) DIN-rails. Snap the TIM onto the DIN-rail to the right of theNCS module, then slide it along the rail until the DB25connectors on the side of the TIM connect completelywith the unit to its left. See Figure 8 for illustration.
Recommended Ground Wiring Practices
Input ConnectionsAfter mounting, you are ready to connect the inputs tothe TIM. Since the TIM receives power from theconnected Interface Module, only the temperaturesensor inputs need to be connected. Figure 8 showsthe connection diagrams for the TIM.
“Hot Swapable” I/O ModulesShould an Input/Output Module need to be replaced,simply program a new module, remove the oldmodule from the mounting base and snap in the newone. For more specific instructions, see AppendixC: Hot-Swapping a NET Concentrator Module.
CE ConformityInstallation of any Moore Industries’ product thatcarries the CE compliance marking (CommissionElectro technique) must adhere to their respectiveinstallation guidelines in order to meet the requirementsset forth in applicable EMC (ElectromagneticCompatibility) directive (EN61326). Consult the factoryfor additional information.
Moore Industries recommends the following groundwiring practices:
• Any Moore Industries product in a metalcase or housing should be grounded.
• The NCS individual module bases aremechanically grounded when installed ontothe DIN-rail. Be sure the DIN-rail isconnected to a system safety earth groundbefore making any other connections.
• All input signals to, and output signalsfrom, Moore Industries’ products should bewired using a shielded, twisted pairtechnique. Shields are to be connected to anearth or safety ground near the unit itself.
• The maximum length of unshielded inputand output signal wiring should be 2 inches.
NCSMIM – TIM
12 The Interface Solution Experts
NET Concentrator® SystemTemperature Input Module
Figure 8. TIM Connection Diagram
CONNECTING THE TIMSLIDE THE TIM ALONG
THE DIN-RAIL UNTIL THEDB25 LINK CONNECTSTO THE ADJACENT I/O
OR INTERFACE MODULE
CHANNEL 1
CHANNEL 2
CHANNEL 3
CHANNEL 4
ModuleNumber
TIM
INPUT CONNECTIONSATTACH THE TEMPERATUREINPUTS TO THE TERMINALS
AT THE TOP OF THE TIM.SPECIFIC CONNECTION
TYPES ARE SHOWN BELOW.
INTERFACE MODULETHE INTERFACE MODULE
SHOULD ALREADY BE INSTALLED ON THE DIN-RAIL.
++ – –
THERMOCOUPLE MILLIVOLT
4-WIRE RTD &DIRECT RESISTANCE
POTENTIOMETER
1 2
3 4
1 2
3 4
1 2
3 4
1 2
3 4
3-WIRE RTD &DIRECT RESISTANCE
2-WIRE RTD &DIRECT RESISTANCE
TERMINAL CONNECTIONS
TIM TEMPERATURE INPUT MODULE
INCREASING
1 2
3 4
1 2
3 4
INTERFACE MODULE24VDCPOWERSUPPLY
+
–
POWER
RX1READY
MIM MODBUS INTERFACE MODULE
TX1
RX2
TX2STATUSCOMMS
NCS NET CONCENTRATOR SYSTEM
The Interface Solution Experts 13
NCSMIM - TIMNET Concentrator® SystemTemperature Input Module
Settings
Filter-This setting is used to configure the inputfilter which is designed to reduce the effects ofmains-induced noise. The frequency value should beset to the frequency of the local AC supply.
Custom Curve-Checking this box allows you tosetup a custom linearization table of up to 128 pointsthat will tell the TIM what value to output when acertain input is received. This is accomplished byloading into memory a comma-separated value file(.csv) that was created in Excel® or a similar program.For instructions, refer to Appendix B: Loading aCustom Curve File.
Trimming-Select the “Trimming” box to enable.The TIM can be trimmed with an upper and lower trimpoint. When arriving at the Trimming screen, select “1Point Trim” or “2 Point Trim” in the Mode section.Next, in the “Trim Point” text box, place the value youwish to use. Depending on the parameter you aresetting, select the “Trim Lower” or “Trim Upper” boxand follow the instructions.
Ambient Temp-Check this box to compensate forthe effects of ambient temperature on thermocouplewire. To read ambient temperature, select °C or °Ffrom the dropdown menu, and then refer to theMODBUS Register Definitions table (Appendix A:MODBUS RTU Support, Table A-1).
Broken Wire Detection-Upon selection of thisfunction, the TIM performs continuous sensordiagnostics, monitoring the sensor and sending theoutput upscale or downscale during a failure.
Configuring the TIMThe TIM is configured using the PC ConfigurationProgram. To configure the TIM, you must first mountit to the Interface Module as described in Installing theTIM.
After mounting, bring up the NCS configurationsoftware. Add a TIM to the device tree. The TIMaccepts four different temperature inputs, and uses aseparate channel for each. Select the channel youwish to program. The screen shown in Figure 9 willappear. See below for a description of the differentparts of the screen.
UsageAllows you to select “Channel Not Used”. Checkingthis box will cause the TIM and its associatedInterface Module to ignore the selected channel,allowing you to use less than all four channels withoutreceiving error messages.
Input ConfigurationThis programs the type of input that the TIM willreceive. Different measurement types require differentparameters to be programmed. Once an input type isselected, the associated parameter fields will appear.When a measurement type is selected, otherparameters may become red, indicating that the redparameter must be programmed.
Input RangingAllows you to either input or capture the upper andlower ranges that you want to have measured.
Input ScalingInput Scaling allows you to take the input and convertit to a different range. For example, you take achannel with a 0-1000°C range and scale it to 0-100°C;now when the input is 734°C, it is relayed to theInterface Module as 73.4°C.
NCSMIM – TIM
14 The Interface Solution Experts
NET Concentrator® SystemTemperature Input Module
Figure 9. TIM Configuration Screen
The Interface Solution Experts 15
NCSMIM - TIMNET Concentrator® SystemTemperature Input Module
Figure 10. TIM Dimensions
Specifications and information subject to change without notice.
SpecificationsTIM Temperature Input Module (4 Channels)
(Up to Eight Per Interface Module)
Performance
Weight
Performance(continued)
Status andFault
Indicators
AmbientConditions
Input Ranges: See Table 2Accuracy: See Table 2Reference JunctionCompensation Accuracy:±0.25°CInput Resolution: 20-bitStability (% of max. span):RTD:1-year, 0.013%;3-year, 0.023%;5-year, 0.029%Thermocouple:1-year, 0.0084%;3-year, 0.015%;5-year, 0.019%Isolation: 500Vrms,continuous, from channel tochannel, from each channelto case, and from eachchannel to terminals of otherattached NCS modules; willwithstand 1000Vrmsdielectric strength test forone minute, with nobreakdown, from eachchannel to case, and fromeach channel to terminals ofother attached NCS modulesScan Time: The timerequired for the InterfaceModule to access processvariable and status data fromall four channels of the TIM is16ms
Response Time: 150msInput Impedance (T/C):40Mohms, nominalMaximum InputOverrange: ±5Vdc peak,maximumExcitation Current(RTD and Ohms):250 microamps nominalPower Supply:Power is supplied by theInterface Module, 1.5WmaximumLinearization Capability:Custom curve tables can beconfigured with up to 128points using InternetExplorer web pages orPC-based softwareInput Filter:Programmable for 50 or60Hz noise rejectionDiagnostic Information:Status data available whenpolling channels includesA/D saturated; input signalout of linearized range;broken RJC; broken sensorwire (#1, #2, #3, or #4); run-time failure; EEPROMfailure; A/D converter fail
One red/green LED perchannel indicates properchannel operation (green) orthat the channel is in a faultcondition (red)
Operating Range:–40°C to +85°C(–40°F to +185°F)Storage Range:–40°C to +85°C(–40°F to +185°F)Ambient TemperatureEffect: See Table 1Effect on ReferenceJunction Compensation:±0.005°C/°CRelative Humidity:0-95%, non-condensingRFI/EMI Immunity: 20V/m@20-1000MHz, 1kHz AMwhen tested according toENC6100-4-3-1996; Effecton RTD/Ohms Input: 0.4°C/0.1Ohms, maximum; Effecton Thermocouple/MillivoltInput: 1.0°C/40uV, maximumCommon Mode Rejection:100dB@50/60HzNormal Mode Rejection:50dB [email protected] peak-to-peak, 50/60Hz
589 g (20.7 oz)
CHANNEL 1
CHANNEL 2
CHANNEL 3
CHANNEL 4
ModuleNumber
TERMINAL BLOCKIDENTIFICATIONCH1
1 23 4
CH2
1 23 4
CH3
1 23 4
CH4
1 23 4
MODULENUMBER
2
4
1
3
70mm
(2.8 in)
138mm
(5.4 in)
114mm
(4.5 in)
TIM FRONT SIDETOP
TIM TEMPERATURE INPUT MODULE
TIM TEMPERATURE INPUT MODULE
NCSMIM – TIM
16 The Interface Solution Experts
NET Concentrator® SystemTemperature Input Module
0.0035°C (0.0063°F)
0.002°C (0.0036°F)
0.0035°C (0.0063°F)
0.002ohms + 0.005%of reading
0.00016°C + 0.005%of reading
0.0002°C +0.005% of reading
0.00026°C + 0.005%of reading
0.0001°C +0.005% of reading
0.00075°C + 0.005%of reading
0.00075°C + 0.005%of reading
0.0038°C +0.005% of reading
0.0003°C +0.005% of reading
0.00043°C + 0.005%of reading
0.5 microvolts + 0.005%
±0.1°C(±0.18°F)
±0.14°C(±0.25°F)
±1.6°C(±2.88°F)
±0.4ohms
±0.1%
±0.25°C(±0.45°F)
±0.3°C(±0.54°F)
±0.25°C(±0.45°F)
±0.25°C(±0.45°F)
±0.55°C(±0.99°F)
±0.55°C(±0.99°F)
±0.75°C(±1.35°F)
±0.4°C(±0.72°F)
±0.8°C(±1.44°F)
15 microvolts
0.003850
0.003902
0.003916
0.00672
0.00427
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
100
200
300
400
500
1000
100
200
400
500
1000
100
120
9.035
0-4000ohms
100-4000ohms
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
n/a
Table 8. TIM Temperature Input Type and Accuracy Table.
-200 to 850°C-328 to 1562°F
-100 to 650°C-148 to 1202°F
-200 to 510°C-328 to 950°F-80 to 320°C-112 to 608°F-50 to 250°C-58 to 482°F
0-4000ohms
0-100%
-180 to 760°C-292 to 1400°F
-150 to 1370°C-238 to 2498°F
-170 to 1000°C-274 to 1832°F
-170 to 400°C-274 to 752°F
0 to 1760°C32 to 3200°F
0 to 1760°C32 to 3200°F
400 to 1820°C752 to 3308°F
-130 to 1300°C-202 to 2372°F
0 to 2300°C32 to 4172°F
-50 to 1000mV
-240 to 960°C-400 to 1760°F
-150 to 720°C-238 to 1328°F
-240 to 580°C-400 to 1076°F-100 to 360°C-148 to 680°F-65 to 280°C-85 to 536°F
0-4095ohms
0-100%
-210 to 770°C-346 to 1418°F
-270 to 1390°C-454 to 2534°F
-270 to 1013°C-454 to 1855.4°F
-270 to 407°C-454 to 764.6°F
-50 to 1786°C-58 to 3246.8°F
-50 to 1786°C-58 to 3246.8°F
200 to 1836°C392 to 3336.8°F
-270 to 1316°C-454 to 2400.8°F
0 to 2338°C32 to 4240.4°F
n/a
Direct Resistance
Potentiometer
J
K
E
T
R
S
B
N
C
DC
Input TypeInput
AccuracyMaximum
Range
Ohms
Platinum
Nickel
Copper
T/C
RTD(2-, 3-,4-Wire)
mV
Ambient TemperatureAccuracy/°C ChangeOhmsα Conformance
RangeMinimum
Span
10°C(18°F)
10ohms
10%
35°C(63°F)
40°C(72°F)
35°C(63°F)
35°C(63°F)
50°C(90°F)
50°C(90°F)
75°C(135°F)
45°C(81°F)
100°C(180°F)
4 mV
The Interface Solution Experts 17
NCSMIM - AIMNET Concentrator® System
Analog Input Module
The AIM AnalogInput ModuleThe Analog Input Module (AIM) of the NCS family iso-lates and conditions four analog signals and relays in-put information to the Interface Module.
Installing the AIMInstallation consists of physically mounting the unit,completing the input connections, and grounding theunit.
MountingThe AIM is designed to snap easily onto 32mm,G-type (EN50035) or 35mm Top Hat (EN50022) DIN-rails. Snap the AIM onto the DIN-rail to the right of theNCS unit, then slide it along the rail until the DB25connectors on the side of the AIM connect completelywith the unit to its left. See Figure 11 for illustration.
Recommended Ground Wiring PracticesMoore Industries recommends the following groundwiring practices:
• Any Moore Industries product in a metalcase or housing should be grounded.
• The NCS individual module bases aremechanically grounded when installed ontothe DIN-rail. Be sure the DIN-rail isconnected to a system safety earth groundbefore making any other connections.
• All input signals to, and output signalsfrom, Moore Industries’ products should bewired using a shielded, twisted pairtechnique. Shields are to be connected to anearth or safety ground near the unit itself.
• The maximum length of unshielded inputand output signal wiring should be 2 inches.
Input ConnectionsAfter mounting, it is time to connect the analog inputsto the AIM. Since the AIM receives power from theconnected Interface Module, only the analog inputsneed to be connected. Figure 11 shows the connec-tion diagrams for an AIM.
“Hot Swapable” I/O ModulesShould an Input/Output Module need to be replaced,simply program a new module, remove the old modulefrom the mounting base and snap in the new one. Formore specific instructions, see Appendix C: Hot-Swap-ping a NET Concentrator Module.
CE ConformityInstallation of any Moore Industries’ product that car-ries the CE compliance marking (Commission Electrotechnique) must adhere to their respective installationguidelines in order to meet the requirements set forthin applicable EMC (Electromagnetic Compatibility)directive (EN61326). Consult the factory for additionalinformation.
NCSMIM – AIM
18 The Interface Solution Experts
NET Concentrator® SystemAnalog Input Module
Figure 11. AIM Connection Diagram
CONNECTING THE AIMSLIDE THE AIM ALONG
THE DIN-RAIL UNTIL THEDB25 LINK CONNECTSTO THE ADJACENT I/O
OR INTERFACE MODULE
INTERFACE MODULE AIM
INPUT CONNECTIONSATTACH THE ANALOG
INPUTS TO THE TERMINALSAT THE TOP OF THE AIM.
INTERFACE MODULETHE INTERFACE MODULE
SHOULD ALREADY BE INSTALLED ON THE DIN-RAIL.
CHANNEL 1
CHANNEL 2
CHANNEL 3
CHANNEL 4
ModuleNumber
CURRENT INPUTWITH TRANSMITTER
EXCITATION
1 2
3 4
CURRENT INPUTWITHOUT TRANSMITTER
EXCITATION
VOLTAGEINPUT
TX Iin
ComVin
TERMINAL CONNECTIONS
AIM ANALOG INPUT MODULE
+PS –PS –
+–+
1 2
3 4
TX Iin
ComVin
1 2
3 4
TX Iin
ComVin
NOTE: TO INSTALL WIRES INTO THE TERMINALS, INSERT A SMALL, FLATHEAD SCREWDRIVER INTO THE PRY SLOT, OPEN WIRE TERMINAL AND PLACE WIRE.
24VDCPOWERSUPPLY
+
–
POWER
RX1READY
MIM MODBUS INTERFACE MODULE
TX1
RX2
TX2STATUSCOMMS
NCS NET CONCENTRATOR SYSTEM
The Interface Solution Experts 19
NCSMIM - AIMNET Concentrator® System
Analog Input Module
Settings
Filter-This setting is used to configure the inputfilter which is designed to reduce the effects ofmains-induced noise. The frequency value should beset to the frequency of the local AC supply.
Custom Curve-Checking this box allows you tosetup a custom linearization table of up to 128 pointsthat will tell the AIM what value to output when acertain input is received. This is accomplished byloading into memory a comma-separated value file(.csv) that was created in Excel® or a similar program.For instructions, refer to Appendix B: Loading aCustom Curve File.
Trimming-Select the “Trimming” box to enable.The AIM can be trimmed with an upper and lower trimpoint. When arriving at the Trimming screen, select “1Point Trim” or “2 Point Trim” in the Mode section.Next, in the “Trim Point” text box, place the value youwish to use. Depending on the parameter you aresetting, select the “Trim Lower” or “Trim Upper” boxand follow the instructions.
Configuring the AIMThe AIM is configured using the PC ConfigurationProgram. To configure the AIM, you must first mountit to the Interface Module as described in Installing theAIM.
After mounting, bring up the NCS configurationsoftware. Add an AIM to the device tree. The AIMaccepts four different analog signals, and uses aseparate channel for each. Select the channel youwish to program. The screen shown in Figure 12 willappear. See below for a description of the differentparts of the screen.
UsageAllows you to select “Channel Not Used”. Checkingthis box will cause the AIM and its associatedInterface Module to ignore the selected channel,allowing you to use less than all four channels withoutreceiving error messages.
Input TypeThis sets the type of input that the AIM will receive.Different measurement types require differentparameters to be programmed. You may selectbetween “Volts” and “Current”. When a measurementtype is selected, other parameters may become red,indicating that the red parameter must be programmed.
Input RangingAllows you to either input or capture the upper andlower ranges that you want to have measured.
Input ScalingInput Scaling allows you to take the input and convertit to a different range. For example, you take achannel with a 0-10V range and scale it to 0-100V; nowwhen the input is 7.34V, it is relayed to the InterfaceModule as 73.4V.
NCSMIM – AIM
20 The Interface Solution Experts
NET Concentrator® SystemAnalog Input Module
Figure 12. AIM Configuration Screen
The Interface Solution Experts 21
NCSMIM - AIMNET Concentrator® System
Analog Input Module
Figure 13. AIM Dimensions
Specifications and information subject to change without notice.
SpecificationsAIM Analog Input Module (4 Channels)
Up to Eight Per Interface Module
Performance Performance(continued)
Statusand
FaultIndicators
AmbientConditions
Weight
Input Ranges:Programmable for any rangewithin: Current, 0-25mA(4mA minimum span) orVoltage, –10V to +10V(1V minimum span)Accuracy: ±0.01% ofmaximum spanInput Resolution: 20-bitStability (% of max. span):Current:1-year, 0.047%;3-year, 0.081%;5-year, 0.11%Voltage:1-year, 0.066%;3-year, 0.11%;5-year, 0.15%Isolation: 500Vrms,continuous, from channel tochannel, from each channelto case, and from eachchannel to terminals of otherattached NCS modules; willwithstand 1000Vrmsdielectric strength test forone minute, with nobreakdown, from eachchannel to case, and fromeach channel to terminals ofother attached NCS modulesScan Time: The timerequired for the InterfaceModule to access processvariable and status data fromall four channels of the AIMis 16ms
Response Time: 60msInput Impedance:Current, 20ohms;Voltage, 1MohmMaximum InputOverrange: Current,±100mA;Voltage, ±30VPower Supply: Power issupplied by the InterfaceModule, 4W maximumInput Filter: User-Programmable for 50Hz or60Hz noise rejectionLinearization Capability:Custom curve tables can beconfigured with up to 128points using InternetExplorer web pages orPC-based softwareTransmitter Excitation:21V/24mA excitation forpowering a 2-wiretransmitterDiagnostic Information:Status data available whenpolling channels includesA/D saturated; input signalout of linearized range;EEPROM failure; A/Dconverter failure; andrun-time failure
One red/green LED perchannel indicates properchannel operation (green)or that the channel is in afault condition (red)
Operating Range:–40°C to +85°C(–40°F to +185°F)Storage Range:–40°C to +85°C(–40°F to +185°F)Ambient TemperatureEffect: 0.01% of maximumspan/°CRelative Humidity:0-95%, non-condensingRFI/EMI Protection: 20V/m@20-1000MHz, 1kHz AMwhen tested according toENC61000-4-3-1996.Common ModeRejection:100dB@50/60HzNormal Mode Rejection:Current, 60dBtypical@10mA peak-to-peak; Voltage, 60dBtypical@1V peak-to-peak,50/60Hz
562 g (19.8 oz)
CHANNEL 1
CHANNEL 2
CHANNEL 3
CHANNEL 4
ModuleNumber
70mm(2.8 in)
138mm(5.4 in)
114mm(4.5 in)
AIM FRONTLEFT SIDE RIGHT SIDE
AIM ANALOG INPUT MODULE
83mm(3.3 in)
NCSMIM – AOM
22 The Interface Solution Experts
NET Concentrator® SystemAnalog Output Module
The AOM AnalogOutput ModuleThe Analog Output Module (AOM) accepts informationfrom the NCS and outputs it as one of four indepen-dently configurable analog signals.
Installing the AOMInstallation consists of physically mounting the unit,completing the output connections, and grounding theunit.
MountingThe AOM is designed to snap easily onto 32mm,G-type (EN50035) or 35mm Top Hat (EN50022) DIN-rails. Snap the AOM onto the DIN-rail to the right ofthe NCS unit, then slide it along the rail until the DB25connectors on the side of the AOM connect com-pletely with the unit to its left. See Figure 14 forillustration.
Recommended Ground Wiring PracticesMoore Industries recommends the following groundwiring practices:
• Any Moore Industries product in a metalcase or housing should be grounded.
• The NCS individual module bases aremechanically grounded when installed ontothe DIN-rail. Be sure the DIN-rail isconnected to a system safety earth groundbefore making any other connections.
• All input signals to, and output signalsfrom, Moore Industries’ products should bewired using a shielded, twisted pairtechnique. Shields are to be connected to anearth or safety ground at the unit itself.
• The maximum length of unshielded inputand output signal wiring should be 2 inches.
Input and Output ConnectionsAfter mounting, it is time to connect the analogoutputs to the AOM. Since the AOM receives powerfrom the connected Interface Module, only the analogoutputs need to be connected. Figure 14 shows theconnection diagrams for an AOM.
“Hot Swapable” I/O ModulesShould an Input/Output Module need to be replaced,simply program a new module, remove the old modulefrom the mounting base and snap in the new one. Formore specific instructions, see Appendix C: Hot-Swap-ping a NET Concentrator Module.
CE ConformityInstallation of any Moore Industries’ product that car-ries the CE compliance marking (Commission Electrotechnique) must adhere to their respective installationguidelines in order to meet the requirements set forthin applicable EMC (Electromagnetic Compatibility) di-rective (EN61326). Consult the factory for additionalinformation.
The Interface Solution Experts 23
NCSMIM - AOMNET Concentrator® System
Analog Output Module
Figure 14. AOM Connection Diagram
CONNECTING THE AOMSLIDE THE AOM ALONGTHE DIN-RAIL UNTIL THEDB25 LINK CONNECTSTO THE ADJACENT I/O
OR INTERFACE MODULE
AOM
OUTPUT CONNECTIONSATTACH THE ANALOG
OUTPUTS TO THE TERMINALSON THE BOTTOM OF THE AOM.
INTERFACE MODULETHE INTERFACE MODULE
SHOULD ALREADY BE INSTALLED ON THE DIN-RAIL.
ModuleNumber
CURRENTSOURCE
CURRENTSINK
VOLTAGEOUTPUT
+Iout -Iout
+Vout -Vout
TERMINAL CONNECTIONS
AOM ANALOG OUTPUT MODULE
1 2
3 4
1 2
3 4
1 2
3 4+Iout-Iout
NOTE: TO INSTALL WIRES INTO THE TERMINALS, INSERT A SMALL, FLATHEAD SCREWDRIVER INTO THE PRY SLOT, OPEN WIRE TERMINAL AND PLACE WIRE.
INTERFACE MODULE24VDCPOWERSUPPLY
+
–
POWER
RX1READY
MIM MODBUS INTERFACE MODULE
TX1
RX2
TX2STATUSCOMMS
NCS NET CONCENTRATOR SYSTEM
NCSMIM – AOM
24 The Interface Solution Experts
NET Concentrator® SystemAnalog Output Module
Output on Out-of-Range PVThese boxes allow you to enter the value that you wantthe AOM’s output to return to (as a default) when themonitored input goes out of range.
Loop TestThis function allows you test the other instruments onthe loop by setting the AOM to output a specific value.After clicking Loop Test, use the arrows to select thedesired value and press Set to begin.
Output ScalingOutput scaling allows you to access the analog outputprocess variable in a number range more meaningful toyou than the acutal mA or Volts output. For example,if the actual output range is 4-20mA, set the scaledrange to 0-100; you now write “0” to the processvariable to get 4mA out and “100” to get 20mA out.
Output on FailureThis section tells the AOM what to do when themonitored input fails entirely. It will either maintain thelast value (Hold Last), or jump to a predefined valuethat you input (Preset Predefined Value).
Settings
Trimming-The AOM can be trimmed with two datapoints within the selected zero and span output range.This allows a complete range to be output, whileplacing an emphasis on a specific segment of therange most critical to the process.
Output Damping-Allows you to introduce a delayinto the AOM’s response to a change in input. Thevalue of the output damping is the number of secondsthat it will take for a display to make a 63% change inresponse to the chane in input. A damping of “0” willdisable damping.
Configuring the AOMThe AOM is configured using the PC ConfigurationProgram. To configure the AOM, you must first mountit to the Interface Module as described in Installing theAOM.
After mounting, bring up the NCS configurationsoftware. Add a AOM to the device tree. The AOMoutputs four different analog signals, and uses aseparate channel for each. Select the channel youwish to program. The screen shown in Figure 15 willappear. See below for a description of the differentparts of the screen.
UsageAllows you to select “Channel Not Used”. Checkingthis box will cause the AOM and its associatedInterface Module to ignore the selected channel,allowing you to use less than all four channels withoutreceiving error messages.
Output TypeThis programs the AOM to output either “Volts” or“Current”. When an Output Type is selected, otherparameters may become red, indicating that theseparameters must be programmed.
Output RangingAllows you to enter the upper and lower ranges thatyou want the AOM to output.
The Interface Solution Experts 25
NCSMIM - AOMNET Concentrator® System
Analog Output Module
Figure 15. AOM Configuration Screen
NCSMIM – AOM
26 The Interface Solution Experts
NET Concentrator® SystemAnalog Output Module
Figure 16. AOM Dimensions
Specifications and information subject to change without notice.
AOM Analog Output Module (4 Channels)Up to Eight per Interface Module
Specifications
Performance(continued)
Performance(continued)
Statusand FaultIndicators
AmbientConditions
Weight
Performance Output Ranges:Programmable for any rangewithin: Current (sink orsource), 0-20mA or Voltage,0-10VAccuracy: ±0.015% ofmaximum spanOutput Resolution: 18-bitStability (% of max. span):Current:1-year, 0.012%;3-year, 0.020%;5-year, 0.026%Voltage:1-year, 0.066%;3-year, 0.11%;5-year, 0.15%Isolation: 500Vrms,continuous, from channel tochannel, from each channelto case, and from eachchannel to terminals of otherattached NCS modules; willwithstand 1000Vrmsdielectric strength test forone minute, with nobreakdown, from eachchannel to case, and fromeach channel to terminals ofother attached NCS modulesScan Time: The timerequired for the InterfaceModule to access processvariable and status data fromall four channels of the AOMis 16msResponse Time:50ms to 90% of final valueon a step input
Output Damping:Increases response timeby adjusting filter timeconstant from 0-30secondsRipple: Current, 10mVpeak-to-peak measuredacross a 250ohm loadresistor; Voltage, 50mVpeak-to-peak maximumLoad Capability:Current, 0-1000ohms(source), 42V maximum(sink) 1500ohms;Voltage, 0-50mA(2000ohms minimumload)Output Limiting:Current output isguaranteed up to 21.6mA(or 10% of full scaleabove the programmedfull value) and limits at23.6mA; Voltage outputaccuracy is guaranteedup to 10.5V (or 5% of fullscale above theprogrammed full value)and limits at 11.0VLoad Effect (currentoutputs): 0.01% of spanfrom 0 to maximum loadresistance on currentoutputOutput Failure Mode:Outputs areprogrammable to eitherhold last value or go to apre-defined value on error
upon lost communication withthe Interface Module or uponreceiving invalid primaryvariable dataPower Supply:Power is supplied by theInterface Module,4W maximumDiagnostic Information:Status data available whenpolling channels includesROM failure; RAM failure;EEPROM; open currentoutput; EEPROM checksumerror
One red/green LED perchannel indicates properchannel operation (green) orthat the channel is in a faultcondition (red)
Operating Range:–40°C to +85°C(–40°F to +185°F)Storage Range:–40°C to +85°C(–40°F to +185°F)Ambient TemperatureEffect: 0.01% of maximumspan/°CRelative Humidity:0-95%, non-condensingRFI/EMI Protection:20V/m@20-1000MHz, 1kHzAM when tested according toENC61000-4-3-1996
765 g (27 oz)
70mm
(2.8 in)
138mm
(5.4 in)
114mm
(4.5 in)
AOM FRONTLEFT SIDE RIGHT SIDE
ModuleNumber
AOM ANALOG OUTPUT MODULE83mm
(3.3 in)
The Interface Solution Experts 27
NCSMIM - CPMNET Concentrator® System
Power Module
Figure 17. CPM Connection Diagram
The CPM NET ConcentratorSystem Power ModuleNormally, an Interface Module can only power two I/Omodules; the CPM provides additional power, allowinga total of eight I/O modules of any type to be attachedto one Interface Module.
Installing the CPMInstallation consists of physically mounting the unit,making the power connections, and grounding the unit.
MountingThe CPM is designed to snap easily onto 32mm,G-type (EN50035) or 35mm Top Hat (EN50022) DIN-rails. Snap the CPM onto the DIN-rail to the right ofany module within the NCS station, then slide it alongthe rail until the DB25 connectors on the side of theCPM connect completely with the unit to its left.The CPM can be installed at any position within aNET Concentrator System.
Recommended Ground Wiring PracticesMoore Industries recommends the following groundwiring practices:
• Any Moore Industries product in a metalcase or housing should be grounded.
• The NCS individual module bases aremechanically grounded when installed ontothe DIN-rail. Be sure the DIN-rail isconnected to a system safety earth groundbefore making any other connections.
• The maximum length of unshielded inputand output signal wiring should be 2 inches.
POWER
READY
STATUS
CPM
CHANNEL 1
CHANNEL 2
CHANNEL 3
CHANNEL 4
ModuleNumber
I/O MODULE
24VDCPOWERSUPPLY
INPUTS/OUTPUTS
+
–
CPM NCS POWER MODULE
TO INTERFACE
OR I/O MODULE
NCSMIM – CPM
28 The Interface Solution Experts
NET Concentrator® SystemPower Module
Figure 18. CPM Dimensions
Specifications and information subject to change without notice.
Inputs (Power):20-30VdcOutput (Power): Providespower to up to eight NCSI/O modulesIsolation: 500Vrms,continuous, and will withstand1000Vrms dielectric strengthtest for 1 minute with nobreakdown, between powerinput, each Modbus port,case and terminals of otherattached NCS modulesStartup Time: 10msPower Consumption:40W maximum
Power LED: A green LEDturns on to indicate thatpower is being supplied tothe power terminals.Status LED: A green LEDturns on to indicate thatpower is available at theCPM module’s output
Operating Range:–40°C to +85°C(–40°F to +185°F)Storage Range:–40°C to +85°C(–40°F to +185°F)
Relative Humidity:0-95%, non-condensingRFI/EMI Protection:20V/m@20-1000MHz, 1kHzAM when tested according toENC61000-4-3-1996
585 g (20.7 oz)
CPM Power Supply ModuleOne Required Per NET Concentrator System Station if There Are More Than Two Input/Output Modules
AmbientConditions
(continued)
Weight
Performance
Specifications
Status andFault
Indicators
AmbientConditions
POWER
READY
STATUS
74mm
(2.9 in)
135mm
(5.3 in)
114mm
(4.5 in)
CPM FRONT
CPM NCS Power Module
RIGHT SIDE
83mm
(3.3 in)
LEFT SIDE
The Interface Solution Experts 29
NCSMIM - CPMNET Concentrator® System
Power Module
Power ConnectionsAfter mounting, it is time to power the CPM. Attach20-30Vdc power as shown in Figure 17.
Power Sourcing Parameters for GeneralLocations, Intrinsically Safe, andNon-Incendive/Type N applicationsIn accordance with IEC 1010.1 Annex H (all models),the input terminals must be connected to and/orsupplied from a certified energy limiting Class 2 or aSeparate Extra Low Voltage (S.E.L.V.) power supplyseparated from all mains by double/reinforced insula-tion.
CE ConformityInstallation of any Moore Industries’ product that car-ries the CE compliance marking (Commission Electrotechnique) must adhere to their respective installationguidelines in order to meet the requirements set forthin applicable EMC (Electromagnetic Compatibility) di-rective (EN61326). Consult the factory for additionalinformation.
Note:The MIM MODBUS Interface Module provides power
for up to two Input and/or Output Modules.If more than two I/O Modules will be connected to the
Interface Module, a CPM Concentrator Power Module isrequired. The CPM may be installed at any position
within a NCS station.It works in conjunction with the Interface Module to
power NCS stations of up to eight I/O Modules.
NCSMIM – DIM
30 The Interface Solution Experts
NET Concentrator® SystemDiscrete Input Module
The DIM DiscreteInput ModuleThe Discrete Input Module (DIM) of the NCS familyisolates and conditions up to eight discrete signals,and relays input information to the Interface Module.The DIM is available for three different discrete inputchannel types: contact closure, high range voltage, orlow range voltage. See the NCS Data Sheet for moreinformation on module types and options.
Installing the DIMInstallation consists of physically mounting the unit,completing the input connections, and grounding theunit.
MountingThe DIM is designed to snap easily onto 32mm,G-type (EN50035) or 35mm Top Hat (EN50022) DIN-rails. Snap the DIM onto the DIN-rail to the right of theNCS unit, then slide it along the rail until the DB25connectors on the side of the DIM connect completelywith the unit to its left. See Figure 18 for illustration.
Recommended Ground Wiring PracticesMoore Industries recommends the following groundwiring practices:
• Any Moore Industries product in a metalcase or housing should be grounded.
• The NCS individual module bases aremechanically grounded when installed ontothe DIN-rail. Be sure the DIN-rail isconnected to a system safety earth groundbefore making any other connections.
• All input signals to, and output signalsfrom, Moore Industries’ products should bewired using a shielded, twisted pairtechnique. Shields are to be connected to anearth or safety ground near the unit itself.
• The maximum length of unshielded inputand output signal wiring should be 2 inches.
Input ConnectionsAfter mounting, it is time to connect the discrete in-puts to the DIM. Since the DIM receives power fromthe connected Interface Module, only the discrete in-puts need to be connected. Figure 18 shows the con-nection diagrams for the DIM.
“Hot Swapable” I/O ModulesShould an Input/Output Module need to be replaced,simply program a new module, remove the old modulefrom the mounting base and snap in the new one. Formore specific instructions, see Appendix C: Hot-Swap-ping a NET Concentrator Module.
CE ConformityInstallation of any Moore Industries’ product that car-ries the CE compliance marking (Commission Electrotechnique) must adhere to their respective installationguidelines in order to meet the requirements set forthin applicable EMC (Electromagnetic Compatibility) di-rective (EN61326). Consult the factory for additionalinformation.
The Interface Solution Experts 31
NCSMIM - DIMNET Concentrator® System
Discrete Input Module
Figure 19. DIM Connection Diagram
CONNECTING THE DIMSLIDE THE DIM ALONG
THE DIN-RAIL UNTIL THEDB25 LINK CONNECTSTO THE ADJACENT I/O
OR INTERFACE MODULE
DIM
INPUT CONNECTIONSATTACH THE DISCRETE
INPUTS TO THE TERMINALSAT THE TOP OF THE DIM.
INTERFACE MODULETHE INTERFACE MODULE
SHOULD ALREADY BE INSTALLED ON THE DIN-RAIL.
ModuleNumber
VOLTAGEINPUT
1
CONTACTCLOSURE INPUT
TERMINAL CONNECTIONS
(TYPICAL)
–+
CHANNEL 1
CHANNEL 2
CHANNEL 3
CHANNEL 4
DIM-V DISCRETE INPUT MODULE
CHANNEL 5
CHANNEL 6
CHANNEL 7
CHANNEL 8
2
1
2
NOTE: TO INSTALL WIRES INTO THE TERMINALS, INSERT A SMALL, FLATHEAD SCREWDRIVER INTO THE PRY SLOT, OPEN WIRE TERMINAL AND PLACE WIRE.
24VDCPOWERSUPPLY
INTERFACE MODULE
POWER
RX1READY
MIM MODBUS INTERFACE MODULE
TX1
RX2
TX2STATUSCOMMS
NCS NET CONCENTRATOR SYSTEM
+
–
NCSMIM – DIM
32 The Interface Solution Experts
NET Concentrator® SystemDiscrete Input Module
Configuring the DIMThe DIM is configured using the PC Configuration Pro-gram. To configure the DIM, you must first mount it tothe Interface Module as described in Installing theDIM.
After mounting, bring up the NCS configuration soft-ware. Add your DIM to the device tree. See below fora description of the different parts of the screen.
DIM Discrete Contact Closure Input Module(DIMCC)With the DIM Discrete Contact Closure Input Module(DIMCC) the only configurable parameter is debouncetime. Once you have accessed the NCS configurationsoftware, select the DIM (CC8) module in the devicetree. This will display the screen shown in Figure 20.
Settings
Contact Debounce-When some contacts open orclose, there can be a short period of oscillation result-ing from the mechanical contacts. The ContactDebounce setting causes the NCS to ignore false sig-nals caused by these oscillations. This setting is onlyavailable with contact closure DIM (DIMCC) modules.
DIM Discrete Voltage Input Module (DIMV)There are no configurable parameters within the DIMV.Its configuration is hard-wired. Once the module isadded to the device tree and its configuration up-loaded, it is brought into the system. A heading in thedevice tree identifies whether the DIMV is a Low orHigh Range unit. Figure 21 displays the screen thatwill appear once the unit is introduced into the system.
The Interface Solution Experts 33
NCSMIM - DIMNET Concentrator® System
Discrete Input Module
Figure 20. DIMCC Configuration Screen
Figure 21. DIMV High and Low Range Configuration Screen
NCSMIM – DIM
34 The Interface Solution Experts
NET Concentrator® SystemDiscrete Input Module
CHANNEL 1
CHANNEL 2
CHANNEL 3
CHANNEL 4
ModuleNumber
70mm
(2.8 in)
138mm
(5.4 in)
114mm
(4.5 in)
DIM FRONTLEFT SIDE RIGHT SIDE
DIM-V DISCRETE INPUT MODULE83mm
(3.3 in)CHANNEL 5
CHANNEL 6
CHANNEL 7
CHANNEL 8
DIM Discrete Contact Closure Input Module (8 Channels)Up to Eight Per Interface Module
Input Ratings: 24V/3.7mA,internally poweredInput Logic Threshold:8V low-going; 16V high-goingInput Logic: Closed contactinput yields logic 1Isolation: 500Vrms,continuous, from channel tochannel, from each channelto case, and from eachchannel to terminals of otherattached NCS modules; willwithstand 1000Vrmsdielectric strength test for oneminute, with no breakdown,from each channel to case,
Performance
LEDIndicators
and from each channel toterminals of other attached NCSmodulesScan Time: 4msResponse Time: <12ms withcontact debounce disabledPower Supply: Power issupplied by the InterfaceModule, 3W maximumDiagnostic Information:Status data available whenpolling channels, includes:ROM failure; RAM failure;EEPROM checksum error
One red/green LED per channelindicates input state, with redindicating open contact input
AmbientConditions
Performance(continued)
Weight
DIM Discrete Voltage Input Module (8 Channels)Up to Eight Per Interface Module
Performance LEDIndicators
Performance(continued)
AmbientConditions
Weight
Input Ratings: Low Range,30Vac/Vdc; High Range:120/240Vac/VdcInput Logic Threshold:Low Range: <9Vac/Vdcguaranteed low, >15Vac/Vdcguaranteed high;High Range: <55Vacguaranteed low, >90Vacguaranteed highInput Logic: Input abovethreshold yields logic 1; Inputbelow threshold yields logic 0Input Impedance: Eachinput draws <4mA when onIsolation: 500Vrms,continuous, from channel tochannel, from each channelto case, and from eachchannel to terminals of other
attached NCS modules; willwithstand 1000Vrmsdielectric strength test for oneminute, with no breakdown,from each channel to case,and from each channel toterminals of other attachedNCS modulesScan Time: 4msResponse Time: <30msMaximum Input Overrange:Up to 260Vac/VdcPower Supply: Power issupplied by the InterfaceModule, 1W maximumDiagnostic Information:Status data available whenpolling channels, includes:ROM failure; RAM failure;EEPROM checksum error
One red/green LED perchannel indicates input state,with red indicating input belowthreshold
Operating Range:–40°C to +85°C(–40°F to +185°F)Storage Range:–40°C to +85°C(–40°F to +185°F)Relative Humidity:0-95%, non-condensingRFI/EMI Protection:20V/m @20-1000MHz, 1kHzAM when tested according toIEC1000-4-3-1995
536 g (18.8 oz)
Operating Range:–40°C to +85°C(–40°F to +185°F)Storage Range:–40°C to +85°C(–40°F to +185°F)Relative Humidity:0-95%, non-condensingRFI/EMI Protection:20V/m @20-1000MHz, 1kHzAM when tested according toIEC1000-4-3-1995
493 g (17.4 oz)
Figure 22. DIM Dimensions
Specifications
The Interface Solution Experts 35
NCSMIM - ROMNET Concentrator® System
Relay Output Module
The ROM RelayOutput ModuleThe Relay Output Module (ROM) accepts informationfrom the NCS and outputs it to either four or eightindependently configurable relay signals.
Installing the ROMInstallation consists of physically mounting the unit,completing the output connections, and grounding theunit.
MountingThe ROM is designed to snap easily onto 32mm,G-type (EN50035) or 35mm Top Hat (EN50022) DIN-rails. Snap the ROM onto the DIN-rail to the right ofthe NCS unit, then slide it along the rail until the DB25connectors on the side of the ROM connect com-pletely with the unit to its left. See Figure 23 forillustration.
Recommended Ground Wiring PracticesMoore Industries recommends the following groundwiring practices:
• Any Moore Industries product in a metalcase or housing should be grounded.
• The NCS individual module bases aremechanically grounded when installed ontothe DIN-rail. Be sure the DIN-rail isconnected to a system safety earth groundbefore making any other connections.
• All input signals to, and output signalsfrom, Moore Industries’ products should bewired using a shielded, twisted pairtechnique. Shields are to be connected to anearth or safety ground near the unit itself.
• The maximum length of unshielded inputand output signal wiring should be 2 inches.
Input ConnectionsAfter mounting, it is time to connect the relay outputsto the ROM. Since the ROM receives power from theconnected Interface Module, only the relay outputsneed to be connected. Figure 23 shows the connec-tion diagrams for a ROM.
“Hot Swapable” I/O ModulesShould an Input/Output Module need to be replaced,simply program a new module, remove the old modulefrom the mounting base and snap in the new one. Formore specific instructions, see Appendix C: Hot-Swap-ping a NET Concentrator Module.
CE ConformityInstallation of any Moore Industries’ product that car-ries the CE compliance marking (Commission Electrotechnique) must adhere to their respective installationguidelines in order to meet the requirements set forthin applicable EMC (Electromagnetic Compatibility) di-rective (EN61326). Consult the factory for additionalinformation.
NCSMIM – ROM
36 The Interface Solution Experts
NET Concentrator® SystemRelay Output Module
Figure 23. ROM Connection Diagram
CONNECTING THE ROMSLIDE THE AOM ALONGTHE DIN-RAIL UNTIL THEDB25 LINK CONNECTSTO THE ADJACENT I/O
OR INTERFACE MODULE
ROM
OUTPUT CONNECTIONSATTACH THE RELAY
OUTPUTS TO THE TERMINALSON THE BOTTOM OF THE ROM.
INTERFACE MODULETHE INTERFACE MODULE
SHOULD ALREADY BE INSTALLED ON THE DIN-RAIL.
ModuleNumber
ROM RELAY OUTPUT MODULE
RELAY OUTPUT
TERMINAL CONNECTIONS
1
2
NOTE: TO INSTALL WIRES INTO THE TERMINALS, INSERT A SMALL, FLATHEAD SCREWDRIVER INTO THE PRY SLOT, OPEN WIRE TERMINAL AND PLACE WIRE.
INTERFACE MODULE24VDCPOWERSUPPLY
+
–
POWER
RX1READY
MIM MODBUS INTERFACE MODULE
TX1
RX2
TX2STATUSCOMMS
NCS NET CONCENTRATOR SYSTEM
The Interface Solution Experts 37
NCSMIM - ROMNET Concentrator® System
Relay Output Module
Output On FailThis section tells the ROM what to do ifcommunication with the Interface Module fails. It willeither maintain the last value (Hold), or turn the relay toa predetermined energized or de-energized state (On/Off).
LEDs When EnergizedAllows you to input the color (red or green) of the LEDwhen the relay is energized.
Output TestThis function allows you to change the state of eachrelay. After clicking Output Test, use the check boxesto select the desired relay and press “Apply” . Achecked box energizes the corresponding relay. Todisplay the current status of your Output Test, click“Read”.
Configuring the ROMThe ROM is configured using the PC ConfigurationProgram. To configure the ROM, you must firstmount it to the Interface Module as described inInstalling the ROM.
After mounting, bring up the NCS configurationsoftware. Add your ROM to the device tree. Seebelow for a description of the different parts of thescreen.
Once you have accessed the NCS configurationsoftware, click on I/O Module, then Configure RelayOutput Module. This will display the screen shown inFigure 24. If you are installing a ROM4, you will seethe same screen except with four configurablechannels.
Configure the parameters listed on the screen. Seebelow for a description of the different parts of thescreen.
Power Up StateChecking a box configures the corresponding relay tobe on (energized) upon power up.
NCSMIM – ROM
38 The Interface Solution Experts
NET Concentrator® SystemRelay Output Module
Figure 24. ROM8 Configuration Page
The Interface Solution Experts 39
NCSMIM - ROMNET Concentrator® System
Relay Output Module
ROM Relay Output Module (4 or 8 Channels)Up to Eight Per Interface Module
Mechanical OutputRatings: 4-Channel Model:SPDT relay, 1 form C, rated2A@250Vac, 50/60Hz, non-inductive, or 2A@30Vdc8-Channel Model: SPSTrelay, 1 form A or B, rated2A@250Vac, 50/60Hz,non-inductive, or 2A@30VdcOutput Logic: Logic 1yields energized relayOutput Failure Mode:Outputs are programmable toeither hold last value, or goenergized or de-energizedupon lost communication withthe Interface ModuleScan Time: 4msIsolation: 500Vrms,
Performance LEDIndicators
continuous, from channel tochannel, from each channelto case, and from eachchannel to terminals of otherattached NCS modules; willwithstand 1000Vrmsdielectric strength test for oneminute, with no breakdown,from each channel to case,and from each channel toterminals of other attachedNCS modulesResponse Time: <10msPower Supply: Power issupplied by the InterfaceModule, 3W maximumDiagnostic Information:Status data available whenpolling channels, includes:ROM failure; RAM failure;EEPROM checksum error
Performance(continued)
AmbientConditions
One red/green LED perchannel indicates relay stateand can be programmed fordesired sense
Operating Range:–40°C to +85°C(–40°F to +185°F)Storage Range:–40°C to +85°C(–40°F to +185°F)Relative Humidity:0-95%, non-condensingRFI/EMI Protection: 20V/m@20-1000MHz, 1kHz AMwhen tested according toIEC1000-4-3-1995
493 g (17.4 oz)Weight
Figure 25. ROM Dimensions
Specifications
70mm
(2.8 in)
138mm
(5.4 in)
114mm
(4.5 in)
ROM FRONTLEFT SIDE RIGHT SIDE
ModuleNumber
ROM8 RELAY OUTPUT MODULE83mm
(3.3 in)CHANNEL 1
CHANNEL 2
CHANNEL 3
CHANNEL 4
CHANNEL 5
CHANNEL 6
CHANNEL 7
CHANNEL 8
The Interface Solution Experts A-1
NCSMIMNET Concentrator® System
with MODBUS Interface
Appendix A: MODBUS RTUSupportEach NCS Interface Module is designed to beaccessed using either a supplied OPC server orMODBUS communication. Directions for connectingto the OPC server can be found in the installation sec-tion for your Interface Module. The section below sup-plies all of the information necessary to reference theMODBUS register map and program a genericMODBUS RTU OPC server, or other MODBUS RTUmaster.
The MIM acts as independent MODBUS RTU slave oneach of the two RS-485 ports. The MODBUS registersallow access to process variable data and status infor-mation. See Table A-1 for a complete list of availableMODBUS Registers.
Reading Primary VariablesProcess variables are read using MODBUS functioncode 3 or 4. Each 32-bit floating-point process vari-able will be mapped to two MODBUS registers; thelower numbered MODBUS register will hold the least-significant-word (LSW), and the higher numberedMODBUS register will hold the most-significant-word
(MSW) of the 32-bit value. For MODBUS masters thatuse swapped floating point, the MIM has a configura-tion setting to change the default word order which is(LSW).
Reading Device StatusDiagnostic data is read using MODBUS function codes1 to 4. Each 16-bit status register will be oneMODBUS integer register, accessible using functioncodes 3 or 4. When using function codes 1 or 2, the16 status register bits are mapped to 16 consecutivecells, with the status register’s least-significant-bit inthe lowest addressed cell.
Communicating with NET Concentrator ModulesAt startup, the Interface Module will perform an initial-ization sequence to detect all connected NCS I/Omodules. If it recognizes the connected device, it willmark the module as active in preparation for datascanning.
After detecting connected NCS modules, the InterfaceModule will begin continuous polling for the currentprocess variable and status of each module. Thereturned data is stored locally by the Inteface Modulefor access by the configuration software,MODBUS RTU master or OPC server.
Primary Variable
Ambient Temperature
Interface ModuleStatus Register
Interface ModuleStatus Flags
Base Fail Register
Module Fail Register
Base Fail Flags
Module Fail Flags
Channel Status Register
Channel Status Flags
Discrete Primary Variable
Discrete ModuleStatus Register
Discrete ModuleStatus Flags
Table A-1. MODBUS Register Definitions
Register Reference
1 + 8(M – 1) + 2(C – 1)
201 + 8(M – 1) + 2(C – 1)
2000
2000 + B
2001
2002
2015 + M
2031 + M
2002 + 4(M – 1) + C
2048 + 64(M – 1) + 16(C – 1) + B
8(M – 1) + C
2003 + 4(M – 1)
2048 + 64(M – 1) + B
Number of MODBUSRegisters
2
1
1
1
1
1
1
1
1
1
1
1
FunctionCode
3, 4, 6,or 16
3 or 4
1 or 2
3 or 4
3 or 4
1 or 2
1 or 2
3 or 4
1 or 2
1-6, 15 or 16*
3 or 4
1 or 2
DataType
Float
Integer
Discrete
Integer
Integer
Discrete
Discrete
Integer
Discrete
Discrete
Integer
Discrete
In Register Reference:M represents moduleposition (1-8);C represents channelnumber (1-4);B represents bit position(0-15) within the InterfaceModule’s register.
*When using function codes3, 4, 6, or 16, one discreteprimary variable is deliveredper MODBUS register, with anon-zero integer valuerepresenting logic 1.
Variable Name
NCSMIM
A-2 The Interface Solution Experts
NET Concentrator® Systemwith MODBUS Interface
NET Concentrator Module StatusThe I/O status reg-ister obtained during data scanning is used to create a16-bit status word. The status word can be read using
Bit Position
1514131211
8
4
3
2
1
0
Description
ReservedReservedReservedReservedReserved
Indicates a failure to start one or more services.
Missing system configuration file.
New file system. Indicates that the EEC has formatted the file system. Normally, this is only performed once at theinitial system startup. However, an automatic format can occur if the file system becomes corrupted.
File system initialization error. Indicates that the EEC cannot determine the state of the file system.Depending on the type of error, the EEC may attempt to automatically format the file system.
RAM test failed. This bit is set when a read/write error occurs during the power-on RAM test.
Slave device error. Typically used to indicate an error in any attached I/O devices.
Table A-2. Interface Module Status Register
BitPosition
11
10
9
8
7
6
5
4
3
2
1
0
Run-time Failure
EEPROM Failure
A/D Converter Failure
Broken RJC
Broken Wire #4
Broken Wire #3
Broken Wire #2
Broken Wire #1
Analog Input A/D Saturated
Input Signal out of Linearized Range
Channel not Used
I/O Channel Fail
BitPosition
9
8
7
6
5
4
3
2
1
0
Table A-4. AOM Channel Status Register/Bit Positions
Description
PV is too large
PV is too small
PV is invalid floating-point value
Low current error
Front-end reset occurred
FLASH failure
SRAM failure
EEPROM failure
Channel not used
I/O channel failure
BitPosition
11
10
9
3
2
1
0
Description
Run-time Failure
EEPROM Failure
A/D Converter Failure
Analog Input #1 A/D Saturated or
Analog Input #2 A/D Saturated
Input signal of RTD/TC linearization table range
or Input/Trimmed value out of custom table range
Channel not used
I/O channel failure
Table A-5. AIM Channel Status Register/Bit Positions
Description
BitPosition
6
5
4
3
2
1
0
Description
LED Port Error
Front-end reset occurred
FLASH failure
SRAM failure
EEPROM failure
Channel not used
I/O channel failure
MODBUS RTU as described earlier. The status regis-ter bits are defined in Table A-2. An error is indicatedby a set bit or any combination of set bits.
Table A-6. ROM and DIM Channel Status Register/Bit Positions
Table A-3. TIM Channel Status Register/Bit Positions
The Interface Solution Experts A-3
NCSMIMNET Concentrator® System
with MODBUS Interface
Appendix B: Loading aCustom Curve FileThere are two ways in which a custom curve can beloaded into the MIM for use with the TIM or AIMconfiguration pages. In order to create a CommaSeparated Value (.csv) file, you will need eitherMicrosoft Excel® or other similar spreadsheet program,or a text editor.
To configure the TIM or AIM with the custom curve,perform the following:
1. In the Settings section of the configuration page forthe channel requiring the custom curve, check the“Trimming” box.
2. Next, in the device tree, click the channel of theassociated module in order to expose the customcurve parameter .
3. The window in Figure A-1 (below) will appear.
4. In the Number of Linearization Points box, type thenumber of points you are to use, then hit “Enter”.
Using a spreadsheet programIn Microsoft Excel®, open a new sheet (refer to FigureA-2). Using column A as your X data, and column Bas your Y data observe the following scheme:
Column A: The X data must be a monotonicallyincreasing sequence (i.e, each value must be greaterthan the previous value in the sequence).
Column B: The Y data may be any sequence. Youmay enter up to 128 X,Y pairs. All numbers must bereal, signed numbers, up to 6 digits long (7 digits andhigher must be translated to exponential notation) or 6plus one decimal point. Exponent notation (in the formof 1e+010, rather than 10e9) may also be used, but itwill be translated to the full value (i.e. 10e9 =10000000000) and thus must not represent a numberhigher than Xe37. Numbers represented as Xe38 andabove will produce errors.
After entering your values, simply save as a .csv file.
Using a text editorObserving the same rules as above, you can also usea text editor, as shown in Figure A-3, to create your.csv file.
Saving and Opening FilesThe files must be saved with a .csv extention. Whenyou are ready to save your file, simply right-click thecustom curve parameter that you are working on in thedevice tree and select “Export” to save to yourdesignated location.
To open a saved file, right-click the desired customcurve parameter in the the device tree and select“Import”.
Figure A-1. Custom Curve Window
NCSMIM
A-4 The Interface Solution Experts
NET Concentrator® Systemwith MODBUS Interface
Figure A-2. Comma Separated Value file (Microsoft Excel® Spreadsheet)
Figure A-3. Comma Separated Value file (text editor)
The Interface Solution Experts A-5
NCSMIMNET Concentrator® System
with MODBUS Interface
Appendix C:Hot-Swapping a NETConcentrator® ModuleShould an Input/Output Module need to be replaced,you do not need to power down the NET ConcentratorSystem. Instead, simply remove the old module fromthe terminal base, and snap in the new one.
Programming a New ModuleThe NCS uses the configuration present in the newmodule. If the new module has the same configurationas the one being replaced, nothing else needs to bedone. If not, the new module must be programmedusing the directions in the configuration section of themanual that applies to the module being installed.
Removing the Old ModuleBegin by taking two small flathead screwdrivers andinsert each under a different base clip, as shown inFigure A-4. With the base clips pulled away, pull themodule out from the base.
Figure A-4. Removing the Old NCS Module
BASECLIP
BASECLIP
STEP 1:GENTLY PULL BASE
CLIPS AWAY FROM BASE
STEP 1:GENTLY PULL BASE
CLIPS AWAY FROM BASE
STEP 2:WITH BASE CLIPS
PULLED AWAY,PULL MODULE
OUT FROM BASE.
Snapping in the New ModuleCheck to see that the keying post (shown in FigureA-5) will line up properly with the keying hole in thebottom of the module. If it does not, rotate the module180°. If it still does not line up, the module is of thewrong I/O type. The new module must be of the sametype as the previous module.
Caution:Do not try to force to force in the unit. You will
damage the module.
Slip the new module into the base that the old one wasremoved from. Push firmly into position. The lightson the face of the input/output module should glow asthe unit powers up.
Highlight the Interface Module in the device tree. Inthe Communciations dropdown menu, select “Synchro-nize” to update such details as firmware revision andmodule serial number.
Note:A new NCS module will only work with an identical
type of base. For example, you cannot place an AIMmodule into a base that previously held a TIM; the new
module must replace an identical older module.
KEYINGPOST
KEYINGHOLE
BASE(INTERNAL VIEW)
MODULE(BACK VIEW)
Figure A-5. Snapping in the New NCS Module
NCSMIM
A-6 The Interface Solution Experts
NET Concentrator® Systemwith MODBUS Interface
Customer ServiceIf service assistance is ever required for one of theNET Concentrator Modules in your application, refer tothe back cover of this manual for the telephonenumbers to Moore Industries STAR Center customerservice department.
If possible, make a note of the model number of theoffending module before calling. For fastestassistance, try to gather information on the unit(s)serial number and the job and purchase order numberunder which it was shipped.
User’s Manual SupplementNCSMIM NET Concentrator® System
with MODBUS Interface MODBUS Integer Access
September 2010
The Interface Solution Experts
The following information supersedes data in the NCSMIM NET Concentrator® System with MODBUS Interface Module User’s Manual, 288-766-00, Revision A.
Appendix D: MODBUS Integer Access
Register AddressingThe data in each NCS interface module is designed to be accessed using either an OPC server or MODBUS communication. The section below supplies all of the information necessary to reference the MODBUS register map for 16-bit unsigned Integer values. The fl oating point reference map is located in Appendix A of the User’s Manual.
There are two register ranges containing the scaled 16-bit integer equivalents for the fl oating point data. Primary variables are in the fi rst set at an offset of 600. Ambient temperatures are in the second set at an offset of 700.
288-766-01B
Primary Variables The primary variable data in each NCS I/O module occupies four consecutive integer registers. Data in module 1 occupies registers 601 through 604. Module 2 occupies registers 605 through 608. See Table A-7 for mapping reference. Regardless of the I/O data type, fl oating point or discrete, an I/O module occupies its four alotted integer registers. Note if the I/O module is of discrete data type– DIM or ROM– the contents of the four integer registers it occupies contain nothing.
Note:Refer to Table A-1 for discrete I/O module mapping.
Ambient TemperatureA range of integer registers starting at 701 contains the ambient temperature variables for the TIM (Temperature Input Module). Four consecutive registers are dedicated to each module position, regardless of whether the module is a TIM. If there is a TIM in position 2, its four integer scaled ambient temperature variables will appear at registers 705, 706, 707 and 708.
Variable Name
Primary Variable
Ambient Temperature (TIM only)
Register Reference
601 + 4(M – 1) + (C – 1)
701 + 4(M – 1) + (C – 1)
Number of MODBUS Registers
1
Function Code
3, 4, 6 or 16
DataType
Unsigned Integer
Table A-7. MODBUS Integer Register Addressing
M represents module position (1-8)C represents channel number (1-4)
© 2010 Moore Industries-International, Inc.
User’s Manual SupplementNCSMIM NET Concentrator® System
with MODBUS InterfaceMODBUS Integer Access
The Interface Solution Experts
OverviewTo support MODBUS Masters which prefer reading and processing variables as integers, each PV is also accessible as a 16 bit integer. For input modules, the NCS Interface Module will convert the fl oating point input value to an integer. This value can then be read and used by the MODBUS Master. For output modules, the MODBUS master will generate the scaled integer, and write it to the NCS Interface Module. The NCS will convert this value to fl oating point, and will use it to drive the output.
Default Integer Scaling BehaviorMIM Firmware Versions prior to 3.12 only support the standard Integer Scaling, hereafter described as the “Default Scaling Behavior.” Default behavior is to scale the PV value between the Input/Output Range (or Scaled Range if Scaling is enabled in a channel) and the Integer Range of 4096 (0x1000) to 61440 (0xF000) as per Table A-8. If a DCS does not support this integer range (for example if they are limited to integers between 0 and 9999), then “User Defi ned Integer Scaling” should be used.
Table A-8. Integer values used in the data conversion and their default values (prior to Firmware Version 3.12)
Table A-10. TIM ambient variables (fi xed).
Table A-9. Settings used for the Float Zero and Float Full values.
Value Name Default Value
Scaled Integer Zero 4096 (0x1000)Scaled Integer Full 61440 (0xF000)Scaled Integer Zero Limit 0 (0x0000)
Scaled Integer Full Limit 65535 (0xFFFF)
User Defi ned Integer ScalingMIM Firmware Versions 3.12 and later provide for User Defi ned Integer Scaling. This allows the user to perform a system wide override of the values used in the conversion to and from Scaled Integer values. The purpose of this is to accommodate MODBUS Register formats required by existing DCS and PLCs.
On the Confi guration page of the NCS Confi guration Software, check the “User Defi ned Integer Scaling” check box. This activates the “User Defi ned Integer Scaling” and deactivates the “Default Integer Scaling”. Then enter the Zero, Full and Limits to be used in the calculation.
Data ConversionInteger data is unsigned. The Float Zero (input/output lower range) value is mapped to Scaled Integer Zero, and the Float Full (input / output upper range value) is mapped to Scaled Integer Full. This range allows an integer representation of the entire range with some additional room for out-of-range values. For process variables the Float Zero and Float Full values are taken from the Lower Range Value and the Upper Range Value unless scaling is enabled. If scaling is enabled, they are taken from the Lower and Upper Scaled Values. As the variable goes out of range, it is limited by the Scaled Integer Zero or Full Limit. This is summarized in Table A-9.
Value Name
Zero Float Input Zero Output Zero Scaling Zero
Float Full Input Full Output Full Scaling Full
Input Module,Scaling Disabled
Output Module,Scaling Disabled
Input or Output Module, Scaling Enabled
Value Name Value
Float Zero -40°C
Float Full 85°C
For ambient temperature variables in the TIM, the ambient operating range is used for the Float Zero and Full. Thus Float Zero is -40°C, and Float Full is 85°C. The Float Zero and Float Full values are fi xed and therefore they cannot be sub-ranged per Table A-10.
User’s Manual SupplementNCSMIM NET Concentrator® System
with MODBUS Interface MODBUS Integer Access
September 2010
The Interface Solution Experts
Input Modules:To convert a Scaled Integer PV to a Float PV (e.g. to interpret an input module’s PV):
Float PV= (Scaled Int PV-Scaled Int Zero) + FloatZero( )Float Full-FloatZeroScaled Int Full-Scaled Int Zero
Float PV= (Scaled Int PV-4096) + FloatZero( )FloatFull-FloatZero57344
Scaled Int PV= (FloatPV-Float Zero) +Scaled Int Zero( )Scaled Int Full-Scaled IntZeroFloatFull-FloatZero
Scaled Int PV= (FloatPV-Float Zero) +4096( )57344FloatFull-FloatZero
Float PV= (Scaled Int PV-4096) + FloatZero( )FloatFull-FloatZero57344
Float PV= 80.862°F
Float PV= (16862-4096) + (-400)( )1760-(-400)57344
If the default Integer Scaling settings are used (and also in units with fi rmware before 3.12,) the equation above simplifi es to:
Output Modules:To convert a Float PV to a Scaled Integer PV (e.g. to drive an analog output):
If the default Integer Scaling settings are used (and also in units with fi rmware before 3.12,) the equation above simplifi es to:
ExamplesExample #1:This example illustrates using the default scaled integer behavior to read and interpret a value from an TIM channel, and to calculate an integer value to write to an AO channel. This scenario is applicable to systems with fi rmware prior to 3.12, or when the system-wide “User Defi ned Integer Scaling” setting is disabled.
Input Confi guration : RTD 3850,100R,°F Input Range : -400 to 1760°F User Defi ned Integer Scaling : Disabled
Upon accessing the Scaled Integer corresponding to this input channel, the user observes a value of 16862 (0x41DE.) The following calculation is performed to convert this value to Floating point:
The scaled integer value of 16862 (0x41DE) equals 80.862 degrees Fahrenheit
User’s Manual SupplementNCSMIM NET Concentrator® System
with MODBUS InterfaceMODBUS Integer Access
United States • [email protected]: (818) 894-7111 • FAX: (818) 891-2816
Australia • [email protected]: (02) 8536-7200 • FAX: (02) 9525-7296
Belgium • [email protected]: 03/448.10.18 • FAX: 03/440.17.97
The Netherlands • [email protected]: (0)344-617971 • FAX: (0)344-615920
China • [email protected]: 86-21-62491499 • FAX: 86-21-62490635
United Kingdom • [email protected]: 01293 514488 • FAX: 01293 536852
Output Confi guration : Current Output Range: 4 to 20 mA User Defi ned Integer Scaling: Disabled
The user wishes to set the output current to 12.34 mA. The following calculation is performed to determine what value to write to the scaled integer register:
Scaled Int PV= (FloatPV-Float Zero) +4096( )57344FloatFull-FloatZero
Scaled Int PV= 33987 (0x84C3)
Scaled Int PV= (12.34-4.0) +4096( )5734420.0 - 4.0
To obtain an output of 12.34 mA, a value of 33987 (0x84C3) should be written to the Channel’s Scaled Integer register.
Example #2: This example illustrates converting the Floating Point value to an integer value with a single fi xed decimal point. This makes it easy to look at the Scaled Integer, and interpret it with no fancy calculations (i.e. just shift the decimal point to the left one position.) It also shows the resulting Scaled Integers if default behavior is used.
The input signal to a NCS TIM channel is a resistance with typical PV (Process Variable) values from 250 Ohms to 750 Ohms. It is desirable to also report the values below the expected 250 Ohms and above 750 Ohms.
Input Confi guration: Ohms Input Range: 250 to 750 ohms User Defi ned Integer Scaling: Enabled Integer Scaling Zero and Full: 2500 and 7500 Integer Scaling Zero and Full Limits: 1000 and 9000.
PV
149.0
150.0
250.0
500.0
750.0850.0
851.0
0 (0x0000)0 (0x0000)4096 (0x1000)32768 (0x8000)61440 (0xF000)65535 (0xFFFF)65535 (0xFFFF)
1000
1500
2500
5000
75008500
9000
Out of Range
Out of Range
In Range
In Range
In RangeOut of Range
Out of Range
Default IntegerScaling
User Scaling Enabled Comment
Specifi cations and information subject to change without notice.
For comparison, the table below shows the resulting integers using “Default Integer Scaling” and “User Defi ned Integer Scaling”.
Table A-11. Comparison of Integer Values by Method
To return equipment to Moore Industries for repair, follow these four steps:
1. Call Moore Industries and request a Returned Material Authorization (RMA) number.
Warranty Repair –If you are unsure if your unit is still under warranty, we can use the unit’s serial numberto verify the warranty status for you over the phone. Be sure to include the RMAnumber on all documentation.
Non-Warranty Repair –If your unit is out of warranty, be prepared to give us a Purchase Order number whenyou call. In most cases, we will be able to quote you the repair costs at that time.The repair price you are quoted will be a “Not To Exceed” price, which means that theactual repair costs may be less than the quote. Be sure to include the RMA number onall documentation.
2. Provide us with the following documentation:
a) A note listing the symptoms that indicate the unit needs repairb) Complete shipping information for return of the equipment after repair
c) The name and phone number of the person to contact if questions arise at the factory
3. Use sufficient packing material and carefully pack the equipment in a sturdy shippingcontainer.
4. Ship the equipment to the Moore Industries location nearest you.
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User’s Manual SupplementNCSMIM NET Concentrator® System
with MODBUS InterfacePeer-to-Peer Configuration
October 2004
The Interface Solution Experts 1
The following information supersedes data in the NCSMIM
NET Concentrator® System with MODBUS InterfaceModule User’s Manual, 288-766-00, Revision A.
The information contained in this document describesthe operation and use of the Peer-to-Peer function of theNCSMIM.
Peer-to-Peer systems function without the use of a hostdevice and continuously communicate the inputs and/oroutputs of field instrumentation from point-to-point over adigital data communications link.
Among the features available with the NCSMIM is the abil-ity to map temperature inputs of one station to the ana-log outputs of another. You are also able to map theinputs of one station to the outputs of a second all whilemapping inputs of the second station to the outputs ofthe first. Point-to-multipoint mapping is also available inwhich you are able to map the inputs of one station tothe outputs of multiple other stations.
MIM System ConfigurationsThe MIM has two independent MODBUS communicationports that support different network architectures. Asystem of MIM stations can communicate in one of thefollowing three configurations:
1. As a system of MODBUS slaves with two indepen-dent communication ports for each MIM (this has beendescribed in the NCSMIM User’s Manual).
2. As a Peer-to-Peer system on one MODBUS port andas a system of MODBUS slaves on a second port.
3. As a Peer-to-Peer system with redundant communi-cation ports.
System TerminologyTo fully understand the MIM Peer-to-Peer system and itsconfiguration, certain terms must be understood. Thefollowing are explanations of terms used in the system.
288-766-02A© 2004 Moore Industries-International, Inc.
Producer and ConsumerIn a Peer-to-Peer system, the MIM whose inputs aremapped to another MIM’s outputs is called a Producer.The MIM that reads the inputs from another MIM andmaps them to its own outputs is called a Consumer. Forexample, if an MIM-AIM system is connected via a Peer-to-Peer network to a MIM-AOM, the MIM-AIM system willbe a producer and the MIM-AOM system will be aconsumer. There are several valid producer and con-sumer relationships in a system including:
A. A station may be solely a Producer (because it hasonly inputs).
B. A station may be solely a Consumer (because it hasonly outputs).
C. A station may be both a consumer of anotherstation’s inputs, as well as a producer supplying data foroutputs of consumer stations.
In essence, the producer is the station generating inputsignals; the consumer station receives and processesthose inputs to produce output signals.
Software ConfigurationThe MIM has two MODBUS ports that are independentlyconfigurable. For each MODBUS port, there are four re-quired software configuration parameters for Peer-to-Peerconfiguration: Mode, MODBUS Address, Consumer andProducer’s MODBUS Address.
Mode determines whether the MODBUS port is in Peer-to-Peer or MODBUS slave mode. If, for example, a sys-tem of MIM stations is to operate as a Peer-to-Peersystem on MODBUS Port 1, then you must ensure Peer-to-Peer mode is enabled on MODBUS Port 1 in all MIMsin the system. You must also ensure that baud rate,parity, character timeout and response delay are thesame in all MIMs in that system.
Each port may be individually configured for either nor-mal MODBUS slave operation or for Peer-to-Peer opera-tion. You must set the Mode to the same value in allMIM stations of the Peer-to-Peer system.
The MODBUS Address can be set independently foreach port. The allowed range for a MODBUS slave is 1to 247. However, the allowed range in Peer-to-Peermode is 1-32. The user is responsible for assigningeach MIM station in a given network with a uniqueMODBUS Address. If both ports of the MIM are beingused on the same bus, the ports must have unique ad-dresses.
User’s Manual SupplementNCSMIM NET Concentrator® System
with MODBUS InterfacePeer-to-Peer Configuration
2 The Interface Solution Experts
Examples of Peer-to-PeerConfigurationsTo help describe the various capabilities of the Peer-to-Peer system, written and illustrated examples of particu-lar configurations are detailed below.
Single Station Pair ConfigurationsA Peer-to-Peer system configuration is described in thefollowing application example.
You have two MIM stations communicating Peer-to-Peer (bi-directional) on Port 1. On Port 2, thesesame MIMs will communicate with a MODBUSMaster in a Peer-to-Host configuration.
Figure S-2 provides an illustrated representation of thisexample with the AIM in position 1 of the producermapping to the AOM in position 1 of the consumer andtheir channels mapping from channels 1 to 1, 2 to 2 andso forth. Refer to Figure S-1 for an example of PCsoftware window configuration.
Note:Only modules of like data types can map to each other(analog data AIMs and TIMs map to AOMs; discrete
data DIMs map to ROMs).
You may access diagnostics information in theconsumer for the application in the example above via
the NCS Configuration Software program.
Enabling Peer-to-Peer SoftwareConfigurationTo configure a Peer-to-Peer network, you must use NCSConfiguration Software Program (NCS Config), version3.04 or later.
Note:For further clarification of terms or parameters inthe NCS Configuration Software Program, right-click the related portion of the screen and select
the “What’s This?” button.
Connect each MIM as detailed in the PC ConfigurationProgram section of the NCSMIM User’s Manual. Toenable the Peer-to-Peer feature in the MODBUS configu-ration window, check the “Enable Peer to Peer Mode”box for either MODBUS 1, MODBUS 2 or both ports forredundant Peer-to-Peer. Perform this for all MIMs inyour system that require operation in Peer-to-Peer mode.
To connect multiple MIMs with a limited number ofavailable COM Ports, connect and configure each MIM
Each MODBUS port can be individually configured toenable the MIM station to act as a Peer-to-Peer modeconsumer on that port. For all consumer station ports, aProducer’s MODBUS Address (see below) must be as-signed. When the consumer feature is disabled, noProducer’s MODBUS Address is assigned and thestation’s output channels will have no input (from anotherMIM station) mapped to them via that port.
The Producer’s MODBUS Address identifies theMODBUS address of the MIM station containing the in-put channels that will be mapped to the output channelsof this station. The address range is 1-32 excluding theMODBUS Address of the station being configured.
Hardware ConfigurationThe MIM with the Peer-to-Peer feature has a point-to-point or point-to-multipoint relationship. In each case,however, the module must be in the same position as themodule with which it is exchanging data. For example, ifthe Producer station has a MIM-TIM-AIM-DIM configura-tion, then the Consumer station must have a MIM-AOM-AOM-ROM configuration. If the discrete and analogmodule positions are not the same in the producer andconsumer, an incompatible module fault will occur (seeTable S-1).
individually on the accessible port then disconnect andmove to the next MIM. Repeat this for all MIMs in yoursystem.
Once you enable Peer-to-Peer, the “Consumer” boxbecomes available. If your station is to also be config-ured as a consumer, check this box.
When enabling your MIM as a consumer, you must enteran address value in the “Producer’s MODBUS Address”text box. This number may be any value between 1 and32, with the exception of the value entered into the“MODBUS Address” box in the configuration window.
Ensure that all MIM baud rates, parities, charactertimeouts and response delays match one another.
Repeat the previous steps for all MIMs in your systemthat are to be configured as Peer-to-Peer.
User’s Manual SupplementNCSMIM NET Concentrator® System
with MODBUS InterfacePeer-to-Peer Configuration
The Interface Solution Experts 3
POWER
RX1READY
MIM MODBUS INTERFACE MODULE
TX1
RX2
TX2STATUSCOMMS
NCS NET CONCENTRATOR SYSTEM
ModuleNumber
ROM8 RELAY OUTPUT MODULE
CHANNEL 1
CHANNEL 2
CHANNEL 3
CHANNEL 4
CHANNEL 5
CHANNEL 6
CHANNEL 7
CHANNEL 8
POWER
RX1READY
MIM MODBUS INTERFACE MODULE
TX1
RX2
TX2STATUSCOMMS
NCS NET CONCENTRATOR SYSTEM
CHANNEL 1
CHANNEL 2
CHANNEL 3
CHANNEL 4
ModuleNumber
AIM ANALOG INPUT MODULE
ModuleNumber
AOM ANALOG OUTPUT MODULE
CHANNEL 1
CHANNEL 2
CHANNEL 3
CHANNEL 4
ModuleNumber
DIM-V DISCRETE INPUT MODULE
CHANNEL 5
CHANNEL 6
CHANNEL 7
CHANNEL 8
COMMS
A1
A2
B1
B2
S
S
COMMS
A1
A2
B1
B2
S
S
Pee
r-to
-Pee
r Li
nk (
Por
t 1)
MO
DB
US
Lin
k (P
ort 2
)
RS-485 / RS-232Converter
MIM 1
MIM 2
A1 B1 S
A2 B2 S
A1 B1 S
A2 B2 S
PC running MODBUS Master software
Figure S-2. Hook-Up Diagram for a Single Station Pair Running Peer-to-Peer on Port 1 and MODBUS Peer-to-Host on Port 2
Figure S-1. Configuration Windows for a Single Station Pair Running Peer-to-Peer on Port 1 and MODBUS Peer-to-Host on Port 2
User’s Manual SupplementNCSMIM NET Concentrator® System
with MODBUS InterfacePeer-to-Peer Configuration
4 The Interface Solution Experts
Multiple Station ConfigurationsA typical application when using multiple stations withredundant Peer-to-Peer and using point-to-multipointmapping is outlined below. Refer to Figure S-4 for anillustrated representation of this example. Refer toFigure S-3 for an example of PC software windowconfiguration.
Map four temperature inputs from Station 1 to fouranalog outputs (4-20mA) of Stations 2, 3 and 4.
Figure S-3. Configuration Windows for Multiple Station Pairs with Redundant Peer-to-Peer Links Using Point-to-Multipoint Mapping
Note:Analog output channels must be configured to scale
the producer temperature data to the current or voltageoutputs (refer to Figure S-5 for an example).
Access diagnostics through MODBUS by interruptingPeer-to-Peer communications on either port network.For the consumer only, you may use the NCS Configura-tion Software program to view diagnostics messages.
User’s Manual SupplementNCSMIM NET Concentrator® System
with MODBUS InterfacePeer-to-Peer Configuration
The Interface Solution Experts 5
POWER
RX1READY
MIM MODBUS INTERFACE MODULE
TX1
RX2
TX2STATUSCOMMS
NCS NET CONCENTRATOR SYSTEM
CHANNEL 1
CHANNEL 2
CHANNEL 3
CHANNEL 4
ModuleNumber
TIM TEMPERATURE INPUT MODULE
POWER
RX1READY
MIM MODBUS INTERFACE MODULE
TX1
RX2
TX2STATUSCOMMS
NCS NET CONCENTRATOR SYSTEM
ModuleNumber
AOM ANALOG OUTPUT MODULE
COMMS
COMMSS
A1
A2
B1
B2
S
Peer-to-Peer Link (Port 1)
POWER
RX1READY
MIM MODBUS INTERFACE MODULE
TX1
RX2
TX2STATUSCOMMS
NCS NET CONCENTRATOR SYSTEM
ModuleNumber
AOM ANALOG OUTPUT MODULE
POWER
RX1READY
MIM MODBUS INTERFACE MODULE
TX1
RX2
TX2STATUSCOMMS
NCS NET CONCENTRATOR SYSTEM
ModuleNumber
AOM ANALOG OUTPUT MODULE
MIM 1
MIM 2
MIM 3
MIM 4
COMMS
COMMS
Peer-to-Peer Link (Port 2)
A1 B1 S
A2 B2 S
A1 B1 S
A2 B2 S
A1 B1 S
A2 B2 S
A1 B1 S
A2 B2 S
S
A1
A2
B1
B2
S
S
A1
A2
B1
B2
S
S
A1
A2
B1
B2
S
Figure S-4. Multiple Station Pairs with Redundant Peer-to-Peer Links Using Point-to-Multipoint Mapping
Figure S-5. Configuration Window for Analog Output Temperature Scaling
User’s Manual SupplementNCSMIM NET Concentrator® System
with MODBUS InterfacePeer-to-Peer Configuration
6 The Interface Solution Experts
Viewing Peer-to-Peer Faultsvia MODBUSThe Peer-to-Peer Status Register can be accessed viaMODBUS on the second port if the first is declared Peer-to-Peer, or on the Peer-to-Peer link itself. A MODBUSmaster on a Peer-to-Peer link may interrupt the Peer-to-Peer communications on that link and poll any slave fordiagnostics, or any other data. When the MODBUSmaster goes silent, Peer-to-Peer communications willresume. The 16-Bit “Peer-to-Peer Status Register” maybe read using MODBUS analog commands 3 and 4. Theindividual flag bits within the register are also availablethrough discrete read commands 1 and 2 where “B” is thebit position within the Peer-to-Peer Status register (seetable below). The bit positions and corresponding faultsare outlined in Table S-1.
Fault ConditionsIf any of the faults listed in Table S-1 are present,meaning data is not available to drive the output, theoutput channel behaves according to the “Output OnFailure” parameter(s) in the output channel configuration.See Figure S-5 for an example of output channel configu-ration.
DiagnosticsFaults preventing correct process data from reaching aconsumer station, or “Peer-to-Peer faults”, will beflagged and made available in the consumer station MIMfor you to access via MODBUS or the NCS PC Configu-ration Software program. In addition, the Status LED ofthe consumer MIM station will turn red. Refer to TableS-1 for descriptions of these faults and their causes.
Loss of Port 1 on a RedundantPeer-to-Peer SystemWhen the communication link to Port 1 is severed,Peer-to-Peer communications will automatically switchto Port 2, the redundant port. When this happens, thestatus LED on the consumer(s) will turn red and theappropriate MODBUS status bits in Table S-1 will beactivated to true. This Port 1 communication failure canalso be seen when using the NCS Configuration Soft-ware in the “Monitor Process Data” view. Once thesevered link for Port 1 has been repaired, the Peer-to-Peer communication link will switch back to Port 1 andthe LED will return to green with the status bits resettingback to false.
Note:Peer-to-Peer will automatically switch to Port 2 ONLYwhen Port 2 is configured for Peer-to-Peer AND the
RS-485 bus is healthy.
Display of Peer-to-Peer Faults in NCSPC Configuration Software ProgramPeer-to-Peer faults on a given station can be viewedthrough the PC Configuration Software program on theProcess Data page of the consumer station, the samepage where MIM and system level faults are listed.Descriptions of all present faults are shown simulta-neously.
Variable
Peer-to-PeerStatus Register
Peer-to-PeerStatus Flags
Register Address
2131 (Analog Commands)
4095 + B (Discrete Commands)
User’s Manual SupplementNCSMIM NET Concentrator® System
with MODBUS InterfacePeer-to-Peer Configuration
The Interface Solution Experts 7
No communication witha producer station isavailable on Port 1
No communication witha producer station isavailable on Port 2
At least one outputmodule in the consumerstation is not compatiblewith the correspondingmodule in the producerstation for Port 1
At least one outputmodule in the consumerstation is not compatiblewith the correspondingmodule in the producerstation for Port 2
The producer station’sinput channel or modulecorresponding to thisoutput channel has anerror
RS485 wiring is incomplete or incorrectlyconnected
Baud rate/character format configurations forPort 1 of the stations in the Peer-to-Peersystem do not matchThe producer station does not have Peer-to-Peer enabled on Port 1
RS485 wiring is incomplete or incorrectlyconnectedBaud rate/character format configurations forPort 2 of the stations in the Peer-to-Peersystem do not matchThe producer station does not have Peer-to-Peer enabled on Port 2The corresponding module in the producerstation is an output module, such as anAOM in the consumer station but anotherAOM in the corresponding module positionof the producer stationThe corresponding module in the producerstation is an input module but of the wrongdata type, such as an AOM (expectingfloating point data) in the consumer stationbut a DIM (transmitting Boolean data) in thecorresponding module position of the pro-ducer station
The corresponding module in the producerstation is an output module, such as anAOM in the consumer station but anotherAOM in the corresponding module positionof the producer stationThe corresponding module in the producerstation is an input module but of the wrongdata type, such as an AOM (expectingfloating point data) in the consumer stationbut a DIM (transmitting Boolean data) in thecorresponding module position of the pro-ducer station
The input channel in the producer stationcorresponding to this output channel has aflag in its Channel Status register (refer toAppendix A of the NCSMIM User’s Manual)The flag in the Module Fail register of theproducer station corresponding to this outputchannel’s module position is true
The flag in the Base Fail register of theproducer station corresponding to this outputchannel’s module position is true
Loss of aCommunication Linkto a Producer Stationon Port 1
Loss of aCommunication Linkto a Producer Stationon Port 2
Incompatible ModuleTypes Port 1
Incompatible ModuleTypes Port 2
Error in ProducerChannel or Module
Description CausesFault Status FlagBit 0 of the Peer-to-Peer Status registergoes true
Bit 1 of the Peer-to-Peer Status registergoes true
Bit 2 of the Peer-to-Peer Status registergoes true
Bit 3 of the Peer-to-Peer Status registergoes true
Bit 4 of the Peer-to-Peer Status registergoes true
Table S-1. Detected Peer-to-Peer Faults
User’s Manual SupplementNCSMIM NET Concentrator® System
with MODBUS InterfacePeer-to-Peer Configuration
8 The Interface Solution Experts
United States • [email protected]: (818) 894-7111 • FAX: (818) 891-2816
Australia • [email protected]: (02) 8536-7200 • FAX: (02) 9525-7296
Belgium • [email protected]: 03/448.10.18 • FAX: 03/440.17.97
The Netherlands • [email protected]: (0)344-617971 • FAX: (0)344-615920
China • [email protected]: 86-21-62491499 • FAX: 86-21-62490635
United Kingdom • [email protected]: 01293 514488 • FAX: 01293 536852
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