03 20r300 1 c300 controller architecture

1April 17, 2023

Describe the Main Features of the Series C System

C300 Controller Architecture Describe the Main Features of the Series C System C300 Controller Architecture Describe the Main Features of the Series C System

EXP20R300 - EPKS CEE C200/C300/ACE

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April 17, 2023

Topics

• Series C Deliverables

• Key features of Series C hardware

• R300 performance targets

C300 Controller Architecture Describe the Main Features of the Series C System


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April 17, 2023

R300 Series C Deliverables

• Products and Functions delivered under the Series C Umbrella:– Includes

• Series C I/O

• Series C FIM

• C300

• Control Firewall

• Related Deliverables:– Includes

• New FTE Bridge firmware that supports C300 to selected Series A I/O

– Allow FTE Bridge firmware to be upgraded from a R300 system



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April 17, 2023

R300 Series C Deliverables, contd.

• Products delivered in R300 Series C Release– C300 Controller

– HART (HLAI) Analog Input

– HART Analog Output

– Discrete Input

– Discrete Output

– Low Level Mux Input

– Fieldbus Interface Module (FIM)

– Control Firewall

– Power System



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April 17, 2023

Question 1: Series C Deliverables

Incorrect. The false statement is " New FTE Bridge firmware is required but it cannot be upgraded

from a R300 system."

Click anywhere to continue.










Correct! The false statement is " New FTE Bridge firmware is required but it cannot be upgraded



Correct! The false statement is " New FTE Bridge firmware is required but it cannot be upgraded



Correct - Click anywhere to continueCorrect - Click anywhere to continueIncorrect - Click anywhere to continueIncorrect - Click anywhere to continueYou answered this correctly!You answered this correctly!

Your answer:Your answer:The correct answer is:The correct answer is:

You did not answer this question completelyYou did not answer this question completelyYou must answer the question before continuing

You must answer the question before continuing

Submit Clear

Which of these statements about the Series C deliverables is false?

A) It includes Series C I/O, C300, Series C FIM and Control Firewall

B) It includes a new Power System

C) New FTE Bridge firmware is required but cannot be upgraded from a R300 system



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April 17, 2023

Topics






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April 17, 2023

Packaging - Overview

• “Series C” term is for the new styling for familyof Controller and I/O

• Space-efficient design– “Designed Vertical”

– No electronic card files

– “Zero Footprint” power system does not impact module space

– >30% reductions compared to equivalent HPM

• Combines I/O Processor and Field Terminationsinto one Assembly– Fewer components providing higher MTBF

and Availability



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Key Attributes

• Environmental ratings equivalent to HPM– Temperature, corrosives, EMI/RFI, Vibration, other equal to HPM

– Class 1 Div 2/Zone 2 interface & mounting support

• Approvals Support (CE, FM, CSA, ATEX, and so on)– No plans for UL certification of complete system

• Corrosion protected models

• All Series C components can be mixed and matched in cabinet

• Electronics mounted to IOTA– Module Removal and Insertion Under Power (RIUP)

– Reduces footprint

• Packaged cabinet solution– Similar to TPS Process Manager today



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April 17, 2023

Key Attributes, contd.

• “Designed Vertical”– More Uniform Heat Management

• Reduces “hot spots”

– More Efficient Field Wiring

• Top/Bottom Wiring Entry

• More Natural Terminations

• No Severe Wire Bends

• Space Efficient Design– Comparable to highest density current

competitive offerings

• Modular Approach– Removable Terminal Blocks

– Integral Shields Termination



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April 17, 2023

Mechanical Keying

Keys

Key Slots

• Modules will have “Key” to prevent insertion into invalid IOTA

• Intended to prevent inadvertent insertionof Module– “Average” Use



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New Terminology

IOTA Support

IOTA Carrier

IOTA (Input/Output Termination Assembly)

IOM (Input/Output Module)



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I/O Options for C300

• Series C I/O– New form Factor

– AI, AO, DI, DO, LLMUX

• Series C Fieldbus Interface

• PMIO– As supported by C200

• FTEB connected Series A I/O– Serial Interface, Profibus

Interface, DeviceNet Interface, and Pulse Input

– NOT regular chassis I/O

• FTEB connections to AB PLCs– Using a bridge chassis with a

FTEB and downlink CNI



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Main Components

• Mounting concept:– Single cabinet side for electronics

and terminations

– Cable tray mounted carrier/IOTA with:

• Replaceable Module

• Power and Communication Connectors

• Field Wiring Connections

• Vertical stacking of elements– Natural flow of field wiring

• Channel mount– Channel is like PM FTA channel

– Channel is not the same as FTA and cannot be used for Series C mounting



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April 17, 2023

New Cabinet Design

Power Supply Area

I/O Rail Area

Batteries/Battery Charger



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April 17, 2023

Question 2: Packaging

Incorrect! All of the above statements are true and make Series C a more space efficient design.












Correct! All of the above statements are true and make Series C a more space efficient design.


Correct! All of the above statements are true and make Series C a more space efficient design.

Click anywhere to continue. Correct - Click anywhere to continueCorrect - Click anywhere to continueIncorrect - Click anywhere to continueIncorrect - Click anywhere to continueYou answered this correctly!You answered this correctly!




Submit Clear

Why is Series C a more space efficient design?

A) Designed Vertical

B) No electronic card files

C) Power system does not occupy footprint

D) All of the above



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April 17, 2023

Question 3: Terminology

Incorrect. The term "CPM" is not a Series C hardware terminology and is used when

referring to a C200 controller.























Correct! The term "CPM" is not a Series C hardware terminology and is used when



Correct! The term "CPM" is not a Series C hardware terminology and is used when







Submit Clear

Which of the following is not a Series C hardware terminology?

A) IOTA Support

B) IOTA Carrier

C) IOTA

D) IOM

E) CPM



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April 17, 2023

Topics






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April 17, 2023

R300 Performance “Targets”

1: 330 nodes per community if no FTEBs are present; 200 nodes per community with FTEBs.



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Limitations

• The following is not supported with C300:– Peer-to-Peer communications with FTEB-based IOLIMs

– Series C I/O and PM I/O cannot be mixed on the same I/O Link

• The following will not be tested and therefore not supported in R300:– C200 Peer-to-Peer communications with Series C FIM modules

– C300 Peer-to-Peer communications with FTEB-based (Series A)FIM modules



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Question 4: Rules

Incorrect. All of the above statements are true about the Series C system.
















Correct! All of the above statements are true about the Series C system.


Correct! All of the above statements are true about the Series C system.






Submit Clear

Which of the following statements is true about the Series C system?

A) Peer-to-peer communication with FTEB based IOLIMs is not supported

B) Series C I/O and PM I/O cannot be mixed on the same I/O Link

C) C200 Peer-to-peer communications with Series C FIM modules is not supported

D) C300 Peer-to-peer communications with FTEB- based (Series A) FIM modules is not supported

E) All of the above



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Summary

• Series C hardware includes– Series C I/O (HART AI, AO, DI, DO, LLMUX)

– Series C FIM

– C300 Controller

– Control Firewall

• Series C is a space efficient design that combines I/O processor and field termination into one assembly

• Series C electronics are mounted to IOTAs reducing footprint and supporting module removal and insertion under power (RIUP)

• C300 controller supports Series C, Series A, and PM I/O, Series C Fieldbus interface and FTEB connections to AB PLCs via Downlink CNI

• 16 C300 controllers are supported per server• C300 Peer-to-Peer communications with FTEB-based IOLIMs is not

supported• Series C and PM I/O cannot be mixed on the same I/O link



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Conclusion

Describe the main features of the Series C system

CompletionCompletionCertificateCertificate

Proceed to the next lesson in your course material



23April 17, 2023

Describe the Architecture of Series C System

C300 Controller Architecture Describe the Architecture of Series C System C300 Controller Architecture Describe the Architecture of Series C System


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Experion Platform Architecture

RedundantGlobal Database &

HistorianExperion Server

Investment Protectionfor TPS/TDC

Experion on LCN

IntegratedSupervisory Control

ACE

Regulatory, LogicSequential & Model

Based ControlsC300/C200 & Profit Loop

Process Manager

BasicController

Plant Asset Management

Asset Manager

Plant WideData

WarehousePHD

Remote OperationsExperion Station

Video as a Process SensorDigital Video Manager

Casual UserSecure Read OnlyProcess Display

Web ServereServer

Desktop Access

for Business Applications

Web Browsers

Web-based Human InterfaceExperion Station

ASM Operator Effectiveness

Multivariable Control and Optimization

Profit Suite

Field MobilityMobile PKS

WirelessAccess

Redundant and/or Remote I/O

ErgonomicOperator Consoles

Icon Series

Advanced Applications Network

Business Network

Field RoundsAutomation

IntelaTrac PKS

Local Control Network

Video Ethernet

Advanced Enterprise Wide Applications

Business FLEXWorkcenter

POMS, OptiVISION

Firewall

Supervisory Control Network

WirelessTransmitters

SIL 3 Safety SystemSafety Manager

Precision Measurement and Control

Quality Control System

Integrated Physical Security

Enterprise Building

Integrator

Plant SimulationUniSim

Focus of this Presentation

C300 Controller Architecture Describe the Architecture of Series C System


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Series C Architecture



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Question 1: Architecture

Correct! The false statement is " Series C FIM is connected to L1 or L2 Cisco switch". The Series C

FIM is the Fieldbus interface module which connects to the Control Firewall via FTE.


Correct! The false statement is " Series C FIM is connected to L1 or L2 Cisco switch". The Series C



Incorrect. The false statement is " Series C FIM is connected to L1 or L2 Cisco switch". The Series C






















Submit Clear

Which of the following statements is not true about the Series C Architecture?

A) Series C FIM is connected to L1 or L2 switch

B) Serial Interface, Pulse Input, Device Net Interface, and Profibus Interface Series A I/Os are connected to Control Firewall using FTEB

C) Allen Bradely PLCs can also be connected to a rack, and then to the Control Firewall using an FTEB

D) All of the above



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April 17, 2023

Summary

• Control Firewalls are connected to Level 1 or Level 2 switches

• The C300 Controller is connected to the Control Firewall using FTE

• The Series C FIM is the Fieldbus interface. This module also connects to the Control Firewall via FTE

• Series A Rack IO connects to the C300 through the Control Firewall using an FTEB– This IO is currently limited to Serial Interface, Pulse Input, DeviceNet

Interface and Profibus Interface modules only. This rack is connected to the Control Firewall using an FTEB and via FTE

• Allen Bradley PLCs can also be connected to a Rack and then to the Control Firewall using an FTEB



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Describe the Architecture of Series C System



Conclusion



29April 17, 2023

Describe Series C Input-Output Modules and Options

C300 Controller Architecture Describe Series C Input-Output Modules and Options C300 Controller Architecture Describe Series C Input-Output Modules and Options


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C300 Controller Supported I/O

• Flexible I/O support:– Adaptable to fit range of I/O interface

requirements mix and match

– Can be any mix of

• PMIO

• Series C I/O

• Series A Chassis I/O (supported modules only) through FTE Bridge module

• FIMs

– 64 primary I/O units per C300

– Support 2 on board IOLINK interfaces

• Each IOL can support 40 I/O units

IOLIOLConnectionConnection

IOLIOLConnectionConnection

C300 Controller Architecture Describe Series C Input-Output Modules and Options


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Types of Series C I/O Modules

• HART Analog Input (AI) – 16 Channels

• HART Analog Output (AO) – 16 Channels

• Digital Input (DI)– 32 Channels – 2 physical types– 24VDC Input – Common Ground (Non-Isolated)

– 100VAC/120VAC/125VDC/240VAC (Isolated)

• Digital Output (DO) – 32 Channels– Relay Extension Board

• Low Level Analog Input (LL) – 64 channels– Thermocouple and RTD

• AI, AO, DI and DO are optionally redundant

• LL Inputs are not available in redundant configuration



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Non-Redundant Series C I/O Module

• IOM is physically placed on an IOTA

• The IOTA has all the wiring and power connections

• The IOM has the electronics and diagnostics

• AI, AO, and LL modules mount on a 6” IOTA

• DI/DO modules mount on a 9” IOTA

FieldTermination

FieldTermination

I/O ModuleI/O Module

I/O LinkConnection

I/O LinkConnection

CalibrationCalibration

Resistors /Jumpers

Resistors /Jumpers



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Question 1: Series C I/O Support





Submit Clear

Incorrect. All of the above statements are true about Series C I/O support.
















Correct! All of the above statements are true about Series C I/O support.


Correct! All of the above statements are true about Series C I/O support.


Which of the following statements is true about C300 I/O Support?

A) Supports 2 I/O Link interfaces

B) Supports mix and match of I/O types

C) 64 primary IO units per C300, 40 per I/O Link

D) HLAI, HLAO, DI, DO and LL type Series C I/O's

E) All of the above



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Redundant Series C I/O Module

• Same IO module as non redundant

• AI, AO, DI, DO modules mount on a 12” IOTA

• Modular Redundancy

• Modular ConnectionSystem– No Common Backplane

– No Single Point of Failure

I/O LinkConnection

I/O LinkConnectionI/O ModuleI/O Module

FieldTermination

FieldTermination

Redundant IOMRedundant IOM

I/O Termination Assembly

I/O Termination Assembly



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Diagnostic LEDs

• Power and Status LEDs on the module itself• Provides display of any failure conditions



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HART Analog Input

• 16 Analog Channels

• Supports Integrated HART Communications

• 4 Analog Channels support Voltage mode

• Optionally Redundant

• 50msec Scan for 4-20ma input

• 4 configurable modems

• 250ms Loop Latency



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HART Analog Input – Non Redundant

I/O LinkI/O LinkConnectionsConnections

Analog InputAnalog InputI/O ModuleI/O Module

DifferentialDifferentialVoltage InputVoltage Input

Channels 13-16Channels 13-16

I/O LinkI/O LinkAddressAddress



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Question 2: Series C I/O Support





Submit Clear

Correct! The IOTA has all the wiring and power connections.


Correct! The IOTA has all the wiring and power connections.


Incorrect. The IOTA has all the wiring and power connections.








Which of the these statements explains an IOTA?

A) IOTA has all wiring and power connections

B) Power and Status LEDs are located on the IOTA

C) Same IOTA is used for non-redundant and redundant IOM



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IOM Addressing and IOLINK

I/O LinkConnections

I/O LinkConnections

IOM Address

IOM Address



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HART Analog Input Wiring Options

Channels 1-12Channels 1-12 Channels 13-16Channels 13-16



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HART Analog Input – Redundant


Analog InputAnalog InputI/O Module primary and I/O Module primary and

redundantredundant


Module FuseModule Fuse



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HART Analog Input – New Detail Displays



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HART Analog Output

• 16 Analog Channels• Supports Integrated HART

Communications• Optionally Redundant• 4 configurable modems• 250ms Loop Latency when

used with Series C HLAI



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HART Analog Output, contd.


Analog OutputAnalog OutputI/O ModuleI/O Module


CalibrationCalibrationVoltageVoltage

ReferenceReference

Standby ManualStandby Manual(Future)(Future)



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HART Analog Output – New Detail Displays



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Low Level Inputs

• 64 Channel64 Channel Low Level Multiplexer Analog Input– Thermocouple (T/C) and RTD

• Initially, the Series C LLMUX will only use the New Solid State FTAs– Support for FTAs requiring the Power Adapter FTA will be provided in a

subsequent release

• With the new Solid State FTAs:– OTD before propagation of PV every 1 sec

– Does not require Power Adapter FTA

– Can be used with existing UCN/xPM installations

• With the existing FTAs:– OTD propagates every 30 sec

• FTAs will require standard FTA Channel and cannot be mounted on IOTA Carrier



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LLMUX Solutions

R300 SolutionR300 Solution Power Adapter Solution (Future)Power Adapter Solution (Future)

51304465-xxx Internal Cabinet Cable

LL IN-CABINET CONFIGURATION

B-Size

LLMUX ModelsMU/MC-TAMT04MU/MC-TAMR04MU/MC-TAMT14

FTA Assemblies must beinstalled in a cabinet.

CU/CC-TAIM01

VL/BS

LL TCMUX IOTA

PowerStatus

PMIO LLMUX

CC-PAIM01C

LLMUX ModelsMU/MC-TAMT03MU/MC-TAMR03MU/MC-TAMT13MU/MC-TAMT04MU/MC-TAMR04MU/MC-TAMT14

CU/CC-TAIM11

VL/BS

LL TCMUX IOTA

C

LL REMOTE CONFIGURATION

51304465-xxx Internal Cableor

Model MU-KLXxxx External Cabinet Cable[305 meters(1000 feet) Maximum Length]

A-Size

B-Size

FTA CableModel MU-KFTAxxx Internal FTA Cabinet Cable

orModel KFTSxxx External FTA Cabinet Cable

[50 meters (164 feet) MAximum Length]

FTA Assemblies must beinstalled in a cabinet or aNEMA 12 mounting box.

PowerStatus

CC-PAIM01

PMIO LLMUX

C

New FTAs Only (no Power Adapter)New FTAs Only (no Power Adapter) New or Existing FTAs(Requires Power Adapter)New or Existing FTAs(Requires Power Adapter)

Max. LengthMax. Length1000 ft.1000 ft.



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LLMUX Solutions, contd.


R300 SolutionR300 Solution Power Adapter Solution (Future)Power Adapter Solution (Future)


FusesFuses

IOLINKaddressing

IOLINKaddressing



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Digital Input

• 32 Channels• Two (2) Physical IOM Types

1. 24VDC Input – Common Ground (Non-Isolated)

2. 100VAC/120VAC/125VDC/240VAC(Isolated)

• Three (3) Physical IOTA Types1. 24VDC

2. 120VAC/125VDC

3. 240VAC

• Optionally Redundant• 100ms Loop Latency



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Digital Input, contd.

Internal Used with Honeywell’s 24v power supply

Pin 1 – external return

Pin 2 – external 24v

Pin 3 – internal return

Pin 4 – internal 24v

External Used with customer’s provided 24v power supply






Digital InputDigital InputI/O ModuleI/O Module




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Digital Input – New Detail Displays



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Digital Output

• 32 Channels• 24VDC Bussed Output• Relay Output

– 100VAC / 120VAC / 240VAC / 125VDC / 48VDC

– Utilizes Relay Extension Board

• Optionally Redundant• 100ms Loop Latency



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Digital Output, contd.


Digital OutputDigital OutputI/O ModuleI/O Module

Internal Used with Honeywell’s 24v power supply





External Used with customer’s provided 24v power supply








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Digital Output Module – with Relay Extender

Relay Extension PanelRelay Extension Panel

Digital Output IOTADigital Output IOTA



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Digital Output – New Detail Displays



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Series C I/O in Hazardous Areas

• Honeywell will initially work with MTL to manufacturer an IOTA for use wiring into hazardous locations (C1D1 / Zone 1)

• The IOTA will be larger than a standard IOTA (approximately 9” wide)

• 1-, 2- and 4-channel options will be available



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Series C I/O in Hazardous Areas, contd.

Non-RedundantNon-RedundantIOTA + IOMIOTA + IOM

RedundantRedundantIOTA + IOMIOTA + IOM

““Extended” Extended” IOTA Footprint IOTA Footprint

for ISfor IS

““Extended” Extended” IOTA Footprint IOTA Footprint

for ISfor IS

Standard Standard IOTA FootprintIOTA Footprint

Standard Standard IOTA FootprintIOTA Footprint

6.00”



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Series C I/O in Hazardous Areas, contd.

Cabinet Layout – Wide ChannelCabinet Layout – Wide Channel

• Supports mixture of IS and general purpose signals within same cabinet

• Cables are segregated using hazardous-area trunking

• High vertical packing density



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Process Manager I/O

• No separate IOLIM needed, connects directly to IOLink

• PM I/O includes AI, AO, DI, DO, RTD, T/C, DI SOE

• PM I/O can be redundant• FTA for I/O• Remote I/O using Fiber Optic

PM I/O

Direct connection to C300 IOLINK



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Honeywell DE Transmitters and C300

• Support is provided for Honeywell DE-based smart transmitters in C300 via existing PMIO modules:– Smart Transmitter Interface (STI)

– Smart Transmitter Interface – Multivariable (STI-MV)

• The Experion Platform provides full integration of all DE information (diagnostics, configuration, etc.) within the standard system displays

• No additional Asset Management software (e.g., Asset Manager PKS or Field Device Manager) is required to access the DE data



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FTE Bridge in Series C

• FTE Bridge, as part of a Series C system allows:– A C300 Controller to use selected

Series A chassis I/O (Serial, DeviceNet, Profibus, and Pulse Input modules) without the need for a C200

– A C300 to communicate (Exchange Block peer-to-peer) with Rockwell devices like PLC5 and CL5550 using a bridge chassis with a FTEB and downlink CNI

• The FTEB continues to operate at 10Mbps after updating firmware to support C300 communication with Series A Chassis I/O

• C200 with FTEB can be used for Peer to Peer with a C300 Controller



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Which of the following I/Os are available in a Series C type?

Question 3: Series C I/O

Incorrect. The I/O's available in a Series C type are DI, DO, HLAI,

HLAO and LL Inputs.



HLAO and LL Inputs.


Correct! The I/O's available in a Series C type are DI, DO, HLAI,

HLAO and LL Inputs.


Correct! The I/O's available in a Series C type are DI, DO, HLAI,

HLAO and LL Inputs.



HLAO and LL Inputs.



HLAO and LL Inputs.



HLAO and LL Inputs.



HLAO and LL Inputs.






Submit Clear

A) HLAI, HLAO, Profibus I/O, LL Inputs

B) DI, DO, HLAI, HLAO, LL Inputs

C) HLAI, HLAO, LL Inputs, Serial Interface

D) Serial Interface, DeviceNet, PulseInput, HLAI



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Which of the following scenarios are available for a FTEB to publish I/O data to a C300?

Question 4: FTEB in Series C

Incorrect. The valid scenario for FTEB to publish I/O data to C300 is " FTEB in a non redundant I/O chassis

connected to C300 via Control Firewall."





Correct! The valid scenario for FTEB to publish I/O data to C300 is " FTEB in a non redundant I/O chassis



Correct! The valid scenario for FTEB to publish I/O data to C300 is " FTEB in a non redundant I/O chassis













Submit Clear

A) FTEB in redundant chassis connected to C300

B) FTEB in a non-redundant chassis connected to C300 via Control Firewall

C) FTEB in a non-redundant chassis connected to C300 via L1 or L2 switch



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C300 I/O Compatibility I/O

Family I/O Type

C300 Support

C200 Support

xPM Support

HLAI HLAI w/ HART LLAI LLMUX RHMUX STI STI-MV AO8 AO16 AO16 w/ HART Serial Device Serial Pulse DI DI-24V DISOE DO16 DO32

PM

IO

Fieldbus I/O

Family I/O Type

C300 Support

C200 Support

xPM Support

HLAI w/ HART LLMUX64 AO16 w/ HART DI24D32

DI32 DO24D32 DO32

SE

RIE

S C

Fieldbus

I/O Family

I/O Type C300

Support C200

Support xPM

Support

HLAI16 HLAI6 HLAI8 w/ HART LLAI-TC6 LLAI-RTD6 AO6V AO6MA AO8 AO8 w/ HART Pulse (6I2O) DI120A16I DI220A16I DI120A8D DI120A16 DI24D16I DI24D16D DI24D32 DO220A16-Relay DO24D16I DO24D16D DO24D32 Serial Fieldbus Profibus DP

CH

AS

SIS

SE

RIE

S-A

DeviceNet



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C300 I/O Compatibility, contd.

I/O Family

I/O Type C300

Support C200

Support xPM

Support

HLAI DI24D DI120A LLAI-TC

LLAI-RTD AO DO24D DO120A

RA

IL -

S

ER

IES

A

DO-Relay

I/O Family

I/O Type C300

Support C200

Support xPM

Support

HLAI8 LLAI8 AO8 DI16

DO4

RA

IL –

S

ER

IES

H

DI16



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Conclusion

Describe Series C Input/Output Modules and Options





67April 17, 2023

Describe the IO Topology Rules for the Series C System

C300 Controller Architecture Describe the IO Topology Rules for the Series C System C300 Controller Architecture Describe the IO Topology Rules for the Series C System


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Series C IO Topology Rules

• I/O topology rules

– 2 IOLINKS

– PMIO and Series C I/O on same C300

– Connect select series A I/O using FTEB

– Connect Allen Bradley PLCs using FTEB

C300 Controller Architecture Describe the IO Topology Rules for the Series C System


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C300 Topology Rules – IO Capacity

A C300 can support a maximum of 64 IO Units (IOU)

Series C IO and PM IO count as 1 IOU each

Series C IO and PMIO are connected to C300 using IO LINKS

Series A I/O also consume IOUs, shown later



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C300 Topology Rules – IO Capacity, contd.

Each IO Link can support a maximum of 40 IOUs

A C300 controller supports 2 IOLINKs

An IOLINK can be configured for either Series C IO (at 750 kb link speed) or PMIO (at 375 kb link speed)

An IOLINK cannot support both Series C IO and PMIO on the same link



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Series C IO and PMIO mix

#1: Series C I/O TOTAL 64 IOUs

Link 1750 kbps

Link 2750 kbps

40 PRISeries C IOMs40 RED

Series C IOMs

24 PRISeries C IOMs

24 REDSeries C IOMs

#2: PMIO TOTAL 64 IOUs

Link 1375 kbps

Link 2375 kbps

24 PRIPM - IOPs

24 REDPM - IOPs

40 PRIPM - IOPs

40 REDPM - IOPs

#3: Series C +PMIO TOTAL 64 IOUs

Link 1750 kbps

Link 2375 kbps

40 PRISeries C IOMs40 RED

Series C IOMs

24 PRIPM - IOPs

24 REDPM - IOPs

#4: Series C +PMIO TOTAL 64 IOUs

Link 1375 kbps

Link 2750 kbps

40 PRIPM - IOPs

40 REDPM - IOPs

24 PRISeries C IOMs

24 REDSeries C IOMs



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A C300 can support up to 8 FTEBs for interfacing with supported Chassis I/O or AB PLC interface

FTEBs must be connected to the same Control Firewall as the C300

This limits the FTEBs to 6 per redundant C300 controller



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Each FTEB used to connect Series A IO can support up to 16 IOUs. The IOU count per module is

The FTEB used for Series A cannot be in a redundant configuration

Serial Interface 4 DeviceNet Interface 2

Profibus Interface 2 Pulse Input 1



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C300Capacity 3 – MIX #3 Link 1750 kbps

Link 2375 kbps

24 PRIPM-IOPs

24 REDPM-IOPs

24 PRISeries C IOMs 24 RED

Series C IOMs

16 Series A IO Units w/FTEBFTE

#5: Series C + PMIO + Series ATOTAL 64 IOUs

Pulse Input,Serial, DeviceNet,

and ProfiBus IOMs only

C300 Controller I/O Link Configurations



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Important limitations:

An FTEB connected chassis can allow connections to only 1 C300 controller

You cannot have any other C200, IO or CNI downlink modules in the FTEB chassis to connect to other IO chassis



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FTEBs can be used to connect AB PLCs for Peer to Peer, using Exchange Blocks.

A maximum of 32 exchange blocks, and a maximum of 8 PLCs can be connected

The interface uses Control Net to the AB PLCs and allows only the CNI, ENET or DHRIO

CNI, ENET or DHRIO only



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A Series C FIM can be used with or without the C300 controller

A FIM needs to connect to a C300 controller if a combined control strategy is needed

A FIM counts as 4 IOUs

A C300 controller can support 15 FIMs



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April 17, 2023


An Experion Server can support upto 125 FIMs

A FIM supports 4 H1 links, with 16 devices per link

Do the math: An Experion server can support 500 links, with a total of 8000 FieldBus devices!



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Question 1: IO Topology Rules

Correct! Series C, PM and Series A IO on the same IOLINK is not true for a Series C IO Topology. An IOLINK cannot support both Series C IO and PMIO on the same link. An

FTEB connected to the same Control Firewall as the C300 controller can publish Series A IO data to the C300.


Correct! Series C, PM and Series A IO on the same IOLINK is not true for a Series C IO Topology. An IOLINK cannot support both Series C IO and PMIO on the same link. An







Submit Clear

Which of the following statements is not true for Series C IO Topology Rules?

Incorrect. Series C, PM and Series A IO on the same IOLINK is not true for a Series C IO Topology. An IOLINK cannot support both Series C IO and PMIO on the same link. An


















A) Series C, PM and Series C A IO on the same IO Link

B) Series C and PM IO cannot be on the same IO Link

C) FTEB connected chassis can allow connections to only 1 C300 controller

D) Each FTEB used to connect Series A IO can support up to 16 IOUs



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Question 2: Topology Rules





Submit Clear

No. The correct statement is "No C300 controllers are required, only 24 Series C FIM Modules". Since the project requires only Fieldbus control strategy the C300 controller is not required. Each FIM Module has 4 FF links and each

link supports 16 FF devices. Hence 1 FIM module can support a maximum of 64 (16*4) FF devices. Hence only

24 (1500/64) Series C FIM Modules are required.














Yes! The correct statement is "No C300 controllers are required, only 24 Series C FIM Modules". Since the project requires only Fieldbus control strategy the C300 controller is not required. Each FIM Module has 4 FF links and each




Yes! The correct statement is "No C300 controllers are required, only 24 Series C FIM Modules". Since the project requires only Fieldbus control strategy the C300 controller is not required. Each FIM Module has 4 FF links and each




For a project it is required to use Fieldbus only control strategy for 1500 FF devices. How many C300 controllers are required?

A) 2 C300 Controllers + 24 FIM Modules

B) 1 C300 Controller + 48 FIM Modules

C) No C300 Controllers are required, only 24 Series C FIM Modules



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Question 3: Topology Rules

Incorrect. All of the above statements are correct for FTEBs used in the Series C topology.












Correct! All of the above statements are correct for FTEBs used in the Series C topology.


Correct! All of the above statements are correct for FTEBs used in the Series C topology.






Submit Clear

FTEBs can be used in the Series C topology under specific scenarios. Which of the these is true?

A) FTEB connected to AB PLC via Downlink CNI

B) FTEBs must be connected to the same Control Firewall as the C300

C) An FTEB connected chassis can allow connections to only 1 C300 controller

D) All of the above



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Summary

• There are 2 IOLINKS per C300 System– Mix and match of Series C I/O and PMIO is an option– Specific Series A I/O and AB PLC can be connected using FTEB– Same IOLINK cannot support both Series C and PM IO

• A C300 can support a maximum of 64 IO Units (IOU)– Each IO Link can support a maximum of 40 IOUs– A C300 can support up to 8 FTEBs for interfacing with supported Chassis I/O or AB

PLC interface– FTEBs must be connected to the same Control Firewall as the C300– Each FTEB used to connect Series A IO can support up to 16 IOUs– The FTEB used for Series A cannot be in a redundant configuration

• A Series C FIM can be used with or without the C300 controller

• A C300 controller can support 15 FIMs

• An Experion Server can support up to 125 FIMs



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Conclusion

Describe the I/O Topology Rules for the Series C System





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85April 17, 2023

Describe Fiber Optic Extender and its Connection Rules

C300 Controller Architecture Describe Fiber Optic Extender and its Connection Rules C300 Controller Architecture Describe Fiber Optic Extender and its Connection Rules


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• Overview• Series C I/O Link Fiber Optic Extender Module• Topology – Series C IOM, PM IOP• Topology Type – Daisy Chain, Star, Tree• Distance Limitation• Cabinet Layout• Specifications

Topics

C300 Controller Architecture Describe Fiber Optic Extender and its Connection Rules


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Overview

• C300 controller can now be connected remotely to Series C I/O or PMIO through the use of an I/O Link Fiber Optic Extender (FOE) module

• Same FOE cannot be used for Series C and PMIO connections, concurrently

• Each FOE can connect to two remote sites– Two fiber optic ports sets, FO1 and FO2

– Ports have both receive (Rx) and transmit (Tx)

• Mounting options– IOTA

– Din Rail

– Stand Alone

• Two types of IOLINK cables– PMIO

– Series C



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Series C I/O Link Fiber Optic Extender Module

IOLINK cable

COMMON

Fiber Optic Extender IOTA

LED Indicators

24V DC

Carrier Mounting Screws

Fuse

FOE to IOTA Mounting Screw FOE to IOTA

power connection

Fiber Optic ports

I/O Link Connector



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Topology – Series C IOM

Star

Series C IOM

Daisy chain

Series C IOM

Tree (Star + Daisy chain)

Series C IOM

• Configuration possible are

C300

IOM

IOM

Remote Site A

Remote Site B

1.5 KmMax.

1.5 Km Max.

4 KM Max. (requires IOLE every 1.5 km)

Fiber Optic Cable

IO LinkCable



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Topology – PM IOP

C300

PM IOPWith IOLink Extender IOP

Remote Site BRemote Site A

PM IOPWith IOLink Extender IOP

1.5 Km Max.

1.5 KmMax.

10 Km Max.(requires

IOLE every 1.5 Km)

1.5 KmMax.

IOLink Extender pair MC-IOLX02

Fiber Optic Cable

IO LinkCable



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April 17, 2023

Topology Type – Daisy Chain

Remote Site 2

C300

FOE

IOM

Fiber Optic Cable

IO LinkCable

Remote Site 1

MainLocation



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April 17, 2023

Topology Type – Star

• It is possible to have multiple fiber-optic extenders in any location, provided distance limitations are observed and no more than 40 IOMs on a single I/O Link

Remote Site 1

Remote Site 2

Remote Site 3

Remote Site 4

FOE

IOM

Fiber Optic Cable

IO LinkCable

MainMainLocationLocation



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Topology Type – Tree

C300

IOM

IOM

FOE

Fiber Optic Cable

IO LinkCable

Fiber1

Fiber2

Fiber3

Fiber1

Fiber2

Fiber3Remote Site 2

Remote Site 1

MainLocation



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Distance Limitations

• Maximum distance of any single fiber-optic segment must be less than 1.5 km d1, d2, d3, d4 <= 1.5 km

• Maximum distance of any single “leg” must be less than 4.0 km. In above figure, 0.25 + d1 + 0.25 <= 4.0 km 0.25 + d2 + 0.25 + d3 + 0.25 + d4 + 0.25 <= 4.0 km

MainLocation

RemoteSite#2

RemoteSite#3

RemoteSite#4

RemoteSite#1d1

d2

d3

d4

IOM IOM

IOM

IOM

C300

IOM



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Distance Limitations (Example)

• The connections shown in figure above will work because, – d1(1.5), d2(1.0), d3 (1.0), d4(1.0) <= 1.5 km

– 0.25 + d1(1.5) + 0.25 = 2.0 <= 4.0 km

0.25 + d2(1.0) + 0.25 + d3(1.0) + 0.25 + d4(1.0) + 0.25 = 4.0 <= 4.0 km

d1 = 1.5 km

d2 = 1.0 km

d3 = 1.0 km

d4 = 1 km

IOM

IOM IOMIOM

C300

MainLocation

RemoteSite#2

RemoteSite#3

RemoteSite#4

RemoteSite#1

IOM



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Distance Limitations (Example), contd.

• The connections shown in above figure will not work because, – d1(2.0) which is not <= 1.5 km

– 0.25 + d2(1.5) + 0.25 + d3(1.5) + 0.25 + d4(1.0) + 0.25 = 5.0 km

which is not <= 4.0 km

d1 = 2.0 km

d2 = 1.5 km

d3 = 1.5 km

d4 = 1 km

IOM

IOM IOM

IOM

IOM

C300

MainLocation

RemoteSite#2

RemoteSite#3

RemoteSite#4

RemoteSite#1



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April 17, 2023

Cabinet Layout

FOE – A I/O Link

Extender for Link A

FOE – B I/O Link

Extender for Link B

FOE can use either Violet or Grey IOL

C300 Controller

Control Firewall

Digital Input Card



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April 17, 2023

Specifications• Power Supply Options

– 20 to 30V @ 200mA

• Distance– Segment distance: 1.5 Km– Total maximum IOLink length

• Series C IO: 4 Km• PM IO: 10 Km

– Propagation delay: each IOLE fiber optic converter subtracts a certain value from the total IOLink length

• Series C IO: 0.25 Km per FOE• PM IO: 0.5 Km per FOE

• Fiber-Optic– Fiber type: Multimode– Fiber core diameter: 62.5 mm– Fiber cladding diameter: 125 mm– Fiber connectors: ST type– Power budget: 8 db min, 15 db typical



99April 17, 2023

Describe the Control Firewall Connections in the Series C System

C300 Controller Architecture Describe the Control Firewall Connections in the Series C System C300 Controller Architecture Describe the Control Firewall Connections in the Series C System


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Overview

• Topology rules pertaining to the Control Firewall

• Overview of FTE limits

C300 Controller Architecture Describe the Control Firewall Connections in the Series C System


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C300 Topology Rules – Control Firewall

C300, Series C FIMs must be connected to the Control Firewall.

The C300 and any FTEBs assigned to it must be on the same control firewall

No other device, such as FTEB for C200, Ethernet PLCs, Stations or Servers, can connect to the Control Firewall



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C300 Topology Rules – Control Firewall, contd.

The Control Firewall is connected by uplink to a L1 or L2 switch. Connections can be Fiber Optic or STP Cable.

Fiber Optic: 2 KM multi mode or 15 KM single mode. STP cable: CAT 5 up to 100 M

Control Firewalls cannot be cascaded



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How Many FTE Nodes Do You Have?

• An FTE Community can have no more than 330 FTE Nodes calculated as follows:

– Max. 125 Redundant FIMs per Server = 125 x 2 = 250

– Max. 16 Redundant C300s per Server = 16 x 2 = 32

– Max. 40 Stations = 40

– Max. 1 Redundant Server = 2

– Max. 5 ACE = 5

– GRAND TOTAL: 329

• If any FTEBs are present in the Community, the limit is 200 FTE Nodes

• Embedded FTE used in C300 and Series C FIM is at the MAC level, and therefore “yellow” and “green” have same IP address

• Servers and Workstations require one IP address per NIC port



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Question 1: Control Firewall

Correct - Click anywhere to continue

Correct - Click anywhere to continue

Incorrect - Click anywhere to continue

Incorrect - Click anywhere to continue

You answered this correctly!

You answered this correctly!


You did not answer this question completely

You did not answer this question completely



Submit Clear

Incorrect. FTEB for C200 controller is not a valid device to connect to Control Firewall. No device such as FTEB for

C200, Ethernet PLCs, Stations or Servers, can connect to the Control Firewall

















Correct! FTEB for C200 controller is not a valid device to connect to Control Firewall. No device such as FTEB for



Correct! FTEB for C200 controller is not a valid device to connect to Control Firewall. No device such as FTEB for



Which of the following is not a valid connection to a Control Firewall?

A) Series C FIM

B) C300 Controller

C) FTEB for specific Series A IO

D) FTEB for C200



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Summary

• C300 and Series C FIM must be connected to the Control Firewall– No other device, such as FTEB for C200, Ethernet PLCs, Stations or

Servers, can connect to the Control Firewall

• C300 and FTEB (for specific Series A IO and AB devices) associated to it must be on the same Control Firewall

• The Control Firewall is connected by uplink to a L1 or L2 switch

• Control Firewalls cannot be cascaded



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Describe the Control Firewall connections in the

Series C System





107April 17, 2023

Define a Typical Series C Configuration

C300 Controller Architecture Define a Typical Series C Configuration C300 Controller Architecture Define a Typical Series C Configuration


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Putting the Pieces Together

C300 Controller Architecture Define a Typical Series C Configuration


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A C300 Controller has PM IO connected to both IOLINKs. Some of the data is obtained from a remote monitoring system 5 km from the C300 cabinet. Which of the following is the correct option?

Question 1: Connectivity

Correct! To get data from the remote vibrating monitoring system extend the PM IO using IO

Link Extender.


Correct! To get data from the remote vibrating monitoring system extend the PM IO using IO

Link Extender.


Incorrect. To get data from the remote vibrating monitoring system extend the PM IO

using IO Link Extender.















Submit Clear

A) Extend the PM IO using IO Link Extender

B) Series C FIM

C) Series C IO



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April 17, 2023

Summary

• C300 controllers, Series C FIM, and FTEB for Series A IO are connected to the Control Firewall

• Series C and PM IO are connected to the C300 controller by the two IOLINKs on C300 Controller IOTA– Series C and PM IO cannot be mixed on the same IOLINK

• Remote PMIO is implemented using the PM IO Link Extender

• C300 can be associated to Series A IO directly via FTEB only when Profibus, DeviceNet, Serial Interface and Pulse Input modules are required



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Define a Typical Series C Configuration



Conclusion



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03 20r300 1 c300 controller architecture

Documents