Rockwell Automation ControlLogix 1756 Series Selection Manual
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Rockwell Automation ControlLogix 1756 Series Selection Manual

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ControlLogix
Selection
Guide
1756-L55, 1756-L61, 1756-L62,
1756-L63, 1756-L60M03SE

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Summary of Contents for Rockwell Automation ControlLogix 1756 Series

  • Page 1 ControlLogix Selection Guide 1756-L55, 1756-L61, 1756-L62, 1756-L63, 1756-L60M03SE...
  • Page 2 Logix Controllers Comparison PowerFlex 700S ® with Common Characteristics 1756 ControlLogix™ 1769 CompactLogix™ 1789 SoftLogix5800™ 1794 FlexLogix™ DriveLogix ! 1769-L35E: 8 tasks ! 1769-L32E: 6 tasks ! 32 tasks (only 1 ! 1769-L31: 4 tasks ! 8 tasks (only 1 ! 32 tasks (only 1 ! 8 tasks (only 1 controller tasks:...

  • Page 3: Table Of Contents

    Logix Platforms Allen-Bradley Logix platforms provide a single integrated control architecture for discrete, drives, motion, and process control. The Logix platforms provide a common control engine, programming software environment, and communication support across multiple hardware platforms. All Logix controllers operate with a multitasking, multiprocessing operating system and support the same set of instructions in multiple programming languages.

  • Page 4: Controllogix System Overview

    ControlLogix The ControlLogix ® system provides sequential, process, motion, and drive control together with communications and state-of-the-art I/O in a small, cost-competitive System Overview package. The system is modular, so you can design, build, and modify it efficiently - with significant savings in training and engineering. A simple ControlLogix system What’s New in Version 13: consists of a stand-alone controller and I/O modules in a single chassis.

  • Page 5: Layout The System

    Layout the System Lay out the system by determining the network configuration and the placement of components in each location. Decide at this time whether each location will have its own controller. Place each controller’s I/O on an isolated network to maximize the performance and to more easily accommodate future network or system configuration changes.
  • Page 6 Laying out a redundant system The ControlLogix environment offers different levels of redundancy that you can design into your system. These systems require additional hardware, so plan accordingly. You can design redundant: media for ControlNet power supplies controller chassis Redundant ControlNet media Requires: 1756-CNBR ControlNet modules two identical ControlNet links...
  • Page 7 Requires: one or two 1756-L55 controllers or one 1769-L6x controller in each redundant chassis (contact your Rockwell Automation representative for the specific firmware revision) at least one, but no more than five, 1756-CNB(R) series D, version 5.23 (or greater) communication modules in each redundant chassis...
  • Page 8 Use the following checklist as a guide to completing your own system specification. The inside of the back cover of this selection guide is a worksheet you can use to record your selections. Step Select I/O devices I/O module specifications page 8 Use a spreadsheet to record: Wiring systems...

  • Page 9: Selecting Controllogix I/O Modules

    Step 1 - Select: Selecting ControlLogix I/O modules - some modules have field-side I/O Modules diagnostics, electronic fusing, or individually isolated inputs/outputs a remote terminal block (RTB) or wiring system for each I/O module PanelConnect modules and cables if The ControlLogix architecture provides a wide range of input and output modules to connecting input modules to sensors span many applications, from high-speed discrete to process control.
  • Page 10 Digital ac input modules Removable Voltage, On- Input Delay Current, On- Current, On- Current, Off- Terminal Backplane Backplane Power Number of State Input, Operating Time, ON to State Input, State Input, State Input, Block Current (mA) Current (mA) Dissipation, Cat. No. Inputs Nom.
  • Page 11 Digital dc input modules Removable Voltage, On- Input Delay Current, On- Current, On- Current, Off- Terminal Backplane Backplane Power Number of State Input, Operating Time, ON to State Input, State Input, State Input, Block Current Current Dissipation, Cat. No. Inputs Nom.
  • Page 12 Digital dc output modules Output Current Output Current Removable Backplane Backplane Power Number of Voltage Operating Rating, per Rating, per Terminal Block Current (mA) at Current (mA) at Dissipation, Cat. No. Outputs Category Voltage Point, Max. Module, Max. Housing Max. 12/24V dc 1756-TBNH 1756-OB8...
  • Page 13 1756 Analog I/O The 1756 analog I/O modules support: on-board data alarming Modules scaling to engineering units real-time channel sampling IEEE 32-bit floating point or 16-bit integer data formats Removable Backplane Backplane Number of Input Resolution, Sensors Terminal Block Current (mA) at Current (mA) at Power Cat.
  • Page 14 1756 Specialty I/O 1756-CFM configurable flow meter Modules The 1756-CFM module provides totalizer mode for metering applications, or high- speed frequency measurements for speed or rate control applications, on two channels connected to flowmeters. Both Fill and Prover functions are supported within resettable or nonresettable totalizer mode.
  • Page 15 1756-HSC high speed counter The 1756-HSC module provides 4 high-speed, output-switching, ON-OFF windows. The module uses pulses for counting and frequency. The module interfaces with pulse devices and encoders, such as: photoswitch series 10,000 photoelectric sensors bulletin 872 3-wire DC proximity sensors bulletin 845 incremental encoders The 1756-HSC module can update data every 2ms.
  • Page 16 1756 Removable Removable terminal blocks (RTBs) provide a flexible interconnection between your plant wiring and 1756 I/O modules. The RTB plugs into the front of the I/O module. Terminal Blocks The type of module determines which RTB you need. You choose screw-clamp or spring-clamp RTBs.
  • Page 17 Feed through IFMs for 20-pin 1756 digital I/O modules Cat. No. Description IA8D IA16 IB16 IC16 IN16 OA8D OA8E OA16 OA16E OB16E 1492-IFM20F standard 1492-IFM20FN narrow standard 1492-IFM20F-2 extra terminals 3-wire sensor type input 1492-IFM20F-3 devices feed through expander with 1492-XIMF-2 eight feed-through channels Find the column for the digital I/O module.
  • Page 18 Fusible IFMs for 20-pin 1756 digital I/O modules Cat. No. Description IA8D IA16 IB16 IC16 IN16 OA8D OA8E OA16 OA16E OB16E 1492-IFM20F-F-2 extra terminals for outputs extra terminals with 24V 1492-IFM20F-F24-2 ac/dc blown fuse indicators for outputs extra terminals with 120V ac 1492-IFM20F-F120-2 blown fuse indicators for outputs...
  • Page 19 Feed through IFMs for 36-pin 1756 digital I/O modules Cat. No. Description IA16I IB16D IB16I IB32 IH16I IM16I OA16I OB8EI OB16D OB16E OB16I OB32 OH8I OW16I OX8I 1492-IFM40F standard 1492-IFM40F-2 extra terminals 3-wire sensor type input 1492-IFM40F-3 devices expander with eight feed- 1492-XIMF-2 through channels Find the column for the digital I/O module.
  • Page 20 Fusible IFMs for 36-pin 1756 digital I/O modules Cat. No. Description IA16I IB16D IB16I IB32 IH16I IM16I OA16I OB8EI OB16D OB16E OB16I OB32 OH8I OW16I OX8I 1492-IFM40F-F-2 extra terminals for outputs extra terminals with 24V 1492-IFM40F-F24-2 ac/dc blown fuse indicators for outputs extra terminals with 120V 1492-IFM40F-F120-2...
  • Page 21 Relay IFMs for 36-pin 1756 digital I/O modules Cat. No. Description IA16I IB16D IB16I IB32 IH16I IM16I OA16I OB8EI OB16D OB16E OB16I OB32 OH8I OW16I OX8I 40-pin master with eight 24V 1492-XIM4024-8R dc relays 40-pin master with sixteen 1492-XIM4024-16R 24V dc relays expander with eight 24V dc 1492-XIM24-8R relays...
  • Page 22 AIFMs for 1756 analog input modules Descripti IF6I IF6I IF8 single-end IF8 differential IF16 single-end IF16 differential Type of current voltage voltage current voltage current voltage current voltage current Cat. No. AIFM IR6I IT6I 4 channels feed with 3 1492-AIFM4-3 through terminals/c hannel...
  • Page 23 AIFMs for 1757 analog I/O modules Cat. No. Type of AIFM Description 1492-AIFMPI-3 fusible 8 input/output channels The letter code for this AIFM is M. Use the letter code M to find the compatible cable in the following table for analog pre-wired cable. The letter code must match the last character of the catalog number for the cable. Pre-wired cables for analog I/O modules Cat.
  • Page 24 1492 PanelConnect A PanelConnect module and its sensor connection systems lets you connect as many as 16 sensors directly to 16-point input modules using convenient pre-built cables Modules for and connectors. Connecting Sensors The PanelConnect module mounts on the enclosure and creates the correct seal for the entry of the sensor connections.
  • Page 25 Placing The producer/consumer model multicasts messages. This means that multiple nodes can consume the same data at the same time from a single device. Where you place ControlLogix I/O I/O modules in the control system determines how the modules exchange data. Modules If the I/O module is: And you place the module here:...
  • Page 26 How ControlLogix In a ControlLogix system, I/O updates occur asynchronous to the execution of logic. This lets your application receive updated data as soon as possible. If your application Modules Operate needs synchronous I/O updates, use the synchronous copy (CPS) instruction to buffer I/O data at the beginning of each scan.

  • Page 27: Selecting Motion Control Requirements

    ! Motion Book to size your motion application and to make final component selection. Motion Book is available on The Automation Bookstore (www.theautomationbookstore.com) and the Rockwell Automation motion website (www.ab.com/motion/software/motion_book.html) ! the Motion Control Selection Guide, publication GMC-SG001, to verify drive, motor, and accessory specifications 1756-SG001G-EN-P —...
  • Page 28 The controller can control these servo drives through these motion interfaces: If your application requires: Select this motion interface: ! 1756-M16SE (16 axes) ! 1756-M08SE (8 axes) ! Rockwell Automation SERCOS interface drives ! 1756-M03SE (3 axes) ! 1756-L60M03SE (3 axes) ! analog command signal 1756-M02AE...
  • Page 29 SERCOS Interface The SERCOS interface servo modules serve as a link between the ControlLogix platform and intelligent, servo drives. SERCOS is the IEC 61491 SErial Real-time Modules COmmunication System protocol over a fiber optic medium. The SERCOS interface is an open, controller-to-digital drive interface designed for high-speed, real time, serial communications using noise-immune, fiber-optic cables.
  • Page 30 Cables for Use with Select one of these fiber optic cables to connect the SERCOS interface module to the drive: the SERCOS Interface Modules Cat. No. Description Plastic Fiber Optic Cables ✶ 1000 µm plastic simplex fiber optic cable transmission range of 1-32 meters. Allen-Bradley offers plastic, fiber-optic cable assemblies that come in a 2090-SCEPx-x (no jacket) variety of jackets:...
  • Page 31 Analog Interface The ControlLogix family of analog servo modules is a cost effective option for closed- or open-loop motion control of devices that support an analog interface. The analog Modules servo modules provide an ±10 volt analog output command reference and support a variety of different position feedback devices.
  • Page 32 Number of Axes, per Number of Axes, per Backplane Current (mA) Backplane Current (mA) Removable Terminal Cat. No. Module, Max. Controller, Max. Power Dissipation at 5V at 24V Block Housing 1756-TBCH 1756-M02AE 5.5 W 700 mA 2.5 mA 1756-TBS6H✶ 1756-TBCH 1756-HYD02 5.5 W 700 mA...

  • Page 33: Selecting Network Communications

    You do not need a ControlLogix controller in the chassis. NetLinx Open Network Architecture NetLinx Open Network Architecture is the Rockwell Automation strategy of using open networking technology for seamless, top-floor to shop-floor integration. The networks in the NetLinx architecture – DeviceNet, ControlNet, and EtherNet/IP – speak a common language and share a universal set of communication services.
  • Page 34 Selecting a network You can configure your system for information exchange between a range of devices and computing platforms and operating systems. If your application requires: Use this network: Select: plant management (material handling) configuration, data collection, and control on a single, high-speed network 1756-ENBT EtherNet/IP network...
  • Page 35 EtherNet/IP Network Ethernet Industrial Protocol (EtherNet/IP) is an open industrial networking standard that supports both real-time I/O messaging and message exchange. It emerged due to the high demand for using the Ethernet network for control applications. EtherNet/IP uses off-the-shelf Ethernet communication chips and physical media. Because Ethernet technology has been used since the mid 1970s and is widely accepted throughout the world, Ethernet products serve a large community of vendors.
  • Page 36 Ethernet interfaces Select the appropriate Ethernet interface: If your application does this: Select this interface: Description: controls I/O modules The EtherNet/IP communication module: requires an adapter for disibuted I/O on control I/O over an EtherNet/IP network EtherNet/IP links acts as an adapter for disitributed I/O on 1756-ENBT communicates with other EtherNet/IP remote EtherNet/IP links...
  • Page 37 The ControlNet network is an open, state-of-the-art control network that meets the ControlNet Network demands of real-time, high-throughput applications. The ControlNet network uses the proven Common Industrial Protocol (CIP) to combine the functionality of an I/O network and a peer-to-peer network providing high-speed performance for both functions.
  • Page 38 Redundant controller systems via ControlNet You can build a redundant controller system around a ControlNet network. In each redundant controller chassis, you can have: one or two 1756-L55 controllers or one 1756-L6x controller in each redundant chassis at least one, but no more than five, 1756-CNB(R) series D, version 5.23 (or greater) communication modules in each redundant chassis one 1757-SRM module in each redundant chassis the redundant chassis can contain a 1756-ENBT communication module, but no...
  • Page 39 Make sure that your ControlNet network contains at least two nodes in addition to the redundant chassis pair. And additional node can be: a second 1756-CNBR module in the same remote chassis or in a different remote chassis any ControlNet device a workstation running RSLinx software 1757-SRM redundancy module The 1757-SRM redundancy module provides high-speed data transfers between the...
  • Page 40 DeviceNet Network The DeviceNet network is an open low-level network that provides connections between simple industrial devices (such as sensors and actuators) and higher-level devices (such as PLC controllers and computers). The DeviceNet network uses the proven Common Industrial Protocol (CIP) to provide the control, configure, and data collection capabilities for industrial devices.
  • Page 41 DH+ and Universal The DH+ and remote I/O module supports messaging between devices on DH+ networks. The remote I/O functionality enables the module to act as a scanner for Remote I/O transferring discrete and block-transfer data to and from remote I/O devices. Networks Power Dissipation, Backplane Current...
  • Page 42 Foundation Foundation Fieldbus™ is a communications network created by the Fieldbus Foundation. It is a protocol designed for robust, distributed control of process control Fieldbus Network applications. Devices connected by a Foundation Fieldbus network can be used for sophisticated, highly-distributed process control. Select the appropriate Foundation Fieldbus interface: If your application bridges to Foundation Fieldbus...
  • Page 43 Use a 1756-CP3 cable to connect to the serial port. Over the serial port, the ControlLogix controller supports 12 message buffers. At most, you can have 4 simultaneous connected messages and 8 simultaneous unconnected messages. Or if all the messages are unconnected, you can have 12 simultaneous messages.
  • Page 44 DH-485 Network On the DH-485 network, the controller can send and receive messages to and from other controllers on the network. The DH-485 connection does support remote programming and monitoring via RSLogix 5000 software. However, excess traffic over a DH-485 connection can adversely affect overall performance and can lead to timeouts and loss in RSLogix 5000 configuration performance.
  • Page 45 SynchLink SynchLink provides time synchronization and data broadcasting capabilities for distributed motion and coordinated drive control. 1756-SYNCH SynchLink module The 1756-SYNCH SynchLink module connects a ControlLogix chassis to a SynchLink fiber optic communications link. The module: coordinates CST time across multiple ControlLogix chassis moves limited amount of data from one chassis to another at a high speed lets one controller consume motion axes data from a controller in another chassis Power Dissipation,...
  • Page 46 1756-DMxxx module The 1756-DM drive module lets you update and retrofit Reliance distributed power system (DPS) installations to ControlLogix-based systems. Each drive module interfaces with an individual Power Module Interface (PMI) chassis. You can also use the 1756-DM to modernize existing power bridges from analog to digital control. Cat.
  • Page 47 56AMXN AutoMax The 56AMXN module connects a ControlLogix system to an AutoMax DCS network or to an AutoMax Remote I/O network. The traditional Reliance Electric Systems solution Network and is based on an AutoMax controller and architecture. DCSNet is the main RE Remote I/O communications, data, and control network or “backbone”.
  • Page 48 Accessing the Remote access dial-in kits let you connect via modem to a remote site’s network and controller. Once connected, you can monitor the process, collect data, and make Controller Remotely program changes remotely. Each remote access dial-in kit includes: pre-configured modem communication module DIN rail mounting hardware...

  • Page 49: Selecting Controllers

    Step 4 - Select: Selecting Controllers a controller with sufficient memory memory board for each 1756-L55 controller 1756-BATM for larger memory size 1756-L55 controllers and all 1756-L6x controllers replacement batteries The ControlLogix controller provides a scalable controller solution that is capable of addressing a large amount of I/O points (128,000 digital maximum / 4000 analog maximum).
  • Page 50 ControlLogix Controllers Memory Power Dissipation, Thermal Dissipation, Backplane Current Backplane Current Cat. No. Data and Logic I/O† Nonvolatile Memory Max. Max. (mA) at 5V (mA) at 24V 1756-L55M12 750 K bytes 208 Kbytes 5.6 W 19.1 BTU/hr 1.23 A 0.014 A 1756-L55M13 1.5 Mbytes 208 Kbytes...
  • Page 51 Determining The following equations provide an estimate of the memory needed for a controller. These numbers are rough estimates. Memory Requirements _____ bytes Controller tasks _____ * 4000 (minimum 1 task) Digital I/O points _____ * 400 _____ bytes Analog I/O points _____ * 2600 _____ bytes Communication modules...
  • Page 52 Determining Battery Each controller ships with a 1756-BA1 battery. An externally mounted, higher-capacity battery module is also available (1756-BATM). Requirements Cat. No. Description Estimated Worst Case Battery Life @ 25C with 1756-L55M12: 63 days with 1756-L55M13: 63 days Lithium battery (0.59g) installed in each ControlLogix controller. 1756-BA1 with 1756-L55M14: 30 days Order only if you need a replacement.
  • Page 53 Controlling Devices The ControlLogix controller can control these devices: I/O Modules EtherNet/IP ControlNet DeviceNet Universal Remote I/O 1756 ControlLogix I/O 1794 FLEX I/O 1793 FLEX Integra I/O 1797 FLEX Ex I/O 1734 POINT I/O 1734D POINT Block I/O 1769 Compact I/O 1790 Compact LDX I/O 1791 Block I/O 1791D CompactBlock I/O...
  • Page 54 Communicating with The ControlLogix system takes advantage of several networks to allow communications with many different controllers and devices. The following table Other Controllers lists which products the ControlLogix controller can communicate with over which and Communication networks. Devices Controller EtherNet/IP ControlNet DeviceNet...
  • Page 55 Communicating The ControlLogix system takes advantage of several networks to allow communications with many different drives, both motion (servo) drives and standard with Drives drives. The following table lists which drives the ControlLogix controller can communicate with over which networks. Motion (Servo) Drives EtherNet/IP ControlNet...
  • Page 56 How a Logix A Logix controller uses three types of tasks. Use the following table to choose the appropriate type of task for each section of your logic. System Uses Tasks If you want to execute a section of your logic: Then use this type of task: Description:...
  • Page 57 To use a device to trigger an event task, the device must support event task triggering. If the device is in a remote location, the associated communication modules must also support event triggering. These devices support input events: Category Modules 1756-IA8D 1756-IA16 1756-IA16I...
  • Page 58 Estimating event task throughput To estimate the throughput time from input to output (screw to screw), use the following worksheet: Value (in µ µ s): Consideration: 1. What is the input filter time of the module that triggers the event task? This is typically shown in milliseconds, Convert it to microseconds (µs).
  • Page 59 How a Logix A Logix system uses a connection to establish a communication link between two devices. Connections can be: System Uses controller to local I/O modules or local communication modules Connections controller to remote I/O or remote communication modules controller to remote I/O (rack optimized) modules produced and consumed tags messages...
  • Page 60 Determining The controller supports the ability to produce (broadcast) and consume (receive) system-shared tags over ControlNet or EtherNet/IP networks. Produced and consumed Connections for tags each require connections. Over ControlNet, produced and consumed tags are Produced and scheduled connections. Consumed Tags This type of tag: Requires these connections: A produced tag allows other controllers to consume the tag, which means that a controller can receive the...
  • Page 61 Determining Messages transfer data to other devices, such as other controllers or operator interfaces. Some messages use unscheduled connections to send or receive data. Connections for These connected messages can leave the connection open (cache) or close the Messages connection when the message is done transmitting. The following table shows which messages use a connection and whether or not you can cache the connection: This type of message: Using this communication method:...
  • Page 62 Depending on the type of I/O modules, both direct connections and rack-optimized connections can be used. I/O System Supported Connection Type(s): 1756 basic digital I/O in a local chassis direct connection direct connection digital I/O in a remote chassis via ControlNet rack-optimized connection analog I/O either in a local chassis or in a remote chassis via direct connection...
  • Page 63 In this example system the 1756 ControlLogix controller: Connections controls local (in the same chassis) digital I/O modules Example controls remote I/O devices on DeviceNet sends and receives messages to/from the 1769-L35E CompactLogix controllers on EtherNet/IP produces one tag that the the 1794 FlexLogix controller consumes is programmed via RSLogix 5000 programming software The 1756 ControlLogix controller in this example uses these connections: Connection Type...
  • Page 64 Determining Total The ControlLogix controller supports 250 connections. To calculate the total connections for a controller, consider the connections to local I/O modules and the Connection connections to remote modules. Requirements Use the following table to tally local connections: Connections per Connection Type Device Quantity Device...

  • Page 65: Selecting Chassis

    Step 5 - Select: Selecting Chassis a chassis with sufficient slots 1756-N2 filler strips for empty slots The ControlLogix system is a modular system that requires a 1756 I/O chassis to contain the various modules. Chassis are available in sizes of 4, 7, 10, 13, and 17 module slots.
  • Page 66 When you mount a chassis in an enclosure, make sure to meet these minimum spacing requirements: Mounting dimensions right-side view of all chassis 1756-A4 with power supply 1756-SG001G-EN-P — March 2004...
  • Page 67 1756-A7 with power supply 1756-A10 with power supply 1756-SG001G-EN-P — March 2004...
  • Page 68 1756-A13 with power supply 1756-A17 with power supply 1756-SG001G-EN-P — March 2004...

  • Page 69: Selecting Power Supplies

    Step 6 - Select: Selecting Power Supplies one power supply for each chassis a power supply bundle if you are planning a redundant power supply system ControlLogix power supplies are used with the 1756 chassis to provide 1.2V, 3.3V, 5V, and 24V dc power directly to the chassis backplane. Non-redundant (1756-PA72, -PB72, -PA75, -PB75) and redundant (1756-PA75R, -PB75R) power supplies are available.
  • Page 70 Selecting a redundant power supply To build a redundant power supply system, you need: two redundant power supplies (both 1756-PA75R or 1756-PB75R) one 1756-PSCA2 chassis adapter module two 1756-CPR2 cables to connect the power supplies to the 1756-PSCA2 chassis adapter module (3 ft length) user-supplied annuniciator wiring to connect the power supplies to the input modules, as needed Power Supplies...
  • Page 71 Power Each ac-input power supply generates a shutdown signal on the backplane whenever the ac line voltage drops below its lower voltage limit. It removes the shutdown signal Requirements and when the line voltage comes back up to the lower voltage limit. This shutdown is Transformer Sizing necessary to help ensure that only valid data is stored in memory.
  • Page 72 Power load and transformer sizing 1756-SG001G-EN-P — March 2004...

  • Page 73: Selecting Software

    Step 7 - Select: Selecting Software the appropriate package of RSLogix 5000 Enterprise Series software and any options other software packages for your application Your selection of modules and network configuration determines what software packages you need to configure and program your system. If you have a: You need: Order this catalog number:...
  • Page 74 Programming RSLogix 5000 Enterprise Series software is designed to work with Rockwell Automation’s Logix platforms. RSLogix 5000 Enterprise Series software is an IEC Software 61131-3 compliant software package that offers relay ladder, structured text, function block diagram, and sequential function chart editors for you to develop application programs.
  • Page 75 Selecting the programming package Standard/ Service Edition NetWorx Edition Professional 9324- Mini Edition 9324- Lite Edition 9324- Standard Edition 9324- Full Edition 9324- Edition 9324- Available Features RLD000xxE † RLD200xxE RLD250xxE 9324-RLD300xxE RLD300NXxxE RLD600xxE ‡ RLD700NXxxE CompactLogix5300 CompactLogix5300 Logix5000 controllers supported FlexLogix5400 FlexLogix5400 Relay ladder editor§...
  • Page 76 RSLinx Software RSLinx software (9355 series) is a communication server package that provides plant- floor device connectivity for a wide variety of applications. RSLinx can support multiple software applications simultaneously communicating to a variety of devices on many different networks. RSLinx provides a user-friendly graphical interface for navigating through your network.
  • Page 77 RSNetWorx software is the configuration tool for your control network. With Network RSNetWorx software you can create a graphical representation of your network Configuration configuration and configure the parameters that define your network. Software Use RSNetWorx for: ControlNet to schedule network components. The software automatically calculates network bandwidth for the entire network, as well as the bandwidth used by each network component.
  • Page 78 RSLogix Emulate RSLogix Emulate 5000 (9310-WED200ENE) is the software emulation package for the Logix5000 controllers. RSLogix Emulate 5000 used in conjunction with RSLogix 5000 Software 5000 software lets you run and debug your application code while at your computer. In addition, RSLogix Emulate 5000 also lets you test HMI screens, developed in RSView for example, without the need to connect to a real controller.
  • Page 79 Logix-Based Rockwell Automation offers several different levels of training for your Logix system. While most of these training aids are ControlLogix specific, the lessons and tools also Training apply to the other Logix platforms. instructor-led courses computer-based training workstation simulator...
  • Page 80 ControlLogix workstation simulator The ControlLogix workstation simulator (ABT-TDCL1) is an engineering support tool that you can integrate into your training and development programs. The simulator helps you perform sequential, process, drive control, and motion control. This simulator is also used with most of the available instructor-led course. The simulator includes: network hardware (ControlNet, DH+) control hardware (controller, power supply, digital I/O modules, analog I/O...
  • Page 81 ViewAnyWare ViewAnyWare products, together with Logix for control and NetLinx architecture for communication, make up Rockwell Automation’s Integrated Architecture strategy. The ViewAnyWare strategy combines Rockwell Automation’s expertise in Allen-Bradley electronic operator interface and industrialized PC hardware with Rockwell Software’s supervisory control software. Current ViewAnyWare products include: RSView Enterprise Series™...
  • Page 82 PanelView Plus operator interface PanelView Plus is ideal for applications with a need to monitor, control, and display information graphically, allowing operators to quickly understand the status of their application. PanelView Plus is programmed with RSView Studio and has embedded RSView Machine Edition functionality.

  • Page 83: Summary

    Summary Use a spreadsheet to record the amount and type of devices your ControlLogix system needs. For example, this sample system: could result in this spreadsheet: Device Number of Points Needed Cat. No. I/O Points per Module Number of Modules 120V ac digital inputs 1756-IA8D 120V ac digital outputs...
  • Page 84 ControlLogix, Logix5550, FlexLogix, CompactLogix, DriveLogix, ProcessLogix, PowerFlex, SoftLogix5800, MicroLogix, PLC-5, PLC-3, PLC-2, SLC, DH+, Allen-Bradley, MobileView, RSLogix, RSLogix 5000 Enterprise Series, RSNetWorx, RSView Enterprise Series, RSView32, Rockwell Software, VersaView are trademarks of Rockwell Automation. ControlNet is a trademark of ControlNet International, Ltd.
  • Page 85 Notes: 1756-SG001G-EN-P — March 2004...
  • Page 86 Notes: 1756-SG001G-EN-P — March 2004...
  • Page 88 1756-SG001G-EN-P — March 2004 PN 957859-73 Supercedes 1756-SG001F-EN-P — June 2003 Copyright © 2004 Rockwell Automation. All rights reserved. Printed in USA.

This manual is also suitable for:

Controllogix 1769 seriesSoftlogix5800 1789 seriesFlexlogix 1794 seriesControllogix 1769-l35eControllogix 1769-l32eControllogix 1769-l31 ... Show all

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