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Isysnet Demo Case Manual
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1. 1734 AENT ag 10 88 70 2 FFE E_ POINT I O Slot 0 123 imi m DD al om Local Data o ae Chassis e THEIA l 1756 ENBT Slot 012 34 Logix5555 10 88 70 4 slot 3 Controller slot 1 Switch 10 88 70 26 Programming Terminal 31393 M To work along with this example set up your system as shown above e Note that in the example application the Logix5555 controller and 1756 ENBT module firmware version 2 3 or higher are assumed to be in the slots shown above e Verify the IP addresses for your programming terminal 1756 ENBT module and 1734 AENT adapter e Verify the position slot of the I O modules on the DIN rail e Verify that all wiring and cabling is properly connected e Make sure your communication driver e g AB_ETH 1 or AB ETHIP 1 is configured in RSLinx as described in Appendix B Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix5000 5 3 Create the Perform the following steps to create the example application Example Application L Start RSLogix 5000 Enterprise Series The RSLogix 5000 Main Window will open 2 From the File menu select New File Edit View Search Logic Communications Tools Window Help E h 75 Path lt none gt z Saye Gries Save As a SS Beara 4 gt Favorites Bt A_limericount
2. PSSN8M23A Safety Guide pa N 7 i8M23A For more complete information on recommended application guidelines see O Parker the Safety Guide section of Pneumatic Division catalogs or you can download the Pneumatic Division Safety Guide at www parker com safety Introduction Follow these instructions when installing operating or servicing the product LED Indicators isysNet 24 VDC Input Modules Series A PSSN8M8A PSSN8M12A PSSN8M23A PSSP8M8A PSSP8M12A PSSP8M23A M23 The sealed IP67 housing of these modules requires no enclosure Connector oe Note that environmental requirements other than IP67 may require an additional appropriate housing I O connectors are sealed M8 pico or M12 micro or M23 styles The mounting base ships with the module PSSN8M8A N WARNING I E a FAILURE OR IMPROPER SELECTION OR IMPROPER USE OF THE O c Parker PRODUCTS AND OR SYSTEMS DESCRIBED HEREIN OR RELATED 24V de In ITEMS CAN CAUSE DEATH PERSONAL INJURY AND PROPERTY Female DAMAGE he eT Connector This eee ana omer Laat from parker Panpina oponon A 3 its subsidiaries and authorized distributors provide product and or system Female r Pt O options for furt
3. Female Introduction MBA Ch Connecter Follow these instructions when installing operating or servicing the Female axial P C product Mea 0 02 LED Female i Indicators isysNet 24 VDC Output Modules Series A Connec M Ecri PSST8M23A PSST8M12A PSST8M8A pee E cenrecor The sealed IP67 housing of these modules requires no enclosure renale 0s 7 Note that environmental requirements other than IP67 may require M8 G PU ee emae an additional appropriate housing I O connectors are sealed M8 M8 H pico or M12 micro or M23 styles The mounting base ships with the module The PSST8M23A PSST8M12A and PSST8M8A modules are shown below WARNING PSST8M23A FAILURE OR IMPROPER SELECTION OR IMPROPER USE OF THE De PRODUCTS AND OR SYSTEMS DESCRIBED HEREIN OR RELATED PSSTEM2GA ITEMS CAN CAUSE DEATH PERSONAL INJURY AND PROPERTY _ 24V de Out Parker DAMAGE This document and other information from Parker Hannifin Corporation its subsidiaries and authorized distributors provide product and or system options for further investigation by users having technical expertise It is important that you analyze all aspects of your application including consequences of any failure and review the information concerning the product or systems in the current product catalog Due to the variety of operating conditions and applications for these products or systems the
4. Female LED user through its own analysis and testing is solely responsible for making Connector Indicators the final selection of the products and systems and assuring that all M23 performance safety and warning requirements of the application are met The products described herein including without limitation product features specifications designs availability and pricing are subject to change by Parker Hannifin Corporation and its subsidiaries at any time without notice EXTRA COPIES OF THESE INSTRUCTIONS ARE AVAILABLE FOR INCLUSION IN EQUIPMENT MAINTENANCE MANUALS THAT UTILIZE THESE PRODUCTS CONTACT YOUR LOCAL REPRESENTATIVE isysNet 24 VDC Output Modules Series A PSST8M23A PSST8M12A PSST8M8A Important User Information Solid state equipment has operational characteristics differing from those of electromechanical equipment Safety Guidelines for the Application Installation and Maintenance of Solid State Controls available online at www parker com pneu isysNet describes some important differences between solid state equipment and hard wired electromechanical devices Because of this difference and also because of the wide variety of uses for solid state equipment all persons responsible for applying this equipment must satisfy themselves that each intended application of this equipment is acceptable In
5. PSSCENA EtherNet I P e s G Connector Wi l rT A i 5 Adapter R Status Network s 0 eo Address ANA S O Activity ETA k Switches Q Saus PointBus 0 Status TR aiT peel Mini 7 8 see Auxiliary Power Power Connector a WARNING FAILURE OR IMPROPER SELECTION OR IMPROPER USE OF THE PRODUCTS AND OR SYSTEMS DESCRIBED HEREIN OR RELATED ITEMS CAN CAUSE DEATH PERSONAL INJURY AND PROPERTY DAMAGE This document and other information from Parker Hannifin Corporation its subsidiaries and authorized distributors provide product and or system options for further investigation by users having technical expertise It is important that you analyze all aspects of your application including consequences of any failure and review the information concerning the product or systems in the current product catalog Due to the variety of operating conditions and applications for these products or systems the user through its own analysis and testing is solely responsible for making the final selection of the products and systems and assuring that all performance safety and warning requirements of the application are met The products described herein including without limitation product features specifications designs availability and pricing are subject to change by Parker Hannifin Corporation and its subsidiaries at any time without notice EXTRA COPIES OF THESE INSTRUCTIONS ARE AVAILABLE FOR INCLUSION IN EQUIPMENT M
6. Comm Format Data SINT Slot 1 Cancel C TO e Choose Next to set RPI e Choose Finish Notice that the 32 Point Valve Driver Module is now under the I O configuration Step 5 Access Module Data via the PSSCENA or 1738 AENT Adapter and Create Ladder Program e Make sure the 32 outputs of PSSV32A appear in Controller Tags Use the information in the ladder logic program to access module data ENet Adscioe 11 ted bed AD 173 MODULE SINT S001 0 ENa Adaa 10 td es AB 17I MODULE_SINT_4Bytex0 0 Eet Adaptor 0 Data ted eee Decemal sana ENa Adaptor 10 Daad o Decora SINT Eick Adaptor 1 0 Datat o Decas SINT Diet Adagio 1 0 Daal 0 Cece out o acma sw ecm BOOL o Decmai 8001 ENa Adaptor 10 Daa o Decmai BOL Ehet Adaptor 1 0 Data It3 o Dooma BOOL ENa Adta 10 Daj o Decmai 00 Chiat Adaptor 10 8S o Decas eooL Eiet Adata 10 Data Dicma boo Ehet Adat 10 DaI o econ pOoL gt Eber Adaptor c Ce FA AB ITRMOQAECO i EN Mentor Tags Ede Tape Js of e Reference pages 4 13 through 4 14 of Rockwell publication 1734 UM011 for similar information Step 6 Download the Program to the Controller e Reference pages 4 13 through 4 14 of Rockwell publication 1734 UM011 for similar information E100P Setup the 32 Point Valve Driver in Profibus Step 1 Configure Valve Driver Module in SST Profibus Configuration Utility Note SST PFB CLX is used here for example For different Profibus scan
7. Output Data Data Type Default Value Valid Data Values None Publication 1734 UM 011A EN P February 2004 C 16 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference 1734 IT2 2 Channel Thermocouple Input Isol Configuration Data Data Type Default Valid Data Values Value Cold J unction Notch Filter SINT 1 0 50Hz 1 60Hz Cold J unction M ode SINT 1 0 None 1 Channel 0 2 Channel 1 3 Average Both Low Engineering Channel 0 INT 0 32 168 to 32 767 High Engineering Channel 0 INT 7 000 32 768 to 32 767 Alarm Disable Channel 0 SINT 0 0 Alarms Enabled 1 Alarms Disabled Limit Alarm Latch Channel 0 SINT 0 O No Latching 1 Alarms Latch Notch Filter Channel 0 SINT 1 0 50Hz 1 60Hz 2 100Hz 3 120Hz 4 200Hz 5 240Hz 6 300Hz 7 400Hz 8 480Hz Sensor Type Channel 0 SINT 5 O nV 1 8 2 C 3 43 5 K 6 N 7 R 8 5 9 T Digital Filter Channel 0 INT 0 0 to 10 000 ms Low Alarm Limit Channel 0 INT 32 08 32 768 to 32 767 High Alarm Limit Channel 0 INT 32 167 32 168 to 32 767 Low Low Alarm Limit Channel 0 INT 32 168 32 768 to 32 767 High High Alarm Limit Channel 0 INT 32 167 32 168 to 32 767 Publication 1734 UM 011A EN P February 2004 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference C 17 1734 IT2 2 Channel Thermocouple Input Isol Configuration Data Data Type Default Value Valid Data Values Temperature M ode
8. POINT_IO_Adapter Data he Bin POINT_IO_Adapter 0 aes This value indicates that slot 2 is the only module participating in the rack optimized connection with no errors Monitor Tags Edt Tags Tags gt Use the controller tags in your ladder program to read input data or write output data e For RSLogix 5000 programming instructions refer to RSLogix 5000 G etting Results publication no 9399 RLD 300GR e For ControlLogix controller information refer to ControlLogix System User Manual publication no 1756 UM001 e Slot Status Bits The Slot Status bits display the connection status for each of the POINT I O modules that use a rack optimized connection Bit 0 is reserved for the adapter and always reports a value of 1 Each of the other bits 1 63 correspond to a POINT I O module that may be installed in the POINT I O backplane Note that in this example the 1734 AENT is configured for both rack optimized and direct connections The slot status bits indicate that the module in slot 2 is installed and operating correctly 0 module participating with no errors and 1 module not participating or connection error typically module removed missing Interpret the Status Indicators Chapter 6 LED Status Indicators ATTENTION A You must use Series C POINT I O modules with the 1734 AENT adapter Series A or B POINT I O modul
9. isysNet EtherNet IP Adapter Series A PSSCENA Set the Network Address To set the network address you can e Adjust the switches on the front of the module e Use a Dynamic Host Configuration Protocol DHCP server e Retrieve the IP address from nonvolatile memory The adapter reads the switches first to determine if the switches are set to a valid number You set the node address by adjusting the 3 switches on the front of the module refer to the illustration on page 1 Use a small blade screwdriver to rotate the switches Line up the small notch on the switch with the number setting you wish to use Valid settings range from 001 through 254 X100 This example shows Fe lt the network address set at 163 K 7 gt When the switches are set to a valid number the adapter s IP address will be 192 168 1 xxx where xxx represents the number set on the switches The adapter s subnet mask will be 255 255 255 0 and the gateway address will be set to 0 0 0 0 When the adapter is reading the network address set on the switches the adapter will not have a host name assigned to it or use any Domain Name System If the switches are set to an invalid number i e 000 or a value greater than 254 the adapter checks to see if DHCP is enabled If DHCP is enabled the adapter asks for an address from a DHCP server The DHCP server will also assign other Transport Control Protocol TCP parameters If DHCP is not enabled the adapt
10. A module is missing Node fault I O connection timeout Unrecoverable fault has occurred The adapter is bus off Controller in program idle mode Ethernet cable open Adapter is on line with connections established normal operation Indication Probable Cause Adapier Status Off No power applied to device Flashing Red Green Green Device is operating normall Flashing Red Recoverable fault has occurred Firmware NVS update Network IP address changed CPU load exceeded Solid Red Unrecoverable fault has occurred Self test failure checksum failure at power up ramtest failure at power up Firmware fatal error indication Probable Cause Network Activity Off No link established LED power up test module self test Indication Probable Cause System Power Flashing Green Off _ Transmit or receive activity Green Link established Off Not active Field power is off overloaded backplane or dc dc converter problem Green System power on dc dc converter active 5V Indication Probable Cause Adapter Power Indication Probable Cause Network Status Off Device is not initialized The module does not have an IP address Flashing Green No CIP connections Device has an IP address but no CIP connections are Not active Field power is off established Power on 24V present Green CIP connections Device on line has an p IP address and CIP con
11. Depending on the type and number of manifolds this dimension may vary Refer to Catalog O600P for additional information Install the Mounting Base as Follows 1 Lay out the required points as shown above in the drilling dimension drawing 2 Drill the necessary holes for 8 M4 machine or self tapping screws 3 Mount the base using 8 M4 screws 4 Ground the system using the ground lug connection The ground lug connection is also a mounting hole Mounting Base Keyswitch Set to position 1 for the PSST8M J digital output modules S Ground Lug Connection Latching Mechanism isysNet 24 VDC Output Modules Series A PSST8M23A PSST8M12A PSST8M8A Install the Digital Output Module To Install the Digital Output Module Proceed as Follows 1 Using a bladed screwdriver rotate the keyswitch on the mounting base clockwise until the number 1 aligns with the notch in the base 2 Position the module vertically above the mounting base The module will bridge two bases Module Will Bridge Two Bases On aa SS 0 EEN 07 L N 3 Push the module down until it engages the latching mechanism You will hear a clicking sound when the module is properly engaged The locking mechanism will lock th
12. Flashing Green Flashing Red Green Indication _ _ Probable Cause Network Status Device is not on line Device has not completed dup_MAC id test Device not powered check module status indicator Device is on line but has no connections in the established state Device is on line and has connections in the established state One or more I O connections in timed out state Red Critical link failure failed communication device Device detected error that prevents it from communicating on the network Communication faulted device the device has detected a network access error and is in communication faulted state Device has received and accepted an Identity Communication Faulted Request long protocol message Indication Probable Cause I O Status Off Output is inactive Output is active and under control Open circuit detection No load Off State only Red Short circuit detected On State onl Flashing Green Green Flashing Red Flashing Red Green Yellow Flashing Red isysNet 24 VDC Output Modules Series A PSST8M23A PSST8M12A PSST8M8A E107P Specifications Following are specifications for the digital output modules Outputs per Module 8 1 group of 8 nonisolated sourcing Voltage Drop On State Output Maximum 0 2VDC sourcing modules 0 7VDC sinking module Voltage Off State Output Maximum Voltage On State Output
13. tg BOOTP DHCP Server 2 3 File Tools Help m Request History Clear History dd to Relation List Ethernet Address MAC IP Address Hostname 8 09 34 DHCP 00 00 BC 21 20 14 8 09 26 DHCP 00 00 BC 21 20 14 8 09 22 DHCP 00 00 BC 21 20 14 8 09 13 DHCP 00 00 BC 21 20 14 8 08 57 DHCP 00 00 BC 21 20 14 m Relation List New Delete Enable BOOTE Enable pHoR Disable BUOTP DHEP Ethemet Address MAC Type IP Address r Status Entries Unable to service DHCP request from 00 00 BC 21 20 14 0 of 256 2 Double click on the hardware address of the device you want to configure You will see the New Entry pop up window with the device s Ethernet Address MAC New Entry x Ethermet Address MAC 00 00 BC 21 20 14 IPAddess 10 88 70 2 Hostname Description 3 Enter the IP Address you want to assign to the device and click on OK Publication 1734 UM 011A EN P February 2004 3 8 Configure the 1734 AENT Adapter for Your EtherNet IP N etw ork Publication 1734 UM 011A EN P February 2004 The device will be added to the Relation List displaying the Ethernet Address MAC and corresponding IP Address Hostname and D escription if applicable PI BOOTP DHCP Server 2 3 C Documents and Settings tiggs Desktop Bootp Server control sys File Tools Help r Request History Clear History Add to Relation List Type _Fthemet Address
14. TIP 3 Click OK The Module Properties window will open 4 Enter a Name optional Slot Number and the Comm Format Module Properties AENT 1734 OW2 3 1 xj Type 1734 0W2 2 Point AC DC Relay Output Vendor Allen Bradley Parent AENT Name POINT _Relay_Output Slot fi 4 Description z Comm Format Output Data X Revision BE fi 4 Electronic Keying Compatible Module kd Cancel lt Back Next gt Help The Comm Format is Output Data because we are configuring a mixed direct connection and rack optimized connection with the 1734 OW2 C Relay Output module configured for a direct connection If you are using a discrete input module then the Comm Format would be Input Data for a direct connection 5 Choose Next Publication 1734 UM 011A EN P February 2004 5 10 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix 5000 Notice that RPI is selectable on the screen below since it is a direct connection G Enter the RPI requested packet interval to set how often the data is exchanged with the 1734 AENT To avoid overloading the 1734 AENT it is recommended that the RPI be no less than 10 ms for rack connections and 50 ms for direct connections Module Properties AENT 1 1734 OW2 3 1 xj Requested Packet Interval RPI so ms 2 0 750 0 ms J Inhibit Module I Major Fault On Controller If Connection Fails While in Run Mode Module Fault Cancel
15. Host Name 4 Chassis Size fe Bevision fr 1 Electronic Keying Compatible Module Status Offline Cancel Choose Next to set RPI e Choose Finish Notice that the 1738 AENT is now under the I O configuration E104P Wire the EtherNet IP Adapter Following are wiring instructions for the EtherNet IP Adapter PSSCENA Network Connector D Coded M12 Female In Connector view into connector Pin 1 Tx Pin 2 Rx Pin 3 Tx 3 O Pin 4 Rx PSSCENA Auxiliary Power Mini 7 8 Male In Connector view into connector Pin 1 User Power Pin 2 Adapter Power Pin 3 Adapter Power Pin 4 User Power NOTE User power is the 24VDC power for field devices Adapter power is the 24VDC power for adapter It is converted to 5VDC to power isysNet modules ATTENTION A Make sure all connectors and caps are securely tightened to properly seal the connections against leaks and maintain IP67 requirements isysNet EtherNet IP Adapter Series A PSSCENA E104P Troubleshoot with the Indicators PSSCENA Ethernet iP Adapter Status Indicator Network Activity 0 ard Indicator Network Q Aciviy Network Status 0 poj Indicator Q Saus H PointBus Status O Per Indicator rage N a System Power nN Indicator parker Adapter Power Indicator Indication Probable Cause PointBus Status Of
16. Isysnet Demo Case Manual Revision 1 Notes EtherNet IP Network setup for Isysnet Demo Case Step 0 Required software RSLinx is used to setup driver BootP DHCP is used to assign fixed IP address RSNetworx is used to configure EtherNet IP networks optional RSLogix 5000 is used to create PLC program for RALogix controllers For RSLogix 5000 v15 you can select Parker profiles directly For RSLogix 5000 v13 you will have to select the Rockwell Automation equivalent 1738 ArmorPoint profiles You will have to choose Compatible Module for the Electronic Keying setting step 1 Assign IP Address e Set IP address to EtherNet IP Adapter PSSCENA using BootP DHCP utility e PSSCENA Rotary Switch settings 0 255 999 gt Invalid factory setting 999 1 254 gt Valid 888 gt Reset Port Configuration step 1 Assign IP Address cont d 1 Out of the box the adapter has a setting of 999 2 Connect the adapter to EtherNet switch through an EtherNet cable the adapter should remain UNPOWERED 3 The switch is disconnected from company network 4 Connect computer and the PLC EtherNet port this has been assigned an IP address previously to the EtherNet switch through EtherNet cables 5 Power on PLC the EtherNet switch and the computer step 1 Assign IP Address cont d 6 Launch the BootP DHCP Server utility f
17. Very high speed counter module POINT 1 0 24V dc Very High Speed Counter M odule 1734 IN003 POINT 1 0 5V dc Very High Speed Counter M odule 1734 IN 004 Very High Speed Counter M odule User M anual 1734 UM 003 RSLinx RSLinx Getting Results Guide LINX GRO01 Many of the above publications are available online from TIP The Automation Bookstore and Manuals O n line http www theautomationbookstore com http www ab com manuals TIP Rockwell Software products contain extensive tutorials and help screens We recommend that you use the tutorials and help screens to learn about these products For more information about Rockwell Software products visit the Rockwell Software internet site http www software rockwell com Publication 1734 UM 011A EN P February 2004 Preface 6 Termi nology Refer to the table below for the meaning of common terms This term Means BootP BootP Bootstrap Protocol is a low level protocol that provides configurations to other nodes on a TCP IP network BootP configuration files let you automatically assign IP addresses to an Ethernet module you can also obtain Subnet masks and gateway addresses from BootP bridge A node between two similar communication subnets where protocol translation is minimal CIP Control and Information Protocol the EtherNet IP application layer uses the producer consumer networking model In this model one producer broadcasts m
18. 17 34 V2 0 2 Point 10V 28V DC Input Source 1734 V4 0 4 Point 10 28 DC Input Source 1734 MODULE Generic 1734 Module 1734 0A2 C 2 Point 1204 AC Output 1734 0B2E C 2 Point 10 28 DC Electronically Fused Output Source 1 734 OB2EP C 2 Point 10 28 DC Electronically Fused Protected Output Source 1734 0B4E C 4 Point 10 28 DC Electronically Fused Output Source 1734 0E2C C 2 Channel Analog Current Output 1734 08 2V 0 2 Channel Analog Voltage Output 1 734 O 2E C 2 Point 10 28 DC Electronically Fused Output Sink DC Electronically Fused Output Sink E Show Vendor al gt M Other I Specialty 1 0 Select All V Analog WM Digital JV Communication V Motion Controller Clear All cmi eee Publication 1734 UM 011A EN P February 2004 4 12 Configure the 1734 AENT for Direct Connection in RSLogix 5000 The Module Properties window will open 10 We used the following values Name POINT_Digital_Output Slot 2 Comm Format Output Data Electronic Keying Compatible Module Revision 3 1 Module Properties POINT_IO_Adapter 1734 O 4E 3 1 POINT_Digital_Output p a p WEE Compatible Module 7 cea ce New gt C Frino f He TL Click the Next button DP Leave 10 ms as the RPI for the 1734 OV4E module Module Properties AENT 2 1734 O 4E 3 1 ho TB Click on the Finish button to accept the configuration The I O Configuration in the Project win
19. 2 Go to High Clamp 3 Go to Fault Value Idle M ode Channel 1 SINT 1 O Hold Last State 1 Go to Low Clamp 2 Go to High Clamp 3 Go to Fault Value Publication 1734 UM 011A EN P February 2004 C 22 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference Publication 1734 UM 011A EN P February 2004 1734 OE2V 2 Channel Analog Voltage Output Configuration Data Data Type Default Valid Data Values Value Limit Alarm Latch Channel 1 SINT 0 0 No Latching 1 Alarms Latch Alarm Disable Channel 1 SINT 0 0 Alarms Enabled 1 Alarms Disabled Input Data Data Type Default Valid Data Values Value Status Byte Channel 0 SINT 0 Bit 0 Fault Bit 1 Calibration Bit 2 LowAlarm Bit 3 HighAlarm Status Byte Channel 1 SINT 0 Bit 0 Fault Bit 1 Calibration Bit 2 LowAlarm Bit 3 HighAlarm Output Data Data Type Default Valid Data Values Value Data Channel 0 INT 0 32 768 to 32 767 Data Channel 1 INT 0 32 768 to 32 767 Specialty 1 0 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference C 23 1734 VHSC24 1 Channel 15 24V DC Very High Speed Counter 1734 VHSC5 1 Channel 5V DC Very High Speed Counter Configuration Data Data Type Default Valid Data Values Value Counter Config SINT 0 Config_0 BIT 0 0000 0 Counter Config_1 BIT 1 0001 1 Encoder X1 Config_2 BIT 2 0010 2 Encoder X2 Config 3 BIT 3 001133 PW M 0100 4 Encoder X4 0101 5 Period Rate 0110 6 Contin
20. For more information contact your local distributor or Rockwell Automation representative or visit http support rockwellautomation com Installation Assistance If you experience a problem with a hardware module within the first 24 hours of installation please review the information that s contained in this manual You can also contact a special Customer Support number for initial help in getting your module up and running United States 1 440 646 3223 Monday Friday 8am 5pm EST Outside United Please contact your local Rockwell Automation representative States for any technical support issues New Product Satisfaction Return Rockwell tests all of our products to ensure that they are fully operational when shipped from the manufacturing facility However if your product is not functioning and needs to be returned United States Contact your distributor You must provide a Customer Support case number see phone number above to obtain one to your distributor in order to complete the return process Outside United Please contact your local Rockwell Automation representative States for return procedure www rockwellautomation com Corporate Headquarters Rockwell Automation 777 East Wisconsin Avenue Suite 1400 Milwaukee WI 53202 5302 USA Tel 1 414 212 5200 Fax 1 414 212 5201 Headquarters for Allen Bradley Products Rockwell Software Products and Global Manufacturing Solutions Americas Rock
21. O Therefore in order to configure your PointBus modules you must set the chassis size to the physical amount of your I O modules plus one for the adapter otherwise you will get an error i e if you have six modules in the chassis chassis size has to be set to 6 1 7 6 Enter the Slot For the adapter itself the slot number is always 0 and cannot be modified 7 Click on Finish Your I O Configuration tree now looks similar to the following O Contiguration 6 1756 ENBT A Local_ENet 0 1734 AENT A Remote_POINT_IO Publication 1734 UM 011A EN P February 2004 1734 AENT Quick Start D 3 Enter Adapter Properties 1 Right click on the 1734 AENT adapter and select Properties The following window displays fal Module Properties Local_ENet 0 1734 AENT amp 1 1 Remote_POINT_IO El Fa Noe o Pa aa Pra Conpsite Mode 2 Click on the Chassis Size tab You will notice that the data under this tab is grayed out while offline The Chassis Size tab is used to send the module size from the General tab to the module itself once you are online O therwise you will get an error We will explore this later For now click on OK to close this window fl Module Properties Local_ENet 0 1734 AENT A 1 1 set Chassis Size in Module Hefest 3 Right click on the POINT I O adapter under I O Configuration to add anew module 4 Select the module from the lis
22. Output Data Data Type Default Valid Data Values Value None POINT I O Modules support the Unsigned Integer data type UINT 0 65 535 range RSLogix 5000 supports the signed Integer data type INT 32 768 to 32 767 range Filter Time Note To enter Filter values from 32 768 to 65 535 us use this conversion formula Desired Filter Value in us 65536 Entered Filter Value in us Example For a 40ms filter time 40000 65536 25536 Discrete 2 POINT Output Without Diagnostic Status 1734 POINT 1 0 M odule RSLogix 5000 Controller Tag Reference C 5 1734 0A2 2 POINT 120V AC Output 1734 O0W 2 2 POINT AC DC Relay Output 1734 0X2 2 POINT Relay Output N O N C Configuration Data Data Type Default Valid Data Values Value Fault Mode POINT 0 1 SINT BIT 0 0 Fault Value 1 Hold Last State Fault Value POINT 0 1 SINT BIT 0 0 0ff 1 0n Program Mode POINT 0 1 SINT BIT 0 0 Program Value 1 Hold Last State Program Value POINT 0 1 SINT BIT 0 0 0ff 1 0n Input Data Data Type Default Valid Data Values Value None Output Data Data Type Default Valid Data Values Value Output Data POINT 0 1 SINT BIT 0 0 0ff 1 0n Publication 1734 UM 011A EN P February 2004 C 6 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference Discrete 2 POINT Output With Over Load and Open Load Diagnostic Status Publication 1734 UM 011A EN
23. PSSY32A 32 output 24vde digital sourcing module Find Add Favorte Favores Carei He e Enter a name optional and click OK By Category By Vendor MB New Module General Connection Module Info Fault Program Action Configuration Type PSSV32A 32 output 24vde digital sourcing module Vendor Parkes Hannitin Corp Parent ENet_Adapter Name VOM Description 32 Point Valve Driver Module Module Definition Revision Electronic Keying Connection Data Format Status Creating Notice that the 32 Point Valve Drive Module is now under I O Configuration isysNet 32 Point Valve Driver Series A PSSV32A If your RSLogic 5000 is Version 13 X e Highlight the 1738 ACNR under I O configuration right click and select New Module e Choose the Generic 1738 module from the list of Allen Bradley modules Select Module Type Type 1738 MODULE 2 Channel Thermocouple Input Isolated 4 Point 10 28V DC Input Source Generic 1738 Module 2 Point 120V AC Output 2 Paint 10 28V DC Electronically Fused Output Source 2 Point 10 28V DC Electronically Fused Protected Output Source 4 Point 10 28V DC Electronically Fused Output Source 4 Point 10 28V DC Electronically Fused Output Source 1738 MODULE 1738 042M124C3 A 1738 0B2EM12 A 1738 0B8EM12 A 8 Point 10V 28V DC Electronically Fused Output Source 1738 0B8EM8 A 8 Point 10 28V DC El
24. RSLinx Step 2 Add Controller and Communication Module to the RSLogix 5000 I O Configuration e Add a controller and a communication module isysNet PSSCCNA or Rockwell 1738 ACNR to I O configuration Reference pages 4 1 through 4 7 of Rockwell publication 1734 UM008 follow www rockwell com gt Support gt Support Overview gt Online manuals and literature gt 1 O31734 POINT and 1734D POINT Block I O and find POINT I O ControlNet Adapter User Manual for a similar setup procedure Step 3 Add 32 Point Valve Driver to RSLogix 5000 I O Configuration If your RSLogic 5000 is Version 15 X or greater Highlight the PSSCCNA under I O configuration right click and select New Module e Choose the PSSV32A module from the list of Parker modules W Select Module Module Description Allen Bradley Parker Hannifin Corp PSSNBM12A PSSNBM23A PSSNEMBA PSSNACMI2A PSSNAVMI2A PSSP8M12A PSSPEM23A PSSP8MBA PSSTSM12A PSSTSM23A PSST8M8A PSSTACMI24 8 input 24vdc digital sinking M12 8 input 24vde digital sinking M23 8 input 24vde digital sinking M8 2 input analog current M12 2 input analog voltage M12 8 input 24vdc digital sourcing M12 8 input 24vdc digital sourcing M23 8 input 24vde digital sourcing MS 8 Output 24vde digital sourcing M12 8 Output 24vde digtal sourcing M23 8 Output 24vde digital sourcing MS 2 output analog current M12 PSSTAVMI2A 2 output analog voltage M12 PSSTR4M124 4 output relay M12
25. contact your local representative for replacement labels Safety Guide For more complete information on recommended application guidelines see the Safety Guide section of Pneumatic Division catalogs or you can download the Pneumatic Division Safety Guide at www parker com safety isysNet EtherNet IP Adapter User Manual The isysNet EtherNet IP Adapter User Manual PSS UM004A EN P is not available at this time Please refer to Rockwell Automation 1734 POINT I O EtherNet IP Adapter User Manual 1734 UM011A EN P for similar setup information which is available online at http Aiterature rockwellautomation com Installation amp Service Instructions E104P isysNet EtherNet IP Adapter Series A PSSCENA ISSUED December 2006 Supersedes December 2005 Doc E104P EN 060961 Rev 3 Introduction Follow these instructions when installing operating or servicing the product isysNet EtherNet IP Adapter Series A PSSCENA The sealed IP67 housing of the adapter requires no enclosure Note that environmental requirements other than IP67 may require an additional appropriate housing The EtherNet IP connector is a sealed D coded M12 micro style The EtherNet IP adapter is shown below PSSCENA EtherNet I P e s G Connector Wi l rT A i 5 Adapter R Status Network s 0 eo Address ANA S O Activity ETA k Switches Q Saus PointBus 0 Status TR aiT peel
26. 24 27 20 23 16 19 12 15 8 11 4 7 0 3 onsume 0 eae Ei ier ai Ea eas aes aa Consume 1 Su Output Output Output Output Output Ei B 15 14 13 12 11 10 Consume 2 Output Output Output Output Output Output Output Output 23 22 21 20 19 18 17 16 Consume 3 Output Output Output Output Output Ea Ea Output 31 30 29 28 27 24 Setup the 32 Point Valve Driver in DeviceNet Step 1 Load 32 Point Valve Driver EDS file to RSLinx Download EDS file from www parker com pneu isysNet e On your computer follow Start gt Rockwell Software gt RSLinx Tools gt EDS Hardware Installation Tool to load the EDS file to RSLinx Step 2 Configure the DeviceNet Scanner Subnet e Reference Chapter 4 of the isysNet DeviceNet Adapters User Manual PSS UM001 for detailed information Make sure to add PSSV32A to the DeviceNet Adapter s scanlist Step 3 Add the isysNet DeviceNet Adapter to the DeviceNet Scanner s Scanlist e Reference Chapter 5 of the isysNet DeviceNet Adapters User Manual PSS UM001 for detailed information Step 4 Use 32 Point Valve Driver in RSLogix 5000 e Access PSSV32A data via DeviceNet Scanner in the ladder logic program E100P Setup the 32 Point Valve Driver in ControlNet Step 1 Load 32 Point Valve Driver EDS file to RSLinx e Download EDS file from www parker com pneu isysNet e On your computer follow Start gt Rockwell Software gt RSLinx Tools gt EDS Hardware Installation Tool to load the EDS file to
27. 767 Low Low Alarm Limit Channel 1 INT 32 108 32 168 to 32 767 High High Alarm Limit Channel 1 INT 32 167 32 168 to 32 767 Limit Alarm Latch Channel 1 SINT 0 0 No Latching 1 Alarms Latch Alarm Disable Channel 1 SINT 0 0 Alarms Enabled 1 Alarms Disabled Publication 1734 UM 011A EN P February 2004 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference C 15 1734 IR2 2 Channel RTD Input Configuration Data Data Type Default Value Valid Data Values Sensor Type Channel 1 SINT 1 0 Ohms 1 100 Pt 0385 2 200 Q Pt a385 5 100 Q J Pt 03916 6 200 Q J Pt 03916 9 10 Q Cu a427 10 120 Q Ni 672 11 100 Q Ni 618 12 120 Q Ni a618 Temperature M ode Channel 1 SINT 0 Custom Scale 1 C 2 F 3 K 4 R Notch Filter Channel 0 amp 1 SINT 0 50Hz 1 60Hz 2 100Hz 3 120Hz 4 200Hz 5 240Hz 6 300Hz 7 400Hz 8 480Hz Input Data Data Type Default Value Valid Data Values Data Channel 0 INT 0 32 168 to 32 767 Data Channel 1 INT 0 32 168 to 32 767 Status Byte Channel 0 SINT 0 it 0 Fault it 1 Calibration it2 LowAlarm it 3 HighAlarm it 4 LowLowAlarm it 5 HighHighAlarm it 6 Underrange it 7 Overrange Status Byte Channel 1 SINT it 0 Fault it 1 Calibration it2 LowAlarm it 3 HighAlarm it 4 LowLowAlarm it 5 HighHighAlarm it 6 Underrange it 7 Overrange v v Ww Ww wv Ww wv W w Ww Ww W W W WW Ww
28. 8 diagnostic information A 2 what the adapter does 1 5 who should use this manual Preface 1 wiring the adapter 2 4 safety approvals 7 1 set the network address 2 3 specifications 7 2 subnet mask 3 4 3 5 Publication 1734 UM011A EN P February 2004 4 Index Publication 1734 UM011A EN P February 2004 How Are We Doing Your comments on our technical publications will help us serve you better in the future Thank you for taking the time to provide us feedback w7 You can complete this form and mail or fax it back to us or email us at RADocumentComments ra rockw ell com Pub Title Type POINT I O EtherN et IP Adapter M odule Cat No 1734 AENT Pub No 1734 UMO11A EN P Pub Date February 2004 PartNo 957726 46 Please complete the sections below Where applicable rank the feature l needs improvement 2 satisfactory and 3 outstanding Overall Usefulness 1 2 3 How can we make this publication more useful for you 2 3 Can we add more information to help you Completeness all necessary information procedure step illustration feature is provided rr example guideline other explanation definition Technical Accuracy 1 2 3 Can we be more accurate all provided information is correct text illustration Clarity 1 2 3 How can we make things clearer all provided information is easy to understand Other Comments You can add additional comments on the back of thi
29. 8 data bits allows ASCII Character data values of 0 255 To enter values from 128 to 255 use this conversion formula Desired Decimal Value 256 Entered D ecimal Value Example For an ASCII Character value of 128 128 256 128 Publication 1734 UM 011A EN P February 2004 C 40 1734 POINT 1 0 M odule RSLogix 5000 Controller Tag Reference 1734 232ASC 1 Channel ASCII Interface M odule Input Data Data Type Default Valid Data Values Value Receive Record Number SINT 0 128 to 127 0 255 Status SINT 0 TX FIFO Overflow BIT 0 O No Error 1 TX FIFO Overflow Error RX FIFO Overflow BIT 1 O No Error 1 RX FIFO Overflow Error RX Parity Error BIT 2 O No Error 1 RX Parity Overflow Error Handshake Error BIT 6 O No Error 1 Handshake Error New Data Flag BIT7 0 No New Data 1 New Data Present Length_Lo SINT 20 128 to 127 0 128 Length_HI SINT 0 dorl Data 128 SINT 0 Received ASCII M essage Output Data Data Type Default Valid Data Values Value Transmit Record Number SINT 0 128 to 127 0 255 Receive Record Number SINT 0 128 to 127 0 255 Status SINT 0 TX FIFO Overflow BIT 0 O No Error 1 TX FIFO Overflow Error RX FIFO Overflow BIT 1 O No Error 1 RX FIFO Overflow Error RX Parity Error BIT 2 O No Error 1 RX Parity Overflow Error Handshake Error BIT 6 O No Error 1 Handshake Error New Data Flag BIT7 0 No New Data 1 New Data Present Length_Lo SINT 20 128 to 127
30. ASCII Character 0x0d Default is Carr Return Receive String Data Type SINT 1 O Array 1 Short String 2 String Pad Mode SINT 1 0 Pad M ode Disabled 1 Pad M ode Enabled Pad Character SINT 0 Any Valid ASCII Character 0x00 Default is NULL Receive Swap M ode SINT 0 0 Disabled 1 16 bit Swap Enabled 2 24 bit Swap Enabled 3 32 bit Swap Enabled DeviceNet Handshake M ode SINT 1 0M aster Slave handshake 1 Produce Immediate M ax Transmit Characters SINT 20 128 to 127 0 128 Publication 1734 UM 011A EN P February 2004 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference C 39 1734 232ASC 1 Channel ASCII Interface M odule Configuration Data Data Type Default Valid Data Values Value Transmit End Delimiter M ode SINT 2 O No End Delimiter 1 Exclude End Delimiter 2 Include End Delimiter Transmit End Delimiter Character SINT 13 Any Valid ASCII Character 0x0d Default is Carr Return Consume String Data Type SINT 1 O Array 1 Short String 2 String Transmit Swap M ode SINT 0 0 Disabled 1 16 bit Swap Enabled 2 24 bit Swap Enabled 3 32 bit Swap Enabled DeviceNet Record Header M ode SINT 0 0 Transmit Handshake 1 Transmit Immediate Transmit Data Receive Data Delimiter Pad Character Note Note that 7 data bits allows ASCII Character data values of 0 127 which RSLogix 5000 does support in the signed Short Integer data type SINT 128 to 127 range Note that
31. Ab Un packaged Non operating Cold IEC 60068 2 2 Test Bb Un packaged Non operating Dry Heat 40 to 85 C 40 to 185 F Relative Humidity IEC 60068 2 30 Test Db Un packaged Non operating Damp Heat 5 to 95 non condensing Shock IEC60068 2 27 Test Ea Unpackaged Shock Operating 30g Non operating 50g Vibration IEC60068 2 6 Test Fc Operating 5g 10 to 500Hz ESD Immunity IEC 61000 4 2 6kV contact discharges 8kV air discharges Radiated RF Immunity IEC 61000 4 3 10V m with 1kHz sine wave 80 AM from 30MHz to 2000MHz 10V m with 200Hz 50 Pulse 100 AM at 900Mhz 10V m with 200Hz 50 Pulse 100 AM at 1890Mhz EFT B Immunity IEC 61000 4 4 3kV at 5kHz on signal ports Surge Transient Immunity IEC 61000 4 5 1kV line line DM and 2kV line earth CM on signal ports Conducted RF Immunity IEC 61000 4 6 10Vrms with 1kHz sine wave 80 AM from 150kHz to 80MHz Emissions CSPR 11 Group 1 Class A Enclosure Type Rating Mounting Base Screw Torque Meets IP65 66 67 when marked 8 screw 7 5 in lbs in Aluminum 16 in lbs in Steel Wiring Category 1 on signal ports Weight Imperial Metric 0 64 Ib 0 29 kg Certifications when product is marked c UL us UL Listed Industrial Control Equipment certified for US and Canada CE European Union 89 336 EEC EMC Directive compliant with EN 61000 6 4 Industrial Emissions EN 50082 2 Industrial
32. Adapter Configure the 1734 AENT Adapter for Your EtherNet IP Network Table of Contents Chapter 1 What This Chanter Contains 0206 ecssavacin gal atyeadeake dan 1 Important Adapter Considerations 0 cece eee eee 2 Set the Chassis SIZE 4 caine taea a A ive hid ee 2 Adapter replacement ccc nennen arere 2 Empty Slots and RIUP Situations onanan 3 Power Up a System For the First Time 005 4 Adapter Features efase i eed ana a aaa a 4 Hardware Software Compatibility 0 cece eee 5 What the Adapter DO S 0 cece cece cece eee eee eees 5 Use of the Common Industrial Protocol CIP 5 Understand the Producer Consumer Model 4 6 Specify the Requested Packet Interval RPI 0 6 Support of Rack O ptimized and Direct Connections 6 Mix Rack O ptimized and Direct Connections 7 What SING useen An eee as oa ea eae eats 1 8 Chapter 2 What This Chapter Contains cceeeeeveveevucens 1 Identify Module Components ccccceeee eee eeee 2 Mount the Adapter on a DIN Rail Before Installing Modules 2 2 Mount or Replace EtherNet IP Adapter to an Existing System 2 3 WDG sided a a Lane ai a ahh Wild Oe tae tia Gas e Gat fas 4 MoUntn GD AIMCNSIONS i gt seq cel ondalsh saa wbornetae eon 5 What SNe aceng aaa naea aa a ie hae 2 5 Chapter 3 What This Chapter Con
33. Adapter Series A PSSCENA Before You Begin To effectively use your adapter note the following considerations Determine Compatibility If using the adapter with an Allen Bradley 1756 ENBT module or 1788 ENBT module use the following required firmware versions for these bridge modules e 1756 ENBT firmware version 2 3 or greater e 1788 ENBT firmware version 1 33 or greater If you use the BootP Utility to assign IP addresses to the adapter use version 2 3 2 or greater Understanding Messaging Class 3 Explicit Message requests through the adapter to a specific I O module may not always receive a response from the I O module In the case where the I O module does not reply to the request the adapter responds with an error code indicating a time out Establish I O Connections Mount the Adapter and I O Base To mount the adapter on a wall or panel use the screw holes provided in the adapter A mounting illustration for the adapter with I O bases is shown below E104P When you power up an isysNet I O system and establish I O connections the outputs transition to the Idle state applying Idle state data before going to RUN mode This occurs even when the controller making the connection is already in RUN mode Configure Autobaud The adapter cannot reconfigure an I O module that you previously configured to operate at a fixed baud rate When you reuse an isysNet I O module from another isysNet I O system configure the
34. Adapter Twisted Pas Media 1756 10 100 Mbps Ethemet Bridge Fiber Media 1756 10 100 Mbps Ethernet Bridge Twisted Pait Media 1756 Ethernet Communication Interface 1756 Ethernet Bridge 1756 10 100 Mbps Ethernet Bridge w Enhanced Web Services 1757 Foundation Fieldbus Linking Device 1757 Foundation Fieldbus Process Controller 1769 L32E Ethernet Pot 10 100 Mbps Ethernet Port on CompactLogixS332E 1769 L35E Ethernet Port 10 100 Mbps Ethernet Port on CompactLogix5335E 1783 EN2DN A 1788 Ethernet to DeviceNet Linking Device 1788 ENBT A 1788 10 100 Mbps Ethemet Bridge Twisted Pair Media v Show Vendor All M Other IV Specialty 0 Select All Clear All W Analog I Digtal IV Communication I Motion IV Controller Cancel Help e Enter a name an appropriate IP address and chassis size Make sure to choose Compatible Module for Electronic Keying setting isysNet EtherNet IP Adapter Series A PSSCENA E Module Properties ENet_Scanner 0 1738 AENT A 1 1 General Connection Module Info Pott Configuration Port Diagnostics Chassis Size Type 1738 AENT A 1738 Ethernet Adapter Twisted Pait Media Vendor Allen Bradley Parent ENet_Scanner Name ENet_Adaptor Address Host Name Description jj IP Address ATA Host Name 4 Chassis Size fe Bevision fr 1 Electronic Keying Compatible Module Status Offline Cancel Choose Next to set RPI e Choose Finish Noti
35. Bootp Server 7 amp l el Control System Configuration bpe File name Control System Configuration bpe Files of type Bootp Config Files bpe od Cancel DHCP Dynamic Host Configuration Protocol software automatically assigns IP addresses to client stations logging onto a TCP IP network DHCP is based on BootP and maintains some backward compatibility The main difference is that BootP was designed for manual configuration while DHCP allows for dynamic allocation of network addresses and configurations to newly attached devices Be cautious about using DHCP software to configure your adapter A DHCP server typically assigns a finite lease time to the offered IP address When 50 percent of the leased time has expired the 1734 AENT adapter will attempt to renew its IP address with the DHCP server The possibility exists that the adapter will be assigned a different IP address which would cause the adapter to cease communicating with the ControlLogix controller Please refer to the sections Configure the 1734 AENT with Fixed IP Address on page 4 18 to configure the adapter with a fixed IP address To avoid unintended control the 1734 AENT adapter must be assigned a fixed IP address The IP address of this adapter should not be dynamically provided If a DHCP server is used it must be configured to assign a fixed IP address for your adapter Failure to observe this precaution may result in unintended machine motion or
36. Channel 0 SINT 1 O mV Custom Scale 1 C 2 F 3 K 4 R Cold J unction Enable Channel 0 SINT 0 Disabled 1 Enabled Cold J unction Offset Channel 0 INT 0 to 7 000 0 00 70 00 Low Engineering Channel 1 INT 32 768 to 32 767 High Engineering Channel 1 INT 32 768 to 32 767 Alarm Disable Channel 1 SINT 0 Alarms Enabled 1 Alarms Disabled Limit Alarm Latch Channel 1 SINT O No Latching 1 Alarms Latch Notch Filter Channel 1 SINT 0 50Hz 1 60Hz 2 100Hz 3 120Hz 4 200Hz 5 240Hz 6 300Hz 7 400Hz 8 480Hz Sensor Type Channel 1 SINT 0 nV 1 8 2 C 3 45 5 K 6 N TR 855 9 T Digital Filter Channel 1 INT 0 0 to 10 000 ms Low Alarm Limit Channel 1 INT 32 168 32 768 to 32 767 High Alarm Limit Channel 1 INT 32 767 32 768 to 32 767 Low Low Alarm Limit Channel 1 INT 32 168 32 768 to 32 767 High High Alarm Limit Channel 1 INT 32 767 32 768 to 32 767 Publication 1734 UM 011A EN P February 2004 C 18 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference Publication 1734 UM 011A EN P February 2004 1734 IT2 2 Channel Thermocouple Input Isol Configuration Data Data Type Default Valid Data Values Value Temperature M ode Channel 1 SINT 1 0 mV Custom Scale 1 C 2 F 3 K 4 R Cold J unction Enable Ch
37. EN P February 2004 4 4 Configure the 1734 AENT for Direct Connection in RSLogix 5000 5 Click on OK Configure the 1 0 You now add the POINT I O modules to the controller s I O configuration To do this you first add the local 1756 ENBT module to the I O configuration Next you add the 1734 AENT adapter as a child of the 1756 ENBT module Then you add the I O modules as children of the 1734 AENT adapter Click on the Help buttons on the configuration screens IMPORTANT ae A shown in this section if you need assistance in selecting and setting the parameters Add the Local EtherNet IP Bridge to the 1 0 Configuration 1 Select the I O Configuration folder in the project window and click the right mouse button F RSLogix 5000 POINT_IO_Controller 1756 L1 File Edit View Search Logic Communications Tools Window Help alsia A 6 also E len el Offline E mee fA onp o O da NoEds amp a Hlela aja ooo gt j HIP Favorites AK TimeriCounter K Tnpuvoutput X Compare Controller Fault Handler Power Up Handler BS Tasks A pop up window will open 2 Click on New Module at apy Paste Pritt Publication 1734 UM 011A EN P February 2004 Configure the 1734 AENT for Direct Connection in RSLogix 5000 The Select Module Type window will open 3 Select the 1756 ENBT EtherNet IP Bridge and click on OK Select Module Type 1756 E
38. EtherN et IP Adapter 1734 AENT 1 POINT 1 0 24V dc Sink Output Module 1734 OV4E C 1 POINT 1 0 Relay Output M odule 1734 OW 2 C 1 DIN Rail 199 DR1 or equivalent 1 ControlLogix chassis 1756 A4 or A7 A13 A17 1 ControlLogix power supply 1756 PA72 or PB72 1 Logix5555 controller 1756 L55 1 ControlLogix EtherN et IP Bridge M odule 1756 EN BT 1 Personal computer that supports Any appropriate model running Windows RSLogix 5000 software NT 4 0 Service Pack 6A or higher 1 Ethernet switch Refer to manufacturer s specifications 1 24V dc power supply 1734 EP24DC Associated media and connectors as needed Softw are 1 RSLinx communications software 9355 WAB WABOEM WABC V2 31 00 or higher 1 RSLogix 5000 programming software 9324 RLD300EN E V11 11 or higher Publication 1734 UM 011A EN P February 2004 Preface 4 W here to Find More Information For information about Refer to the following Rockwell publications as needed for additional help when setting up and using your EtherNet IP network See this publication Publication number Using EtherNet IP for industrial control EtherNet IP Performance and Application Guide ENET AP001 EtherNet IP media EtherNet IP M edia Planning and Installation Guide ENET IN 001 Ethernet communication interface Ethernet Communication Interface M odule Installation 1756 5 3 modules Instructions Ethernet Communication Interface M odule User M anual 17
39. Go to High Clamp 3 Go to Fault Value Limit Alarm Latch Channel 0 SINT 0 O No Latching 1 Alarms Latch Alarm Disable Channel 0 SINT 0 0 Alarms Enabled 1 Alarms Disabled Fault Value Channel 1 INT 0 32 168 to 32 767 Program Value Channel 1 INT 0 32 168 to 32 767 Low Engineering Channel 1 INT 1 638 32 168 to 32 767 High Engineering Channel 1 INT 8 191 32 168 to 32 767 Low Limit Channel 1 INT 32 7168 32 768 to 32 767 High Limit Channel 1 INT 32 167 32 168 to 32 767 Range Type Channel 1 SINT 0 0 4 20mA 2 0 20mA Fault M ode Channel 1 SINT 1 O Hold Last State 1 Go to Low Clamp 2 Go to High Clamp 3 Go to Fault Value Publication 1734 UM 011A EN P February 2004 C 20 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference Publication 1734 UM 011A EN P February 2004 1734 OE2C 2 Channel Analog Current Output Configuration Data Data Type Default Valid Data Values Value Idle Mode Channel 1 SINT 1 O Hold Last State 1 Go to Low Clamp 2 Go to High Clamp 3 Go to Fault Value Limit Alarm Latch Channel 1 SINT 0 0 No Latching 1 Alarms Latch Alarm Disable Channel 1 SINT 0 0 Alarms Enabled 1 Alarms Disabled Input Data Data Type Default Valid Data Values Value Status Byte Channel 0 SINT 0 Bit 0 Fault Bit 1 Calibration Bit 2 LowAlarm Bit 3 HighAlarm Status Byte Channel 1 SINT 0 Bit 0 Fault Bit 1 Calibration Bit 2 LowAlarm Bit 3 HighAlarm Output Data Data Type Default Valid D
40. IMPROPER SELECTION OR IMPROPER USE OF THE PRODUCTS AND OR SYSTEMS DESCRIBED HEREIN OR RELATED ITEMS CAN CAUSE DEATH PERSONAL INJURY AND PROPERTY DAMAGE This document and other information from Parker Hannifin Corporation its subsidiaries and authorized distributors provide product and or system options for further investigation by users having technical expertise It is important that you analyze all aspects of your application including consequences of any failure and review the information concerning the product or systems in the current product catalog Due to the variety of operating conditions and applications for these products or systems the user through its own analysis and testing is solely responsible for making the final selection of the products and systems and assuring that all performance safety and warning requirements of the application are met The products described herein including without limitation product features specifications designs availability and pricing are subject to change by Parker Hannifin Corporation and its subsidiaries at any time without notice EXTRA COPIES OF THESE INSTRUCTIONS ARE AVAILABLE FOR INCLUSION IN EQUIPMENT MAINTENANCE MANUALS THAT UTILIZE THESE PRODUCTS CONTACT YOUR LOCAL REPRESENTATIVE isysNet 32 Point Valve Driver Series A PSSV32A Important User Information Solid state equipment has operational characteristics differing from those of electromechanical equipment Sa
41. Immunity EN 61326 Meas Control Lab Industrial Requirements EN 61000 6 2 Industrial Immunity Australian Radiocommunications Act compliant with AS NZS CISPR 11 Industrial Emissions 1 OFF to ON or ON to OFF delay is time from a valid output on or off signal to output energization or de energization 2 Use this Conductor Category information for planning conductor routing Refer to Publication E115P Industrial Automation Wiring and Grounding Guidelines 8 Pneumatic Division Richland Michigan 49083 A WARNING To avoid unpredictable system behavior that can cause personal injury and property damage Disconnect electrical supply when necessary before installation servicing or conversion Disconnect air supply and depressurize all air lines connected to this product before installation servicing or conversion Operate within the manufacturer s specified pressure temperature and other conditions listed in these instructions Medium must be moisture free if ambient temperature is below freezing Service according to procedures listed in these instructions Installation service and conversion of these products must be performed by knowledgeable personnel who understand how pneumatic products are to be applied After installation servicing or conversion air and electrical supplies when necessary should be connected and the product tested for proper function and leakage If
42. Modules All slots must be filled with modules Unexpected Incorrect Chassis Size The chassis size specified must match the physical chassis exactly or unexpected behaviors will result A This function may result in modules being re addressed Ensure that all planned modules are present and that all terminal bases are filled Set the Chassis Size of the Point 1 0 System to 4 Cancel Help 8 Click OK to continue Notice the chassis size in the module has been modified to 3 E Module Properties EN_Bridge 0 1734 AENT A 1 1 General Connection Module Info Port Configuration Chassis Size From General Tab Chassis Size In Module Refresh Status Faulted Publication 1734 UM 011A EN P February 2004 4 18 Configure the 1734 AENT for Direct Connection in RSLogix 5000 Q Click OK At this point your PointBus status LED should be solid green All the yellow triangles in your I O configuration should be gone Configure the 1734 AENT To configure the 1734 AENT with a fixed IP address to prevent the adapter f i i i lLogi ller with Fixed IP Address rom ceasing to communicate with the ControlLogix controller 1 Click on the Port Configuration tab in the 1734 AENT properties window 2 Click the Enable DHCP box so that there is not a check mark in the box E Module Properties EN_Bridge 0 1734 AENT A 1 1 xj General Connection Module Info Port Configuration Chassis Size IP Address
43. Range Type Channel 0 SINT 2 0 10 to 10V 2 to 10V Limit Alarm Latch Channel 0 SINT 0 0 No Latching 1 Alarms Latch Alarm Disable Channel 0 SINT 0 0 Alarms Enabled 1 Alarms Disabled Low Engineering Channel 1 INT 0 32 168 to 32 767 High Engineering Channel 1 INT 10 000 32 768 to 32 767 Digital Filter Channel 1 INT 0 0 to 10 000 ms Low Alarm Limit Channel 1 INT 500 32 168 to 32 767 High Alarm Limit Channel 1 INT 9 500 32 768 to 32 767 Low Low Alarm Limit Channel 1 INT 200 32 168 to 32 767 High High Alarm Limit Channel 1 INT 9 800 32 768 to 32 767 Range Type Channel 1 SINT 2 0 10 to 10V 2 0 to 10V Limit Alarm Latch Channel 1 SINT 0 0 No Latching 1 Alarms Latch Alarm Disable Channel 1 SINT 0 0 Alarms Enabled 1 Alarms Disabled Notch Filter Channel 0 amp 1 SINT 2 1 50Hz 2 60Hz 4 250Hz 6 500Hz Real Time Sample Channel 0 amp 1 INT 100 0 to 10 000 ms Publication 1734 UM 011A EN P February 2004 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference C 13 1734 IE2V 2 Channel Analog Voltage Input Input Data Data Type Default Valid Data Values Value Data Channel 0 INT 0 32 768 to 32 767 Data Channel 1 INT 0 32 768 to 32 767 Status Byte Channel 0 SINT 0 Bit 0 Fault Bit 1 Calibration Bit 2 LowAlarm Bit 3 HighAlarm Bit 4 LowLowAlarm Bit 5 HighHighAlarm Bit 6 Underrange Bit 7 Overrange Status Byte Channel 1 SINT 0 Bit 0 Fault Bit 1 Calibration Bit 2 LowAlarm Bit 3 Hig
44. Run mode The mode will be changed to Remote Program prior to download You see this window RSLogix 5000 N Done downloading Change controller mode back to Remote Run Notice that the 1756 ENBT Bridge is now online If yellow triangles are present see the following section a I O Configuration g 3 1756 ENBT 4 Local_ENB A 0 1734 AENT 4 POINT_IO_Adapter fh 1 1734 0W2 POINT_Relay_Output fh 2 1734 OV4E POINT_Digital_Output Ve rify the Module You have now built the I O tree in RSLogix 5000 and the RSLogix 5000 Chassis Size software used the chassis size from the 1734 AENT General tab Now you need to download this new chassis size value into the 1734 AENT adapter hardware This procedure will synchronize the chassis size value from the RSLogix 5000 software into the 1734 AENT hardware You must be online to perform this procedure 1 Verify that RSLogix 5000 is online 2 Right click on the 1734 AENT under I O Configuration in the Project window 3 Select Properties 4 Click the Connection tab Publication 1734 UM 011A EN P February 2004 5 14 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix 5000 Publication 1734 UM 011A EN P February 2004 You see the Module Fault error code fl Module Properties local_enet 0 1734 AENT A 1 1 General Connection Module Info Port Configuration Port Diagnostics Chassis Size Requested Packet Int
45. UM 011A EN P February 2004 Safety Approvals and Specifications 7 3 General Specifications Indicators 3 red green status indicators Adapter status PointBus status Network status 3 green status indicators Network activity status System Power PointBus 5V power Field Power 24V from field supply Power Consumption 4 5W maximum 28 8V dc Power Dissipation 15 5W maximum 28 8V PointBus Output Current 1A maximum 5V dc 5 4 75 5 25 Input Overvoltage Protection Reverse polarity protected Thermal Dissipation 9 5 BTU hr maximum 28 8V dc Isolation Voltage Tested to withstand 1250V rms for 60s Field Power Bus Nominal Voltage Supply Voltage Range Supply Current 24V dc 10 28 8V dc range 10A maximum Dimensions Inches 3 0H x 2 16W x 5 25L Millimeters 76 2H x 54 9W x 133 4L Environmental Conditions Operational IEC 60068 2 1 Test Ad Operating Cold Temperature IEC 60068 2 2 Test Bd Operating Dry Heat IEC 60068 2 14 Test Nb Operating Thermal Shock 20 to 55 C 4 to 131 F Storage Temperature IEC 60068 2 1 Test Ab Unpackaged Nonoperating Cold IEC 60068 2 2 Test Bb Unpackaged Nonoperating Dry Heat IEC 60068 2 14 Test Na Unpackaged Nonoperating Thermal Shock 40 to 85 C 40 to 185 F Relative Humidity IEC 60068 2 30 Test Db Unpackaged Nonoperating Damp Heat 5 to 95 noncondensing Sh
46. as radiated disturbance This equipment is supplied as enclosed equipment It should not require additional system enclosure when used in locations consistent with the enclosure type ratings stated in the Specifications section of this publication Subsequent sections of this publication may contain additional information regarding specific enclosure type ratings beyond what this product provides that are required to comply with certain product safety certifications NOTE See NEMA Standards publication 250 and IEC publication 60529 as applicable for explanations of the degrees of protection provided by different types of enclosure Also see the appropriate sections in this publication as well as the publication E115P Industrial Automation Wiring and Grounding Guidelines for additional installation requirements pertaining to this equipment ATTENTION A Preventing Electrostatic Discharge This equipment is sensitive to electrostatic discharge which can cause internal damage and affect normal operation Follow these guidelines when you handle this equipment e Touch a grounded object to discharge potential static e Wear an approved grounding wriststrap e Do not touch connectors or pins on component boards e Do not touch circuit components inside the equipment e If available use a static safe workstation e When not in use store the equipment in appropriate static safe packaging isysNet EtherNet IP
47. as four decimal integers 0 255 separated by periods where each integer gives the value of one byte of the IP address For example the 32 bit IP address 10000000 00000001 00000000 00000001 is written as 128 1 0 1 Gatew ay Address This section applies to multi network systems If you have a single network system please skip to the next section The G ateway Address is the default address of a network It provides a single domain name and point of entry to the site G ateways connect individual physical networks into a system of networks When a node needs to communicate with a node on another network a gateway transfers the data between the two networks The following figure shows gateway G connecting Network 1 with Network 2 A 128 1 0 1 Netw ork 1 128 1 0 2 G B c 128 2 0 3 128 2 0 1 128 2 0 2 Netw ork 2 When host B with IP address 128 2 0 1 communicates with host C it knows from C s IP address that C is on the same network In an Ethernet environment B can then resolve C s IP address into a hardware address MAC address and communicate with C directly Publication 1734 UM 011A EN P February 2004 3 4 Configure the 1734 AENT Adapter for Your EtherNet IP N etw ork EXAMPLE Publication 1734 UM 011A EN P February 2004 When host B communicates with host A it knows from A s IP address that A is on another network the net IDs are different
48. audible leakage is present or the product does not operate properly do not put into use Warnings and specifications on the product should not be covered by paint etc If masking is not possible contact your local representative for replacement labels Safety Guide For more complete information on recommended application guidelines see the Safety Guide section of Pneumatic Division catalogs or you can download the Pneumatic Division Safety Guide at www parker com safety isysNet EtherNet IP Adapter User Manual The isysNet EtherNet IP Adapter User Manual PSS UM004A EN P is not available at this time Please refer to Rockwell Automation 1734 POINT I O EtherNet IP Adapter User Manual 1734 UM011A EN P for similar setup information which is available online at http Aiterature rockwellautomation com Installation amp Service Instructions E104P isysNet EtherNet IP Adapter Series A PSSCENA ISSUED December 2006 Supersedes December 2005 Doc E104P EN 060961 Rev 3 Introduction Follow these instructions when installing operating or servicing the product isysNet EtherNet IP Adapter Series A PSSCENA The sealed IP67 housing of the adapter requires no enclosure Note that environmental requirements other than IP67 may require an additional appropriate housing The EtherNet IP connector is a sealed D coded M12 micro style The EtherNet IP adapter is shown below
49. audible leakage is present or the product does not operate properly do not put into use Warnings and specifications on the product should not be covered by paint etc If masking is not possible contact your local representative for replacement labels For more complete information on recommended application guidelines see the Safety Guide section of Pneumatic Division catalogs or you can download the Pneumatic Division Safety Guide at www parker com safety Installation amp Service Instructions E100P isysNet 32 Point Valve Driver Series A PSSV32A ISSUED December 2006 Supersedes June 2005 Doc E100P EN 060961 Rev 2 Introduction Follow these instructions when installing operating or servicing the product isysNet 32 Point Valve Driver Series A PSSV32A The sealed IP67 housing of these modules requires no enclosure Note that environmental requirements other than IP67 may require an additional appropriate housing The PSSV32A module is shown below The PSSV32A valve driver module provides an interface between the isysNet serial bus system and the Isys valve assembly This module will always be the last module on the isysNet serial bus It controls 32 digital outputs at 24VDC Depending on valve selection it can control up to 32 single solenoid valves or 16 double solenoid valves PSSV32A Outputs 1 24 Connector Outputs 25 32 Connector N WARNING FAILURE OR
50. choose Communications gt W ho Active 2 Navigate to select the slot where the processor is located in the chassis 3 Choose Set Project Path 4 Choose Download Who Active Autobe las Linx Gateways Ethernet AB_ETH 1 Ethernet AB_ETHIP 1 Ethernet 10 88 70 2 1734 AENT PointIO EtherNet IP Adapter 1734 AE Backplane PointIO 2 Slot Chassis g 00 1734 AENT PointIO EtherNet IP Adapter j 01 1734 OW2 C 2pt Relay Output 1734 OW2 2 PT ie g 02 1734 OV4E C 4pt DC Output 1734 OV4E 4 PT 244 a 10 88 70 90 1756 ENBT A4 1756 ENBT A Backplane 1756 44 4 00 1756 OB16D 4 1756 OB16D 4 DCOUT DIAG OINT_IO e a Channel 0 DF1 02 1756 CNBR D 1756 CNBR D 5 Choose Download Download Cosmea Cancel_ Helo _ You see this window RSLogix 5000 Publication 1734 UM 011A EN P February 2004 4 16 Configure the 1734 AENT for Direct Connection in RSLogix 5000 Notice that the 1756 ENBT Bridge is now online If yellow triangles are present see the following section 1 8 1 0 Configuration 3 1756 ENBT A Local_ENB E l 0 1734 AENT A POINT_IO_Adapter fh 1 1734 0Vv2 POINT_Relay_Output fh 2 1734 OV4E POINT_Digital_Output Ve rify the Module You have now built the I O tree in RSLogix 5000 and the RSLogix 5000 Chassis Size software used the chassis size from the 1734 AENT General tab Now you need to download this new chassis size value into the 1734 AENT adapter
51. click on the Disable BootP DHCP button Now the adapter should store the IP address subnet mask etc as well as disable DHCP for future power cycles See figure below F BOOTP DHCP Server 2 3 File Tools Help Request History Clear History Add to Relation List Ethemet Address MAC IP Address Hostname O0 BC 28 40 14 172 26 24 89 00 BC 28 40 14 00 BC 28 40 14 O0 BC 28 40 14 O0 00 B0 28 40 14 New Delete Enable BOOTP Enable DHCP Disable BOOTP DHCP uy en ae ard Ethemet Address MAC OBC 284014 DHCP 17226 2483 Sara i Force selected device to retain configuration in memory at next po Status Entries Sent 172 26 24 89 to Ethemet address 00 00 B0 28 40 14 1 of 256 step 1 Assign IP Address cont d 11 If later on you want change adapters IP address power off the adapter set switch to 888 then repeat 2 11 Once IP address is stored in adapter power off the adapter and change switch setting to an invalid number other than 888 Power on adapter then it is ready for use step 2 Create An RSLogix 5000 File Open RSLogix 5000 Rev 15 and create a new file by selecting File New to bring up the screen below Select the controller tyoe you are using the revision of your RSLogix software and create a file name Click OK New Controller Vendor Allen Bradley aes 1769 L32E CompactLogix332E Controller Name Parker_Enet_Demo_Case Description Create In U4 QS3659 ser
52. configuring different I O modules for your system TIP This example application uses the I O modules default configurations For more information see the POINT I O Selection Guide publication no 1734 SG 001 Add the Relay Output M odule 1 Right click on the remote 1734 AENT adapter under the I O Configuration folder and select New Module 3 6 Vo Configuration 3 1756 ENBT A Local_ENB 0 1734 AENT A POINT_IO_Adapter New Module Cut Copy Paste Delete Cross Reference Perit Properties Publication 1734 UM 011A EN P February 2004 Configure the 1734 AENT for Direct Connection in RSLogix5000 49 The Select Module Type window will open 2 Select the 1734 OW 2 C relay output module from the list and click on OK Select Module Type E x Type Major Revision fi 734 0W2 C 3 X Description 1734 0A2 C 2 Point 1204 AC Output 1734 0B2E C 2 Point 10 28V DC Electronically Fused Output Source 1734 0B2EP C 2 Point 10 28V DC Electronically Fused Protected Output Source 1734 0B4E C 4 Point 10 28 DC Electronically Fused Output Source 1734 0E2C C 2 Channel Analog Current Output 1734 08 2V 0 2 Channel Analog Voltage Output 1734 02 C 2 Point 10 28 DC Electronically Fused Output Sink 1734 0V4E C 4 Point 10 28 DC Electronically Fused Output Sink 34 0 C 2 Point AC DC Relay Output 1 734 0X2 0 2 Point Relay Output N O N C 1734 SS1 C 1
53. describes how to use this manual The following table lists where to find specific information within this chapter For information about See page Who Should Use This M anual P 1 Common Techniques Used in This M anual P 1 How To Use This M anual P 2 About the Example Applications P 2 System Components P 3 Where to Find M ore Information P 4 Terminology P 6 This manual is intended for control engineers and technicians who are installing configuring and maintaining an EtherNet IP control system that communicates with POINT I O through a 1734 AENT adapter We assume you have a good understanding of Ethernet and the TCP IP protocol ATTENTION You must use Series C POINT I O modules with the A 1734 AENT adapter Series A or B POINT I O modules will not work with this adapter The following conventions are used throughout this manual e Numbered lists provide sequential steps e Bulleted lists provide information not procedural steps e Information in bold text identifies menu windows screen options screen names or areas of the screen such as dialog boxes status bars radio buttons and parameters pi n The screen captures shown in this manual are pictures of the software s actual screens Publication 1734 UM 011A EN P February 2004 Preface 2 How To Use This Manual Publication 1734 UM 011A EN P February 2004 TIP This symbol identifies helpful tips This manual contains an overview o
54. e Choose the PSSN8M8A module from the list of Parker modules E Select Module Module Description Allen Bradley Parker Hannifin Corp PSSNBM12A PSSN8M23A 8 input 24vdc digital sinking M12 8 input 24vdc digital sinking M23 8 input 24vdc digital sinking MS 2 input analog current M12 2 input analog voltage M12 8 input 24vdc digital sourcing M12 8 input 24vde digital sourcing M23 8 input 24vdc digital sourcing M8 8 Output 24vde digtal sourcing M12 8 Output 24vde digital sourcing M23 8 Output 24vde digtal sourcing MS 2 output analog current M12 2 output analog voltage M12 4 output relay M12 32 output 24vde digital sourcing module PSSNACMI124 PSSNAVMI24 PSSP8M124 PSSP8M23A PSSP8MSA PSSTSM12A PSST8M23A PSST8MBA PSSTACMI24 PSSTAYM124 PSSTR4M12A PSS 32A By Category By Vendor Enter a name and click OK E New Module General Connection Module Info Configuration Type PSSNSM amp A4 8 input 24vde digital sinking M8 Vendor Parker Hannifin Corp Parent CNet_Adapter Name M12_Sinkind Description Module Definition Series Revision Electronic Keying Connection Data Format Status Creating e Notice that the PSSN8M8A is now under the I O configuration isysNet 24 VDC Input Modules Series A PSSN8M8A PSSN8M12A PSSN8M23A PSSP8M8A PSSP8M12A PSSP8M23A E106P If your RSLogic 5000 is Version 13 X e Choose the equivalent Rockwell Aut
55. equipment unless power has been removed or the area is known to be nonhazardous Do not disconnect connections to this equipment unless power has been removed or the area is known to be nonhazardous Secure any external connections that mate to this equipment by using screws sliding latches threaded connectors or other means provided with this product Substitution of components may impair suitability for Class I Division 2 If this product contains batteries they must only be changed in an area known to be nonhazardous A RISQUE D EXPLOSION Couper le courant ou s assurer que l environnement est class non dangereux avant de d brancher l quipement Couper le courant ou s assurer que l environnement est class non dangereux avant de d brancher les connecteurs Fixer tous les connecteurs externes reli s cet quipement l aide de vis loquets coulissants connecteurs filet s ou autres moyens fournis avec ce produit La substitution de composants peut rendre cet quipement inadapt une utilisation en environnement de Classe 1 Division 2 S assurer que l environnement est class non dangereux avant de changer les piles Publication 1734 UM 011A EN P February 2004 7 2 Safety Approvals and Specifications Specifications Specifications information for the 1734 AENT is below Specifications 1734 AENT EtherNet IP Adapter Expansion I O Capacity Maximum of 63 mo
56. full duplex 10 Mbit or 100 Mbit operation e DIN rail mounting e communication to and from other POINT I O modules on the same DIN rail e communication supported by RSLinx software e IP address assigned via standard BootP or DHCP tools e I O configuration via RSLogix 5000 software e no network scheduling required e no routing tables required e supports connections from multiple controllers simultaneously Hardw are Softw are Compatibility W hat the Adapter Does Use of the Common Industrial Protocol CIP About the 1734 AENT Adapter 1 5 The 1734 AENT adapter and the applications described in this manual are compatible with the following firmware versions and software releases Contact Rockwell Automation if you need software or firmware upgrades to use this equipment Product Firmware Version Softw are Release 1734 AENT Adapter 1 xx or higher 1756 EN BT 2 3 or higher Logix 5555 Controller 11 or higher RSLogix 5000 software 11 11 or higher RSLinx software 2 3 1 or higher The 1734 AENT adapter performs two primary tasks 1 Control of real time I O data also known as implicit messaging The 1734 AENT adapter serves as a bridge between POINT I O modules and the network t E 5 8 2 T EtherN et IP Netw ork F N Oth I f PQINT f ControlLogix P N J0 B 1 0 T T Devices N 2 Support of messaging data for config
57. in the next chapter WARNING O If you connect or disconnect the Ethernet cable with power applied to this module or any device on the network hazardous location installations A an electrical arc can occur This could cause an explosion in Be sure that power is removed or the area is nonhazardous before proceeding 4 Slide the safety end cap up to remove it This exposes the backplane and power interconnections Do not discard the adapter s end cap Use this end cap to cover the exposed interconnections on the last mounting A base on the DIN rail Failure to do so could result in equipment damage or injury from electric shock Follow the steps below to mount or replace an Ethernet adapter 1 Remove the existing adapter if there is one from the DIN rail as follows Pull up on the RTB removal handle to remove the terminal block Disconnect the Ethernet connector from the adapter Remove the adjacent module from its base Use a small bladed screwdriver to rotate the DIN rail locking screw to a vertical position This releases the locking mechanism e Lift straight up to remove 2 nan op For the replacement adapter slide the safety end cap up to remove This exposes the backplane and power connections Position the replacement adapter vertically above the DIN rail Make certain the DIN rail lock is in the horizontal position Slide the adapter down allowing the interlocking side pieces to eng
58. just saved to the th ControlLogi troller e Controller x controle 1 From the main menu choose Communications gt W ho Active 2 Navigate to select the slot where the processor is located in the chassis 3 Choose Set Project Path 4 Choose Download fs Who Active Ioj x IV Autobrowse Refresh Hl es Linx Gateways Ethernet a fas AB_ETH 1 Ethernet AB_ETHIP 1 Ethernet Upload S 10 88 70 2 1734 AENT PointIO EtherNet IP Adapter 1734 AE Backplane PointIO 2 Slot Chassis Download 00 1734 AENT PointIO EtherNet IP Adapter 01 1734 Ow2 C 2pt Relay Output 1734 OW2 2 PT RE Update Firmware g 02 1734 OV4E C 4pt DC Output 1734 OV4E 4 PT 24V Close 5j 5 10 88 70 90 1756 ENBT A 1756 ENBT A amp Backplane 1756 A4 4 Help 00 1756 OB16D 4 1756 OB16D 4 DCOUT DIAG 01 1756 L55 4 LOGIX5555 POINT_IO_Controller Ele Channel 0 DF1 El h 02 1756 CNBR D 1756 CNBR D 4 i Path AB_ETHIP 1410 88 70 90 Backplane 1 Set Project Path Path in Project lt none gt Clear Project Path Publication 1734 UM 011A EN P February 2004 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix5000 5 13 5 Choose Download Download x N Download to the controller Name Test_26_Rack_Opt Type 1756 L17A ControlLogix5550 Controller Path AB_PCC 1_CNet 2 Backplane 0 Security lt None gt A The controller is in Remote
59. located on or inside the equipment to alert people that dangerous voltage may be present Labels may be located on or inside the equipment to alert people that surfaces may be dangerous temperatures E107P ATTENTION A Environment and Enclosure This equipment is intended for use in overvoltage Category Il applications as defined in IEC publication 60664 1 at altitudes up to 2000 meters without derating This equipment is considered Group 1 Class A industrial equipment according to IEC CISPR Publication 11 Without appropriate precautions there may be potential difficulties ensuring electromagnetic compatibility in other environments due to conducted as well as radiated disturbance This equipment is supplied as enclosed equipment It should not require additional system enclosure when used in locations consistent with the enclosure type ratings stated in the Specifications section of this publication Subsequent sections of this publication may contain additional information regarding specific enclosure type ratings beyond what this product provides that are required to comply with certain product safety certifications NOTE See NEMA Standards publication 250 and IEC publication 60529 as applicable for explanations of the degrees of protection provided by different types of enclosure Also see the appropriate sections in this publication as well as the publication E115P Industrial Automation Wiring and Grou
60. loss of process control The following chapter describes an example application in which you configure discrete I O using a rack optimized connection About the Example Application Chapter 4 Configure the 1734 AENT for Direct Connection in RSLogix 5000 In this example a ControlLogix processor communicates with POINT I O via the 1734 AENT adapter using a direct connection The adapter will make a direct connection to each of the modules referenced by the data Note that the modules presented in this chapter are configured using RSLogix 5000 version 11 What you will do See page Set Up the Hardware 4 2 Create the Example Application 4 3 Configure the 1 0 4 4 Add the Local EtherNet IP Bridge to the 1 0 Configuration 4 4 Add the POINT I O Adapter to the 1 0 Configuration 4 6 Add the POINT I O M odules to the 1 0 Configuration 4 8 Add the Relay Output M odule 4 8 Add the Digital Output M odule 4 11 Edit the Controller Tags 4 13 Create the Ladder Program 4 14 Download the Program to the Controller 4 15 Verify the Module Chassis Size 4 16 Configure the 1734 AENT with Fixed IP Address 4 18 Configure the 1734 AENT with Fixed IP Address 4 18 An Overloaded 1734 AENT 4 19 ATTENTION You must use Series C POINT I O modules with the A 1734 AENT adapter Series A or B POINT I O modules will not work with this adapter Publication 1734 UM 011A EN P February 2004 4 2 Configure the 1734 AENT
61. not control the modules when you have multiple processors one processor is used to control and the other processors are used to monitor Because we are making a mixed connection both a direct connection and rack optimized connection Rack Optimization is chosen as the Comm Format 4 Click on Next Publication 1734 UM 011A EN P February 2004 5 8 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix 5000 The following window will open Module Properties Local_ENB 0 1734 AENT A 1 1 x Requested Packet Interval RPI 10 04 ms 2 0 750 0 ms J Inhibit Module J Major Fault On Controller If Connection Fails While in Run Mode Module Fault Cancel Finish gt gt Help 5 Verify that the Requested Packet Interval RPI is appropriate for your system 10 ms for this example This will be used for the rack optimized connection to the I O modules To avoid overloading the 1734 AENT it is recommended that the RPI be no less than 10 ms for rack connections and 50 ms for direct connections Click on the Finish button to accept the configuration The 1734 AENT adapter will appear indented under the local 1734 EN BT in the I O Configuration folder ay 1 0 Configuration E 3 1756 ENBT 4 Local_ENB Be BO 1734 AENT A POINT _IO_Adapter Add the POINT 1 0 Module and Configure For Direct Connection 1 Highlight the 1734 AENT under I O configuration right click and
62. now under I O Configuration isysNet 32 Point Valve Driver Series A PSSV32A If your RSLogic 5000 is Version 13 X e Highlight the 1738 AENT under I O configuration right click and select New Module e Choose the Generic 1738 module from the list of Allen Bradley modules Select Module Type Type 1738MODULE Description 2 Channel RTD Input A 2 Channel Thermocouple Input Isolated 4 Point 10 28V DC Input Source Generic 1738 Module 2 Point 120V AC Output 2 Point 10 28V DC Electronically Fused Output Source 2 Point 10V 28V DC Electronically Fused Protected Output Source 4 Point 10 28V DC Electronically Fused Output Source 4 Point 10 28V DC Electronically Fused Output Source 1738 0B8EM12 A 8 Point 10V 28V DC Electronically Fused Output Source 1738 0B8EM8 A 8 Point 10V 28V DC Electronically Fused Output Source 1738 0E2CM12 A 2 Channel Analog Current Output 1738 0E2VM12 A 2 Channel Analog Voltage Output 1738 0V4EM12 A 4 Point 10V 28V DC Electronically Fused Output Sink v Show Vendor All v WM Othe Speciaty 0 SelectAll W Analog W Digital Communication Motion V Controler Clear All a e Enter a name optional an appropriate slot number and the connection parameters as shown in this screen capture Module Properties ENet_Adapter 1 1738 MODULE 1 1 1736 MODULE Genetic 1738 Module ENet Adapter Connection Parameters Name VoM Descriptor 32 Point Valve Driver Module
63. or circumstances that can cause an explosion in a hazardous environment which may lead to personal injury or death property damage or economic loss IMPORTANT Identifies information that is critical for successful application and understanding of the product ATTENTION Identifies information about practices or circumstances that can lead to personal injury or death property damage or economic loss Attentions help you e Identify a Hazard e Avoid a Hazard e Recognize the Consequence jello d VAGUE Labels may be located on or inside the equipment to alert people that dangerous voltage may be present ciO yA GDE Labels may be located on or inside the equipment to alert people that surfaces may be dangerous temperatures E104P ATTENTION A Environment and Enclosure This equipment is intended for use in overvoltage Category Il applications as defined in IEC publication 60664 1 at altitudes up to 2000 meters without derating This equipment is considered Group 1 Class A industrial equipment according to IEC CISPR Publication 11 Without appropriate precautions there may be potential difficulties ensuring electromagnetic compatibility in other environments due to conducted as well as radiated disturbance This equipment is supplied as enclosed equipment It should not require additional system enclosure when used in locations consistent with the enclosure type ratings
64. r Domain Name IP Address 5 5 Domain Name Must Match IP Address on General Tab Primary DNS Server Address SubnetMask 255 255 0 0 a Gateway Address 0 0 0 0 2i DHCP must be configured to return a fixed address Refresh Set 3 Click the Set button 4 Read and acknowledge the warning I xi MN Danger Multi controller systems If two or more controllers are sharing this module applying these configuration changes could affect the operation of the other controllers Apply the changes to the module configuration x e e _ 3 Click OK Click the Refresh button to verify the changes Publication 1734 UM 011A EN P February 2004 Configure the 1734 AENT for Direct Connection in RSLogix5000 4 19 An Overloaded 1734 AENT Each POINT I O connection established with the 1734 AENT will consume a portion of the microprocessor s bandwidth The amount of bandwidth used by aconnection depends on a number of variables including the Requested Packet Interval RPI the number of POINT I O modules involved in the connection and the rate of change of the I O The 1734 AENT continuously monitors this bandwidth and will reject requests for new connections when there is insufficient bandwidth available to support the new connection The condition where the 1734 AENT cannot support the connection due to a limit of the microprocessor s bandwidth is shown below il Module Properties Loc
65. receive information at the same time effectively doubling the bandwidth fully qualified domain name A Fully Qualified Domain Name FQDN is a domain name that includes all higher level domains relevant to the entity named If you think of the DNS as a tree structure with each node having its own label a Fully Qualified Domain Name for a specific node would be its label followed by the labels of all the other nodes between it and the root of the tree For example for a host a FQDN would include the string that identifies the particular host plus all domains of which the host is a part up to and including the top level domain the root domain is always null For example PARIS NISC SRI COM is a Fully Qualified Domain Name for the host at 192 33 33 109 gateway A module or set of modules that allows communications between nodes on dissimilar networks hardware address Each Ethernet device has a unique hardware address sometimes called a MAC address that is 48 bits The address appears as six a separated by colons i xx Xx Xx Xx xx xx Each digit has a value between 0 and 255 0x00 to OxFF This address is assigned in the hardware and cannot be changed The hardware address is required to identify the device if you are using a BOOTP utility host name The Host Name is the unique name for a computer within its domain It s always the first element of a full name and with its domain and top level domain suf
66. select New Module If the 1734 AENT chassis size is exceeded i e you try to add more modules than you configured the New Module selection will be dimmed out and disabled You will not be able to add any more POINT I O modules until the 1734 AENT chassis size is increased 2 Choose the 1734 OW2 C from the list of modules Publication 1734 UM 011A EN P February 2004 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix 5000 5 9 Select Module Type xj Type Major Revision fi 734 0W2 E 3 X Description 1734 41B4 C 4 Point 10 28 DC Input Sink 17344M2 C 2 Point 240V AC Input 17 34 1V2 0 2 Point 10 28 DC Input Source 1 734 V4 0 4 Point 10 28 DC Input Source 1734 0A2 C 2 Point 120V AC Output 1734 08 2E C 2 Point 10 28 DC Electronically Fused Output Source 2 Point 10 28 DC Electronically Fused Protected Output Source 4 Point 10 28 DC Electronically Fused Output Source 2 Point 10V 28V DC Electronically Fused Output Sink 4 Point 10 28 DC Electronically Fused Output Sink 2 Point AC DC Relay Output 2 Point Relay Output N O N C X Show Vendor an z I Other I Specialty 1 0 Select All I Analog Digital Communication Motion J Controller Clear AII Cancel Help At the bottom of the Select M odule Type screen you can choose Clear All and then select a type of module analog digital specialty to narrow your search
67. software Launch RSLinx Software Launching the RSLinx software will enable you to configure the driver you will use to communicate with the a ControlLogix processor Dh ZN ASLinx 1 Double click on the RSLinx icon on the Desktop to launch RSLinx software 2 Click on the RSWho icon l 1734 AENT QuickStart D 9 The Rockwell Software RSLinx G ateway RSWho 1 screen appears RSLinx Gateway RSWho 1 7 f 10 x a File Edit Yiew Communications Station DDE OPC Security Window Help 8 x 5 sa Blk V Autobrowse Refresh Not Browsing 4 Workstation M37881 For Help press F1 li ame 06 19 02 04 34PM 4 The RSWho screen is actually RSLinx s network browser interface which lets you view all of your active network connections TIP The left pane of this display is the Tree Control which shows networks and devices in a hierarchical view When a network or device is collapsed as indicated by the sign you can click on the sign or double click on the network or device icon to expand the view and begin browsing When a network or device is expanded as indicated by the sign you can click on the sign or double click on the network or device icon to collapse the view The right pane of the RSWho display is the List Control which is a graphical representation of all of the devices present on the network If there is a communication status error with a device e g TIP f na when
68. speed of transmission In traditional I O systems controllers poll input modules to obtain their input status In the CIP system input modules are not polled by a controller Instead they produce multicast their data either upon a change of state CO S or periodically The frequency of update depends upon the options chosen during configuration and where on the network the input module resides The input module therefore is a producer of input data and the controller is a consumer of the data The controller can also produce data for other controllers to consume The produced and consumed data is accessible by multiple controllers and other devices over the EtherNet IP network This data exchange conforms to the producer consumer model The RPI is the update rate specified for a particular piece of data on the network The RPI can be specified for the adapter and include all of the I O modules communicating through it using a rack optimized connection or specified for a particular module using direct connection When you add a module or an adapter to the I O configuration of a controller you must enter the RPI as a parameter This value specifies how often to produce the data for that device For example if you specify an RPI of 50 ms it means that every 50ms the device should send its data to the controller or the controller should send its data to the device RPIs are only used for devices that exchange data For exampl
69. stated in the Specifications section of this publication Subsequent sections of this publication may contain additional information regarding specific enclosure type ratings beyond what this product provides that are required to comply with certain product safety certifications NOTE See NEMA Standards publication 250 and IEC publication 60529 as applicable for explanations of the degrees of protection provided by different types of enclosure Also see the appropriate sections in this publication as well as the publication E115P Industrial Automation Wiring and Grounding Guidelines for additional installation requirements pertaining to this equipment ATTENTION A Preventing Electrostatic Discharge This equipment is sensitive to electrostatic discharge which can cause internal damage and affect normal operation Follow these guidelines when you handle this equipment e Touch a grounded object to discharge potential static e Wear an approved grounding wriststrap e Do not touch connectors or pins on component boards e Do not touch circuit components inside the equipment e If available use a static safe workstation e When not in use store the equipment in appropriate static safe packaging isysNet EtherNet IP Adapter Series A PSSCENA Before You Begin To effectively use your adapter note the following considerations Determine Compatibility If using the adapter with an Allen Bradley 1756 ENBT mo
70. the 32 point valve driver 32 Point Valve Driver Outputs per Module 32 sourcing Voltage Drop On State Output Maximum 0 2VDC Voltage Off State Output Maximum 28 8VDC Voltage On State Output Maximum Minimum Nominal 28 8VDC 10VDC 24VDC Output Current Rating 200 mA per channel not to exceed 6 0 A per module Output Surge Current Maximum 0 5 A for 10 ms repeatable every 3 seconds Current Leakage Off State Output Maximum 0 1 mA Current On State Output Minimum 200 mA per channel Output Delay Time OFF to ON Maximum 0 1 ms Output Delay Time ON to OFF Maximum 0 1 ms External DC Power Supply Voltage Range 10 to 28 8VDC External DC Power Supply Voltage Nominal General Specifications LED Indicators 24VDC 1 output status 1 green red network status logic side 1 green red module status logic side PointBus Current Maximum 75 mA 5VDC Operating Temperature IEC 60068 2 1 Test Ad Operating Cold IEC 60068 2 2 Test Bd Operating Dry Heat IEC 60068 2 14 Test Nb Operating Thermal Shock 20 to 60 C 4 to 140 F Storage Temperature IEC 60068 2 1 Test Ab Un packaged Non operating Cold IEC 60068 2 2 Test Bb Un packaged Non operating Dry Heat 40 to 85 C 40 to 185 F Relative Humidity IEC 60068 2 30 Test Db Un packaged Non operating Damp Heat 5 to 95 non condensing Shock IEC60068 2
71. their use e You can only use rack optimized connections to send data to and from discrete I O modules Analog or speciality I O requires direct connections e All data is sent at the same time at the RPI rate of the 1734 AENT adapter See the EtherNet IP Performance and Application Guide publication number ENET A P001 for more information on connections Mix Rack Optimized and Direct Connections You can mix communication formats for different I O modules communicating through the same adapter I O modules set up to use rack optimization will communicate at the rate of the RPI configured for the 1734 AENT adapter I O modules configured for direct communication will communicate at their own set RPIs and ignore the 1734 AENT adapter s RPI Publication 1734 UM 011A EN P February 2004 1 8 About the 1734 AENT Adapter Whats Next The following chapter describes how to physically install the 1734 AENT adapter and connect it to the EtherNet IP network Publication 1734 UM 011A EN P February 2004 Chapter 2 Install the 1734 AENT Adapter What This Cha pter Conta ins This chapter describes how to physically install the 1734 AENT adapter on the DIN rail and connect it to the EtherNet IP network The following table lists where to find specific information Topic See Page Identify M odule Components 2 2 M ount the Adapter on a DIN Rail Before Installing M odules 2 2 M ount or Replace EtherNet IP Adap
72. to consumed and received from produced the I O modules These messages are mapped into the processor s memory These I O output modules produce 1 byte of input data scanner Rx status They consume 1 byte of I O data scanner Tx Default Data Map for the Output Modules PSST8M23A PSST8M12A PSST8M8A Message Size 1 Byte on EA ee Produces Ch7 Ch6 Ch5 Ch4 Ch3 Ch2 Ch1 Ch0 Channel Scanner Rx Status Consumes Ch7 Ch6 Ch5 Ch4 Ch3 Ch2 Ch1 Ch0 Output Scanner Tx State Where Channel Status 0 no error 1 error Output State 0 OFF 1 ON EDS File Requirements The EDS files are available online at www parker com pneu isysnet isysNet 24 VDC Output Modules Series A PSST8M23A PSST8M12A PSST8M8A E107P Add 24 VDC Output Modules to RSLogix If your RSLogic 5000 is Version 15 X or greater 5000 I O Configuration Choose the PSST8M12A module from the list of Parker modules To add your output modules to RSLogix 5000 I O configuration follow these steps E Select Module e In RSLogix 5000 g Module Desciiption For ControlNet highlight the PSSCCNA or 1738 ACNR Allen Bradley A x Parker Hannifin Corp Shown right click and select New Module sete ali tas E A PE E tes PSSNOM23A 8 input 24vde digital sinking M23 h A i PSSNEMBA B input 24vde digital sinking MB _ so yo Configuration PSSNACMIZA 2 input analog current M12 1 i 1756 CNB D CNet Scanner PSSNAVMIL24 2 i
73. to 80MHz Emissions CSPR 11 Group 1 Class A Enclosure Type Rating Meets IP65 66 67 when marked Mounting Base Screw Torque 8 screw 7 5 in lbs in Aluminum 16 in lbs in Steel Wiring Category 1 on power ports 1 on communications ports Weight Imperial Metric 0 80 Ib 0 36 kg Certifications when product is marked c UL us UL Listed Industrial Control Equipment certified for US and Canada CE European Union 89 336 EEC EMC Directive compliant with EN 61000 6 4 Industrial Emissions EN 50082 2 Industrial Immunity EN 61326 Meas Control Lab Industrial Requirements EN 61000 6 2 Industrial Immunity C Tick Australian Radiocommunications Act compliant with AS NZS CISPR 11 Industrial Emissions EtherNet IP ODVA conformance tested to EtherNet IP specifications 1 Use this Conductor Category information for planning conductor routing Refer to Publication E115P Industrial Automation Wiring and Grounding Guidelines step 4 Programming cont d 2 Download your program to the controller Connected To Go Online x Options General Date Time Major Faults Minor Faults File Nonvolatile Memory Condition The open project has offline changes that aren t in the controller Connected Controller Controller Name Parker_Enet_Demo_Case Controller Type 1769 L32E 44 CompactLogix5332E Controller Comm Oi Downloading Downloading all Modules BE
74. to an unprogrammed window A configuration was selected that requires the scalar and none was programmed OR Multiple scalars were selected The preset is out of range Rollover A rollover of zero was programmed through PWM was not selected OR A rollover was programmed and PWM was selected OR Rollover is out of range gt 0x01000000 A configuration requiring a time base was selected and no gate interval was set OR Gate interval is out of range gt 200 OR Product of time base and gate interval is greater than 3 seconds A time base was entered that is not a multiple of 10 OR Time base is out of range gt 3000 i e 3 seconds ZF BF AF were selected and no filter was programmed OR Multiple filters were selected A reserved configuration mode was programmed Publication 1734 UM 011A EN P February 2004 C 28 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference 1734 VHSC24 1 Channel 15 24V DC Very High Speed Counter 1734 VHSC5 1 Channel 5V DC Very High Speed Counter Output Data Data Type Default Valid Data Values Value PWM Value INT 0 0 to 9500 0 00 to 95 00 Counter Control SINT 0 Counter Reset BITO 0 0 Count Unchanged 1 Count Cleared Counter Preset BIT1 0 0 Count Unchanged 1 Count Set to Preset Value Reset BIT 2 0 0 Count Unchanged Stored Accumulated Count 1 Count Cleared Output Control SINT 0 Output 0 Force BIT 0 0 0 Output Off 1 Output Forced On Output 0 Enable BI
75. u30 ozi09Pm 7 You see this window Configure driver AB_ETHIP 1 2 x Ethemet IP Settings Browse Local Subnet C Browse Remote Subnet IP Address F 5 p Subnet Mask en c e S e 5 Make sure the Browse Local Subnet button is selected Publication 1734 UM 011A EN P February 2004 B 6 Configure the RSLinx Ethernet Communication Driver RSLinx will browse your local subnet and automatically read the IP address G Click OK The AB ETHIP driver is now configured and appears in the configured drivers window LT Axl Available Driver Types Po af NEWT Add T m Configured Drivers Name and Description Status AB_ETH 1 A B Ethemet RUNNING Running Configure AB_ETHIP 1 4 B Ethemet RUNNING Startup Start Stop eeki EE Delete 7 Close RSLinx Publication 1734 UM 011A EN P February 2004 1734 POINT 1 0 Catalog Numbers Appendix C 1734 POINT 1 0 M odule RSLogix 5000 Controller Tag Reference ATTENTION A You must use Series C POINT I O modules with the 1734 AENT adapter Series A or B POINT I O modules will not work with this adapter 1734 POINT 1 0 Catalog Number RSLogix5000 M odule Description Digital Modules 1734 1A2 C 2 POINT 120V AC Input 1734 1B2 C 2 POINT 10V 28V DC Input Sink 1734 1B4 C 4 POINT 10V 28V DC Input Sink 1734 IM 2 C 2 POINT 240V AC
76. 0 128 Length_HI SINT 0 Oorl Data 128 SINT 0 Transmitted ASCII M essage Publication 1734 UM 011A EN P February 2004 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference C 41 Transmit Record Number Receive Record Number Length_Lo Note Note that 7 data bits allows Transmit Receive record Number of Length_Lo values of 0 127 which RSLogix 5000 does support in the signed Short Integer data type SINT 128 to 127 range Note that 8 data bits allows Transmit Receive record Number of Length_Lo values of 0 255 To enter values from 128 to 255 use this conversion formula Desired Decimal Value 256 Entered D ecimal Value Example Fora Transmit Receive record Number of Length Lo value of 128 128 256 128 Publication 1734 UM 011A EN P February 2004 C 42 1734 POINT 1 0 M odule RSLogix 5000 Controller Tag Reference Notes Publication 1734 UM 011A EN P February 2004 What s In This Appendix Appendix D 1734 AENT Quick Start In this quick start you will learn how to use the 1734 AENT with a ControlLogix processor for EtherN et IP This quick start contains a simple set of steps and reminders that will help you avoid errors when you are configuring your POINT I O system for EtherNet IP ATTENTION You must use Series C POINT I O modules with the A 1734 AENT adapter Series A or B POINT I O modules will not work with this adapter Necessary Pre requisi
77. 0 3 C Ch1HHAlar 9800 Decimal INT remote_POINT_I0 3 C Chi Range 2 Decimal SINT mi remote_POINT_I0 3 C Ch1LimitAl 0 Decimal SINT mi remote_POINT_10 3 C ChlAlarmD 0 Decimal SINT B remote_POINT_IO 3 C NotchFilter 2 Decimal SINT B Decimal INT i 7 ees AB 1734_1E21 0 a gt Monitor Tags 4 up In this configuration window you enter the values that would correspond to the desired range According to Appendix C of this user manual the range type default value for a 1734 IE2V module is 2 which is equal to 0 10VDC 4 Click on the configuration tag for the module in slot 4 remote_POINT_10 4 C 5 Check the value in the tag remote_POINT_10 4 C ChORangeType Publication 1734 UM 011A EN P February 2004 D 6 1734 AENT Quick Start It is set to 1 which is one of the default values If you look to Appendix C of this user manual you will see that there are two settings that this module will support e 1 0to 10VDC e 3 10to 10VDC Controller Tags CNet_POINT_IO controller Scope CNet_POINT_1O co1 Show Show All x Sort Tag Name z Publication 1734 UM 011A EN P February 2004 Tag Name 2 Value Force Mask Style Type Description al Z remote _POINT 0 4 6 T Gone AB 1734_
78. 004 C 36 Publication 1734 UM 011A EN P February 2004 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference 1734 SS 1 Channel Synchronous Serial Interface Input Data Data Type Default Valid Data Values Value Present Data DINT 0 2 147 483 648 to 2 147 483 647 0 4 294 967 295 Latched Data DINT 0 2 147 483 648 to 2 147 483 647 0 4 294 967 295 Status INT 0 Input Status BIT 0 O Input is Off 1Anput is On Run BIT 1 O M odule is not Running 1 M odule is Running Decreasing Count BIT 2 0 Count not Decreasing 1 Count is Decreasing Increasing Count BIT 3 0 Count not Increasing 1 Count is Increasing Compare0 Reached BIT 4 0 Compare not Reached Comparel Reached BIT5 1 Compare was Reached Compare Status BIT 6 0 Compare Off Compare Status BIT 7 1 Compare On Power Fault BIT 8 O No 24Vdc Power Fault 1 24Vdc Power Fault Configuration Fault BIT 9 O No FPGA Config Fault 1 FPGA Config data bad Communication Fault BIT 10 0 No FPGA Comm Fault 1 FPGA Comm Fault Input Data Fault BIT 11 0 No Input Data Fault 1Snput Power Fault short Data Latched BIT 12 0 Input Data Not Latched 1Hnput Data Latched Present Latched Data Note To interpret values from 2 147 483 648 to 1 use this conversion formula Stored D ata Tag Value 4 294 967 296 Actual Stored D ata Tag Value Example For a read value of 1 794 967 296 1 794 967 296 4 294 967 296 2 500 000 000 actual value 1734
79. 006 Doc E106P EN 060961 Rev 3 N WARNING PSSN8M12A N To avoid unpredictable system behavior that can cause personal injury T PSSN8M12A and property damage SA Disconnect electrical supply when necessary before installation servicing or conversion Female Female Disconnect air supply and depressurize all air lines connected to Connector a se Connector this product before installation servicing or conversion M12 A M12 BFemale Operate within the manufacturer s specified pressure temperature and other conditions listed in these instructions Medium must be moisture free if ambient temperature is below freezing Service according to procedures listed in these instructions Installation service and conversion of these products must be F performed by knowledgeable personnel who understand how Goaan T pneumatic products are to be applied MISCA or After installation servicing or conversion air and electrical supplies when necessary should be connected and the product tested for proper function and leakage If audible leakage is present or the product does not operate properly do not put into use Warnings and specifications on the product should not be covered by paint etc If masking is not possible contact your local representative for replacement labels LED Indicators Gall Female Connector M12 D
80. 1 50Hz 2 60Hz 4 250Hz 6 500Hz Real Time Sample Channel 0 amp 1 INT 100 0 to 10 000 ms 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference C 11 1734 1E2C 2 Channel Analog Current Input Input Data Data Type Default Valid Data Values Value Data Channel 0 INT 0 32 768 to 32 767 Data Channel 1 INT 0 32 168 to 32 767 Status Byte Channel 0 SINT 0 Bit 0 Fault Bit 1 Calibration Bit 2 LowAlarm Bit 3 HighAlarm Bit 4 LowLowAlarm Bit 5 HighHighAlarm Bit 6 Underrange Bit 7 Overrange Status Byte Channel 1 SINT 0 Bit 0 Fault Bit 1 Calibration Bit 2 LowAlarm Bit 3 HighAlarm Bit 4 LowLowAlarm Bit 5 HighHighAlarm Bit 6 Underrange Bit 7 Overrange Output Data Data Type Default Valid Data Values Value None Publication 1734 UM 011A EN P February 2004 C 12 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference 1734 IE2V 2 Channel Analog Voltage Input Configuration Data Data Type Default Valid Data Values Value Low Engineering Channel 0 INT 0 32 168 to 32 767 High Engineering Channel 0 INT 10 000 32 768 to 32 767 Digital Filter Channel 0 INT 0 0 to 10 000 ms Low Alarm Limit Channel 0 INT 500 32 168 to 32 767 High Alarm Limit Channel 0 INT 9 500 32 768 to 32 767 Low Low Alarm Limit Channel 0 INT 200 32 768 to 32 767 High High Alarm Limit Channel 0 INT 9 800 32 768 to 32 767
81. 2 3 SINT BIT J0 0 No Latching Open Load or Over Load 1 Alarms Latch Input Data Data Type Default Valid Data Values Value Status Data POINT 0 1 2 3 SINT BIT 0 0 Off Open Load or Over Load 1 0n Load Fault Output Data Data Type Default Valid Data Values Value Output Data POINT 0 1 2 3 SINT BIT 0 0 Off 1 0n Discrete 4 POINT Output With Over Load Diagnostic Status 1734 POINT 1 0 M odule RSLogix 5000 Controller Tag Reference C 9 1734 OV4E 4 POINT 10V 28V DC Electronically Fused Output Sink Configuration Data Data Type Default Valid Data Values Value Fault Mode POINT 0 1 2 3 SINT BIT 10 0 Fault Value 1 Hold Last State Fault Value POINT 0 1 2 3 SINT BIT 0 O Off 1 0n Program M ode POINT 0 1 2 3 SINT BIT 10 0 Program Value 1 Hold Last State Program Value POINT 0 1 2 3 SINT BIT 0 0 0ff 1 0n Auto Restart Enable POINT 0 1 2 3 SINT BIT 10 O Latch Off Over Load Behavior 1 Auto Retry Fault Latch Enable POINT 0 1 2 3 SINT BIT 0 0 No Latching Over Load 1 Alarms Latch Input Data Data Type Default Valid Data Values Value Status Data POINT 0 1 2 3 SINT BIT 10 0 Off Over Load 1 0n Load Fault Output Data Data Type Default Valid Data Values Value Output Data POINT 0 1 2 3 SINT BIT 10 0 Off 1 0n Publication 1734 UM 011A EN P February 2004 C 10 1734 POINT I O M odule RSLogix 5000 Control
82. 2 D E 128 2 128 3 128 2 128 1 128 2 128 2 Netw ork 2 2 A second network with Hosts D and E has been added G ateway G 2 connects Network 2 1 with Network 2 2 Hosts D and E will use G ateway G 2 to communicate with hosts not on Network 2 2 Hosts B and C will use G ateway G to communicate with hosts not on Network 2 1 When B is communicating with D G the configured G ateway for B will route the data from B to D through G2 Publication 1734 UM 011A EN P February 2004 3 6 Configure the 1734 AENT Adapter for Your EtherNet IP N etw ork Set the Netw ork Address Publication 1734 UM 011A EN P February 2004 You can set the network Internet Protocol IP address 3 different ways 1 Using the thumbwheel switches located on the module 2 Using a Dynamic Host Configuration Protocol D HCP server such as Rockwell Automation BootP DHCP 3 Retrieving the IP address from nonvolatile memory 2 yew Network Address Hae ver Thumbwheel Peck Press either the or K sari buttons to change the ONES number e A sien Ll The adapter reads the thumbwheel switches only at powerup to determine if the switches are set to a valid number Press either the or buttons to change the number Valid settings range from 001 to 254 When the switches are set to a valid number the adapter s IP addres
83. 27 Test Ea Unpackaged Shock Operating 30g Non operating 50g Vibration IEC60068 2 6 Test Fc Operating 5g 10 to 500Hz ESD Immunity IEC 61000 4 2 6kV contact discharges 8kV air discharges Radiated RF Immunity IEC 61000 4 3 10V m with 1kHz sine wave 80 AM from 30MHz to 2000MHz 10V m with 200Hz 50 Pulse 100 AM at 900Mhz 10V m with 200Hz 50 Pulse 100 AM at 1890Mhz EFT B Immunity IEC 61000 4 4 3kV at 5kHz on signal ports Surge Transient Immunity IEC 61000 4 5 1kV line line DM and 2kV line earth CM on signal ports Conducted RF Immunity IEC 61000 4 6 10Vrms with 1kHz sine wave 80 AM from 150kHz to 80MHz Emissions CSPR 11 Group 1 Class A Enclosure Type Rating Meets IP65 66 67 when marked Mounting Base Screw Torque 8 screw 7 5 in lbs in Aluminum 16 in lbs in Steel Wiring Category 1 on signal ports Certifications when product is marked c UL us_ UL Listed Industrial Control Equipment certified for US and Canada CE European Union 89 336 EEC EMC Directive compliant with EN 61000 6 4 Industrial Emissions EN 50082 2 Industrial Immunity EN 61326 Meas Control Lab Industrial Requirements EN 61000 6 2 Industrial Immunity Australian Radiocommunications Act compliant with AS NZS CISPR 11 Industrial Emissions 1 OFF to ON or ON to OFF delay is time from a valid output on or off signal to output energizatio
84. 3_Output J 2 Psswemeaa m8_Input v gt ENet_Adapter 3 0 Data 2 lt gt ENet_Adapter 3 0 Data 3 MainRoutine 4 Complete 0 error s 0 warning s Errors Search Results Display the language elements contained in the group Favorites Rung End of 5 APP Pneumatic Division Richland Michigan 49083 To avoid unpredictable system behavior that can cause personal injury and property damage Disconnect electrical supply when necessary before installation servicing or conversion Disconnect air supply and depressurize all air lines connected to this product before installation servicing or conversion Operate within the manufacturer s specified pressure temperature and other conditions listed in these instructions Medium must be moisture free if ambient temperature is below freezing Service according to procedures listed in these instructions Installation service and conversion of these products must be performed by knowledgeable personnel who understand how pneumatic products are to be applied After installation servicing or conversion air and electrical supplies when necessary should be connected and the product tested for proper function and leakage If audible leakage is present or the product does not operate properly do not put into use Warnings and specifications on the product should not be covered by paint etc If masking is not possible
85. 4 967 295 Compare 1 Value DINT 0 2 147 483 648 to 2 147 483 647 0 4 294 967 295 Compare 0 Control SINT 0 00 Off Compare0_0 BIT 0 01 Up Direction Compare 1 BIT 1 10 Down Direction 11 B8oth Directions Compare 1 Control SINT 0 00 Off Comparel_0 BIT 0 01 Up Direction Comparel_1 BIT 1 10 Down Direction 11 Both Directions Publication 1734 UM 011A EN P February 2004 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference C 35 SSI Word Delay Time Note To enter D elay values from 32 768 to 65 535 us use this conversion formula Desired D elay Value in us 65536 Entered D elay Value in us Example For a 40ms delay time 40000 65536 25536 Sensor Resolution Note To enter Resolution values from 32 768 to 65 535 us use this conversion formula Desired Resolution Value 65536 Entered Resolution Value Example For a 40 000 count sensor 40000 65536 25536 Sensor Cycle Note To enter Cycle values from 32 768 to 65 535 use this conversion formula Desired Cycle Value 65536 Entered Cycle Value Example For 50 000 sensor cycle rotations 50000 65536 15536 Compare 0 1 Value Note To enter Compare values from 2 147 483 647 to 4 294 967 295 use this conversion formula Desired Compare Value 4 294 967 296 Entered Compare Value Example For a 3 000 000 000 compare value 3 000 000 000 4 294 967 296 1 294 967 296 Publication 1734 UM 011A EN P February 2
86. 56 6 5 1 Ethernet Communication Interface M odule Installation 1756 IN 053 Instructions Ethernet Communication Interface M odule User M anual 1756 UM 051 Ethernet Communication Interface M odule Release Notes 1756 RN053 ControlLogix chassis ControlLogix Chassis Installation instructions 1756 IN 080 Series B ControlLogix power supplies ControlLogix Power Supplies Installation Instructions 1756 5 67 PA72 PB72 1756 5 78 PA75 PB75 Logix5555 programmable controllers Logix5555 Controller User M anual 1756 UM 523 SoftLogix5800 Controller SoftLogix5800 User M anual 1789 UM 002 L10 L30 L60 1789 UM 001 SL5 SL51 SL52 ControlLogix EtherN et IP bridge module with firmware version 2 3 or higher ControlLogix EtherN et IP Bridge M odule Installation Instructions 1756 IN019 ControlLogix EtherNet IP Bridge M odule User M anual 1756 UM 050 RSLogix 5000 programming software Getting Results with RSLogix 5000 version 3 2 1 or higher 9399 RLD300GR RSLinx communications software RSLinx Lite User s Guide 9399 WAB32LUG 1734 AENT Adapter POINT I O EtherNet IP Adapter Installation Instructions 1734 IN590 POINT I O DeviceNet Adapter POINT 1 0 Quick Start 1734 Q5001 POINT 1 0 digital and analog modules POINT I O Digital and Analog Modules and PointBLOCK 1 0 1734 UM 001 and PointBLOCK I O modules M odules User M anual POINT I O input and output mo
87. 8M23A 1738 OB8EM23 1738 OB8EM23 profile will be available in RSLogix 5000 v15 To use 1738 OB8EM23 in RSLogix 5000 v13 choose 1738 OB8EM12 profile and disable keying e Enter a name optional slot number and communication format Make sure to choose Compatible Module for Electronic Keying setting Module Properties ENet_Adaptor 1 1738 OBBEM12 A 3 1 E3 Type 1738 0B8EM12 4 8 Point 10 28 DC Electronically Fused Output Source Vendor Allen Bradley Parent ENet_Adaptor Name M12_Sourcing Slot i i Description Comm Format Rack Optimization gt Reiso Epa Electonic Keying M Cancel Next gt Help e Choose Next to set RPI e Choose Finish Notice that the output module is now under the I O configuration E107P Troubleshoot With the Indicators PSST8M12A he BB PSST8M12A parker 24V de Out fa Module Status Indicator amp wear Sj net Ot Network Status Indicator Ey 2 0 02 l R lt 1 O Status Indicators 0 Indication _ Probable Cause Module Status Off No power applied to device Green Device operating normally Device needs commissioning due to missing incomplete or incorrect configuration Flashing Red Recoverable fault Red Unrecoverable fault may require device replacement Device is in self test
88. AINTENANCE MANUALS THAT UTILIZE THESE PRODUCTS CONTACT YOUR LOCAL REPRESENTATIVE isysNet EtherNet IP Adapter Series A PSSCENA Important User Information Solid state equipment has operational characteristics differing from those of electromechanical equipment Safety Guidelines for the Application Installation and Maintenance of Solid State Controls available online at www parker com pneu isysNet describes some important differences between solid state equipment and hard wired electromechanical devices Because of this difference and also because of the wide variety of uses for solid state equipment all persons responsible for applying this equipment must satisfy themselves that each intended application of this equipment is acceptable In no event will Parker Hannifin Corporation be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment The examples and diagrams in this manual are included solely for illustrative purposes Because of the many variables and requirements associated with any particular installation Parker Hannifin Corporation cannot assume responsibility or liability for actual use based on the examples and diagrams No patent liability is assumed by Parker Hannifin Corporation with respect to use of information circuits equipment or software described in this manual Reproduction of the contents of this manual in whole or in part without written p
89. Adapter replacement 1 2 Empty Slots and RIUP Situations 1 3 Power Up a System For the First Time 1 4 Adapter Features 1 4 Hardware Softw are Compatibility 1 5 What the Adapter Does 1 5 Use of the Common Industrial Protocol CIP 1 5 Understand the Producer Consumer M odel 1 6 Specify the Requested Packet Interval RPI 1 6 Support of Rack Optimized and Direct Connections 1 6 Mix Rack Optimized and Direct Connections 1 7 ATTENTION You must use Series C POINT I O modules with the A 1734 AENT adapter Series A or B POINT I O modules will not work with this adapter Publication 1734 UM 011A EN P February 2004 1 2 About the 1734 AENT Adapter Important Adapter Considerations Publication 1734 UM 011A EN P February 2004 Before you begin using your 1734 AENT please note the following important considerations Set the Chassis Size The 1734 AENT POINT I O adapter for EtherNet IP requires its chassis size to be configured before any I O connections can be made The default setting for the chassis size is 1 slot which represents the adapter by itself You must set the chassis size to anumber equaling 1 slot for the adapter plus 1 slot for each I O module present in the adapter s backplane e g the adapter plus 41 O modules will use a chassis size of 5 The adapter stores this chassis size setting in non volatile storage When the adapter s non volatile chassis size does not match the actual number of modules present
90. Add EtherNet IP Adapter to RSLogix 5000 1O Configuration To add your PSSCENA to RSLogix 5000 I O configuration follow these steps e In RSLogix 5000 highlight the EtherNet IP Scanner right click and select New Module 5 63 1 0 Configuration 1 1 1756 CNB D CNet_Scanner 9 2 1756 DNB DNet_Scanner i 4 New Module Ctrl C By copy Cross Reference Ctri E Properties E104P If your RSLogic 5000 is Version 15 X or greater e Choose the PSSCENA module from the list of Parker modules E Select Module Module Description Allen Bradley Parker Hannifin Corp PH PSSCENA A Ethernet Adapter Twisted Pair Media Find Add Favorite By Category By Vendor Favorites New Module Type PH PSSCENA A Ethemet Adapter Twisted Pair Media Vendor Parker Hannifin Corp Parent ENet_Scanner Name PSSCENA Address Host Name Description PAddess 172 26 C Host Name Comm Format Rack Optimization x Slot Chassis Size B 4 Revision 1 j Electronic Keying Compatible Keying IV Open Modde Properties coed te Choose Next to set RPI e Choose Finish Notice that the PSSCENA is now under the I O configuration If your RSLogic 5000 is Version 13 X Choose the 1738 AENT A from the list of modules Select Module Type Type 1738AENT A Description 150 SMC Flex via 20 COMM E 1734 Ethemet Adapter Twisted Paa Media 1738 Ethernet
91. Analog 2 Channel Input stances se Sawai hea evn Mes C 10 Analog 2 Channel Outautiead 4 cinck ss enna e hk atnnanieloma anaes C 19 Specialty LO int renak ou da donated biewloren a sede aces C 23 Appendix D 1734 AENT Quick Start What s In This Appendix 4 ca cetiss cukiaww dence anesbad D 1 Necessary Pre requisites 0 0 cc cee cece eee eeeeeenee D 1 Configure the 1734 AENT POINT I O Adapter D 2 Enter Adapter Properties 0 c cece cent eee eens D 3 Add Another Module Under the Adapter D 4 Configure 1734 POINT I O Modules 0 eee eee D 4 Configure an Ethernet Driver in RSLinx 44 D 8 Launch RSLinx Software edn anaes rea awds oot D 8 Adding the AB _ETHIP 1 EtherNet IP Driver D 10 Publication 1734 UM011A EN P February 2004 Table of Contents iv Publication 1734 UM011A EN P February 2004 Chapter 1 About the 1734 AENT Adapter WhatThis This chapter provides an overview of the 1734 AENT POINT I O EtherNet IP adapter its primary features and how to use it You will need to Cha pter Contains understand the concepts discussed in this chapter to configure your adapter and use it in an EtherNet IP control system The following table lists where to find specific information in this chapter For information about See page Important Adapter Considerations 1 2 Set the Chassis Size 1 2
92. B PH PSSCENS 4Enet_Adapter amp ae Point eg ilot Chass 515 A 0 PH PSSCEN ASS Enet _Adapter 1 PSsT aMes 4 4 M23 _oukput i 2 PSSN8M64 4 Me input sinking ING Pssv324 4 Valve Driver A CompactBus Loca step 3 Establishing Communications To confirm your communication within your EtherNet IP network select Communications and Who Active fe RSLogix 5000 Parker_Enet_Demo_Case 1769 13 Tools Window Who Active File Edit View Search Logic SE S Ball Select Recent Path Offline 1 FRUN No Forces Pl Ok Go Online F BAT i Upload Ho Edits g Fo Up Download Controller Parker Enet De Controller Tags Controller Fault Hand Power Up Handler a e Tasks MainTask 3 MainProgram Unscheduled Program Motion Groups step 3 Establishing Communications cont d 2 Select the path AB_DF1 1 DF1 and click Go Online fu Who Active J Workstation PDNOF2U023 zs Linx Gateways Ethernet AB 1 D AB_DF1 1 DF1 AB_ETHIP 1 Ethernet Close Help eae Path AB_DF1 1 Set Project Path Path in Project lt none gt step 3 Establishing Communications cont d 3 Download the new file in order to match the file in the controller Connected To Go Online Options General Date Time Major Faults Minor Faults File Nonvolatile Memory Condition The open project doesn t match the project in the con
93. Channel Synchronous Serial Interface 1 734 VHSC24 C 1 Channel 15 24 DC Very High Speed Counter xl Show Vendor i x IV Other V Specialty 1 0 Select All IV Analog IY Digital Communication V Motion IV Controller Clear AII Cancel Help TIP At the bottom of the Select M odule Type screen you can choose Clear All and then select a type of module analog digital specialty to narrow your search The Module Properties window will open 3 We used the following values Name POINT_Relay_Output Slot 1 Comm Format Output Data Electronic Keying Compatible Module Revision 3 1 Publication 1734 UM 011A EN P February 2004 4 10 Configure the 1734 AENT for Direct Connection in RSLogix 5000 Publication 1734 UM 011A EN P February 2004 Module Properties POINT_IO_Adapter 1734 OW2 3 1 x Type 1734 0W2 2 Point AC DC Relay Output Vendor Allen Bradley Parent POINT_IO_Adapter Name POINT_R elay_Output Slot fi a Description z Comm Format Output Data pa Revision E fi a Electronic Keying Compatible Module Cancel lt Back Next gt L Erin Help The Comm Format is Output Data indicating a direct connection because on the adapter s property window we set the Comm Format to None If you are using a discrete input module then the Comm Format would be Input Data Choose Next Notice that RPI is selectable on the screen below since it is a direct con
94. EREREEESRERRRR ZEN Upload Download Select File Cancel Help step 4 Programming cont d 3 After you have downloaded your program you can begin testing the inputs and outputs fa RSLogix 5000 Parker_Enet_Demo_Case 1769 L32E MainProgram MainRoutine amp File Edit View Search Logic Communications Tools Window Help alsm S Rem Run 0E Run Mode gt _ M Controller OK Ba No Forces 7 E Battery OK 4 i EME B mok a A tt amp Controller Parker_Enet_Demo_Case A Controller Tags 3 Controller Fault Handler Power Up Handler amp Tasks fa MainTask S a MainProgram P Program Tags inRoutine E Unscheduled Programs amp Motion Groups Ungrouped Axes CI Trends amp Data Types E User Defined E Ga Strings Ga Predefined Ga Module Defined amp 1 0 Configuration ziii Backplane CompactLogix System fa 1769 L32E Parker_Enet_Demo_Case 1769 L32E Ethernet Port LocalENB Bs Ethernet 1769 L32E Ethernet Port LocalENB PH PSSCENA A ENet_Adapter amp ArmorPoint 4 Slot Chassis 0 PH PSSCENA A ENet_Adapter 1 esstem23a a mz3_Output i 2 PSSN8M84 4 M8 _Input gt Ladder Diagram Main HC a saae Glew ala Path AB_DF1 1 x l ENet_Adapter 2 1 0 lt ENet_Adapter Data 2 0 gt ENet_Adapter 1 0 0 lt ENet_Adapter O Data 1 0 gt gt JE ENet_Adapter 2 1 1 lt ENet_Adapter Data 2 1 gt ENet_Adapter 3 0 Data 0 e ENe
95. INT I O M odule RSLogix 5000 Controller Tag Reference C 31 1734 1 1 Channel 5V DC Encoder Counter 1734 IK 1 Channel 15 24V DC Encoder Counter Input Data Data Type Default Value Valid Data Values Present Data DINT 0 0 to 16 777 215 Stored Data DINT 0 2 147 483 648 to 2 147 483 647 0 4 294 967 295 Status INT 0 Zero Frequency Detected BIT 1 O No Fault 1 Fault Detected Stored Data Count_2 BIT 2 Cycles thru 0 1 2 3 0 Stored Data Count_ 3 BIT 3 Increments after update A Input Status BIT 4 O Input A B Z is Off B Input Status BIT 5 1Anput A B Z is On Z Input Status BIT 6 Not Ready BIT 13 0 M odule Ready 1 M odule Initializing EEPROM Fault BIT 14 O No Fault 1 EEPROM data bad Program Fault BIT 15 O No Fault incomplete incorrect conflict 1 Bad Configuration See Program Fault Note on the next page Stored Data Note To interpret values from 2 147 483 648 to 1 use this conversion formula Stored D ata Tag Value 4 294 967 296 Actual Stored D ata Tag Value Example For a read value of 1 794 967 296 1 794 967 296 4 294 967 296 2 500 000 000 actual value Publication 1734 UM 011A EN P February 2004 C 32 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference Publication 1734 UM 011A EN P February 2004 Program Fault Note Programming Fault Error bit If an incomplete incorrect or conflicting set of configuration parameters are sent to the module the Program Fau
96. In order to send data to A B must have the IP address of the gateway connecting the two networks In this example the gateway s IP address on Network 2 is 128 2 0 3 The gateway has two IP addresses 128 1 0 2 and 128 2 0 3 The first must be used by hosts on Network 1 and the second must be used by hosts on Network 2 To be usable a host s gateway must be addressed using a net ID matching its own Subnet Mask The Subnet Mask is used for splitting IP networks into a series of subgroups or subnets The mask is a binary pattern that is matched up with the IP address to turn part of the Host ID address field into a field for subnets Take Network 2 a Class B network in the previous example and add another physical network Selecting the following subnet mask would add two additional net ID bits allowing for four physical networks 11111111 11111111 14000000 00000000 255 255 192 0 oY These two bits of the Host ID used to extend the net ID Two bits of the Class B host ID have been used to extend the net ID Each unique combination of bits in the part of the Host ID where subnet mask bits are 1 specifies a different physical network Configure the 1734 AENT Adapter for Your EtherNet IP Network 3 5 The new configuration is A 128 1 0 1 Netw ork 1 128 1 0 2 G B C 128 2 64 3 128 2 64 1 128 2 64 2 Netw ork 2 1 G
97. Input 1734 IV2 C 2 POINT 10V 28V DC Input Source 1734 IV4 C 4 POINT 10V 28V DC Input Source 1734 0A2 C 2 POINT 120V AC Output 1734 OB2E C 2 POINT 10V 28V DC Electronically Fused Output Source 1734 OB2EP C 2 POINT 10V 28V DC Electronically Fused Protected Output Source 1734 OB4E C 4 POINT 10V 28V DC Electronically Fused Output Source 1734 OV2E C 2 POINT 10V 28V DC Electronically Fused Output Sink 1734 OV4E C 4 POINT 10V 28V DC Electronically Fused Output Sink 1734 OW 2 C 2 POINT AC DC Relay Output 1734 0X2 C 2 POINT Relay Output N O N C Analog Modules 1734 IE2C C 2 Channel Analog Current Input 1734 IE2V C 2 Channel Analog Voltage Input 1734 IR2 C 2 Channel RTD Input 1734 IT2I C 2 Channel Thermocouple Input Isolated 1734 OE2C C 2 Channel Analog Current Output 1734 OE2V C 2 Channel Analog Voltage Output Publication 1734 UM 011A EN P February 2004 C 2 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference 1734 POINT 1 0 RSLogix5000 M odule Description Catalog Number Specialty 1 0 1734 232ASC C 1 Channel ASCII Interface M odule 1734 1 C 1 Channel 5V DC Encoder Counter 1734 IK C 1 Channel 15 24V DC Encoder Counter 1734 SSI C 1 Channel Synchronous Serial Interface 1734 VHSC24 C 1 Channel 15 24V DC Very High Speed Counter 1734 VHSC5 C 1 Channel 5V DC Very High Speed Counter Note that all POINT I O modules must be Series C or above for RSL
98. Integer data type UINT 0 65 535 range RSLogix 5000 supports the signed Integer data type INT 32 768 to 32 767 range Filter Time Note To enter Filter values from 32 768 to 65 535 us use this conversion formula Desired Filter Value in us 65536 Entered Filter Value in us Example For a 40ms filter time 40000 65536 25536 Publication 1734 UM 011A EN P February 2004 C 4 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference Discrete 4 POINT Input Publication 1734 UM 011A EN P February 2004 1734 1B4 4 POINT 10V 28V DC Input Sink 1734 IV4 4 POINT 10V 28V DC Input Source Configuration Data Data Type Default Valid Data Values Value Filter Off On Time POINT 0 INT 1 000 32 768 to 32 767 us 0 65 535 Filter On Off Time POINT 0 INT 1 000 32 768 to 32 767 us 0 65 535 Filter Off On Time POINT 1 INT 1 000 32 768 to 32 767 us 0 65 535 Filter On Off Time POINT 1 INT 1 000 32 768 to 32 767 us 0 65 535 Filter Off On Time POINT 2 INT 1 000 32 768 to 32 767 us 0 65 535 Filter On Off Time POINT 2 INT 1 000 32 768 to 32 767 us 0 65 535 Filter Off On Time POINT 3 INT 1 000 32 768 to 32 767 us 0 65 535 Filter On Off Time POINT 3 INT 1 000 32 768 to 32 767 us 0 65 535 Input Data Data Type Default Valid Data Values Value Input Data POINT 0 1 2 3 SINT BIT 0 0 Off 1 0n
99. MAC Hostname 12 47 24 DHCP 00 00 B0 21 20 14 10 88 70 2__ gt m Relation List New Delete Enable BOOTE Enable DHCP Disable OORDE Type IPAddress Address Hostname Descripl tion is 00 00 BC 21 20 14 DHCP 10 88 70 2 r Status Entries Sent 10 88 70 2 to Ethemet address 00 00 BC 21 20 14 E of 256 When the address displays in the IP Address column in the Request History section it signifies that the IP address assignment has been made 4 To assign this configuration to the device highlight the device in the Relation List panel and click on the Disable BOOTP DHCP button When power is cycled to the device it will use the configuration you assigned and not issue a D HCP request Note To enable D HCP for a device that has had DHCP disabled highlight the device in the Relation List and click on the Enable DHCP button You must have an entry for the device in the Relation List panel to re enable DHCP File Tools Help r Request History Clear History Add ta Relation List Ethemet Address MAC Hostname 12 47 24 DHCP 00 00 BC 21 20 14 10 88 70 2 12 47 24 DHCP 00 00 BC 21 20 14 m Relation List New Delete Enable BOOTP Enable DHCP Disable BOOTP DHCP Ethemet Address MA Type IP Address 00 00 B0 21 20 14 DHCP 10 88 70 2 Configure the 1734 AENT Adapter for Your EtherNet IP Network 3 9 Save the Relation List You can save t
100. Maximum Minimum Nominal 28 8VDC 28 8VDC 10VDC 24VDC Current Leakage Off State Output Maximum 0 5 mA Current On State Output Minimum 1 0 mA per channel Output Current Rating 1 0 A per channel not to exceed 3 0 A maximum per module Output Delay Time OFF to ON Maximum 0 1 ms Output Delay Time ON to OFF Maximum 0 1 ms Output Point Density 2 4 8 Output Surge Current Maximum 2 A for 10 ms repeatable every 3 seconds External DC Power Supply Current 32 mA External DC Power Supply Voltage Range 10 to 28 8VDC External DC Power Supply Voltage Nominal 24VDC Keyswitch Position 1 LED Indicators PointBus Current Maximum 2 4 or 8 yellow red output status logic side 1 green red network status logic side 1 green red module status logic side 75 mA 5VDC Power Dissipation Maximum PSST8M 2 0W 28 8VDC Thermal Dissipation Maximum PSST8M 6 8 BTU hr 28 8VDC Isolation Voltage continuous voltage withstand rating Dimensions includes I O module and mounting base Inches Millimeters 50V rms Tested at 1250VAC rms for 60s 4 72H x 2 82W x 1 65D 120H x 72W x 42D Operating Temperature IEC 60068 2 1 Test Ad Operating Cold IEC 60068 2 2 Test Bd Operating Dry Heat IEC 60068 2 14 Test Nb Operating Thermal Shock 20 to 60 C 4 to 140 F Storage Temperature IEC 60068 2 1 Test
101. Mini 7 8 see Auxiliary Power Power Connector a WARNING FAILURE OR IMPROPER SELECTION OR IMPROPER USE OF THE PRODUCTS AND OR SYSTEMS DESCRIBED HEREIN OR RELATED ITEMS CAN CAUSE DEATH PERSONAL INJURY AND PROPERTY DAMAGE This document and other information from Parker Hannifin Corporation its subsidiaries and authorized distributors provide product and or system options for further investigation by users having technical expertise It is important that you analyze all aspects of your application including consequences of any failure and review the information concerning the product or systems in the current product catalog Due to the variety of operating conditions and applications for these products or systems the user through its own analysis and testing is solely responsible for making the final selection of the products and systems and assuring that all performance safety and warning requirements of the application are met The products described herein including without limitation product features specifications designs availability and pricing are subject to change by Parker Hannifin Corporation and its subsidiaries at any time without notice EXTRA COPIES OF THESE INSTRUCTIONS ARE AVAILABLE FOR INCLUSION IN EQUIPMENT MAINTENANCE MANUALS THAT UTILIZE THESE PRODUCTS CONTACT YOUR LOCAL REPRESENTATIVE isysNet EtherNet IP Adapter Series A PSSCENA Important User Information Solid state equipment has operatio
102. NBT A fs 1756 SA500 Drive Interface 1756 SB3000 Drive Interface 1756 SD3000 Drive Interface 1756 SF3000 Drive Interface 1756 DeviceNet Scanner 1756 10 100 Mbps Ethernet Bridge Fiber Media 1756 10 100 Mbps Ethernet Bridge Twisted Pair Media 1756 Ethernet Communication Interface 1756 Ethernet Bridge 1756 High Speed Counter 16 Point 79 132V AC Input 16 Point 79 132 AC Isolated Input The Module Properties window will open 4 We used the following values Name Local_ENB IP Address 10 88 70 4 Slot 3 Electronic Keying Compatible Module Revision 1 1 Module Properties Local 1756 ENBT A 1 1 5 Click on Finish to accept the configuration Publication 1734 UM 011A EN P February 2004 4 6 Configure the 1734 AENT for Direct Connection in RSLogix 5000 Add the POINT 1 0 Adapter to the 1 0 Configuration Next you must add the 1734 AENT adapter as a child of the local 1756 ENBT module 1 In the Project window right click on the local 1756 ENBT module under the I O Configuration folder and select New Module from the pop up window 1 3 1 0 Configuration Cut Ctrl x Copy Ctrl C Paste Gtr y Delete Del Cross Reference Ctrl E Print Ghl P Properties The Select Module Type window will open 2 Select the 1734 AENT A Ethernet adapter from the list and click on OK xl Type Major Revision 1734AENT A fi x D
103. ND Chassis Ground V Supply Publication 1734 UM 011A EN P February 2004 Install the 1734 AENT Adapter 2 5 Mounting Dimensions inches millimeters 2 16 l i 549 3 0 r 7 76 5 00 00 oo n loo BS on A Sh MN ey a 43520 1734 AENT A DIN rail 3 0H x 2 16W x 5 25D B Secure DIN rail approximately every 200mm 76 2H x 54 9W x 133 4D What s Next The following chapter describes how to configure the adapter to communicate on your EtherNet IP network by providing an IP address G ateway address and Subnet mask Publication 1734 UM 011A EN P February 2004 2 6 Install the 1734 AENT Adapter Notes Publication 1734 UM 011A EN P February 2004 W hat This Chapter Contains Chapter 3 Configure the 1734 AENT Adapter for Your EtherNet IP Netw ork Before you can use your 1734 AENT adapter in an EtherNet IP network you must configure it with an IP address Subnet mask and optional G ateway address This chapter describes these configuration requirements and the procedures for providing them There are several way you can do this e Using the Rockwell BootP utility version 2 3 or greater that ships with RSLogix 5000 or RSLinx software You can also use this utility to reconfigure a device whose IP address must be changed e Using a third party DHCP server e Using the Network Address thumbwheel switches e Having your network administrator configure the adapter vi
104. O eo AD 1738 MODULE SINT _SBytest0 E AB 1738 MODULE SINT Byter 0 0 Lese Decmai stja Oet Adae 1 0 Dala Cet Adacter 1 O Daah Decmai son Olet_Adacter 1 0 Dad Decal ow Olle _Adagter 1 0 Daai Decmai SWT Cet Adapter 1 O Data D Decmal sot Ola Adate AB 1738250110 Ohet_Adegter 0 48 178_220T 00 1 COUNTER J e Reference pages 4 19 through 4 22 of Rockwell publication 1734 UM008 for similar information COWNTERI E100P Setup the 32 Point Valve Driver in EtherNet IP Step 1 Load 32 Point Valve Driver EDS file to RSLinx Download EDS file from www parker com pneu isysNet e On your computer follow Start gt Rockwell Software gt RSLinx Tools gt EDS Hardware Installation Tool to load the EDS file to RSLinx Step 2 Set IP Address for EtherNet IP Scanner and Adapter e Set IP address using Rockwell BootP DHCP utility for EtherNet IP scanner and PSSCENA or 1738 AENT adapter Reference pages 3 7 through 3 10 of Rockwell publication 1734 UM011 follow www rockwell com gt Support gt Support Overview gt Online manuals and literature gt I O31734 POINT and 1734D POINT Block I O and find POINT 1 O Ethernet Adapter User Manual for similar information Step 3 Add EtherNet IP Scanner and Adapter to RSLogix 5000 I O configuration e Add EtherNet IP scanner and PSSCENA or 1738 AENT adapter to I O configuration Reference pages 4 4 to 4 8 of Rockwell publication 1734 UM011 for similar information Step 4 Ad
105. OE2 C 0 ia remote_POINT_I0 4 C ChOFault 0 Decimal INT E H remote_POINT_10 4 C Ch0Progv 0 Decimal INT E Hremote_POINT_10 4 C Ch LowEn 0 Decimal INT G remote_POINT_I0 4 C ChOHighE 10000 Decimal INT B remote POINT _10 4 C Ch0LowLimit 32768 Decimal INT o remote_POINT_10 4 C ChOHighLimit 32767 Decimal INT remote _POINT_10 4 C Ch0Range 1 Decimal SINT o H remote_POINT_I0 4 C Ch0Faulthi 1 Decimal SINT B e temote_POINT_10 4 C ChOProgM 1l Decimal SINT B e temote_POINT_10 4 C ChOLimitAl 0 Decimal SINT remote _POINT_10 4 C Ch0AlarmD 0 Decimal SINT o remote_POINT_I0 4 C Ch1 Fault 0 Decimal INT B Eremote_POINT _10 4 C Ch ProgV 0 Decimal INT E H remote_POINT_10 4 C Ch1LowEn 0 Decimal INT o Eremote_POINT _10 4 C Ch1 HighE 10000 Decimal INT remote_POINT_I0 4 C ChiLowLimit 32768 Decimal INT E Eremote_POINT _10 4 C Ch1 HighLimit 32767 Decimal INT Eremote_POINT_10 4 C Ch1 Range 1 Decimal SINT remote POINT 10 4 C Ch FaultM 1 Decimal SINT Ei remote_POINT_I0 4 C Ch1ProgM l Decimal SINT o Eremote_POINT _10 4 C Ch1 LimitAl 0 Decimal SINT E temote_POINT_I0 4 C Ch1AlarmD 0 Decimal SINT E remote_POINT_IO 4 1 foal ast AB 1734_0E2 1 0 S a gt Monitor Tags 4 APA Please note the following e The controller only sends the configuration data when connection is being established e Should you need to modify any of the tag values once you change the tag you will n
106. P February 2004 1734 0B 2E 2 POINT 10V 28V DC Electronically Fused Output Source 1734 0B2EP 2 POINT 10V 28V DC Electronically Fused Protected Output Source Configuration Data Data Type Default Valid Data Values Value Fault M ode POINT 0 1 SINT BIT 0 0 Fault Value 1 Hold Last State Fault Value POINT 0 1 SINT BIT 0 0 Off 1 0n Program M ode POINT 0 1 SINT BIT 0 0 Program Value 1 Hold Last State Program Value POINT 0 1 SINT BIT 0 0 0ff 1 0n No Load Enable POINT 0 1 SINT BIT 1 0 Disabled Wire Off Diagnostic 1 Enabled Auto Restart Enable POINT 0 1 SINT BIT 0 O Latch Off Over Load Behavior 1 Auto Retry Fault Latch Enable POINT 0 1 SINT BIT 0 0 No Latching Open Load or Over Load 1 Alarms Latch Input Data Data Type Default Valid Data Values Value Status Data POINT 0 1 SINT BIT 0 0 Off Open Load or Over Load 1 0n Load Fault Output Data Data Type Default Valid Data Values Value Output Data POINT 0 1 SINT BIT 0 0 Off 1 0n Discrete 2 POINT Output With Over Load Diagnostic Status 1734 POINT 1 0 M odule RSLogix 5000 Controller Tag Reference C 7 1734 OV2E 2 POINT 10V 28V DC Electronically Fused Output Sin K Configuration Data Data Type Default Valid Data Values Value Fault Mode POINT 0 1 SINT BIT 0 0 Fault Value 1 Hold Last State Fault Value POINT 0 1 SINT BIT 0 0 0f
107. POINT I O M odule RSLogix 5000 Controller Tag Reference C 37 1734 SS 1 Channel Synchronous Serial Interface Output Data Data Type Default Valid Data Values Value Control SINT 0 Latch Acknowledge BIT 0 0 O Latch Not Cleared 1 Latch Cleared Compare 0 Acknowledge BIT 1 0 0 Compare0 Not Reset 1 Compare0 Reset Compare 1 Acknowledge BIT 2 0 0 Comparel Not Reset 1 Comparel Reset Compare 0 Select BIT 3 0 0 Compare0 Not Selected 1 Compare0 Selected Compare 1 Select BIT 4 0 0 Compare1 Not Selected 1 Comparel Selected Publication 1734 UM 011A EN P February 2004 C 38 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference 1734 232ASC 1 Channel ASCII Interface M odule Configuration Data Data Type Default Valid Data Values Value Serial Character Format SINT 0 0 7N2 ASCII Format 1 7E1 Data Bits Parity Stop 2 01 3 8N1 4 8N2 5 8E1 6 801 7 E2 8 702 Serial Comm Speed SINT 0 0 9600 Baud Rate of the Serial Port 1 1200 2 2400 3 4800 4 19 2K 5 38 4K M ax Receive Characters SINT 20 128 to 127 0 128 Receive Start Delimiter M ode SINT 0 O No Start Delimiter 1 Exclude Start Delimiter 2 Include Start Delimiter Receive Start Delimiter Character SINT 58 Any Valid ASCII Character 0x3A Default is Colon Receive Record End M ode SINT 2 O No End Delimiter 1 Exclude End Delimiter 2 Include End Delimiter Receive End Delimiter SINT 13 Any Valid
108. PointBus Current Requirements 75 mA 75 mA 75 mA 90 mA 75 mA 75 mA 75 mA 75 mA 75 mA 75 mA EtherNet IP Communication Rate Power Supply Specifications Power Supply 10 100Mbits s half or full duplex Note In order to comply with CE Low Voltage Directives LVD you must use either a NEC Class 2 a Safety Extra Low Voltage SELV or a Protected Extra Low Voltage PELV power supply to power this adapter A SELV supply cannot exceed 30V rms 42 4V peak or 60VDC under normal conditions and under single fault conditions A PELV supply has the same rating and is connected to protected earth Input Voltage Rating 24VDC nominal 10 28 8VDC range Inrush Current 6A maximum for 10ms Field Side Power Requirements Maximum 24VDC 20 28 8VDC 400 mA Interruption General Specifications LED Indicators Output voltage will stay within specifications when input drops out for 10ms at 10V with maximum load 1 green red Adapter status 1 green Network activity 1 green red Network status 1 green red PointBus status 1 green System Power PointBus 5V power 1 green Adapter Power 24V from field supply Power Consumption Maximum 8 1W 28 8VDC Power Dissipation Maximum 2 8W 28 8VDC Thermal Dissipation Maximum 9 5 BTU hr 28 8VDC PointBus Output Current Maximum 1A 5VDC 5 4 75 5 25 Input Overvoltage Protection Reverse polarity protected Isolation Volt
109. RPI Note that the modules presented in this chapter are configured using RSLogix 5000 version 11 The chapter contains the following main sections What you will do See page Set Up the Hardware 5 2 Create the Example Application 5 3 Configure the 1 0 5 4 Add the Local EtherNet IP Bridge to the 1 0 Configuration 5 4 Add the POINT I O Adapter to the 1 0 Configuration 5 6 Add the POINT I O M odule and Configure For Direct Connection 5 8 Add the POINT 1 0 M odule and Configure For Rack Optimization 5 11 Download the Program to the Controller 5 12 Verify the Module Chassis Size 5 13 Access Module Data via the 1734 AENT Adapter 5 16 ATTENTION You must use Series C POINT I O modules with the A 1734 AENT adapter Series A or B POINT I O modules will not work with this adapter Publication 1734 UM 011A EN P February 2004 5 2 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix 5000 Set Up the Hardware Publication 1734 UM 011A EN P February 2004 In this example a ControlLogix chassis contains the Logix 5555 processor in slot 1 and a 1756 ENBT bridge module in slot 3 The 1734 AENT adapter is mounted on a DIN rail in slot 0 with a 1734 OW2 C relay output module in slot 1 a 1734 OV4E C sink output module in slot 2 and a power supply not shown
110. T 1 0 0 Output Disabled 1 Output Enabled Output 0 Electronic Fuse BIT 2 0 0 Auto Retry latch Off Output 0 Diagnostic Speed BIT 3 0 0 lt 8ms Response 1 50ms Response Output 1 Force BIT 4 0 0 Output Off 1 Output Forced On Output 1 Enable BIT5 0 0 Output Disabled 1 Output Enabled Output 1 Electronic Fuse BIT 6 0 Auto Retry 0 latch Off Output 1 Diagnostic Speed BIT7 0 0 lt 8ms Response 1 50ms Response Publication 1734 UM 011A EN P February 2004 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference C 29 1734 1 1 Channel 5V DC Encoder Counter 1734 IK 1 Channel 15 24V DC Encoder Counter Configuration Data Data Type Default Valid Data Values Value Counter Config SINT 0 Config_0 BIT 0 0000 0 Counter Config_1 BIT 1 0001 1 Encoder X1 Config_2 BIT 2 0010 2 Encoder X2 Config_ 3 BIT 3 0100 4 Encoder X4 0101 5 Period Rate 0111 Rate Measurement Mode 4 BIT 4 000 Store Count Disable Mode_5 BIT5 001 Store Continue Mode_6 BIT 6 010 Store W ait Resume 011 Store Reset W ait Start 100 Store Reset Start Z Input BIT 7 0 Z Input Not Inverted 1 Z Input Is Inverted Filter SINT 120 Filter_0 BIT 0 0x78H 0000 No Filter Filter_1 BIT 1 0001 50 KHz Filter 2 BIT 2 0010 5 KHz Filter_3 BIT 3 0100 500 Hz 1000 50 Hz FilterA BIT 4 OAnput A B Z Not Filtered FilterB BIT5 1 Input A B Z Is Filtered FilterZ BIT 6 Decimal Position SINT 0 Counter Config 0 1 2 4 128 to 127 0 255 Coun
111. T factory default is DHCP enabled Upon powerup the module sends a message containing its hardware address to any DHCP server on the network The server s replies by sending a message with an appropriate IP address for the adapter The adapter responds by acknowledging to a server that it will use the offered IP address DNS The Domain Name System is a hierarchical distributed method of organizing the name space of the Internet The DNS administratively groups hosts into a hierarchy of authority that allows addressing and other information to be widely distributed and maintained A big advantage to the DNS is that using it eliminates dependence on a centrally maintained file that maps host names to addresses Ethernet A physical layer standard using Carrier Sense Multiple Access with Collision Detection CSM A CD methods EtherN et IP Ethernet Industrial Protocol applies a common application layer CIP over Ethernet by encapsulating messages in TCP UDP IP Publication 1734 UM 011A EN P February 2004 This term Preface 7 Means Ethernet network A local area network designed for the high speed exchange of information between computers and related devices explicit messaging Non time critical messaging used for device configuration and data collection such as downloading programs or peer to peer messaging between two PLCs full duplex A mode of communication that allows a device to send and
112. _ETH 1 A B Ethemet RUNNING Configure Startup Start Stop 9 Close RSLinx Configure the To configure the AB ETHIP Ethernet communication driver perform the following steps AB_ETH IP Driver E L Start RSLinx 2 From the Communications menu select Configure Drivers Configure Drivers 2 x Available Driver Types zl Close Help m Configured Drivers Name and Description Configure Startup Start Stop FELEL kh Delete 3 Click on the arrow to the right of the Available Driver Types box The Available Driver Types list will appear Publication 1734 UM 011A EN P February 2004 Configure the RSLinx Ethernet Communication Driver B 5 4 Select EtherNet IP Devices and click on Add New Kl RSL Profesiona lolx File Edit View Communications Station DDE OPC Security Window Help 2 S19 Bile x Configure Drivers Available Driver Types RS 232 DF1 devices Ethernet devices 1784 KTC X for ControlNet devices DF1 Polling Master Driver 1784 PCC for ControlNet devices 1784 PCIC S for ControlNet devices 1747 PIC 7 AlC Driver DF1 Slave Driver 5 S SD SD2 for DH devices Virtual Backplane SoftLogix58xx DeviceNet Drivers 1784 PCD PCIDS 1770 KFD SDNPT drivers PLC 5 DH Emulator driver SLC 500 DH485 Emulator driver SoftLogix5 driver Remote Devices via Ling Gatewar For Help press F1 Nmf
113. a new password Click the Change button to accept the new password Entering module information in the Host Name Module Description and Module Location fields The description and location will help you quickly and easily identify where the module is in the facility As you enter the parameters in the field and press the Enter or Update on the web page key the field will turn blue to indicate that the value is accepted For security purposes you can disable the adapter s web pages Click in the box to the right of Disable Web Server so a check mark appears to disable this page You have 10 minutes to make changes on this page and to save the new data A timer on the top of the page helps you keep track of the elapsed time The timer is enabled after you enter the password and click the Submit button IM PORTANT The values on this page are in non volatile memory Changes to these parameters do not take effect until the 1734 AENT has been reset or the power has been cycled IMPORTANT 1734 AENT Adapter Web Pages A 9 If you set the thumbw heels on the 1734 AENT to the value 888 and then power cycle the module the following will occur e the DHCP Enabled function will be enabled set to True e the Ethernet link will be negotiated automatically the Auto Negotiate function will be set to True e the web server will be enabled the Disabled Web Server function will be disabled e the password for this page will reset to the fa
114. a recognized device is inadvertently unplugged that device appears with a red X indicating that RSWho previously recognized it but now it can not You can choose to remove the device from the RSWho display or you can choose to correct the communication error Publication 1734 UM 011A EN P February 2004 D 10 1734 AENT Quick Start Publication 1734 UM 011A EN P February 2004 Adding the AB_ETHIP 1 EtherNet IP Driver 1 From the Communications menu choose Configure Drivers The Configure D rivers dialog appears Available Driver Types Configure Drivers 2 xi Help r Configured Drivers Name and Description Bonfiaure Startup Start Steg stame sa E s peee A a A W N From the Available Driver Types pull down menu choose EtherNet IP Driver Click on the Add New button Click on OK to accept the default name AB_ETHIP 1 Ensure that the radio button for Browse Local Subnet is enabled Click on OK Verify that the driver you just configured is running and click on the Close button to exit the Configure Drivers window Click on the X in the upper right corner of the RSWho window to stop RSWho Click on the minimize icon E in the upper right corner of the RSLinx window to minimize RSLinx Numbers 1734 AENT overview 1 1 adapter features 1 4 control and information protocol CIP 1 5 hardware software compatibility
115. a the network server The following table lists where to find specific information within this chapter For information about See page Configuration Requirements 3 2 IP Address 3 2 Gatew ay Address 3 3 Subnet M ask 3 4 Set the Network Address 3 6 Use the Rockwell BootP DHCP Utility 3 7 Save the Relation List 3 9 Use DHCP Software to Configure Your Adapter 3 10 ATTENTION You must use Series C POINT I O modules with the A 1734 AENT adapter Series A or B POINT I O modules will not work with this adapter Publication 1734 UM 011A EN P February 2004 3 2 Configure the 1734 AENT Adapter for Your EtherNet IP N etw ork Configuration Requirements 8p 0Z 1Z 99 00 00 ssaydaav IVW SSMN A IP Address Ethernet Address M AC Class A Class B Class C Publication 1734 UM 011A EN P February 2004 Before you can use your 1734 AENT adapter you must configure its IP address its subnet mask and optionally gateway address You can use the Rockwell BootP utility version 2 3 or greater to perform the configuration You can also use a D HCP server or the network address switches to configure these parameters If the 1734 AENT needs to be reset to factory defaults see the Important note on page A 9 If using the BootP D HOP utility you will need to know the Ethernet hardware address of your adapter Rockwell assigns each 1734 AENT adapter a unique 48 bit hardwar
116. age continuous voltage withstand rating 50V rms Tested to withstand 1250VAC rms for 60s Field Power Bus Nominal Voltage Supply Voltage Supply Current 24VDC 10 28 8VDC range 10A maximum Dimensions Inches Millimeters 4 41H x 2 83W x 2 56D 112H x 72W x 65D isysNet EtherNet IP Adapter Series A PSSCENA E104P General Specifications continued Operating Temperature IEC 60068 2 1 Test Ad Operating Cold IEC 60068 2 2 Test Bd Operating Dry Heat IEC 60068 2 14 Test Nb Operating Thermal Shock 20 to 60 C 4 to 140 F Storage Temperature IEC 60068 2 1 Test Ab Un packaged Non operating Cold IEC 60068 2 2 Test Bb Un packaged Non operating Dry Heat 40 to 85 C 40 to 185 F Relative Humidity IEC 60068 2 30 Test Db Un packaged Non operating Damp Heat 5 95 non condensing Shock IEC60068 2 27 Test Ea Unpackaged Shock Operating 30g Non operating 50g Vibration IEC60068 2 6 Test Fc Operating 5g 10 500Hz ESD Immunity IEC 61000 4 2 6kV contact discharges 8kV air discharges Radiated RF Immunity IEC 61000 4 3 10V m with 1kHz sine wave 80 AM from 30MHz to 2000MHz 10V m with 200Hz 50 Pulse 100 AM at 900Mhz 10V m with 200Hz 50 Pulse 100 AM at 1890Mhz EFT B Immunity IEC 61000 4 4 4kV at 5kHz on power ports 2kV at 5kHz on communications ports Surge Transient Immunity IEC 61000 4 5 1kV line line DM and 2kV line
117. age the adjacent module Press firmly to seat the adapter on the DIN rail The adapter locking mechanism will snap into place Replace the adjacent module in its base Reconnect the Ethernet cable to the adapter Publication 1734 UM 011A EN P February 2004 2 4 Install the 1734 AENT Adapter 7 Set the network address thumbwheel switches to the value used on the replaced module see Set the Netw ork Address on page 3 6 in the next chapter amp Insert the end of the terminal block RTB opposite the handle into the base unit This end has a curved section that engages with the wiring base 9 Rotate the terminal block into the wiring base until it locks itself into place Wiring Refer to the illustration to wire the Ethernet adapter Sele mae Module Status Network Address Thumbwheels 2 sta Network Activity Status Bae Network Status sa PointBus Status 1734 AENT Allen Bradley Ethernet RJ 45 Connector J Le SS System Power ft POINT lo l Field Power NC CHAS GND NC No Connection C CHAS GND Chassis Ground C Common y V Supply 43264 Do not connect 120 240V ac power A to this supply This dc supply will be connected to the internal power bus NC No Connection C Common Chas G
118. al_ENB 0 1734 AENT A 1 1 General Connection Module Info Port Configuration Port Diagnostics Chassis Size Requested Packet Interval RPI ME ms 2 0 750 0 ms Inhibit Module J Major Fault On Controller If Connection Fails While in Run Mode Module Fault Code 160302 Connection Request Error Out of communication bandwidth Status Faulted If this condition is encountered the only action that can be taken is to alter the existing connections to reduce the amount of microprocessor bandwidth consumed The most likely fixes for this condition include e Increase the RPI e Decrease the number of connections Publication 1734 UM 011A EN P February 2004 4 20 Configure the 1734 AENT for Direct Connection in RSLogix 5000 Notes Publication 1734 UM 011A EN P February 2004 What s in This Chapter Chapter 5 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix 5000 This chapter guides you through the steps required to configure your 1734 POINT I O Ethernet Adapter for both direct connection and rack optimization using RSLogix 5000 You can mix communication formats for different I O modules communicating through the same adapter I O modules set up to use rack optimization will communicate at the rate of the RPI configured for the 1734 AENT adapter I O modules configured for direct communication will communicate at their own set RPIs and ignore the 1734 AENT adapter s
119. annel 1 SINT 1 0 Disabled 1 Enabled Cold J unction Offset Channel 1 INT 0 0 to 7 000 0 00 70 00 Input Data Data Type Default Valid Data Values Value Data Channel 0 INT 0 32 168 to 32 767 Data Channel 1 INT 0 32 768 to 32 767 Status Byte Channel 0 SINT 0 Bit 0 Fault Bit 1 Calibration Bit 2 LowAlarm Bit 3 HighAlarm Bit 4 LowLowAlarm Bit 5 HighHighAlarm Bit 6 Underrange Bit 7 Overrange Status Byte Channel 1 SINT 0 Bit 0 Fault Bit 1 Calibration Bit 2 LowAlarm Bit 3 HighAlarm Bit 4 LowLowAlarm Bit 5 HighHighAlarm Bit 6 Underrange Bit 7 Overrange Cold J unction Data INT 0 32 768 to 32 767 Output Data Data Type Default Valid Data Values Value None Analog 2 Channel Output 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference C 19 1734 OE2C 2 Channel Analog Current Output Configuration Data Data Type Default Valid Data Values Value Fault Value Channel 0 INT 0 32 768 to 32 767 Program Value Channel 0 INT 0 32 768 to 32 767 Low Engineering Channel 0 INT 1 638 32 768 to 32 767 High Engineering Channel 0 INT 8 191 32 168 to 32 767 Low Limit Channel 0 INT 32 768 32 768 to 32 767 High Limit Channel 0 INT 32 767 32 768 to 32 767 Range Type Channel 0 SINT 0 0 4 20mA 2 0 20mA Fault M ode Channel 0 SINT 1 O Hold Last State 1 Go to Low Clamp 2 Go to High Clamp 3 Go to Fault Value Idle Mode Channel 0 SINT 1 O Hold Last State 1 Go to Low Clamp 2
120. ant differences between solid state equipment and electromechanical devices that should be taken into consideration when applying products such as those described in this publication Reproduction of the contents of this copyrighted publication in whole or part without written permission of Rockwell Automation is prohibited Throughout this publication notes may be used to make you aware of safety considerations The following annotations and their accompanying statements help you to identify a potential hazard avoid a potential hazard and recognize the consequences of a potential hazard Identifies information about practices or circumstances that can cause an explosion in a hazardous environment which may lead to personal injury or death property damage or economic loss Identifies information about practices or circumstances that can lead to personal injury or death property damage or economic loss ATTENTION Identifies information that is critical for successful IMPORTANT nie application and understanding of the product Mal a Allen Bradley ControlLogix and POINT I O are trademarks of Rockwell Automation Ethernet is a trademark of D igital Equipment Corporation Intel and Xerox Corporation RSLinx is a trademark of Rockwell Software Windows NT is a trademark of Microsoft Corporation W hat this Preface Contains Who Should Use This Manual Common Techniques Used in This Manual Preface This preface
121. ata Values Value Data Channel 0 INT 0 32 768 to 32 767 Data Channel 1 INT 0 32 168 to 32 767 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference C 21 1734 0E2V 2 Channel Analog Voltage Output Configuration Data Data Type Default Valid Data Values Value Fault Value Channel 0 INT 0 32 1768 to 32 767 Program Value Channel 0 INT 0 32 168 to 32 767 Low Engineering Channel 0 INT 0 32 768 to 32 767 High Engineering Channel 0 INT 10 000 32 168 to 32 767 Low Limit Channel 0 INT 32 768 32 768 to 32 767 High Limit Channel 0 INT 32 767 32 768 to 32 767 Range Type Channel 0 SINT 1 1 0 to 10V 3 10 to 10V Fault M ode Channel 0 SINT 1 O Hold Last State 1 Go to Low Clamp 2 Go to High Clamp 3 Go to Fault Value Idle M ode Channel 0 SINT 1 O Hold Last State 1 Go to Low Clamp 2 Go to High Clamp 3 Go to Fault Value Limit Alarm Latch Channel 0 SINT 0 O No Latching 1 Alarms Latch Alarm Disable Channel 0 SINT 0 0 Alarms Enabled 1 Alarms Disabled Fault Value Channel 1 INT 0 32 168 to 32 767 Program Value Channel 1 INT 0 32 168 to 32 767 Low Engineering Channel 1 INT 0 32 768 to 32 767 High Engineering Channel 1 INT 10 000 32 168 to 32 767 Low Limit Channel 1 INT 32 768 32 768 to 32 767 High Limit Channel 1 INT 32 167 32 168 to 32 767 Range Type Channel 1 SINT 1 1 0 to 10V 3 10 to 10V Fault M ode Channel 1 SINT 1 O Hold Last State 1 Go to Low Clamp
122. ation Protocol DHCP server e Retrieve the IP address from nonvolatile memory The adapter reads the switches first to determine if the switches are set to a valid number You set the node address by adjusting the 3 switches on the front of the module refer to the illustration on page 1 Use a small blade screwdriver to rotate the switches Line up the small notch on the switch with the number setting you wish to use Valid settings range from 001 through 254 X100 This example shows Fe lt the network address set at 163 K 7 gt When the switches are set to a valid number the adapter s IP address will be 192 168 1 xxx where xxx represents the number set on the switches The adapter s subnet mask will be 255 255 255 0 and the gateway address will be set to 0 0 0 0 When the adapter is reading the network address set on the switches the adapter will not have a host name assigned to it or use any Domain Name System If the switches are set to an invalid number i e 000 or a value greater than 254 the adapter checks to see if DHCP is enabled If DHCP is enabled the adapter asks for an address from a DHCP server The DHCP server will also assign other Transport Control Protocol TCP parameters If DHCP is not enabled the adapter will use the IP address along with other TCP configurable parameters stored in nonvolatile memory EDS File Requirements The EDS file is available online at www parker com pneu isysNet
123. ations certified for US and Canada CE European Union 89 336 EEC EMC Directive compliant with EN 61000 6 4 Industrial Emissions EN 50082 2 Industrial Immunity EN 61326 Meas Control Lab Industrial Requirements EN 61000 6 2 Industrial Immunity C Tick Australian Radiocommunications Act compliant with AS NZS CISPR 11 Industrial Emissions ODVA ODVA conformance tested to EtherNet IP specifications 1 Use this conductor category information for planning conductor routing as described in publication 1770 4 1 Industrial Automation W iring and Grounding Guidelines 2 See the Product Certification link at www ab com for Declarations of Conformity Certificates and other certification details Appendix A Web Page Diagnostics 1734 AENT Adapter Web Pages The 1734 AENT adapter s Web pages offer extensive internal and network diagnostics To view the Web pages enter the adapter s IP address into Netscape or Microsoft Internet Explorer You will see the Web page shown below IM PORTANT M ake sure that your PC Internet LAN setting and your TCP IP settings are configured to access the subnet on which your adapter communicates You must use Series C POINT I O modules with the A 1734 AENT adapter Series A or B POINT I O modules will not work with this adapter Z 1734 AENT A 100 Mb Ethernet Module Microsoft Internet Explorer provided by Rockwell Automation 18 x Fie Edt View F Help a Back g
124. ce that the 1738 AENT is now under the I O configuration E104P Wire the EtherNet IP Adapter Following are wiring instructions for the EtherNet IP Adapter PSSCENA Network Connector D Coded M12 Female In Connector view into connector Pin 1 Tx Pin 2 Rx Pin 3 Tx 3 O Pin 4 Rx PSSCENA Auxiliary Power Mini 7 8 Male In Connector view into connector Pin 1 User Power Pin 2 Adapter Power Pin 3 Adapter Power Pin 4 User Power NOTE User power is the 24VDC power for field devices Adapter power is the 24VDC power for adapter It is converted to 5VDC to power isysNet modules ATTENTION A Make sure all connectors and caps are securely tightened to properly seal the connections against leaks and maintain IP67 requirements isysNet EtherNet IP Adapter Series A PSSCENA E104P Troubleshoot with the Indicators PSSCENA Ethernet iP Adapter Status Indicator Network Activity 0 ard Indicator Network Q Aciviy Network Status 0 poj Indicator Q Saus H PointBus Status O Per Indicator rage N a System Power nN Indicator parker Adapter Power Indicator Indication Probable Cause PointBus Status Off Device not powered check module status indicator Flashing Red Green Recoverable fault has occurred At power up the number of expected modules does not equal the number of modules present
125. coder Counter Output Data Data Type Default Valid Data Values Value Counter Control SINT 0 Counter Reset BITO 0 0 Count Unchanged 1 Count Cleared Counter Preset BIT1 0 0 Count Unchanged 1 Count Set to Preset Value Reset BIT 2 0 0 Count Unchanged Stored Accumulated Count 1 Count Cleared Publication 1734 UM 011A EN P February 2004 C 34 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference 1734 SS 1 Channel Synchronous Serial Interface Configuration Data Data Type Default Valid Data Values Value Run SINT 1 O M odule Not Running 1 M odule Is Running Gray Binary SINT 1 O Binary Code 1 Gray Code Word Length SINT 13 2 to 31 Data Speed SINT 5 5 125K Baud 6 250K Baud 7 500K Baud 8 1M Baud 9 2M Baud G2B Convert Gray to Binary SINT 0 O No Convert 1 Convert Standardization SINT 0 0 No Standardization Divide Shift using Trailing 1 Apply Standardization SSI Word Delay Time INT 64 32 168 to 32 767 us 16 65 535 Trailing No of Trailing Bits SINT 0 0 to 16 Input Latch Control SINT 0 00 Off InputLatch_ 0 BIT 0 01 Falling Edge of Input InputLatch_ 1 BIT 1 10Rising Edge of Input 11 Both Edges of Input Sensor Resolution INT 1 32 768 to 32 767 counts Positions per Rev or Stroke 1 65 535 Sensor Cycle INT 1 32 7168 to 32 767 counts Total Revolutions or Strokes 1 65 535 Compare 0 Value DINT 0 2 147 483 648 to 2 147 483 647 0 4 29
126. ctions of this publication may contain additional information regarding specific enclosure type ratings beyond what this product provides that are required to comply with certain product safety certifications NOTE See NEMA Standards publication 250 and IEC publication 60529 as applicable for explanations of the degrees of protection provided by different types of enclosure Also see the appropriate sections in this publication as well as the publication E115P Industrial Automation Wiring and Grounding Guidelines for additional installation requirements pertaining to this equipment ATTENTION A Preventing Electrostatic Discharge This equipment is sensitive to electrostatic discharge which can cause internal damage and affect normal operation Follow these guidelines when you handle this equipment e Touch a grounded object to discharge potential static e Wear an approved grounding wriststrap e Do not touch connectors or pins on component boards e Do not touch circuit components inside the equipment e If available use a static safe workstation e When not in use store the equipment in appropriate static safe packaging isysNet 32 Point Valve Driver Series A PSSV32A Mount the I O Base To mount the I O base on a wall or panel use the screw holes provided in the base IMPORTANT The I O module must be mounted on a grounded metal mounting plate or other conductive surface A mounting illu
127. ctory default the word password is the factory default password Note the value of the switches before you enter the 888 value because you will return the adapter to those values once this process is complete Publication 1734 UM 011A EN P February 2004 A 10 1734 AENT Adapter Web Pages Notes Publication 1734 UM 011A EN P February 2004 What This Appendix Contains Install the RSLinx Softw are Appendix B Configure the RSLinx Ethernet Communication Driver In order to communicate with your 1734 AENT adapter over your network you must configure the RSLinx Ethernet communication driver AB_ETH or the EtherNet IP driver AB ETHIP You can configure the AB_ETH driver with the IP addresses of all the Ethernet devices on your system You will need one of these drivers to download the example application programs in this manual The following table lists the contents of this appendix and where to find specific information For information about See page Install the RSLinx Software B 1 Configure the AB_ETH Driver B 2 Configure the AB_ETHIP Driver B 4 ATTENTION You must use Series C POINT I O modules with the A 1734 AENT adapter Series A or B POINT I O modules will not work with this adapter Use the following procedure to install RSLinx software on your computer 1 Insert the CD in the CD ROM drive Note The CD ROM supports Windows Autorun O nce inserted into the CD ROM drive if you have Autorun conf
128. d 32 Point Valve Driver to RSLogix 5000 1 0 Configuration If your RSLogic 5000 is Version 15 X or greater e Highlight the PSSCENA under O configuration right click and select New Module e Choose the PSSV32A module from the list of Parker modules W Select Module Module Description Allen Bradley Parker Hannifin Corp PSSNBM12A 8 input 24vdc digital sinking M12 8 input 24vde digital sinking M23 8 input 24vdc digital sinking MB 2 input analog current M12 2 input analog voltage M12 8 input 24vdc digital sourcing M12 8 input 24vde digital sourcing M23 8 input 24vde digital sourcing M8 8 Output 24vde digital sourcing M12 8 Output 24vde digtal sourcing M23 8 Output 24vde digital sourcing MS 2 output analog current M12 2 output analog voltage M12 4 output relay M12 32 output 24vdc digital sourcing module PSSNAVM12A PSSP8M12A PSSP8M23A PSSPE8MBA PSST8M12A PSST8M23A PSSTSM8A PSSTACMI24 PSSTAVMI2A PSSTR4M12A e Enter a name optional and click OK E New Module General Connection Module Info Fault Program Action Configuration Type PSSV32A 32 output 24vde digital sourcing module Vendor Parker Hannifin Corp Parent ENet_Adapter Name VOM 32 Point Valve Driver Module Module Definition Electronic Keying Compatible Module Connection Data Data Format Integer Description Revision 11 Status Creating Notice that the 32 Point Valve Drive Module is
129. d and accepted an Identity Communication Faulted Request long protocol message Indication Probable Cause 1 0 Status Flashing Green Green Flashing Red Flashing Red Green Off Input is in the off state Yellow Input on isysNet 24 VDC Input Modules Series A PSSN8M8A PSSN8M12A PSSN8M23A PSSP8M8A PSSP8M12A PSSP8M23A E106P Specifications Following are specifications for the digital input modules Digital Input Modules Inputs per Module PSSNE8M 8 1 group of 8 nonisolated sinking PSSP8M 8 1 group of 8 nonisolated sourcing Voltage Off State Input Maximum 5VDC Voltage On State Input Maximum 28 8VDC Minimum 10VDC Nominal 24VDC Current Off State Input Maximum 1 5mA Current On State Input Maximum 5mA Minimum 2mA Nominal 4 mA 24VDC Input Impedance Maximum 4 7 KQ Nominal 3 6 kQ Input Delay Time OFF to ON 0 5 ms hardware 0 63 ms selectable Input Delay Time ON to OFF 0 5 ms hardware 0 63 ms selectable Input Point Density 2 4 or 8 Field Power Bus Supply Voltage Range 10 to 28 8VDC Nominal 24VDC Keyswitch Position 1 LED Indicators 2 4 or 8 yellow input status logic side 1 green red network status logic side 1 green red module status logic side PointBus Current Maximum 75 mA 5VDC Power Dissipation Maximum PSSN8M 1 6W 28 8VDC Thermal Dissipation Maximum PSSN8M 5 5 BTU hr 28 8VDC I
130. dow should look similar to the one shown below 8 1 0 Configuration 3 1756 ENBT A Local_ENB S 0 1734 AENT A POINT_IO_Adapter i O 1 1734 OW2 POINT_Relay_Output Publication 1734 UM 011A EN P February 2004 Configure the 1734 AENT for Direct Connection in RSLogix5000 4 13 Edit the Controller Ta gs When you add modules to the I O configuration the system creates tags for those modules to use in the application program For the example application you need to add one more Controller Tag 1 Double click on the Controller Tags folder in the project window B E Controller POINT_IO_Controller tila E Controller Fault Handler Power Up Handler The Controller Tags window will open You will see the tags created for the 1734 AENT and digital I O modules POINT 10 Controle Show Show AN P TagNane sv fAlasFor Base Tag Tope Swe Desci Tags created by the system C nter the new taghere aefa n 2 Click on the Edit Tags tab at the bottom of the Controller Tags window and create the following tag Tag Type Parts_Count Counter Publication 1734 UM 011A EN P February 2004 4 14 Configure the 1734 AENT for Direct Connection in RSLogix 5000 Scope POINT _10_Controle 7 Show Show Al 7 Sot Tas Name pa P Tag Name Alias For POINT_IO_Adapter 1 C AB 1734 D02C 0 Binary POINT_IO_Adapter 1 0 POINT_IO_Adapter 0 Da
131. dule or 1788 ENBT module use the following required firmware versions for these bridge modules e 1756 ENBT firmware version 2 3 or greater e 1788 ENBT firmware version 1 33 or greater If you use the BootP Utility to assign IP addresses to the adapter use version 2 3 2 or greater Understanding Messaging Class 3 Explicit Message requests through the adapter to a specific I O module may not always receive a response from the I O module In the case where the I O module does not reply to the request the adapter responds with an error code indicating a time out Establish I O Connections Mount the Adapter and I O Base To mount the adapter on a wall or panel use the screw holes provided in the adapter A mounting illustration for the adapter with I O bases is shown below E104P When you power up an isysNet I O system and establish I O connections the outputs transition to the Idle state applying Idle state data before going to RUN mode This occurs even when the controller making the connection is already in RUN mode Configure Autobaud The adapter cannot reconfigure an I O module that you previously configured to operate at a fixed baud rate When you reuse an isysNet I O module from another isysNet I O system configure the module to autobaud before using it with the adapter Open Configuration Method For using isysNet EtherNet IP Adapters without RSNetWorx or RSLogix 5000 refer to document User Guide Con
132. dules Maximum of 5 Rack Optimized connections for digital modules only Maximum of 25 direct connections 1734 AENT backplane current output 1 0A The actual number of modules can vary Add up the current requirements of the modules you want to use to make sure they do not exceed the amperage limit of 1 0A for the 1734 AENT Backplane current can be extended beyond 1 0A by using 1734 EP24DC backplane extension Power Supplies Add multiple 1734 EP24DC modules to reach the 63 module maximum Cat No PointBus Current Requirements 1734 IB2 75mA 1734 IB4 75mA 1734 IV2 75mA 1734 IV4 75mA 1734 OB2E 75mA 1734 OB2EP 75mA 1734 OB4E 75mA 1734 OV2E 75mA 1734 OV4E 75mA 1734 OW2 80mA 1734 OX2 100mA 1734 TE2C 75mA 1734 OE2C 75mA 1734 IE2V 75mA 1734 OE2V 75mA 1734 IA2 75mA 1734 IM2 75mA 1734 OA2 75mA 1734 IJ2 160mA 1734 IK2 160mA 1734 IR2 220mA 1734 IT21 175mA 1734 SSI 110mA 1734 VHSCS 180mA 1734 VHSC24 180mA 1734 232ASC 75mA 1734 485ASC 75mA Ethernet Communication 10 100Mbits s half or full duplex Rate Module Location Starter module left side of the 1734 system Power Supply Specifications Input Voltage Rating 24V dc nominal 10 28 8V dc range Field Side Power 24V dc 20 28 8V dc maximum 400mA Requirements maximum Inrush Current 6A maximum for 10ms Interruption Output voltage will stay within specifications when input drops out for 10ms at 10V with maximum load Publication 1734
133. dules POINT I O Technical Data 1734 TD002 POINT 1 0 interface modules POINT I O RS 232 ASCII M odule User M anual 1734 UM 009 POINT I O RS 232 ASCII M odule Installation Instructions 1734 IN 588 POINT I O expansion power supply POINT I O 24V dc Expansion Power Supply Installation 1734 IN 058 Instructions POINT 1 0 field potential distributor POINT I O Field Potential Distributor Installation Instructions 1734 IN 059 POINT 1 0 input modules POINT I O 120V ac Input M odule Installation Instructions 1734 IN010 POINT I O Input M odule Installation Instructions 1734 IN051 POINT 1 0 input analog modules POINT 1 0 2 Input Analog M odule Installation Instructions 1734 IN053 POINT I O 2 Voltage Input Analog M odule Installation Instructions 1734 IN 001 POINT I O encoders counter modules POINT I O Encoders Counter M odule User M anual 1734 UM 006 POINT I O 5V Encoders Counter M odule Installation Instructions 1734 IN005 POINT 1 0 24V Encoders Counter M odule Installation Instructions 1734 IN 006 Publication 1734 UM 011A EN P February 2004 For information about See this publication Preface 5 Publication number POINT 1 0 22V ac input module POINT I O 220V ac Input M odule Installation Instructions 1734 IN 008 POINT 1 0 RTD input module POINT I O RTD Input M odule Installation Instructions 1734 IN 012 POINT 1 0 isolated termocouple input POINT I O Isolated Thermoc
134. e a ControlLogix EtherN et IP bridge module in the same chassis as the controller does not require an RPI because it is not a data producing member of the system it is used only as a bridge to remote racks The 1734 AENT adapter supports both direct and rack optimized connections A direct connection is a real time data transfer link between the controller and whatever module occupies the slot that the configuration data references Direct connection messaging occurs at a cyclic rate specified by the RPI during configuration A rack optimized connection is a grouping of data About the 1734 AENT Adapter 1 7 from more than one I O module into a single block of data sent over a single connection at the same data rate Rack optimized connections reduce the total number of connections needed to transfer data when using many I O modules in a system The following example illustrates the benefit of rack optimized connections Assume you have set up a system that contains 8 discrete I O modules interfaced to a 1734 AENT adapter If you use direct connections to transfer data to each of the these I O modules you need 8 connections to transfer all of the data one to each of the 8 I O modules If you use a rack optimized connection to transfer the data you only need a single connection the connection to the 1734 AENT adapter IM PORTANT Although rack optimized connections offer an efficient way to use resources there are a few limitations on
135. e module You can obtain statistics for the following networks e Ethernet e ICMP e IP e UDP e TCP Z 1734 AENT A 100 Mb Ethern Rockwell a Navigation Expand Minimize s UDP Statistics ITCP Statistics Publication 1734 UM 011A EN P February 2004 1734 AENT Adapter Web Pages A 5 Connection Statistics The Connection Statistics page list CIP related statistic and connection activity You can obtain the following statistics e requests e rejects e timeouts Rockwell Expand Minimize Publication 1734 UM 011A EN P February 2004 A 6 1734 AENT Adapter W eb Pages Diagnostic Messaging The Diagnostic Messaging page lets you retrieve module status or conditions such as e Service e I O slot position e Class e Instance e Attribute e Timeout Z 1734 AENT A 100 Mb Ethernet Module Micr Allen Bradley Navigation Expand Minimize Publication 1734 UM 011A EN P February 2004 1734 AENT Adapter Web Pages A 7 Browse Chassis Browse the chassis to see what modules are present on the system A query will run from slot 1 to slot 63 The Browse Chassis page will display the modules that were found based on this query The Browse Chassis page provides an easy and helpful way to see what modules the adapter is recognizing on your system e Select the Display compact button so a check mark appears to decrease the font size This may make it easier to read the screen e Se
136. e address at the factory The address is printed on a label on the side of your 1734 AENT adapter as shown in the figure at left It consists of six hexadecimal digits separated by colons This address is fixed by the hardware and cannot be changed If you change or replace the 1734 AENT adapter you must enter the new Ethernet hardware address of the adapter when you configure the new adapter IP Address The IP address identifies each node on the IP network or system of connected networks Each TCP IP node on a network including the 1734 AENT adapter must have a unique IP address The IP address is 32 bits long and has a net ID part and a Host ID part Networks are classified A B C or other The class of the network determines how an IP address is formatted 0 78 31 0 Net ID Host ID 0 15 16 31 10 Net ID Host ID 0 2324 31 110 Net ID Host ID EXAMPLE Configure the 1734 AENT Adapter for Your EtherNet IP Network 3 3 You can distinguish the class of the IP address from the first integer in its dotted decimal IP address as follows Range of firstinteger Class Range offirstinteger Class 0 127 A 192 223 C 128 191 B 224 255 other Each node on the same physical network must have an IP address of the same class and must have the same net ID Each node on the same network must have a different Host ID thus giving it a unique IP address IP addresses are written
137. e module to the base Remove the Digital Output Module From the Mounting Base To Remove the Module from the Mounting Base 1 Put a flat blade screwdriver into the slot of the orange latching mechanism 2 Push the screwdriver toward the I O module to disengage the latch The module will lift up off the base 3 Pull the module off of the base E107P isysNet 24 VDC Output Modules Series A PSST8M23A PSST8M12A PSST8M8A E107P Wire the Output Modules Following are wiring instructions for the digital output modules PSST8M23A view into connector Pin 1 Output 0 Pin 2 Output 1 Pin 3 Output 2 Pin 4 Output 3 Pin 5 Output 4 Pin 6 Output 5 PSST8M12A Pin 7 Output 6 Pin 8 Output 7 Pin 9 Return Com Pin 10 Return Com Pin 11 24VDC Pin 12 Chassis 0 00 view into connector Pin 1 24VDC Pin 2 Output 1 Output 3 Output 5 Output 7 Pin 3 Common M12 A M12 B M12 C M12 D were Ter Pin 4 Output 0 M12 A Output 2 M12 B Output 4 M12 C Output 6 M12 D Pin 5 No Connect ere Ser PSST8M8A view into connector Pin 1 24VDC Pin 3 Common Pin 4 Output 0 Output 1 Output 2 Output 3 Output 4 Output 5 Output 6 Output 7 ATTENTION Make sure all connectors and caps are securely tightened to properly seal the connections against leaks and maintain IP67 requirements Communicate With Your Module I O messages are sent
138. e sure all four screws are securely tightened to properly seal the connections against leaks and maintain IP67 requirements C y i 3 02 5 39 f Drill and Tap 76 6 137 0 Drill and Tap for M6 Screw Outputs Outputs 1 24 25 32 Connector Connector ooooooo0oo0o0000 0 0 0 oooooo0o000000000 0 oogoo00g0gg Bel isysNet 32 Point Valve Driver Series A PSSV32A Communicate With Your Module I O messages are sent to consumed and received from produced the I O modules These messages are mapped into the processor s memory The 32 point valve driver produces 1 byte of input data scanner Rx status and consumes 1 byte of I O data scanner Tx Default Data Map for the 32 Point Valve Driver PSSV32A Message Size 1 Byte Byte Bit Bits Bits Bit4 Bit3 Bit2 Bit1 Bito Produce 0 ae Ea pa Ei e Ei Ea Produce 1 Supa Sm Output Output Output Output aap Sip 14 13 12 11 10 Produce 2 Son Output Output Output Output Output San San Produce 3 Output Output Output Output Output Output Output Output 31 30 29 28 27 26 25 24 Produce 4 Fault Fault Fault Fault Fault Fault Fault Fault 28 31
139. earth CM on power ports 2kV line earth CM on unshielded communications port tested as balanced circuits Conducted RF Immunity IEC 61000 4 6 10Vrms with 1kHz sine wave 80 AM from 150kHz to 80MHz Emissions CSPR 11 Group 1 Class A Enclosure Type Rating Meets IP65 66 67 when marked Mounting Base Screw Torque 8 screw 7 5 in lbs in Aluminum 16 in lbs in Steel Wiring Category 1 on power ports 1 on communications ports Weight Imperial Metric 0 80 Ib 0 36 kg Certifications when product is marked c UL us UL Listed Industrial Control Equipment certified for US and Canada CE European Union 89 336 EEC EMC Directive compliant with EN 61000 6 4 Industrial Emissions EN 50082 2 Industrial Immunity EN 61326 Meas Control Lab Industrial Requirements EN 61000 6 2 Industrial Immunity C Tick Australian Radiocommunications Act compliant with AS NZS CISPR 11 Industrial Emissions EtherNet IP ODVA conformance tested to EtherNet IP specifications 1 Use this Conductor Category information for planning conductor routing Refer to Publication E115P Industrial Automation Wiring and Grounding Guidelines Installation amp Service Instructions p tic Divisi E106P neuma Iic IvISION isysNet 24 VDC Input Modules Series A Richland Michigan 49083 PSSN8M8A PSSN8M12A PSSN8M23A PSSP8M8A PSSP8M12A PSSP8M23A ISSUED December 2006 Supersedes January 2
140. ectronically Fused Output Source 1738 0E2CM12 A 2 Channel Analog Current Output 1738 0E2VM12 A 2 Channel Analog Voltage Output 1738 0V4EM12 A 4 Point 10V 28V DC Electronically Fused Output Sink Show Vendor All Other Specialty 1 0 Select All W Analog Digtal I Communication I Motion F7 Controler Clear All ewe o e Enter a name optional an appropriate slot number and the connection parameters as shown in this screen capture Module Properties ENet_Adapter 1 1738 MODULE 1 1 Type 1736 MODULE Genetic 1738 Module Patent ENet_Adapter Connection Parameters Assembly Instance for eo Name Input Descriptor 32 Point Valve Driver Module Output Configuration fi 23 m Comm Format Data SINT Sbt 4 e Choose Next to set RPI e Choose Finish Notice that the 32 Point Valve Driver Module is now under the I O configuration Step 4 Download the Program to the Controller and Configure the PSSCCNA or 1738 ACNR Adapter e Reference pages 4 11 through 4 15 of Rockwell publication 1734 UM008 for similar setup procedure Step 5 Schedule I O Module Connections e Reference pages 4 15 through 4 19 of Rockwell publication 1734 UM008 for similar setup procedure Step 6 Access Module Data via the PSSCCNA or 1738 ACNR Adapter e Make sure the 32 outputs of PSSV32A appear in Controller Tags Use the information in the ladder logic program to access module data Toe E AB 1738 MODULEC
141. eed to access the updated information and download it into the module There are three ways to download the updated configuration information into the module Ideally you would enter the correct code number in the Range Type field at the same time that you add the I O to the I O Configuration tree You would then download later 1734 AENT Quick Start D 7 However if you have downloaded the offline configuration into the module and then realize that you must modify any of the module s configuration parameters then the preferred way to make these changes online is to go to the Module Connection tab and inhibit the module apply the changes and then uninhibit the module D oing this will break the connection causing the configuration information to be downloaded right after the connection is made Switching the processor from Program to Run mode does IMPORTANT not change the module connection status and does not re send module configuration data It is highly recommended that the inhibit uninhibit process be used and that power cycling be avoided 6 Right click on the 1734 AENT adapter and select Properties 7 Click on Connection Tab You will see the following message il Module Properties local_enet 0 1734 AENT A 1 1 t x General Connection Module Info Port Configuration Port Diagnostics Chassis Size Requested Packet Interval RPI ms I Major Fault On Controller If Connection Fails While
142. eene Oceana ie aa e a a E eek Ae sta ceds tated A 3 Network Statistics 3 345 dunnteiae cue aacis ottee ani ad seu A 4 Connection SUALISUICS s a ccauici ade dase xis deeoel eases A 5 Diagnostic Messaging scsi is oa She badveash ihe hosnowdes A 6 Browse CHASSIS sac caren Ea a AEE a takes ones A 7 Configuration e B73 cata ocd peed wa aa en nee aR aes Ba A 8 Appendix B Configure the RSLinx Ethernet What This Appendix Contains ccc cece ee eee B 1 Communication Driver Install the RSLinx SOfWANGS 45 504 wite a ecnntdny fe ee aAS aes B 1 Configure the AB ETH Driver cc cece eee enees B 2 Configure the AB ETH IP Driver ccc eee eeuees B 4 Appendix C 1734 POINT I O 1734 POINT I O Catalog Numbers 0 cee eee C 1 Module RSLogix 5000 Valid Number Ranges for RSLogix 5000 DataTypes C 2 Controller Tag Reference Discrete 2 POINT Input 00 sees eeee nese eterna es C 3 Discrete 4 POINT INputs jodtleo hat eo dia wiht RR une aw des C 4 Discrete 2 POINT Output Without Diagnostic Status C 5 Discrete 2 POINT Output With Over Load and O pen Load Diagnostic Status 454 eu a2 gc Aa lanka th tee atalnt ler dedin dey arfiaew win wat C 6 Discrete 2 POINT Output With Over Load Diagnostic Status C 7 Discrete 4 POINT Output With Over Load and Open Load 1 TACO SHC Statusne Salo tek Veen isa doe asad C 8 Discrete 4 POINT Output With Over Load Diagnostic Status C 9
143. er will use the IP address along with other TCP configurable parameters stored in nonvolatile memory EDS File Requirements The EDS file is available online at www parker com pneu isysNet Add EtherNet IP Adapter to RSLogix 5000 1O Configuration To add your PSSCENA to RSLogix 5000 I O configuration follow these steps e In RSLogix 5000 highlight the EtherNet IP Scanner right click and select New Module 5 63 1 0 Configuration 1 1 1756 CNB D CNet_Scanner 9 2 1756 DNB DNet_Scanner i 4 New Module Ctrl C By copy Cross Reference Ctri E Properties E104P If your RSLogic 5000 is Version 15 X or greater e Choose the PSSCENA module from the list of Parker modules E Select Module Module Description Allen Bradley Parker Hannifin Corp PH PSSCENA A Ethernet Adapter Twisted Pair Media Find Add Favorite By Category By Vendor Favorites New Module Type PH PSSCENA A Ethemet Adapter Twisted Pair Media Vendor Parker Hannifin Corp Parent ENet_Scanner Name PSSCENA Address Host Name Description PAddess 172 26 C Host Name Comm Format Rack Optimization x Slot Chassis Size B 4 Revision 1 j Electronic Keying Compatible Keying IV Open Modde Properties coed te Choose Next to set RPI e Choose Finish Notice that the PSSCENA is now under the I O configuration If your RSLogic 5000 is Versio
144. er_A_Inputoutput_ K Compare New Component Compact Prints Gol P Print Options Recent File Exit Create a new project file The New Controller pop up window will open Vendor Allen Bradley Revision 11 ei Cancel J Redundancy Enabled Help Name JPOINT 0_Contoles Description Z f Chassis Type 175644 4 Slot ControlLogix Chassis Slot M Create In CARS Logix 50005Projects Browse 3 Enter an appropriate Name for the Controller e g POINT IO Controller 4 Select the correct Version Chassis Type and Slot number of the Logix5555 controller and the folder where you want to save the RSLogix 5000 file Create In The Description is optional Note Version 11 of RSLogix 5000 lets you choose to enable redundancy This example does not use redundancy If you are going to use redundancy in your system check the Redundancy Enabled box so that a check mark appears Publication 1734 UM 011A EN P February 2004 5 4 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix 5000 Click on OK Configure the 1 0 You now add the POINT I O modules to the controller s I O configuration To do this you first add the local 1756 ENBT module to the I O configuration Next you add the 1734 AENT adapter as a child of the 1756 ENBT module Then you add the I O modules as children of the 1734 AENT adapter Click on the Help buttons on the configuration sc
145. ermission of Parker Hannifin Corporation is prohibited Throughout this manual we use notes to make you aware of safety considerations WARNING Identifies information about practices or circumstances that can cause an explosion in a hazardous environment which may lead to personal injury or death property damage or economic loss IMPORTANT Identifies information that is critical for successful application and understanding of the product ATTENTION Identifies information about practices or circumstances that can lead to personal injury or death property damage or economic loss Attentions help you e Identify a Hazard e Avoid a Hazard e Recognize the Consequence jello d VAGUE Labels may be located on or inside the equipment to alert people that dangerous voltage may be present ciO yA GDE Labels may be located on or inside the equipment to alert people that surfaces may be dangerous temperatures E104P ATTENTION A Environment and Enclosure This equipment is intended for use in overvoltage Category Il applications as defined in IEC publication 60664 1 at altitudes up to 2000 meters without derating This equipment is considered Group 1 Class A industrial equipment according to IEC CISPR Publication 11 Without appropriate precautions there may be potential difficulties ensuring electromagnetic compatibility in other environments due to conducted as well
146. erval RPI ms e ri gt T Major Fault On Controller If Connection Fails While in Run Mode r Module Fault Code 1640010 Mode or state of module does not allow object to perform requested service Status Faulted Cancel Apply Help 5 Click the Chassis Size tab G Click Set Chassis Size in Module E Module Properties EN_Bridge 0 1734 AENT A 1 1 General Connection Module Info Port Configuration Value from RS Log ix 5000 Chassis Size From General Tab B Set Chassis Size in Module Value stored Chassis Size In Module fi in 1734 AENT Refresh Status Faulted 7 Read and acknowledge the warning screen RSLogix 5000 x 7 DANGER Multi controller sytems If two or more controllers are sharing this module setting the chassis size could affect the operation of the other 2 controllers Missing Modules All slots must be filled with modules Unexpected behaviors will res f are missi Incorrect Chassis Size The chassis size specified must match the physical chassis exactly or unexpected behaviors will result This function may result in modules being re addressed Ensure that all planned modules are present and that all terminal bases are filled Set the Chassis Size of the Point 1 0 System to 4 Cancel Help Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix5000 5 15 8 Click OK to continue Notice the chassis size
147. es will not work with this adapter eme Module F 0 2 sere kd Ei Network 1734 AENT Allen Bradley rr rele C POINT 110 s Indication System Power M odule Status Network Activity Network Status PointBus Status System Power Field Power 43248aent Probable Cause off Not active field power is off or dc dc converter problem Green System power on dc dc converter active 5V dc Field Power off Not active field power is off Green Power on 24V dc present Indication Probable Cause Module Status off No power applied to device Flashing Red Green LED powerup test module self test Green Device is operating normally Flashing Red Recoverable fault has occurred Firmware NVS update Publication 1734 UM 011A EN P February 2004 6 2 Publication 1734 UM 011A EN P February 2004 LED Status Indicators Indication Probable Cause Solid Red Unrecoverable fault has occurred e Self test failure checksum failure or ramtest failure at powerup e Firmware fatal error Netw ork Status Off Device not initialized The module does not have an IP address Flashing Green No CIP connections Device has an IP address but no CIP connections are established Green CIP connections Device
148. escription 1734 Ethernet Adapter Twisted Pair Media 1756 10 100 Mbps Ethernet Bridge Twisted Pair Media 1756 Ethernet Communication Interface 1756 Ethernet Bridge 1788 ENBT A 1788 10 100 Mbps Ethernet Bridge Twisted Pair Media 1794 4ENT ZA 1794 10 100 Mbps Ethernet Adapter Twisted Pair Media ETHERNET MODULE Generic Ethernet Module Show Vendor al x IV Other I Specialty 1 0 Select All V Analog WMV Digital V Communication V Motion IV Controller Clear AII Cancel Help Publication 1734 UM 011A EN P February 2004 Configure the 1734 AENT for Direct Connection in RSLogix5000 47 The Module Properties window will open 3 We used the following values Name POINT_IO_Adapter IP Address 10 88 70 2 Comm Format None Chassis Size 3 Electronic Keying Compatible Module Revision 1 1 Note that the Slot field is disabled because the slot is automatically 0 for the 1734 AENT Module Properties EN_Bridge 124 1734 AENT A 1 1 gt xj Type 1734 4ENT 4 1734 Ethernet Adapter Twisted Pair Media Vendor Allen Bradley Parent EN_Bridge Name POINT_O_Adapter Address Host Namo Description A IP Address 10 8 70 2 zi Host Name Comm Format None x Slot p Chassis Size E H Revision fi Electronic Keying Compatible Module Cancel Back Next gt Finish gt gt Help The chassis size equals 1 for the adapter the number of POINT I O modules insta
149. ete Del Cross Reference Ctrl E e Notice that the PSST8M12A is now under the I O configuration Properties isysNet 24 VDC Output Modules Series A PSST8M23A PSST8M12A PSST8M8A If your RSLogic 5000 is Version 13 X e Choose the equivalent Rockwell Automation module from the list of modules Select Module Type Type 1738 0B8EM12 4 Type Description 1738 1R2M127A 2 Channel RTD Input 1738 1T21M12 4 2 Channel Thermocouple Input Isolated 1738 1V4M127 A 4 Point 10V 28V DC Input Source 1738 MODULE Genetic 1738 Module 1738 042M12AC3 A 2 Point 120V AC Output 1738 0B2EM12 4 2 Point 10V 28V DC Electronically Fused Output Source 1738 0B2EPM12 4 2 Point 10V 28V DC Electronically Fused Protected Output Source 1738 0B4EM12 4 4 Point 10 28V DC Electronically Fused Output Source 1738 0B4EM8 4 4 Point 10V 28V DC Electronically Fused Output Source 1738 0B8EM12 A 8 Point 10 28 DC Electronically Fused Output Source 1738 0B8EM8 4 8 Point 10V 28V DC Electronically Fused Output Source 1738 0 20M12 4 2 Channel Analog Current Output 1738 0E 2VM12 4 2 Channel Analog Voltage Output 1738 0V4EM12 4 4 Point 10 28V DC Electronically Fused Output Sink v Show z Vendor All W Othe W Speciatyi o Select AN Analog M Digital Communication V Motion Controller Clear All Coc __ Hep z Equivalent Rockwell Automation iSysNet Modules 1738 ArmorPoint Modules PSST8M8A 1738 OB8EM8 PSST8M12A 1738 OB8EM12 PSST
150. f 1 0n Program M ode POINT 0 1 SINT BIT 0 0 Program Value 1 Hold Last State Program Value POINT 0 1 SINT BIT 0 0 0ff 1 0n Auto Restart Enable POINT 0 1 SINT BIT 0 O Latch Off Over Load Behavior 1 Auto Retry Fault Latch Enable POINT 0 1 SINT BIT 0 0 No Latching Over Load 1 Alarms Latch Input Data Data Type Default Valid Data Values Value Status Data POINT 0 1 SINT BIT 0 0 Off Over Load 1 0n Load Fault Output Data Data Type Default Valid Data Values Value Output Data POINT 0 1 SINT BIT 0 0 Off 1 0n Publication 1734 UM 011A EN P February 2004 C 8 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference Discrete 4 POINT Output With Over Load and Open Load Diagnostic Status Publication 1734 UM 011A EN P February 2004 1734 0B 4E 4 POINT 10V 28V DC Electronically Fused Output Source Configuration Data Data Type Default Valid Data Values Value Fault M ode POINT 0 1 2 3 SINT BIT 0 0 Fault Value 1 Hold Last State Fault Value POINT 0 1 2 3 SINT BIT 0 0 Off 1 0n Program M ode POINT 0 1 2 3 SINT BIT 0 0 Program Value 1 Hold Last State Program Value POINT 0 1 2 3 SINT BIT J0 0 Off 1 0n No Load Enable POINT 0 1 2 3 SINT BIT 1 0 Disabled Wire Off Diagnostic 1 Enabled Auto Restart Enable POINT 0 1 2 3 SINT BIT 0 O Latch Off Over Load Behavior 1 Auto Retry Fault Latch Enable POINT 0 1
151. f Device not powered check module status indicator Flashing Red Green Recoverable fault has occurred At power up the number of expected modules does not equal the number of modules present A module is missing Node fault I O connection timeout Unrecoverable fault has occurred The adapter is bus off Controller in program idle mode Ethernet cable open Adapter is on line with connections established normal operation Indication Probable Cause Adapier Status Off No power applied to device Flashing Red Green Green Device is operating normall Flashing Red Recoverable fault has occurred Firmware NVS update Network IP address changed CPU load exceeded Solid Red Unrecoverable fault has occurred Self test failure checksum failure at power up ramtest failure at power up Firmware fatal error indication Probable Cause Network Activity Off No link established LED power up test module self test Indication Probable Cause System Power Flashing Green Off _ Transmit or receive activity Green Link established Off Not active Field power is off overloaded backplane or dc dc converter problem Green System power on dc dc converter active 5V Indication Probable Cause Adapter Power Indication Probable Cause Network Status Off Device is not initialized The module does not have an IP address Flashing Green No CIP connections De
152. f the 1734 AENT adapter It describes how to install and configure the adapter and provides examples showing how to use the adapter to communicate with POINT I O over an EtherNet IP network About the Example Applications This manual presents two example applications that demonstrate the procedures for configuring and communicating with POINT I O using the 1734 AENT adapter The example applications are intended as building blocks to help you get your own system up and running We recommend that you set up and run the example applications and use them as guides Here is the type of system you ll be setting up 1734 AENT pE Mee Te EEE E pont i o Slot 0 1 2 3 ao EE EB L fol me a Local Data e Chassis E BARIJERE 12 RAR ENBT 10 88 70 4 slot 3 Switch Logix5555 Slt 012 34 Controller slot 1 10 88 70 26 Programming Terminal 31393 M System Components Preface 3 We used the following components for the example applications You will need the same or similar components to set up your own control system using PONT I O on EtherNet IP Quantity Product Name Catalog Number Part Number Hardware 1 POINT I O
153. fety Guidelines for the Application Installation and Maintenance of Solid State Controls available online at www parker com pneu isysNet describes some important differences between solid state equipment and hard wired electromechanical devices Because of this difference and also because of the wide variety of uses for solid state equipment all persons responsible for applying this equipment must satisfy themselves that each intended application of this equipment is acceptable In no event will Parker Hannifin Corporation be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment The examples and diagrams in this manual are included solely for illustrative purposes Because of the many variables and requirements associated with any particular installation Parker Hannifin Corporation cannot assume responsibility or liability for actual use based on the examples and diagrams No patent liability is assumed by Parker Hannifin Corporation with respect to use of information circuits equipment or software described in this manual Reproduction of the contents of this manual in whole or in part without written permission of Parker Hannifin Corporation is prohibited Throughout this manual we use notes to make you aware of safety considerations WARNING Identifies information about practices or circumstances that can cause an explosion in a hazardous environment
154. figuration of the isysNet Pneumatics Platform using Explicit Messaging which is available at www parker com pneu isysnet ee 19 ho 20 0 87 20 3 13 5 98 47 2 50 22 50 79 4 151 9 I O Module I O Module Adapter 1 Ground Ground f ewe lt j Lo Pict 4 02 2 39 102 o 60 7 Oo nh r 4 32 46 i 109 8 Inches 5 mm i 3 02 5 39 f Drill and Tap 76 6 137 0 Drill and Tap for M4 Screw for M6 Screw Depending on the type and number of manifolds this dimension may vary Refer to Catalog 0600P for additional information Grounding Install the Mounting Base as Follows Each isysNet base has two mounting holes with the one on the right being the means to ground each module Each module must be grounded 1 Lay out the required points as shown above in the drilling dimension drawing 2 Drill the necessary holes for 8 M4 machine or self tapping screws 3 Mount the adapter using 8 M4 screws 4 Ground the system using the ground lug connection in the I O base The ground lug connection is also a mounting hole isysNet EtherNet IP Adapter Series A PSSCENA Set the Network Address To set the network address you can e Adjust the switches on the front of the module e Use a Dynamic Host Configur
155. fix creates the unique name of that computer on the Internet For example let s say a trading website is www trading com The Host Name is www which is not unique on the web but is unique within the trading domain The Host Name can also refer to the Fully Qualified Domain Name FQDN or in this example www trading com Both naming methods seem to be used interchangeably in various documents For the purposes of this document the Host Name will refer to the FQDN or as in this example www trading com hub A central connecting device that joins devices together in a star configuration Hubs are generally not suitable for use in 1 0 control systems since they are time critical applications that cannot tolerate lost packets implicit messaging Real time messaging of 1 0 data IP Internet Protocol that provides the routing mechanism for messages All messages contain not only the address of the destination station but the address of a destination network which allows messages to be sent to multiple networks within an organization or around the world IP address A 32 bit identification number for each node on an Internet Protocol network These addresses are represented as four sets of 8 bit numbers numbers from 0 to 255 with decimals between them Each node on the network must have a unique IP address Publication 1734 UM 011A EN P February 2004 Preface 8 Publication 1734 UM 011A EN P Febr
156. for Direct Connection in RSLogix 5000 Set Up the Hardware Publication 1734 UM 011A EN P February 2004 In this example a ControlLogix chassis contains the Logix 5555 processor in slot 1 and a 1756 ENBT bridge module in slot 3 The 1734 AENT adapter is mounted on a DIN rail in slot 0 with a 1734 OW2 C relay output module in slot 1 a 1734 OV4E C sink output module in slot 2 and a power supply not shown 1734 AENT ag 10 88 70 2 FFE E_ POINT I O Slot 0 123 imi m DD al om Local Data o ae Chassis e THEIA l 1756 ENBT Slot 012 34 Logix5555 10 88 70 4 slot 3 Controller slot 1 Switch 10 88 70 26 Programming Terminal 31393 M To work along with this example set up your system as shown above e Note that in the example application the Logix5555 controller and 1756 ENBT module firmware version 2 3 or higher are assumed to be in the slots shown above e Verify the IP addresses for your programming terminal 1756 ENBT module and 1734 AENT adapter e Verify the position slot of the I O modules on the DIN rail e Verify that all wiring and cabling is properly connected e Make sure your communication driver e g AB_ETH 1 or AB ETHIP 1 is configured in RSLin
157. hAlarm Bit 4 LowLowAlarm Bit 5 HighHighAlarm Bit 6 Underrange Bit 7 Overrange Output Data Data Type Default Valid Data Values Value None Publication 1734 UM 011A EN P February 2004 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference 1734 IR2 2 Channel RTD Input Configuration Data Data Type Default Value Valid Data Values Low Engineering Channel 0 INT 1 000 32 768 to 32 767 High Engineering Channel 0 INT 5 000 32 168 to 32 767 Digital Filter Channel 0 INT 0 0 to 10 000 ms Low Alarm Limit Channel 0 INT 32 7168 32 768 to 32 767 High Alarm Limit Channel 0 INT 32 167 32 168 to 32 767 Low Low Alarm Limit Channel 0 INT 32 168 32 168 to 32 767 High High Alarm Limit Channel 0 INT 32 767 32 768 to 32 767 Limit Alarm Latch Channel 0 SINT 0 O No Latching 1 Alarms Latch Alarm Disable Channel 0 SINT 0 0 Alarms Enabled 1 Alarms Disabled Sensor Type Channel 0 SINT 1 0 Ohms 1 100 Pt 0385 2 200 Q Pt a385 5 100 Q J Pt 3916 6 200 Q J Pt 3916 9 10 Q Cu 0427 10 120 Q Ni 672 11 100 Q Ni 618 12 120 Q Ni 618 Temperature M ode Channel 0 SINT 1 O Custom Scale 1 C 2 F 3 K 4 R Low Engineering Channel 1 INT 1 000 32 168 to 32 767 High Engineering Channel 1 INT 5 000 32 168 to 32 767 Digital Filter Channel 1 INT 0 0 to 10 000 ms Low Alarm Limit Channel 1 INT 32 168 32 168 to 32 767 High Alarm Limit Channel 1 INT 32 167 32 168 to 32
158. half or full duplex Note In order to comply with CE Low Voltage Directives LVD you must use either a NEC Class 2 a Safety Extra Low Voltage SELV or a Protected Extra Low Voltage PELV power supply to power this adapter A SELV supply cannot exceed 30V rms 42 4V peak or 60VDC under normal conditions and under single fault conditions A PELV supply has the same rating and is connected to protected earth Input Voltage Rating 24VDC nominal 10 28 8VDC range Inrush Current 6A maximum for 10ms Field Side Power Requirements Maximum 24VDC 20 28 8VDC 400 mA Interruption General Specifications LED Indicators Output voltage will stay within specifications when input drops out for 10ms at 10V with maximum load 1 green red Adapter status 1 green Network activity 1 green red Network status 1 green red PointBus status 1 green System Power PointBus 5V power 1 green Adapter Power 24V from field supply Power Consumption Maximum 8 1W 28 8VDC Power Dissipation Maximum 2 8W 28 8VDC Thermal Dissipation Maximum 9 5 BTU hr 28 8VDC PointBus Output Current Maximum 1A 5VDC 5 4 75 5 25 Input Overvoltage Protection Reverse polarity protected Isolation Voltage continuous voltage withstand rating 50V rms Tested to withstand 1250VAC rms for 60s Field Power Bus Nominal Voltage Supply Voltage Supply Current 24VDC 10 28 8VDC range 10A max
159. hardware This procedure will synchronize the chassis size value from the RSLogix 5000 software into the 1734 AENT hardware 1 Verify that RSLogix 5000 is online 2 Right click on the 1734 AENT under I O Configuration in the Project window 3 Select Properties 4 Click the Connection tab You see the Module Fault error code fl Module Properties local_enet 0 1734 AENT A 1 1 xj General Connection Module Info Port Configuration Port Diagnostics Chassis Size I Major Fault On Controller If Connection Fails While in Run Mode Module Fault Code 16 0010 Mode or state of module does not allow object to perform requested service Status Faulted Cancel Apply Help 5 Click the Chassis Size tab Publication 1734 UM 011A EN P February 2004 Configure the 1734 AENT for Direct Connection in RSLogix5000 4 17 G Click Set Chassis Size in Module E Module Properties EN_Bridge 0 1734 AENT A 1 1 General Connection Module Info Port Configuration Value from RS Log ix 5000 Chassis Size From General Tab B Set Chassis Size in Module Value stored Chassis Size In Module fi in 1734 AENT Status Faulted Cancel Apply Help 7 Read and acknowledge the warning screen RSLogix 5000 DANGER Multi controller sytems If two or more controllers are sharing this module setting the chassis size could affect the operation of the other controllers behaviors will result j Missing
160. he Relation List to use later To save the Relation List perform the following steps T Select Save As from the File menu Pa BOOTP DHCP Server 2 3 C Documents and Settings tiggs Desktopi Bootp Server control syste x File Tools Help New Open Add to Relation List Type Ethernet Address MAC IP Address DHCP 00 00 BC 21 20 14 10 88 70 2 DHCP 00 00 BC 21 20 14 Saye m Relation List New Delete Enable BOOTP Enable DHCP Disable BOOTP DHCP Ethemet Address MAC Type IP Address 00 00 BC 21 20 14 DHCP 10 88 70 2 Entries 1 of 256 m Status Sent 10 88 70 2 to Ethernet address 00 00 B0 21 20 14 You will see the following window Save As 2 Save in amp Bootp Sever x cE File name contor system configuration Save as type Bootp Config Files bpe 7 Cancel 4 2 Select the folder you want to Save in 3 Enter a File name for the Relation List e g control system configuration and click on Save You can leave the Save as type at the default setting Bootp Config Files bpc Publication 1734 UM 011A EN P February 2004 3 10 Configure the 1734 AENT Adapter for Your EtherNet IP Network Use DHCP Software to Configure Your Adapter What s Next Publication 1734 UM 011A EN P February 2004 You can then open the file containing the Relation List at a later session Look in E
161. her investigation by users having technical expertise It Connector 0 Female is important that you analyze all aspects of your application including M8 A 2 IS oan Connector consequences of any failure and review the information concerning the Female y M8 D product or systems in the current product catalog Due to the variety of Connector O operating conditions and applications for these products or systems the M8 C O 2 LER user through its own analysis and testing is solely responsible for making WA lp 03 Indicators the final selection of the products and systems and assuring that all Female m Pt C3 i performance safety and warning requirements of the application are met nas 7 ie Connector The products described herein including without limitation product features WE M8 F specifications designs availability and pricing are subject to change by Female Parker Hannifin Corporation and its subsidiaries at any time without notice Connector C T Female EXTRA COPIES OF THESE INSTRUCTIONS ARE AVAILABLE FOR INCLUSION M8 G Connector IN EQUIPMENT MAINTENANCE MANUALS THAT UTILIZE THESE PRODUCTS M8 H CONTACT YOUR LOCAL REPRESENTATIVE isysNet 24 VDC Input Modules Series A PSSN8M8A PSSN8M12A PSSN8M23A PSSP8M8A PSSP8M12A PSSP8M23A E106P Important User Information Solid state equipment has operational characteristics differing from those of electromechanical equipment Safety Guideli
162. ies window will open 4 Entera Name Slot Comm Format and Comm Format Module Properties POINT_IO_Adapter 1734 O 4E 3 1 E Type 1734 0V4E 4 Point 10V 28 DC Electronically Fused Output Sink Vendor Allen Bradley Parent POINT_IO_Adapter Name POINT _Digta L0 utput Slot 2 a Description z Comm Format Rack Optimazation O Revision B fi Electronic Keying Compatible Module 7 Cancel lt Back Next gt L Enin J Help The Comm Format is Rack Optimization because we are configuring a mixed direct connection and rack optimized connection with the 1734 OVE4 C digital output module configured for a rack optimized connection Publication 1734 UM 011A EN P February 2004 5 12 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix 5000 The output data for the 1734 O W2 is a separate and distinct module on the network The 1734 OV4E is part of the rack connection amp Click on the Finish button to accept the configuration The I O Configuration in the Project window should look similar to the one shown below amp 1 0 Configuration 3 1756 ENBT A Local_ENB El 0 1734 4ENT 4 POINT_IO_Adapter i 1 1734 0W2 POINT_Relay_Output i 2 1734 0 4E POINT_Digital_Output Choose Finish 7 Choose File gt Save and enter the name and location of the RSLogix 5000 file Download the P rogram to Follow this procedure to download the program we
163. igure the 1734 AENT with Fixed IP Address An Overloaded 1734 AENT cc ccc cece cece e cece eens e eea i oo i oo o O OP WOODFPPWNPFR 16 18 19 Chapter 5 What sin Tis Chapter o 2ct taveceios anna ance Rese nae bes 5 Set Up the HardWare ac ts gost ale atone a a a A A EN 5 Create the Example Application 0 00 cece ee eee eee 5 Configure the T Omru y issar a E a N a E A et 5 Add the Local EtherNet IP Bridge to the I O Configuration 5 Add the POINT I O Adapter to the I O Configuration 5 Add the POINT I O Module and Configure EAN O For Direct Connection 2 524 ca vaderberiorte oleae seats 5 8 Add the POINT I O Module and Configure For Rack OPUMIZAION 4 24 isc hacayle sna eed peies 60a 5 11 Download the Program to the Controller 4 5 12 Verify the Module Chassis Size nnn cece cece ees 5 13 Access Module D ata via the 1734 AENT Adapter 5 16 Chapter 6 Interpret the Status Indicators 0 cece cece 6 1 Chapter 7 Safety Approvals sys ccntinta teeta rama ate wwe a A 7 1 SMECINCANONG v5 aa bu kone Be A TA haan kao bees 7 2 Publication 1734 UM011A EN P February 2004 Table of Contents iii Appendix A 1734 AENT Adapter Web Pages Web Page Diagnostics 0 ccc cece cece eee ee A 1 Diagnostic Information ous arias aaa eaumven d cok A 2 Module Information lt 0 2 0 4 acars anew cued aad ney doula shar A 3 SPOS
164. igured the installation will automatically start at the first setup screen If Autorun is not configured for your CD ROM drive go to step 2 2 From the Start menu choose Run You will see the Run pop up window 3 Type d setup if it doesn t appear automatically where d is your CD ROM driver letter 4 Click on OK Publication 1734 UM 011A EN P February 2004 B 2 Configure the RSLinx Ethernet Communication Driver You will see the progress bar followed by the welcome screen C onfigure the To configure the AB ETH Ethernet communication driver perform the A followi AB_ETH Driver pene 1 Start RSLinx 2 From the Communications menu select Configure Drivers Configure privers zx Available Driver Types Close Ne Help r Configured Drivers Name and Description Status Configure Startup Start Stop Delete FEEL 3 Click on the arrow to the right of the Available Driver Types box The Available Driver Types list will appear 4 Select Ethernet Devices and click on Add New Configure Drivers Mi x Available Driver Types RS 232 DF1 devices Ethernet devices QEthermet IP Driver 1784 KT KTX D PKTX D PCMK for DH DH 485 devices 1784 K TCP for ControlNet devices Status DF1 Polling Master Driver igure 1784 PCC for ContralNet devices Punning Eenige 1784 PCIC S for ControlNet devices e i artup Start Virtual Backplane SoftLogix58x
165. imum Dimensions Inches Millimeters 4 41H x 2 83W x 2 56D 112H x 72W x 65D isysNet EtherNet IP Adapter Series A PSSCENA E104P General Specifications continued Operating Temperature IEC 60068 2 1 Test Ad Operating Cold IEC 60068 2 2 Test Bd Operating Dry Heat IEC 60068 2 14 Test Nb Operating Thermal Shock 20 to 60 C 4 to 140 F Storage Temperature IEC 60068 2 1 Test Ab Un packaged Non operating Cold IEC 60068 2 2 Test Bb Un packaged Non operating Dry Heat 40 to 85 C 40 to 185 F Relative Humidity IEC 60068 2 30 Test Db Un packaged Non operating Damp Heat 5 95 non condensing Shock IEC60068 2 27 Test Ea Unpackaged Shock Operating 30g Non operating 50g Vibration IEC60068 2 6 Test Fc Operating 5g 10 500Hz ESD Immunity IEC 61000 4 2 6kV contact discharges 8kV air discharges Radiated RF Immunity IEC 61000 4 3 10V m with 1kHz sine wave 80 AM from 30MHz to 2000MHz 10V m with 200Hz 50 Pulse 100 AM at 900Mhz 10V m with 200Hz 50 Pulse 100 AM at 1890Mhz EFT B Immunity IEC 61000 4 4 4kV at 5kHz on power ports 2kV at 5kHz on communications ports Surge Transient Immunity IEC 61000 4 5 1kV line line DM and 2kV line earth CM on power ports 2kV line earth CM on unshielded communications port tested as balanced circuits Conducted RF Immunity IEC 61000 4 6 10Vrms with 1kHz sine wave 80 AM from 150kHz
166. in Run Mode Module Fault Code 16 0010 Mode or state of module does not allow object to perform requested service Status Faulted Cancel Help The module is faulted because even though you have set up the 1734 AENT s POINT I O chassis size to the actual number of the modules plus the adapter the adapter still remembers the size of 1 the factory default value until you go and reset this size manually This option is available only online 8 Click on the Chassis Size tab 9 Click on the Set Chassis Size in Module button and set the chassis size in the adapter Remember to inhibit and unhibit the module for this to take effect Publication 1734 UM 011A EN P February 2004 D 8 1734 AENT Quick Start Configure an Ethernet Driver in RSLinx Publication 1734 UM 011A EN P February 2004 Now you can put your processor in Run mode and the connection should be successful The information found in the Appendix Cof this user manual is also available in the RSLogix 5000 on line help file Use the Help file search function under the 1734 catalog number that you are configuring and select the Module Defined Data Types option All of the configurable parameters and associated values will display Under the Valid Data Values column in Appendix C of this manual where the parameter values are coding their definitions will be listed and identified To configure an Ethernet driver in RSLinx you must launch RSLinx
167. in the module has been modified to 3 E Module Properties EN_Bridge 0 1734 AENT A 1 1 ein Module 9 Click OK At this point you PointBus status LED should be solid green All the yellow triangles in your I O configuration should be gone 10 Click OK to close the window IL Click File gt Save to save the project Publication 1734 UM 011A EN P February 2004 5 16 Access Module Data via the 1734 AENT Adapter Publication 1734 UM 011A EN P February 2004 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix 5000 Use the following information to use the 1734 POINT I O Ethernet adapter module data in the ladder logic program e POINT IO Adapter the name you gave to your Ethernet adapter e slot number of POINT I O module e C configuration I input O output zj Sort Tag Name 7 POINT_IO_Adapter 1 C Force Mask POINT_IO_Adapter 1 1 POINT_IO_Adapter 1 0 POINT_IO_Adapter 2 C TA oe T Hose m m m la POINT_IO_Adapter 2 1 e 2 0000_0000 Bin POINT_IO_Adapter 2 0 2 0000_0010 Bin ieee POINT_IO_Adapter SlotStatusBits0_31 2 1111_1111 1111 1111 1111 1111 11114011 Bin POINT_IO_Adapter SlotStatusBits32_63 2 1111_1111 1111 1111 1111 1111 1111 11 Bin
168. ing verification of the electronic ID providing that keying has not been disabled If modules of the same type are removed and returned to the wrong locations they will accept connections from the controller s and be reconfigured with the correct data once they pass their electronic keying check The above mentioned removal and return situations exist whether the system is under power or not If the system is under power the situation arises immediately If the system is not under power the situation arises in the next power cycle Publication 1734 UM 011A EN P February 2004 1 4 About the 1734 AENT Adapter Adapter Features Publication 1734 UM 011A EN P February 2004 Power Up a System For the First Time When POINT I O is powered for the first time the adapter must assign addresses to every module in the backplane POINT I O modules all ship configured at the same address Therefore at first power up it is expected that all but one module on the backplane will exhibit a solid red Module Status LED One by one the adapter will reset these modules and address them appropriately The amount of time that this operation takes is proportional to the size of your POINT I O system The 1734 AENT adapter s features include e use of EtherNet IP messages encapsulated within standard TCP UDP IP protocol e common application layer with ControlNet and D eviceNet e interfacing via Category 5 rated twisted pair cable e half
169. lect the Increase timeout button so a check mark appears to increase the time of the browse query T his will increase the time the modules are given to respond to the query This function is useful when you are browsing a busy system Publication 1734 UM 011A EN P February 2004 A 8 1734 AENT Adapter W eb Pages Publication 1734 UM 011A EN P February 2004 c onfiguration Z 1734 AENT A 100 Mb Ethernet Module Microsoft Internet Explorer provided by Rockwell Automation i Fie Edt View Favorites Tools Help e Qsearch Favorites lt Bristory Be Sp w A Address hetp 10 88 982 G8 is Home Diagnostics Browse Chassis Configuration Rockwell Automation Allen Bradley Navigation Configuration Expand Minimize Password New ey Confirm E Change Ethernet Address MAC fpooope2zt2o14 Serial Number sN ooi70res Host Name oT Module Description UserEnteredText Module Location User Entered Tet o Stored IP Address pooo Stored Subnet Mask Field pooo Stored Gateway Field poo Domain Name D Primary DNS 0 0 0 0 Secondary DNS 0 0 0 0 EI a Tf internet The Configuration page provides a way for you to configure the TCP IP parameters for your adapter such as Host Name IP Address G ateway Address Subnet Mask etc By default the password for the screen is passw ord case sensitive Once you enter the password and click the Submit button you can enter
170. ler Tag Reference Analog 2 Channel Input Publication 1734 UM 011A EN P February 2004 1734 1E2C 2 Channel Analog Current Input Configuration Data Data Type Default Valid Data Values Value Low Engineering Channel 0 INT 3 277 32 768 to 32 767 High Engineering Channel 0 INT 16 383 32 768 to 32 767 Digital Filter Channel 0 INT 0 0 to 10 000 ms Low Alarm Limit Channel 0 INT 3 113 32 768 to 32 767 High Alarm Limit Channel 0 INT 16 547 32 768 to 32 767 Low Low Alarm Limit Channel 0 INT 2 867 32 768 to 32 767 High High Alarm Limit Channel 0 INT 16 793 32 768 to 32 767 Range Type Channel 0 SINT 3 3 4 20mA 8 0 20mA Limit Alarm Latch Channel 0 SINT 0 O No Latching 1 Alarms Latch Alarm Disable Channel 0 SINT 0 0 Alarms Enabled 1 Alarms Disabled Low Engineering Channel 1 INT 3 277 32 768 to 32 767 High Engineering Channel 1 INT 16 383 32 768 to 32 767 Digital Filter Channel 1 INT 0 0 to 10 000 ms Low Alarm Limit Channel 1 INT 3 113 32 768 to 32 767 High Alarm Limit Channel 1 INT 16 547 32 768 to 32 767 Low Low Alarm Limit Channel 1 INT 2 867 32 768 to 32 767 High High Alarm Limit Channel 1 INT 16 793 32 768 to 32 767 Range Type Channel 1 SINT 3 3 4 20mA 8 0 20mA Limit Alarm Latch Channel 1 SINT 0 O No Latching 1 Alarms Latch Alarm Disable Channel 1 SINT 0 0 Alarms Enabled 1 Alarms Disabled Notch Filter Channel 0 amp 1 SINT 2
171. lled physically present on the POINT I O backplane Comm Format choices none the adapter will make a direct connection to each of the modules referenced by the data rack optimization digital I O data is collected into a rack image Note This does not include analog or specialty I O modules listen only rack optimization read or verify data only but does not control the modules when you have multiple processors one processor is used to control and the other processors are used to monitor Because we are making a direct connection None is chosen as the Comm Format 4 Click Next Publication 1734 UM 011A EN P February 2004 4 8 Configure the 1734 AENT for Direct Connection in RSLogix 5000 Because None was entered as the Comm Format on the M odule Properties window the RPI requested packet interval is disabled 5 Click on the Finish button to accept the configuration The 1734 AENT adapter will appear indented under the local 1734 EN BT in the I O Configuration folder 3 6 1 0 Configuration J 3 1756 ENBT A Local_ENB 0 1734 4ENT 4 POINT_IO_Adapter Add the POINT 1 0 Modules to the 1 0 Configuration You must now add the POINT I O modules to the I O Configuration List under the 1734 AENT adapter In this example you will add a 1734 O W2 relay output and a 1734 OV4E sink output module with standard configurations Use these steps as a guide when you are
172. lt Back Next gt L Erin Help 7 Enter 50 for the RPI 8 Choose Finish Notice that the 1734 OW2 is now under the I O configuration O Configuration 3 1756 ENBT 4 Local_ENB 3 0 1734 AENT A POINT_IO_Adapter 1 1734 ow2 POINT_Relay_Output Publication 1734 UM 011A EN P February 2004 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix5000 5 11 Add the POINT 1 0 Module and Configure For Rack Optimization 1 Highlight the 1734 AENT under I O Configuration right click and select New Module The Select Module Type window will open 2 Choose the 1734 OV4E C module Select Module Type xi Type Major Revision 1734 0v4E C bo x Description 1734 1B4 C 4 Point 10 28Y DC Input Sink 1 734 41M2 C 2 Point 240V AC Input 17 34 V2 0 2 Point 10 28 DC Input Source 1 734 V4 0 4 Point 10 28 DC Input Source 1734 042 0 2 Point 120V AC Output 1734 08 2E C 2 Point 10V 28 DC Electronically Fused Output Source 1 734 0B2EP C 2 Point 10 28 DC Electronically Fused Protected Output Source 1734 0B4E C 4 Point 10 28V DC Electronically Fused Output Source 2 Point 10V 28 DC Electronically Fused Output Sink 2 Point Relay Output N O N C X Show Vendor an pa I Other I Specialty 1 0 Select All I Analog M Digital Communication J Motion J Controller Clear AII Cancel Help 3 Click OK The Module Propert
173. lt bit will be asserted and an error code will be placed in the Programming Error Code word assembly 6816 The module will not enter a normal operational state Bit definitions decimal for the error codes are 10 An invalid assembly was chosen for poll consumption 0 105 or 106 are valid The decimal point position is outside of the acceptable range Counter 0 window ON amp OFF values are equal and not zero OR Counter 0 window ON amp OFF value is greater than the Rollover A tie has been connected to an unprogrammed window A configuration was selected that requires the scalar and none was programmed OR Multiple scalars were selected The preset is out of range Rollover A rollover of zero was programmed through PWM was not selected OR A rollover was programmed and PWM was selected OR Rollover is out of range gt 0x01000000 A configuration requiring a time base was selected and no gate interval was set OR Gate interval is out of range gt 200 OR Product of time base and gate interval is greater than 3 seconds A time base was entered that is not a multiple of 10 OR Time base is out of range gt 3000 i e 3 seconds ZF BF AF were selected and no filter was programmed OR Multiple filters were selected A reserved configuration mode was programmed 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference C 33 1734 1 1 Channel 5V DC Encoder Counter 1734 IK 1 Channel 15 24V DC En
174. mmunication V Motion IV Controller Clear AII Cancel Help Publication 1734 UM 011A EN P February 2004 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix5000 5 7 The Module Properties window will open 3 We used the following values Name POINT_IO_Adapter IP Address 10 88 70 2 Comm Format Rack Optimization Chassis Size 3 Electronic Keying Compatible Module Revision 1 1 Note that the Slot field is disabled because the slot is automatically 0 for the 1734 AENT Module Properties EN_Bridge 124 1734 AENT A 1 1 F x Type 1734 4ENT A 1734 Ethernet Adapter Twisted Pair Media Vendor Allen Bradley Parent EN_Bridge Name POINT_O_Adapter Address Host Name Description IPAddress 10 88 70 2 ha Host Name Comm Format Rack Optimization x Slot fp 4 Chassis Size fj a Revision al fi a Electronic Keying Compatible Module x Cancel lt Bach Next gt Help The chassis size equals 1 for the adapter the number of POINT I O modules installed physically present on the POINT I O backplane e Comm Format choices none the adapter will make a direct connection to each of the modules referenced by the data rack optimization digital I O data is collected into a rack image Note This does not include analog or specialty I O modules listen only rack optimization read or verify data only but does
175. module to autobaud before using it with the adapter Open Configuration Method For using isysNet EtherNet IP Adapters without RSNetWorx or RSLogix 5000 refer to document User Guide Configuration of the isysNet Pneumatics Platform using Explicit Messaging which is available at www parker com pneu isysnet ee 19 ho 20 0 87 20 3 13 5 98 47 2 50 22 50 79 4 151 9 I O Module I O Module Adapter 1 Ground Ground f ewe lt j Lo Pict 4 02 2 39 102 o 60 7 Oo nh r 4 32 46 i 109 8 Inches 5 mm i 3 02 5 39 f Drill and Tap 76 6 137 0 Drill and Tap for M4 Screw for M6 Screw Depending on the type and number of manifolds this dimension may vary Refer to Catalog 0600P for additional information Grounding Install the Mounting Base as Follows Each isysNet base has two mounting holes with the one on the right being the means to ground each module Each module must be grounded 1 Lay out the required points as shown above in the drilling dimension drawing 2 Drill the necessary holes for 8 M4 machine or self tapping screws 3 Mount the adapter using 8 M4 screws 4 Ground the system using the ground lug connection in the I O base The ground lug connection is also a mounting hole
176. n 13 X Choose the 1738 AENT A from the list of modules Select Module Type Type 1738AENT A Description 150 SMC Flex via 20 COMM E 1734 Ethemet Adapter Twisted Paa Media 1738 Ethernet Adapter Twisted Pas Media 1756 10 100 Mbps Ethemet Bridge Fiber Media 1756 10 100 Mbps Ethernet Bridge Twisted Pait Media 1756 Ethernet Communication Interface 1756 Ethernet Bridge 1756 10 100 Mbps Ethernet Bridge w Enhanced Web Services 1757 Foundation Fieldbus Linking Device 1757 Foundation Fieldbus Process Controller 1769 L32E Ethernet Pot 10 100 Mbps Ethernet Port on CompactLogixS332E 1769 L35E Ethernet Port 10 100 Mbps Ethernet Port on CompactLogix5335E 1783 EN2DN A 1788 Ethernet to DeviceNet Linking Device 1788 ENBT A 1788 10 100 Mbps Ethemet Bridge Twisted Pair Media v Show Vendor All M Other IV Specialty 0 Select All Clear All W Analog I Digtal IV Communication I Motion IV Controller Cancel Help e Enter a name an appropriate IP address and chassis size Make sure to choose Compatible Module for Electronic Keying setting isysNet EtherNet IP Adapter Series A PSSCENA E Module Properties ENet_Scanner 0 1738 AENT A 1 1 General Connection Module Info Pott Configuration Port Diagnostics Chassis Size Type 1738 AENT A 1738 Ethernet Adapter Twisted Pait Media Vendor Allen Bradley Parent ENet_Scanner Name ENet_Adaptor Address Host Name Description jj IP Address ATA
177. n or de energization 2 Use this Conductor Category information for planning conductor routing Refer to Publication E115P Industrial Automation Wiring and Grounding Guidelines 8 Allen Bradley POINT 1 0 EtherNet IP Adapter Module 1734 AENT User Manual mn e i JEM Soo Rockwell Automation H Important User Information Because of the variety of uses for the products described in this publication those responsible for the application and use of these products must satisfy themselves that all necessary steps have been taken to assure that each application and use meets all performance and safety requirements including any applicable laws regulations codes and standards In no event will Rockwell Automation be responsible or liable for indirect or consequential damage resulting from the use or application of these products Any illustrations charts sample programs and layout examples shown in this publication are intended solely for purposes of example Since there are many variables and requirements associated with any particular installation Rockwell Automation does not assume responsibility or liability to include intellectual property liability for actual use based upon the examples shown in this publication Allen Bradley publication SG I 1 1 Safety Guiddines for theA diction Insallatio and Mairtmaned Sdid StateCantd available from your local Rockwell Automation office describes some import
178. nal characteristics differing from those of electromechanical equipment Safety Guidelines for the Application Installation and Maintenance of Solid State Controls available online at www parker com pneu isysNet describes some important differences between solid state equipment and hard wired electromechanical devices Because of this difference and also because of the wide variety of uses for solid state equipment all persons responsible for applying this equipment must satisfy themselves that each intended application of this equipment is acceptable In no event will Parker Hannifin Corporation be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment The examples and diagrams in this manual are included solely for illustrative purposes Because of the many variables and requirements associated with any particular installation Parker Hannifin Corporation cannot assume responsibility or liability for actual use based on the examples and diagrams No patent liability is assumed by Parker Hannifin Corporation with respect to use of information circuits equipment or software described in this manual Reproduction of the contents of this manual in whole or in part without written permission of Parker Hannifin Corporation is prohibited Throughout this manual we use notes to make you aware of safety considerations WARNING Identifies information about practices
179. nal programs Browse step 2 Create An RSLogix 5000 File cont d 2 Staying in RSLogix right click on Ethernet line and select New Module Data Types Ch User Defined C Strings Li Predefined Li Module Defined 10 Configuration i Backplane CompactLogix System id 1769 L32E Parker Enet_Demo_Case 1769 L32E Ethernet Port LocalENB me cic Mew Module step 2 Create An RSLogix 5000 File cont d 3 Make sure you have selected the By Vendor tab at the bottom Select Parker Hannifin Corp and double click the appropriate part number of your component in the new window In this case the part number is PSSCENA A Select Module Module Description Allen Bradley Parker Hannifin Corp PH PSSCENA A Ethernet Adapter Twisted Pair Media Find Add Favorite _ByCategoy By Vendor ee Cond Heb _ step 2 Create An RSLogix 5000 File cont d 4 Enter the name IP address and chassis size Click OK The IP address and chassis size need to be the same as the Demo Case New Module Type PH PSSCENAAA Ethemet Adapter Twisted Pair Media Vendor Parker Hannifin Corp Parent Address Host Mam PAddess 132 168 1 10 C Host Name Comm Format Rack Optimization Slot Chassis Size E a Revision Electronic Keying Compatible Keying bd EEN i Open Module Properties Eig Cancel Help Mas step 2 Create An RSLogix 5000 File cont d 5 Y
180. nder ENet_Adapter 1 C eee PH PSST8 C 0 3 6 Tasks ENet_Adapter 1 1 2 1111_0000 Binary SINT amp MainTask ENet_Adapter 1 0 2 0000_0000 Binary SINT 3 MainProgram ENet_Adapter 2 C pray nah PH PSSN8 C 0 E Unscheduled Programs ENet_Adapter 2 2 0000_0000 Binary SINT 5 Aaien sr ENet_Adapter3 C w TA PH PSSV32A C al an ia PHPSSVI24 rends Data Types m ENet_Adapter 3 0 vee tee PH PSSW32A 0 Of User Defined ENet_ Adapter cee ee PH PSSC_4SLO O srs eENeAdoperd _ i PHPSSC ASLO Gia Predefined ja Module Defined 2 1 0 Configuration ap Backplane CompactLogix System Tag S f 1769 L32E Parker_Enet_Demo_Case 1769 L32E Ethernet Port LocalENB Ey Ethernet 1769 L32E Ethernet Port LocalENB J PH PSSCENA A ENet_Adapter amp ArmorPoint 4 Slot Chassis O 0 PH PSSCENA A ENet_Adapter 1 psstem23a a m23_Output 2 PSSNSM84 4 M8_Input 3 P55v32A A Valve_Driver E CompactBus Local E ENet_Adapter 3 D gt N Monitor Tags EditTags EE E step 4 Programming After the proper communications have been established you can write a program to control the isys I O modules Refer to your RSLogix 5000 Manual for more details on programming When you have finished writing your program you should have a screen that shows you the ladder logic you have created fe RSLogix 5000 Parker _Enet_Demo_ Case 1769 L32E MainProgram MainRoutine Ef File Edit view Sea
181. nding Guidelines for additional installation requirements pertaining to this equipment ATTENTION A Preventing Electrostatic Discharge This equipment is sensitive to electrostatic discharge which can cause internal damage and affect normal operation Follow these guidelines when you handle this equipment e Touch a grounded object to discharge potential static e Wear an approved grounding wriststrap e Do not touch connectors or pins on component boards e Do not touch circuit components inside the equipment e If available use a static safe workstation e When not in use store the equipment in appropriate static safe packaging isysNet 24 VDC Output Modules Series A PSST8M23A PSST8M12A PSST8M8A E107P Mount the I O Base To mount the I O base on a wall or panel use the screw holes provided in the base IMPORTANT The I O module must be mounted on a grounded metal mounting plate or other conductive surface A mounting illustration for the base with an adapter is shown below 1 9 2 0 0 87 2 0 47 2 50 gt lt 22 gt lt 50 A dapter ooo Drill and Tap for M4 Screw 3 02 5 39 76 6 137 0 Drill and Tap for M6 Screw
182. nection Enter the RPI requested packet interval to set how often the data is exchanged with the 1734 AENT To avoid overloading the 1734 AENT it is recommended that the RPI be no less than 10 ms for rack connections and 50 ms for direct connections Module Properties AENT 1 1734 OW2 3 1 j x Requested Packet Interval RPI 50 04ms 2 0 750 0 ms J Inhibit Module I Major Fault On Controller If Connection Fails While in Run Mode Module Fault Cancel lt Back Next gt L Erin Help Enter 50for the RPI Configure the 1734 AENT for Direct Connection in RSLogix5000 4 11 7 Click on the Finish button to save the configuration The relay output module will appear in the I O configuration indented under the 1734 AENT adapter IJO Configuration 3 1756 ENBT A Local _ENB a 0 1734 AENT A POINT_IO_Adapter 7 l 1 1734 0W2 POINT_Relay_Output Add the Digital Output M odule 8 Right click on the 1734 AENT adapter and again select New Module 5 6 1 0 Configuration B f 3 1756 ENBT A Local _ENB SEE 0 1734 AENT A POINT_IO_Adapte i 1 1734 OW2 POINT_Relay_Oul New Module Cut Copy Paste Delete Cross Reference Prat Properties The Select Module Type window will open 9 Select the 1734 OV4E C digital output module from the list Select module Type x Type Major Revision fi 734 0V4E C fs 2 Channel Thermocouple Input Isolated
183. nections are System Power Indicator shows the 5V power output from the dc dc converter established Flashing Red One or more Ethernet connections has timed out Red No link The module is not physically connected to a powered Ethernet device Flashing Red Green The module is performing a self test occurs during power up test Adapter Power Indicator shows the 24V power input to the dc dc converter isysNet EtherNet IP Adapter Series A PSSCENA Specifications E104P Following are specifications for the PSSCENA EtherNet IP adapter EtherNet IP Adapter PSSCENA Expansion I O Capacity Maximum of 63 modules Maximum of 5 Rack Optimized connections for digital modules only Maximum of 25 Direct connections PSSCENA backplane current output 1 0A maximum The actual number of modules can vary Add up the current requirements of the modules you want to use to make sure they do not exceed the amperage limit of 1 0A for the PSSCENA Backplane current can be extended beyond 1 0A with a PSSSE24A Backplane Extension Power Supply Add multiple PSSSE24A modules to reach the 63 module maximum Cat No PSSN8xxx PSSP8xxx PSST8xxx PSSTR4M12A PSSNACM12A PSSNAVM12A PSSTACM12A PSSTAVM12A PSSS23A PSSV32A PointBus Current Requirements 75 mA 75 mA 75 mA 90 mA 75 mA 75 mA 75 mA 75 mA 75 mA 75 mA EtherNet IP Communication Rate Power Supply Specifications Power Supply 10 100Mbits s
184. ners refer to appropriate documentation for setup information e Download GSD file from www parker com pneu isysNet e In SST Profibus Configuration Utility follow Library gt Add GSD to load the GSD file to SST Profibus e In SST Profibus Configuration Utility follow Browse gt Search for devices to load the GSD file to SST Profibus e Right click on the found device follow GSD files and click on appropriate GSD for PSSV32A e Add PSSV32A as slave to SST PFB CLX master e Detailed information can be found in the SST PFB CLX User Guide Ver 1 4 715 0022 which is available on www woochead com Step 2 Add SST Profibus Scanner in RSLogix 5000 I O Configuration e Add SST PFB CLX scanner I O configuration Reference pages 36 to 39 of the SST PFB CLX User Guide for detailed information e Notice that the SST PFB CLX scanner is now under the I O configuration 3 I O Configuration f 1 11756 CNB D CNet_Scanner 8 2 1756 DNB DNet_Scanner i 3 1756 ENBT A ENet_Scanner 0 1738 AENT A EMet_Adaptor 1 1738 MODULE YDM_ENet S 4 1756 MODULE SST_PFB_CLX slot number Step 3 Access Module Data via the SST PFB CLX Scanner and Create Ladder Program e Reference Chapter 7 of the SST PFB CLX User Guide for addressing information isysNet 32 Point Valve Driver Series A PSSV32A Troubleshoot With the Indicators PSSV32A Parker PSSV32A Module Status pe Indicator n a Netw
185. nes for the Application Installation and Maintenance of Solid State Controls available online at www parker com pneu isysNet describes some important differences between solid state equipment and hard wired electromechanical devices Because of this difference and also because of the wide variety of uses for solid state equipment all persons responsible for applying this equipment must satisfy themselves that each intended application of this equipment is acceptable In no event will Parker Hannifin Corporation be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment The examples and diagrams in this manual are included solely for illustrative purposes Because of the many variables and requirements associated with any particular installation Parker Hannifin Corporation cannot assume responsibility or liability for actual use based on the examples and diagrams No patent liability is assumed by Parker Hannifin Corporation with respect to use of information circuits equipment or software described in this manual Reproduction of the contents of this manual in whole or in part without written permission of Parker Hannifin Corporation is prohibited Throughout this manual we use notes to make you aware of safety considerations Identifies information about practices or circumstances that can cause an explosion in a hazardous environment which may lead to personal i
186. ng Compatible Module ceed E o CE l e Choose Next to set RPI e Choose Finish Notice that the input module is now under the I O configuration Troubleshoot With the Indicators PSSN8M12A j PSSN8M12A Parker 24V dc In Module Status Indicator Network Status Indicator 0 02 6 ge O Status Indicators x HG E a Indication Probable Cause Module Status Off No power applied to device Green Device operating normally Device needs commissioning due to missing incomplete or incorrect configuration Flashing Red Recoverable fault Red Unrecoverable fault may require device replacement Device is in self test Flashing Green Flashing Red Green Indication Probable Cause Network Status o Device is not on line Device has not completed dup_MAC id test Device not powered check module status indicator Device is on line but has no connections in the established state Device is on line and has connections in the established state One or more I O connections in timed out state Red Critical link failure failed communication device Device detected error that prevents it from communicating on the network Communication faulted device the device has detected a network access error and is in communication faulted state Device has receive
187. njury or death property damage or economic loss WARNING Identifies information that is critical for successful application and understanding of the product IMPORTANT Identifies information about practices or circumstances that can lead to personal injury or death property damage or economic loss Attentions help you ATTENTION e Identify a Hazard e Avoid a Hazard e Recognize the Consequence Labels may be located on or inside the equipment to alert people that dangerous voltage may be present SHOCK HAZARD Labels may be located on or inside the equipment to alert people that surfaces may be dangerous temperatures BURN HAZARD ATTENTION A Environment and Enclosure This equipment is intended for use in overvoltage Category Il applications as defined in IEC publication 60664 1 at altitudes up to 2000 meters without derating This equipment is considered Group 1 Class A industrial equipment according to IEC CISPR Publication 11 Without appropriate precautions there may be potential difficulties ensuring electromagnetic compatibility in other environments due to conducted as well as radiated disturbance This equipment is supplied as enclosed equipment It should not require additional system enclosure when used in locations consistent with the enclosure type ratings stated in the Specifications section of this publication Subsequent sections of this p
188. no event will Parker Hannifin Corporation be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment The examples and diagrams in this manual are included solely for illustrative purposes Because of the many variables and requirements associated with any particular installation Parker Hannifin Corporation cannot assume responsibility or liability for actual use based on the examples and diagrams No patent liability is assumed by Parker Hannifin Corporation with respect to use of information circuits equipment or software described in this manual Reproduction of the contents of this manual in whole or in part without written permission of Parker Hannifin Corporation is prohibited Throughout this manual we use notes to make you aware of safety considerations WARNING Identifies information about practices or circumstances that can cause an explosion in a hazardous environment which may lead to personal injury or death property damage or economic loss IMPORTANT Identifies information that is critical for successful application and understanding of the product ATTENTION Identifies information about practices or circumstances that can lead to personal injury or death property damage or economic loss Attentions help you e Identify a Hazard e Avoid a Hazard e Recognize the Consequence jello d yA GOE Labels may be
189. nput analog voltage M12 H AA SAR ANE A T PSSPEM12A B input 24vde digital sourcing M12 i 3 8 0 1736 ACNRIA CNet Adapter PSSPEMZ3A 8 input 24vde digital sourcing M23 n PSSPBMBA 8 input 24vde digital sourcing M8 i 2 E New Module w 8 Output 24vdc digtal sourcing M12 E i 3 PSSTEMZ3A 8 Output 24vdc digtal sourcing M23 PSSTSMBA 8 Output 24vdc digital sourcing M8 i 4 amp Cut Ctrl s PSSTACMIL2A 2 output analog current M12 PSSTAVMIL2A 2 output analog voltage M12 Ba Cop Ctrl C PSSTRAMIZA 4 output relay M12 z A PSSY32A 32 output 24vdc digital sourcing module Paste 1 el Find Add Favorite Delete Del Sea TS By Categoy By Vendor Cross Reference Ctri E Pros Enter a name and click OK For EtherNet IP highlight the PSSCENA or 1738 AENT E Module Properties CNet_Adapter 2 PSST8M1 2A A 3 1 Shown right click and select New Module General Connection Mode Info Faul Progam Action Configuration Type PSST8M124 8 Dutput 24vdc digital sourcing M12 Vendor Parker Hannifin Corp 1 0 Configuration Patent CNet Adapter 1 1 1756 CNB D CNet_Scanner Name M12_output i i 6 0 1738 ACNR A CNet_Adapter Description 9 2 1756 DNB DNet_Scanner 9 3 1756 ENBT A ENet_Scanner Module Defintion Series fe g 0 1738 AENT A ENet_ Adaptor Revision 4 15 New Module EEK Connection w Gk Ctrl x Data Format EE Copy Ctrl C 3 3ste try e Status Offline Del
190. ocations only Each product is supplied with markings on the rating nameplate indicating the hazardous location temperature code When combining products within a system the most adverse temperature code lowest T number may be used to help determine the overall temperature code of the system Combinations of equipment in your system are subject to investigation by the local Authority Having Jurisdiction at the time of installation You must use Series C POINT I O modules with the 1734 AENT adapter Series A or B POINT I O modules will not work with this adapter Safety Approval information for the 1734 AENT is below Informations sur l utilisation de cet quipement en environnements dangereux Les produits marqu s CL I DIV 2 GP A B C D ne conviennent qu a une utilisation en environnements de Classe I Division 2 Groupes A B C D dangereux et non dangereux Chaque produit est livr avec des marquages sur sa plaque d identification qui indiquent le code de temp rature pour les environnements dangereux Lorsque plusieurs produits sont combin s dans un syst me le code de temp rature le plus d favorable code de temp rature le plus faible peut tre utilis pour d terminer le code de temp rature global du syst me Les combinaisons d quipements dans le syst me sont sujettes inspection par les autorit s locales qualifi es au moment de installation EXPLOSION HAZARD Do not disconnect
191. ock IEC 60068 2 27 Test Ea Unpackaged Shock Operating 30g peak acceleration Nonoperating 50g peak acceleration Vibration IEC 60068 2 6 Test Fc Operating Tested 5g 10 500Hz ESD Immunity IEC 61000 4 2 4kV contact discharges 8kV air discharges Radiated RF Immunity IEC 61000 4 3 10V m with 1kHz sine wave 80 AM from 30MHz to 2000MHz 10V m with 200Hz 50 pulse 100 AM from 900MHz EFT B Immunity IEC 61000 4 4 4kV at 2 5kHz on power ports 2kV at 5 0kHz on signal ports Publication 1734 UM 011A EN P February 2004 7 4 Publication 1734 UM 011A EN P February 2004 Surge Transient TEC 61000 4 5 Immunity 1kV line line DM and 2kV line earth CM on signal ports 1kV line line DM and 2kV line earth CM on power ports Conducted RF IEC 61000 4 6 Immunity 10Vrms with 1kHz sine wave 80 AM from 150kHz to 80MHz Emissions CISPR 11 Group 1 Class A Enclosure Type Rating None open style Conductors Wire Size Category 14 22 AWG 2 5 0 25mm7 solid or stranded wire rated at 75 C or higher 3 64 inch 1 2mm insulation maximum 21 Ethernet Connector RJ 45 Category 5 Terminal Base Screw 7 pound inches 0 8Nm Torque Mass 9 0 0z 255 grams Certifications cUL s UL Listed Industrial Control Equipment when product is marked certified for US and Canada amp UL vs UL Listed for Class I Division 2 Groups A B C and D Hazardous loc
192. of modules comprising the chassis equals the stored chassis size Because the adapter cannot detect empty terminal bases it cannot assume any safe operation until there is a match between the number of modules indicating their presence in the chassis and what the adapter has saved in non volatile memory Actual module identification i e electronic keying will be done when connection establishment requests are received from the controller s A module removed under power will not disrupt operation of the other I O modules When a module is removed the adapter will determine what has changed Whenever a module with an active connection is removed from the POINT I O system the adapter will indicate this by flashing the PointBus Status LED red and report a minor recoverable fault If more than one contiguous module is removed under power connections to all modules in the contiguous missing module set will be disallow ed until all modules are replaced Because the adapter cannot detect an empty base it does not know the physical positioning of the modules until all the missing modules are replaced If a module separating two sets of contiguous missing modules is removed the two sets merge into a single set All the modules must be replaced before connections are permitted to any module in the set If modules of different types are removed and returned to the wrong locations attempts to connect to these modules will fail dur
193. ogix5000 V 11 compatibility The 1734 232A SC A Series A is presently the only exception to the Series C requirement It can be used in RSLogix 5000 V 11 with a Generic Profile OR it can be used in RSLogix 5000 V 12 with a Thin Profile Valid Number Ranges for RSLogix 5000 Data Types Pe Number OC Bie lt Ranga BIT 1 Bit 0or1 SINT 8 Bit 128 to 127 INT 16 Bit 32 768 to 32 767 DINT 32 Bit 2 147 483 648 to 2 147 483 647 Accepted parameter values are dependent on POINT I O Module type and Tag type Publication 1734 UM 011A EN P February 2004 Discrete 2 POINT Input 1734 POINT 1 0 M odule RSLogix 5000 Controller Tag Reference C 3 1734 1A2 2 POINT 120V AC Input 1734 1B2 2 POINT 10V 28V DC Input Sink 1734 IM 2 2 POINT 240V AC Input 1734 IV2 2 POINT 10V 28V DC Input Source Configuration Data Data Type Default Valid Data Values Value Filter Off On Time POINT 0 INT 1 000 32 168 to 32 767 us 0 65 535 Filter On Off Time POINT 0 INT 1 000 32 168 to 32 767 us 0 65 535 Filter Off On Time POINT 1 INT 1 000 32 168 to 32 767 us 0 65 535 Filter On Off Time POINT 1 INT 1 000 32 168 to 32 767 us 0 65 535 Input Data Data Type Default Valid Data Values Value Input Data POINT 0 1 SINT BIT 0 0 Off 1 0n Output Data Data Type Default Valid Data Values Value None POINT I O Modules support the Unsigned
194. omation module from the list of modules Select Module Type Type 17384B8M12 A Type Description 1738 IB4MB A 4 Point 10V 28V DC Input Sink 1 738 IBBM23 A 8 Paint 10V 28 DC Input Sink 1738 188M8 A 8 Point 10V 28V DC Input Sink 1738 1E2CM127 A 2 Channel Analog Curent Input N7384E2VM12 4 2 Channel Analog Voltage Input 1738 UM23 4 1 Channel 5V DC Encoder Counter 17381R2M12 4 2 Channel RTD Input AT 2IM1274 2 Channel Thermocouple Input Isolated V4 12 4 4 Point 10 28 DC Input Source 1738 MODULE Generic 1738 Module 1738 042M12AC3 4 2 Point 120V AC Output 1738 0B2EM12 4 2 Paint 10V 28V DC Electronically Fused Output Source 1738 08 2EPM12 4 2 Point 10 28V DC Electronically Fused Protected Output Source v Show Vendor All z M Other F Speciatyi 0 Select All Analog I Digital V Communication V Motion IV Controller PSSN8M8A 1738 IB8M8 PSSN8M12A 1738 IB8M12 PSSN8M23A 1738 IB8M23 PSSP8M8A 1738 IV8M8 PSSP8M12A 1738 IV8M12 PSSP8M23A 1738 IV8M23 e Enter a name optional slot number and communication format Make sure to choose Compatible Module for Electronic Keying setting Clear All Cancel Help Module Properties CNet_Adapter 1 1 738 IBBM12 A 3 1 Type 1736188M 12 4 8 Point 10V 28V DC Input Sink Vendor Allen Bradley Parent CNet_Adapter Name M12_Sinking Slot fi Description Comm Format Rack Optimization Pra Revision Electronic Keyi
195. on DIN rail before modules installed 2 2 replacing adapter 2 3 set the network address 2 3 Publication 1734 UM011A EN P February 2004 wiring 2 4 IP address 3 2 L ladder program 4 15 LED status indicators 6 1 M module data access 4 19 module information web pages A 3 mount adapter to existing system 2 3 mounting dimensions of adapter 2 5 mounting modules on DIN rail before modules installed 2 2 netw ork address set 2 3 netw ork statistics web pages A 4 P producer consumer model 1 6 program fault note C 27 C 32 R rack optimized and direct connections 1 6 1 6 1 7 mixing rack optimized and direct connections 1 7 rack optimized 1 0 4 1 add local ENBT module to I O configuration 4 4 4 5 5 4 5 5 add POINT I O adapter to I O configuration 4 6 4 8 5 8 add remote I O modules to I O configuration 4 8 4 13 5 12 create example application 4 3 5 3 create ladder program 4 15 edit controller tags 4 14 4 15 set up the hardware 4 2 5 2 related publications Preface 4 replace adapter on system 2 3 requested packet interval RPI 1 6 Rockwell BootP utility 3 7 3 10 saving the relation list 3 9 3 10 RPI 1 6 Index 3 RSLinx communication drivers B 4 B 6 T cae a driver B 2 B 4 terminology Preface 6 Preface 8 installing the software B 1 RSLogix 5000 data types W valid number ranges C 2 web pages A 1 A 10 browse chassis A 7 S configuration page A
196. on its backplane the adapter will not make any I O connections and the following error will occur E Module Properties local_enet 0 1734 AENT A 1 1 x General Connection Module Info Port Configuration Port Diagnostics Chassis Size I Major Fault On Controller If Connection Fails While in Run Mode Module Fault Code 16 0010 Mode or state of module does not allow object to perform requested service Status Faulted Apply Adapter replacement It is important to note that during a connection request from the controller the chassis size setting for a 1734 AENT is not communicated to the adapter This chassis size must always be set using a separate operation This includes situations when an adapter is being replaced The adapter will not make any I O connections until it has been configured with the appropriate chassis size About the 1734 AENT Adapter 1 3 Empty Slots and RIUP Situations The POINT I O system does not have the ability to detect an empty terminal base Because of this there are numerous situations in which you can potentially configure a system that is unusable or one that exercises unintended control In an attempt to address these situations you must observe the following rules for POINT I O system construction and the removal and reinsertion of modules e A correct POINT 1 0 system does not have any empty terminal bases After power up the adapter will not run any I O until the number
197. on line and has an IP address and CIP connections are established Flashing Red One or more Ethernet connections has timed out Solid Red No link The module is not physically connected to a powered Ethernet Device Flashing Red Green The module is performing a self test only occurs during powerup test Netw ork Activity Off No link established Flashing Green Off Transmit or receive activity Steady Green Link established PointBus Status Off Device not powered check module status indicator Flashing Red Green LED powerup test Flashing Red Recoverable fault has occurred e at powerup the number of expected modules does not equal the number of modules present e a module is missing e node fault I O connection timeout Red Unrecoverable fault has occurred e the adapter is bus off e the adapter has failed its duplicate M AC ID check Flashing Green Adapter online with no PointBus connections established Adapter chassis size has not been configured Green Adapter online with PointBus connections established normal operation run mode Safety Approvals Chapter 7 Safety Approvals and Specifications ATTENTION A The follow ing information applies when operating this equipmentin hazardous locations Products marked CL I DIV 2 GP A B C D are suitable for use in Class I Division 2 Groups A B C D Hazardous Locations and nonhazardous l
198. ootP server 3 10 using D HCP software 3 10 using a s BootP utility 3 7 connection statistics web pages A 5 common industrial protocol CIP 1 5 1 6 controller tag reference C 1 analog 2 channel input C 10 analog 2 channel output C 19 discrete 2 POINT input C 3 discrete 2 POINT output with over load C 7 with over load amp open load C 6 without diagnostics status C 5 discrete 4 POINT input C 4 discrete 4 POINT output with over load C 9 with over load amp open load C 8 specialty I O C 23 controller tags editing 4 14 4 15 Publication 1734 UM011A EN P February 2004 2 Index D data types RSLogix 5000 valid number ranges C 2 DCHP software using to configure the module 3 10 diagnostic information web pages connection statistics A 5 module information A 3 network statistics A 4 diagnostics web pages A 1 direct connections 1 6 discrete modules adding to configuration 5 8 downloading program to controller 5 12 example applications about the example applications Preface 2 system components Preface 3 F finding more information Preface 4 G gatew ays 3 3 3 4 H how to use this manual Preface 2 Preface 3 1 0 configuration digital I O 4 8 4 13 5 12 local ENBT module 4 4 4 5 5 4 5 5 POINT I O adapter 4 6 4 8 5 8 installing the 1734 AENT adapter 2 1 2 5 components identify 2 2 mount adapter to existing system 2 3 mounting dimensions 2 5 mounting
199. or Tags tab 2 Click on the module you would like to configure 1734 AENT Quick Start D 5 We are going to assume there is an analog input module 1734 IE 2V which resides in slot 3 3 Click on the configuration tag remote_POINT_10 3 C From here you can set the entire module s configuration alarms etc Scope CNet POINT Oco x Show Show All x Sot Ta Name gt Tag Name 2 Value Force Mask Style Description aj PE a T e BAIEZ m A POINT 10 3 C ChOLoweEn Decimal INT remote_POINT_I0 3 C ChOHighE 10000 Decimal INT ie remote_POINT_I0 3 C ChODigital 0 Decimal INT remote _POINT_10 3 C Ch0LAlarm 500 Decimal INT o remote _POINT_10 3 C Ch0HAlarm 9500 Decimal INT E remote_POINT_I0 3 C ChOLLAlar 200 Decimal INT mj remote_POINT_10 3 C ChOHHAlar 9800 Decimal INT remote_POINT_I0 3 C ChORange 2 Decimal SINT E remote_POINT_I0 3 C ChOLimitAl 0 Decimal SINT E remote_POINT_I0 3 C ChOAlarmD 0 Decimal SINT m remote_POINT_IO 3 C Ch1LowEn 0 Decimal INT i i remote_POINT_I0 3 C ChiHighE 10000 Decimal INT m remote _POINT_10 3 C Ch1 Digital a Decimal INT remote_POINT_I0 3 C ChiLAlarm 500 Decimal INT remote_POINT_IO 3 C Ch1HAlarm 9500 Decimal INT m remote_POINT_I0 3 C Ch1LLAlar 200 Decimal INT mi remote_POINT_
200. ork Status O Fault Indicator Output Fault Status Indicator Indication Probable Cause Module Status Green Device operating normall Device needs commissioning due to missing incomplete or incorrect configuration Flashing Red Recoverable fault Red Unrecoverable fault may require device replacement Flashing Red Green _ Device is in self test Indication Probable Cause Network Status Off Device is not on line Device has not completed dup_MAC id test Device not powered check module status indicator Flashing Green Device is on line but has no connections in the established state Green Device is on line and has connections in the established state Flashing Red One or more I O connections in timed out state Red Critical link failure failed communication device Device detected error that prevents it from communicating on the network Flashing Red Green Communication faulted device the device has detected a network access error and is in communication faulted state Device has received and accepted an Identity Communication Faulted Request long protocol message Indication Probable Cause Output Fault Status Outputs operating normall Over current short circuit or over temperature detected on one or more outputs On State onl E100P isysNet 32 Point Valve Driver Series A PSSV32A E100P Specifications Following are specifications for
201. ou can use the default values in Module Properties window and click OK E Module Properties LocalENB 0 PH PSSCENA A 1 1 General Connection Module Info Port Configuration Port Diagnostics Chassis Size Vendor Requested Packet Interval AFI wy ms 2 0 750 0 ms Inhibit Module Major Fault On Controller If Connection Fails While in Run Mode r Module Fault step 2 Create An RSLogix 5000 File cont d 6 The ArmorPoint 4 Slot Chassis line should appear in the directory tree on the left Right click on this line and select New Module This line will allow you to set up your I O modules and the valve driver for the isysnet demo g Data Types CR User Defined H E Strings E Predefined E Module Defined H E 110 Configuration H T Backplane CompactLogix System fe ii 1769 L32E Parker _Enet_Demo_Case 1769 L32E Ethernet Port LocalENB 2 ae Ethernet Zi 1769 L32E Ethernet Port LocalEMB ag PH PSSCENA A Enet _Adapter P armorPoint 4 Slot Chassis E CompactBus Local New Module step 2 Create An RSLogix 5000 File cont d Ts Make sure that you have the By Vendor tab selected Select Parker Hannifin Corp and find the appropriate part number for the output module and double click it E Select Module Module Description Allen Bradley Parker Hannifin Corp PSSN8M124 8 input 24 dc digital sinking M12 PSSNBM234 8 input 24vdc digital sinking M23 PSSNSMBA 8 input 24
202. ouple Input M odule 1734 INQ11 module POINT I O termocouple and RTD input Thermocouple and RTD Input M odule User M anual 1734 UM 004 module POINT 1 0 IV2 and IV4 input module POINT 1 0 Input M odule Installation Instructions 1734 IN 052 POINT I O 120 220V ac Output module POINT I O 120 220V ac Output M odule Installation Instructions 1734 IN009 POINT I O protected output module POINT 1 0 Protected Output M odule Installation Instructions 1734 IN056 POINT 1 0 Protected Output M odule Installation Instructions 1734 IN 586 OB2EP POINT I O current output analog module POINT 1 0 2 Current Output Analog M odule Installation 1734 IN 054 Instructions POINT 1 0 voltage output analog POINT 1 0 2 Voltage Output Analog M odule Installation 1734 IN 002 module Instructions POINT 1 0 protected sink output module POINT 1 0 Protected Sink Output M odule Installation Instructions 1734 IN 585 POINT 1 0 2 relay output module POINT 1 0 2 Relay Output M odule Installation Instructions 0X2 1734 IN587 POINT 1 0 2 Relay Output M odule Installation Instructions OW 2 1734 IN 055 POINT I O synchronous serial interface POINT I O Synchronous Serial Interface Absolute Encoder M odule 1734 UM 007 absolute encoder module POINT 1 0 cold junction compensation POINT I O Cold J unction Compensation Wiring Base Assembly 1734 IN583 wiring base assembly POINT I O wiring base assembly POINT I O Wiring Base Assembly Installation Instructions 1734 IN013
203. pen 4 We used the following values Name Local_ENB IP Address 10 88 70 4 Slot 3 Electronic Keying Compatible Module Revision 1 1 Module Properties Local 1756 ENBT A 1 1 5 Click on Finish to accept the configuration Publication 1734 UM 011A EN P February 2004 5 6 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix 5000 Add the POINT 1 0 Adapter to the 1 0 Configuration Next you must add the 1734 AENT adapter as a child of the local 1756 ENBT module 1 In the Project window right click on the local 1756 ENBT module under the I O Configuration folder and select New Module from the pop up window 1 3 1 0 Configuration Cut Ctrl x Copy Ctrl C Paste Gtr y Delete Del Cross Reference Ctrl E Print Ghl P Properties The Select Module Type window will open 2 Select the 1734 AENT A Ethernet adapter from the list and click on OK xl Type Major Revision 1734AENT A fi x Description 1734 Ethernet Adapter Twisted Pair Media 1756 10 100 Mbps Ethernet Bridge Twisted Pair Media 1756 Ethernet Communication Interface 1756 Ethernet Bridge 1788 ENBT A 1788 10 100 Mbps Ethernet Bridge Twisted Pair Media 1794 4ENT ZA 1794 10 100 Mbps Ethernet Adapter Twisted Pair Media ETHERNET MODULE Generic Ethernet Module Show Vendor al x IV Other I Specialty 1 0 Select All V Analog WMV Digital V Co
204. producer consumer model 1 6 rack optimized and direct connections 1 6 ae packet interval RPI what it does 1 5 1734 AENT LED status indicators 6 1 1734 AENT safety approvals 7 1 1734 AENT specifications 7 2 1734 POINT 1 0 catalog numbers C 1 A about the 1734 AENT adapter 1 1 1 6 adapter features 1 4 sca ar protocol CIP mixing rack optimized and direct connections 1 7 producer consumer model 1 6 rack optimized and direct connections 1 6 1 7 requested packet interval RPI 1 6 what ne ce NT adapter does about this user manual Preface 1 Preface 8 adapter diagnostic information web pages A 2 adapter features 1 4 adapter LED status indicators 6 1 adapter safety approvals 7 1 adapter specifications 7 2 adapter mounting dimensions 2 5 adapter replacing on system 2 3 adapter wiring 2 4 adding modules to configuration select a communication module 5 4 Index BootP see Rockwell Bootp utility using a third party BootP server 3 10 browse chassis web pages A 7 C catalog numbers C 1 CIP 1 5 common techniques used in this manual Preface 1 communication module selecting in RSLinx 5 4 configuration page web pages A 8 configuration requirements 3 2 3 5 gateway address 3 3 3 4 IP address 3 2 subnet mask 3 4 3 5 configuring Ethernet communication drivers B 4 B 6 Ba a driver B 2 B 4 installing the software B 1 configuring the module 3 1 3 10 using a third party B
205. r conductive surface A drilling dimensions mounting illustration for the base with an adapter is shown below 3 13 79 4 a Oo Oo lt P 3 02 5 39 for M4 Screw for M6 Screw Depending on the type and number of manifolds this dimension may vary Refer to Catalog O600P for additional information Install the Mounting Base as Follows 1 Lay out the required points as shown above in the drilling dimension drawing 2 Drill the necessary holes for 8 M4 machine or self tapping screws 3 Mount the base using 8 M4 screws 4 Ground the system using the ground lug connection The ground lug connection is also a mounting hole Mounting Base Keyswitch Set to position 1 for the IsysNet 24VDC digital input modules Z Ground Lug Connection La Latching Mechanism isysNet 24 VDC Input Modules Series A PSSN8M8A PSSN8M12A PSSN8M23A PSSP8M8A PSSP8M12A PSSP8M23A E106P Install the Digital Input Module To Install the Digital Input Module Proceed as Follows 1 Using a bladed screwdriver rotate the keyswitch on the mounting base clockwise until the number 1 aligns with the notch in the base 2 Position the module verticall
206. rch Logic Communications Tools Window Help alsa al relel idol E il ala Offline D r aee o al No Forces YF a No Edits A alele eko 2 4 gt Favorites Bit Timer Counter Input Output Compare Controller Parker_Enet_Demo_Case E 2 Controller Tags 3 Controller Fault Handler ENet_Adapter 2 1 0 ENet_Adapter 1 0 0 5 Power Up Handler lt ENet_Adapter Data 2 0 gt ENet_Adapter O Datal1 0 gt 3 Tasks JE S MainTask 2B MainProgram ENet_Adapter 2 1 1 A Program Tags sENet_Adapter Data 2 1 gt ENet_Adapter 3 0 Data 0 E MainRoutine E lt gt 3 Unscheduled Programs Motion Groups ENet_Adapter 2 1 2 ENet_Adapter 1 0 01 amp Ungrouped Axes sENet_Adapter Data 2 2 gt sENet_Adapter O Data 1 01 gt ae Ca Trends bl a gt amp j Data Types OR User Defined ENet_Adapter 3 0 Data 1 Ce Strings Off Predefined Og Module Defined ENet_Adapter 2 1 3 ENet_Adapter 1 0 2 3 1 0 Configuration lt ENet_Adapter Data 2 3 gt lt ENet_Adapter O Data 1 2 gt Backplane CompactLogix System J fa 1769 L32E Parker_Enet_Demo_Case 1769 L32E Ethernet Port LocalENB Se Ethernet 1769 L32E Ethernet Port LocalENB PH Psscena a ENet_Adapter ENet_Adapter 2 1 4 ENet_Adapter 1 0 3 amp ArmorPoint 4 Slot Chassis lt ENet_Adapter Data 2 4 gt lt ENet_Adapter O Data 1 3 gt 0 PH PSSCENA A ENet_Adapter lt gt 1 Psstam234 a M2
207. reens IMPORTANT ae A shown in this section if you need assistance in selecting and setting the parameters Add the Local EtherNet IP Bridge to the 1 0 Configuration 1 Select the I O Configuration folder in the project window and click the right mouse button F RSLogix 5000 POINT_IO_Controller 1756 L1 File Edit View Search Logic Communications Tools Window Help alsia A 6 also E len el Offline E mee fA onp o O da NoEds amp a Hlela aja ooo gt j HIP Favorites AK TimeriCounter K Tnpuvoutput X Compare Controller Fault Handler Power Up Handler BS Tasks A pop up window will open 2 Click on New Module at apy Paste Pritt Publication 1734 UM 011A EN P February 2004 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix 5000 The Select Module Type window will open 3 Select the 1756 ENBT EtherNet IP Bridge and click on OK Select Module Type 1756 ENBT A fs 1756 SA500 Drive Interface 1756 SB3000 Drive Interface 1756 SD3000 Drive Interface 1756 SF3000 Drive Interface 1756 DeviceNet Scanner 1756 10 100 Mbps Ethernet Bridge Fiber Media 1756 10 100 Mbps Ethernet Bridge Twisted Pair Media 1756 Ethernet Communication Interface 1756 Ethernet Bridge 1756 High Speed Counter 16 Point 79 132V AC Input 16 Point 79 132 AC Isolated Input The Module Properties window will o
208. rom the computer PowerArchiver 2000 a Notepad Y Paint All Programs T CTC Interact I Festo Software 3 BOOTP DHCP Help FS BOOTP DHCP Server fi BOOTP DHCP Server gt fF RSlinx gt fin RSLinx Tools I RSLogix 500 English gt M RSLogix 5000 Enterprise Series gt E RSNetworx M Utilities fan Flash Programming Tools fam Google Desktop Search E MachineShop gt Microsoft Office F PDF Editor 2 3 fan spring F SST Profibus gt j Cannot find server step 1 Assign IP Address cont d 7 And you will see this hg BOOTP DHCP Server 2 3 File Tools Help Request History Clear History j hrmin sec Type Ethemet Address MAC IP Address Hostname 9 07 33 DHCP lt 00 00 BC 28 40 14 9 07 17 DHCP 00 00 BC 28 40 14 93 07 08 DHCP 00 00 BC 28 40 14 MAC address Relation List Status Entries Unable to service DHCP request from 00 00 BC 28 40 14 O of 256 step 1 Assign IP Address cont d 8 Double click on one of the requests and enter the IP address you wish to assign and click OK 9 WAIT UNTIL YOU SEE IN THE REQUEST HISTORY A REQUEST WITH BOTH THE MAC ADDRESS AND IP ADDRESS This indicates that the server utility has assigned the desired IP address to the adapter step 1 Assign IP Address cont d 10 Highlight by clicking on the entry for the adapter in the relation list pane then
209. s PSSN8 require PNP type input device O Source Input modules PSSP8 require NPN type input device Wiring examples PSSN8M8A and PSSP8M8A shown view into connector Common Pin 1 24VDC PNP Pin 2 Input 1 M12 A Pin 4 Input 0 M12 A Sink 2 Wire Input 3 M12 B Input 2 M12 B Input Input 5 M12 C Input 4 M12 C Module Input Input 7 M12 D Input 6 M12 D Device Pin 3 Common Pin 5 No Connect Common Digital Input Module nput Module art Number Source l Modul Part Numb 8 Digital Inputs M12 NPN Sinking Requires ea PNP Sourcing Input Device PSSN8M12A oauie 8 Digital Inputs M12 PNP Sourcing Requires NPN Sinking Input Device PSSP8M12A 8 Digital Inputs M8 NPN Sinking Requires PNP Sourcing Input Device PSSN8M8A Common 8 Digital Inputs M8 PNP Sourcing Requires NPN Sinking Input Device PSSP8M8A Sink 8 Digital Inputs M23 12 Pin PNP Sourcing Input 3 Wire Requires NPN Sinking Input Device PSSPEM23A Input 8 Digi P a gital Inputs M23 12 Pin NPN Sinking Module Device Requires PNP Sourcing Input Device PSSN8M23A Common ATTENTION Source 3 VN Input Input Make sure all connectors and caps are securely tightened to Module properly seal the connections against leaks and maintain IP67 Device requirements isysNet 24 VDC Input Modules Series A PSSN8M8A PSSN8M12A PSSN8M23A PSSP8M8A PSSP8M12A PSSP8M23A E106P Communicate With Your Module I O messages are sent to cons
210. s in Aluminum 16 in lbs in Steel Weight Imperial Metric 0 64 Ib 0 29 kg Wiring Category 1 on signal ports Certifications c UL us_ UL Listed Industrial Control Equipment when product is marked certified for US and Canada CE European Union 89 336 EEC EMC Directive compliant with EN 61000 6 4 Industrial Emissions EN 50082 2 Industrial Immunity EN 61326 Meas Control Lab Industrial Requirements EN 61000 6 2 Industrial Immunity Australian Radiocommunications Act compliant with AS NZS CISPR 11 Industrial Emissions 1 Input OFF to ON or ON to OFF delay is time from a valid input signal to recognition by the module 2 Use this Conductor Category information for planning conductor routing Refer to Publication E115P Industrial Automation Wiring and Grounding Guidelines 8 Installation amp Service Instructions p tic Divisi E107P neumalc DIVISION isysNet 24 VDC Output Modules Richland Michigan 49083 Series A PSST8M23A PSST8M12A PSST8M8A ISSUED December 2006 Supersedes June 2005 Doc E107P EN 060961 Rev 2 WARNING PSST8M12A To avoid unpredictable system behavior that can cause personal injury D and property damage SST8M12A P p y A I aay dc Out Parker Disconnect electrical supply when necessary before installation servicing or conversion Female Female i 7 k me Connector Connector Disconnect air supply and depressurize all air line
211. s Response SS Out 1 Force BIT 4 0 Output Off 1 Output Forced On SS Out 1 En BIT5 0 Output Disabled 1 Output Enabled SS Out 1 Electronic Fuse BIT 6 0 Auto Retry l Latch Off SS Out 1 Diagnostic Speed BIT7 0 lt 8ms Response 1 50ms Response To enter values from 128 to 255 use these conversion formulas Decimal Position Note Desired Decimal Position Value 256 Entered D ecimal Position Value Example For a divisor of 200 200 256 56 Gate Interval Note Desired G ate Interval Value 256 Entered G ate Interval Value Example For a Gate Interval of 200 200 256 56 Scalar Note Desired Scalar Value 256 Entered Scalar Value Example For a Scalar of 128 128 256 128 Publication 1734 UM 011A EN P February 2004 C 26 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference 1734 VHSC24 1 Channel 15 24V DC Very High Speed Counter 1734 VHSC5 1 Channel 5V DC Very High Speed Counter Input Data Data Type Default Value Valid Data Values Present Data DINT 0 0 to 16 777 215 Stored Data DINT 0 2 147 483 648 to 2 147 483 647 0 4 294 967 295 Status INT 0 Zero Frequency Detected BIT 1 O No Fault 1 Fault Detected Stored Data Count_2 BIT 2 Cycles thru 0 1 2 3 0 Stored Data Count_3 BIT 3 Increments after update A Input Status BIT 4 O Input A B Z is Off B Input Status BIT 5 1Anput A B Z is On Z Input Status BIT 6 Output Status_ 8 Output 0 BIT 8 0 Output is Off Output Statu
212. s connected to M12 A M12 B this product before installation servicing or conversion Operate within the manufacturer s specified pressure temperature and other conditions listed in these instructions Medium must be moisture free if ambient temperature is below freezing Service according to procedures listed in these instructions Installation service and conversion of these products must be Female C t performed by knowledgeable personnel who understand how mize er pneumatic products are to be applied After installation servicing or conversion air and electrical supplies when necessary should be connected and the product tested for proper function and leakage If audible leakage is present or the product does not operate properly do not put into use Warnings and specifications on the product should not be covered by paint etc If masking is not possible contact your local representative for replacement labels Female Connector M12 D PSST8M8A Safety Guide N For more complete information on recommended application guidelines see PSST8M8A Parkes the Safety Guide section of Pneumatic Division catalogs or you can download 24v de Out Female the Pneumatic Division Safety Guide at www parker com safety Connector 1
213. s form Your Name Location Phone Your Title Function TT Would you like us to contact you regarding your comments ___No there is no need to contact me ___ Yes please call me ___ Yes please email me at ___Yes please contact me via 222222222222 Return this form to Allen Bradley M arketing Communications 1 Allen Bradley Dr M ayfield Hts OH 44124 9705 Phone 440 646 3176 Fax 440 646 3525 Email RADocumentComments ra rockwell com Publication ClG CO521C EN P M ay 2003 PN 957726 46957782 91 PLEASE FASTEN HERE DO NOT STAPLE Other Comments PLEASE FOLD HERE NO POSTAGE NECESSARY IF MAILED IN THE UNITED STATES BUSINESS REPLY MAIL FIRST CLASS MAIL PERMIT NO 18235 CLEVELAND OH POSTAGE WILL BE PAID BY THE ADDRESSEE Allen Bradley ELAEIF DODGE ROCKWELL ESS las Rockwell Automation 1 ALLEN BRADLEY DR MAYFIELD HEIGHTS OH 44124 9705 Rockwell Automation Rockwell Automation provides technical information on the web to assist you in using our products At http support rockwellautomation com you can find technical Support manuals a knowledge base of FAQs technical and application notes sample code and links to software service packs and a MySupport feature that you can customize to make the best use of these tools For an additional level of technical phone support for installation configuration and troubleshooting we offer TechConnect Support programs
214. s will be 192 168 1 xxx where xxx represents the number set on the switches The adapter s subnet mask will be 255 255 255 0 and the gateway address is set to 0 0 0 0 The adapter will not have a host name assigned or use any D omain Name System when using the thumbwheel settings If the switches are set to an invalid number i e 000 or a value greater than 254 the adapter checks to see if DHCP is enabled If DHCP is enabled the adapter requests an address from a DHCP server The DHCP server will also assign other Transport Control Protocol TCP parameters If DHCP is not enabled the adapter will use the IP address along with other TCP configurable parameters stored in nonvolatile memory The factory default switch setting is 999 and DHCP is enabled Configure the 1734 AENT Adapter for Your EtherNet IP Network 3 7 Use the Rockwell The Rockwell BootP D HCP utility is a stand alone program that incorporates Te the functionality of standard BootP software with a user friendly graphical BootP DHCP Utility interface It is located in the Utils directory on the RSLogix 5000 installation CD The 1734 AENT adapter must have DHCP enabled factory default and the network address switches set to an illegal value to use the utility To configure your adapter using the BootP utility perform the following steps 1 Run the BootP software In the BOOTP Request History panel you will see the hardware addresses of devices issuing BootP requests
215. s_9 Output 1 BIT 9 1 Output is On Output Fault_ 10 Output 0 BIT 10 O No Fault Output Fault_ 11 Output 1 BIT 11 1 Open or Over Load Not Ready BIT 13 O M odule Ready 1 M odule Initializing EEPROM Fault BIT 14 O No Fault 1 EPROM data bad Program Fault BIT 15 O No Fault incomplete incorrect conflict 1 Bad Configuration See Program Fault Note on the next page Stored Data Note To interpret values from 2 147 483 648 to 1 use this conversion formula Stored D ata Tag Value 4 294 967 296 Actual Stored D ata Tag Value Example For a read value of 1 794 967 296 1 794 967 296 4 294 967 296 2 500 000 000 actual value Publication 1734 UM 011A EN P February 2004 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference C 27 Program Fault Note Programming Fault Error bit If an incomplete incorrect or conflicting set of configuration parameters are sent to the module the Program Fault bit will be asserted and an error code will be placed in the Programming Error Code word assembly 6816 The module will not enter a normal operational state Bit definitions decimal for the error codes are 10 An invalid assembly was chosen for poll consumption 0 105 or 106 are valid The decimal point position is outside of the acceptable range Counter 0 window ON amp OFF values are equal and not zero OR Counter 0 window ON amp OFF value is greater than the Rollover A tie has been connected
216. solation Voltage 50V rms continuous voltage withstand rating Tested at 1250VAC rms for 60s Dimensions Imperial Metric 1 25H x 2 63W x 4 25D 31 75H x 66 80W x 107 95D Operating Temperature IEC 60068 2 1 Test Ad Operating Cold IEC 60068 2 2 Test Bd Operating Dry Heat IEC 60068 2 14 Test Nb Operating Thermal Shock 20 to 60 C 4 to 140 F Storage Temperature IEC 60068 2 1 Test Ab Un packaged Non operating Cold IEC 60068 2 2 Test Bb Un packaged Non operating Dry Heat 40 to 85 C 40 to 185 F Relative Humidity IEC 60068 2 30 Test Db Un packaged Non operating Damp Heat 5 to 95 non condensing Shock IEC60068 2 27 Test Ea Unpackaged Shock Operating 30g Non operating 50g Vibration IEC60068 2 6 Test Fc Operating 5g 10 to 500Hz ESD Immunity IEC 61000 4 2 6kV contact discharges 8kV air discharges Radiated RF Immunity IEC 61000 4 3 10V m with 1kHz sine wave 80 AM from 30MHz to 2000MHz 10V m with 200Hz 50 Pulse 100 AM at 900Mhz 10V m with 200Hz 50 Pulse 100 AM at 1890Mhz EFT B Immunity IEC 61000 4 4 3kV at 5kHz on signal ports Surge Transient Immunity IEC 61000 4 5 1kV line line DM and 2kV line earth CM on signal ports Conducted RF Immunity IEC 61000 4 6 10Vrms with 1kHz sine wave 80 AM from 150kHz to 80MHz Emissions CSPR 11 Group 1 Class A Enclosure Type Rating Meets IP65 66 67 when marked Mounting Base Screw Torque 8 screw 7 5 in lb
217. stration for the base with an adapter is shown below E100P Depending on the type and number of manifolds this dimension may vary Refer to Catalog O600P for additional information 1 9 20 087 20 3 13 5 98 47 2 50 22 50 79 4 ji 151 9 Adapter o Oo oO for M4 Screw Install the 32 Point Valve Driver To Install the 32 Point Valve Driver Proceed as Follows 1 Assemble the valve driver to the manifold interface plate using four M4 screws torqued 11 to 13 in lbs 2 Plug the 32 point valve driver onto the previous mounting base or communication adapter Wire the 32 Point Valve Driver Following are wiring instructions for the 32 point valve driver Use the appropriate harness assembly based on your manifold wiring interconnect system Harness Assembly Kit Numbers FP 1 to 24 Outputs 25 to 32 Outputs HA HB H1 H2 H3 PS4024P Plug the 2X15 connector into the valve driver module for 1 24 outputs If you have more than 24 outputs plug the 2X5 connector into the valve driver module for 25 32 outputs PS5632P PS4032P Plug the 2X10 and 1X10 connectors into the interconnect board in the valve manifold EDS File Requirements The EDS file is available online at www parker com pneu isysNet ATTENTION A Mak
218. t A A Gsearch GFavortes Bristory Py S w A Address hetp 10 88 98 2 Rockwell Automation Allen Bradley Navigation 1734 AENT A Module Overview e Diagnostics View diagnostic information for the adapter e Browse Chassis View description and firmware revision of modules detected in the chassis e Configuration View Set adapter parameters password required Expand Minimize Host Name Module Description User Entered Text Module Location User Entered Text TP Address 10 88 98 2 from DHCP Ethemet Address MAC 00 00 BC 21 20 14 DHCP Enabled True Auto Negotiate Media speed and duplex found Media Speed 10 100Mb 100MBd Half or Full Duplex Full Adapter Firmware Rev 1 018 Copyright 2003 Rockwell Automation Inc All rights reserved a _ fe internet The adapter s Web pages provide the following e Diagnostic information e Browse Chassis capability e Configuration information Some examples of these pages are shown on the following figures Publication 1734 UM 011A EN P February 2004 A 2 1734 AENT Adapter W eb Pages Publication 1734 UM 011A EN P February 2004 Diagnostic Information From the Diagnostic Home page you can access other diagnostic web pages including e Module Information e Detailed Network Statistics e Connection Information e Diagnostic Messaging Z 1734 AENT A 100 Mb Ethernet Module Microsoft Internet Explorer provided by Rock
219. t and click on OK Publication 1734 UM 011A EN P February 2004 D 4 1734 AENT Quick Start Configure 1734 POINT 1 0 Modules Publication 1734 UM 011A EN P February 2004 5 Inthe Module Properties window enter the following information a Name b Slot c Comm Format d Electronic Keying choose Compatible M odule to verify the major revision C because only Series C modules support EtherNet IP e Click on Next on the bottom of the window f Set the RPI to 10 ms for discrete and 50 ms for analog or specialty G Click on Finish Add Another Module Under the Adapter 1 Right click on the POINT I O adapter under I O configuration to add anew module Your second module is in slot 2 2 Select the module from the M odule Type list and click on OK 3 Inthe Module Properties window enter the following information a Name b Slot c Comm Format d Electronic Keying choose Compatible M odule e Click on Next f Set the RPI to 10 ms for discrete and 50 ms for analog or specialty 4 Click on Finish Continue to add modules to the adapter in this fashion until all of the POINT I O modules connected to the 1734 AENT have been added to the I O Configuration tree You should configure your 1734 POINT I O modules via the Controller Tags database To do this following the steps below 1 Double click on the Controller Tags in the project window Look at the bottom of the screen to make sure you are in the Monit
220. t_Adapter 2 1 2 lt ENet_Adapter Data 2 2 ENet_Adapter 1 0 01 sENet_Adapter O Data 1 01 gt lt gt JE ENet_Adapter 2 1 3 lt ENet_Adapter Data 2 3 gt ENet_Adapter 3 0 Data 1 ao ENet_Adapter 1 0 2 ENet_Adapter O Data 1 2 gt ENet_Adapter 2 1 4 sENet_Adapter Data 2 4 gt ENet_Adapter 3 0 Data 2 ENet_Adapter 1 0 3 lt ENet_Adapter O Data 1 3 gt JE ENet_Adapter 3 0 Data 3 ie lt gt 4 gt J MainRoutine Rung 0 of 5 Pneumatic Division Richland Michigan 49083 To avoid unpredictable system behavior that can cause personal injury and property damage Disconnect electrical supply when necessary before installation servicing or conversion Disconnect air supply and depressurize all air lines connected to this product before installation servicing or conversion Operate within the manufacturer s specified pressure temperature and other conditions listed in these instructions Medium must be moisture free if ambient temperature is below freezing Service according to procedures listed in these instructions Installation service and conversion of these products must be performed by knowledgeable personnel who understand how pneumatic products are to be applied After installation servicing or conversion air and electrical supplies when necessary should be connected and the product tested for proper function and leakage If
221. ta 1 POINT_IO_Adapter 0 Data 1 SINT 4 POINT_IO_Adapter 2 C 4B 1734_D0V4 0 0 SINT Binary Binary 4 POINT_IO_Adapter 0 F POINT_IO_Adapter 2 0 POINT_IO_Adapter 0 Data 2 POINT_IO_Adapter 0 Data 2 SINT A POINT_IO_Adapter 4B 1734_8SLOT 1 0 Parts_count r 3 Close the Controller Tags window E i Fi POINT 10_Adapter21 POINT 10 Adepteri Datal2 POINT J0 Adepteri Dat E E 7 COUNTER E Decimal Create the Ladder Program Next create the example ladder program to test the I O Publication 1734 UM 011A EN P February 2004 1 Double click on Main Routine under the Main Program folder Controller Tags Controller Fault Handler Power Up Handler 4 6 Tasks MainTask ea MainProgram i Program Tags Unscheduled Programs 3 6 Controller POINT_IO_Controller 2 Enter the following ladder program using the tags previously created Parts_Count DN JE CTU Count Up Counter Parts_Count Parts_Count lt RES gt 3 Save the program Move Source Parts_CountACC o Dest POINT_IO_Adapter 1 0 Data 2 0000_0000 Download the Program to the Controller Configure the 1734 AENT for Direct Connection in RSLogix5000 4 15 Follow this procedure to download the program we just saved to the ControlLogix controller 1 From the main menu
222. tains ex 45 4 0 Ste eae weet a ee eww aa ea ey 1 Configuration Requirements ccc eceeee cece eens 2 IPAddress ee er a aA 2 Gateway Address nunun 3 Subnet Maskor eroaa ee weed en a NAAA 4 Set the Network Address n on nunnana 6 Use the Rockwell BootP DHCP Utility 08 7 Save the Relation DIst4 span Stine tats Seg unnerwan aig aaa 9 Use DHCP Software to Configure Your Adapter 3 10 WV ab S NEXU ee eoa ata eere one 4d orate ween a aa 3 10 Publication 1734 UM011A EN P February 2004 Table of Contents ii Configure the 1734 AENT for Direct Connection in RSLogix 5000 Configure the 1734 AENT for Direct Connection and Rack Optimization in RSLogix 5000 LED Status Indicators Safety Approvals and Specifications Chapter 4 About the Example Application ccc cece eee 4 Set Up the Hardware nnd hace aces ona teewacnand hnKs 4 Create the Example Application 0 cece eee eee 4 Configure the TO uas seruo A sae KORE ANNES 4 Add the Local EtherNet IP Bridge to the I O Configuration 4 Add the POINT I O Adapter to the I O Configuration 4 Add the POINT I O Modules to the I O Configuration 4 Edit the Controller Tags sissy hain al wader e actin aa vente oe Create the Ladder Program cc cceceseseeeeeceees Download the Program to the Controller 0 Verify the Module Chassis Size cc cece ce eee ees Conf
223. ter Config 5 amp 7 4to 2 Time Base INT 0 Counter Config 7 only in 10 ms intervals 0 3000 ms 10 ms to 3 sec Gate Interval SINT 0 Counter Config 7 only Product of Time Base x Gate Interval 128 to 127 0 200 must be lt 3000 ms Scalar SINT 0 Counter Config 5 only 128 to 127 0 255 0 1 2 4 8 16 32 64 128 Rollover DINT 16 777 215 1 to 16 777 216 Preset lt Rollover DINT 0 0 to 16 777 215 Publication 1734 UM 011A EN P February 2004 C 30 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference 1734 1 1 Channel 5V DC Encoder Counter 1734 IK 1 Channel 15 24V DC Encoder Counter Configuration Data Data Type Default Valid Data Values Value SS Counter Control SINT 0 SS Counter Reset BITO 0 Count Unchanged 1 Count Cleared SS Counter Preset BIT 1 0 Count Unchanged 1 Count Set to Preset SS Value Reset BIT 2 0 Count Unchanged 1 Count Cleared To enter values from 128 to 255 use these conversion formulas Decimal Position Note Desired D ecimal Position Value 256 Entered D ecimal Position Value Example For a divisor of 200 200 256 56 Gate Interval Note Desired G ate Interval Value 256 Entered G ate Interval Value Example For a Gate Interval of 200 200 256 56 Scalar Note Desired Scalar Value 256 Entered Scalar Value Example For a Scalar of 128 128 256 128 Publication 1734 UM 011A EN P February 2004 1734 PO
224. ter to an Existing System 2 3 Wiring 2 4 Mounting Dimensions 2 5 ATTENTION You must use Series C POINT I O modules with the A 1734 AENT adapter Series A or B POINT I O modules will not work with this adapter Publication 1734 UM 011A EN P February 2004 2 2 Install the 1734 AENT Adapter Identify Module Use the following illustration to identify the external features of the POINT I O EtherNet IP adapter Components erNet IP adapter 43247aent1 Description Description 1 Ethernet Network RJ 45 Connector 5 System Power and Field Power Indicators 2 Network Address Thumbw heel 6 Removable Terminal Block RTB Handle 3 Indicators Module Status 7 Removable Terminal Block RTB Network Activity Network Status and PointBus Status 4 DIN Rail Locking Screw orange 8 Safety Endcap Mount the Ada pter onaDIN Use the following procedure to mount the adapter on a new system before any Rail Before I O modules have been installed Installing Modules 1 Position the adapter A vertically above the DIN rail B 2 Press down firmly to install the adapter on the DIN rail The locking mechanism will lock the adapter to the DIN rail Publication 1734 UM 011A EN P February 2004 Mount or Replace EtherNet IP Adapter to an Existing System Install the 1734 AENT Adapter 2 3 3 Set the network address thumbwheel switches to the desired value see Set the Network Address on page 3 6
225. tes Before you began this quick start make sure the following conditions are in place e The ControlLogix Controller and the RSLogix software version must be version 11 or higher e The 1756 ENBT module must be version 2 3 or higher e The 1734 POINT I O modules must be Series C except for the 1734 232A SC modules which can be Series A e The recommended RPIs are being used Discrete 10 ms or higher Analog and Specialty 50 ms or higher e The 1734 AENT POINT I O adapter is a child to a local 1756 ENBT module Publication 1734 UM 011A EN P February 2004 D 2 1734 AENT Quick Start C onfigure the 1734 AENT In the 1734 AENT s module Properties window perform the following steps POINT 1 0 Adapter 1 Complete the Name field 2 Enter the following address into the IP Address field 192 168 1 42 you will only be setting the last digit because the first three digits are set for you as set by the push wheel switches on the adapter Note The push wheel switches should be set to 042 3 From the Comm Format menu choose None If you do not want a rack optimized connection or choose Rack Optimization if you want a rack optimized connection 4 For the Electronic Keying field select Compatible Module 5 Enter the Chassis Size Note Regarding chassis size the POINT I O adapter itself takes up a count in the chassis The default chassis size for the POINT I O is 1 which covers the adapter only and allows for no I
226. troller Connected Controller Controller Name PARKER Controller Type 1769 L32E 4 CompactLogix5332E Controller Comm Path AB_DF1 1 Serial Number O035C459 Security No Protection Offline Project Controller Name Parker_Enet_Demo_Case Controller Type 1769 L32E CompactLogix5332E Controller File U VQ33859 serial programs Parker_Enet_Demo_Case ACD Serial Number lt none gt Security No Protection Ss Download Sel Fie E Hel ose elect File ance elp step 3 Establishing Communications cont d If any errors occur after the download make sure that the IP address that was put into the RSLogIx 5000 matches the IP address of the demo case Check the icons on your modules in the directory tree on the left Make sure that there are no exclamation marks step 3 Establishing Communications cont d 4 To ensure that you have tags associated with your modules select the Controller Tags line in the directory tree on the left Now you can view the tags and the bits associated with them fo RSLogix 5000 Parker_Enet_Demo_Case 1769 132E Controller Tags Parker_Enet_Demo_Case controller BER Fie Edit View Search Logic Communications Tools Window Help 4 l alsia a sale lt l gels fe v aal HE Program Mode Path AB_DF v E p M Controller OK X da giae 2 Parker Enet_Demo_Case PT Controller Tags ja als ffandler Value Force Mask eee 5 Style Data Type fa po ta Ha
227. uary 2004 This term Means latency The time between initiating a request for data and the beginning of the actual data transfer multicast In the CIP producer consumer model one producer multicasts broadcasts the data once to all the consumers producer The source of information in the CIP networking model See CIP rack optimized A physical and logical collection of application modules subnet mask An extension of the IP address that allows a site to use a single net ID for multiple networks switch A network device that cross connects devices or network segments A switch provides each sender receiver the full network bandwidth 2x in full duplex mode reduces collisions and increases determinism TCP The Transport Control Protocol is a more reliable but slower transport protocol than UDP It is used for explicit not time critical messaging in EtherNet IP TCP IP The Transmission Control Protocol Internet Protocol is a transport layer protocol TCP and a network layer protocol IP commonly used for communication within networks and across internetworks transaction An exchange of request and data and response and data UDP The User Datagram Protocol is a transport protocol that provides a very simple but fast capability to send datagrams between two devices It is used for 1 0 implicit messaging in EtherNet IP About the 1734 AENT Adapter Install the 1734 AENT
228. ublication may contain additional information regarding specific enclosure type ratings beyond what this product provides that are required to comply with certain product safety certifications NOTE See NEMA Standards publication 250 and IEC publication 60529 as applicable for explanations of the degrees of protection provided by different types of enclosure Also see the appropriate sections in this publication as well as the publication E115P Industrial Automation Wiring and Grounding Guidelines for additional installation requirements pertaining to this equipment ATTENTION A Preventing Electrostatic Discharge This equipment is sensitive to electrostatic discharge which can cause internal damage and affect normal operation Follow these guidelines when you handle this equipment e Touch a grounded object to discharge potential static e Wear an approved grounding wriststrap e Do not touch connectors or pins on component boards e Do not touch circuit components inside the equipment e If available use a static safe workstation e When not in use store the equipment in appropriate static safe packaging isysNet 24 VDC Input Modules Series A PSSN8M8A PSSN8M12A PSSN8M23A PSSP8M8A PSSP8M12A PSSP8M23A E106P Mount the I O Base To mount the I O base on a wall or panel use the screw holes provided in the base IMPORTANT The I O module must be mounted on a grounded metal mounting plate or othe
229. ulticasts the data once to all the consumers All consumers see the data simultaneously and may choose whether to consume receive the data or not Delivery time is consistent no matter how many consumers there are connection The communication mechanism from the controller to another module in the control system usually used to exchange 1 0 data consumer A destination device in the CIP networking model See CIP CSM A CD Carrier Sense Multiple Access Collision Detection is the access method used in Ethernet W hen a device wants to gain access to the network it checks to see if the network is quiet senses the carrier If itis not it waits a random amount of time before retrying If the network is quiet and two devices access the line at exactly the same time their signals collide When the collision is detected they both back off and each waits a random amount of time before retrying determinism The ability to predict when information will be delivered Important in time critical applications DHCP The Dynamic Host Configuration Protocol is an Internet protocol similar to BootP for automating the configuration of computers that use TCP IP DHCP can be used to automatically assign IP addresses to deliver IP stack configuration parameters such as the subnet mask and default router and to provide other configuration information such as the addresses for printer time and news servers The 1734 AEN
230. umed and received from produced the I O modules These messages are mapped into the processor s memory These I O input modules produce 1 byte of input data scanner Rx status They do not consume I O data scanner Tx Default Data Map for the Input Modules PSSN8M8A PSSN8M12A PSSN8M23A PSSP8M8A PSSP8M12A PSSP8M23A Message Size 1 Byte a Er ee Produces ch7 che chs Ch4 ch3 ch2 ch1 cho Channel Scanner Rx Status Where 0 OFF 1 ON EDS File Requirements The EDS files are available online at www parker com pneu isysNet Add 24 VDC Input Modules to RSLogix 5000 1O Configuration To add your input modules to RSLogix 5000 I O configuration follow these steps e In RSLogix 5000 For ControlNet highlight the PSSCCNA or 1738 ACNR Shown right click and select New Module 1 0 Configuration S 1 1 1756 CNB D CNet_Scanner 8 21 3 T z3 4 cut Ctrl By Copy Ctrl C Delete Del Cross Reference Ctri E Properties For EtherNet IP highlight the PSSCENA or 1738 AENT Shown right click and select New Module 5 6 1 0 Configuration f 1 1 1756 CNB D CNet_Scanner fi 8 0 1738 ACNR A CNet_Adapter f 2 1756 DNB ONet_Scanner 3 1756 ENBT 4 ENet_Scanner 0 1738 AENT A ENet_Adaptor 411 5 New module A Gut Chrl x By Copy Ctrl C Delete Del Cross Reference Ctrl E Properties If your RSLogic 5000 is Version 15 X or greater
231. uous Rate 0111 Rate M easurement 1000 8 Pulse Generator Mode_4 BIT 4 000 Store Count Disable Mode 5 BIT5 001 Store Continue Mode_6 BIT 6 010 Store W ait Resume 011 Store Reset W ait Start 100 Store Reset Start Z Input BIT 7 0 Z Input Not Inverted 1 Z Input Is Inverted Filter SINT 120 Filter_0 BIT 0 0x78H 10000 N0 Filter Filter_1 BIT 1 0001 50 KHz Filter_2 BIT 2 0010 5 KHz Filter_3 BIT 3 0100 500 Hz 1000 50 Hz FilterA BIT 4 O Input A B Z Not Filtered FilterB BIT 5 1 Input A B Z Is Filtered FilterZ BIT 6 Decimal Position SINT 0 Counter Config 0 1 2 3 4 128 to 127 0 255 Counter Config 5 6 amp 7 4 to 2 Time Base INT 0 Counter Config 3 amp 7 only in 10 ms intervals 0 3000 ms 10 ms to 3 sec Gate Interval SINT 0 Counter Config 3 amp 7 only Product of Time Base x Gate 128 to 127 0 200 Interval must be lt 3000 ms Publication 1734 UM 011A EN P February 2004 C 24 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference Publication 1734 UM 011A EN P February 2004 1734 VHS C24 1 Channel 15 24V DC Very High Speed Counter 1734 VHSC5 1 Channel 5V DC Very High Speed Counter Configuration Data Data Type Default Valid Data Values Value Scalar SINT 0 Counter Config 5 6 8 only 128 to 127 0 255 Single Bit only 0 1 2 4 8 16 32 64 128 Output Ties 0 SINT 0 Out 0 Window 1 BIT 0 0 Output 0 Not Tied Out 0 Window 2 BIT 1 1 Outp
232. uration and programming information also known as explicit messaging The 1734 AENT adapter uses the Common Industrial Protocol CIP CIP is the application layer protocol specified for EtherNet IP the Ethernet Industrial Protocol as well as for ControlNet and DeviceNet It is a message based protocol that implements a relative path to send a message from the producing device in a system to the consuming devices The producing device contains the path information that steers the message along the proper route to reach its consumers Since the producing device holds this information other devices along the path simply pass this information they do not need to store it Publication 1734 UM 011A EN P February 2004 1 6 About the 1734 AENT Adapter Understand the Producer Consumer M odel Specify the Requested Packet Interval RPI Support of Rack Optimized and Direct Connections Publication 1734 UM 011A EN P February 2004 This has two significant benefits e You do not need to configure routing tables in the bridging modules which greatly simplifies maintenance and module replacement e You maintain full control over the route taken by each message which enables you to select alternative paths for the same end device The CIP producer consumer networking model replaces the old source destination master slave model The producer consumer model reduces network traffic and increases
233. ut 0 Tied to Window Out 0 Window 3 BIT 2 Counter Config 3 PWM Out 0 Window 4 BIT 3 Output 0 Window 1 PWM In Output Ties 1 SINT 0 Out 1 Window 1 BIT 0 0 Output 1 Not Tied Out 1 Window 2 BIT 1 1 Output 1 Tied to Window Out 1 Window 3 BIT 2 Counter Config 3 PWM Out 1 Window 4 BIT 3 Output 1 Window 1 PWM In Rollover DINT 16 777 215 1 to 16 777 216 Preset lt Rollover DINT 0 0 to 16 777 215 On Value 1 DINT 0 Counter Config 3 5 6 7 Off Value 1 DINT 0 0 to 16 777 215 On Value 2 DINT 0 Counter Config 0 1 2 4 Off Value 2 DINT 0 0 to Rollover Value On Value 3 DINT 0 Off Value 3 DINT 0 On Value 4 DINT 0 Off Value 4 DINT 0 SS PWM Value INT 0 0 to 9500 lt 0 or gt 9500 Hold Last State 0 00 to 95 00 SS Counter Control SINT 0 SS Counter Reset BIT 0 0 Count Unchanged 1 Count Cleared SS Counter Preset BIT 1 0 Count Unchanged 1 Count Set to Preset SS Value Reset BIT 2 0 Count Unchanged Stored Accum Count 1 Count Cleared 1734 POINT I O M odule RSLogix 5000 Controller Tag Reference C 25 1734 VHS C24 1 Channel 15 24V DC Very High Speed Counter 1734 VHSC5 1 Channel 5V DC Very High Speed Counter Configuration Data Data Type Default Valid Data Values Value SS Output Control SINT 0 SS Out 0 Force BIT 0 0 Output Off 1 Output Forced On SS Out 0 En BIT 1 0 Output Disabled 1 Output Enabled SS Out 0 Electronic Fuse BIT 2 0 Auto Retry l Latch Off SS Out 0 Diagnostic Speed BIT 3 0 lt 8ms Response 1 50m
234. vde digital sinking M8 PSSNACMI24 2 input analog current M12 PSSNAVM124 2 input analog voltage M12 PSSP8M124 8 input 24vde digital sourcing M12 PSSP8M234 8 input 24vde digital sourcing M23 PSSPEMBA 8 input 24vdc digital sourcing M8 PSST8M124 8 Output 24vde digital sourcing M12 PSSTBM234 8 Output 24vde digital sourcing M23 PSSTSMBA 8 Output 24vde digital sourcing M8 gt Find Add Favorite NS ef Cancel Hep step 2 Create An RSLogix 5000 File cont d 8 Create the name and select the s ot for your module Click OK E New Module General Connection Module Info Fault Program Action Configuration Type PSSTSM234 8 Output 24vde digital sourcing M23 Vendor Parker Hannifin Corp Parent et Adapter M23 output Description Module Definition Series A Change Revision 31 Electronic Keyina Compatible Module Connection Rack Optimization Data Format Integer Status Creating Cancel Help step 2 Create An RSLogix 5000 File cont d 9 Repeat steps 6 through 8 for the other I O modules and Valve Driver Once you have properly completed this process your window should appear like this 2 Data Types Ca User Defined Ca Strings Predefined 4 Module Defined 3 6 0O Configuration ii Backplane CompactLogix System fa 1769 L32E Parker Enet Demo Case 1769 L32E Ethernet Port LocalENB 2 a Ethernet aP 1769 L32E Ethernet Port LocalEN
235. vice has an IP address but no CIP connections are Not active Field power is off established Power on 24V present Green CIP connections Device on line has an p IP address and CIP connections are System Power Indicator shows the 5V power output from the dc dc converter established Flashing Red One or more Ethernet connections has timed out Red No link The module is not physically connected to a powered Ethernet device Flashing Red Green The module is performing a self test occurs during power up test Adapter Power Indicator shows the 24V power input to the dc dc converter isysNet EtherNet IP Adapter Series A PSSCENA Specifications E104P Following are specifications for the PSSCENA EtherNet IP adapter EtherNet IP Adapter PSSCENA Expansion I O Capacity Maximum of 63 modules Maximum of 5 Rack Optimized connections for digital modules only Maximum of 25 Direct connections PSSCENA backplane current output 1 0A maximum The actual number of modules can vary Add up the current requirements of the modules you want to use to make sure they do not exceed the amperage limit of 1 0A for the PSSCENA Backplane current can be extended beyond 1 0A with a PSSSE24A Backplane Extension Power Supply Add multiple PSSSE24A modules to reach the 63 module maximum Cat No PSSN8xxx PSSP8xxx PSST8xxx PSSTR4M12A PSSNACM12A PSSNAVM12A PSSTACM12A PSSTAVM12A PSSS23A PSSV32A
236. well Automation Fie Edt View Favorites Tools Help B Heak BL seach Favores Bristory yy amp fl El Address http 10 68 98 2 co Links Rockwell Automation Allen Bradley Navigation Diagnostic Home Expand Minimize Module Information Information about the module its revision and its status Detailed Network Statistics Detailed network statistics Connection Information Connection timeout counters Diagnostic Messaging Build a CIP style message to retrieve module status or condition Intemet 1734 AENT Adapter Web Pages A 3 Module Information On the Module Information page you can obtain module specifications such as the module name module uptime information vendor ID product type product code firmware revision status switches and CPU utilization EDS Files You can access the 1734 AENT EDS files from the M odule Information page These ED S files are coming from your adapter You can also be directed to access other modules ED S files from the M odule Information page Click on the Get 1734 AENT EDS File link to download a zip file that will contain the adapter s ED S file al Publication 1734 UM 011A EN P February 2004 A 4 1734 AENT Adapter W eb Pages Network Statistics The Network Statistics page provides information that echoes the state of The Network Statistics page provides information that echoes the state of th
237. well Automation 1201 South Second Street Milwaukee WI 53204 2496 USA Tel 1 414 382 2000 Fax 1 414 382 4444 Europe Rockwell Automation SA NV Vorstlaan Boulevard du Souverain 36 BP 3A B 1170 Brussels Belgium Tel 32 2 663 0600 Fax 32 2 663 0640 Asia Pacific Rockwell Automation 27 F Citicorp Centre 18 Whitfield Road Causeway Bay Hong Kong Tel 852 2887 4788 Fax 852 2508 1846 Headquarters for Dodge and Reliance Electric Products Americas Rockwell Automation 6040 Ponders Court Greenville SC 29615 4617 USA Tel 1 864 297 4800 Fax 1 864 281 2433 Europe Rockwell Automation Brihlstra amp e 22 D 74834 Elztal Dallau Germany Tel 49 6261 9410 Fax 49 6261 17741 Asia Pacific Rockwell Automation 55 Newton Road 11 01 02 Revenue House Singapore 307987 Tel 65 351 6723 Fax 65 355 1733 Publication 1734 UM011A EN P February 2004 PN 957726 46 Copyright 2004 Rockwell Automation Inc All rights reserved Printed in the U S A
238. which may lead to personal injury or death property damage or economic loss IMPORTANT Identifies information that is critical for successful application and understanding of the product ATTENTION Identifies information about practices or circumstances that can lead to personal injury or death property damage or economic loss Attentions help you e Identify a Hazard e Avoid a Hazard e Recognize the Consequence elle alvalsipy Labels may be located on or inside the equipment to alert people that dangerous voltage may be present BURN HAZARD Labels may be located on or inside the equipment to alert people that surfaces may be dangerous temperatures E100P ATTENTION A Environment and Enclosure This equipment is intended for use in overvoltage Category Il applications as defined in IEC publication 60664 1 at altitudes up to 2000 meters without derating This equipment is considered Group 1 Class A industrial equipment according to IEC CISPR Publication 11 Without appropriate precautions there may be potential difficulties ensuring electromagnetic compatibility in other environments due to conducted as well as radiated disturbance This equipment is supplied as enclosed equipment It should not require additional system enclosure when used in locations consistent with the enclosure type ratings stated in the Specifications section of this publication Subsequent se
239. x DeviceNet Drivers 1784 PCD PCIDS 1770 KFD SDNPT drivers PLC 5 DH Emulator driver SLC 500 DH485 Emulator driver SoftLogix5 driver Remote Devices via Linx Gatewa Stop Delete FERRE EB Publication 1734 UM 011A EN P February 2004 Configure the RSLinx Ethernet Communication Driver B 3 You will be prompted to name the driver 5 Select the default driver name e g AB _ETH 1 or type in your own name and click on OK Choose a name for the new driver 15 characters maximum Cancel aB_ETH 1 The Configure driver window will appear with the Station Mapping page open Click on Add New and enter the IP address or Host Name of your Ethernet device e g 10 88 70 4 Pump1 etc Configure driver AB_ETH 1 Station Mapping Host Name 10 88 70 4 OK Cancel Apply Help 7 Repeat step 6 for each additional Ethernet device you need to access amp When you are done entering the IP addresses click on Apply Then click on OK to close the Configure driver window Publication 1734 UM 011A EN P February 2004 B 4 Configure the RSLinx Ethernet Communication Driver The new driver will appear in the list of configured drivers Your list will display the drivers you have configured on your workstation Configure Drivers E m Available Driver Types Close z Add New s Help m Configured Drivers Name and Description Status AB
240. x as described in Appendix B Configure the 1734 AENT for Direct Connection in RSLogix5000 43 Create the Perform the following steps to create the example application Example Application 1 2 3 4 Start RSLogix 5000 Enterprise Series The RSLogix 5000 Main Window will open From the File menu select New File Edit View Search Logic Communications Tools Window Help Gase a alaj Ge gt 4 gt Favorites KER A meranie K eap A Compare Grts Save Saye As New Component Compact Prints Gol P Print Options Recent File Exit Create a new project file The New Controller pop up window will open Vendor Allen Bradley Revision 11 hed are J Redundancy Enabled Help Name POINT _10_Cortroller Description a l Chassis Type 1756 44 4 Slot ContralLogix Chassis Slot Zz Create In EARS Logix SODD Projects Browse Enter an appropriate Name for the Controller e g POINT IO_ Controller Select the correct Version Chassis Type and Slot number of the Logix5555 controller and the folder where you want to save the RSLogix 5000 file Create In The Description is optional Note Version 11 of RSLogix 5000 lets you choose to enable redundancy This example does not use redundancy If you are going to use redundancy in your system check the Redundancy Enabled box so that a check mark appears Publication 1734 UM 011A
241. y above the mounting base The module will bridge two bases Module Will Bridge Two Bases mm PSSN8M12A parker 24Vdc In 2 5 Ea 3 Push the module down until it engages the latching mechanism You will hear a clicking sound when the module is properly engaged The locking mechanism will lock the module to the base Remove the Digital Input Module From the Mounting Base To Remove the Module from the Mounting Base 1 Put a flat blade screwdriver into the slot of the orange latching mechanism 2 Push the screwdriver toward the I O module to disengage the latch The module will lift up off the base 3 Pull the module off of the base isysNet 24 VDC Input Modules Series A PSSN8M8A PSSN8M12A PSSN8M23A PSSP8M8A PSSP8M12A PSSP8M23A E106P Wire the Input Modules Following are wiring instructions for the digital input modules PSSN8M8A PSSN8M23A PSSP8M8A PSSP8M23A view into connector view into connector Pin 1 24VDC Pin 1 Input 0 Pin 7 Input 6 Pin 3 Common Pin 2 Input 1 Pin 8 Input 7 Pin 4 Input 0 M8 A Pin 3 Input 2 Pin 9 Return Com Input 1 M8 B Pin 4 Input 3 Pin 10 Return Com Ha eo Pin 5 Input 4 Pin 11 24VDC npu ee i N Input 4 M8 E Pin 6 Input 5 Pin 12 Chassis Input 5 M8 F Input 6 M8 G PSSP8M12A Q Sink Input module
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