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HOST CONNECTION MANUAL

1. i FX1S Device Bit Address Word Address Format Notes Input Relay X 00 17 2 OO Output Relay 00 15 j OO Internal Relay 000 511 DDD Timer Contact 00 63 DD Counter Contact 00 31 DD Data Contact D000 0 255 F DDD H State 000 127 7 DDD Timer Value T 00 63 DD Counter Value C 00 31 DD Data Register D 000 255 DDD Special Data Register SD 8000 8255 DDDD Counter Value C dword 235 255 DDD 32 bit device FX1N FX1NC Device Bit Address Word Address Format Notes Input Relay X 000 177 OOO Output Relay Y 000 177 Internal Relay 0000 1535 DDDD Timer Contact 000 255 DDD Counter Contact 000 199 DDD Special Internal Relay SM 8000 8255 DDDD State 000 999 DDD Timer Value T 000 255 DDD Counter Value C 000 199 DDD Data Register D 0000 7999 DDDD Special Data Register SD 8000 8255 DDDD Counter Value dword 200 255 DDD 32 bit device FX2N FX2NC Device Bit Address Word Address Format Notes Input Relay X 000 377 OOO Output Relay 000 377 7 OOO Internal Relay 0000 3071 DDDD Timer Contact 000 255 DDD Counter Contact 000 199 DDD Special Internal Relay SM 8000 8255 DDDD State 000 999
2. 1 2 NB series Programmable Terminals Host Connection Manual V108 1 List for All PLCs Supported by NB Series Names Displayed in NB Designer PLC Models PLC Manufacturers LS Master K Cnet K120s LG K200s LS Master K CPU Direct K120s K200s LS Master K Modbus RTU K120s K200s LS XGT CPU Direct XGB LS XGT Cnet XBC DN64H XBC DR32H Mitsubishi FXON 1N 2N 3G FXON Mitsubishi FX1N FX2N FX3G FX1NC FX2NC Mitsubishi FX1S FX1S Mitsubishi FX2N 10GM 20GM FX2N_10GM FX2N_20GM Mitsubishi FX3U FX3U FX3UC Mitsubishi FX 485ADP 485BD 232BD FX 485ADP 485BD 232BD Multi station Mitsubishi Q Series CPU Port Q02 CPU QO2H CPU Q12H CPU Q25H CPU Mitsubishi Q_QnA Link Port 000 CPU 01 CPU QJ71C24 module QJ71C24 R2 module QJ71C24N module QJ71C24N R2 module QJ71C24N R4 module Mitsubishi CPU Port 000 Mitsubishi QO6H QO6H CPU Modbus ASCII Modbus Compatible External Device Modbus Modbus RTU Modbus Compatible External Device Modbus RTU Extend Modbus Compatible External Device Modbus RTU Slave Modbus Compatible External Device Modbus TCP Slave Modbus Compatible External Device Omron C Series C200HX HG HE Z Omron CQM1H 10 20 Omron CJCS Series CS1LY CJ1L1 CJ2L 1 Omron CP1H L E CP1H L E NB series Programmable Terminals Host Connection Manual V108 Peuoddns 10 5
3. LS XGT Cnet Device Bit Address Word Address Format File Relay bit 0 0 10239 F DDDDD H Data Relay D bit 0 0 10239 F DDDDD H Communication Relay N bit 0 0 5119 F DDDD H Link Relay L bit 0 0 2047 F DDDD H Index Relay Z bit 0 0 127 F DDD H Counter Contact Relay C_bit0 1023 DDDD Timer Contact Relay T_bit0 1023 DDDD Special Relay F_bit0 0 1023 F DDDD H Keep Relay bit0 0 4095 F 7 DDDD H Auxiliary Relay M_bit0 0 1023 F 2 DDDD H I O Relay P bit0 0 1023 F 2 DDDD H File Register word 0 10239 DDDDD Data Register D word 0 10239 DDDDD Communication Register N_ word 0 5119 DDDD Link Register L_ word 0 2047 DDDD Step Control Register S_ word 0 127 DDD Index Register Z word 0 127 DDD Counter ws C_ word 0 1023 DDDD Timer T word 0 1023 DDDD Special Register F_ word 0 1023 DDDD Keep Register K_ word 0 4095 DDDD Auxiliary Register M word 0 1023 DDDD lO Register word 0 1023 DDDD Note T bit and C bit registers do not support batch transmission Address format description D decimal O octonary H hexadecimal NB series Programmable Terminals Host Connection Manual V108 7 9 sJejsiboH r 7 m 7 Connecting to LG PLCs 7 10 LS XGT CPU Direct
4. e RS422 Communication for 90 30 VersaMax HMI COM2 9Pin Female TER CTS RISB CTSB 14 9 9 01 NB series Programmable Terminals Host Connection Manual V108 10 9 10 Connecting to PLC of Automation Inc 10 10 NB series Programmable Terminals Host Connection Manual V108 Revision History A manual revision code appears as a suffix to the catalog number on the front cover of the manual Revision code Cat No V108 E1 0 October 2011 Revision code Revised content Original production April 2012 Adding descriptions of Modbus network interface communication and Modbus protocol August 2012 Adding descriptions of connecting to PLCs manufactured by Allen Bradley and GE Fanuc Automation INC NB series Programmable Terminals Host Connection Manual V108 Revision 1 Revision 2 NB series Programmable Terminals Host Connection Manual V108 Authorized Distributor
5. Note 1 For X registers if the address in PLC is X01 then the address in HMI should be set to X0 1 and if the address in PLC is X1F then the address in HMI should be set to X1 F and Y R registers can be deduced according to this rule 2 The address range of EV register in HMI can be set to 32767 max while the protocol only supports 9999 max 3 Address format description D decimal O octonary H hexadecimal NB series Programmable Terminals Host Connection Manual V108 8 5 il FPO C16 Device Bit Address Word Address Format Notes External Output Nodes Y0 0 12 F DD H External Input Nodes X0 0 12 F 0 99 DD Counter Nodes C100 143 DDD Internal Auxiliary Nodes R0 0 62 F R900 0 903 F DDD H Setting Value Registers for 0 143 DDD Timer Counter Actual Value Registers for 0 143 DDD Timer Counter Data Registers DTO0 1659 DDDD FPX Device Bit Address Word Address Format Notes External Input Nodes X0 0 109 F ES DDD H External Output Nodes Y0 0 109 F DDD H Timers T0 1007 DDDD D Counters 1008 1023 000 Link Nodes L0 0 127 F DDD H g Internal Nodes R0 0 255 F DDD H 2 R900 0 911 F Actual Value Registers for EV0 1023 DDDD 2 Timer Counter Setting Value Register for 0 1023 DDDD Timer Counter Data Registers DT0 32764 DDDDD 8 Connecting to Panasonic PLCs 8 5 Cable Fabrication e RS2
6. E Z Type 95232 PLC Communication Time Out 1 BaudRate 38400 Protocol Time Out 1 ms 3 Data Bit 8 Protocol Time Out 2 ms 3 7 Pay Check Max interval of word block pack 2 Stop B Max interval of bit block pack 8 P rens NN Max word block package size 16 Max bit block package size 4 Use Default Setting NB series Programmable Terminals Host Connection Manual V108 7 5 7 Connecting to LG PLCs When Using LS XGT CPU Direct Protocol HMI default communication parameters 115200bps Baud Rate 8 Data Bit none Parity Check 1 Stop Bit and PLC Station No RS232 Communication Attribute Security Levels Setting User Permissions Setting HMI Task Ber Extended Attributes HMI System Information Text Historical Events Storage Print Setting COM1 Setting Setting Type RS232 PLC Communication Time Out 5 BaudRate 115200 Protocol Time Out 1 ms 50 Data Bit 8 Protocol Time Out 2 ms 3 Party Check Max interval of word block pack 2 Stop Bit 1 Max interval of bit block pack 2 Max word block package size 16 Max bit block package size Use Default Setting Note LS XGT CPU Direct protocol only supports communication speed of 115200bps and the Multiple Station No is not supported When Using LS XGT Cnet Protocol HMI default communication parameters 9600bps Baud Rate 8 Data Bit none Parity Check 1 Stop Bit and 0 PLC Statio
7. Terms Descriptions NB Unit Indicates the main Unit of the products in the OMRON NB Series of Programmable Terminal NB Series Indicates products in the OMRON NBLILI Series of Programmable Terminal In this manual unless otherwise specified NBLILI Series is taken as the subject concerned PLC Indicates a Programmable Controller CP Series Indicates the following products in the OMRON CP Series of Programmable Controllers CP1H CP1L CP1E CS CJ Series C Series Indicates the following products in the OMRON CS CJ Series of Programmable Controllers CS1G CS1H CS1G H CS1H H CJ1G CJ1M CJ2M CJ2H Indicates the following products in the OMRON C Series of Programmable Controllers C200HX Z C200HG Z C200HE Z COM1 CQM1H CPM1A CPM2A CPM2C Serial Communication Unit Indicates a Serial Communication Unit for an OMRON SYSMAC CS CJ Series PLC Serial Communication Board Indicates a Serial Communication Board for an OMRON SYSMAC CS CJ Series PLC Communication Board Indicates a Communication Board for an OMRON C200HX HG HE Z PLC CPU Unit Indicates a CPU Unit in the OMRON CP CS CJ or SYSMAC C Series of Programmable Controllers NB Designer Indicates the OMRON NB Designer Host Indicates the PLC and other units functioning as the control devices for NB Series Units PT Indicates an OMRON Programmable Terminal HMI Indicates an OMRON Programmable Terminal NB ser
8. Device Bit Address Word Address Format File Relay R_bit0 0 10239 F DDDDD H Data Relay D bit0 0 10239 F DDDDD H Communication Relay N_bit0 0 5119 F DDDD H Link Relay L_bit0 0 2047 F DDDD H Index Relay Z bit 0 0 127 F DDD H ZR bit0 0 10239 F DDDDD H Counter Contact Relay C 910 1023 DDDD Timer Contact Relay T_bit0 1023 DDDD Special Relay F_bit0 0 1023 F DDDD H Keep Relay bit0 0 4095 F DDDD H Auxiliary Relay M_bit 0 0 1023 F DDDD H Relay P_bit0 0 1023 F DDDD H File Register R 0 10239 DDDDD Data Register D 0 10239 DDDDD Communication Register N 0 5119 DDDD Link Register 1 L 0 2047 DDDD Step Control Register S 0 127 DDD Index Register Z 0 127 DDD ZR 0 10239 DDDDD Counter Set Value SV 0 1023 DDDD Timer Set Value T_ SV 0 1023 DDDD Counter Current Value C_ CV 0 1023 DDDD Timer Current Value T_ CV 0 1023 DDDD Special Register F 0 1023 DDDD Keep Register K 0 4095 DDDD Auxiliary Register M 0 1023 DDDD Register P 0 1023 DDDD Note Address format description D decimal O octonary H hexadecimal NB series Programmable Terminals Host Connection Manual V108 7 Connecting to LG PLCs 7 5 Cable Fabrication When Using LS Master K Cnet LS Maste
9. 1 Link Module 4 eros nd The products in are also needed payer FXCPU FX1S RS422 on the CPU unit Mitsubishi FX1S 2 FX2NC 485 ADP FX1N CNV BD Mitsubishi FX1S 2 FXON 485 ADP FX1N CNV BD Mitsubishi FX 485ADP 485BD 232BD FX1N LIDILI BD Multi station 1 FXON RS422 on the CPU unit Mitsubishi FXON 1N 2N 3G 2 FX2NC 485 ADP FX1N CNV BD Mitsubishi FXON 1N 2N 3G 2 FXON 485 ADP FX1N CNV BD Mitsubishi FX 485ADP 485BD 232BD Multi station 1 FX1N RS422 on the CPU unit Mitsubishi FXON 1N 2N 3G 2 FX2NC 485 ADP FX1N CNV BD Mitsubishi FXON 1N 2N 3G 2 FXON 485 ADP FX1N CNV BD Mitsubishi FX 485ADP 485BD 232BD FX1N LIDILI BD Multi station 1 FX2N RS422 on the CPU unit Mitsubishi FXON 1N 2N 3G 2 FX2NC 485 ADP FX1N CNV BD Mitsubishi FX1S 2 FXON 485 ADP FX1N CNV BD Mitsubishi FX 485ADP 485BD 232BD FX2N O000 BD Multi station 1 FX1NC RS422 on the CPU unit Mitsubishi FXON 1N 2N 3G 2 FX2NC 485 ADP FX1N CNV BD Mitsubishi FXON 1N 2N 3G 2 FXON 485 ADP FX1N CNV BD Mitsubishi FX 485ADP 485BD 232BD Multi station FX2NC RS422 on the CPU unit Mitsubishi FXON 1N 2N 3G 2 FX2NC 485 ADP FX1N CNV BD Mitsubishi FXON 1N 2N 3G 2 FXON 485 ADP FX1N CNV BD Mitsubishi FX 485ADP 485BD 232BD Multi station FX2N 10GM RS422 on the CPU unit Mitsubishi FX2N 10GM 20GM FX2N 20GM FX3UFX3UC RS422 on the CPU unit Mitsubishi FX3U 2 FX3U LILILI BD Mitsubishi FX3U 2 FX3U 485 ADP FX3U CNV_BD Mitsubishi FX 485ADP 485BD 232BD Multi stati
10. 85232 PLC Communication Time Out 1 Baud Rate 19200 Protocol Time Out 1 ms 0 Data Bit 8 E Protocol Time Qut 2 ms 3 Parity Check m Max interval of word block pack 16 Stop Bit 2 interval of bit block pack 32 r Max word block package size 32 bit block package size Me Use Default Setting NB series Programmable Terminals Host Connection Manual V108 2 5 2 Connecting to SIEMENS PLCs 2 6 Note 1 The PLC Station No is not needed if the PC adapter is used which realize one for one communication 2 The PLC baud rate and HMI baud rate are set to 187 5Kbps and 19200bps respectively when 6ES7972 OCA1LI 0XAO0 adapter is used to perform communications 3 DB blocks should be established in PLC program configuration otherwise the relevant registers DB DBX DB DBW DB DBD can not be written The even parity should be used on the initial addresses of DBm DBW and DBm DBD PLC Settings 1 The PLC baud rate at MPI port is set to 187 5Kbps when 6ES7972 0CA1L1 0XAO0 adapter HMI Adapter is used to perform communications Properties EPI General Network Settings Highest MPI address Transmission rate 2 The address must be 2 Properties interface CPU 315 2 DP R0 S2 General Parameters Address IE If a subnet is selected the next available address is Mighest address 31 Transmission rate 187 5 Kbps Subnet not networked
11. DDDDD Nodes System Internal External Input 1X1 65535 DDDDD Nodes Analog Input Data Nodes 3X bit DDDDD DD 1 00 65535 15 Data Nodes 4X bit wee DDDDD DD 1 00 65535 15 Analog Input Data Registers 3X1 65535 DDDDD Data Registers 4X1 65535 DDDDD Data Registers 4X DINV 1 65535 DDDDD Data Registers DDDDD Note Address format description D decimal O octonary H hexadecimal NB series Programmable Terminals Host Connection Manual V108 3X DINV 1 65535 5 Modbus Connection 5 5 Cable Fabrication e RS232 Communication Cable HMI COM1 COM2 2 Communication expansion board HMI or special communication adaptor RS 422 connector uoneonqeJ 4 2 6 6 e RS485 Communication Cable HMI COM2 PLC 9Pin SDB RDB RS 485 Female nn SDA RDA connector 56 9 Ethernet Communication Cable Connect with twisted pair cable Please refer to A 1 8 Communication Specifications in the NB series Setup Manual for specifications NB series Programmable Terminals Host Connection Manual V108 5 9 5 Modbus Connection 5 6 Modbus Protocol 5 6 1 Introduction to Modbus Protocol Modbus is a kind of request response protocol providing the service specified by the function codes Modbus protocol including ASCII RTU and TCP modes etc does not specify the physical layer but defines
12. NB series Programmable Terminals Host Connection Manual V108 2 Connecting to SIEMENS PLCs 3 Download the set parameters to PLC after the setting is completed Then open SIMATIC Manager menu Option PG PC Interface Setting select PC Adapter MPI and modify the transmission rate of MPI port to be 187 5K as shown below Set PG PC Interface Access Path Access Point of the Application Standard for STEP T uoneorunululo2 elas 2 Interface Parameter Assignment Pc Adapter MPI Properties 150 Ind Ethernet gt Realtek Adapter Auto jurc Adapter or BE Adapter PROFIBUS Delete lt gt Parameter assignment of your PC adapter for an MPI network Interfaces Add Remove Properties PC Adapter Local Connection Station Parameters PG PC is the only master on the bus Address 109030444 joeurq 1e1depy Od 007 006 5 SNaWals Buisn ueuM 2 6 2 Timeout Network Parameters Transmission Rate 187 5 Kbps Highest Station Address TT iis NB series Programmable Terminals Host Connection Manual V108 2 7 2 Connecting to SIEMENS PLCs 2 4 Supported Registers 2 4 1 SIEMENS 57 200 Device Bit Address Word Address Format Notes SCR Nodes S B 0 0 31 7 DD
13. 3 11 3 3 5 When Using Mitsubishi series CPU Port Communication 3 11 3 3 6 When Using Mitsubishi QO6H Communication 3 12 3 3 7 When Using Mitsubishi Q_QnA Link Port Communication Protocol 3 13 3 4 Supported Registers cea sara 3 18 3 5 Cable Fabrications Lent 3 21 NB series Programmable Terminals Host Connection Manual V108 7 4 4 1 4 2 4 3 4 4 4 5 5 5 1 5 2 5 3 5 4 5 5 5 6 5 7 6 6 2 6 3 6 4 6 5 7 7 2 7 3 7 4 7 5 8 8 1 8 2 8 3 8 4 8 5 Connecting to Schneider PLCS 4 1 Serial Port uada ans amas ARR 4424 4 2 Communication Parameters and Cable 4 2 2 4 3 Communication Parameter Setting nnn annn ernaar sanne nennen 4 4 Supported Registers cheney Ie 4 13 Cable Fabrica tion eee eii ME E 4 14 Modbus Connection icti denen 5 1 Serial Port and Network Interface Communication 02 4 5 2 Communication Parameters and Ca
14. 2 4 NB series Programmable Terminals Host Connection Manual V108 2 Connecting to SIEMENS PLCs l PLC Settings System Block Communication Ports Communication Port settings allow you to adjust the communication parameters that STEP 7 Micro WIN will use to communicate to a given PLC Communication Ports elas 2 Communication Ports 22 Retentive Ranges Password Output Tables Input Filters Pulse Catch Bits 22 Background Time PLC Address i range 1 126 EM Configurations Configure LED Highest Address range 1 128 GG Increase Memory Baud Rate Retry Count Gap Update Factor Configuration parameters must be downloaded before they take effect Click for Help and Support Cancel Default AU 2 3 2 When Using SIEMENS S7 300 400 PC Adapter Direct Communication Protocol Settings HMI default communication parameters 19200bps Baud Rate 8 Data Bit 2 Stop Bit odd Parity Check and 2 PLC Station No Multiple Station No is not supported RS232 Communication 109030444 joeurq 1e1depy Od 007 006 5 SN3Wals Buisn ueuM 2 6 2 HNI Attribute Security Levels Setting User Permissions Setting Task Bar HMI Extended Attributes HMI System Information Text Mistorical Events Storage Print Setting 1 Setting 2 Setting
15. KWAY Drivers management XWAY Manager UNITELWAY Drive Ded Name JUNITELWAY Driver instance MIRROR 3 octets Remote address 0 2540 imeout ms 3000 Local address 0 254 111 5 Open PL7 Software gt New gt Click Hardware Configuration in STATION gt Double click comm in popup window Application Browser Hui Configuration 4 8 NB series Programmable Terminals Host Connection Manual V108 4 Connecting to Schneider PLCs The settings are as shown below if Schneider Modicon Uni TelWay Protocol is used TSK 3705 POSITION 00 01 transmission speed 3600 bitsis Wait time Valueinms E30 Default Value ins Bunnies p C Even Odd None The settings are shown as below if Modbus RTU Protocol is used me ISX 3705 POSITION 00 0 ibit RTU 8bits C 2 bits Parity Even C Odd None 6 Download the project to PLC after the settings are completed NB series Programmable Terminals Host Connection Manual V108 4 9 4 Connecting to Schneider PLCs Settings When Using Schneider Twido Modbus Protocol HMI default communication parameters 19200bps Baud Rate 8 Data Bit none Parity Check 1 Stop Bit and 1 PLC Station No RS485 Communication HEI Attribute Security Levels Setting User Permissions Setting Task Bar Exte
16. DDD Timer Value T 000 255 DDD Counter Value C 000 199 DDD Data Register D 0000 7999 DDDD Special Data Register SD 8000 8255 DDDD Counter Value dword 200 255 DDD 32 bit device 3 18 NB series Programmable Terminals Host Connection Manual V108 FX2N 10GM 20GM 3 Connecting to Mitsubishi PLCs Device Bit Address Word Address Format Notes Input Relay X 00 67 OO 1 Output Relay 00 667 OO 1 Internal Relay 000 511 DDD 1 Special Internal Relay SM9000 9175 DDDD 1 Data Register D 000 3999 DDDD 2 Special Data Register SD 9000 9599 DDDD 2 Special Data Register FD 4000 6999 DDDD 2 1 does not support batch transmission while 2 supports batch transmission FX3UC Device Bit Address Word Address Format Notes Input Relay X000 377 OOO Output Relay Y000 377 OOO Timer Contact T_bit 000 511 DDD Counter Contact C bit 000 199 DDD Data Contact D bit0 0 7999 F DDDD H State 0000 4095 000 Internal Relay M0000 7679 DDDD Special Internal Relay SM8000 8511 DDDD Timer Value 1 000 511 DDD Counter Value 000 199 DDD Data Register 00000 7999 Extension Register 0000 32767 00000 Special Data Register SD80
17. NB series NB3Q TWOOB NB5Q TWOOB NB7W TWOOB NB10W TW01B Programmable Terminals HOST CONNECTION MANUAL OMRON 2012 All rights reserved No part of this publication may be reproduced stored in a retrieval system or transmitted in any form or by any means mechanical electronic photocopying recording or otherwise without the prior written permission of OMRON No patent liability is assumed with respect to the use of the information contained herein Moreover because OMRON is con stantly striving to improve its high quality products the information contained in this manual is subject to change without notice Every precaution has been taken in the preparation of this manual Nevertheless OMRON assumes no responsibility for errors or omissions Neither is any liability assumed for damages resulting from the use of the information contained in this publication NB series 5 NB7W TWLILIB NB10W TWOIB Programmable Terminals Host Connection Manual Hevised August 2012 Introduction Thank you for purchasing an NB series Programmable Terminal NB Series Programmable Terminals PTs are designed to handle information generated in FA production sites Be sure to understand the functions and performances etc thoroughly before using PT correctly Intended Audience This manual is intended for the following personnel who must also have knowledge of e
18. SD TXD RD RXD gt e O RDA 8 Eee SG 9 5 9 Connector NB5Q TWOOB COM2 female 1 6 A O o O o O Q gt L 5 9 Use Modbus TCP protocol to perform the communication HMI serving as the slave 5 14 NB series Programmable Terminals Host Connection Manual V108 Use Modbus TCP protocol to perform the comm PLC Setting 5 Modbus Connection unication HMI serving as the slave Make the settings for Schneider PLC which supports Modbus TCP protocol as follows 3 218 DAE project SoMachine amp Home Properties Configuration See File Edit View Project Build Online Debug Watch Tools Window Help A EA VAN ENEN Devices SC 4 Task Confi ig write Ethernet RA MAST MZIBDAE fg MyController TM218LDAE40DRPHN Ethernet Configuration status Information PLC Logic Configured Parameters o Application GVL Interface Name ether 0 Library Manager write PRG Task Configuration mast Build in Function 4 IO IO i PLC Setting Network Config Network Name my Device IP Address by DHCP C IP Address by BOOTP fixed IP Address HSC HSC IP Address ey m SUMA Subnet Mask eri E SoMachine Network Manager SoMachine Network Manager Gateway Address c9 Serial 2 fj Modbus Manager Modbus Manager Transfer Rate E Ethernet Ethernet Protocol For the
19. Section 1 Introduction Contents This section provides an outline of the NB series PTs including their functions features connection types and communication methods Section 2 Installation and Startup of NB Designer Section 3 Functions of NB Designer This section describes how to install and start the NB Designer This section describes the functions of NB Designer Section 4 Functions of NBManager Section 5 Maintenance and Abnormality Handling This section describes the functions of NBManager This section describes the maintenance and check to prevent the abnormality occurrence and the handling of the abnormalities occurred in NB Unit Section 6 Descriptions of New Functions Added into NBLILI TWO1B This section describes the new functions added into NBLILI TWO1B the system attributes and the component attributes Appendices The appendices provide lists of the NB Units the Communication Units the applicable PLCs and the list of NB Designer functions NB series Programmable Terminals Host Connection Manual V108 Programmable Terminals Setup Manual Cat No V107 Section Contents Section 1 Part Names and Functions This section describes the names and functions of the various parts of an NB Unit This section describes the methods used to install the NB Unit and connect peripheral devices Section 2 Installing the NB Unit and Connecting Peripheral Devices Section
20. Tool port on the Control unit RS232C 5 AFP3462 2 AFP3463 RS422 5 Tool port on the Control unit RS232C 8 AFPE224300 RS232C AFPE214325 AFPE224305 AFPE224302 RS485 AFPE214322 FP10SH Tool port on the Control unit RS232C FP10S RS232C port on the Control unit AFP3462 FP X RS232C port on the Control unit RS232C Note 1 Only FPO C10CRM C10CRS C14CRM C14CRS C16T C16CP C32CT C32CP has RS232C communi cation port 2 Only FP1 C24 C40 C56 C72 has RS232C communication port 3 Only FP1 C20R C20T C32T has RS232C communication port 4 AFP245is the combination of multi communication of FP2 FP2SH AFP2803 AFP2084 and AFP2085 are the communication modules connecting to AFP2465 NB series Programmable Terminals Host Connection Manual V108 8 3 8 Connecting to Panasonic PLCs 8 3 Communication Parameter Setting Settings HMI default communication parameters 9600bps Baud Rate 8 Data Bit odd Parity Check 1 Stop Bit and 1 PLC Station No RS232 Communication Security Levels Setting Mistorical Events Storage Print Setting Type 85232 Baud Rate Data Bit 8 M Parity Check Stop Bit 1 gt i r RS485 Communication User Permissions Setting Task Bar HMI Extended Attributes HMI System Information Text Setting 2 Setting PLC Communication Time Out 3 Protocol Time Out 1 ms 50 Protocol Time Out 2 ms 0 interval of word b
21. c C n Response Timeout Unit Number Delay b EY 100 ms default NT PC Link Max PC Link Unit No P e b b CP1E N30 Offline NB series Programmable Terminals Host Connection Manual V108 5 Modbus Connection NB Unit Setting We take NB7W TWOOB and NB5Q TWOOB respectively as example with the system configuration as shown below onam ee se ejduiexa NB7W TWOOB communication settings 9600 Baud Rate 8 Data Bit 1 Stop Bit Even Parity Check and 1 Slave No as shown below NB5Q TWOOB communication settings 9600 Baud Rate 8 Data Bit 1 Stop Bit Even Parity Check and 2 Slave No HMI Attribute HMI System Information Text Security Levels Setting User Permissions Setting HMI Task Bar Extended Attributes Historical Events Storage Print Setting 1 Setting COM Setting PLC Communication Time Out Protocol Time Out 1 ms Protocol Time Out 2 ms Max interval of word block pack Max interval of bit block pack Max word block package size Max bit block package size Use Default Setting ene s 1e1se A 10901044 421 sidope gN ueuM 2 9 9 NB series Programmable Terminals Host Connection Manual V108 5 13 5 Modbus Connection Cable Fabrication NB7W TWOOB OMRON PLC side CP1W CIF11 COM2 female 1 RDA e
22. s is the pixel number and p is the bit number If the address in PLC is OO 0 0 11 then the address in HMI should be set to OO 0 11 and if the address in PLC is OO 0 1 8 then the address in HMI should be set to OO 1 8 When AB with the different CPU types uses the I O modules the addresses of point and point in HMI are arranged consecutively Take Micrologix1400 with output module 1762 OW16 as example the address corresponding to OO 1 0 3 in HMI is OO 6 3 AB Compactlogix Series Device Bit Address Word Address Format 3 Integer data file bit level BOOLO000000 00 254254 15 FFFDDD DD Pi Bit data file B_BOOL000000 254991 FFFDDD E Floating point data file REAL000000 254254 FFFDDD Integer datafile INTO00000 254254 FFFDDD d Note 1 FFF refers to the File Number and DDD refers to the Variable No Address Take BOOL 112087 12 as example the first three number 112 is the File Number and 087 12 is the Variable No Address The blanks before the Variable No Address less than three digits should be filled with O 2 The File Number can be customized by the user 3 000000 254254 indicates that the range of the File Number is 0 to 254 the first 3 digits and the Address Range of the variable is 0 to 254 the last 3 digits If 001255 is input a dialog box over read address will pop up requesting the user to input again NB series Programmable Terminals Hos
23. User Permissions Setting Task Bar WII Extended Attributes HMI System Information Text Historical Events Storage 1 Setting 2 Setting Extended Memory RS422 PLC Communication Time Out 1 Baud Rate 19200 Protocol Time Out 1 ms 1 Data Bit 8 Protocol Time Out 2 ms 0 Party Check odd Max interval of word block pack 2 Stop Bi 1 Max interval of bit block pack 2 r Max word block package size 16 Max bit block package size 16 Use Default Setting Default communication parameters for GE SNP X Protocol 19200 Baud Rate 8 Data Bit odd Parity 1 Stop Bit 1 Station No 10 4 NB series Programmable Terminals Host Connection Manual V108 10 Connecting to PLC of GE Fanuc Automation Inc RS232 Communication HNI Attribute Security Levels Setting User Permissions Setting HMI Task Bar HMI Extended Attributes HMI System Information Text Historical Events Storage COMI Setting 1 Setting Extended Memory Type 95232 PLC Communication Time Out 3 Baud Rate 19200 Protocol Time Out 1 ms 1000 Data Bit 8 Protocol Time Out 2 ms Parity Check T Max interval of word block pack 2 Stop Bi 1 Max interval of bit block pack 2 Max word block package size 16 Max bit block package size 8 RS422 Communication Security Levels Setting User Permissions Setting Task Bar Extended Attributes HMI System Information Text Historical Events
24. do not reset or turn OFF the power supply until writing is finished Failure to save the password may cause the screen to fail to function When using an equipment monitor confirm the safety of the system before carrying out the following operations Changing monitor data Changing operation mode Forced setup reset Changing the current value or the set value Do not connect a USB connector to any device that is not applicable When connecting the equipment with the USB HOST connector make sure the supply equipment s current capacity is below 150mA before using it The DC 5V voltage output of the NB Unit is 5V 5 and the maximum current is 150mA Before connecting a USB connector to a device make sure that the device is free of damage Commercially available and the recommended USB HUBs are different from the general specifications of the NB Unit The unit may not function well in an environment subject to noise static electricity Therefore when using a USB HUB employ sufficient noise and static electricity insulation measures or install it at a site free of noise or static electricity While uploading or downloading screen data or system programs do not perform the following operations that may corrupt the screen data or the system program Turning OFF the power supply of the NB Unit Pressing the PT s reset switch Dispose of the Units and batteries according to local ordinances as they apply ri T
25. one register the date area needs to specify which register the data is read from and how much data to be read The imbedded address and the data type vary with the slave contents Error checking code Modbus protocol specifies that the data needs to be checked besides the parity check for serial protocol ASCII mode adopts LRC check and RTU mode adopts 16 bit CRC check while TCP mode has no requirements for extra check 10201044 9 6 5 6 2 When adopts Modbus TCP protocol Master Slave mode When the PLC and the HMI are connected via the Modbus protocol 2 situations exist depending on the master and slave statuses of the devices Method Mater Slave Protocol used Descriptions 1 HMI as the master Modbus TCP The HMI accesses the OX 1X 3X and 4X registers mapped out by the PLC PLC as the slave Modbus TCP Slave 2 HMI as the slave Modbus TCP Slave The HMI local address LW is mapped as the 4X register and the LB as the OX register PLC as the master Modbus TCP As the master the PLC can initiate communications 1 HMI as the master and PLC as the slave HMI adopts Modbus TCP protocol The PLC and the HMI communicate via the standard Modbus TCP protocol with the HMI as the master control terminal and the PLC as the slave terminal The PLC should support the Modus TCP Slave protocol and also map out the OX 1X 3X and 4X registers hereof the OX and 1X are bit registers while 3X and 4X are word
26. the same File Number cannot be mapped to the different Names 2 The File Number supported by the protocol ranges from 0 to 254 The mapping of the above mentioned items with NB Designer addresses is shown as the follow ing table Name Data Type Support Range File Number NB Designer Address a INT 255 0 254 INT 000000 000254 REAL 255 0 254 REAL 001000 001254 b BOOL 1024 0 999 254 B BOOL 254000 254999 NB series Programmable Terminals Host Connection Manual V108 9 Connecting to Allen Bradley Rockwell PLC 9 4 Supported Registers AB MicroLogix Series Device Bit Address Word Address Format Internal Auxiliary Nodes B10 0 0 255 15 Internal Auxiliary Nodes 0 0 255 15 DDD DD External Output Nodes O0 0 0 255 15 DD DD External Input Nodes 11 0 0 255 15 DD DD Data Registers sf N15 0 255 DDD Data Registers J w N14 0 255 DDD Data Registers N11 0 255 DDD Data Registers 7 7 0 255 DDD Floating point Data Registers F8 0 255 DDD Actual Value Registers for Counter C5PV 0 255 DDD Setting Value Register for Counter C5SV 0 255 DDD Actual Value Registers for Timer TAPV 0 255 DDD Setting Value Registers for Timer T4SV 0 255 DDD Note The format of I O address for bit register is I O e s b where e is the slot number
27. 3 System Setting Mode This section describes the System Setting Mode Section 4 Calibrate Mode Appendices This section describes the Calibrate Mode The appendices provide information on specifications dimensions wirings and lists of the NB Units the applicable PLCs and options Programmable Terminals Startup Guide Manual Cat No V109 Section Contents Section 1 NB Overview This section provide specifications of the NB Unit describes its names and functions of the various parts This section describes the manual structure takes NB7W as an example to introduce the operation procedures of the NB system Section 2 System Design Section 3 Installation and Wiring This section describes how to install and wire the NB Unit This section describes how to create a demonstration project through NB Designer Section 4 Screen Creation Section 5 Run This section describes how to start running at the Host side and prepare to send screen data to NB7W This section describes the maintenance and inspection methods for preventing errors occurring and troubleshooting measures when errors occur Section 6 Maintenance and Troubleshooting Failure to read and understand the information provided in this manual may result in personal injury or death damage to the product or product failure Please read each section in its entirety and be sure you understand the information provided in the section an
28. Automation Inc 10 4 Supported Registers Note Address format description D decimal O octonary H hexadecimal NB series Programmable Terminals Host Connection Manual V108 Ail Device Bit Address Word Address Format Notes System SC 01 32 DD System SB01 32 1 DD System 01 32 DD System 01 32 DD Temporary T001 256 DDD Internal 0001 4096 DDDD Genius Global 0001 1280 DDDD Output Q 0001 2048 DDDD Input 1001 256 DDD Analog Output AQ 001 512 DDD Analog Input Al 0001 2048 DDDD Register R 0001 9999 DDDD 10 7 5 1 5 pemoddns 01 10 Connecting to PLC of Fanuc Automation Inc 10 5 Cable Fabrication e RS232 Communication for GE Fanuc Series SNP Communicating with HMI by directly using the communication cable provided by GE e RS232 Communication for VersaMax Series HMI COM1 COM2 VersaMax series PLC zm opin 2 RD in Female Female 6 Rx termina HMI COM1 COM2 SD 9Pin Female 10 8 NB series Programmable Terminals Host Connection Manual V108 10 Connecting to PLC of GE Fanuc Automation Inc e RS422 Communication Cable for Communication Module CMM31 1 CMM311 port2 terminal HMI COM2 sub RDB 6 ES 9 SDA 0 5 25Pin Female RDA s
29. Link Register SW000 7FF HHH Data Register D00000 12287 DDDDD Special Data Register SD0000 2047 DDDD Note Address format description D decimal O octonary H hexadecimal 3 20 NB series Programmable Terminals Host Connection Manual V108 3 Connecting to Mitsubishi PLCs 3 5 Cable Fabrication i FX Series RS232 Communication Cable e FXLILI 232 BD Communication Cable Communication expansion board HMI COM1 COM2 or special communication adaptor Ex Female 89 Female FX Series RS485 422 Communication Cable 14 9 5 8 Communication Cable for CPU PortFXOO 422 BD Communication Cable Built in standard port or communication expansion board 5 a RX n E co 7 5 2 gt Communication expansion board or special communication adaptor D Sub 9Pin Female 10201024 uoneoiunudul02 NB series Programmable Terminals Host Connection Manual V108 3 21 3 Connecting to Mitsubishi PLCs Series RS232 Communication Cable Communication Cable for CPU Port HMI COM1 COM2 6Pin Mini DIN Female C24 serial communication module Pin No Q Series RS485 422 Communication Cable e RS422 Communication Cable for C24 Communication Module HMI COM2 C24 serial communication module D Sub 9Pin Female 3 22 NB series Programmable Terminals Host C
30. Memory D 0 output Scope Rules of register setting 1 The file number should be unique This number is set when the register is created and after the creation the file number will be fixed and therefore cannot be modified 2 The register address opening range of the PLC should be greater than the range set in the HMI configuration 3 The PLC has a limited memory capacity During downloading if a message Program has errors cannot download pops up it indicates the occurrence of an over range caused by too much address opening 4 Neither C nor T register supports batch transmission NB series Programmable Terminals Host Connection Manual V108 9 5 9 Connecting to Allen Bradley Rockwell PLC i When Using AB CompactLogix ControlLogix Series Protocol HMI Settings CompactLogix ControlLogix default communication parameters 19200 Baud Rate 8 Data Bit none Parity 1 Stop Bit and 0 Station No Security Levels Setting User Permissions Setting Task Bar Extended Attributes HMI System Information Text Historical Events Storage COMI Setting Setting Extended Memory Type Rs232 PLC Communication Time Out Baud Rate 19200 Protocol Time Out 1 ms 100 Data Bit 8 Protocol Time Out 2 ms 3 Parity Check interval of word block pack 16 1 Stop Bit 1 Max interval of bit block pack 28 r Max word block package size 64 Broadcast
31. O Special Memory Bit SM B0 0 549 7 Counter Bit Cnt0 255 DDD O Counter Bit Tim 0 255 7 DDD O Variable Memory Nodes 0 0 10238 7 DDDDD O Internal Memory Bit 0 0 31 7 DD O Discrete Output and Map Register Nodes 0 0 15 7 DD O Discrete Input and Map Register Nodes 0 0 157 Jj DD O Analog Output ween AQW 0 62 DD Analog Input AIW 0 62 DD SCR 32 bit 1 SD 0 28 DD SCR pm n e SW 0 30 DD Special Memory Registers 32 bit SMD 0 546 DDD Special Memory Registers SMW 0 548 DDD Internal Memory Bit 82 bit MD 0 28 DD Internal Memory ween MW 0 30 DD Discrete Output and Map Registers 32 bit QD 0 12 DD Discrete Output and Map Registers QW 0 14 DD Discrete Input Map Registers 32 bit ID 0 12 DD Discrete Input and Map Registers IW 0 14 DD Counter PV ween Cnt 0 255 DDD TimerPV nee Tim 0 255 DDD Variable Memory 32 bit VD 0 10236 DDDDD Variable Memory wenn VW 0 10238 DDDDD Note The initial addresses of VW and VD must be even Address format description D decimal O octonary H hexadecimal 2 8 NB series Programmable Terminals Host Connection Manual V108 2 Connecting to SIEMENS PLCs 2 4 2 SIEMENS S7 300 400 PC Adapter Direct N Device Bit Address Word Address Format Note
32. Operation Manual W450 SYSMAC CP Series CP1E CPU Unit Hardware USER S W479 Manual SYSMAC CP Series CP1E CPU Unit Software USER S W480 Manual SYSMAC C200HX HG HE E ZE Installation Guide W302 SYSMAC C200HX HG HE Operation Manual W303 SYSMAC C200HX HG HE ZE Operation Manual W322 SYSMAC CPM1A Operation Manual W317 SYSMAC CPM2A Operation Manual W352 SYSMAC CPM1 CPM1A CPM2A CPM2C SRM1 V2 W353 Programming Manual SYSMAC CPM2C Operation Manual W356 SYSMAC CS1 Series CS1G H Operation Manual W339 SYSMAC CS CJ Series Serial Communications Boards and W336 Serial Communications Units Operation Manual SYSMAC CJ Series CJ1G H H CJ1M CJ1G Operation W393 Manual SYSMAC CS CJ Series Programming Manual W394 SYSMAC CS CJ Series INSTRUCTIONS Reference Manual W340 SYSMAC CS CJ Series Programming Consoles Operation W341 Manual SYSMAC CS CJ Series Communications Commands W342 Reference Manual SYSMAC CJ Series CJ2 CPU Unit Hardware USER S Manual W472 SYSMAC CJ Series CJ2 CPU Unit Software USER S Manual W473 SYSMAC CS CJ Series CS1W CJ1W ETN21 100Base TX W420 Ethernet Units Operation Manual Construction of Networks SYSMAC CS CJ Series CS1W CJ1W ETN21 100Base TX W421 Ethernet Units Operation Manual Construction of Applications SYSMAC CS CJ Series CS1W CJ1W EIP21 100Base TX W465 EtherNet IP Units Operation Manual SYSMAC CP Series CP1L EL EM CPU Unit Operation Manual W516 External Tool CX Programmer Ver 9 L Operation Manual W446 20 NB s
33. Port Communication Link Module Driver MicroLogix MicroLogix 1500 Channel 1 AB DF1 1764 LRP MicroLogix 1000 Channel 0 MicroLogix 1200 AIC Advanced Interface MicroLogix 1500 Converter1761 NET AIC 1764 LSP 1764 LRP MicroLogix 1400 Channel 0 1766 L32BWAA Channel 2 SLC500 SLC 5 03 Channel 0 SLO 3 04 1770 KF3 SLC 5 05 2760 RB 1775 KA 5130 RM 1771 KGM PLC 5 PLC 5 11 Channel 0 PLC 5 20 PLC 5 30 PLC 5 40 PLC 5 40L PLC 5 60 PLC 5 60L CompactLogix 1769 L20 Channel 0 AB CompactLogix ControlLogix 1769 L30 Channel 1 1769 L31 1769 L32bE 1769 L35E ControlLogix 1756 L61 CPU Direct 1756 L63 9 2 NB series Programmable Terminals Host Connection Manual V108 9 Connecting to Allen Bradley Rockwell PLC 9 2 Serial Port Communication Parameters and Cable Fabrication Series CPU Link Module COMM Type Parameter Cable MicroLogix MicroLogix 1500 Channel 1 RS232C Refer to Section 9 3 Self made cable 1764 LRP required MicroLogix 1000 Channel 0 MicroLogix 1200 AIC Advanced MicroLogix 1500 Interface Converter 1761 NET AIC MicroLogix 1400 Channel 0 Channel 2 SLC500 SLC 5 03 Channel 0 RS232C SLC 5 04 1770 KF3 SLC 5 05 2760 RB 1775 KA o 5130 RM E 1771 KGM 8 5 5 5 11 Channel 0 RS232C PLC 5 20 PLC 5 30 zi PLC 5 40 g PLC 5 40L 5 60 PLC 5 60L 4 CompactLogix 1769 L20
34. at hand for reference during installation and operation NB series Manuals NB series manuals are organized in the sections listed in the following tables Refer to the appropriate section in the manuals as required Programmable Terminals Host Connection Manual Cat No V108 This Manual Section Section 1 List for PLCs Supported by NB series Contents This section lists all PLCs supported by NB Units Section 2 Connecting to SIEMENS PLCs This section describes the connection to SIEMENS PLCs Section 3 Connecting to Mitsubishi PLCs This section describes the connection to Mitsubishi PLCs Section 4 Connecting to Schneider PLCs This section describes the connection to Schneider PLCs Section 5 Modbus Connection This section describes the connection on Modbus protocol Section 6 Connecting to Delta PLCs This section describes the connection to Delta PLCs Section 7 Connecting to LG PLCs This section describes the connection to LG PLCs Section 8 Connecting to Panasonic PLCs This section describes the connection to Panasonic PLCs Section 9 Connecting to Allen Bradley Rockwell PLC This section describes the connection to Allen Bradley PLC Section 10 Connecting to PLC of GE Fanuc Automation Inc This section describes the connection to PLC of GE Fanuc Automation Inc Programmable Terminals NB Designer Operation Manual Cat No V106 Section
35. is used as the broadcast address in order to make all the slave devices identify it e Function code Modbus Function Name Function Corresponding Code Address Type 01 Read coil status Reads the bit data N bits Ox 02 Read input discrete Reads the bit data 1x value 03 Read multiple registers Reads the integer type character type status 4x word floating point data N words 04 Read input registers Reads the integer type status word 3x floating point type data 05 Write single coil Writes the bit data one bit Ox 06 Write single register Writes the integer type character type status 4x word floating point data one word 15 Write multiple coils Writes the bit data N bits Ox 16 Write multiple registers Writes the integer type character type status 4x word floating point data N words NB series Programmable Terminals Host Connection Manual V108 5 Modbus Connection The read write function codes corresponding to each mode are as follows Modbus RTU Modbus RTU Extend Modbus RTU Slave Modbus ASCII esse Read This function code is not supported when the HMI operates as the slave e Data area The data area includes the data needed by the terminals to perform the specific functions or the data sampled during the terminal responding to the query These data may be the number reference addresses or set values For example when the function codes inform the terminal to read
36. menu option L i 88 Standard Settings Cnet x Communication settings Empty slot Speed 03 Empty slot amp 04 Empty slot Data bit 05 Empty slot lt 06 Empty slot Stop 0T Empty slot Y amp 08 Empty slot Parity 6209 Empty slot Boden type amp 10 Empty slot Modem Initialize Station Time settings Time out 0 50 100m Delay time 0 255 10ms Waiting time 0 255 10 Active mode Channel H High 2 IGT server 2 8 Customize F i Shortcut Settings m ptions 2 PLC must operate in OPR mode which can be set on PLC NB series Programmable Terminals Host Connection Manual V108 7 Connecting to LG PLCs 7 4 Supported Registers K120S K7M DR10UE Device Bit Address Word Address Format Notes Relay P 0 0 63 f DD H Auxiliary Relay M 0 0 191 f DDD H Link Relay L 0 0 63 f 1 DD H Keep Relay K 002 577 DD H Special Relay F 0 0 31 f DD H Timer T 0 255 DDD Counter C 0 255 DDD Data Register D 0 4999 DDDD Note For bit registers if the address PLC is F01 then the address in HMI should be set to F0 1 and if the address in PLC is F2A then the address in HMI should be set to F2 A and the others can be deduced according to this rule
37. 00 851 1 DDDD Counter Value dword200 255 DDD 32 bit device QOOJCPU Device Bit Address Word Address Format Notes Counter Coil CCO0 1023 DDDD Counter Contact CS0 1023 DDDD Timer Coil 0 2047 DDDD Timer Contact 50 2047 DDDD Special Link Relay SB000 7FF HHH Link Relay BOOOO 1FFF HHHH Step Relay S0000 1FFF HHHH Edge Relay V0000 2047 DDDD Annunciator F0000 2047 DDDD Latch Relay LO000 8191 DDDD Special Internal Relay 0000 2047 DDDD Internal Relay M0000 8191 Output Relay YOOOO 1FFF Input Relay X0000 1FFF HHHH File Register R000 32767 DDDDD Special Link Register SWO 3FF HHH NB series Programmable Terminals Host Connection Manual V108 3 19 sJejsiboH payioddns 8 Jo20104d DO ysiqnsyW Buisn ueuM L E E 3 Connecting to Mitsubishi PLCs Device Bit Address Word Address Format Notes Link Register W000 7FF HHH Special Data Register 00 2047 DDDD Data Register D0 12287 DDDDD Counter Value CNO 1023 DDDD Retentive Timer Value 5 0 2047 DDDD Timer Values TNO 2047 DDDD QOOCPU Q01CPU Q02HCPU QO6HCPU Q12HCPU Q25HCPU Device Bit Address Word Address Format Notes Spec
38. 028DR1 TSX 37 08 056DR1 TSX 37 10 128DT1 TSX 37 10 128DR1 TSX 37 10 128DTK1 TSX 37 10 164DTK1 TSX 37 10 028AR1 TSX 37 10 028DR1 TSX 37 21 101 TSX 37 22 101 TSX 37 21 001 TSX 37 22 001 Link Mod ule RS485 on the CPU unit Driver Schneider Modicon Uni TelWay COMM Type RS232 RS485 TSX3705001 TSX3705001 TSX 37 05 028DR1 TSX 37 08 056DR1 TSX 37 10 128DT1 TSX 37 10 128DR1 TSX 37 10 128DTK1 TSX 37 10 164DTK1 TSX 37 10 028AR1 TSX 37 10 028DR1 TSX 37 21 101 TSX 37 22 101 TSX 37 21 001 TSX 37 22 001 RS485 on the CPU unit Modbus RTU RS232 RS485 Twido NB series Programmable Terminals Host Connection Manual V108 TWD LCAA 10DRF TWD LCAA 16DRF TWD LCAA 24DRF TWD LMDA 20DTK TWD LMDA 20DUK TWD LMDA 20DRT TWD LMDA 40DTK TWD LMDA 40DUK RS485 on the CPU unit RS232 RS485 Parameter Refer to Section 4 3 4 Connecting to Schneider PLCs Cable Self made cable required 4 3 ejqe pue uoneorunululo2 Z Y 4 Connecting to Schneider PLCs 4 3 Communication Parameter Setting Settings When Using Schneider Modicon Uni TelWay Protocol HMI default communication parameters 9600bps Baud Rate 8 Data Bit odd Parity Check 1 Stop Bit and 4 PLC Station No RS232 Communication HNI Attribute Security Levels Setting User Permissions Setting HMI Task Bar H
39. 1 Stop Bit even Parity Check and 2 PLC Station No Note The maximum communication baud rate is 187 5K that is not supported by the direct online The PLC No should match with the PLC No in HMI Because the PLC address of S7 200 ranges from 1 to 126 so the PLC No in HMI should also range from 1 to 126 RS485 Communication HEI Attribute Security Levels Setting User Permissions Setting Task Bar HMI Extended Attributes HMI System Information Text Historical Events Storage Print Setting 1 Setting 2 Setting RS485 PLC Communication Time Out 3 Baud Rate 9600 Protocol Time Out 1 ms 50 Data Bit 8 Protocol Time Out 2 ms Parity Check even c Max interval of word block pack 4 Max interval of bit block pack 8 Stop Bit 1 r Max word block package size 16 Max bit block package size 64 C Use Deiat Seting RS232 Communication HEI Attribute Security Levels Setting User Permissions Setting Task Bar Extended Attributes HMI System Information Text Historical Events Storage Print Setting 1 Setting COM2 Setting Type PLC Communication Time Out 3 Baud Rate 9600 Protocol Time Qut 1 ms 50 Data Bit 8 Protocol Time Out 2 ms 0 Parity Check even Max interval of word block pack 4 4 interval of bit block pack 8 Stop Bit 1 7 r Max word block package size 15 Max bit block package size B4 Use Default Setting
40. 13 CPUS13C CPU314 CPUS14IFM CPU315 CPU315 2 DP CPU316 CPU316 2 DP CPU318 2 CPU412 1 MPI port on the CPU unit CPU412 2 DP CPU413 1 CPU413 2 DP CPU414 1 57 400 CPU414 2 DP CPU414 3 DP CPU416 1 CPU416 2 DP CPU416 3 DP CPU417 4 57 300 2 2 NB series Programmable Terminals Host Connection Manual V108 2 Connecting to SIEMENS PLCs 2 2 Serial Port Communication Parameters and Cable Fabrication Series CPU Link Module COMM Type Parameter Cable 57 200 CPU222 CPU224 CPU226 CPU224 XP CN CPU226 XP CN RS485 on the CPU unit RS232 RS485 57 300 CPU312IFM CPU313 CPU313C CPU314 CPU314IFM CPU315 CPU315 2 DP CPU316 CPU316 2 DP CPU318 2 MPI port on the CPU unit RS232 7 300 400 PC Adapter Direct protocol 57 400 CPU412 1 CPU412 2 DP CPU412 3H CPU413 1 CPU413 2 DP CPU414 1 CPU414 2 DP CPU414 3 DP CPU416 1 CPU416 2 DP CPU416 3 DP CPU417 4 MPI port on the CPU unit NB series Programmable Terminals Host Connection Manual V108 RS232 7 300 400 PC Adapter Direct protocol Refer to Section 2 3 Self made cable required SJojoweled uoneorunululo elas Z Z ejqe pue 2 Connecting to SIEMENS PLCs 2 3 Serial Port Communication Parameter Setting 2 3 1 When Using SIEMENS 57 200 Communication Protocol i HMI Settings HMI default communication parameters 9600bps Baud Rate 8 Data Bit
41. 1571 1 1 1 List for All PLCs Supported by NB Series NamesDisplayedin NB Designer PLC Models PLC Manufacturers Omron CJ CS Series Ethernet UDP CS1W ETN21 EIP21 Omron Slave CJ1W ETN21 EIP21 2 00 CJ2M CPUSLI Omron CP Series Ethernet UDP Slave CP1L EM CP1L EL CP1W CIF41 CP1H CP1L Panasonic FP FPO FP1 FP2 FP3 Panasonic FP2SH FP10SH FP10S FP M FP e FP X Schneider Modicon Uni TelWay Micro Series Schneider Premium Series Nano Series Schneider Twido Modbus RTU TWD LCAA 10DRF TWD LCAA 16DRF TWD LCAA 24DRF TWD LMDA 20DTK TWD LMDA 20DUK TWD LMDA 20DRT TWD LMDA 40DTK TWD LMDA 40DUK Siemens S7 200 CPU212 214 215 216 Siemens CPU221 222 224 226 CPU224 XP CN CPU226 XP CN SIEMENS 7 300 400 CPU312IFM CPU313 CPU313C PC Adapter Direct CPU314IFM CPU314 CPU315 CPU315 2 DP CPU316 CPU316 2 DP CPU318 2 CPU412 1 CPU412 2 DP CPU413 1 CPU413 2 DP CPU414 1 CPU414 2 DP CPU414 3 DP CPU416 1 CPU416 2 DP CPU416 3 DP CPU417 4 1 4 NB series Programmable Terminals Host Connection Manual V108 1 List for All PLCs Supported by NB Series 1 2 Definition and Description of Serial Port COM OD Mod 1 jo pue z L NB5Q NB7W NB10W TWLILIB Serial port COM1 of NB5Q NB7W NB10W TWLILIB is a 9 pin D type socket port This port supports RS 232C communication function mak
42. 2 Stop B 1 Max interval of bit block pack 2 Max word block package size 16 Max bit block package size Use Default Setting When Using LS Master K CPU Direct Protocol HMI default communication parameters 38400bps Baud Rate 8 Data Bit none Parity Check 1 Stop Bit and 1 PLC Station No 7 4 NB series Programmable Terminals Host Connection Manual V108 7 Connecting to LG PLCs RS232 Communication Security Levels Setting User Permissions Setting Task Bar HMI Extended Attributes HMI System Information Text Mistorical Events Storage Print Setting COM1 Setting 2 Setting Type 95232 PLC Communication Time Out Baud Rate 38400 Protocol Time Out 1 ms Data Bit 8 Protocol Time Out 2 ms Max interval of word block pack Max interval of bit block pack Max word block package size Max bit block package size Use Default Setting Parity Check Stop Bit 1 Note LS Master K CPU Direct protocol only supports communication speed of 38400bps When Using LS Master K Modbus RTU Protocol HMI default communication parameters 38400bps Baud Rate 8 Data Bit none Parity Check 1 Stop Bit and 1 PLC Station No RS232 Communication Security Levels Setting User Permissions Setting Task Bar HMI Extended Attributes System Information Text Historical Events Storage Print Setting COM1 Setting 2 Setting
43. 32 Communication Cable Tool port HMI 1 2 SHE Din CPU port HMI COM1 COM2 PLC FPO CPU mem C e 32 Roe 3 se 8 COM port HMI COM1 COM2 PLC Signal Pin No Pin No Signal D Sub 9Pin Female e RS485 Communication Cable HMI COM2 PLC D Sub RS 485 opin RbB 6 SDBWRDB amp 85 485 Female RD 8 SDA RDA 8 6 NB series Programmable Terminals Host Connection Manual V108 8 Connecting to Panasonic PLCs e RS422 Communication Cable FP3 RS422 programming port HMI COM2 PLC Pm No Signal 6 D Sub SDB 1 L3 D Sub 9Pin 9Pin Female Female uoneo2nqeJ 14 9 6 8 NB series Programmable Terminals Host Connection Manual V108 8 7 8 Connecting to Panasonic PLCs NB series Programmable Terminals Host Connection Manual V108 Connecting to Allen Bradley Rockwell PLC This section describes the connection to Allen Bradley PLC 9 1 Serial Port Communication 9 2 9 2 Serial Port Communication Parameters and Cable Fabrication 9 3 9 3 Serial Port Communication Parameter Setting 9 4 9 4 Supported Registers 9 9 9 5 Cable Fabrication 9 10 NB series Programmable Terminals Host Connection Manual V108 9 1 9 Connecting to Allen Bradley Rockwell PLC 9 1 Serial
44. 64H RS232 on the CPU unit RS232 XBC DR32H Built in RS 232C RS232 Built in RS 485 RS485 1 pue uomneorunululo2 Z Z NB series Programmable Terminals Host Connection Manual V108 7 3 7 Connecting to LG PLCs 7 3 Communication Parameter Setting Settings When Using LS Master K Cnet Protocol HMI default communication parameters 38400bps Baud Rate 8 Data Bit none Parity Check 1 Stop Bit and 1 PLC Station No RS232 Communication Security Levels Setting User Permissions Setting Task Bar HMI Extended Attributes HMI System Information Text Historical Events Storage Print Setting COMI Setting 2 Setting Type 5232 PLC Communication Time Out 1 Baud Rate 38400 hd Protocol Time Out 1 ms 30 Data Bit 8 Protocol Time Out 2 ms 3 Party Check Max interval of word block pack 2 Stop Bit 1 Max interval of bit block pack 2 r Max word block package size 16 Max bit block package size Use Default Setting RS485 Communication Security Levels Setting User Permissions Setting Task Bar Extended Attributes HMI System Information Text Historical Events Storage Print Setting COM1 Setting 2 Setting Type RS485 PLC Communication Time Out 1 Baud Rate 38400 Protocol Time Out 1 ms 30 Data Bit 8 Protocol Time Out 217 3 Party Check Max interval of word block pack
45. 65535 Max bit block package size 256 e Detault Setting PLC Settings RSLogix5000 Software Settings Note DF1 Point to Point is selected as Protocol CRC is selected as Error Detection and Enable Duplicate Detection is not checked 1 Set communication parameters Controller Properties B Controller aa Controller Tags Contreller Fault Mandler CHI Serial Port CHI System Protocol CHI User Protocol Major Faults Power Vp Handler Minor Faults Date Time Advanced SFC Execution File Wenvolatile Menery Memory Tasks General Serial Port CHD System Protocol CHO User Protocol hinTask 4 C3 Unscheduled Programs Phases Og Motion Groups Baud Fate Ungrouped Axes 3 Add On Instructions Dus Types Party Cih User Defined a Strings Bts Add OnrDefined Gi Predefined Cogoi Une Gh Module Defined Trends 1 0 Configuration BTS Send Delay plane CospactLogix System 99 1769 131 RTS OF Delay 0 CompactBus Local DCD Wet Delay P amp 1 sec Controller A Controller Tags C3 Controller Fault Handler CHI Serial Port CHI System Protocol CHI User Protocol Major Faults Minor Faults Date Time Advanced SFC Execution File Nonvolatile Menory Memory General CHD Serial Port System Protocols User Protocol MainProgren DF Portto Port
46. 9 Unscheduled Prograns Phases OFI Peitto Port S CRC 6 Motion Groups Statgn Address 0 Weregel las Enable Duplicate Detection 33 Add On Instructions NAK Receive 3 Date Types Tranemit Lime User Defined ma B GR Strings ACK Timeout so 1x20 mma Ad On Defined Embedded Responses autodetect E Predefined Module Defined Trends 1 0 Configuration B Backplane ConpactLogiz Systen 1769 131 aa GD CompactBus Local 9 6 NB series Programmable Terminals Host Connection Manual V108 9 Connecting to Allen Bradley Rockwell PLC 2 Define the tag and set the data types then select Controller Tags and right click the New Tag option in the dropdown list to create a new tag Note 1 The internal registers of the controller to be accessed by the HMI needs to be pre defined in the RSLogix5000 software 2 Controller Tags apply to all the routines in the controller For the control these tags are global so they need to be created in Controller Tags Controller Controller Tags C3 Cont A Tag CA Powe 3 Tasks Monitor Tags 68 main Edit Tags Unse Verify C3 Motion Export Tags CA Add On Print gt 3 Make the Name correspond to the File Number and then select Map PLC SLC Messages in the dropdown list after Logic being selected Note The software must be changed to Offli
47. Channel 0 RS232C 1769 L30 Channel 1 5 1769 1 31 o 1769 L32E 5 1769 L35E 5 ControlLogix 1756 1 61 CPU Direct RS232C 3 NB series Programmable Terminals Host Connection Manual V108 9 3 9 Connecting to Allen Bradley Rockwell PLC 9 3 Serial Port Communication Parameter Setting When Using SLC500 PLC5 MicroLogix Series Protocol HMI Settings MicroLogix PLC 5 default communication parameters 19200 Baud Rate 8 Data Bit none Parity 1 Stop Bit and 0 Station No HNI Attribute Security Levels Setting User Permissions Setting Task Bar Extended Attributes System Information Text Mistorical Events Storage CONT Setting COM2 Setting Extended Memory Type 95232 PLC Communication Time Out 3 Baud Rate 19200 M Protocol Time Out 1 ms 3 Data Bit 8 Protocol Time Out 2 ms 3 Check none Max interval of word block pack 16 Max interval of bit block 32 StopBR 1 E ge r Max word block package size 64 Max bit block package size 64 SLC500 default communication parameters 9600 Baud Rate 8 Data Bit none Parity 1 Stop Bit and 0 Station No Attribute x Security Levels Setting User Permissions Setting Task Bar Extended Attributes WII System Information Text Historical Events Storage Colli Setting 2 Setting Extended Memory Type RS232 PLC Communication Time Out 3 Baud Rate 9600 P
48. DDDD Mapping to Nodes Ox 1 9999 Data Registers LW 0 65535 DDDDD Mapping to 4x 1 9999 Modbus ASCII Device Bit Address Word Address Format Notes System Internal External Output 1 65535 DDDDD Nodes System Internal External Input 1 1 65535 DDDDD Nodes Analog Input Data Registers 3X 1 65535 DDDDD Data Registers J 3X 1 65535 DDDDD NB series Programmable Terminals Host Connection Manual V108 5 7 PLE Modbus RTU Device Bit Address Word Address Format Notes System Internal External Output 1 655355 DDDDD Nodes System Internal External Input 1X1 65535 DDDDD Nodes Analog Input Data Registers 3X 1 65535 DDDDD Data Registers J 4X 1 65535 DDDDD Modbus RTU Extend Device Bit Address Word Address Format Notes 5 System Internal External Output 1 65535 DDDDD S Nodes amp System Internal External Input 1X1 65535 DDDDD 8 Nodes 4 Analog Input Data Nodes 3X bit DDDDD DD 1 00 65535 15 Data Nodes 4X bit 1 DDDDD DD 1 00 65535 15 4X Single Write Data Nodes 6X bit DDDDD DD 1 00 65535 15 Analog Input Data Registers 3X 1 65535 DDDDD Data Registers J 4X 1 65535 DDDDD Data Registers 5X 1 65535 DDDDD 4X Single Write 1 6X 1 65535 DDDDD 5 Modbus Connection 5 8 Modbus TCP Slave Device Bit Address Word Address Format Notes System Internal External Output 1 65535
49. E BER ERE When exporting products with lithium primary batteries containing perchlorate at 6ppb or above to or delivering them through California USA the following precautionary measures have to be publicized Perchlorate material applicable through special processing Refer to http www dtsc ca gov hazardouswaste perchlorate NB Series products contain lithium primary batteries When exporting products containing this kind of batteries to or delivering them through California USA label all the product packages as well as the appropriate delivery packages Do not use benzene paint thinner or other volatile solvents and do not use chemically treated cloths Do not dispose the Units together with general waste at waste yards When disposing them follow the related local ordinances or rules Customers may not replace the backlight lamp inside the NB Unit Please contact OMRON s customer service center Deterioration over time can cause the touch points to move Calibrate the touch panel periodically Water and oil resistance will be lost if the front sheet is torn or is peeling off Do not use the Unit if the front sheet is torn or is peeling off The rubber packing will deteriorate shrink or harden depending on the operating environment Inspect and replace the rubber packing periodically The communication cables of the COM1 and COM connectors are not interchangeable Confirm the pins of the ports before carry
50. FX Parameter dialog box 1 FX1S FX1N FX2N 3G Series PLC FX parameter Memory capacity PLC name 1 0 assignment PLC system 1 PLC system 2 perate If the box is not checked the parameters will be cleared communication When GX Developer transfer the program to the communication board setting parameters and D8120 values in the PLC must be cleard upon program transfer Protocol Dedicated protocol Data length Time out judge time f 10 1 255 Check the Operate communication setting option Note 1 FXON Series PLCs do not support the FX Parameter operation but the communication parameters can be set through writing values to the special data registers D8120 D8121and D8129 2 The Dedicated Protocol must be selected and the Sum Check must be checked with Form4 selected for the Transmission Control Sequence 3 The H W is Regular RS 232C and RS 485 when FXLILI 232 BD and FXLILI 485 BD FXLILI 485 ADP communication are used respectively 3 8 NB series Programmable Terminals Host Connection Manual V108 3 Connecting to Mitsubishi PLCs 2 FXSU 3UC Series PLC FX parameter If the box is not checked the parameters will be cleared When GX Developer transfer the program to the communication board Dedicated protocol Data length type i Regular RS 232C Control mode Invalid Dunes 1ojeureJed eas 5 5 Sum check Tran
51. HAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE OMRON DISCLAIMS ALL OTHER WARRANTIES EXPRESS OR IMPLIED LIMITATIONS OF LIABILITY OMRON SHALL NOT BE RESPONSIBLE FOR SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES LOSS OF PROFITS OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS WHETHER SUCH CLAIM IS BASED ON CONTRACT WARRANTY NEGLIGENCE OR STRICT LIABILITY In no event shall the responsibility of OMRON for any act exceed the individual price of the product on which liability is asserted IN NO EVENT SHALL OMRON BE RESPONSIBLE FOR WARRANTY REPAIR OR OTHER CLAIMS REGARDING THE PRODUCTS UNLESS OMRON S ANALYSIS CONFIRMS THAT THE PRODUCTS WERE PROPERLY HANDLED STORED INSTALLED AND MAINTAINED AND NOT SUBJECT TO CONTAMINATION ABUSE MISUSE OR INAPPROPRIATE MODIFICATION OR REPAIR NB series Programmable Terminals Host Connection Manual V108 11 Application Considerations SUITABILITY FOR USE OMRON shall not be responsible for conformity with any standards codes or regulations that apply to the combination of products in the customer s application or use of the products At the customer s request OMRON will provide applicable third party certification documents identifying ratings and limitations of use that apply to the products This information by itself is not sufficient for a complete determination of the suitability of the products in combination with the end product machi
52. MI Extended Attributes HMI System Information Text Historical Events Storage COM1 Setting COM2 Setting Type RS232 PLC Communication Time Out 3 Baud Rate 9600 Protocol Time Out 1 ms 50 Data Bit 8 Protocol Time Qut 2 ms 300 Parity Check T Max interval of word block pack 8 Max interval of bit block pack 8 Stop Bit 1 word block package size 32 i bit block package size Use Default Setting RS485 Communication HEI Attribute Security Levels Setting User Permissions Setting HMI Task Bar HMI Extended Attributes HMI System Information Text Historical Events Storage 1 Setting 2 Setting 5485 PLC Communication Time Out 3 Baud Rate 9600 Protocol Time Out 1 ms 50 Data Bit 8 E Protocol Time Qut 2 ms 300 Parity Check T Max interval of word block pack 8 5 Max interval of bit block pack 8 Stop Bit 1 M r Max word block package size 32 Max bit block package size Use Default Setting 4 4 NB series Programmable Terminals Host Connection Manual V108 4 Connecting to Schneider PLCs When Using Modbus RTU Protocol HMI default communication parameters 9600bps Baud Rate 8 Data Bit even Parity Check 1 Stop Bit and 1 PLC Station No RS232 Communication HEI Attribute T e Security Levels Setting User Permissions Setting 3 Task Bar HMI Extended Attributes HMI System Informa
53. PLCs 3 3 3 When Using FX2N 10GM 20GM Communication Protocol HMI Settings default communication parameters 9600bps Baud Rate 8 Data Bit even Parity Check 1 Stop Bit and PLC Station No RS232 Communication HEI Attribute Security Levels Setting User Permissions Setting Task Bar HMI Extended Attributes HMI System Information Text Historical Events Storage Type Baud Rate Data Bit Parity Check Stop Bit RS422 Communication HEI Attribute Print Setting Setting com2 Setting PLC Communication Time Out 1 Protocol Time Out 1 ms 30 Protocol Time Out 2 ms 0 Max interval of word block pack 16 Max interval of bit block pack 1 Max word block package size 32 Max bit block package size 1 E x Use Default Selting 1 Security Levels Setting User Permissions Setting HMI Task Bar Extended Attributes HMI System Information Text Historical Events Storage Print Setting 1 Setting COM2 Setting Type 5422 PLC Communication Time Out 1 Baud Rate 9600 Protocol Time Out 1 ms 30 Data Bit 8 Protocol Time Out ms 0 Parity Check _ even Max interval of word block pack 16 interval of bit block pack 1 Stop Bit 1 r Max word block package size 32 Max bit block package size Use Default Setting 3 10 NB series Programmable Terminals Host Connection Manual V108 3 Conn
54. PLCs RS232 Communication HNI Attribute Security Levels Setting User Permissions Setting Task Bar HMI Extended Attributes System Information Text Historical Events Storage COMI Setting CON2 Setting Type 5232 PLC Communication Time Out 3 Baud Rate 115200 Protocol Time Out 1 ms 1 Data Bit 8 E Protocol Time Qut 2 ms 30 Parity Check ar Max interval of word block pack 8 Stop Bit 1 interval of bit block pack 16 Max word block package size 32 Broadcas Max bit block package size E Use Default Setting Note There is no need to set PLC baud rate that will automatically vary with the baud rate set by HMI 3 3 6 When Using Mitsubishi Q06H Communication Protocol HMI Settings default communication parameters 115200bps Baud Rate 8 Data Bit odd Check 1 Stop Bit and PLC Station No Multiple Station No is not supported RS232 Communication HEI Attribute Security Levels Setting User Permissions Setting HMI Task Bar HMI Extended Attributes HMI System Information Text Mistorical Events Storage 1 Setting 2 Setting Type 5232 PLC Communication Time Out 3 Baud Rate 115200 Protocol Time Out 1 ms 1 Data Bit 8 Protocol Time Qut 2 ms 50 Parity Check m interval of word block pack 8 interval of bit block pack 16 Stop Bit 1 Y r Max word block package size 32 Broadcast f M
55. PU unit Section 6 3 cable required DVP XXEH EHZ SV Rs485 on RS485 ejqe pue uomneorunululo2 2 9 NB series Programmable Terminals Host Connection Manual V108 6 3 6 Connecting to Delta PLCs 6 3 Communication Parameter Setting Settings HMI default communication parameters 9600bps Baud Rate 7 Data Bit even Parity Check 1 Stop Bit and 1 PLC Station No RS232 Communication HNI Attribute Security Levels Setting User Permissions Setting HMI Task Bar HMI Extended Attributes HMI System Information Text Mistorical Events Storage COM1 Setting Setting Rs232 PLC Communication Time Out 3 Baud Rate 9600 Protocol Time Out 1 ms 30 Data Bit 7 Protocol Time Out 2 ms Parity Check 5 Max interval of word block pack 5 interval of bit block 16 Stop Bit 1 x erval of bit block pack r Max word block package size 16 Max bit block package size 64 j Use Default Setting RS485 Communication HEI Attribute Security Levels Setting User Permissions Setting Task Bar HMI Extended Attributes HMI System Information Text Historical Events Storage Setting Setting Type 85485 PLC Communication Time Out 3 Baud Rate 9600 Protocol Time Out 1 ms 30 Data Bit 7 Protocol Time Out 2 ms EDEN odd Max interval of word block pack Max interval of bit blo
56. Sequence Control S0 9999 DDDD Nodes Timer Nodes 9999 DDDD Counter Nodes C0 9999 DDDD Timer Buffers 0 9999 DDDD Counter Buffers 0 127 DDD Counter Buffers CV2 232 255 DDD double word 32 bit Data Registers 00 9999 DDDD Note Address format description D decimal O octonary H hexadecimal NB series Programmable Terminals Host Connection Manual V108 6 Connecting to Delta PLCs 6 5 Cable Fabrication e RS232 Communication Cable HMI COM1 COM2 PLC 8Pin Mini 2 1 s Rb 3 n Leno M9 e RS485 Communication Cable HMI 2 PLC RDB SDB RDB RS 485 se 9 14 9 6 9 NB series Programmable Terminals Host Connection Manual V108 6 7 6 Connecting to Delta PLCs NB series Programmable Terminals Host Connection Manual V108 Connecting to LG PLCs This section describes the connection to LG PLCs 7 1 Serial Port Communication 7 2 7 2 Communication Parameters and Cable Fabrication 7 8 7 3 Communication Parameter Setting 7 4 7 4 Supported Registers 7 9 7 5 Cable Fabrication 7 11 NB series Programmable Terminals Host Connection Manual V108 7 1 7 Connecting to LG PLCs 7 1 Serial Port Communi
57. Storage 1 Setting 2 Setting Extended Memory Type RS422 PLC Communication Time Out 3 Baud Rate 19200 Protocol Time Out 1 ms 1000 Data Bit 8 Protocol Time Out 2 ms 3 Party Check odd interval of word block pack 2 Stop Bit 1 Max interval of bit block pack 2 Max word block package size 16 Max bit block package size 8 Use Default Setting Note The maximum baud rate for the communication with serial port of GE Host is 19200 bps i PLC Settings Take the settings of IC693CPU331 and IC693CMMS1 1 as example Select the PLC and devices with the correct models in the Proficy Machine Edition window and you can see the default settings here There is no need to change the settings unless for some special condi tions But please note the SNP settings And it only needs to set the related parameters in the HMI to be the same as that herein NB series Programmable Terminals Host Connection Manual V108 10 5 Bumes HOd EMS 01 10 Connecting to PLC of Fanuc Automation Inc fB Main Rack 1C693CHS397 Sa PWR IC693PWR32 Slot 1 ac693CPU331 ot 2 1 693 311 p Slot 30 0 Slot40 LJ Slot 5 0 DMM perl 1 1050206200 2 0 Main Rack 0 693 5397 M PWR 1C693PWR321 Slot 1 1C693CPU33 J Slot 30 0 Slot 40 10 6 NB series Programmable Terminals Host Connection Manual V108 10 Connecting to PLC of GE
58. a o When Using Modicon modbus Protocol e RS232 Communication Cable Use serial port programming cable manufactured by Schneider directly to communicate with HMI Note Direct the middle cable knob to position 3 e RS485 Communication Cable HMI COM2 PLC 8Pin Mini DIN Female When Using Schneider Twido Modbus RTU Protocol e RS232 Communication Cable Use serial port communication cable manufactured by Schneider directly to communicate with HMI e RS485 Communication Cable HMI PLC D Sub 9Pin 8Pin Mini Female 4 14 NB series Programmable Terminals Host Connection Manual V108 Modbus Connection EXIRET This section describes the connection on Modbus protocol 5 1 Serial Port and Network Interface Communication 5 2 Communication Parameters and Cable Fabrication 5 3 Communication Parameter Setting 5 4 Supported Registers 5 5 Cable Fabrication 5 6 Modbus Protocol Py x 5 6 1 Introduction to Modbus Protocol 5 6 2 When NB adopts Modbus TCP protocol Master Slave mode 5 7 Example of NB as Modbus Slave NB series Programmable Terminals Host Connection Manual V108 5 Modbus Connection 5 1 Serial Port and Network Interface Communication Series CPU Link Module SIO Type Driver Modbus RTU Modbus Compatible RS232 on the CPU unit Modbus RTU E
59. arameters will be cleared communication When GX Developer transfer the program to the communication board setting parameters and D8120 values in the PLC must be cleard upon program transfer r Note 1 The communication protocols such as Mitsubishi FX1S Mitsubishi FXON 1N 2N 3G and Mitsubishi FX3U etc can be selected according to PLC model if the Station No is not used when the communication is realized through the communication function expansion board 2 Make sure the value of communication format D8120 is 0 when the communication is realized through the communication function expansion board 3 6 NB series Programmable Terminals Host Connection Manual V108 3 Connecting to Mitsubishi PLCs 3 3 2 When Using Mitsubishi FX 485ADP 485BD 232BD Multi station Communication Protocols HMI Settings HMI default communication parameters 19200bps Baud Rate 7 Data Bit even Parity Check 2 Stop Bit and 0 PLC Station No Note The protocols are only applicable to PLCs communicating through communication function expansion board and support Multiple Station No and Baud Rate settings RS422 Communication Dunes elas HNI Attribute Security Levels Setting User Permissions Setting HMI Task Bar HMI Extended Attributes HMI System Information Text Mistorical Events Storage Print Setting 1 Setting COM2 Setting Type 9542 PLC Communic
60. ased on improvements and other reasons It is our practice to change model numbers when published ratings or features are changed or when significant construction changes are made However some specifications of the products may be changed without any notice When in doubt special model numbers may be assigned to fix or establish key specifications for your application on your request Please consult with your OMRON representative at any time to confirm actual specifications of purchased products DIMENSIONS AND WEIGHTS Dimensions and weights are nominal and are not to be used for manufacturing purposes even when tolerances are shown PERFORMANCE DATA Performance data given in this manual is provided as a guide for the user in determining suitability and does not constitute a warranty It may represent the result of OMRON s test conditions and the users must correlate it to actual application requirements Actual performance is subject to the OMRON Warranty and Limitations of Liability ERRORS AND OMISSIONS The information in this manual has been carefully checked and is believed to be accurate however no responsibility is assumed for clerical typographical or proofreading errors or omissions NB series Programmable Terminals Host Connection Manual V108 13 Safety Precautions Notation Used for Safety Information The following notation is used in this manual to provide precaution
61. at the customer s overall machine and device conform to EC Directives 1 The PT must be installed in a control panel 2 You must use reinforced insulation or double insulation for the DC power supply and the DC power supply must have minimal voltage fluctuations and provide a stable output even if the power supply input is interrupted for 10 ms 3 The PTs conform to the standard EN 61131 2 but radiated emission characteristics 10m regulations may vary depending on the configuration of the control panel used other devices connected to the control panel wiring and other conditions You must therefore confirm that the overall machine or equipment complies with EC Directives 4 This is a Class A product Product for industry purpose It may cause radio interference in residential areas in which case the user may be required to take adequate measures to reduce interference NB series Programmable Terminals Host Connection Manual V108 19 Related Manuals The related manuals are as follows Devices and Software Manual Name Manual No NB series NB Series NB Designer Operation Manual V106 NB Series Setup Manual V107 NB Series Host Connection Manual This manual V108 NB Series Startup Guide V109 PLC SYSMAC CP Series CP1L CPU Unit Operation Manual W462 SYSMAC CP Series CP1H L CPU Unit Programming Manual W451 SYSMAC CP Series CP1H CPU Unit
62. ation Time Out 1 Baud Rate 19200 Protocol Time Out 1 ms 1 Data Bit 7 Protocol Time Out 2 ms 0 Party Check even interval of word block pack 4 interval of bit block pack 4 Stop Bit 2 Max word block package size 10 Max bit block package size 8 Use Default Setting RS232 Communication HEI Attribute Security Levels Setting User Permissions Setting HMI Task Bar HMI Extended Attributes HMI System Information Text Historical Events Storage Print Setting 1 Setting 2 Setting 510003014 UOHEdIUNWUWOD uoneis hiniN aaeez aasgv davsgr x4 IusiqnsyN Huisy ueuM Type 95232 PLC Communication Time Qut 1 Baud Rate 19200 Protocol Time Out 1 ms 1 Data Bit 7 Protocol Time Out 2 ms 0 Parity Check even Max interval of word block pack 4 4 Max interval of bit block pack 4 Stop Bit 2 M Max word block package size 10 Max bit block package size 8 Use Default Setting NB series Programmable Terminals Host Connection Manual V108 3 7 3 Connecting to Mitsubishi PLCs i PLC Settings The PLC setting is as shown below when FX 485ADP 485BD 232BD Multi station communication protocols are used 1 Double click the PLC Parameter under Project Data List in GX Developer software e Unset project Program Ez MAIN Device comment COMMENT a Parameter 1196 parameter EN Device memory 2 Open the
63. ax bit block package size Use Default Setting Note There is no need to set PLC baud rate that will automatically vary with the baud rate set by HMI 3 12 NB series Programmable Terminals Host Connection Manual V108 3 Connecting to Mitsubishi PLCs 3 3 7 When Using Mitsubishi QnA Link Port Communication Protocol i HMI Settings HMI default communication parameters 9600bps Baud Rate 8 Data Bit odd Parity Check 1 Stop Bit and 0 PLC Station No RS232 Communication HEI Attribute Bunnies elas Security Levels Setting User Permissions Setting HMI Task Bar HMI Extended Attributes HMI System Information Text Historical Events Storage COM1 Setting 2 Setting Type RS232 PLC Communication Time Out 3 Baud Rate 9600 Protocol Time Out 1 ms Data Bit 8 Protocol Time Qut 2 ms 30 Parity Check E Max interval of word block pack 8 Max interval of bit block pack 16 Stop Bit 1 M Max word block package size 32 Broadcast Max bit block package size Use Default Setting RS422 Communication HEI Attribute Jooojo1d WUD o ueuM Security Levels Setting User Permissions Setting HMI Task Bar HMI Extended Attributes HMI System Information Text Mistorical Events Storage 1 Setting 2 Setting Rs422 PLC Co
64. ble 222 2 5 3 Communication Parameter Setting ans ansn anssen sanne erneer 5 4 Supported Registers 5 7 Gable FabrlGatlOM a tesi ridi pco Ben c QU nanne 5 9 Modbus Protocol 5 10 5 6 1 Introduction to Modbus Protocol naer eener sennennnneesensnerseessensnnnserenensneer vennen 5 10 5 6 2 When adopts Modbus TCP protocol Master Slave mode 5 11 Example of NB as Modbus Slave nnn unnsn sanne ersnnansnnnnenennanenannenennnnsnnnnenennnennnnerensnneennnn 5 12 Connecting to Delta 5 6 1 Serial Port Communication aaan nanunnnnsnnnnnsnnsnnannanrsnsensnnsnunsennsnnsssnsnnnnnnuvsnsannsunssnsonn 6 2 Communication Parameters and Cable 222244 6 3 Communication Parameter Setting nnn annnansnnan sanne nenanansenanenennsnenannenennnennsnaerennnnensnen 6 4 ede 6 6 Cable aaa aa aTa aaae maaana 6 7 Connecting 7 1 Serial Port 7 2 Communication Parameters an
65. brication Link Module COMM Type Parameter Cable GE Fanuc IC693CPU374 RS422 on the RS232 Refer to Section 10 3 Self made cable Series 90 30 CPU unit RS422 required IC693CMM311 RS232 RS422 VersaMax CPU001 002 005 RS232 on port RS232 Series RS422 on port2 RS422 VersaMax IC200UAL004 005 006 RS232 port RS232 Micro amp IC200UDD110 120 212 5422 port2 RS422 Nano Series IC200UDR005 006 010 IC200UAA007 IC200UARO28 NB series Programmable Terminals Host Connection Manual V108 10 3 uoneouged eige pue 2 01 10 Connecting to PLC of Fanuc Automation Inc 10 3 Serial Port Communication Parameter Setting Settings Default communication parameters for GE Fanuc Series SNP Protocol 19200 Baud Rate 8 Data Bit odd Parity 1 Stop Bit 1 Station No RS232 Communication HNI Attribute Security Levels Setting Vser Permissions Setting Task Bar Extended Attributes HMI System Information Text Historical Events Storage CONT Setting 1 COM2 Setting Extended Memory Type 95232 PLC Communication Time Out 19200 Protocol Time Out 1 ms 8 Protocol Time Out 2 ms cdd Max interval of word block pack Max interval of bit block pack Max word block package size Max bit block package size 1 RS422 Communication Security Levels Setting
66. cation e Series Type CPU Link Module Driver Master K K120S K7M DR10UE Port1 on CPU unit LS Master K CPU Direct K7M DR20U Port2 on CPU unit LS Master K Cnet K7M DT30U LS Master K Modbus RTU K7M DT40U K7M DT60U K200S K3P 07AS RS232 on the CPU unit XGT XGB XBC DN64H RS232 on the CPU unit LS XGT CPU Direct XBC DR32H Built in RS 232C RS 485 LS XGT Cnet The differences between LS Master K CPU Direct LS Master K Cnet and LS Master K Modbus RTU protocols are as shown below PS Supported Com communication PLC Settings munication Meth Multiple Station No SupportegiBaud Protocol E Rate bps LS Master K Cnet Tweak the pin 2 up RS 232 RS 485 Supported 9600 19200 38400 of DIP switch to ON and pin 1 low of DIP switch to OFF LS Master K Tweak the pin 2 up RS 232 RS 485 Supported 9600 19200 38400 MODBUS RTU of DIP switch to ON and pin 1 low of DIP switch to OFF LS Master K CPU Pin 1 and 2 RS 232 Not supported 38400 Direct remain OFF NB series Programmable Terminals Host Connection Manual V108 7 Connecting to LG PLCs 7 2 Communication Parameters and Cable Fabrication 9 Series CPU Link Module ES sx Parameter Cable K120S K7M DR10UE Port1 on CPU unit RS232 Referto Section Self made cable Port2 on CPU unit RS485 79 required K7M DR20U Port1 on CPU unit RS232 Port2 on CPU unit RS485 K200S K3P 07AS RS232 on the CPU unit RS232 XGB XBC DN
67. ce Bit Address Word Address Format Notes System Internal Nodes S00000 32767 DDDDD Internal Auxiliary Nodes M00000 32767 Data Register Bit Nodes MW B0000 9999 F DDDD H Data Registers MW0000 7999 DDDD Data Registers 32 bit MD0000 7999 DDDD Twido Device Bit Address Word Address Format Notes Internal Auxiliary Nodes 0X1 9999 DDDD 1X1 9999 1 DDDD 3X 1 9999 DDDD Data Registers 4X 1 9999 DDDD Note The registers M and MW in TWIDO software correspond to OX and 4X of HMI respectively The address offset of HMI and PLC is 1 Do not use 1X and 3X of HMI for there are no registers in TWIDO software corresponding to them The HMI address must be PLC address 1 For example The in PLC corresponds to 0 1 of HMI Address format description D decimal O octonary H hexadecimal NB series Programmable Terminals Host Connection Manual V108 4 13 51 peuoddns 4 Connecting to Schneider PLCs 4 5 Cable Fabrication i When Using Schneider Modicon Uni TelWay Protocol e RS232 Communication Cable Use serial port programming cable manufactured by Schneider directly to communicate with HMI Note Direct the middle cable knob to position 2 and add a RS232 cable directly between the HMI and programming cable e RS485 Communication Cable HMI COM2 PLC 8Pin Mini D Sub eb Pader on CPA e a tree s
68. ck 16 Stop Bit 1 5 ema Max word block package size 16 Max bit block package size 64 j Use Default Setting Note The communication parameters should be set through modification of D1120 value when RS485 communi cation is used 6 4 NB series Programmable Terminals Host Connection Manual V108 6 Connecting to Delta PLCs i PLC Settings 1 You can check the different values of D1120 corresponding to the different baud rates in the RS 485 Protocol Setting D1120 dialog box through selecting the RS 485 Protocol Setting D1120 from the Auxiliary Editing menu in the Help menu in the Wpl207 software 5 485 Protocol Setting Data 7 se Parity None Stop Bits 1 bit Baud Rate 110 bps Protocol Setting D1120 H0010 WPLSoft User Index PLC Copy Wizard 2 Monitor and modify the value of 01120 after PLC is connected to Wpl207 For example If the communication parameters are 110bps Baud Rate 7 Data Length None Parity and 1 bit Stop Bits then D1120 H0010 Protocol Setting 9 NB series Programmable Terminals Host Connection Manual V108 6 5 6 Connecting to Delta PLCs 6 4 Supported Registers 6 6 Device Bit Address Word Address Format Notes External Input Nodes X0 23417 00000 External Output Nodes 0 23417 Internal Auxiliary M0 9999 DDDD Nodes
69. cks are performed by personnel in charge who possess a thorough understanding of the machinery to be installed Do not use the input functions of the touch switch etc of the NB Unit in applications that involve human life in applications that may result in serious injury or for emergency stop switches Do not attempt to disassemble repair or modify the NB Unit Otherwise it may impair the safety functions Never press more than two points on the touch panel of the NB Unit at a time Otherwise it may activate a switch somewhere between the two points OOOP PO NB series Programmable Terminals Host Connection Manual V108 15 Precautions for Safe Use 16 When unpacking the NB Units and the peripheral devices check carefully for any external scratches or other damages Also shake the Units gently and check for any abnormal sound The NB Unit must be installed in a control panel The mounting panel must be between 1 6 and 4 8 mm thick Tighten the Mounting Brackets evenly to a torque of between 0 5 and 0 6 N m to maintain water and dust resistance If the tightening torque exceeds the specified value or the tightening is not even deformation of the front panel may occur What is more make sure the panel is not dirty or warped and that it is strong enough to hold the Units Do not let metal particles enter the Units when preparing the panel Do not connect an AC power supply to the DC power term
70. d Cable 7 3 Communication Parameter Setting sns annn un snnan sanne eesnnansenanenennanenannenennnennanserennnnensnen 7 4 5 Registers 7 9 Cable Fabrication 7 11 Connecting to Panasonic 5 8 1 Serial Port 8 2 Communication Parameters and Cable 8 3 Communication Parameter 8 4 Supported Registers ii MILI lien edi Ei 8 5 5 22258 8 6 NB series Programmable Terminals Host Connection Manual V108 Sec 9 Connecting to Allen Bradley Rockwell PLC 9 1 9 1 Serial Port Communication eee erra correre rk chee exe daos e aea a pone cre che kta Stns 9 2 9 2 Serial Port Communication Parameters and Cable 9 3 9 3 Serial Port Communication Parameter 9 4 9 4 Supported Registers 9 9 9 5 Cable Fabrication i
71. d related sections before attempting any of the procedures or operations given NB series Programmable Terminals Host Connection Manual V108 3 Manual Structure Page Structure and Icons The following page structure and icons are used in this manual 2 Installing the NB Unit and Connecting Peripheral Devices Level 1 heading Level 2 heading Level 3 heading 2 1 2 Installation onto the Operation Panel Level 3 heading Install the NB Unit by embedding it into the operation panel Gives the current headings Use the metal kit and tool a crosshead screwdriver supplied with the Unit for installation Proceed the installation following the procedures below Step In a p roced u re 1 Panel cutout with dimensions is shown below Fit the NB Unit into the panel from the front side HUN L Z Indicates a step in a procedure Page tab Gives the number of the section Opening dimensions Models Opening Dimension mm NB3Q TWOOB TWO1B 119 0 0 5 0 93 0 0 5 0 NB5Q TWOOB TWO1B 172 4 0 5 0 131 0 0 5 0 NB7W TWOOB TWO1B 191 0 0 5 0 137 0 0 5 0 NB10W TWO1B 258 0 0 5 0 200 0 0 5 0 loued vonesedo eu uonerersu 2 1 2 2 As follows insert panel fixators at the locations indicated by red box around the back of the NB Unit Insert the hooks of positioners into the square holes on the Unit to hold the fixators properly and tighten the scr
72. details on network configuration refer to Communication Parameter Setting NB series Programmable Terminals Host Connection Manual V108 IP Addr 192 168 250 1 502 Modbus TCP Slave 5 1 10000 When Using Modbus TCP Protocol in 5 3 5 15 se ejduiexa ene s 1e1se A 10901044 421 sidope gN ueuM 2 9 9 5 Modbus Connection NB series Programmable Terminals Host Connection Manual V108 Connecting to Delta PLCs XT This section describes the connection to Delta PLCs 6 1 Serial Port Communication 6 2 6 2 Communication Parameters and Cable Fabrication 6 3 6 3 Communication Parameter Setting 6 4 6 4 Supported Registers 6 6 6 5 Cable Fabrication 6 7 NB series Programmable Terminals Host Connection Manual V108 6 1 6 Connecting to Delta PLCs 6 1 Serial Port Communication Series Link Module Driver DVP DVP XXES EX SS RS232 on the CPU unit Delta DVP DVP XXSA SX SC DVP XXEH EH2 SV RS485 on port 6 2 NB series Programmable Terminals Host Connection Manual V108 6 Connecting to Delta PLCs 6 2 Communication Parameters and Cable Fabrication Series Link Module COMM Type Cable DVP DVP XXES EX SS RS232 onthe RS232 Refer to Self made DVP XXSA SX SC C
73. ecting to Mitsubishi PLCs 3 3 4 When Using Mitsubishi CPU Port Communication Protocol HMI Settings HMI default communication parameters 115200bps Baud Rate 8 Data Bit odd Parity Check 1 Stop Bit and 0 PLC Station No Multiple Station No is not supported RS232 Communication HEI Attribute Dunes Blas Security Levels Setting User Permissions Setting HMI Task Bar HMI Extended Attributes HMI System Information Text Historical Events Storage Print Setting COM1 Setting COM2 Setting Type 95232 PLC Communication Time Out 5 Baud Rate 115200 Protocol Time Out 1 ms 5 Data Bit 8 Protocol Time Qut 2 ms 3 Check odd Max interval of word block pack 4 Max interval of bit block pack 16 Stop Bit 1 M Max word block package size 32 Max bit block package size Use Default Setting Note There is no need to set PLC baud rate that will automatically vary with the baud rate set by HMI 3 3 5 When Using Mitsubishi Q series CPU Port Communication Protocol Settings default communication parameters 115200bps Baud Rate 8 Data Bit odd Parity Check 1 Stop Bit and 0 PLC Station No Multiple Station No is not supported Jo901014 uoneorunuuo uod ndo HUSIANSHN Buisn ueuM NB series Programmable Terminals Host Connection Manual V108 3 11 3 Connecting to Mitsubishi
74. ere ele ede ecce rea 9 10 Sec 10 Connecting to PLC of GE Fanuc Automation Inc 10 1 10 1 Serial Port 2 22 022400 10 2 10 2 Serial Port Communication Parameters and Cable Fabrication 10 3 10 3 Serial Port Communication Parameter Setting sees 10 4 10 4 Supported Registers Lien Lco tacere erred 10 7 10 5 Cable Fabrication ioi sed reete Un Du Rn 10 8 REVISION 2 mt ccc ann a eia e ea E a E reders 1 NB series Programmable Terminals Host Connection Manual V108 9 10 NB series Programmable Terminals Host Connection Manual V108 Read and Understand this Manual Please read and understand this manual before using the product Please consult your OMRON representative if you have any questions or comments Warranty and Limitations of Liability WARRANTY OMRON s exclusive warranty is that the products are free from defects in materials and workmanship for a period of one year or other period if specified from date of sale by OMRON OMRON MAKES NO WARRANTY OR REPRESENTATION EXPRESS OR IMPLIED REGARDING NON INFRINGEMENT MERCHANTABILITY OR FITNESS FOR PARTICULAR PURPOSE OF THE PRODUCTS ANY BUYER OR USER ACKNOWLEDGES THAT THE BUYER OR USER ALONE HAS DETERMINED T
75. eries Programmable Terminals Host Connection Manual V108 List for All PLCs Supported by NB Series pecus eet This section lists all PLCs supported by NB Units 1 1 Lists for Supported PLC 1 2 1 2 Definition and Description of Serial Port COM 1 5 NB series Programmable Terminals Host Connection Manual V108 1 1 1 List for PLCs Supported by NB Series 1 1 Lists for Supported PLC Names Displayed NB Designer PLCModels PLC Manufacturers AB CompactLogix ControlLogix CompactLogix1769 L20 Series DF1 CompactLogix 1769 L30 CompactLogix 1769 L31 CompactLogix 1769 L32E CompactLogix 1769 L35E ControlLogix 1756 L61 ControlLogix 1756 L63 AB SLC500 PLC5 MicroLogix MicroLogix 1000 1200 1 400 1500 Series DF1 SLC 5 03 SLC 5 04 SLC 5 05 PLC 5 11 PLC 5 20 PLC 5 30 PLC 5 40 40L PLC 5 60 60L Delta DVP DVP xxES EX SS Delta DVP xxSA SX SC DVP xxEH EH2 SV GE Fanuc Series SNP IC693CPUSG1 1 313 GE IC693CPU321 323 IC693CPU331 340 341 IC693CPU350 351 352 IC693CPU360 363 364 374 IC693CSE311 IC693CSE313 IC693CSE323 IC693CSE331 IC693CSE340 GE SNP X IC693CPU31 1 313 321 323 IC693CPU331 340 341 IC693CPU350 351 352 IC693CPU360 363 364 374 CPU001 002 005 CPUE05 IC200UAL004 005 006 IC200UDD1 10 120 212 IC200UDR005 006 010 IC200UAA007 IC200UARO28 IC693CMM311
76. etting Example The Switch3 Switch4 and Switch5 can be set as shown below if the CH2 RS422 communication parameters and Station No are set to 19200 8 Odd 1 and 0 respectively Setting e Setting Switch Setup Description Swths 07E6 a 19200 8 With Odd 1 Switch 4 0005 Mode Form 5 Swicns 0000 Station No 0 Switch setting for 1 0 and intelligent function module NB series Programmable Terminals Host Connection Manual V108 3 Connecting to Mitsubishi PLCs The Switch1 Switch2 and Switch5 can be set as shown below if the CH1 RS232 communication parameters and Station No are set to 19200 8 Odd 1 and 0 respectively Setting 15 Setting Switch Setup Description O7ESY 19200 8 With Odd 1 ITA ES Forms XSwichs 0000 station No 0 The difference between Mitsubishi Q_QnA Link Port protocol and Mitsubishi Melsec protocol Mitsubishi Q_QnA Link Port protocol features fast communication speed while RS232 communica tion of module is not supported Mitsubishi Melsec protocol features support for RS232 and RS485 communications of module while the communication speed is slower Bunnies 129 Jo20j04g UIT WUD Iusiansyw Buis ueuM NB series Programmable Terminals Host Connection Manual V108 3 17 3 Connecting to Mitsubishi PLCs 3 4 Supported Registers
77. ews firmly with the screwdriver NB5Q NB7W TWLILIB Special Information See below Icons are used to indicate precautions and additional information EN Precautions for Safe Use When operating on the operation panel make sure to keep metal particles from entering the Unit The mounting panel must be between 1 6 and 4 8 mm thick The NB Unit must be installed in a control panel For the sake of waterproof and dustproof all the fixators must be evenly tightened to a torque of 0 5 0 6 Nm If the tightening torque exceeds the specified value or the tightening is not even deformation of the front panel may occur Make sure that the operation panel is clean unbent and strong enough for the installation process M anu al name NB series Programmable Terminals Setup Manual V107 This illustration is provided only as a sample and may not literally appear in this manual Special Information Special information in this manual is classified as follows Precautions for Safe Use Precautions on what to do and what not to do to ensure using the product safely Precautions for Correct Use Precautions on what to do and what not to do to ensure proper operation and performance amp Additional Information Additional information to increase understanding or make operation easier 4 NB series Programmable Terminals Host Connection Manual V108 Terminology The following terminology is used in this manual
78. ial Link Relay SB 00000 7FFF HHHH Link Relay B00000 7FFF HHHH Edge relay V 00000 32767 DDDDD Annunciator 00000 32767 DDDDD Latch relay L 00000 32767 DDDDD Special Internal Relay SM 0000 2247 DDDD Internal Relay 00000 32767 DDDDD Output Relay Y 0000 AFFF HHHH Input Relay X0000 1FFF HHHH Link Register W 00000 291F HHHHH Timer Value TN 00000 23087 DDDDD Counter CN 00000 23087 DDDDD File Register R 00000 32767 DDDDD Retentive Timer Value SN 0 23087 DDDDD Special Link Register SW 0000 7FF HHHH File Register ZR 00000 65535 DDDDD Block switching is not necessary Data Register 00000 25983 0000 Special Data Register SD 0000 2047 DDDD 02 Device Bit Address Word Address Format Notes Special Link Relay SB000 7FF HHH Link Relay BOOOO 1FFF Edge Relay V0000 2047 DDDD Annunciator F0000 2047 DDDD Latch Relay LO000 8191 DDDD Special Internal Relay 0000 2047 DDDD Internal Relay M0000 8191 DDDD Output Relay YOOOO 1FFF 1 HHHH Input Relay X0000 4FFF Link Register WO0000 1FFF HHHH Timer Value 1 0000 2047 DDDD Counter Value 0000 1023 DDDD File Register 00000 32767 DDDDD Special
79. ies Programmable Terminals Host Connection Manual V108 NB series Programmable Terminals Host Connection Manual V108 CONTENTS INTFOGUCTION 1 NB series Manuals RR ARR LEMMA 2 Man al Structure 4 Terminology aliduaineeewaneute 5 Safety Precautions ecc cr iita baec 14 Precautions for Safe eren kn 3n 16 Precautions for Correct rire ice x 18 Conformance to EC 4 4 41 1 1111 1 2 711 2 1 4 4414 4 41 0 19 Related ees e 20 1 List for PLCs Supported by NB Series 1 1 1 1 Lists for Supported 1 2 1 2 Definition and Description of Serial Port COM eese nennt 1 5 Sec 2 Connecting to SIEMENS PLCs 2 1 2 1 Serial Port Communication eiiis eei seen nens nantes 2 2 2 2 Serial Port Communicat
80. inals Use a DC power with a slight voltage fluctuation and that will provide a stable output even if the input is momentarily interrupted for 10 ms Rated Power Supply Voltage DC 24 V Allowable range DC 20 4 27 6 V Do not perform a dielectric voltage test Making the connection by using terminal screws crimping on a twisted pair cable with a crimping range of 12 26 AWG and only 6 5 mm of insulation peel of the cable needs to be peeled off Tighten the terminal screws at a torque of between 0 3 and 0 5 Make sure the screws are properly tightened To prevent malfunctions caused by noise ground the Unit correctly Do not touch the packaging part of the circuit board with your bare hands Discharge any static electricity from your body before handling the board When using the No 6 pin of the serial communication port COM1 connector for a voltage of DC 5V make sure the supply equipment s current capacity is below 250mA before using it The DC 5V voltage output of the NB unit is 5V 5 and the maximum current is 250mA The serial communication port COM1 of NB3Q TWOOB and NB3Q TWO01B is unable to output the current Turn OFF the power supply before connecting or disconnecting cables Always keep the connector screws firmly tightened after the communication cable is connected The maximum tensile load for cables is 30 N Do not apply loads greater than this Confirm the safety of the system before turning ON or OFF the power sup
81. ing it connectable to a controller which features RS 232C function and it can also be used for downloading programs or debugging for the product The pins are defined as follows NB5Q NB7W NB10W TWLILIB A Pins Signals COM2 Signals 1 NC SDB 2 SD SD 3 RD RD 4 RS RTS Terminal R1 5 CS CTS Terminal R2 6 DC 5V RDB 7 NC SDA 8 NC RDA 9 SG SG Pin 4 and 5 are not used thus not compliant with RS or CS function NB3Q TWOOB NB3Q TWLILIB has only 1 serial port COM1 and this port supports communication based RS 232C RS 422 and RS 485 of which only 1 connection mode can be applied at one time By means of the RS 232C mode PIN 2 5 it can be connected to a controller based on RS 232C and can also be used for downloading programs as well as debugging for the product connected to a PC While with the RS 422 or the RS 485 mode PIN 1 PIN 6 8 only a PLC can be connected The pins are defined as follows NB3Q TWOOB Pins COM Signals SDB SD RD RS RTS CS CTS RDB SDA RDA SG BR wo mM Pin 4 and 5 are not used thus compliant with RS or CS function Precaution for Cable Fabrication The COM 2 ports included in this manual and marked by cable manufacturers are intended for the HMI of NB5Q NB7W NB10W TWLILIB models therefore when communication connection is carried out with the COM 1
82. ing out communications NBSQ TWOOB and NB3Q TWO1B only have COM Periodically check the installation conditions in applications where the PT is subject to contact with oil or water Do not perform the following operations during the communication of the USB memory Turning off the power supply of the NB Unit Pressing the Reset button on the NB Unit Removing the USB memory Do not use the USB memory in the environment subject to strong vibration NB series Programmable Terminals Host Connection Manual V108 17 Precautions for Correct Use 18 Do not install the unit in any of the following locations Locations subject to severe changes in temperature Locations subject to temperatures or humidity outside the range specified in the specifications Locations subject to condensation as the result of high humidity Locations subject to corrosive or flammable gases Locations subject to strong shock or vibration Locations outdoors subject to direct wind and rain Locations subject to strong ultraviolet light Locations subject to dust Locations subject to direct sunlight Locations subject to splashing oil or chemicals Take appropriate and sufficient countermeasures when installing systems in the following locations Locations subject to static electricity or other forms of noise Locations subject to strong electric field or magnetic field Locations close to power supply lines Locations subject to possible exposure to radi
83. int Setting 1 Setting COM2 Setting Type 5422 PLC Communication Time Out 1 Baud Rate 9600 Protocol Time Out 1 ms 1 Data Bit 7 Protocol Time Out 2 ms 0 PER Check oven 4 Max interval of word block pack 2 interval bit block pack 2 Stop Bit 1 Y Max word block package size 32 Max bit block package size 128 Use Default Setting 51000014 NEX USIANSYN pue DE NE N L NOX usiqnsiw SEX lUSIGNSHIN ueuM L NB series Programmable Terminals Host Connection Manual V108 3 5 3 Connecting to Mitsubishi PLCs RS232 Communication HNI Attribute Security Levels Setting User Permissions Setting Task Bar HMI Extended Attributes System Information Text Historical Events Storage Print Setting COMI Setting COM2 Setting Type Rs232 PLC Communication Time Out 1 Baud Rate 9600 Protocol Time Out 1 ms 1 Data Bit 7 Protocol Time Out 2 ms 0 PadyCheck avon Max interval of word block pack 2 Max interval of bit block pack 2 Stop Bit 1 word block package size 32 ica Max bit block package size 128 Use Default Setting PLC Settings The PLC setting is as shown below when Mitsubishi FX1S Mitsubishi FXON 1N 2N 3G and Mitsubishi FX3U communication protocols are used Click the Default button to make settings without checking the Communication Setting FX parameter Operate If the box is not checked the p
84. ion Enable Protocol and Mode Timeout in Master Mode Communication Method Baud Rate X None hd Dedicated C Masta 4 Slave Station Data Bit 8 Stop Bit 1 Parity Bit Communication Channel Transmission 5485 Wo Protocol When Using LS Master K Modbus RTU Protocol The software settings are as shown below Please pay attention to the settings on the right selection area 44 Parameter Auto Saved Project Basic Interrupt CommChO CommChi PID TUN PID CAL Position Analog tommuni cation Communi cation Method Protocol and Mode Timeout in Master Mode Station 1 Baud Rate X Communication Channel Parity Bit Dedicated C Master C Slave C LG INVERTER Data Bit 8 Stop Bit 1 X Modbus C Master ramission moe User C Master C Slave Wo Protocol lis The Cannot Change PLC Mode will appear when Connect Write Run Monitor Start is clicked then manual control is needed and download operation is available only when the RUN light is OFF After the download operation is completed the RUN light should maintain ON NB series Programmable Terminals Host Connection Manual V108 Dunes is 7 Connecting to LG PLCs 7 8 When Using LS Cnet Protocol 1 Set the communication parameters through the Tools Network Manager
85. ion Parameters and Cable Fabrication 2 3 2 3 Serial Port Communication Parameter 2 4 2 3 1 When Using SIEMENS 57 200 Communication Protocol 2 4 2 3 2 When Using SIEMENS S7 300 400 PC Adapter Direct Communication Protocol 2 5 2 4 Supported Registers 2 8 2 4 1 SIEMENS 87 200 iie RE CERE Ouod 2 8 2 4 2 SIEMENS 57 300 400 PC Adapter 2 2 4 40 2 9 P2 ME e ONG opns m 2 10 Sec 3 Connecting to Mitsubishi PLOs 9 1 3 1 Serial Port Communication eeeeeeeeee esee enne sa sanas aa nnmnnn nnmnnn 3 2 3 2 Serial Port Communication Parameters and Cable Fabrication 3 4 3 3 Serial Port Communication Parameter Setting eese 3 5 3 3 1 When Using Mitsubishi FX1S Mitsubishi FXON 1N 2N 3G and Mitsubishi FX3U Communication Protocols3 5 3 3 2 When Using Mitsubishi FX 485ADP 485BD 232BD Multi station Communication Protocols 3 7 3 3 3 When Using FX2N 10GM 20GM Communication 3 10 3 3 4 When Using Mitsubishi CPU Port Communication
86. lectrical systems an electrical engineer or the equivalent Personnel in charge of introducing FA systems into production facilities Personnel in charge of designing FA systems Personnel in charge of installing and connecting FA facilities Personnel in charge of managing FA systems and facilities General Precautions NB series Programmable Terminals Host Connection Manual V108 The user must operate the product according to the performance specifications described in the operation manuals Do not use the PT touch switch input functions for applications where danger to human life or serious property damage is possible or for emergency switch applications Before using the product under conditions which are not described in the manual or applying the product to nuclear control systems railroad systems aviation systems vehicles combustion systems medical equipment amusement machines safety equipment and other systems machines and equipment that may have a serious influence on lives and property if used improperly consult your OMRON representative Make sure that the ratings and performance characteristics of the product are sufficient for the systems machines and equipment and be sure to provide the systems machines and equipment with double safety mechanisms This manual provides information for connecting and setting up an NB Series PT Be sure to read this manual before attempting to use the PT and keep this manual close
87. lock pack 8 Max interval of bit block pack 128 Max word block package size 16 Max bit block package size 256 Use Default Setting Security Levels Setting User Permissions Setting Task Bar HMI Extended Attributes HMI System Information Text Historical Events Storage Print Setting COMI Setting COM2 Setting Type RS485 PLC Communication Time Qut 3 Baud Rate 9600 X Protocol Time Out ms 50 Data Bit 8 Protocol Time Out 2 ms 0 Parity Check Max interval of word block pack 8 Stop Bi 1 5 Max interval of bit block pack 128 Max word block package size 16 Max bit block package size 25 Use Default Setting RS422 Communication Security Levels Setting User Permissions Setting HMI Task Bar HMI Extended Attributes HMI System Information Text Historical Events Storage Print Setting COMI Setting COM2 Setting Type 5422 PLC Communication Time Qut 3 Baud Rate 9600 Protocol Time Out 1 ms 50 Data Bit 8 Protocol Time Out 2 ms 0 Parity Check Max interval of word block pack 8 Stop Bi 1 Max interval of bit block pack 128 r Max word block package size 15 Max bit block package size pe Use Default Setting PLC Settings Please refer to relevant instruction manual of communication device on parameter settings 8 4 NB series Programmable Terminals Host Connection Manual V108 8 Connecting to Panasonic PLCs 8 4 Supported Registers
88. mmunication Time Qut 3 Baud Rate 9600 Protocol Time Out 1 ms 1 Data Bit 8 Protocol Time Out 2 ms 30 Parity Check interval of word block pack 8 Max interval of bit block pack 16 Stop Bit 1 Max word block package size 32 Broadcast 85535 bit block package size Use Default Setting NB series Programmable Terminals Host Connection Manual V108 3 13 3 Connecting to Mitsubishi PLCs i PLC Settings The PLC settings is as shown below when Mitsubishi Q_QnA Link Port or Mitsubishi Melsec Q communication protocols are used Communication through CPU Port Qn Parameter PLCname PLCsystem PLC RAS Device Progam Bootfile SFC vo assignment Serial Use serial communication an modify the baud rate HMI and PLC in the same baud rate when you can communicate Acknowledge XY assignment Mulinle CPU sete Defaut End Cancel Communication through C24 Serial Port Communication Module 1 Open Parameter on Project Data List and double click PLC parameter and select assign ment after the Qn Parameter dialog box is opened a zia ad freee JO mi xj HINA BIRK allelei al a 214 s WO 2121 zll x arameter m Device comment MAIN 3 t Tini qi Host stati
89. mode IC693CPU321 IC693CPU323 IC693CPU331 IC693CPU341 IC693CPU350 IC693CPU351 IC693CPU352 IC693CPU360 IC693CPU363 IC693CPU364 IC693CPU374 IC693CSE311 IC693CSE313 IC693CSE323 IC693CSE331 IC693CSE340 IC693CPU311 Connector on Power Supply GE SNP X IC693CPU313 IC693CMM31 1 IC693CPU321 IC693CPU323 IC693CPU331 IC693CPU340 IC693CPU341 IC693CPU350 IC693CPU360 IC693CPU364 IC693CPU351 Connector on Power Supply IC693CPU352 Port1 on CPU unit IC693CPU363 Port2 on CPU unit IC693CMM311 IC693CPU374 Port on Power Supply IC693CMM311 VersaMax Series CPUO01 002 005 RS232 on port1 CPUEOS RS422 on port2 VersaMax Micro amp IC200UAL004 005 006 RS232 on port Nano Series IC200UDD110 120 212 85455 on port IC200UDR005 006 010 IC200UAA007 2000 028 Series 90 Product Supporting Break free SNP Feature is as follows Product Break free SNP Series 90 30 CPU350 364 Support on all serial communication ports starting with firmware release 9 00 Series 90 30 CPU311 313 323 331 341 Supported starting with firmware release 8 20 Note When you use the above mentioned CPU s for communication be sure to update it them to the specified version s in order to make communications with GE Fanuc Series SNP protocol 10 2 NB series Programmable Terminals Host Connection Manual V108 10 Connecting to PLC of GE Fanuc Automation Inc 10 2 Serial Port Communication Parameters and Cable Fa
90. n No RS232 Communication Security Levels Setting User Permissions Setting Task Bar Extended Attributes System Information Text Historical Events Storage Print Setting COM1 Setting 2 Setting Type 95232 PLC Communication Time Qut 5 BaudRate 9600 Protocol Time Out 1 ms 50 Data Bit 8 Protocol Time Out 2 ms 3 none 5 Max interval of word block pack 2 em Max interval of bit block pack 2 Lx Max word block package size 16 Max bit block package size pd Use Default Setting RS485 Communication Security Levels Setting User Permissions Setting Task Bar Extended Attributes System Information Text Historical Events Storage Print Setting Setting 2 Setting Type RS485 PLC Communication Time Out 5 BaudRate 9600 Protocol Time Out 1 ms 50 Data Bit 8 Protocol Time Out 2 ms 3 Parity Check Max interval of word block pack 2 Stop Bi interval of bit block pack 2 ru Max word block package size 16 Max bit block package size Use Default Setting 7 6 NB series Programmable Terminals Host Connection Manual V108 7 Connecting to LG PLCs i PLC Settings When Using LS Master K Cnet Protocol The software settings are as shown below Please pay attention to the settings on the right selection area Parameter Auto Saved Project Basic Interrupt CommChO CommCh PID TUN PID CAL Position tommuni cat
91. nded Attributes HMI System Information Text Historical Events Storage COM1 Setting Type Rs485 PLC Communication Time Out 1 Baud Rate 19200 Protocol Time Out 1 ms 3 Data Bit 8 Protocol Time Out 2 ms 3 Parity Check z interval of word block pack 2 Max interval of bit block pack 8 Stop Bit 1 M Max word block package size 16 Broadeast 65535 Max bit block package size 64 Use Default Setting RS232 Communication HEI Attribute Security Levels Setting User Permissions Setting Task Bar HMI Extended Attributes HMI System Informatio Historical Events Storage COM1 Setting RS232 PLC Communication Time Out 1 Baud Rate 19200 Protocol Time Out 1 ms 3 Data Bit 8 Protocol Time Out 2 ms 3 Parity Check interval of word block pack 2 x Max interval of bit block pack 8 Stop Bit 1 word block package size 16 Broadcast 65535 Max bit block package size 64 Use Default Setting EP 4 10 NB series Programmable Terminals Host Connection Manual V108 4 Connecting to Schneider PLCs Settings When Using Schneider Twido Modbus RTU Protocol Note The memory addresses of Twido are under dynamic management which may lead to communication failure when address link is available It is recommended the user to add one statement after PLC program Only after the user has made the correct settings of the words or bi
92. ne status gic Communi cati ons Tools i po o 7 ee A V pen Oo aliu 5 Offline 9 Monitor Tags z No Forces p Ol Edit Tags 2 No Edits m v Produced Tags 5 mn 5 Yerify r 3 Controller 1 0 Forcing CA Power Up Hand SFC Forcing b amp Tasks GE MainTask Online Edits gt i dime un L Setting Example Create a new tag with Name of a and Data Type of INT l Show Data Types by Groups NB series Programmable Terminals Host Connection Manual V108 9 7 9 Connecting to Allen Bradley Rockwell PLC 9 8 Note 1 When selecting the Data Type please note that the CompactLogix ControlLogix protocol only supports 3 data types i e INT BOOL and REAL 2 The protocol does not support multidimensional array therefore only the DimO range can be defined 3 The ranges supported by the protocol are 0 to 254 for INT 0 to 254 for REAL and 0 to 999 for BOOL respectively Continue to create 2 tags one with Name of b and Data Type of REAL and the other with name of c and Data Type of BOOL as shown below Note The address range of BOOL variable is defined to 1024 in the PLC but the protocol only supports the range up to 999 so the HMI can only access the address up to 999 After defining the tags you also need to make the mapping between the Name and the File Number PLC 35 SLC Mapping Note 1 The file number should be unique i e
93. ne System or other application or use The following are some examples of applications for which particular attention must be given This is not intended to be an exhaustive list of all possible uses of the products nor is it intended to imply that the uses listed may be suitable for the products Outdoor use uses involving potential chemical contamination or electrical interference or conditions or uses not described in this manual Nuclear energy control systems combustion systems railroad systems aviation systems medical equipment amusement machines vehicles safety equipment and installations subject to separate industry or government regulations Systems machines and equipment that could present a risk to life or property Please know and observe all prohibitions of use applicable to the products NEVER USE THE PRODUCTS FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS AND THAT THE OMRON PRODUCTS ARE PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM PROGRAMMABLE PRODUCTS OMRON shall not be responsible for the user s programming of a programmable product or any consequence thereof 12 NB series Programmable Terminals Host Connection Manual V108 Disclaimers CHANGE IN SPECIFICATIONS Product specifications and accessories may be changed at any time b
94. necting to Panasonic PLCs 8 1 Serial Port Communication Series CPU Link Module Driver FP FP Tool port on the Control unit Panasonic FP AFPG801 AFPG802 AFPG803 AFPG806 FPO Tool port on the Control unit FP1 RS232C port on the Control unit FP M FP2 Tool port on the Control unit FP2SH RS232C port on the Control unit AFP2462 AFP2465 AFP2803 AFP2804 FP2805 FP3 Tool port on the Control unit AFP3462 FP e Tool port on the Control unit AFPE224300 AFPE224302 AFPE224305 AFPE214322 AFPE214325 FP10SH Tool port on the Control unit FP10S RS232C port on the Control unit AFP3462 FP X RS232C port on the Control unit 8 2 NB series Programmable Terminals Host Connection Manual V108 8 Connecting to Panasonic PLCs 8 2 Communication Parameters and Cable Fabrication 5 Series CPU Link Module COMM Type Parameter Cable FP FP Tool port on the Control unit RS232C Refer to Self made cable AFPG801 Section 8 3 required AFPG802 AFPG806 AFPG803 RS485 AFPG806 FPO Tool port on the Control unit RS232C RS232C port on the Control unit FP1 Tool port on the Control unit RS232C 5 RS232C port on the Control unit 8 2 Tool port on the Control unit RS232C 8 FP2SH RS232C port on the Control unit 5 AFP2462 5 AFP2465 AFP2803 z AFP2804 RS422 a AFP2805 RS485 5
95. oactivity Precautions for software The update restoration uninstall and reinstallation of software in running status is prohibited in order to guarantee the correct use of the product NB series Programmable Terminals Host Connection Manual V108 Conformance to EC Directives NB Series Programmable Terminals are EMC compliant Concepts OMRON products are electronic devices that are incorporated in machines and manufacturing installations OMRON PTs conform to the related EMC Directives see note so that the devices and machines into which they are built can more easily conform to EMC Directives The actual products have been through inspections and are completely in accordance with EMC directives However when they are built into customers systems whether the systems also comply with these Directives is up to the customers for further inspection EMC related performance of OMRON PTs will vary depending on the configuration wiring and other conditions of the OMRON equipment or control panel The customer must therefore perform final checks to confirm that the overall machine or device conforms to EMC standards Note The applicable EMC Electromagnetic Compatibility standards are as follows EMS Electromagnetic sensitivity EN61131 2 2007 EMI Electromagnetic Interference EN61131 2 2007 Conformance to EC Directives NB Series Programmable Terminals are EC compliant Heed the following precautions in order to ensure th
96. odule RS232 FX2N RS485 Module RS422 FXON RS422 on the CPU unit RS232 FX1NG RS485 Module RS422 FX2NC FX2N 10GM RS422 on the CPU unit RS422 FX2N 20GM FX3G RS422 on the CPU unit RS422 RS232 Module RS232 RS485 Module RS422 FX3UC RR422 on the CPU unit RS422 FX3U RS232 Module RS422 RS485 Module RS422 Melsec QOOJCPU RS232 on the CPU unit RS232 QOOCPU Q01CPU Q02CPU QO2HCPU Q12HCPU Q25HCPU QO6HCPU QOOJCPU QJ71C24 RS232 QOOCPU QJ71C24 R2 Q01CPU QJ71C24N Q02CPU QJ71C24N R2 QO2HCPU QJ71024 RS422 QI2HCPU QJ71C24N Q25HCPU QJ71C24N R4 QO6HCPU 3 4 NB series Programmable Terminals Host Connection Manual V108 3 Connecting to Mitsubishi PLCs 3 3 Serial Port Communication Parameter Setting 3 3 1 When Using Mitsubishi FX1S Mitsubishi FXON 1N 2N 3G and Mitsubishi FX3U Communication Protocols HMI Settings HMI default communication parameters 9600bps Baud Rate 7 Data Bit even Parity Check 1 Stop Bit and 0 PLC Station No The PLC Communication Time Out Max interval of word bit block pack Max word block package size on the right vary with PLC protocols Generally the defaults are selected Dunes 129 RS422 Communication HEI Attribute Security Levels Setting Permissions Setting Task Bar Extended Attributes HMI System Information Text Historical Events Storage Pr
97. on NB series Programmable Terminals Host Connection Manual V108 3 Connecting to Mitsubishi PLCs 2 Click the Type dropdown list to select the Intelli option Qn H Parameter PLCname system PLC fle PLC RAS SFC 1 0 assignment 21 0 Assignment Assigning the 1 0 address not necessary as the CPU does it automatically Leaving this setting blank wil not cause an error to occur Bumes Jojoweseg Od eas Unset project Program PLC system PLCfle PLCRAS Progam Bootfie MAIN 1 0 assignment Serial E Device comment Switch setting for I O and intelligent function module 020104 Hur VUO o lusiqnsyw Buisn ueuM NB series Programmable Terminals Host Connection Manual V108 3 15 3 Connecting to Mitsubishi PLCs 3 16 The attribute descriptions of Switch1 Switch2 Switch3 Switch4 and Switch5 are as shown below Example CH1 Baud rate transmission setting 15 87 0 transmission setting OBEEH bps Settings Bi content or 5K es Switch 1 4800 Actionset Independent Linked Sbit 1 7 8 2 Parity check bit Reserved Served Even Parity check Even 6 Runwrite disable enable Switch 3 CH2 Baud rate transmission setting The same with the switch 1 Set the station number S
98. on 1 FX3G RS422 on the CPU unit Mitsubishi FXON 1N 2N 3G 2 FX3G LILILI BD Mitsubishi FX 485ADP 485BD 232BD FX3U 485 ADP FX3G CNV ADP Multi station 1 3 2 NB series Programmable Terminals Host Connection Manual V108 3 Connecting to Mitsubishi PLCs Link Module The products in are also needed QCPU Q00JCPU RS232 on the CPU unit Mitsubishi Q00J CPU Port QJ71C24 Mitsubishi Q_QnA Link Port QJ71C24 R2 QJ71C24N QJ71C24N R2 QJ71C24N R4 QOOCPU RS232 on the CPU unit Mitsubishi Q_QnA Link Port Q01CPU QJ71C24 QJ71C24 R2 QU71C24N QU71C24N R2 QU71C24N R4 QO2CPU RS232 on the CPU unit Mitsubishi Q Series CPU Port GO2HCPU QU71C24 Mitsubishi Q_QnA Link Port Q12HCPU QJ71C24 R2 Q25HCPU QU71C24N QJ71C24N R2 QJ71C24N R4 QO6HCPU RS232 on the CPU unit Mitsubishi QO6H QJ71C24 Mitsubishi Q_QnA Link Port QJ71C24 R2 QJ71C24N QJ71C24N R2 QJ71C24N R4 Series CPU Driver uoneoiunululo2 HOd 219 1 8 1 This protocol supports Multiple Station No 2 This protocol does not support Multiple Station No NB series Programmable Terminals Host Connection Manual V108 3 3 3 Connecting to Mitsubishi PLCs 3 2 Serial Port Communication Parameters and Cable Fabrication CPU Link Module COMM Type Parameter Cable FXCPU FX1S RS422 on the CPU unit RS422 Refer to Section 3 3 Self made cable required EXIN RS232 M
99. onnection Manual V108 Connecting to Schneider PLCs This section describes the connection to Schneider PLCs 4 1 Serial Port Communication 4 2 Communication Parameters and Cable Fabrication 4 3 Communication Parameter Setting 4 4 Supported Registers 4 5 Cable Fabrication NB series Programmable Terminals Host Connection Manual V108 4 Connecting to Schneider PLCs 4 1 Serial Port Communication Series CPU Link Module Driver Micro TSX3705001 TER port on the CPU Schneider Modicon Uni TSX 37 05 028DR1 TelWayModbus RTU TSX 37 08 056DR1 TSX 37 10 128DT1 TSX 37 10 128DR1 TSX 37 10 128DTK1 TSX 37 10 164DTK1 TSX 37 10 028AR1 TSX 37 10 028DR1 TSX 37 24 101 TSX 37 22 101 TSX 37 21 001 TSX 37 22 001 Premium TSX P57 103 TER port on the CPU TSX P57 153M TSX P57 203M TSX P57 253M TSX P57 303M TSX P57 353M TSX P57 453M Nano TSX 07 3L 000028 Programming port on CPU TSX 07 30 100000 TSX 07 31 160000 TSX 07 31 240000 TSX 07 32 000028 TSX 07 33 000028 Twido TWD LCAA 10DRF RS485 on the CPU unit Schneider Twido Modbus TWD LCAA 16DRF RTU TWD LCAA 24DRF TWD LMDA 20DTK TWD LMDA 20DUK TWD LMDA 20DRT TWD LMDA 40DTK TWD LMDA 40DUK 4 2 NB series Programmable Terminals Host Connection Manual V108 4 2 Communication Parameters and Cable Fabrication Series Modicon TSX CPU TSX3705001 TSX3705001 TSX 37 05
100. ply or pressing the reset button The whole system may stop depending on how the power supply is turned ON or OFF Turn ON OFF the power supply according to the specified procedure Reset by pressing the reset button or restart the power supply once the DIP switch settings are changed To ensure the system s safety make sure to incorporate a program that can confirm the normal functionality of the NB Unit before running the system Start actual system application only after sufficiently checking screen data macros and the operation of the program at the host side Do not press the touch panel with a force greater than 30 N Do not use hard or pointed objects to operate or scrub the screen otherwise the surface of the screen may be damaged Confirm the safety of the system before pressing the touch panel Signals from the touch switches may not be input if the touch switches are pressed consecutively at high speed Confirm each input before proceeding to the next one Do not accidentally press the touch panel when the backlight is not lit or when the display does not appear Make sure of the safety of the system before pressing the touch panel To use numeric input functions safely always make maximum and minimum limit settings Before initializing screen data confirm that existing data is backed up at the NB Designer NB series Programmable Terminals Host Connection Manual V108 When changing the password with the screen
101. port of NB3Q TWLILIB please refer to the pin definitions in this section prior to connection NB series Programmable Terminals Host Connection Manual V108 1 5 1 1 6 List for All PLCs Supported by NB Series NB series Programmable Terminals Host Connection Manual V108 Connecting to SIEMENS PLCs This section describes the connection to SIEMENS PLCs 2 1 2 2 2 3 2 4 2 5 Serial Port Communication 2 2 Serial Port Communication Parameters and Cable Fabrication 2 3 Serial Port Communication Parameter Setting 2 4 2 3 1 When Using SIEMENS 57 200 Communication Protocol 2 4 2 3 2 When Using SIEMENS S7 300 400 PC Adapter Direct Communication ProtoGol uersu Sere EEE sb em NS d 2 5 Supported Registers 22 2 2 4 54 4 4 2 42 2 8 2 4 1 SIEMENS S 7 200 LE IPLE ER e EUH Pe AU 2 8 2 4 2 SIEMENS S7 300 400 PC Adapter 2 9 Cable Fabrication 21 vil ice det xs py vr 2 10 NB series Programmable Terminals Host Connection Manual V108 2 1 2 Connecting to SIEMENS PLCs 2 1 Serial Port Communication Series CPU Link Module Driver CPU212 RS485 on the CPU unit SIEMENS 57 200 CPU214 CPU215 CPU216 CPU221 CPU222 CPU224 CPU226 CPU224 XP CN CPU226 XP CN 7 200 CPUS12IFM 1 port on the CPU unit SIEMENS S7 300 400 PC Adapter Direct CPUS
102. r K Modbus Protocol e RS232 Communication Cable HMI COM1 COM2 pic e RS485 Communication Cable HMI COM2 D sub Sena Pin No 9Pin ee UND ee SDB RDB RS 485 Female Se a SDA RDA connector SG 9 i When Using LS Master K CPU Direct Protocol e RS232 Communication Cable uoneonqeJ 14 9 6 m i When Using LS XGT CPU Direct Protocol e RS232 Communication Cable HMI 1 2 PLC Signal Pin No D Sub f SD 9Pin Female NB series Programmable Terminals Host Connection Manual V108 7 11 7 Connecting to LG PLCs When Using LS XGT Cnet Protocol e RS232 Programming Cable PC Rb 3 se 9 HMI 1 2 Built in RS 232C connector HMI COM2 PLC Built a SDB RDB HRe RDA SDARDA se 9 7 12 NB series Programmable Terminals Host Connection Manual V108 Connecting to Panasonic PLCs z This section describes the connection to Panasonic PLCs 8 1 Serial Port Communication 8 2 8 2 Communication Parameters and Cable Fabrication 8 3 8 3 Communication Parameter Setting 8 4 8 4 Supported Registers 8 5 8 5 Cable Fabrication 8 6 NB series Programmable Terminals Host Connection Manual V108 8 1 8 Con
103. rage Print Setting Setting COM2 Setting Type 95232 PLC Communication Time Out 1 BaudRate 9600 Protocol Time Out 1 ms 3 Data Bit 8 Protocol Time Out 2 ms 3 Parity Check even x interval of word block pack 16 3 Max interval of bit block pack 32 Stop Bit 1 r Max word block package size 64 Broadcast 65535 Max bit block package size 256 tse Detaut Soin NB series Programmable Terminals Host Connection Manual V108 5 5 5 Modbus Connection When Using Modbus TCP Slave Protocol HMI serves as the master the network configuration is as follows Network Config IP Addr Master Slave State NO Virtual HMIO 192 168 250 1 502 Modbus TCP PLCO 192 168 250 2 502 Modbus TCP Slave 5 1 When Using Modbus TCP Protocol HMI serves as the slave the network configuration is as follows Network Config HMIO 192 168 250 1 502 Modbus TCP Slave 5 1 10000 Refer to 5 7 Example of NB as Modbus Slave for example 5 6 NB series Programmable Terminals Host Connection Manual V108 5 Modbus Connection 5 4 Supported Registers Note The bytes in 5X are displayed in reverse order For example if 4X 1word is H 1234 the corresponding bytes in 5X 1word will be displayed in reverse order as H 3412 Modbus RTU Slave Device Bit Address Word Address Format Notes System Internal External Output LBO 9999 D
104. registers 2 PLC as the master and HMI as the slave HMI adopts Modbus TCP protocol The PLC and the HMI communicate via the standard Modbus TCP protocol with the PLC as the master control terminal and the HMI as the slave terminal The PLC should support the Modbus TCP protocol The HMI local addresses LW and LB are mapped as the 4X and OX registers written and read by the PLC ewe s 1eise A 090109 JOL snqpow sidope gn ueuM 2 9 9 The corresponding relations of the registers are as below Modbus register address range 1X 1 9000 4X 1 9000 The corresponding HMI local address range LB 0 8999 LW 0 8999 NB series Programmable Terminals Host Connection Manual V108 5 11 5 Modbus Connection 5 7 Example of NB as Modbus Slave Communication by Modbus RTU protocol System description Use CP1E N3ODLI LI 30 point I O type as Modbus master and 2 NB Units as Modbus slave to perform the communication PLC Setting CP1E N30D0 0 should connect to CP1W CIF11 module functioning as RS485 communication port Use CX Programmer to configure the peripheral port Make the communication settings as follows 9600 8 1 Even and Modbus RTU simple master JPLC Settings HewPLCI File Options Help Startup CPU Settings Tinings Input constant Built in RS232C Port Serial Option Port Communications Settings C Standard 8600 1 7 2 Link Words Custom Start Code
105. rm communications PC Adapter RS 232 cable connector HMI ee NB series Programmable Terminals Host Connection Manual V108 Connecting to Mitsubishi PLCs This section describes the connection to Mitsubishi PLCs 3 1 Serial Port Communication 3 2 3 2 Serial Port Communication Parameters and Cable Fabrication 3 4 3 3 Serial Port Communication Parameter Setting 3 5 3 3 1 When Using Mitsubishi FX1S Mitsubishi FXON 1N 2N 3G and Mitsubishi FX3U Communication Protocols 3 5 3 3 2 When Using Mitsubishi FX 485ADP 485BD 232BD Multi station Communication Protocols i sek 6 2 Elem ues wera wee a 3 7 3 3 3 When Using FX2N 10GM 20GM Communication Protocol 3 10 3 34 When Using Mitsubishi Q00J CPU Port Communication Protocol 3 11 3 3 5 When Using Mitsubishi Q series CPU Port Communication Protocol 3 11 3 3 6 When Using Mitsubishi QO6H Communication Protocol 3 12 3 3 7 When Using Mitsubishi Q_QnA Link Port Communication Protocol 3 13 3 4 Supported Registers 3 18 3 5 Cable Fabrication 3 21 NB series Programmable Terminals Host Connection Manual V108 3 1 3 Connecting to Mitsubishi PLCs 3 1 Serial Port Communication
106. rotocol Time Out 1 ms 3 Data Bit 8 E Protocol Time Out 2 ms 3 Parity Check Max interval of word block pack 16 interval of bit block pack 32 Stop Bit 1 e Max word block package size 54 Max bit block package size 64 9 4 NB series Programmable Terminals Host Connection Manual V108 9 Connecting to Allen Bradley Rockwell PLC PLC Settings RSLogix500 software setting Take MicroLogix 1500 as example Select the DF1 Full Duplex in the Driver option and CRC in the Error Detection option in the Channel Configuration dialog box of the software Channel Configuration Source ID fi otocol Contr O Error Detection CRC c Embedded Responses Auto Detect Duplicate Packet Detect WAK Retries ENQ Retries 3 HE Channel Contra ACK Timeout 20 ms 50 B sys1 202 Data Fies cross Reference D 0 B And the register setting is also available RSLogix 500 Pro UNTITLED of wae ME g H TT HM lt gt 4 40 am Data File dec INTEGER Bumes 1ejeureJed HOd eas 5 6 Right clicking the Data Files can create the register File 7 Type N Wwe INTEGER Desc Demets fS PO Double clicking the Attribut existing register can modify the address be Skip When Deleting Unused
107. s External Input Nodes 10 0 511 7 DDDD O External Output Nodes Q 0 0 511 7 DDDD O 8 Internal Auxiliary Nodes 0 0 40957 DDDD O 8 Data Register Nodes DBm DBX 0 65535 7 DDDDD O m 10 60 e Data Registers DBm DBW 0 65534 DDDDD m 10 60 d Data Registers 32 bit DBm DBD 0 65532 DDDDD m 10 60 Internal Registers MW 0 2046 DDDD Internal Registers 32 bit 1 MD 0 2044 DDDD External Output Registers QW 0 126 DDD External Output Registers 32 bit 1 QD 0 124 DDD External Input Registers IW 0 126 DDD External Input Registers 32 bit 1 ID 0 124 DDD Note The initial addresses of DBm DBW and DBm DBD must be even Address format description D decimal O octonary H hexadecimal 4e1depy Od 00 006 5 SNAWAIS 2 t c NB series Programmable Terminals Host Connection Manual V108 2 9 2 10 2 Connecting to SIEMENS PLCs 2 5 Cable Fabrication i When Using SIEMENS 7 200 Communication Protocol e RS232 Communication Cable Use RS 232 PPI multi host cable and self made RS232 cable manufactured by SIEMENS to communicate with HMI Self made RS 232 Cable D Sub D Sub oT e e eo a RS485 Communication Cable PLC RB fe 3 BE When Using SIEMENS 7 300 400 PC Adapter Direct Communication Protocol e RS232 Communication Cable Use 6ES7972 0CA1LI 0XA0 communication cables for HMI Adapter to perfo
108. s Storage Print Setting COMI Setting CON2 Setting Type RS232 PLC Communication Time Out 3 Baud Rate 9600 Protocol Time Out 1 ms 3 Data Bit 8 Protocol Time Out 2 ms 3 oven Max interval of word block pack 2 7 Max interval of bit block pack 8 Stop Bit 1 Max word block package size 16 Max bit block package size 64 NB series Programmable Terminals Host Connection Manual V108 5 Modbus Connection When Using Modbus RTU Slave Protocol HMI default communication parameters 9600bps Baud Rate 8 Data Bit even Parity Check 1 Stop Bit and 1 PLC Station No Q o 3 HMI System Information Text Security Levels Setting User Permissions Setting 5 HMI Task Bar HMI Extended Attribute 8 Historical Events Storage Print Setting 1 Setting 5 ES 79 PLC Communication Time Out 5 Protocol Time Out 1 ms 8 o Protocol Time Out 2 ms o o Max interval of word block pack E Max interval of bit block pack Max word block package size Max bit block package size It takes effect when HMI as slave unit UseDefaukSeting When Using Modbus ASCII Protocol HMI default communication parameters 9600bps Baud Rate 8 Data Bit even Parity Check 1 Stop Bit and 1 PLC Station No HMI System Information Text Security Levels Setting User Permissions Setting HMI Task Bar HMI Extended Attributes Historical Events Sto
109. s required to ensure safe usage of the product The safety precautions that are provided are extremely important to safety Always read and heed the information provided in all safety precautions Indicates an imminently hazardous situation which if not avoided will result in death or serious injury Additionally there may be severe property damage Precautions for Safe Use Indicates precautions on what to do and what not to do to ensure using the product safely Precautions for Correct Use Indicates precautions on what to do and what not to do to ensure proper operation and performance Note Indicates suggestive information and precautions on operation of the product Symbols Prohibition Indicates a general prohibition Caution Indicates general cautionary warning or danger level information 14 NB series Programmable Terminals Host Connection Manual V108 AWARNING Do not attempt to take the product apart and do not touch the product inside while the power is being supplied Otherwise it may result in electric shock Always ensure that the personnel in charge confirm that installation inspection and maintenance were properly performed for the NB Unit Personnel in charge refers to individuals qualified and responsible for ensuring safety during machine design installation operation maintenance and disposal Ensure that installation and post installation che
110. smission control procedure Form4 with X Station number setting 0 Time out judge time 10 1 255 Check the Operate communication setting option Note 1 The CH1 should be selected for FX3U 3UC Series PLC 2 The Dedicated Protocol must be selected and the Sum Check must be checked with Form4 selected for the Transmission Control Sequence 3 Type is Regular RS 232C and RS 485 when FXLILI 232 BD and FXLILI 485 BD FXLILI 485 ADP communication are used respectively Aside from using FX Parameter the user can use the special data register D8120 in PLC to set the communication parameters for PLC Special Data Registers Descriptions D8120 Communication format D8121 Station No setting D8129 Data network out time counting Applicable to FX3U 3UC and other FX Series PLCs using CH1 For example If the PLC communication parameters are 9600bps Baud Rate 7 Data Bit even Parity Check 2 Stop Bit 1 PLC Station No RS485 Communication Method and 1 PLC Communi cation Time Out then D8120 0xE08E D8121 1 and D8129 1 Note The settings will be valid when the PLC is turned OFF and then back ON again after the D8120 setting is modified 10901044 uoneis niniN qazee aassr davsgr x4 Iusiqnsyv Z E E NB series Programmable Terminals Host Connection Manual V108 3 9 3 Connecting to Mitsubishi
111. t Connection Manual V108 9 9 9 Connecting to Allen Bradley Rockwell PLC 9 5 Cable Fabrication e RS232 Communication Cable for MicroLogix e Communication Cable 1761 CBL PMO2 manufactured by AB Corp The 8 pin mini din produced by AB Corp is non standard 8 pin HMI COM1 COM2 PLC D Sub Pin Mini SD 2 Female HMI COM1 COM2 9Pin 2 BD opin Female Female 9 1 2 Bab 9Pin 2 BD opin Female 9 Female HMI COM1 COM2 PLC HMI COM1 COM2 PLC 1 terminal 9 10 NB series Programmable Terminals Host Connection Manual V108 10 Connecting to PLC of GE Fanuc Automation Inc This section describes the connection to PLC of GE Fanuc Automation Inc 10 1 Serial Port Communication 10 2 10 2 Serial Port Communication Parameters and Cable Fabrication 10 3 10 3 Serial Port Communication Parameter Setting 10 4 10 4 Supported Registers 10 7 10 5 Cable Fabrication ccs ee i Rae 10 8 NB series Programmable Terminals Host Connection Manual V108 10 1 10 Connecting to PLC of Fanuc Automation Inc 10 1 Serial Port Communication Series CPU Link Module Driver GE Fanuc Series 90 30 IC693CPU31 1 Serial Connector on Power Supply GE Fanuc Series SNP IC693CPU313 Break free
112. the message structure identified and used by the controllers regardless of communication through what kind of network ASCII RTU modes included in Modbus protocol specify the structures of message and data commands and the response methods The data communication adopts Master Slave mode the master sends out the data request message s first and then the slave sends the data to the master in response to the request after receiving the correct message s the master also can directly send the message s to modify the data in the slave thus realizing the two way reading writing Modbus specifies that only the master has the initiative while the slave can only make response passively including answering the error message s When NB series HMls perform communications by Modbus protocol it follows the standard Modbus communication process Universal data frame format is as follows Address code The data field in the message frame contains two characters ASCII or 8 bits RTU The possible slave device addresses range from 0 to 247 decimal and the single device addresses range from 1 to 247 The master device selects the slave device through the data field in the message where addresses of slave device s to communicate with the master are put When sending back the response message s the slave device puts its own address into the data field of the response in order to make the master know which device has made the response Address 0
113. tion Text 8 Historical Events Storage Setting Setting 5 RS232 PLC Communication Time Out 3 gt BaudRate 9600 Protocol Time Out 1 ms 3 Data Bit 8 Protocol Time Out 2 ms 3 5 o Parity Check gt interval of word block pack 2 8 1 Max interval of bit block pack 8 Stop Bit 1 M r Max word block package size 16 Jroadcast 65535 Max bit block package size 64 Use Default Setting 7 RS485 Communication HEI Attribute Security Levels Setting User Permissions Setting Task Bar HMI Extended Attributes HMI System Information Text Historical Events Storage Setting CO Setting Type 85485 PLC Communication Time Out 3 Baud Rate 9600 M Protocol Time Out 1 ms 3 Data Bit 8 Protocol Time Qut 2 ms d Parity Check even Max interval of word block pack 2 Max interval of bit block pack 8 Stop Bit 1 ii word block package size 16 Broadcast 65535 Max bit block package size 64 Use Default Setting NB series Programmable Terminals Host Connection Manual V108 4 5 4 Connecting to Schneider PLCs PLC Settings PL7 Software Setting 1 Open Programs menu Select XWAY Driver Manager from Modicon Telemecanique os Access security management OS LOADER PLT Pro V4 3 Fi PCAN USB 2 Readme Pro V4 3 T Proficy Common b REGISTRATION PLT Pro V4 3 2 Select UNITELWAY Dri
114. ts referring to the following PLC Settings PLC can communicate with the HMI device 1 Controller Communications Setup Controller Communications Setup Pott 1 Bunjes Address fi 19200 Parameters Baudrate 13200 Data Bits femru gt Parity None gt Stop Bits Response Timeout x 100 ms Inter frame delay ms NB series Programmable Terminals Host Connection Manual V108 4 11 4 Connecting to Schneider PLCs 2 Extend the range of word memory address and change the Auto option in the Assigned column for the internal word to a larger value through the Controller gt Used Memory Edit and download it to the PLC It is assumed that the Auto is set to 3000 as shown below all addresses before MW3000 can perform the data swap Report View Edit Number of preallocated objects mM Very Fast Counters VFC 04 0 KW also includes and SKF and SMW also includes SMD and More info 3 Extend the range of open bit address and drive the coil with a maximum address through the programming It is assumed that a M127 coil is driven as shown below all addresses before 127 can perform the data swap 0 4 12 NB series Programmable Terminals Host Connection Manual V108 4 Connecting to Schneider PLCs 4 4 Supported Registers Modicon TSX Devi
115. ver Configuration Edit in the popup window and modify relevant communication parameters EWAY Drivers management Driver jon t UNITELWAY Driver V1 4 08 Copyright 71999 2001 Schneider Automation State Running Mm Station Parameters Unrtelway Line Parameters Advanced r Station ID Defauit COM Port COM1 UNITELWAY Configuration UNI TELWAY Slave Address Bae 1 Numbes 3 Modem Communication Use modem Hoes Phone Number Pese Target Station Default Sta onD Password PhoneNumber Parity Default COM1 Odd HNHEN M 4 add Station Ren te sn 4 6 NB series Programmable Terminals Host Connection Manual V108 4 Connecting to Schneider PLCs Wi Station Parameters Station Parameters Unitelway Line Parameters Advanced 9600 bps Self Adaptation in sec Use second Data Bits Parity Stop Bits Odd C 7bits 1bit G Even 25 None RTS CTS Delay 7 Use CTS X100ms Default p NB series Programmable Terminals Host Connection Manual V108 4 7 4 Connecting to Schneider PLCs 4 Click XWAY Test Connect and the Connected prompt information will appear when the connection is successful
116. xternal Device RS485 on the CPU unit Modbus RTU Extend RS232 on the CPU unit Modbus RTU Extend RS485 on the CPU unit Modbus RTU Slave RS232 on the CPU unit Modbus RTU Slave RS485 on the CPU unit Modbus ASCII RS232 on the CPU unit Modbus ASCII RS485 on the CPU unit Modbus TCP Ethernet Modbus TCP Modbus TCP Slave Ethernet Modbus TCP Slave 5 2 NB series Programmable Terminals Host Connection Manual V108 Cable Fabrication Series Modbus RTU Modbus RTU Extend Modbus RTU Slave Modbus ASCII Modbus TCP Modbus TCP Slave CPU Modbus Compatible External Device Link Module COMM Type RS232 on the RS232 CPU unit RS485 on the RS422 CPU unit RS232 on the RS232 CPU unit RS485 on the RS422 CPU unit RS232 on the RS232 CPU unit RS485 on the RS422 CPU unit RS232 on the RS232 CPU unit RS485 on the RS422 CPU unit Ethernet Ethernet NB series Programmable Terminals Host Connection Manual V108 5 Modbus Connection Parameter Refer to Section 5 3 5 2 Communication Parameters and Cable Self made cable required Network cable Network cable 1 pue uoneorunululo2 2 6 5 Modbus Connection 5 3 Communication Parameter Setting HMI Settings When Using Modbus RTU Protocol HMI default communication parameters 9600bps Baud Rate 8 Data Bit even Parit
117. y Check 1 Stop Bit and 1 PLC Station No HMI System Information Text Security Levels Setting User Permissions Setting HMI Task Bar HMI Extended Attributes Historical Events Storage Print Setting COMI Setting COM2 Setting Type 95232 PLC Communication Time Out 3 Baud Rate 9600 M Protocol Time Out 1 ms 3 Data Bit 8 Protocol Time Out 2 ms 3 even interval of word block pack 2 Max interval of bit block pack 8 Stop Bit 1 X Max word block package size 16 Max bit block package size 64 Note 1 Modbus RTU protocol supports broadcast station number but the broadcast function only supports the write operation only i e the broadcast function cannot be used for the components with read attribute 2 The broadcast function has two usage methods a For the components with write only attribute Bit State Setting component and Toggle excluded and the Multiple State Setting components Add value Sub value JOG and JOG excluded b Use Macro instruction in the Macro programming to perform the write operation for the address of the Broadcast Station No When Using Modbus RTU Extend Protocol HMI default communication parameters 9600bps Baud Rate 8 Data Bit even Parity Check 1 Stop Bit and 1 PLC Station No HMI System Information Text Security Levels Setting User Permissions Setting HMI Task Bar HMI Extended Attributes Historical Event

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