NSJ10-TV00-G5D

Programmable Controller NSJ Series, NSJ Combining the controller and HMI into a single unit contributes to downsizing and standardizing control panels, while eliminating inefficiency, waste, and inconsistency on production sites. As demands continue to grow for smaller control panels to save space in today's production facilities, OMRON has shown the way with a unique solution -- the SYSMAC One NSJ-series One-package Controller. Its compact size is an ideal fit for the 400- to 500-mm control panel widths that are becoming increasingly common, and it completely eliminates the space that was previously necessary for the PLC. While helping to standardize control panels, the NSJ Series also solves a variety of manufacturing industry problems by raising the levels of efficiency in design and maintenance. 2 Concept 4 Product Line and Expandability 6 Promoting Standardized Control Panels 8 Less Effort in Designing and Debugging 10 Less Effort in Maintenance 12 Applications 14 System Configuration 16 Ordering Information and Specifications 19 3 As demands continue to grow for smaller control panels to save space in today's production facilities, OMRON has shown the way with a unique solution -- the SYSMAC One NSJ-series One-package Controller. Its compact size is an ideal fit for the 400- to 500-mm control panel widths that are becoming increasingly common, and it completely eliminates the space that was previously necessary for the PLC. While helping to standardize control panels, the NSJ Series also solves a variety of manufacturing industry problems by raising the levels of efficiency in design and maintenance. 2 Concept 4 Product Line and Expandability 6 Promoting Standardized Control Panels 8 Less Effort in Designing and Debugging 10 Less Effort in Maintenance 12 Applications 14 System Configuration 16 Ordering Information and Specifications 19 3 The Display Section and Controller Section each have a CPU. Control is highly reliable because it is not affected by the designing and communications of the Display Section. A DeviceNet Master comes as standard equipment for I/O. There is no need for initial settings, and wiring is greatly reduced. Also standardization and streamlining design can be realized. Many control panels have a width of 400 to 500 mm. Today's manufacturing facilities are becoming increasingly space-efficient and standardized. The 400to 500-mm panel width will likely become mainstream. Efficient use of the space inside the control panel. Especially slim at 73.3 mm. Since there is no PLC space required, the space inside the control panel can be more efficiently used. For example, it can be used to mount the power supply, breakers, or terminal blocks directly behind the Display Section. Both the Display Section and Controller Section combined have a width of only 73.3 mm*. There is also no need for a PLC Power Supply Unit. (*For the NSJ8/10/12 Series. The NSJ5 Series is 79.0 mm.) Promoting Standardized Control Panels The PLC comes as standard equipment along with the HMI. Less Effort in Designing and Debugging No More PLC Space Required. Less Effort in Maintenance As production becomes increasingly globalized, the needs for standardized control panels are growing. With its new, one-package concept, the SYSMAC One NSJ Series contributes to reducing both hardware and software requirements for control panels. While offering the same convenient operation for control panels in any factory, any process, and any device worldwide, the NSJ Series eliminates various forms of inefficiency, waste, and inconsistency that extend all the way from device design and installation, to maintenance. Product Line and Expandability Concept Greater Control Panel Downsizing and Standardizing NSJ Series Appearance and Parts Names [NSJ Main Unit] As an example, the SYSMAC One NSJ5 Series makes it possible to design a control panel this compact. For example, 250 mm wide Expansion Unit interface One Expansion Unit For example, 220 mm deep Expansion Unit Controller Link Unit Controller Section Display Section For example, 300 mm high (The photo shows the NSJ8 Controller.) I/O Control Unit Ethernet Unit USB port For more details, refer to page 7. 4 System Configuration Display Section Ordering Information and Specifications Controller Section Only 73.3 mm (For NSJ8/10/12 Series. The NSJ5 Series is 79.0 mm.) Applications Expansion Unit (optional) 5 The Display Section and Controller Section each have a CPU. Control is highly reliable because it is not affected by the designing and communications of the Display Section. A DeviceNet Master comes as standard equipment for I/O. There is no need for initial settings, and wiring is greatly reduced. Also standardization and streamlining design can be realized. Many control panels have a width of 400 to 500 mm. Today's manufacturing facilities are becoming increasingly space-efficient and standardized. The 400to 500-mm panel width will likely become mainstream. Efficient use of the space inside the control panel. Especially slim at 73.3 mm. Since there is no PLC space required, the space inside the control panel can be more efficiently used. For example, it can be used to mount the power supply, breakers, or terminal blocks directly behind the Display Section. Both the Display Section and Controller Section combined have a width of only 73.3 mm*. There is also no need for a PLC Power Supply Unit. (*For the NSJ8/10/12 Series. The NSJ5 Series is 79.0 mm.) Promoting Standardized Control Panels The PLC comes as standard equipment along with the HMI. Less Effort in Designing and Debugging No More PLC Space Required. Less Effort in Maintenance As production becomes increasingly globalized, the needs for standardized control panels are growing. With its new, one-package concept, the SYSMAC One NSJ Series contributes to reducing both hardware and software requirements for control panels. While offering the same convenient operation for control panels in any factory, any process, and any device worldwide, the NSJ Series eliminates various forms of inefficiency, waste, and inconsistency that extend all the way from device design and installation, to maintenance. Product Line and Expandability Concept Greater Control Panel Downsizing and Standardizing NSJ Series Appearance and Parts Names [NSJ Main Unit] As an example, the SYSMAC One NSJ5 Series makes it possible to design a control panel this compact. For example, 250 mm wide Expansion Unit interface One Expansion Unit For example, 220 mm deep Expansion Unit Controller Link Unit Controller Section Display Section For example, 300 mm high (The photo shows the NSJ8 Controller.) I/O Control Unit Ethernet Unit USB port For more details, refer to page 7. 4 System Configuration Display Section Ordering Information and Specifications Controller Section Only 73.3 mm (For NSJ8/10/12 Series. The NSJ5 Series is 79.0 mm.) Applications Expansion Unit (optional) 5 Support a wider range of applications. Product Line and Expandability Expansion Units Select the optimal control and display combination. Four screen sizes are available, from 5.7 to 12.1 inches. Controller Link Unit (NSJW-CLK21-V1) High-speed, large-capacity data link The PLC data link function can be used to provide a high-speed, large-capacity data link between Controllers. Controller Link Unit NSJW-CLK21-V1 5.7 Inches 8.4 Inches 10.4 Inches Controller Link Unit NSJW-CLK21-V1 CS/CJ-series PLC 12.1 Inches Promoting Standardized Control Panels Product Line-up Concept A Wide Selection of Scalable Display Controllers Easy access to both Display Section and Controller Section Compact Ethernet port This allows PLC data to be read or written without adding an Ethernet Unit. PLC data can also be read or written, and alarms and recipes can be transferred, from a host computer. I/O Control Unit (NSJW-IC101) Easy addition of Special I/O Units and CPU Bus Units Used to mount Motion Control Units and other Special I/O Units or CPU Bus Units to the NSJ-series Controller, for excellent expandability. Power Supply Unit I/O Control Unit NSJW-IC101 Easy Access from a Host Computer I/O Interface Unit CJ1W-II101 CJ-series Basic I/O Unit CJ-series Special I/O Unit CJ-series CPU Bus Unit 10 Units max. •Screen data and ladder programs can be easily transferred via Ethernet. •PLC data can also be read by a host application (using FINS communications). Less Effort in Maintenance NSJ Built-in Ethernet Port Less Effort in Designing and Debugging Wired Controller Link Ethernet ) 3 Racks max. (3 x 10 Units max.) Applications I/O Connection Cable (CS1W-CN1 set from the NSJ (PLC1) display. PLC1 PLC2 Ethernet Unit (NSJW-ETN21) Full use of versatile Ethernet functions The NSJ built-in Ethernet port increases expandability with host computers by enabling functions such as communications implemented with CMND instructions and e-mail. CS/CJ-series PLC Ethernet Unit NSJW-ETN21 Note: It is also easy to allocate data from another host device for reference. •FINS communications •FTP server •E-mail •SMTP clients, etc. Ethernet 100BASE-TX Note: For detailed information on functions related to the NSJ built-in Ethernet port and Ethernet Unit, refer to page 28. 6 System Configuration •PLC2 data can be easily displayed and Controller Section Display Section Ethernet Ordering Information and Specifications Easy Access to Other PLCs 7 Support a wider range of applications. Product Line and Expandability Expansion Units Select the optimal control and display combination. Four screen sizes are available, from 5.7 to 12.1 inches. Controller Link Unit (NSJW-CLK21-V1) High-speed, large-capacity data link The PLC data link function can be used to provide a high-speed, large-capacity data link between Controllers. Controller Link Unit NSJW-CLK21-V1 5.7 Inches 8.4 Inches 10.4 Inches Controller Link Unit NSJW-CLK21-V1 CS/CJ-series PLC 12.1 Inches Promoting Standardized Control Panels Product Line-up Concept A Wide Selection of Scalable Display Controllers Easy access to both Display Section and Controller Section Compact Ethernet port This allows PLC data to be read or written without adding an Ethernet Unit. PLC data can also be read or written, and alarms and recipes can be transferred, from a host computer. I/O Control Unit (NSJW-IC101) Easy addition of Special I/O Units and CPU Bus Units Used to mount Motion Control Units and other Special I/O Units or CPU Bus Units to the NSJ-series Controller, for excellent expandability. Power Supply Unit I/O Control Unit NSJW-IC101 Easy Access from a Host Computer I/O Interface Unit CJ1W-II101 CJ-series Basic I/O Unit CJ-series Special I/O Unit CJ-series CPU Bus Unit 10 Units max. •Screen data and ladder programs can be easily transferred via Ethernet. •PLC data can also be read by a host application (using FINS communications). Less Effort in Maintenance NSJ Built-in Ethernet Port Less Effort in Designing and Debugging Wired Controller Link Ethernet ) 3 Racks max. (3 x 10 Units max.) Applications I/O Connection Cable (CS1W-CN1 set from the NSJ (PLC1) display. PLC1 PLC2 Ethernet Unit (NSJW-ETN21) Full use of versatile Ethernet functions The NSJ built-in Ethernet port increases expandability with host computers by enabling functions such as communications implemented with CMND instructions and e-mail. CS/CJ-series PLC Ethernet Unit NSJW-ETN21 Note: It is also easy to allocate data from another host device for reference. •FINS communications •FTP server •E-mail •SMTP clients, etc. Ethernet 100BASE-TX Note: For detailed information on functions related to the NSJ built-in Ethernet port and Ethernet Unit, refer to page 28. 6 System Configuration •PLC2 data can be easily displayed and Controller Section Display Section Ethernet Ordering Information and Specifications Easy Access to Other PLCs 7 Reduce downtime due to operator error 2 Providing on-site operator training 3 Smoothly procuring maintenance parts when a malfunction occurs 4 The need to raise development efficiency for devices and facilities Product Line and Expandability Host computer Example of Standardized System Promoting Standardized Control Panels 1 Ethernet Basic Module Standardization Standardization NSJ Controller Less Effort in Designing and Debugging With production bases becoming increasingly globalized, do you have the following concerns about shipping domestically manufactured devices? By standardizing control panels based on SYSMAC One, design steps can be reduced and software assets can be reused to eliminate waste and inconsistency all the way from the design stage to system startup. Select module for each machine. I/O Control Unit Application Modules Application Module A Less Effort in Maintenance The Market Is Moving Toward Standardized Control Panels. Concept Meeting the Growing Needs for Control Panel Standardization Screen and ladder program modules can also be used. 8 1 Operating errors can be prevented by providing the same operability. Reduce temporary lower operating efficiency caused by changing operators. 2 There is no need to produce an operating manual for each device. Initial training cost can also be reduced. 3 Standardization greatly reduces the number of maintenance parts. Even if a malfunction occurs, the entire control panel can be replaced as a module for quick and easy system restoration. 4 Standardization makes it possible to create templates for design documents, screens, and ladder programs. This increases the ability to reuse the templates, which greatly raises design efficiency. Display Section Smart Active Parts (SAP Library) ID tag I/O can also be flexibly handled. Application Module B CJ-series Unit Position Control Unit Controller Section Smart FB Library System Configuration Waste and inconsistency in design, installation and maintenance can be eliminated by supplying control panels that have the same basic operation regardless of the factory, the process, and the devices used in any country of the world. RFID Software Modules Ordering Information and Specifications Effects of Standardizing Control Panels ID Sensor Unit Applications CJ-series Unit 9 Reduce downtime due to operator error 2 Providing on-site operator training 3 Smoothly procuring maintenance parts when a malfunction occurs 4 The need to raise development efficiency for devices and facilities Product Line and Expandability Host computer Example of Standardized System Promoting Standardized Control Panels 1 Ethernet Basic Module Standardization Standardization NSJ Controller Less Effort in Designing and Debugging With production bases becoming increasingly globalized, do you have the following concerns about shipping domestically manufactured devices? By standardizing control panels based on SYSMAC One, design steps can be reduced and software assets can be reused to eliminate waste and inconsistency all the way from the design stage to system startup. Select module for each machine. I/O Control Unit Application Modules Application Module A Less Effort in Maintenance The Market Is Moving Toward Standardized Control Panels. Concept Meeting the Growing Needs for Control Panel Standardization Screen and ladder program modules can also be used. 8 1 Operating errors can be prevented by providing the same operability. Reduce temporary lower operating efficiency caused by changing operators. 2 There is no need to produce an operating manual for each device. Initial training cost can also be reduced. 3 Standardization greatly reduces the number of maintenance parts. Even if a malfunction occurs, the entire control panel can be replaced as a module for quick and easy system restoration. 4 Standardization makes it possible to create templates for design documents, screens, and ladder programs. This increases the ability to reuse the templates, which greatly raises design efficiency. Display Section Smart Active Parts (SAP Library) ID tag I/O can also be flexibly handled. Application Module B CJ-series Unit Position Control Unit Controller Section Smart FB Library System Configuration Waste and inconsistency in design, installation and maintenance can be eliminated by supplying control panels that have the same basic operation regardless of the factory, the process, and the devices used in any country of the world. RFID Software Modules Ordering Information and Specifications Effects of Standardizing Control Panels ID Sensor Unit Applications CJ-series Unit 9 Commercially available USB cable Integrated Simulation Ladder Program Window (1) Power ON (2) Simply connect the USB cable and you are ready to transfer screen data and ladder programs. Touch Screen Continue using your software assets. Touch Panel Interactive CX-Designer Designer for NS series Interactive The SAP Library, which dramatically reduces effort in design, has also been greatly expanded. CX-Programmer Ladder Programming Software Simply turn ON the power and start using it. No need for initial settings. More than 2,000 Smart Active Parts (SAP) are available for directly accessing OMRON PLCs and components. Simply copy them from the library and paste them onto the screen. There is absolutely no need to design screens or ladder programs for these objects. Set the RS-232C port for the PLC. System Configuration A setting and monitoring screen is instantly completed for Temperature Controllers Communications error: Cannot connect to PLC. CX-Designer Screen Designer for NS Series SAP Library (Temperature Controller objects) 10 Ordering Information and Specifications There is no need to connect the Controller Section and Display Section, and no need to make initial communications settings or other settings. The system starts up as soon as the power is turned ON. Even the standard-equipped DeviceNet Master is completely set in the default settings. Product Line and Expandability CX-One version 2.0 or higher on computer Ladder Program Continue to use all the screen data for NS-series PTs and ladder programs for CS/CJ-series PLCs. Promoting Standardized Control Panels The test functions of the CX-Designer Screen Designer for NS Series have been further strengthened. By selecting CX-Simulator as the connection destination, screen data and ladder programs can be simultaneously tested without even having to connect to an actual system. Less Effort in Designing and Debugging Use of a commercially available USB cable allows easy, high-speed transferring of screen data and ladder programs. There is also no need to change cables for transfers such as these. This software can be used to debug ladder programs and screens without even having to connect to an actual system. Less Effort in Maintenance Use of a single USB cable simplifies both design and debugging. The CX-One Integrated FA Tool Package Is Available Applications Advantages of One Package Concept Less Effort in Designing and Debugging 11 Commercially available USB cable Integrated Simulation Ladder Program Window (1) Power ON (2) Simply connect the USB cable and you are ready to transfer screen data and ladder programs. Touch Screen Continue using your software assets. Touch Panel Interactive CX-Designer Designer for NS series Interactive The SAP Library, which dramatically reduces effort in design, has also been greatly expanded. CX-Programmer Ladder Programming Software Simply turn ON the power and start using it. No need for initial settings. More than 2,000 Smart Active Parts (SAP) are available for directly accessing OMRON PLCs and components. Simply copy them from the library and paste them onto the screen. There is absolutely no need to design screens or ladder programs for these objects. Set the RS-232C port for the PLC. System Configuration A setting and monitoring screen is instantly completed for Temperature Controllers Communications error: Cannot connect to PLC. CX-Designer Screen Designer for NS Series SAP Library (Temperature Controller objects) 10 Ordering Information and Specifications There is no need to connect the Controller Section and Display Section, and no need to make initial communications settings or other settings. The system starts up as soon as the power is turned ON. Even the standard-equipped DeviceNet Master is completely set in the default settings. Product Line and Expandability CX-One version 2.0 or higher on computer Ladder Program Continue to use all the screen data for NS-series PTs and ladder programs for CS/CJ-series PLCs. Promoting Standardized Control Panels The test functions of the CX-Designer Screen Designer for NS Series have been further strengthened. By selecting CX-Simulator as the connection destination, screen data and ladder programs can be simultaneously tested without even having to connect to an actual system. Less Effort in Designing and Debugging Use of a commercially available USB cable allows easy, high-speed transferring of screen data and ladder programs. There is also no need to change cables for transfers such as these. This software can be used to debug ladder programs and screens without even having to connect to an actual system. Less Effort in Maintenance Use of a single USB cable simplifies both design and debugging. The CX-One Integrated FA Tool Package Is Available Applications Advantages of One Package Concept Less Effort in Designing and Debugging 11 Two Troubleshooters Come as a Standard Feature Enables a quick, on-site action without any software. The necessary countermeasure is displayed. The error details are displayed. Customer Screen-creating Window Promoting Standardized Control Panels The standard-equipped PLC Troubleshooter and DeviceNet Troubleshooter contribute to solving problems during device startup and operation. When an error occurs, simply follow the on-screen instructions to confirm the error details and quickly implement countermeasures, without referring to the manual. Troubleshooter Menu Less Effort in Designing and Debugging Launch Controller Troubleshooter Launch DeviceNet Troubleshooter Less Effort in Maintenance This button takes you directly back to the customer screen-creating window. Product Line and Expandability Concept Less Effort in Maintenance A Ladder Program Monitor Is Also Standard Easy backup without a computer. The PLC ladder program is displayed in about 5 s. Simply follow the on-screen instructions to back up both screen data and ladder programs for the Controller Section. System Configuration This software lets you monitor PLC program status, search for addresses or instructions, monitor multiple I/O points, and much more. It only takes about 5 seconds to switch from a user screen to the ladder program monitoring screen. From a selected input bit, you can also search for the next sequence output Double-click the input bit you want instruction that uses the same address. to search for. A Data Backup Function Is Also Standard Applications Switching from the operation screen to the screen for monitoring PLC ladder programs only takes about 5 seconds. Customer screen-creating window There it is! Select the item to be executed. Simply select Menu - Exit from the menus to go directly back to the user screen. 12 Easy-to-understand instructions are displayed for the backup procedure. A message is displayed to tell you that the backup has been completed. Ordering Information and Specifications Double-click 13 Two Troubleshooters Come as a Standard Feature Enables a quick, on-site action without any software. The necessary countermeasure is displayed. The error details are displayed. Customer Screen-creating Window Promoting Standardized Control Panels The standard-equipped PLC Troubleshooter and DeviceNet Troubleshooter contribute to solving problems during device startup and operation. When an error occurs, simply follow the on-screen instructions to confirm the error details and quickly implement countermeasures, without referring to the manual. Troubleshooter Menu Less Effort in Designing and Debugging Launch Controller Troubleshooter Launch DeviceNet Troubleshooter Less Effort in Maintenance This button takes you directly back to the customer screen-creating window. Product Line and Expandability Concept Less Effort in Maintenance A Ladder Program Monitor Is Also Standard Easy backup without a computer. The PLC ladder program is displayed in about 5 s. Simply follow the on-screen instructions to back up both screen data and ladder programs for the Controller Section. System Configuration This software lets you monitor PLC program status, search for addresses or instructions, monitor multiple I/O points, and much more. It only takes about 5 seconds to switch from a user screen to the ladder program monitoring screen. From a selected input bit, you can also search for the next sequence output Double-click the input bit you want instruction that uses the same address. to search for. A Data Backup Function Is Also Standard Applications Switching from the operation screen to the screen for monitoring PLC ladder programs only takes about 5 seconds. Customer screen-creating window There it is! Select the item to be executed. Simply select Menu - Exit from the menus to go directly back to the user screen. 12 Easy-to-understand instructions are displayed for the backup procedure. A message is displayed to tell you that the backup has been completed. Ordering Information and Specifications Double-click 13 Production control system Simple positioning control Production control information is given by the host computer concerning production progress, retooling instructions, alarms, etc. Simple positioning control can be achieved by connecting the NSJ to a robot controller. Control Section (above device) Ethernet Controller Section Operating section (positioning stage) XY axis robot Display Section Control section (concentrated in lower part of device) Built-in Ethernet port DeviceNet DeviceNet I/O Robot controller with positioner DeviceNet [NSJ Series Advantages] the Display Section and Controller Section can be accessed through a single Ethernet port. ••Both Information for the Controller Section and Display Section (such as alarms) can be received at a host computer. is no need to make initial settings for the Display Section or Controller Section. ••There Using the built-in Ethernet port eliminates the need for an Expansion Unit. [NSJ Series Advantages] positioning control can be achieved with minimal wiring by directly connecting the NSJ •Simple to a robot controller. can also be directly connected to reduce wiring. ••I/O There is no more need for PLC space in the bottom of the control panel. POP system DeviceNet monitoring Products are controlled by a bar code reader. Information is uploaded to a host computer for product information management. The smart functions of various slaves connected to DeviceNet can be monitored. Promoting Standardized Control Panels NSJ (with DeviceNet as standard feature) Less Effort in Designing and Debugging Target production number: 5000 Daily production number: 4340 Less Effort in Maintenance 2006/4/25 11:45 No workpieces on the line 2006/4/25 13:57 Emergency stop Product Line and Expandability Concept Application Examples Applications Example: By using a Slave Unit to count the number of ON/OFF operations for a device, or to count the total operating hours, the NSJ can inform the operator when it is time to conduct maintenance. Ethernet Process B POP terminal OMRON CJ-series PLC Smart Slaves System Configuration Process A DeviceNet [NSJ Series Advantages] [NSJ Series Advantages] terminal can be installed anywhere since it saves space. ••The Connection with the host can be made using the built-in Ethernet port. 14 and diagnostic functions can be added to the control panel. ••Monitoring Wiring and space requirements are reduced, and the NSJ can be added on later. The number of design steps can be reduced for screen design and ladder programming by •using the Smart Active Parts (SAP) Library and troubleshooter functions. Ordering Information and Specifications Bar code reader 15 Production control system Simple positioning control Production control information is given by the host computer concerning production progress, retooling instructions, alarms, etc. Simple positioning control can be achieved by connecting the NSJ to a robot controller. Control Section (above device) Ethernet Controller Section Operating section (positioning stage) XY axis robot Display Section Control section (concentrated in lower part of device) Built-in Ethernet port DeviceNet DeviceNet I/O Robot controller with positioner DeviceNet [NSJ Series Advantages] the Display Section and Controller Section can be accessed through a single Ethernet port. ••Both Information for the Controller Section and Display Section (such as alarms) can be received at a host computer. is no need to make initial settings for the Display Section or Controller Section. ••There Using the built-in Ethernet port eliminates the need for an Expansion Unit. [NSJ Series Advantages] positioning control can be achieved with minimal wiring by directly connecting the NSJ •Simple to a robot controller. can also be directly connected to reduce wiring. ••I/O There is no more need for PLC space in the bottom of the control panel. POP system DeviceNet monitoring Products are controlled by a bar code reader. Information is uploaded to a host computer for product information management. The smart functions of various slaves connected to DeviceNet can be monitored. Promoting Standardized Control Panels NSJ (with DeviceNet as standard feature) Less Effort in Designing and Debugging Target production number: 5000 Daily production number: 4340 Less Effort in Maintenance 2006/4/25 11:45 No workpieces on the line 2006/4/25 13:57 Emergency stop Product Line and Expandability Concept Application Examples Applications Example: By using a Slave Unit to count the number of ON/OFF operations for a device, or to count the total operating hours, the NSJ can inform the operator when it is time to conduct maintenance. Ethernet Process B POP terminal OMRON CJ-series PLC Smart Slaves System Configuration Process A DeviceNet [NSJ Series Advantages] [NSJ Series Advantages] terminal can be installed anywhere since it saves space. ••The Connection with the host can be made using the built-in Ethernet port. 14 and diagnostic functions can be added to the control panel. ••Monitoring Wiring and space requirements are reduced, and the NSJ can be added on later. The number of design steps can be reduced for screen design and ladder programming by •using the Smart Active Parts (SAP) Library and troubleshooter functions. Ordering Information and Specifications Bar code reader 15 Suitable to a Wide Range of Applications System Configuration A variety of networks can be easily constructed using the standardequipped DeviceNet, USB, Ethernet, and RS-232C interfaces. This increases the types of equipment that can be connected to the NSJ Series in addition to the wide line-up of highly compatible OMRON control components, and provides a level of expandability that meets virtually all application needs. Combined use (the Display Section and Controller Section can be accessed from a single port) Controller Section (for use with ladder programs, etc.) Display Section (for directly uploading graphs or making settings) USB Printer Commercially available USB cable Screen image printing PictBridge (See note.) Commercially available USB cable Note: Available soon. PictBridge-compatible printer USB Computer PLC Commercially available USB cable Ethernet PLC Ethernet WE70 *1 Wireless communications WE70 *1 *1. Wireless (WE70) is final order entry date at the end of June 2020. Ethernet Computer PLC RS-232C PT-to-PLC Connecting Cable XW2Z-200T (Length: 2 m) XW2Z-500T (Length: 5 m) Bar Code Reader Recommended: OMRON V520-RH21-6 *2 *2. Bar Code Reader (V520-RH21-6) was discontinued at the end of August 2016. Computer RS-232C USB Screen Transfer Cable XW2Z-S002 (Length: 2 m) USB Serial Conversion Cable CS1W-CIF31 Screen Transfer Cable XW2Z-S002 (Length: 2 m) Screen ladder transfers Microcomputer boards Computers, etc. Temperature Controller (E5 N, EJ1, etc.) PLC 16 Memory Link CompoWay/F (direct display, ladderless communications) RS-422A Concept Memory Card interface (Controller Section) For saving alarm history, data log, etc. OMRON Memory Card For saving ladder program backup, PLC log data, etc. Note: The CX-Designer not supported. RS-422A Conversion Unit CJ1W-CIF11 (for distances of 50 m max.) NS-AL002 (for distances of 500 m max.) Screen Transfer Cable XW2Z-S002 (Length: 2 m) Screen Transfer Cable XW2Z-S002 (Length: 2 m) RS-232C USB Serial Conversion Cable CS1W-CIF31 USB Bar Code Reader Serial Less Effort in Designing and Debugging Computer Printer Applications RS-422A Conversion Unit CJ1W-CIF11 Temperature Controller NS-AL002 (E5 N, EJ1, etc.) Less Effort in Maintenance Serial I/O terminal or other general-purpose slave System Configuration USB USB Ethernet Master Slave port Port A Port B Promoting Standardized Control Panels Port C GRT1 Series Non-OMRON equipment Ordering Information and Specifications DeviceNet port OMRON Memory Card Product Line and Expandability The photo shows the rear panel of the NSJ8. Memory Card interface (Display Section) 17 MEMO 18 Ordering Information and Specifications Standard Models .................................................................................................................. 20 ■ Controllers............................................................................................................................................ 20 ■ Options and Expansion Units............................................................................................................... 21 ● Differences between the NSJ@-@@@@-G5D and NSJ@-@@@@-M3D .................................................................. 21 General Specifications.......................................................................................................... 22 ■ NSJ Controllers.................................................................................................................................... 22 ■ NSJ Expansion Units ........................................................................................................................... 22 Controller Section Specifications.......................................................................................... 23 Display Section Specifications.............................................................................................. 26 Communications Section Specifications............................................................................... 27 ■ DeviceNet Section ............................................................................................................................... 27 ■ Controller Link (Wired) ......................................................................................................................... 27 ■ Ethernet Unit........................................................................................................................................ 28 ■ Differences between the Built-in Ethernet and Ethernet Unit Ports ..................................................... 28 Support Software.................................................................................................................. 29 ■ Ordering Information ............................................................................................................................ 29 Dimensions........................................................................................................................... 30 ●International Standards • The standards are abbreviated as follows: U: UL, U1: UL (Class I Division 2 Products for Hazardous Locations), C: CSA, UC: cULus, UC1: cULus (Class I Division 2 Products for Hazardous Locations), CU: cUL, N: NK, L: Lloyd, and CE: EC Directives. • Contact your OMRON representative for further details and applicable conditions for these standards. ●EC Directives The EC Directives applicable to PLCs include the EMC Directives. OMRON complies with these directives as described below. ● EMC Directives Applicable Standards EMI: EN61131-2 EN61000-6-4 EMS: EN61131-2 EN61000-6-2 PLCs are electrical devices that are incorporated in machines and manufacturing installations. OMRON PLCs conform to the related EMC standards so that the devices and machines into which they are built can more easily conform to EMC standards. The actual PLCs have been checked to ensure conformity to EMC standards. Whether these standards are satisfied for the actual system, however, must be checked by the customer. EMS-related performance will vary depending on the configuration, wiring, and other conditions of the equipment or control panel in which the PLC is installed. The customer must, therefore, perform final checks to confirm that the overall machine or device conforms to EMC standards. Note: The applicable EMS standards depend on the product. 19 Standard Models ■Controllers NSJ@-@@@@-G5D Controller Section Name I/O Display Section LD FB User Extended Number of instruction program Data program data Expansion execution memory memory memory memory Racks time (bytes) Built-in Display device 5.7-inch color Highluminance TFT LCD SYSMAC One 1280 NSJpoints series NSJ Controller EM: 128 32 60 Kwords Kwords Ksteps (DM: 32 ×3 Kwords) banks 8.4-inch color TFT LCD 0.04 µs 3 Ethernet Case Effective Resolution port color display area Ivory 117.2 × 88.4 mm (W × H) Black (5.7 inches) 170.9 × 128.2 mm (W × H) Black (8.4 inches) 12.1-inch color TFT LCD Ivory Black Ivory Black 215.2 × 162.4 mm (W × H) (10.4 inches) 246.0 × 184.5 mm (W × H) (12.1 inches) Standards NSJ5-TQ11-G5D UC1, CE UL Type4 Yes NSJ5-TQ11B-G5D NSJ8-TV01-G5D Ivory 1024 KB 10.4-inch color TFT LCD 320 × 240 (QVGA) Model number UC1, CE Yes NSJ8-TV01B-G5D 640 × 480 (VGA) NSJ10-TV01-G5D Yes NSJ10-TV01B-G5D UC1, CE UL Type4 800 × 600 (SVGA) NSJ12-TS01-G5D Yes NSJ12-TS01B-G5D Note: Production of the NSJ@-@@@@(B)-M3D, NSJ5-SQ1@(B)-G5D, NSJ5-TQ10(B)-G5D, NSJ8-TV00(B)-G5D, NSJ10-TV00(B)-G5D and NSJ12-TS00(B)-G5D have been discontinued at the end of September 2012. 20 Standard Models ■Options and Expansion Units Name Specifications Model For increasing the number of Controller Link ports NSJ Controller Link Unit Same as the CJ1W-CLK21-V1 Controller Link Unit for the CJ Series. Expansion NSJ Ethernet Unit Units NSJ I/O Control Unit I/O Connecting Cables Memory Cards (for both Controller Section and Display Section) NSJW-ETN21 For adding CJ-series Expansion Racks. Same as the CJ1W-IC101 I/O Control Unit for the CJ Series. Use the following I/O Connecting Cables. NSJW-IC101 0.3 m CS1W-CN313 0.7 m CS1W-CN713 2m CS1W-CN223 3m CS1W-CN323 5m CS1W-CN523 10 m CS1W-CN133 12 m CS1W-CN133-B2 Flash memory: 128 MB HMC-EF183 Flash memory: 256 MB HMC-EF283 Flash memory: 512 MB HMC-EF583 Memory Card Adapter (for computer PCMIA slot) Connects computer, D-Sub 9-pin, Length: 2.0 m Peripheral Device Connecting Cables for the RS-232C port Connects computer, D-Sub 9-pin, Length: 5.0 m Connects computer, D-Sub 9-pin, Length: 2.0 m Connects computer, D-Sub 9-pin, Length: 5.0 m RS-422A Conversion Adapter Battery life NSJW-CLK21-V1 For increasing the number of Ethernet ports Same as the CJ1W-ETN21 Ethernet Unit for the CJ Series. For connecting CJ-series Expansion Racks. Adapter for converting a RS-232C port to a RS422A/485 port. Standards HMC-AP001 Used for peripheral bus or Host Link. Anti-static connectors XW2Z-200S-CV Used for Host Link only. Peripheral bus not supported. XW2Z-200S-V XW2Z-500S-CV UC1, CE N, L, CE N, L, CE CE --- XW2Z-500S-V Communications distance: 500 m max. NS-AL002 --- Communications distance: 50 m max. CJ1W-CIF11 UC1, CE, N, L CJ1W-BAT01 CE 5 years at 25°C ● Differences between the NSJ@-@@@@-G5D and NSJ@-@@@@-M3D Function Model NSJ@-@@@@-G5D NSJ@-@@@@-M3D (The following models are discontinued.) UM capacity 60 Ksteps 20 Ksteps I/O 1,280 points 640 points Extended data memory 32 Kwords × 3 banks None EM file memory Yes None Maximum number of Expansion Racks 3 1 FB program memory capacity 1024 KB 256 KB Maximum number of FB definitions 1,024 128 Maximum number of FB instances 2,048 256 Variable table size 128 KB 64 KB 21 General Specifications Parts Names Expansion Unit RUN Display Section Controller Section ■NSJ Controllers Specifications Items Model Supply voltage NSJ12-TS01-G5D NSJ10-TV01-G5D NSJ8-TV01-G5D NSJ5-TQ11-G5D 24 VDC Allowable supply voltage range 20.4 to 27.6 VDC (24 VDC ±15%) Power consumption 30 W max. Current consumption Controller Section Internal 5 V: 500 mA max. DeviceNet Section Internal 5 V: 200 mA max., External 24 V: 18 mA max. Inrush current (See note 1.) At 24 VAC: 10 A/20 ms max. for cold start at room temperature TQ1@: 22 W max. Ambient operating temperature 90° to 60°: 0 to 50°C (depending on angle of display sur- 60° to 30°: 0 to 45°C face off horizontal) (See note 2.) 30° to 0°: Use prohibited. 90° to 30°: 0 to 50°C 30° to 0°: 0 to 40°C Ambient storage temperature −20 to 60°C Ambient operating humidity 0 to 40°C: 35% to 85% (with no condensation) 40 to 50°C: 35% to 60% (with no condensation) Ambient operating environment No corrosive gases Insulation resistance 20 MΩ min. (at 100 VDC) between DC external and GR terminals Dielectric strength 800 VDC for 1 min between DC external and GR terminals, leakage current: 10 mA max. Noise immunity 2 kV on power supply line (conforming to IEC 61000-4-4) Vibration resistance (during operation) 10 to 57 Hz, 0.075-mm amplitude, 57 to 150 Hz, acceleration: 9.8 m/s2 in X, Y, and Z directions for 80 minutes Shock resistance (during operation) 147 m/s2, 3 times each in X, Y, and Z directions External dimensions (See note 3.) Without Expansion Unit 315 × 241 × 73.3 mm (W × H × D) With Expansion Unit 315 × 241 × 89.3 mm (W × H × D) +1 +1 302 0 × 228 0 mm (W × H) Panel thickness: 1.6 to 4.8 mm Panel cutout dimensions 232 × 177 × 73.3 mm (W × H × D) 195 × 142 × 79 mm (W × H × D) 232 × 177 × 89.3 mm (W × H × D) 195 × 142 × 95 mm (W × H × D) +0.50 +0.50 +0.50 +0.5 220.5 0 × 165.5 0 mm (W × H) 184 0 × 131 0 mm (W × H) Panel thickness: 1.6 to 4.8 mm Panel thickness: 1.6 to 4.8 mm Grounding 100 Ω or less Weight 2.7 kg max. Degree of protection Front operating panel: Equivalent to IP65 Oil-proof type and NEMA4 (See note 4.) Battery life 5 years (at 25°C) The SRAM and RTC will be backed up for 5 days after the battery runs low (i.e., after the indicator lights orange). The SRAM and RTC will be backed up by a super capacitor for 5 minutes after removing the old battery (i.e., after turning ON power after 5 minutes). International standards Conforms to cULus and EC Directives. 2.5 kg max. 2.0 kg max. 1.1 kg max. Front operating panel: Equivalent to IP65 Oil-proof type, NEMA4 and UL Type 4 (See note 4.) Note 1. A delay circuit that charges a capacitor is used to limit the inrush current. If a hot start is performed when the power supply has been OFF only a short period of time, the capacitor will still be charged and the inrush current specified above will be exceeded by up to approximately five times the specified value. When selecting fuses or breakers for external circuits, allow sufficient margin in the melting temperatures, detection characteristics, and inrush current Note 2. Display angles off horizontal are as follows: 90° e ac urf ys pla s i D 30° Horizontal 0° Note 3. For detailed information, refer to “Dimensions” on page 30. Note 4. May not be applicable in locations with long-term exposure to oil. ■NSJ Expansion Units Controller Link Unit Ethernet Unit Item Model Specifications Specifications Model Current consumption 300 mA Current consumption 370 mA Weight 100 g max. Weight 100 g max. Note: Other general specifications are the same as the NSJ Controller. I/O Control Unit Item Model Specifications NSJW-IC101 Current consumption 20 mA Weight 100g max. Note: Other general specifications are the same as the NSJ Controller. 22 Item NSJW-CLK21-V1 NSJW-ETN21 Note: Other general specifications are the same as the NSJ Controller. Controller Section Specifications Item Specifications Control method Stored program I/O control method Cyclic scan and immediate processing are both possible. Programming Ladder diagram CPU processing modes Normal Mode, Parallel Processing Mode with Asynchronous Memory Access, Parallel Processing Mode with Synchronous Memory Access, and Peripheral Servicing Priority Mode Instruction length 1 to 7 steps per instruction Ladder instructions Approx. 400 (3-digit function codes) Execution time Basic instructions Special instructions 0.04 µs min. 0.06 µs min. Overhead time Normal mode: 0.3 ms Parallel processing: 0.3 ms Installation Installed using Panel Mounting Bracket. Mountable Expansion Units One of the following can be mounted as an Expansion Unit: • NSJ I/O Control Unit (NSJW-IC101) • NSJ Controller Link Unit (NSJW-CLK21-V1) • NSJ Ethernet Unit (NSJW-ETN21) Maximum number of Expansion Racks • With the NSJW-IC101 I/O Control Unit mounted, a maximum of three CJ-series Expansion Racks can be used with the NSJ@-@@@@(B)-G5D. • A CJ-series CJ1W-II101 Interface Unit and Power Supply Unit are required for each Expansion Rack. Maximum number of connectable Units • Per Expansion Rack: 10 Units max. (Basic I/O Units, Special I/O Units, or CPU Bus Units) • A maximum of 30 Units (10 Units on CJ-series Expansion Rack × 3) can be mounted to the entire NSJ@-@@@@(B)-G5D system. Number of tasks 288 (cyclic tasks: 32, interrupt tasks: 256) Interrupt tasks can be defined as cyclic tasks called “extra cyclic tasks.” Including these, up to 288 cyclic tasks can be used. Note 1. Cyclic tasks are executed each cycle and are controlled with TKON(820) and TKOF(821) instructions. Note 2. The following 3 types of interrupt tasks are supported: Power OFF interrupt task: 1 max., Scheduled interrupt tasks: 2 max., External interrupt tasks: 256 max. Interrupt types Scheduled Interrupts: Interrupts generated at a time scheduled by the Controller Section’s built-in timer. (See note. 1) Power OFF Interrupt (See note 2.): Interrupt executed when the Controller Section’s power is turned OFF. External I/O Interrupts: Interrupts from the Special I/O Units or CPU Bus Units. Note 1. Scheduled interrupt time interval is either 1 ms to 9,999 ms or 10 ms to 99,990 ms, in units of 1 ms or 10 ms. Note 2. Not supported when the CJ1W-PD022 Power Supply Unit is mounted. Calling subroutines from more than one task Supported using global subroutines. Function blocks Languages supported in function block definitions: Ladder programming language and structured text I/O Area 2,560 (160 words): CIO 000000 to CIO 015915 (words CIO 0000 to CIO 0159) The setting of the first rack word can be changed from the default (CIO 0000) so that CIO 0000 to CIO 0999 can be used. I/O bits are allocated to Basic I/O Units. Link Area 3,200 (200 words): CIO 10000 to CIO 119915 (words CIO 1000 to CIO 1199) CPU Bus Unit Area 6,400 (400 words): CIO 150000 to CIO 189915 (words CIO 1500 to CIO 1899) CPU Bus Unit bits store operating status of CPU Bus Units. (25 words per Unit, 16 Units max.) Inner Board Area 1,600 (100 words): CIO 190000 to CIO 199915 (words CIO 1900 to CIO 1999) Bits in the Inner Board Area are allocated to the display status area. CIO (Core I/O) C200H Special I/O Unit Area Area 15,360 (960 words): CIO 200000 to CIO 295915 (words CIO 2000 to CIO 2959) Bits in the Special I/O Area can be allocated to Special I/O Units (10 words per Unit, 96 Units max.) DeviceNet Area 9,600 (600 words): CIO 320000 to CIO 379915 (words CIO 3200 to CIO 3799) DeviceNet bits are allocated to Slaves for DeviceNet Section remote I/O communications when the master function is used with fixed allocations. Fixed allocation setting 1 Outputs: CIO 3200 to CIO 3263 Inputs: CIO 3300 to CIO 3363 Fixed allocation setting 2 Outputs: CIO 3400 to CIO 3463 Inputs: CIO 3500 to CIO 3563 Fixed allocation setting 3 Outputs: CIO 3600 to CIO 3663 Inputs: CIO 3700 to CIO 3763 Note: The following words are allocated to the master function even when the DeviceNet Unit is used as a slave. Fixed allocation setting 1 Outputs: CIO 3370 (master to slave) Inputs: CIO 3270 (slave to master) Fixed allocation setting 2 Outputs: CIO 3570 (master to slave) Inputs: CIO 3470 (slave to master) Fixed allocation setting 3 Outputs: CIO 3770 (master to slave) Inputs: CIO 3670 (slave to master) CIO (Core I/O) Area 4,800 (300 words): CIO 120000 to CIO 149915 (words CIO 1200 to CIO 1499) 37,504 (2,344 words): CIO 380000 to CIO 614315 (words CIO 3800 to CIO 6143) These bits in CIO Area are used as work bits in programming to control program execution. They cannot be used for external I/O. Work Area 8,192 bits (512 words): W00000 to W51115 (words W000 to W511) Control programs only. (I/O from external I/O terminals is not possible.) Note: When using work bits in programming, use bits in Work Area first before using bits from other areas. Work bits Holding Area 8,192 bits (512 words): H00000 to H51115 (words H000 to H511) Holding bits are used to control execution of program, and maintain their ON/OFF status when the PLC is turned OFF or operating mode is changed. Note: Words H512 to H1535 are allocated to the Function Block Holding Area and are used only for the function block instance area (internally allocated variable area). Auxiliary Area Read only: 7,168 bits (448 words): A00000 to A44715 (words A000 to A447) Read/write: 8,192 bits (512 words): A44800 to A95915 (words A448 to A959) Auxiliary bits are allocated specific functions. The CIO Area can be used as work bits if the bits are not used as shown here. 23 Controller Section Specifications Item Temporary Area Specifications 16 bits (TR00 to TR15) Temporary bits are used to store ON/OFF execution conditions at program branches. Timer Area 4,096: T0000 to T4095 (used for timers only) Counter Area 4,096: C0000 to C4095 (used for counters only) 32 Kwords: D00000 to D32767 DM Area Used to set parameters for Special I/O Units. CPU Bus Unit DM Area: D30000 to D31599 (100 words × 16 Units). Used to set parameters for CPU Bus Units. Used as a general-purpose data area for reading and writing data in word units (16 bits). Words in the DM Area maintain their status when the NSJ Controller is turned OFF or the operating mode is changed. EM Area NSJ@-@@@@(B)-G5D: 32 Kwords per bank, 3 banks max.: E0_00000 to E2_32767 max. Used as a general-purpose data area for reading and writing data in word units (16 bits). Words in EM Area maintain their status when the NSJ Controller is turned OFF or operating mode is changed. The EM Area is divided into banks, and addresses can be set by either of following methods. Changing current bank using the EMBC (281) instruction and setting addresses for the current bank. Setting bank numbers and addresses directly. EM data can be stored in files by specifying number of first bank. (EM file memory) Index Registers IR0 to IR15. Store actual memory addresses for indirect addressing. Index registers can be used independently in each task. One register is 32 bits (2 words). Index registers can be specified as shared or independent for each task. Task Flag Area 32 (TK0000 to TK0031). Task Flags are read-only flags that are ON when corresponding cyclic task is executable and OFF when corresponding task is not executable or in standby status. Trace Memory 4,000 words (traceable data: 31 bits and 6 words) File Memory Memory Cards: Compact flash memory cards can be used (MS-DOS format). EM file memory: Part of EM Area can be converted to file memory (MS-DOS format). The NSJ@-@@@@(B)-M3D does not support EM file memory. Functions Constant cycle time 1 to 32,000 ms (Unit: 1 ms) Note: Using the Parallel Processing Mode will create a constant cycle time for program execution. Cycle time monitoring Possible (Unit stops operating if cycle is too long): 10 to 40,000 ms (Unit: 10 ms) Note: When the Parallel Processing Mode is used, the program execution cycle is monitored. Controller Section operation will stop if the peripheral servicing time exceeds 2 s. I/O refreshing Cyclic refreshing, immediate refreshing, refreshing by IORF(097). Note: IORF(097) refreshes I/O bits allocated to Basic I/O Units and Special I/O Units. The CPU BUS UNIT I/O REFRESH (DLNK(226)) instruction can be used to refresh bits allocated to CPU Bus Units in the CIO and DM Areas. Timing of refreshing for CPU Bus Units Data links for Control Link Units, remote I/O communications for DeviceNet Units, and other special data for CPU Bus Units is refreshed at the following times. During I/O refresh period or when CPU BUS UNIT I/O REFRESH (DLNK(226)) instruction is executed. I/O memory holding when changing operating modes Depends on ON/OFF status of IOM Hold Bit in Auxiliary Area. Load OFF All outputs on Output Units can be turned OFF when the Controller Section is operating in RUN, MONITOR, or PROGRAM mode. Timer/counter PV refresh method BCD or binary (CX-Programmer version 3.0 or higher) Input time constant setting Time constants can be set for inputs from CJ-series Basic I/O Units. The time constant can be increased to reduce influence of noise and chattering or it can be decreased to detect shorter pulses on inputs. Mode setting at power-up The operating mode can be specified. Flash memory • The user program and parameter area data (e.g., PLC Setup) are always backed up automatically in flash memory. (automatic backup and restore.) • When downloading projects from CX-Programmer Ver. 5.0 or higher, symbol table files (including CX-Programmer symbol names, I/O comments), comment files (CX-Programmer rung comments, other comments), and program index files (CXProgrammer section names, section comments, or program comments) are stored in comment memory within the flash memory. Memory Card functions (Controller Section) 24 Special I/O Unit DM Area: D20000 to D29599 (100 words × 96 Units). The bits on the left can be used as work bits when they are not used for their normal application Automatically reading programs (autoboot) from the Memory Card when the power is turned ON. Possible Program replacement during Controller Section operation Possible Memory Card storage data User program: Program file format PLC Setup and other parameters: Data file format I/O memory: Data file format (binary), text format, CSV format Memory Card read/write method User program instructions, Programming Devices (including CX-Programmer and Programming Console), Host Link computers, Auxiliary Area control bits, easy backup operation Filing (Controller Section) Memory Card data and EM (Extended Data Memory) Area can be handled as files. Debugging Force-set/reset, differential monitoring, data tracing (scheduled, each cycle, or when instruction is executed), storing location generating error. Controller Section Specifications Item Specifications Online editing User programs can be overwritten in program block units when the Controller Section is in MONITOR or PROGRAM mode. This function is not supported for block programming areas. With the CX-Programmer, more than one program block can be edited at the same time. Program protection Overwrite protection: Set using DIP switch or via the password from CX-Programmer peripheral device. Copy protection: Password set using CX-Programmer. Error check User-defined errors (i.e., user can define fatal errors and non-fatal errors) The FPD(269) instruction can be used to check execution time and logic of each programming block. Note: FAL and FALS instructions can be used to simulate errors. Error log Up to 20 errors are stored in error log. Information includes error code, error details, and time error occurred. Note: The Controller Section can be set so that user-defined FAL errors are not stored in the error log. Provided on all models. Accuracy: Clock Ambient temperature 25°C Monthly variation −1.5 to +1.5 min Note 1. Accuracy varies with the temperature. Note 2. Used to store time when power is turned ON and when errors occur. Functions Power OFF detection time 2 ms Power OFF detection delay time 0 ms fixed Memory protection Held Areas: Holding bits, Data Memory, Extended Data Memory, and status of counter Completion Flags and present values. Note: If IOM Hold Bit in Auxiliary Area is turned ON, and PLC Setup is set to maintain IOM Hold Bit status when power to the NSJ Controller is turned ON, contents of CIO Area, Work Area, part of Auxiliary Area, timer Completion Flag and present values, Index Registers, and Data Registers will be saved. Sending commands FINS commands can be sent to a computer connected via Host Link System by executing Network Communications to a Host Link computInstructions from the Controller Section. er Remote programming and monitoring Host Link communications can be used for remote programming and remote monitoring through a Controller Link System or Ethernet network. Eight-level communications Host Link communications can be used for remote programming and remote monitoring from devices on networks up to eight levels away (Controller Link Network, Ethernet Network, or other network). Storing comments in CPU Unit I/O comments can be stored as symbol table files in Memory Cards in the Controller Section, EM file memory, or Comment Memory (see note). Note: Supported for CX-Programmer Ver. 5.0 or later only. Program check Program checks are performed at the beginning of operation for items such as no END(001) instruction and instruction errors. CX-Programmer can also be used to check programs. Battery life 5 years at 25°C (The battery life depends on the ambient operating temperature; 1.1 years min.) (Battery set: CJ1W-BAT01; Use a Replacement Battery that is within two years of its date of manufacture.) Self-diagnostics Controller Section errors (watchdog timer), I/O bus errors, memory errors, and battery errors Other functions Storage of number of times power has been interrupted. (Stored in A514.) 25 Display Section Specifications Built-in ports Model USB port (Slave: For Support Software) RS-232C port Display Section DeviceNet Ethernet port port USB port (Host: For printer) Display color NSJ5-TQ11-G5D 10/ 100Base-T None NSJ8-TV01-G5D NSJ8-TV01B-G5D 1 port NSJ10-TV01-G5D 10/ 100Base-T 256 colors (BMP/JPEG, 32,768 colors for images) 1 port 10/ 100Base-T NSJ10-TV01B-G5D NSJ12-TS01-G5D 10/ 100Base-T NSJ12-TS01B-G5D 1 port Language Standard screen data capacity Right/left: ±80°, Top: 80°, Bottom: 60° (See note 1.) NSJ5-TQ11B-G5D 3 ports •Display Section: Serial ports A, B •Controller Section: Serial port Field of view Right/left: ±80°, Top: 80°, Bottom: 60° (See note 1.) Right/left: ±70°, Top: 65°, Bottom: 65° (See note 1.) Eight languages 60 MB (See note 2.) Right/left: ±80°, Top: 80°, Bottom: 80° (See note 1.) Note 1. LotNo.15Z10 or later of NS5 models, LotNo. 28X11 or later of NS8 models, LotNo. 11Y11 or later of NS10 models, LotNo. 14Y11 or later of NS12 models. Note 2. Japanese, English, Chinese (traditional and simplified), Spanish, Italian, German, and French. 26 Communications Section Specifications ■DeviceNet Section Item Specifications Communications protocol DeviceNet DeviceNet master/slave Can function as master or slave. Connection forms (See note 1.) Combination of multi-drop and T-branch connections (for trunk or branch lines) Terminating resistance. SW4 (TER) is used to connect/disconnect terminating resistance. The TER indicator lights when terminating resistance is connected. Baud rate 500 kbps, 250 kbps, or 125 kbps (Set via DIP switch.) Communications distances Baud rate Network length Branch line length Total branch line length 500 kbps 100 m max. 6 m max. 39 m max. 250 kbps 250 m max. (See note 2.) 6 m max. 78 m max. 125 kbps 500 m max. (See note 2.) 6 m max. 156 m max. Max. number of Slaves 63 Slaves Error control CRC error check, node address redundancy check, scan list verification Cable Special 5-wire cable (2 signal lines, 2 power lines, 1 shield line) Note 1. Terminating resistance is required at both ends of the trunk line. Note 2. Communications distances are for Thick Cables. Keep the maximum network length to 100 m or less when using Thin Cables. ■Controller Link (Wired) Item Specifications Communications method N: N token bus Code Manchester code Modulation Baseband code Synchronization Flag synchronization (conforms to HDLC frames) Error control Manchester code checks and CRC checks (CCITT X16+X12+X5+1) Transmission path form Multi-drop bus Baud rate and maximum transmission distance The maximum transmission distance varies with the baud rate as follows: 2 Mbps: 500 m 1 Mbps: 800 m 500 Kbps: 1 km Media Specified shielded twisted-pair cable Number of signal lines: 2, shield line: 1 Node connection method NSJ Controller Link Unit: Connected via a special connector (included) PLC: Connected to a terminal block IBM PC/AT or compatible: Connected via a special connector (included) Maximum number of nodes 32 or 62 nodes (See note 1.) Communications functions Data links and message service Number of data link words • Transmission area per node: 1,000 words max. • Data link area (send/receive words) per node NSJ Controller: 20,000 words CS/CJ Series: 20,000 words max. (unit Ver. 1.2 or later) 12,000 words max. (pre-Ver. 1.2) SYSMAC α, CVM1/CV, CQM1H: 8,000 words max. Personal computer: 32,000 or 62,000 words max. (See note 2.) Data link areas Bit-access areas (IR, AR, LR, CIO), DM Area (DM), and extended DM Area (EM) Message length 2,012 bytes max. (including the header) RAS functions • Polling node backup function • Self-diagnosis function (hardware checking at startup) • Echoback test and broadcast test (using the FINS command) • Watchdog timer • Error log function Note 1. At least one Repeater Unit (CS1W-RPT01) is required to construct networks that uses a node address higher than 32. The following Controller Link Units/Support Boards must also be used, and the Wired Network 62 Node Enable Bit of the DM Parameter Area software switch of all nodes must be turned ON (62 nodes max.). CS1W-CLK23, CJ1W-CLK23, 3G8F7-CLK23, and NSJW-CLK21-V1 Note 2. For a maximum configuration of 62 nodes For other specifications, refer to the Controller Link Unit Operation Manual (Cat. No. W309). 27 Communications Section Specifications ■Ethernet Unit Item Specifications Type 100Base-TX (can be used as 10Base-T) Media access method CSMA/CD Modulation method Baseband Transmission paths Star form Baud rate 100 Mbps (100Base-TX) 100 Mbps (10Base-T) Transmission media Unshielded twisted-pair (UTP) cable Categories: 5, 5e Shielded twisted-pair (STP) cable Categories: 100 Ω at 5, 5e Unshielded twisted-pair (UTP) cable Categories: 3, 4, 5, 5e Shielded twisted-pair (STP) cable Categories: 100 Ω at 3, 4, 5, 5e Transmission distance 100 m (distance between hub and node) Number of cascade connections 2 Functions • FINS communications service • Socket services (UDP/TCP) • FTP server • Email send/receive • Automatic clock adjustment 4 Note: Refer to the Ethernet Units Construction of Networks Operation Manual (Cat. No. W420) and the Ethernet Units Construction of Applications Operation Manual (Cat. No. W421) for other specifications. ■Differences between the Built-in Ethernet and Ethernet Unit Ports Built-in Ethernet port Ethernet Unit port Communications with another host (PLC) Ethernet NSJ NSJ PLC Communications is possible with another host via Ethernet. For example, from one NSJ Controller, data can be displayed or Same functions as at left. settings can be made to another NSJ Controller or PLC. ■Support Software Connections CX-One (CX-Programmer, CX-Designer, etc.) can be used via Ethernet. Connection with a host computer Screen data and ladder programs can be transferred from a Same functions as at left, plus the following: host computer. Host computer • A Memory Card in the Controller Section can be accessed. ■Access to a Memory Card in the Display Section • The clock can be set using SNTP A memory card in the Display Section can be accessed using • TCP/IP support (See note.) Support Software or FTP and Ethernet. For example, Display (The Memory Card in the Display Section cannot be Ethernet Section recipe data and alarm or data log files can be accessed.) downloaded from a host computer. NSJ ■Access to the Host from a Host Application Note: Ethernet (FINS/TCP) not supported by CX-Programmer. A host computer can access the Controller Section using FINS communications. For example, an application on a host computer can read or data can be written to the NSJ data memory (DM) (UDP only). 28 E-mail --- E-mail can be sent and received. Communications using ladder programming --- • Socket communications are possible using the CMND instruction. • SEND/RCV instructions Support Software ■Ordering Information Product name FA Integrated Tool Package CX-One Ver.4.@ Specifications Number of licenses The CX-One is a comprehensive software package that integrates Support Software for OMRON PLCs and components. CX-One runs on the following OS. Windows 7 (32-bit/64-bit version) / Windows 8 (32-bit/64-bit version) / Windows 8.1 (32-bit/64-bit version) / Windows 10 (32-bit/64-bit version) 1 licence (See note.) Media DVD Model CXONE-AL01D-V4 Standards --- CX-One Ver.4.@ includes CX-Designer Ver.3.@. For details, refer to the CX-One catalog (Cat. No. R134). Note: Multi licenses (3, 10, 30, or 50 licenses) and DVD media without licenses are also available for the CX-One. 29 Dimensions (Unit: mm) NSJ12-TS01(B)-G5D NSJ10-TV01(B)-G5D With NSJW-CLK21-V1 Mounted No Expansion Unit 32.2 140 241 227 249 RESET Precaution for Correct Use 69.1 78 PORT B 43.6 39 (min.) 42 (max.) 15.5 7.5 264 315 323 PORT A 73.3 (NSJ10, 12 max. dimension) 89.3 (With Expansion Unit mounted) 1.1 (90.4) NSJ8-TV01(B)-G5D With NSJW-CLK21-V1 Mounted No Expansion Unit 8.4 45.7 177 165 188 RESET 55.6 64.5 PORT B 15.5 180 7.5 232 PORT A 39 (min.) 42 (max.) 73.3 (NSJ8 max. dimension) 89.3 (With Expansion Unit mounted) 1.1 (90.4) NSJ5-TQ11(B)-G5D With NSJW-CLK21-V1 Mounted 25 6.5 142 195 206.3 153.3 130.5 15.5 145 5 53.8 79 95 (With Expansion Unit mounted) (96.1) 23.7 25.4 81.5 34 (min.) 38 (max.) (NSJ5 max. dimension) 30 No Expansion Unit 1.1 77 44.55 Read and Understand this Catalog Please read and understand this catalog before purchasing 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 THAT 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. 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. Take all necessary steps to determine the suitability of the product for the systems, machines, and equipment with which it will be used. Know and observe all prohibitions of use applicable to this product. 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. Disclaimers CHANGE IN SPECIFICATIONS Product specifications and accessories may be changed at any time based 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 catalog 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. Note: Do not use this document to operate the Unit. OMRON Corporation Industrial Automation Company Authorized Distributor: Tokyo, JAPAN Contact: www.ia.omron.com Regional Headquarters OMRON EUROPE B.V. Wegalaan 67-69-2132 JD Hoofddorp The Netherlands Tel: (31)2356-81-300/Fax: (31)2356-81-388 OMRON ELECTRONICS LLC One Commerce Drive Schaumburg, IL 60173-5302 U.S.A. Tel: (1) 847-843-7900/Fax: (1) 847-843-7787 OMRON ASIA PACIFIC PTE. LTD. No. 438A Alexandra Road # 05-05/08 (Lobby 2), Alexandra Technopark, Singapore 119967 Tel: (65) 6835-3011/Fax: (65) 6835-2711 OMRON (CHINA) CO., LTD. Room 2211, Bank of China Tower, 200 Yin Cheng Zhong Road, PuDong New Area, Shanghai, 200120, China Tel: (86) 21-5037-2222/Fax: (86) 21-5037-2200 © OMRON Corporation 2006-2020 All Rights Reserved. In the interest of product improvement, specifications are subject to change without notice. CSM_7_7 Cat. No. V406-E1-07 0820 (1206)