Page 1 FC9Y-B1278 FC5A SERIES User’s Manual Web Server CPU Module Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...
Page 2 Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...
Page 3 Web server CPU module. • All Web server CPU modules are manufactured under IDEC’s rigorous quality control system, but users must add a backup or failsafe provision to the control system when using the Web server CPU module in applications where heavy damage or personal injury may be caused in case the Web server CPU module should fail.
Page 4: Revision History
Revision History Date Manual No. Description March, 2011 B-1278(0) First print • Error code 8 is added in the error code table for EMAIL instruction. June, 2011 B-1278(1) • Notes for devices of EMAIL and PING instructions are updated. • Descriptions for pass-through over Modbus RTU is added in chapter 7. January, 2013 B-1278(2) •...
Page 5: About This Manual
IMPORTANT INFORMATION Under no circumstances shall IDEC Corporation be held liable or responsible for indirect or consequential damages resulting from the use of or the application of IDEC PLC components, individually or in combination with other equipment. All persons using these components must be willing to accept responsibility for choosing the correct component to suit their application and for choosing an application appropriate for the component, individually or in combination with other equipment.
Page 6 ELATED ANUALS The following manuals related to the FC5A series MicroSmart are available. Refer to them in conjunction with this manual. Type No. Manual Name Description FC5A Series MicroSmart Pentra Describes FC5A Slim Type Web server CPU module specifications and FC9Y-B1278 User's Manual functions.
Page 7: Table Of Contents
ABLE OF ONTENTS Revision History ..........................Preface-2 About This Manual .......................... Preface-3 General Information HAPTER About the Web Server CPU Module ......................1-1 Features..............................1-2 Logic Engine® ..........................1-2 Basic Functions ..........................1-2 USB Port............................1-2 Powerful Functions with the Ethernet Port................... 1-2 Optional Modules ..........................
Page 8 ABLE OF ONTENTS Maximum Quantity of Applicable Expansion Modules ................3-15 Allowable Total Internal Current Draw ..................3-15 Internal Current Draw by Expansion Modules ................3-15 Terminal Connection ..........................3-17 Ferrules, Crimping Tool, and Screwdriver for Phoenix Terminal Blocks ........3-17 Ferrule Order No..........................3-17 Crimping Tool and Screwdriver Order No.
Page 9 ABLE OF ONTENTS Remote Host List HAPTER Applications ............................... 6-1 Description of Functions..........................6-1 Programming WindLDR ..........................6-1 Maintenance Communication Server HAPTER Applications ............................... 7-1 Description of Functions..........................7-1 Programming WindLDR ..........................7-2 Standard Maintenance Communication Server ................7-2 Server Connections........................7-3 Ethernet User Communication HAPTER Ethernet User Communication Overview....................
Page 10 ABLE OF ONTENTS Web Server HAPTER Web Server Overview..........................12-1 Folder Structure ............................12-1 Programming WindLDR..........................12-2 Web Server Settings ........................12-2 User Web Page ..........................12-2 Options ............................12-2 System Web Page Overview........................12-3 Data Type .............................12-3 System Web Page.............................12-4 PLC Status .............................12-4 Batch Monitor ..........................12-5 Custom Monitor ...........................12-6 Programming WindLDR..........................12-7 Importing web pages........................12-7...
Page 11: C 1: General Information
1: G ENERAL NFORMATION Introduction This chapter describes general information about the powerful capabilities of the FC5A series Web server CPU modules and the system setups to use the Web server CPU module in various ways of communication. About the Web Server CPU Module The FC5A series MICROSmart Pentra Web server CPU module is a slim-type micro programmable logic controller that has built-in Ethernet and USB ports.
Page 12: Features
1: G ENERAL NFORMATION Features Logic Engine® The Web server CPU module features the Logic Engine® to achieve fast execution of instructions — 0.056 μs for a basic instruction (LOD) and 0.167 μs for an advanced instruction (MOV). This improves real-time performance for executing the user program.
Page 13: Abundance Of I/O Points
1: G ENERAL NFORMATION HMI Module An optional HMI module can be installed on the HMI base module mounted next to the Web server CPU module. The HMI module makes it possible to manipulate the RAM data in the CPU module without using WindLDR. Communication Adapter and Module The Web server CPU module can be used with an optional RS232C or RS485 communication module to add communication port 2.
Page 14: System Setup Example
Internet service provider. IDEC bears no responsibility for problems concerning any system trouble when using the Web server CPU module via Internet. • As the security measures, be sure to use a firewall to restrict parts and IP addresses of the network devices that can connect to the Web server CPU module.
Page 15: Operation Examples
1: G ENERAL NFORMATION Operation Examples Operation examples for the various functions of the Web server CPU module are described. Server/client Communications dW h In addition to the three maintenance communication server connections, there are eight server connections and three client connections available in the Web server CPU module.
Page 16: Send E-Mail
1: G ENERAL NFORMATION Send E-mail W> Wh D E-mails can be sent from the Web server CPU module. Data register values can be embedded in the e-mail message body. The Web server CPU module can send e-mails periodically or when any event occurs. Web Server ,dD>...
Page 17: Cpu Modules (Slim Type Web Server)
CPU Module Type Numbers (Slim Type Web Server) I/O Points Output Type Type No. Transistor Sink Output 0.3A FC5A-D12K1E 12 (8 in / 4 out) Transistor Source Output 0.3A FC5A-D12S1E Parts Description CPU M ’...
Page 18 2: M ODULE PECIFICATIONS (1) Power Supply Terminals Connect power supply to these terminals. Power voltage 24V DC. (2) I/O Terminal Block For connecting input and output signals. (3) Expansion Connector For connecting digital and analog I/O modules. (4) Power LED (PWR) Turns on when power is supplied to the CPU module.
Page 19 2: M ODULE PECIFICATIONS (18) Communication Connector For connecting an optional communication module or HMI base module. Remove the connector cover before connecting a module. (19) Hinged Lid Open the lid to gain access to the cartridge connectors 1 and 2, analog potentiometer, and analog voltage input connector.
Page 20: General Specifications
2: M ODULE PECIFICATIONS General Specifications Normal Operating Conditions FC5A-D12K1E CPU Module FC5A-D12S1E Operating Temperature 0 to 55°C (operating ambient temperature) Storage Temperature –25 to +70°C Relative Humidity 10 to 95% (non-condensing, operating and storage humidity) Pollution Degree 2 (IEC 60664-1)
Page 21: Function Specifications
2: M ODULE PECIFICATIONS Function Specifications CPU Module Specifications FC5A-D12K1E CPU Module FC5A-D12S1E Program Capacity 62,400/127,800 bytes (10,400/21,300 steps) (Note 1) Expandable I/O Modules 7 modules + additional 8 modules using the expansion interface module Input Expansion: 224 (Note 2)
Page 22 Unchanged Unchanged OFF/Reset to zero Reset to preset Note: All expansion data registers are keep types. Communication Function FC5A-D12K1E CPU Module FC5A-D12S1E Function Maintenance Communication (Note 1) Cable USB cable from the third party (A connector to Mini-B connector) (Note 2)
Page 23 2: M ODULE PECIFICATIONS Memory Cartridge (Option) Memory Type EEPROM 32 KB, 64 KB, 128 KB The maximum program capacity depends on the CPU module. Accessible Memory Capacity When using the 32 KB memory cartridge on the slim type CPU module, the maximum program capacity is limited to 30,000 bytes.
Page 24 Area OFF Area I/O Usage Limits 4.5 5.0 When using the FC5A-D12K1E/S1E at an ambient temperature of 55°C in the Input Current (mA) normal mounting direction, limit the inputs and outputs, respectively, which Inputs I2 and I5 turn on simultaneously on each connector along line (1).
Page 25 ODULE PECIFICATIONS Transistor Sink and Source Output Specifications (Slim Type Web Server) FC5A-D12K1E CPU Module FC5A-D12S1E FC5A-D12K1E: Sink output Output Type FC5A-D12S1E: Source output Output Points and Common Lines 4 points in 1 common line Terminal Arrangement See CPU Module Terminal Arrangement on page 2-10.
Page 26: Cpu Module Terminal Arrangement And I/O Wiring Diagrams (Slim Type Web Server)
2: M ODULE PECIFICATIONS CPU Module Terminal Arrangement and I/O Wiring Diagrams (Slim Type Web Server) FC5A-D12K1E (12-I/O Transistor Sink High-speed Output Type CPU Module) Applicable Terminal Blocks: FC5A-PMTK16EP (supplied with the CPU module) 2-wire Sensor Terminal No. Input/Output + –...
Page 27: Dimensions
2: M ODULE PECIFICATIONS Dimensions CPU Modules (Slim Type Web Server) FC5A-D12K1E, FC5A-D12S1E All dimensions in mm. CPU M ’ FC9Y-B1278 2-11 ERVER ODULE ANUAL Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...
Page 28 2: M ODULE PECIFICATIONS 2-12 CPU M ’ FC9Y-B1278 ERVER ODULE ANUAL Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...
Page 29: Installation Location
3: I NSTALLATION AND IRING Introduction This chapter describes the methods and precautions for installing and wiring Web server CPU modules. Before starting installation and wiring, be sure to read “Safety Precautions” in the beginning of this manual and understand precautions described under Warning and Caution. •...
Page 30: Assembling Modules
3: I NSTALLATION AND IRING Assembling Modules • Assemble Web server CPU modules together before mounting the modules onto a DIN rail. Attempt to Caution assemble modules on a DIN rail may cause damage to the modules. • Turn off the power to the Web server CPU module before assembling the modules. Failure to turn power off may cause electrical shocks.
Page 31: Installing The Hmi Module
3: I NSTALLATION AND IRING Installing the HMI Module • Turn off the power to the Web server CPU module before installing or removing the HMI module to Caution prevent electrical shocks. • Do not touch the connector pins with hand, otherwise electrostatic discharge may damage the internal elements.
Page 32: Removing The Hmi Module
3: I NSTALLATION AND IRING Removing the HMI Module • Turn off the power to the Web server CPU module before installing or removing the HMI module to Caution prevent electrical shocks. • Do not touch the connector pins with hand, otherwise electrostatic discharge may damage the internal elements.
Page 33: Securing Usb Extension Cable Using Cable Tie
Securing USB Extension Cable Using Cable Tie When FC5A-D12K1E/S1E is installed in a control panel, it is possible to extend the USB Mini-B port of the PLC to the panel surface using a USB extension cable (Note 1). When using the USB extension cable, it is recommended that the USB extension cable is secured to the USB port cover of the PLC using a cable tie (Note 2) so that the USB extension cable does not come loose from the USB port of the PLC.
Page 34: Mounting On Din Rail
Web server CPU module. • Mount the Web server CPU modules on a 35-mm-wide DIN rail or a panel surface. Applicable DIN rail: IDEC’s BAA1000PN10 or BAP1000PN10 (1000mm/39.4” long) Fasten the DIN rail to a panel using screws firmly.
Page 35: Mounting Hole Layout For Direct Mounting On Panel Surface
Mounting Hole Layout for Direct Mounting on Panel Surface Make mounting holes of ø4.3 mm as shown below and use M4 screws (6 or 8 mm long) to mount the Web server CPU modules on the panel surface. FC5A-D12K1E, FC5A-D12S1E All dimensions in mm.
Page 36: Installation In Control Panel
3: I NSTALLATION AND IRING Installation in Control Panel The Web server CPU modules are designed for installation in a cabinet. Do not install the Web server CPU modules outside a cabinet. The environment for using the Web server CPU module is “Pollution degree 2.” Use the Web server CPU module in environments of pollution degree 2 (according to IEC 60664-1).
Page 37: Removing The Terminal Blocks
• Use the correct procedures to remove the terminal blocks, otherwise the terminal blocks may be damaged. This section describes the procedures for removing the terminal blocks from slim type CPU modules FC5A-D16RK1, FC5A- D16RS1, FC5A-D12K1E and FC5A-D12S1E. Before removing the terminal blocks, disconnect all wires from the terminal blocks.
Page 38: Removing The Communication Connector Cover
3: I NSTALLATION AND IRING Removing the Communication Connector Cover • When using a thin screwdriver to pull out the communication connector cover, insert the screwdriver Caution carefully and do not damage the electronic parts inside the CPU module. • When first pushing in the communication connector cover to break, take care not to injure your finger. Before mounting a communication module or HMI base Communication module next to the slim type CPU module, the...
Page 39: Input Wiring
3: I NSTALLATION AND IRING Input Wiring • Separate the input wiring from the output line, power line, and motor line. Caution • Use proper wires for input wiring. All-in-one type CPU modules: UL1015 AWG22 or UL1007 AWG18 Slim type CPU and I/O modules: UL1015 AWG22 Output Wiring •...
Page 40: Contact Protection Circuit For Relay And Transistor Outputs
3: I NSTALLATION AND IRING Contact Protection Circuit for Relay and Transistor Outputs Depending on the load, a protection circuit may be needed for the relay output of the Web server CPU modules. Choose a protection circuit from A through D shown below according to the power supply and connect the protection circuit to the outside of the CPU or relay output module.
Page 41: Power Supply
3: I NSTALLATION AND IRING Power Supply • Use a power supply of the rated value. Use of a wrong power supply may cause fire hazard. Caution • The allowable power voltage range for the slim type Web server CPU module, expansion interface module FC5A-EXM2, and expansion interface slave module FC5A-EXM1S is 20.4 to 26.4V DC.
Page 42: Precautions For Connecting Communication Devices
In a communication network consisting of a Web server CPU module and an external device (a communication device which has a functional ground and a signal ground connected together internally [for example, IDEC’s HG3F and HG4F operator interfaces]), if all devices are powered by a common AC or DC power source, noise generated by the external device may affect the internal circuits of the Web server CPU module and the communication device.
Page 43: Maximum Quantity Of Applicable Expansion Modules
3: I NSTALLATION AND IRING Maximum Quantity of Applicable Expansion Modules This section describes precautions for installing the expansion RS232C communication module in connection with the internal current draw by other expansion modules. The all-in-one 24-I/O type CPU module (except 12V DC power type) can mount a maximum of three expansion RS232C communication modules.
Page 44 3: I NSTALLATION AND IRING Example: Installing five expansion RS232C communication modules to the slim type CPU module Internal Current Draw Total Internal Module Type No. Quantity (5V DC) Current Draw FC5A-SIF2 Expansion RS232C Communication Module 85 mA 425 mA (Earlier than V200) Maximum Applicable Expansion Modules (Slim CPU) —...
Page 45: Terminal Connection
3: I NSTALLATION AND IRING Terminal Connection • Make sure that the operating conditions and environments are within the specification values. Caution • Be sure to connect the grounding wire to a proper ground, otherwise electrical shocks may be caused. •...
Page 46 3: I NSTALLATION AND IRING 3-18 CPU M ’ FC9Y-B1278 ERVER ODULE ANUAL Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...
Page 47: Start Windldr
4: O PERATION ASICS Introduction This chapter describes general information about setting up the basic Web server CPU module system for programming, starting and stopping Web server CPU module operation, and introduces simple operating procedures from creating a user program using WindLDR on a PC to monitoring the Web server CPU module operation. Start by setting up the maintenance environment.
Page 48: Plc Selection
FC5A-C24R2D FC5A-D16RK1 FC5A-D16RX1 FC5A-D16RS1 FC5A-D32K3 FC5A-D32X3 FC5A-D32S3 FC5A-D12K1E FC5A-D12X1E FC5A-D12S1E Press this button, then the same PLC will be selected as default when WindLDR is started next time. Select FC5A-D12X1E in the selection box. Click OK to save the changes.
Page 49: Communication Setup Procedure
4: O PERATION ASICS Communication Setup Procedure This section describes the procedure to set up communication between a PC and the PLC, using an example. WindLDR is used to configure the network settings of the Web server CPU module and monitor the status of the CPU module using an Ethernet connection.
Page 50: Ethernet Connection
4: O PERATION ASICS The Download dialog box appears. Click OK button. After the download has been completed successfully, select Online from the WindLDR menu bar, and then click Monitor. Select Online from the WindLDR menu bar, and then click Batch. The Batch Monitor dialog box appears.
Page 51 4: O PERATION ASICS The IP Address Settings dialog box appears. Click on the New button. The Input IP Address dialog box appears. Enter the IP address configured in step 4 and click OK button. Select Online from the WindLDR menu bar, and then click Monitor. The IP Address Settings dialog box appears. Click OK button.
Page 52: Start/Stop Operation
4: O PERATION ASICS Start/Stop Operation This section describes operations to start and stop the Web server CPU module and to use the stop and reset inputs. • Make sure of safety before starting and stopping the Web server CPU module. Incorrect operation on the Caution Web server CPU module may cause machine damage or accidents.
Page 53: Start/Stop Operation Using The Power Supply
4: O PERATION ASICS Start/Stop Operation Using the Power Supply The Web server CPU module can be started and stopped by turning power on and off. Power up the Web server CPU module to start operation. See “Introduction” on page 4-1. If the Web server CPU module does not start, check that start control special internal relay M8000 is on using WindLDR.
Page 54: Simple Operation
4: O PERATION ASICS Simple Operation This section describes how to edit a simple program using WindLDR on a PC, transfer the program from the PC to the Web server CPU module, run the program, and monitor the operation on the WindLDR screen. Connect the Web server CPU module to the PC as described in “Introduction”...
Page 55: Disable Tag Function
4: O PERATION ASICS Disable Tag Function The following example describes a simple procedure without using the tag function. From the WindLDR menu bar, select View , then click the check box of Device Address. Check the Device Address check box. Edit User Program Rung by Rung Start the user program with the LOD instruction by inserting a NO contact of input I0.
Page 56 4: O PERATION ASICS Enter I0 in the Tag Name field, and click OK. A NO contact of input I0 is programmed in the first column of the first ladder line. Next, program the ANDN instruction by inserting a NC contact of input I1. From the WindLDR menu bar, select Home >...
Page 57 4: O PERATION ASICS Continue programming for rungs 2 and 3 by repeating similar procedures. A new rung is inserted by pressing the Enter key while the cursor is on the preceding rung. A new rung can also be inserted by selecting Home > Append > Append a Rung . When completed, the ladder program looks like below.
Page 58: Simulate Operation
4: O PERATION ASICS Simulate Operation Before downloading the user program, you can simulate the operation on the WindLDR screen without connecting the Web server CPU module. From the WindLDR menu bar, select Online > Simulation . The Simulation screen appears. To change an input status, place the mouse pointer on the input and right-click the mouse.
Page 59: Monitor Operation
4: O PERATION ASICS Monitor Operation Another powerful function of WindLDR is to monitor the PLC operation on the PC. The input and output statuses of the sample program can be monitored in the ladder diagram. From the WindLDR menu bar, select Online > Monitor > Monitor . When both inputs I0 and I1 are on, the ladder diagram on the monitor screen looks as follows: Rung 1: When both inputs I0 and I1 are...
Page 60 4: O PERATION ASICS 4-14 CPU M ’ FC9Y-B1278 ERVER ODULE ANUAL Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...
Page 61: Function Area Settings
5: F UNCTION ETTINGS This chapter describes the various functions of the Web server CPU module along with applications and procedures to use those functions. Function Area Settings This section describes the Function Area Settings. Device Settings Program capacity selection can be configured. Self Diagnostic Watchdog timer value can be configured.
Page 62: Program Capacity Selection
5: F UNCTION ETTINGS Program Capacity Selection This section describes the program capacity selection. Applications The program capacity selection enables you to increase the program capacity to 127,800 bytes when the default program capacity of 62,400 bytes is insufficient. Description of Functions The program capacity selection enables you to configure the program capacity for the Web server CPU module to either 62,400 bytes or 127,800 bytes.
Page 63: Watchdog Timer Setting
5: F UNCTION ETTINGS Watchdog Timer Setting This section describes watchdog timer setting. Applications The watchdog timer value for the Web server CPU module is 400 ms by default. When the default setting of 400 ms is too small, the watchdog timer value can be changed. Description of functions The watchdog timer value can be changed between 100 ms and 4000 ms.
Page 64: Network Settings
5: F UNCTION ETTINGS Network Settings This section describes the network settings of the Web server CPU module. Applications The network settings are configured to utilize functions that use the Ethernet port of the Web server CPU module. Description of Functions The network settings can be configured in a similar manner to the network settings of the PC.
Page 65: Special Data Registers/Special Internal Relays
5: F UNCTION ETTINGS IP and DNS settings can be configured with one of the following three methods: Obtain network settings automatically from the DHCP server A DHCP server must exist on the network in which the Web server CPU module is installed. All network settings are configured automatically.
Page 66 5: F UNCTION ETTINGS Special Internal Relays Device Address Description Operation When M8190 is turned on, the values in special data registers D8304 M8190 IP Address Change Flag through 8323 are applied as the network settings. Special Data Registers Device Address Description Operation 0, 3 to 255: Follow function area settings...
Page 67: Sntp Server
5: F UNCTION ETTINGS SNTP Server This section describes the configurations for using SNTP server. Applications The Web server CPU module can obtain the current time from an SNTP server in the network. The obtained time is stored in the special data registers and can be used to adjust the clock cartridge. When the clock cartridge is not installed, calendar/clock data obtained from SNTP server can be used as a simple clock.
Page 68: Special Data Registers And Special Internal Relays
5: F UNCTION ETTINGS Special Data Registers and Special Internal Relays Special Internal Relays Device Address Description Operation When M8191 is turned on, the clock cartridge is adjusted with SNTP SNTP Calendar/Clock Data M8191 calendar/clock data. If M8191 is kept on, the clock cartridge is Write Flag adjusted every 24 hours.
Page 69 5: F UNCTION ETTINGS Adjusting the time zone with a special data register (D8413) The time zone (GMT-12:00 to GMT+13:00) configured in the function area settings can be adjusted using D8413 in a multiple of 15 minutes. The time zone after the adjustment should be within GMT-12:00 to GMT+13:00. For example, when the time zone configured in the function area settings is GMT+9:00, and D8413 is 1, 15 minutes are added to the time zone, and the adjusted time zone will be GMT+09:15.
Page 70: Connection Settings
5: F UNCTION ETTINGS Connection Settings This section describes the configurations for client/server connections of the Web server CPU module. Applications The Web server CPU module supports Ethernet communication functions with a maximum of 11 server connections and a maximum of three client connections. Using those connections, maintenance communication, user communication, and Modbus TCP communication can be used.
Page 71: Special Data Registers/Special Internal Relays
5: F UNCTION ETTINGS Maintenance Communication Server When Enable maintenance communication server is enabled, the standard maintenance communication server can be configured. For details, see "Maintenance Communication Server " on page 7-1. Server Connection Select the communication mode for each server connection in the corresponding pull-down list box. A maximum of eight server connections can be configured.
Page 72 5: F UNCTION ETTINGS Maintenance Communication Server Status and Connected IP Address The connection status of the standard maintenance communication server with network client devices can be confirmed with special internal relays M8212 to M8214. When a connection with a client device is established, the corresponding special internal relay is turned on.
Page 73 5: F UNCTION ETTINGS Client Connection Status and Connected IP Address The connection status of client connections with remote hosts can be confirmed with special internal relays M8215 to M8217. When a connection with a remote host is established, the corresponding special internal relay is turned on. When the connection is disconnected, the corresponding special internal relay is turned off.
Page 74 5: F UNCTION ETTINGS 5-14 CPU M ’ FC9Y-B1278 ERVER ODULE ANUAL Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...
Page 75: Applications
6: R EMOTE Introduction This chapter describes how to configure a list of network devices (remote hosts) in the network to which the Web server CPU module communicates. Applications When the Web server CPU module accesses and communicates with other network devices in the network, the remote host device should be specified.
Page 76 6: R EMOTE Click New button or select an existing remote host and click Edit button. The Remote Host dialog box appears. IP Address: Specify the remote host with an IP address. Host Name: Specify the remote host with a host name. Port Number: Specify the port number of the remote host.
Page 77: Chapter 7: Maintenance Communication Server
7: M AINTENANCE OMMUNICATION ERVER Introduction This chapter describes the specification and configuration procedure of the maintenance communication server functions of the Web server CPU module. Applications The Web server CPU module features the maintenance communication server functions. WindLDR can monitor the device values in the Web server CPU module and can also download or upload the user program to or from the Web server CPU module through the maintenance communication server.
Page 78: Programming Windldr
7: M AINTENANCE OMMUNICATION ERVER Configurations for Pass-Through over Modbus RTU Configuring Modbus RTU Master To configure a Web server CPU module as Modbus RTU master for pass-through, enable Modbus RTU Pass-Through in one of the eight server connections (Note 1) and configure the communication port 2 as Modbus RTU master (Note 2). Configuring Modbus RTU Slave To configure an FC5A MicroSmart CPU module as a Modbus RTU slave for pass-through, configure the communication port 2 as Modbus RTU slave (Note 2).
Page 79: Server Connections
7: M AINTENANCE OMMUNICATION ERVER Click on Settings button. The Maintenance Communication Server dialog box appears. Local Host Port No.: The port number that the Web server CPU module opens for the maintenance communication. Number of Connections: The number of connections that the Web server CPU module accepts through the local host port number.
Page 80 7: M AINTENANCE OMMUNICATION ERVER When you enable Pass-Through over Modbus RTU option, the server connection can be used for the pass-through over Modbus RTU. You also have to configure the communication port 2 as Modbus RTU master. The port used for the pass- through over Modbus RTU cannot be used in any other server connections.
Page 81: Ethernet User Communication Overview
8: E THERNET OMMUNICATION Introduction This chapter describes the Ethernet user communication for the Web server CPU module. Ethernet user communication works on TCP/IP protocol. The Web server CPU module can be used as a user communication client/server. With Ethernet user communication instructions (ETXD and ERXD instructions), the Web server CPU module can exchange the data with devices on the network.
Page 82: User Communication Client
8: E THERNET OMMUNICATION User Communication Client When a client connection is configured as the user communication client, the Web server CPU module communicates with the specified server device according to the settings configured in the ETXD and ERXD instructions that are programmed for the client connection.
Page 83: Programming Windldr (User Communication Client)
8: E THERNET OMMUNICATION Programming WindLDR (User Communication Client) To use the user communication client, configure the user client communication settings in the Function Area Settings dialog box and then download the user program to the CPU module. Select Configuration from the WindLDR menu bar, and then click Connection Settings. The Function Area settings dialog box appears.
Page 84 8: E THERNET OMMUNICATION Edit the user program. To insert Ethernet user communication instructions to the ladder editor, select the Ethernet user communication instructions (ETXD or ERXD instructions) in the Coil Selection dialog box. The Ethernet User Communication Instruction dialog box appears. Select ETXD (Transmit over Ethernet) to transmit data or ERXD (Receive over Ethernet) to receive data as the instruction type.
Page 85: User Communication Server
8: E THERNET OMMUNICATION User Communication Server When a server connection is configured as the user communication server, a client device can access and communicate with the Web server CPU module. The Web server CPU module communicates with the client device according to the settings configured in the ETXD and ERXD instructions that are programmed for the server connection.
Page 86: Programming Windldr (User Communication Server)
8: E THERNET OMMUNICATION Programming WindLDR (User Communication Server) To use the user communication server, configure the user communication server settings in the Function Area Settings dialog box and then download the user program to the CPU module. Select Configuration from the WindLDR menu bar, and then click Connection Settings. The Function Area settings dialog box appears.
Page 87 8: E THERNET OMMUNICATION Edit the user program. To insert Ethernet user communication instructions to the ladder editor, select the Ethernet user communication instructions (ETXD or ERXD instructions) in the Coil Selection dialog box. The Ethernet User Communication Instruction dialog box appears. Select ETXD (Transmit over Ethernet) to transmit data and ERXD (Receive over Ethernet) to receive data as the instruction type.
Page 88 8: E THERNET OMMUNICATION CPU M ’ FC9Y-B1278 ERVER ODULE ANUAL Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...
Page 89: Modbus Tcp Communication Overview
9: M TCP C ODBUS OMMUNICATION Introduction This chapter describes the Modbus TCP communication of the Web server CPU module. The Web server CPU module can be used as Modbus TCP client/server. The Web server CPU module can communicate with the devices supporting Modbus TCP communication on the network.
Page 90 9: M TCP C ODBUS OMMUNICATION Modbus TCP Client Start and Stop When request execution devices are designated in the Modbus TCP Client request table, internal relays as many as the request quantity are allocated to execute Modbus TCP Client communication. The internal relays are allocated in the order of requests.
Page 91: Programming Windldr (Modbus Tcp Client)
9: M TCP C ODBUS OMMUNICATION Programming WindLDR (Modbus TCP Client) In order to use Modbus TCP client, configure the Modbus TCP client in the Function Area Settings dialog box and then download the user program to the CPU module. From the WindLDR menu bar, select Configuration >...
Page 92 9: M TCP C ODBUS OMMUNICATION Configure the requests of the Modbus TCP Client. A maximum of 255 requests can be entered in one request table. Specify the Modbus TCP servers with the remote host numbers. After all requests are configured, click OK button to close the dialog box. Choose to use Request Execution Devices and Error Status data registers.
Page 93 9: M TCP C ODBUS OMMUNICATION Master Device Address When function code 01, 02, 03, or 04 is selected to read data from Modbus servers, designate the first data register or internal relay number to store the data received from the Modbus server. When function code 05, 06, 15, or 16 is selected to write data to Modbus servers, designate the first data register or internal relay number to store the data to write to the Modbus server.
Page 94: Processing Requests
9: M TCP C ODBUS OMMUNICATION Processing Requests The data for Modbus communication are processed between the client and servers as shown below. Bit Data at Servers (Function Codes 01, 02, 05, and 15) • Master Device Address: Internal Relay Internal Relay (M) Modbus Address Bit +0...
Page 95: Modbus Tcp Server
9: M TCP C ODBUS OMMUNICATION Modbus TCP Server When the Web server CPU module is configured as the Modbus TCP server, Modbus TCP client devices can access and communicate with the Web server CPU module. When the Web server CPU module receives a valid request from a Modbus TCP client device, the data is read or written according to the request received.
Page 96: Programming Windldr (Modbus Tcp Server)
9: M TCP C ODBUS OMMUNICATION Programming WindLDR (Modbus TCP Server) In order to use Modbus TCP server, configure the Modbus TCP server in the Function Area Settings dialog box and then download the user program to the CPU module. From the WindLDR menu bar, select Configuration >...
Page 97: Modbus Tcp Communication Format
9: M TCP C ODBUS OMMUNICATION Modbus TCP Communication Format This section describes the communication format used for Modbus TCP client and server communication. Modbus TCP communication format starts with the Modbus TCP header followed by the RTU mode communication format without the idle 3.5 characters at both ends and CRC as shown below.
Page 98 9: M TCP C ODBUS OMMUNICATION 9-10 CPU M ’ FC9Y-B1278 ERVER ODULE ANUAL Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...
Page 99: Email (Send E-Mail)
10: E- MAIL Introduction This chapter describes how to use the e-mail functions in the Web server CPU module. The EMAIL instruction sends an e-mail that is configured in WindLDR. EMAIL (Send E-mail) The EMAIL instruction sends an e-mail. Symbol Operation Details When the input to the EMAIL instruction is on, the EMAIL instruction sends an e-mail specified by S1.
Page 100 10: E- MAIL The operation status includes the operation transition state (status code) and the error detail (error code). The status code can be obtained by masking the least 4 bits of the operation status. The error code is stored in the least 4 bits of the operation status.
Page 101: Special Data Registers
10: E- MAIL Special Data Registers Confirm the error detail of EMAIL instruction When the error code stored in D2 of EMAIL instruction is 7, the response from sending e-mail server can be confirmed with special data register D8457. The error code that the sending e-mail servers return could vary with each sending e-mail server.
Page 102: Smtp Authentication (Login)
10: E- MAIL SMTP Authentication (login) Depending on each sending e-mail server and network environment, SMTP authentication may be required. The Web server CPU module supports the login method of the SMTP authentication and can utilize sending e-mail servers that require the SMTP authentication with the login method.
Page 103: E-Mail Address Book
10: E- MAIL E-mail Address Book Settings in E-mail Address Book The e-mail addresses and e-mail address groups can be configured in E-mail Address Book dialog box. E-mail addresses can be grouped into an e-mail address group. The e-mail address group can be used to specify a group of e-mail addresses in each e-mail.
Page 104 10: E- MAIL Click New E-mail Group or select an existing e-mail address group and click Edit button. The E-mail Group dialog box appears. Group Name: Specify the name of e-mail address group to register in the E-mail Address Book dialog box. Comment: The comment for the e-mail address group can be assigned.
Page 105: E-Mail Editor
10: E- MAIL E-mail Editor Settings in E-mail Editor The e-mails can be configured in E-mail Editor dialog box. The following three parameters should be configured for each e-mail. • E-mail recipients (To and Cc) E-mail address or e-mail group can be specified as the recipients. The maximum size of texts for To or Cc is 512 bytes. Comma (,) is inserted as a separating character between e-mail addresses.
Page 106 10: E- MAIL Enter the subject of the e-mail in the subject field. Enter the body of the e-mail in the text box on the bottom. The e-mail body can be written in multiple lines. Click on the Insert Data Register button. The Variable (Data Register) dialog box appears.
Page 107: Ping (Ping)
11: PING I NSTRUCTION Introduction This chapter describes how to use the PING instruction. The PING instruction sends a ping packet to the specified remote host to check if the communication can be done with the remote host on the Internet Protocol (IP) layer. PING (Ping) The PING instruction sends a ping packet to the specified remote host.
Page 108: Programming Windldr
11: PING I NSTRUCTION Notes: • When the system program version is 100, do not specify the same remote host number in multiple PING instructions. When the system program version is 100 and a data register is specified as S1, do not store the same remote host number used by the other PING instructions in the user program to the data register.
Page 109: Web Server Overview
12: W ERVER Introduction This chapter describes the Web server functions in the Web server CPU module. Web Server Overview The Web server enables you to access the Web server CPU module using web browser on your PC in order to monitor the status or change the device data.
Page 110: Programming Windldr
12: W ERVER Programming WindLDR Select Configuration from the WindLDR menu bar, and then click Web Server. The Function Area settings dialog box appears. Web Server Settings Web server port: Specify the port number for the Web server of the Web server CPU module. The default port number is User name: Specify the user name used for authentication.
Page 111: System Web Page Overview
12: W ERVER System Web Page Overview The system web page of the Web server CPU module consists of the following files. /system/index.html: The PLC status can be monitored. This is also the top page of the system web page. /system/batch_monitor.html: Batch monitor to monitor a group of data registers.
Page 112: System Web Page
12: W ERVER System Web Page The Web server CPU module features the system web page which can be used to check PLC status, monitor, and update data register values and internal relay. Since the system web page is embedded in the Web server CPU module, you can easily access and utilize the system web page.
Page 113: Batch Monitor
12: W ERVER Batch Monitor In the batch monitor, 200 consecutive data registers can be monitored and controlled with the specified data type. Enter the device number in the Device Number. 200 consecutive data registers starting with the specified data register are monitored. The valid device numbers are 0 to 7800, 8000 to 8300, and 10000 to 49800.
Page 114: Custom Monitor
12: W ERVER Custom Monitor In the custom monitor, a maximum of 30 devices and corresponding data types can be specified to monitor and control. Enter the device (type and number) in the Device Number. "D" (data register) or "m" (internal relay) can be specified. Specify data device number in decimal, such as D2058 or m0112.
Page 115: Programming Windldr
12: W ERVER Programming WindLDR The procedure to configure the tree structure in the user web page is described. The user web page is managed in the User Web Page in the Project Window. Importing web pages If there are already tree structured web pages on your PC, the entire files and folders can be imported to the user web page.
Page 116 12: W ERVER Right click on the User Web Page in the Project Window and select New Folder. The New Folder dialog box appears. Enter the folder name "folder" and click OK button. A new folder is created under the User Web Page. If you want to rename the folder, right click on the folder and select Rename.
Page 117 12: W ERVER Example: Removing web pages from the user web page In this example, steps to remove page33.html and folder44 are described. Right click on page33.html and select Delete. Click OK button to confirm. Right click on folder44 and select Delete. Click OK button to confirm.
Page 118: Monitoring Function
12: W ERVER Monitoring Function In the user web pages, data register values can be monitored without directly using JavaScript or CGI. To enable monitoring function, check Enable data register monitoring in Web Server settings in the Function Area Settings dialog box.
Page 119: Bit Button (Image)
12: W ERVER Bit Button (Image) When data register monitoring is enabled, and the following string is included in an html page, that string is replaced with specified images and the images are switched according to the bit state read from the Web server CPU module. The system library is responsible for reading or writing data via CGI.
Page 120: Bar Graph (Vertical)
12: W ERVER Bar Graph (Vertical) When data register monitoring is enabled, and the format string for vertical bar graph is included in a DIV tag in an html page, that string is replaced with a vertical bar graph and the bar graph is updated according to the data register values read from the Web server CPU module.
Page 121 12: W ERVER Example: The following format string shows the vertical bar graph for D2040 and D2042 with data type Double. <div id="div11" data-graph="vbar"> device:"D", address:2040, driver:0, net_no:0, format:"DEC-D", width:300, height:300, line_col:"#000000", barvgutter:30, barwidth:20, gutter:20, type:"square", scalewidth:5, bars:[ min_val:0, max_val:100, label:"dev A", back_col:"#FFFFFF", front_col:"#0000FF", scale_on:true, scale_lbl_on:true min_val:0, max_val:100, label:"dev B",...
Page 122: Bar Graph (Horizontal)
12: W ERVER Bar Graph (Horizontal) When data register monitoring is enabled, and the format string for horizontal bar graph is included in a DIV tag in an html page, that string is replaced with a horizontal bar graph and the bar graph is updated according to the data register values read from the Web server CPU module.
Page 123 12: W ERVER Example: The following format string shows the horizontal bar graph for D2040 and D2042 with data type Double. <div id="div21" data-graph="hbar"> device:"D", address:2040, driver:0, net_no:0, format:"DEC-D", width:300, height:300, line_col:"#000000", barhgutter:30, barwidth:20, gutter:20, type:"square", scalewidth:5, bars:[ min_val:0, max_val:100, label:"dev A", back_col:"#FFFFFF", front_col:"#0000FF", scale_on:true, scale_lbl_on:true min_val:0, max_val:100, label:"dev B",...
Page 124: Trend Graph
12: W ERVER Trend Graph When data register monitoring is enabled, if the format string for trend graph is included in a DIV tag in an html page, that string is replaced with a trend graph and the trend graph is updated according to the data register values read from the Web server CPU module.
Page 125 12: W ERVER marker_col Specify the color of the markers. The default color is the same with the front_col. Specify the width of the line for each series in pixel. This setting has a priority than the initial line width line_width specified with line_width.
Page 126: Javascript Functions
= idec.device_read(“D”, 2058, 2, 0, 0); raw_data will be “C2F6_E978.” Writing Device Data var raw_data = Idec.device_write(device, address, length, driver, net_no, data) device: Specify the device type. "D" (data register) can be specified. address: Specify the device number.
Page 127: Chapter 13: Troubleshooting
13: T ROUBLESHOOTING Introduction This chapter describes the procedures to determine the cause of trouble and actions to be taken when any trouble occurs while operating the Web server CPU module. The Web server CPU module has self-diagnostic functions to prevent the spread of troubles if any trouble should occur. In case of any trouble, follow the troubleshooting procedures to determine the cause and to correct the error.
Page 128: Reading Error Data
13: T ROUBLESHOOTING Reading Error Data When any error occurs during the Web server CPU module operation, “Error” is indicated and error details can be read using WindLDR on a computer. Monitoring WindLDR From the WindLDR menu bar, select Online > Monitor > Monitor. The monitor mode is enabled. From the WindLDR menu bar, select Online >...
Page 129: Special Data Registers For Error Information
13: T ROUBLESHOOTING On the right of the Error Status in the PLC Status dialog box, click the Clear button. This procedure clears the error code from special data register D8005 (general error code), and the error is cleared from the PLC Status dialog box.
Page 130: Cpu Module Operating Status, Output, And Err Led During Errors
Function Area Settings on WindLDR. See "Run/Stop Selection at Memory Backup Error" of the basic volume (page 5-3). Note 3: Memory cartridge program transfer error bit is available on FC5A-D12K1E and FC5A-D12S1E only. Error Causes and Actions 0001h: Power Failure This error indicates when the power supply is lower than the specified voltage.
Page 131 13: T ROUBLESHOOTING When a memory cartridge is installed on the CPU module, the user program in the memory cartridge is checked. 0010h: Timer/Counter Preset Value Sum Check Error The execution data of timer/counter preset values is broken. The timer/counter preset values are initialized to the values of the user program automatically.
Page 132: User Program Execution Error
13: T ROUBLESHOOTING User Program Execution Error This error indicates that invalid data is found during execution of a user program. When this error occurs, the ERR LED and special internal relay M8004 (user program execution error) are also turned on. The detailed information of this error can be viewed from the error code stored in special data register D8006 (user program execution error code).
Page 133 13: T ROUBLESHOOTING User Program Execution Error Code Error Details (D8006) In the RNDM instruction, S1 is larger than S2, or S1 or S2 data exceeds 32767. NDSRC has invalid data for source device S3. In the SUM instruction, the execution result exceeds the valid range for the selected data type, or S2 data is 0.
Page 134: Troubleshooting Diagrams
13: T ROUBLESHOOTING Troubleshooting Diagrams When one of the following problems is encountered, see the trouble shooting diagrams on the following pages. Troubleshooting Problem Diagram The PWR LED does not go on. Diagram 1 The RUN LED does not go on. Diagram 2 The ERR LED is on.
Page 135 Is the PWR LED on? Supply the rated voltage. All-in-one type: 100-240V AC Is the power voltage correct? 24V DC Slim type: 24V DC Is the PWR LED on? Call IDEC for assistance. CPU M ’ FC9Y-B1278 13-9 ERVER ODULE ANUAL...
Page 136 Turn on M8000 using WindLDR. Is stop or reset input designated using Function Area Settings? Is the RUN LED on? Turn off the stop and reset inputs. Is the RUN LED on? Call IDEC for assistance. 13-10 CPU M ’ FC9Y-B1278 ERVER ODULE ANUAL Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...
Page 137 13: T ROUBLESHOOTING Troubleshooting Diagram 3 The ERR LED is on. Clear error codes using WindLDR. See Note below. Is the ERR LED turned off? See “General Error Codes” on page 13-3. Identify the error code and correct the error. Note: Temporary errors can be cleared to restore normal operation by clearing error codes from WindLDR.
Page 138 20.4 to 26.4V DC AC input module: 85 to 132V AC Are wiring and Correct the external operation of external device wiring. devices correct? Call IDEC for assistance. 13-12 CPU M ’ FC9Y-B1278 ERVER ODULE ANUAL Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...
Page 139 Replace the module. See “I/O Refreshing by Expansion Is the expansion Interface Module” (Appendix of the interface module used? basic volume). Call IDEC for assistance. CPU M ’ FC9Y-B1278 13-13 ERVER ODULE ANUAL...
Page 140 Is the Communication using WindLDR. See "Communication Settings correct? Settings" of the advanced volume (page 21-3). Call IDEC for assistance. When only program download is not possible: Only program download is not possible. Disable the user program protection. Is “Protect User Program”...
Page 141 Replace the CPU module. Is M8000 off? Turn off the start control special Call IDEC for assistance. internal relay M8000 using WindLDR on a computer. Note: To turn off M8000, enter 0 in the Current Value box in the Custom Monitor dialog box.
Page 142 Is the scan time longer than Function Area Settings. For details, see 400 ms? “Watchdog Timer Setting” on page 5-3. Call IDEC for assistance. Troubleshooting Diagram 9 The interrupt/catch input cannot receive short pulses. Make sure of correct input voltage.
Page 143 Settings completed? Groups 1 through 4. Make sure that the gate input is on and Is the gate input on? the reset input is off. Is the reset input off? Call IDEC for assistance. CPU M ’ FC9Y-B1278 13-17 ERVER...
Page 144 (page 9-6). Adjust the clock cartridge accuracy. See "Adjusting Clock Cartridge Accuracy" of the advanced volume (page 9-8). Monitor the PLC status using WindLDR. Is the calendar/clock operating normally? Call IDEC for assistance. 13-18 CPU M ’ FC9Y-B1278 ERVER...
Page 145 Stop and restart the CPU to configure the was the CPU stopped and analog I/O settings. restarted? Change data register numbers to eliminate Are data registers duplicated? duplicated data registers. Call IDEC for assistance. CPU M ’ FC9Y-B1278 13-19 ERVER ODULE ANUAL Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...
Page 146 Procedure for Data Link System" of the power after a few seconds. basic volume (page 11-12)) or turn on M8007 during operation using WindLDR. Are error codes cleared to 0 at all stations? Call IDEC for assistance. 13-20 CPU M ’ FC9Y-B1278 ERVER ODULE ANUAL...
Page 147 Is the input to the TXD Turn on the input to the TXD instruction. instruction on? See Troubleshooting Diagram 1 Is the PWR LED on? “The PWR LED does not go on.” Call IDEC for assistance. CPU M ’ FC9Y-B1278 13-21 ERVER...
Page 148 1 device of the TXD source 1 device is correct. instruction? Call IDEC for assistance. When the user communication still has a problem after completing the above procedure, also perform the procedure of Diagram 14 described on the preceding page.
Page 149 Is the input to the RXD Turn on the input to the RXD instruction. instruction on? See Troubleshooting Diagram 1 Is the PWR LED on? “The PWR LED does not go on.” Call IDEC for assistance. CPU M ’ FC9Y-B1278 13-23 ERVER...
Page 150 WindLDR? Make sure that the receive data Did you make sure of designated as the source 1 device is source 1 device of the RXD correct. instruction? Call IDEC for assistance. 13-24 CPU M ’ FC9Y-B1278 ERVER ODULE ANUAL...
Page 151 13: T ROUBLESHOOTING Troubleshooting Diagram 18 Modbus master communication does not work. Are communication Confirm communication settings using parameters equal at master WindLDR. See “Programming Modbus and slave? Master Using WindLDR” of the basic volume (page 12-4). Are error data stored in D8069 to D8099? (Note) Confirm the slave number (high-order byte) and error code (low-order byte).
Page 152 WindLDR. Select USB and uncheck the Use HGxG Pass-Through check box. The USB port of the connected FC5A is Is "IDEC PLC USB Port not recognized. (COMx)" listed in Device Install or update the driver, and then try Manager on the PC?* again.
Page 153 13: T ROUBLESHOOTING Troubleshooting Diagram 20 Modbus master communication request is slow. Select to use request execution internal relay and designate an internal relay number. Keep unnecessary internal relays turned off and turn on internal relays only when sending requests. Troubleshooting Diagram 21 E-mail is not sent.
Page 154 13: T ROUBLESHOOTING 13-28 CPU M ’ FC9Y-B1278 ERVER ODULE ANUAL Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...
Page 155: Ppendix
PPENDIX CGI (Common Gateway Interface) The device data can be read from or written to the Web server CPU module via CGI using JavaScript. This section describes the CGI formats. The CGI format described here may not operate properly if they are not used with JavaScript. Request Format (Reading Device Data) Device data can be read from the Web server CPU module with the following format using the GET method.
Page 156: Request Format (Writing Device Data
PPENDIX Request Format (Writing Device Data) Device data can be written to the Web server CPU module with the following format using the POST method. /system/device_write.cgi?device=DEV&address=XXXX&length=XXXX&driver=XX&net_no=XX&data=XXXX The CGI parameters are as follows: /system/device_write.cgi : CGI file name device : Specify the device type of the target device using a character. "D" (Data Register) is supported. address : Specify the device number of the target device in hexadecimal.
Page 157: Usb Driver Installation Procedure
PPENDIX USB Driver Installation Procedure Installing on Windows XP Connect a USB cable to the USB port on the FC5A-D12X1E (with power supplied) and the PC running. After the message "Found New Hardware" appears on the PC, the driver installation wizard appears. Select No, not this time and click Next.
Page 158 PPENDIX Click Continue Anyway button. If the installation is aborted without showing the dialog box above, Block is selected in the Driver Signing Options in Driver Signing in the System Properties dialog box. If the installation is aborted, this option should be changed to Warn. After changing the option to Warn, reconnect the Web server CPU module and retry the installation procedure from the step 1.
Page 159: Installing On Windows Vista
PPENDIX Installing on Windows Vista Connect a USB cable to the USB port on the FC5A-D12X1E (with power supplied) and the PC running. The dialog box below appears. Select Locate and install driver software (recommended). The User Account Control dialog box appears. Click Continue button. The dialog box below appears.
Page 160 PPENDIX CPU M ’ FC9Y-B1278 ERVER ODULE ANUAL Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...
Page 161 NDEX analog data link potentiometer connection error 13-4 voltage input DC input specifications applicable CPU module expansion module maximum quantity decimal symbol 3-15 assembling modules e-mail 10-4 authentication details button 13-2 e-mail DHCP server 10-4 dimensions 2-11 bar graph 12-12, 12-14 DIN rail batch monitor 12-5...
Page 162 NDEX remote host number general request execution device specifications server grounding 3-13 module high-speed counter HMI base specifications module monitor installing operation 4-13 removing monitoring host name WindLDR 13-2 mounting hole layout bus initialize error 13-5 for direct mounting usage limits on DIN rail input on panel surface...
Page 163: Revision History
NDEX reset system setup example input system web page 12-3 system status language 12-2 response time terminal restart system status arrangement revision history Preface-2 CPU module 2-10 rung block removing screwdriver connection 3-17 3-17 server text encoding connection e-mail 10-4 maintenance communication tightening torque 3-17...
Page 164 NDEX quit 4-13 start 4-1, 4-8 wiring diagrams 2-10 input 3-11 output 3-11 power supply 3-13 CPU M ’ FC9Y-B1278 ERVER ODULE ANUAL Phone: 800.894.0412 - Fax: 888.723.4773 - Web: www.clrwtr.com - Email: info@clrwtr.com...

This manual is also suitable for:

Fc5a-d12s1e

IDEC FC5A-D12K1E User Manual

C 1: General Information

CHAPTER 2 :Module Specifications

CHAPTER 3 : Installation and Wiring

CHAPTER 4 :Operation Basics

CHAPTER 5 :Function Area Settings

CHAPTER 6 :Remote Host List

CHAPTER 7: Maintenance Communication Server

CHAPTER 8 :Ethernet User Communication

CHAPTER 9 :Modbus TCP Communication

CHAPTER 10 :E-Mail

CHAPTER 11 :PING Instruction

CHAPTER 12 :Web Server

CHAPTER 13: Troubleshooting

APPENDIX Cgi (Common Gateway Interface

Ppendix

Quick Links

Troubleshooting

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Summary of Contents for IDEC FC5A-D12K1E

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Table of Contents