Toshiba TOSVERT VF-AS3 Instruction Manual
  1. Manuals
  2. Brands
  3. Toshiba Manuals
  4. Inverter
  5. TOSVERT VF-AS3
  6. Instruction manual

Toshiba TOSVERT VF-AS3 Instruction Manual

Embedded ethernet function
Hide thumbs Also See for TOSVERT VF-AS3:
Table of Contents

Advertisement

Quick Links

See also: Instruction Manual , Manual
Embedded Ethernet Function Manual
1. Read this manual before installing or operating. Keep this manual on hand of the end
user, and make use of this manual in maintenance and inspection.
2. All information contained in this manual will be changed without notice. Please contact
your Toshiba distributor to confirm the latest information.
NOTICE
E6582125⑥

Advertisement

Table of Contents
loading

Related Manuals for Toshiba TOSVERT VF-AS3

Summary of Contents for Toshiba TOSVERT VF-AS3

  • Page 1 1. Read this manual before installing or operating. Keep this manual on hand of the end user, and make use of this manual in maintenance and inspection. 2. All information contained in this manual will be changed without notice. Please contact your Toshiba distributor to confirm the latest information.
  • Page 2 VF-AS3 along with this instruction manual for completely understanding the safety precautions and adhere to the contents of these manuals. - TOSVERT VF-AS3 Instruction Manual..........E6582062 WARNING ▼ Do not use application of writing into inverter parameters more than 100,000 times.

  • Page 3: Table Of Contents

    E6582125 Contents 1. Overview ..............................2 1.1. Specification ..........................2 1.2. LED indicator ..........................3 1.3. Installation Topology ........................4 1.4. EDS file ............................4 1.5. Display of Embedded Ethernet setting screen ................5 1.6. Setting IP address ........................6 2.

  • Page 4: Overview

    E6582125 1. Overview The VF-AS3 embeds an Ethernet dual port adapter that can be used for the following Modbus TCP functions and EtherNet/IP functions. Also VF-AS3 is certified for EtherNet/IP communication with CPU1 version 108 or more. 1.1. Specification Embedded ethernet module specifications Item Specification Ethernet connector...

  • Page 5: Led Indicator

    E6582125 1.2. LED indicator The LED indicator shows the present status of the network and module. The behavior of LNK1 LED and LNK2 LED Link Activity Color and behavior Meaning No link Green blinking Network activity at 100 Mbit/s Green ON Link established at 100 Mbit/s Yellow blinking Network activity at 10 Mbit/s...

  • Page 6: Installation Topology

    The product support daisy chain and star topology wiring solutions: Daisy Chain and/or Star topology Note: Please use the LAN cable comply with ANSI/TIA/EIA-568-B.2 (CAT5E or successor). 1.4. EDS file As for acquisition of an EDS file for VF-AS3, please contact your Toshiba distributor.

  • Page 7: Display Of Embedded Ethernet Setting Screen

    E6582125 1.5. Display of Embedded Ethernet setting screen Inverter IP address can be set easily by Embedded Ethernet setting screen from guidance function of LCD panel. In addition, current settings can be checked in the monitor display by scrolling the screen. Standard Mode screen Access Embedded Ethernet setting screen of the STOP...

  • Page 8: Setting Ip Address

    E6582125 1.6. Setting IP address This section contains two methods to set the IP address. One is a method using the DHCP servicer, and the other a method to set manually. For detail of IP setting parameters, refer to section “0”. To obtain the IP address by using the DHCP server STOP 0.0Hz...

  • Page 9: Parameters

    E6582125 2. Parameters 2.1. Common parameters The product doesn't operate if these parameters are not correctly set. Comm. Default Title Parameter name Description setting 0: Terminal 1: Operation panel, Extension panel 2: Embedded Ethernet CMOd 0003 Command mode selection 3: RS485 communication (connector 1) 4: RS485 communication (connector 2) 5: Communication option 0: -...

  • Page 10: Communication Parameters

    E6582125 Comm. Default Title Parameter name Description setting 0: - F899 0899 Communication function reset 1: Reset option and inverter (after execution: 0) (*1): 0.1s unit is selected as default setting. (*2): Default setting values vary depending on the capacity. 2.2.
  • Page 11 E6582125 Comm. Default Title Parameter name Description setting 0: No action 1: FD01 (Inverter status 1) 2: FD00 (Output frequency) 3: FD03 (Output current) 4: FD05 (Output voltage) 5: FC91 (Alarm code) 6: FD22 (PID feedback value) 7: FD06 (Input terminal status) 8: FD07 (Output terminal status) 9: FE35 (Terminal RR input value) 10: FE36 (Terminal RX input value)

  • Page 12: Monitor Parameters

    E6582125 Comm. Default Title Parameter name Description setting 0: Follower (0Hz command when Leader fails) 1: Follower (continue running when Leader fails) EmbEth. Inverter to 2: Follower (emergency off when Leader fails) C682 C682 inverter communication 3: Leader (transmit frequency command) (*1) (*4) 4: Leader (transmit output frequency signal) 5: Leader (transmit torque command)

  • Page 13: The Details Of The Parameter Setting

    E6582125 2.4. The details of the parameter setting [F830: MODBUS continuous address] VF-AS3 does not have parameters of the communication number “0xXXXA” to “0xXXXF” and “0xXXAX” to “0xXXFX”. When parameters are accessed with the Modbus function command 0x03 and 0x10, it is possible to select these parameters are slipped or not by parameter [F830].
  • Page 14 E6582125 [F897: Parameter writing] When [F897: Parameter writing] is set to "1", all writing via communication is only done to the RAM. This parameter can be used when frequently writing to EEPROM supported parameters, but the content of the parameters return to the values stored in EEPROM each time the inverter is reset. If you want to temporarily allow storage to EEPROM when [F897] = "1", you can set [FA93] to "1: Temporarily suppress mode for RAM"...
  • Page 15 E6582125 Setting for Communication error detection [C606] to [C609] [C606: Emb Eth. Communication error detection delay] Adjustment range: 0.0 - 100.0 sec. The waiting time of network error detection can be adjusted. If network error was removed during [C606], inverter will continue normal operation. [C607: Emb Eth.
  • Page 16 E6582125 [C671: Emb Eth. Massage timeout detection time] Adjustment range: 0: Disable 0.1-100.0 s When you use the Massage service of ModbusTCP, inverter will detect the time out error if Massage is not performed between periods of [C671] setting. When [C671] is set to “0: Disable”, timeout for Massage function does not detected. Massage time out error is not detected during I/O scanning.
  • Page 17 E6582125 Embedded Ethernet Inverter to inverter communication [C680] to [C682] [C680: EmbEth. Inverter to inverter communication select] Adjustment range: 0: Disabled 1: Inverter to inverter communication 2: Pump control [C681: EmbEth. Inverter to inverter communication ID] Adjustment range: 0: Leader 1 to 9: Follower 1 to 9 [C682: Emb Eth.
  • Page 18 E6582125 ▼ In case of communication cable is disconnected, you can trip a follower inverter by using the communication error detection function ([C606] to [C609]). The leader will not trip even if its cable is disconnected. To trip the leader, install an interlock from the follower side using an Important FL failure relay signal, etc.
  • Page 19 E6582125  Inverter to inverter communication setting Set only one inverter on the network as leader and all others as followers. * If multiple leaders are set on the same network, data conflict will occur. Be sure to only set one leader.
  • Page 20 E6582125  Parameter setting example for embedded ethernet Below setting example, the frequency reference and operation command are input from the panel of the leader, and these are transmitted to the follower by inverter to inverter communication. Parameters of the leader (examples) [CMOd] = "1"...

  • Page 21: The Overview Of The Vf-As3 Command Parameters

    E6582125 2.5. The overview of the VF-AS3 command parameters [FA36: Communication command1 from embedded ethernet] Function Note Preset speed switching 1 Preset speed operation is disabled 0000: Preset speed operation OFF or preset speed operation Preset speed switching 2 (*1) frequencies (1-15) are set by 0001-1111: Setting of preset speed Preset speed switching 3...
  • Page 22 E6582125 [FA38: Communication command 2 from embedded ethernet] Function Note Control switching Speed control Torque control Electric power quantity Electric power quantity (FE76, FE77) Reset reset reset (Reserved) Braking request (BC) Normal Forcibly braked Preliminary excitation Normal Enabled (Reserved) Braking answer (BA) Brake applied Brake released Quick deceleration 2...
  • Page 23 E6582125 [FA37: Frequency command from embedded ethernet] Setting range: “0” to [FH: Maximum frequency] This frequency command value is enabled only when the frequency command via embedded ethernet is enabled. To make frequency commands via embedded ethernet enabled, set [FMOd: Frequency command select 1] to “20”: Embedded Ethernet”...

  • Page 24: The Overview Of The Vf-As3 Monitor Parameters

    E6582125 2.6. The overview of the VF-AS3 monitor parameters [FD01: Inverter status 1] Function Note Failure FL No output Under in progress - Trip status includes [rtry] and the Failure Not tripped Tripped trip retention status is also regarded as tripped statuses. Alarm No alarm Alarm issued...
  • Page 25 E6582125 [FD00: Output frequency] The current output frequency is read into 0.01Hz of units and by the hexadecimal number. For example, when the output frequency is “80Hz”, 0x1F40 (hexadecimal number) are read. Since the minimum unit is 0.01Hz, 0x1F40 (Hex.) = 8000(Dec.) * 0.01 = 80 (Hz) Also about the following parameters, these are the same as this.
  • Page 26 E6582125 [FE40: FM output monitor], [FE41: AM output monitor] The output value of FM terminal or AM terminal are read. The value range is set to 0 to 10000 (0x2710). [FC91: Alarm code] Function Panel display Overcurrent alarm Normal Alarming [C] flicking Inverter over load alarm Normal...
  • Page 27 E6582125 [FD07: Output terminal status] TB Name Function (Parameter) [F130: Terminal FP function 1] (Undefined) [F132: Terminal FL function] [F133: Terminal R1 function 1] [F134: Terminal R2 function] DQ11 [F159: Terminal DQ11 function] DQ12 [F160: Terminal DQ12 function] [F161: Terminal R4 function] [F162: Terminal R5 function] [F163: Terminal R6 function] R4(B)

  • Page 28: Modbus Tcp

    E6582125 3. Modbus TCP 3.1. Header format Byte Description Comments Transaction high order Same transaction ID is returned from Modbus TCP server. Fixed at 0 if it is not required. identifier low order high order Protocol This identifier always equals 0. identifier low order high order...

  • Page 29: 03 (0X03) Read Holding Registers" Function

    E6582125 3.4. "03 (0x03) Read Holding Registers" function This Modbus request is used to read a value continuously from contiguous inverter parameters. Request Format: Byte Meaning Function Code = 0x03 Communication No. of Starting Parameter Hi Communication No. of Starting Parameter Lo Number of Parameters Hi (0) Number of Parameters Lo (1 - 125) Response format:...

  • Page 30: 06 (0X06) Write Single Register" Function

    E6582125 3.5. "06 (0x06) Write Single Register" function This Modbus request is used to write the value to the inverter parameter. Request format: Byte Meaning Function Code = 0x06 Communication No. of Parameter Hi Communication No. of Parameter Lo Write Data Hi Write Data Lo Response format: Byte...

  • Page 31: 16 (0X10) Write Multiple Registers" Function

    E6582125 3.6. "16 (0x10) Write Multiple Registers" function This Modbus request is used to write a value continuously to contiguous inverter parameter. Request format: Byte Meaning Function Code = 0x10 Communication No. of Starting Parameter Hi Communication No. of Starting Parameter Lo Number of Parameters Hi (0) Number of Parameters Lo (1 - 123) Byte Count (B = 2 ×...

  • Page 32: 23 (0X17) Read/Write Multiple Registers" Function

    E6582125 3.7. "23 (0x17) Read/Write Multiple Registers" function The "Read/Write Multiple Registers" service is used for the IO Scanning service. Request format: Byte Meaning Function Code = 0x17 Read Starting Register Hi(0) Read Starting Register Lo(0) Number of Read Registers Hi (0) Number of Read Registers Lo (2 –...
  • Page 33 E6582125 Outline of IO scanning service The IO Scanning service is used to exchange I/O data between controller (PLC) and inverter. It is usually performed by implicit services, thus avoiding the need to program the controller (PLC). The IO Scanning service operates if it has been enabled in the PLC with function code 0x17. When you use the I/O scanning service, set the “255”...

  • Page 34: 43 (0X2B) Read Device Identification" Function

    Next Object Id 0x00 Number Of Objects 0x03 for Basic 0x06 for Regular Obj 0 Id  Vendor Name Obj 0 length “TOSHIBA” 9-15 Obj 0 value Obj 1 Id  Product Code Obj 1 length “VFAS3-2007P” 18-28 Obj 1 value Obj 2 Id ...

  • Page 35: Error Code

    E6582125 3.9. Error Code If the following errors occur, the reply command from the inverter is returned by adding 80H to the command received by the inverter. The error codes are as follows. Error code Name Description • No command exists. •...

  • Page 36: Ethernet/Ip

    E6582125 4. EtherNet/IP This section contains the object specifications for all EtherNet/IP objects. EtherNet/IP functions are supported with CPU1 version 108 or more. Class Code Object Class Page Hex. Dec. 0x01 Identity Object 0x02 Message Router Object 0x04 Assembly Object 0x06 Connection Manager Object 0x28...

  • Page 37: Identity Object (0X01)

    E6582125 4.1. Identity Object (0x01) This object provides identification of and general information about the device. Class Attributes Instance Attribut ID Access Name Data type Details Value Revision UINT Revision of this object Max Instances UINT Maximum instance number of an object currently created in this class level of the device.
  • Page 38 E6582125 Attribute 5 State Descriptions Adapted from document [CIP] “ THE CIP NETWORKS LIBRARY Volume 1 ” Called Definition TRUE indicates the device (or an object within the device) has an owner. Within the Owned Master/Slave paradigm the setting of this bit means that the Predefined Master/Slave Connection Set has been allocated to a master.

  • Page 39: Message Router Object (0X02)

    E6582125 4.2. Message Router Object (0x02) The Message Router Object provides a messaging connection point through which a Client may address a service to any object class or instance residing in the physical device. Class Attributes Instance Attribute ID Access Name Data type Details Value...

  • Page 40: Assembly Object (0X04)

    E6582125 4.3. Assembly Object (0x04) The Assembly Object binds attributes of multiple objects, which allows data to or from each object to be sent or received over a single connection. Assembly objects can be used to bind input data or output data. The terms ”input” and ”output”...
  • Page 41 22 (0x16) 3 words (6 bytes) CIP extended speed and torque control output 23 (0x17) 3 words (6 bytes) Toshiba control output 100 (0x64) 2 words (4 bytes) CIP extended and parameter change control output 101 (0x65) 4 words (8 bytes)
  • Page 42 E6582125 Instance 20: CIP basic speed control output Instance 20 mapping Byte Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 Fault reset Run Fwd Drive Speed Reference (Low byte) * Drive Speed Reference (High byte) * Instance 70: CIP basic speed control input Instance 70 mapping...
  • Page 43 E6582125 Instance 21: CIP extended speed control output Instance 21 mapping Byte Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 NetRef * NetCtrl * Fault reset Run Rev Run Fwd Drive Reference Speed min (Low byte) Drive Reference Speed min (High byte)
  • Page 44 E6582125 Instance 22: CIP basic speed and torque control output Instance 22 mapping Byte Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 Fault reset Run Fwd Drive Speed Reference (Low byte) * Drive Speed Reference (High byte) * Drive Reference Torque Nm (Low byte)
  • Page 45 E6582125 Instance 100: Toshiba control output Instance 100 mapping Byte Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 AD mode 1/ Preset Preset Preset Preset DC braking PID off V/f switching AD mode 2...
  • Page 46 E6582125 ■Examples of Instance 100/150 ① Stop Instance Byte 15 14 13 12 11 10 9 8 7 6 Hex. 1, 0 0 0 0 0 0x0000 Output Instance 100 3, 2 1, 0 0 0 0 0 0x4800 Input Instance 150 3, 2 0 0 0 0 0x0000...
  • Page 47 E6582125 Instance 101: CIP extended and parameter change control output Instance 101 mapping Byte Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 Net Ref Net Ctrl Fault reset reverse forward Drive Reference Speed min (Low byte) Drive Reference Speed min (High byte)
  • Page 48 E6582125 ■Examples of Instance 101/151 Access the inverter parameter is enabled using byte 4 to 6 of this Instance. Set the communication number of the parameter to byte 4, 5 (Index), and the value to byte 6, 7 (Data).  Read the parameter [CMOd] (Command mode selection, communication number is 0003). Instance Byte 15 14 13 12 11 10 9 8 7 6...
  • Page 49 E6582125 Instance 102: Native transport control output Instance 102 mapping Byte Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 [C641] Command data (Low byte) [C641] Command data (High byte) [C642] Command data (Low byte) [C642] Command data (High byte) [C643] Command data (Low byte) [C643] Command data (High byte)
  • Page 50 E6582125 Instance 105: Native transport and parameter change control output Instance 105 mapping Byte Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 Function code (Read / Write) Read: 0x00, Write: 0x80 Index (Low byte) Index (High byte) Data (Low byte) Data (High byte)
  • Page 51 E6582125 ■Examples of Instance 105/155 Access the inverter parameter is enabled using byte 1 to 5 of this Instance. Set the communication number of the parameter to byte 2, 3 (Index), and the value to byte 4, 5 (Data).  Read the parameter [CMOd] (Command mode selection, communication number is 0003). Instance Byte 15 14 13 12 11 10 9 8 7 6...
  • Page 52 E6582125 Instance 107: Large native transport control output Instance 107 mapping Byte Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 [C641] Command data (Low byte) [C641] Command data (High byte) [C642] Command data (Low byte) [C642] Command data (High byte) [C643] Command data (Low byte) [C643] Command data (High byte)

  • Page 53: Connection Manager Object (0X06)

    E6582125 4.4. Connection Manager Object (0x06) Use this object for connection and connectionless communications, including establishing connections across multiple subnets. Class Attributes Instance Attribute ID Access Name Data type Details Value Revision UINT Revision of this object Max Instances UINT Maximum instance number of an object currently created in this class level of the device.

  • Page 54: Motor Data Object (0X28)

    E6582125 4.5. Motor Data Object (0x28) This object serves as a database for motor parameters. Class Attributes Instance Attribute ID Access Name Data type Details Value Revision UINT Revision of this object Max Instances UINT Maximum instance number of an object currently created in this class level of the device.

  • Page 55: Control Supervisor Object (0X29)

    E6582125 4.6. Control Supervisor Object (0x29) This object models all the management functions for devices within the “Hierarchy of Motor Control Devices”. The behavior of motor control devices is described by the State Transition Diagram. Class Attributes Instance Attribute ID Access Name Data type Details Value...
  • Page 56 E6582125 Run/Stop Event Matrix Run1 Run2 Trigger Event Run Type Stop No Action 0 -> 1 Run1 0 -> 1 Run2 0 -> 1 0 -> 1 No Action No Action No Action No Action 1 -> 0 Run2 1 -> 0 Run1 State of the drive The Control Supervisor class State attribute (Att.

  • Page 57: Ac/Dc Drive Object (0X2A)

    E6582125 4.7. AC/DC Drive Object (0x2A) This object models the functions specific to an AC or DC Drive. e.g. speed ramp, torque control etc. Class Attributes Instance Attribute ID Access Name Data type Details Value Revision UINT Revision of this object Max Instances UINT Maximum instance number of an object...

  • Page 58: Parameter Access 1 Objects (0X64)

    E6582125 4.8. Parameter access 1 Objects (0x64) This object provides access to the Inverter parameters following range. Input Instance Inverter parameter communication No. 0x4000-0x4999 0x0000-0x0999 0x7A00-0x7E99 0xFA00-0xFE99 Class Attributes Instance Attribute ID Access Name Data type Details Value Revision UINT Revision of this object Max Instances UINT...

  • Page 59: Parameter Access 2 Objects (0X65)

    E6582125 4.9. Parameter access 2 Objects (0x65) This object provides access to the Inverter parameters following range. Input Instance Inverter parameter communication No. 0x0001-0xFE99 0x0001-0xFE99 * If you want to access to drive parameter [AU1], you can access the communication number 0x0000 (communication number of [AU1]) by using the instance 0x1000.

  • Page 60: Port Object (0Xf4)

    E6582125 4.10. Port Object (0xF4) The Port Object enumerates the CIP ports present on the device. One instance exists for each CIP port. Class Attributes Instance Attribute ID Access Name Data type Details Value Revision UINT Revision of this object Max Instances UINT Maximum instance number of an...
  • Page 61 E6582125 Instance 2 Attribute Instance Attribute ID Access Name Data type Details Value Port Type UINT Enumerate the type of port. Port Number UINT CIP port associated with this port (identify each communication port). Value ‘1’ is reserved. Link Object STRUCT of Identify Object attached to this port.

  • Page 62: Tcp/Ip Interface Object (0Xf5)

    E6582125 4.11. TCP/IP interface Object (0xF5) The TCP/IP Interface Object provides the mechanism to configure a device’s TCP/IP network interface. Class Attributes Instance Attribute ID Access Name Data type Details Value Revision UINT Revision of this object Max Instances UINT Maximum instance number of an object currently created in this class level of the device.
  • Page 63 E6582125 Instance 1 Attribute Instance Attribute ID Access Name Data type Details Status DWORD Bits 0 -3: Interface configuration 000: The Interface Configuration attribute has not been configured. 001: The Interface Configuration attribute contains valid configuration. Bit 5: Interface Configuration Pending Bit 6: ACD Status Configuration capability DWORD...

  • Page 64: Ethernet Link Object (0Xf6)

    E6582125 4.12. Ethernet link object (0xF6) The Ethernet Link Object maintains link-specific counters and status information for IEEE 802.3 communications interface. Class Attributes Instance Attribute ID Access Name Data type Details Value Revision UINT Revision of this object Max Instances UINT Maximum instance number of an object currently created in this class...
  • Page 65 E6582125 Instance Attribute Instanc Attribute Access Name Data Details type Interface Speed UDINT Interface speed currently in use 0: indeterminate (Auto baudrate) 10: 10Mbps 100: 100Mbps Interface Flags DWORD Bit 0: Link Status Indicates 0: Inactive link 1: Active link. Bit 1: Half/Full Duplex 0: Half duplex 1: Full duplex.
  • Page 66 E6582125 Instanc Attribute Access Name Data Details type Media Counters STRUCT Media-specific counters Alignment Errors UDINT Frames received that are not an integral number of octets in length FCS Errors UDINT Frames received that do not pass the FCS check Single Collisions UDINT Successfully transmitted frames which...

  • Page 67: Web Server

    E6582125 5. Web server The embedded ethernet module provides an embedded Web server which allows several functions. • Inverter monitor • Inverter parameters read/write • Network parameter setting • Administration function • TCP/IP statistics monitor 5.1. Accessing webserver of VF-AS3 The webserver can be accessed by standard browsers like Internet Explorer, chrome, safari and Firefox (Firefox is supported with inverter CPU1 version 116 or later).
  • Page 68 E6582125 Instructions for use are displayed. Click the [OK] button after accepting the contents.

  • Page 69: Page Structure Of Web Server

    E6582125 5.2. Page structure of web server The page structure of web server is as follows. Page Side menu Overview Allows you to add, delete, and reposition a My Dashboard Customizable Home Page widget you like. IO Status Allows you to monitor the IO status and some monitor parameters in a preset Analog Input / Output Monitor Viewer...

  • Page 70: Description For Each Page

    E6582125 5.3. Description for each page How to move to each page Each page has tabs displayed to move to another page. For example, when you want to move the Parameter page, you can move there by clicking the "Parameter" tab. Side menu of each page Each page except for My Dashboard has a side menu.
  • Page 71 E6582125 My Dashboard page The My Dashboard page is the first page displayed when you log in to the web server. You can add, delete, and move all the widgets, so you can display only information necessary for you and the setting window.
  • Page 72 E6582125 Adding, deleting, and moving widget When you click the "Add Widget" tab at the upper right of the screen, the widget menu is expanded. To add a chart, drag and drop the "Chart" icon and add the chart widget into the page. You can delete a widget that has been once added with the deletion button with X mark at the upper right of the widget.
  • Page 73 E6582125 : Minimization button This button allows you to display the widget in the minimum size. A widget displayed in the minimum size is expanded again when you press the + button. : Jump button This button allows you to move to the page corresponding to the table displayed in the widget. For example, you can move from the IO Status widget of Data Viewer to IO Status of the Display page.
  • Page 74 E6582125 Display page The Display page can display terminal information and preset monitor parameter tables and charts. In addition to the preset tables and charts, you can select monitor parameters by yourself to create a monitor as you like.
  • Page 75 E6582125 Creating new monitor table/chart When you click "+ Create New Table" of the side menu, you can move to the table creation screen. Here, you can select up to ten parameters to be displayed on the monitor to create a new table. You can filter parameters with the character string entered in the Filter entry field when you select parameters.
  • Page 76 E6582125 Diagnostics page The Diagnostics page displays inverter information, trip history, and ethernet status. You can check display by selecting each item from the side menu. Inverter Identification menu You can check the basic information of the inverter and the type of the option module installed in each option slot.
  • Page 77 E6582125 Ethernet menu You can check the ethernet status. The sending / receiving frame count can be initialized by click the button.
  • Page 78 E6582125 Parameter page In the Parameter page, you can read and write some parameter settings in the preset parameter table. You can also create a new parameter table by selecting arbitrary parameters from "+ Create New Table." Creating new parameter table When you click "+ Create New Table"...
  • Page 79 E6582125 Setup page In the Setup page, you can change the TCP/IP settings, theme, and password and manage the account. TCP/IP menu You can set the IP settings and the device name and check the MAC address. Change of the device name is reflected immediately, but the IP settings are enabled after reset. Time menu You can set the SNTP settings.
  • Page 80 E6582125 Web Design Transfer menu You can Copy the web page design. My dashboard of the logged in account, monitor viewer table, chart viewer and inverter parameter table will be copied. When you click the “Copy from Device to PC”, Web server design data will be downloaded to PC with the file name “WebDesign.dat”.
  • Page 81 E6582125 When you click the button on the top of the screen, you can move to the account creation screen. When you enter the user name, password, and privileges and permission to be given and click the "Create" button, a new account is created.
  • Page 82 E6582125 When a user logs in with an account that does not have the administrator privileges, the tab to access the Setup page is not displayed so that change of the user account can be prevented. When the user tries to change a parameter with account that does not have the write permission, the frame is displayed in gray and becomes unchangeable so that writing from an account for monitoring can be prevented.
  • Page 83 E6582125 Themes menu You can select the base color of the page between blue and red. When you click the name of the theme, the base color is changed. Access Management menu You can change whether access restriction with password is applied or not and the password policy.
  • Page 84 ©Toshiba Schneider Inverter Corporation 2016...

Table of Contents