Summary of Contents for Toshiba TOSVERT VF-S15 series
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1. Read this manual before installing or operating. Keep this instruction 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.
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E658130 Introduction ® Thank you for purchasing the “CC-Link option (CCL003Z)” for TOSVERT VF-S15 drive. This option can connect with open field network CC-Link and data communications with the CC-Link master through installing this option in the VF-S15 and using it. Besides this instruction manual, the “CC-Link option Instruction Manual”...
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E658130 Handling in general Warning Do not connect or disconnect a network cable while the drive power is on. It may lead to electric shocks or fire. Prohibited See the instruction manual attached with the option unit for cautions the handling. Otherwise, it may lead to electric shocks, fire, injuries or damage to product.
E658130 1. Overview The option allows the VF-S15 drive to be connected into a CC-Link network. CC-Link supports a maximum of 42 nodes, allowing for the Master and this option is based on CC-Link V1.1 and V2.0. The CCL-003Z is able to operate RUN/STOP, monitor the status of the drive, set the drive’s parameter and etc.
E658130 2.1. CC-Link Version 2.1.1. CC-Link Ver. 1.10 The conventional CC-Link products, whose inter-station cable lengths have equally been changed to 20cm (7.87 inch) or more to improve the inter-station cable length restriction, are defined as CC-Link Ver. 1.10. In comparison the conventional products are defined as CC-link Ver.
E658130 3. Names and functions The drawing below shows names and functions of main parts. 3.1. Outline Connector to the inverter Release tab LED indicator (See 4.5) CC-Link Connector - 6 -...
E658130 4. Installation on inverter Refer to VF-S15 option adapter instruction manual (E6581838) for the installation on the inverter. The following steps must be performed before installing. 1. Shut off all input power. Mandatory 2. Wait at least 15 minutes and check to make sure that the charge lamp is no longer lit. 4.1.
E658130 4.3. Connection of CC-Link master unit and inverter The example of the connection of the CC-Link master unit and the inverter is shown.。 Motor R/L1 U/T1 S/L2 V/T2 Inverter T/L3 VF-S15 W/T3 CC-Link Master CCL003Z Unit *Connection of Several Inverters Factory Automation can be applied to several inverters which share a link system as CC-Link remote device stations and are controlled and monitored by PLC user programs.
E658130 4.4. The maximum connection number of units 1. Maximum number of units connected to one master station (CC-Link Ver.1.10) 42 units (when only inverters are connected) If any other units are included, the number of stations occupied depends on the unit and therefore the following conditions must be satisfied: {(1 ×...
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E658130 2. Maximum number of units connected to one master station (CC-Link Ver.2.00) 42 units (when connections are inverter only) If any other units are included, the number of stations occupied depends on the unit and therefore the following conditions must be satisfied: {(a + a2 + a4 + a8) + (b + b2 + b4 + b8) ×...
E658130 4.5. LED indicator The LEDs shows the present status of the network and module Refer to 7.3 for detail. L.RUN L.ERR ■ Layout of LED L.RUN Light on during communication. Light on during send the data of CC-Link. Light on during receive the data of CC-Link. L.ERR Light on during communication error.
E658130 Functions This option is a communication interface unit that allows the PLC program to operate, monitor and set the parameter of the inverter as a remote station of CC-Link. It is able to communicate with a maximum speed of 10Mbps not only transmitting bit data but also by word data. Moreover, more data transmissions are possible by the use of CC-Link V2.0.
E658130 5.2. Communication parameters for CCL003Z Title Function Description Communication error detection c100 0.0 - 100.0 sec. delay time 0: Stop and controlled by cmod, fmod c101 1: Operation continue Inverter operation at the 2: Deceleration stop communication loss action 3: Coast stop 4: Network error stop (err8 trip) 5: Preset speed operation (by c102 setting)
E658130 5.3. CC-Link function setting 5.3.1. Station number setting Use parameter c120 to set station number of the inverter. Set this parameter within the range of 1 to 64. Title Function Description CC-Link station 1 to 64 c120 number selection *Use different station numbers for different devices.
E658130 5.3.3. CC-Link extended setting Remote register function can be extended. Title Function Description CC-Link extended selection c122 * 0: Occupies one station (V1.10) 1: Occupies one station double (V2.0) 2: Occupies one station quadruple (V2.0) 3: Occupies one station octuple (V2.0) ・...
E658130 5.4. Basic functions This clause shows the basic function of this CC-Link option using by CC-Link communication. 5.4.1. Run and frequency operation command The PLC program can operate the inverter to run, stop, set the operation frequency and change the parameters. If the PLC controls these operations, select the command mode and the frequency setting mode.
E658130 5.5. I/O signal list 5.5.1. One station is occupied (CC-Link Ver.1) (c122=0) This option occupies one station area of the buffer memory of the PLC. In the case of c122 = 0, there are remote I/O (RX, RY both 32 bits) and the remote register (RWw, RWr both 4 word) in the communication data for one station area.
E658130 5.5.2. Double setting is selected (CC-Link Ver.2) (c122=1) This option occupies one station area of the buffer memory of the PLC. In the case of c122 = 1, there are remote I/O (RX, RY both 32 bits(same as CC-LINK Ver.1)) and the remote register (RWw, RWr both 8 word) in the communication data for one station area.
E658130 5.5.4. Octuple setting is selected (CC-Link Ver.2) (c122=3) This option occupies one station area of the buffer memory of the PLC. In the case of c122 = 3, there are remote I/O (RX, RY both 32 bits(same as CC-LINK Ver.1)) and the remote register (RWw, RWr both 32 word) in the communication data for one station area.
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E658130 5.5.5. Trip history When “Quadruple setting” or “Octuple setting” of CC-LINK V.2 is selected, the past trip information can be referred to by the following methods. Upper 8 Upper 8 Trip history No. Trip history No.. Bits Bits RWr n+8 RWw n+8 Lower 8 Lower 8...
E658130 5.5.6. Detail of input and output signals 1. Output signals (Master -> Inverter) The output signals from the master unit are indicated. (Input signals to inverter) Device No. Signal Description RYn0 Forward run command OFF: Stop command ON: Forward run command*** RYn1 Reverse run command OFF: Stop command ON: Reverse run command***...
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E658130 ■Input function selection from the CC-Link. The function numbers selection of the RYn2 to RYn8 function valid from the command of the CC-Link are following boldface numbers. Positive logic Negative logic Function Speed control PM control No function is assigned ●/●...
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E658130 2. Input signal (Inverter -> Master) The following shows input signals to the master unit. (The output signals for the inverter.) Device No.. Signal Description OFF: Other than forward running RXn0 Forward running (during stop or reverse rotation) ON : Forward running OFF: Other than reverse running RXn1 Reverse running...
E658130 5.5.7. Remote Register Assignment Divide the monitor code (RWw n) into half and select the monitor value 1 (RWr n) from the lower 8 bits and the monitor value 2 (RWr n) from the higher 8 bits. For example: When output voltage is selected for the monitor value 1 and output torque is selected for the monitor value 2.
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E658130 Address Signal Description Set the command code for actions such as operation mode switching, parameter read, write, error reference, error clear, etc. The command will RWwn+10 Instruction code 2 be executed by turning (RynF) on after the register setting is completed. When the command execution is completed, (RXnF) turns on.
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E658130 2. Remote register (Inverter -> Master) Address Signal Description When (RYnC) is on, the monitored value specified to the lower 8 bits of RWr n Monitor value 1 the monitor code (RWwn) is set. When "0" is set to the higher 8 bits of the monitor code (RWwn), the current output frequency is always set.
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E658130 Address Signal Description For a normal reply, the reply data to the instruction specified by the RWrn+13 Read data 3 instruction code is set. When (RYnF) is on, the response code correspond to the instruction RWrn+14 Reply code 4 code of (RWw n+14) is set.
E658130 5.5.9. The details of an error code The following data are stored as fault history data when the inverter trip occurred. Error code Description Decimal Hexadecimal Trip display No error nerr Overcurrent during acceleration Overcurrent during deceleration Overcurrent during constant speed operation Overcurrent (An overcurrent on the load side at start-up) Overcurrent at start-up...
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E658130 Error code Description Decimal Hexadecimal Trip display Analog input break detection fault e-18 CPU communications error e-19 Over torque boost fault e-20 CPU fault 2 e-21 Optional unit fault 2 e-23 CPU fault 3 e-26 Main module overload PTC fault e-32 Over-torque trip 2 Servo lock fault...
E658130 5.5.10. Description of reply code When executing the frequency setting (RYnD) or instruction code execution (RYnF), check the reply code (RWr (n+2), (n+10), (n+14), (n+16), (n+18)) in the remote register after execution. Reply code Data Item Description (Hexadecimal No.) Normal completion of instruction code 0000H Normal (No error)
E658130 5.5.11. Description of monitor code Divide the monitor code (RWw n) into half and select the monitor value 1 (RWr n) from the lower 8 bits and the monitor value 2 (RWr n) from the upper 8 bits. For Example: When output voltage is selected for the monitor value 1 and output torque is selected for the monitor value 2.
E658130 5.5.12. Description of input terminal information Data composition of input terminal information (Code No. = 0FH). Terminal name Function (parameter name) Input terminal function selection 1A(f111) 1B(f151) 1C(f155) Input terminal function selection 2A(f112) 2B(f152) 2C(f156) Input terminal function selection 3A(f113) / 3B(f153) Input terminal function selection 4A(f114) / 4B(f154)
Mitsubishi Electric Corp. QJ61BT11N ・Input module Mitsubishi Electric Corp. QX40 ・Output module Mitsubishi Electric Corp. QY40P ・CC-Link dedicated cable Kuramo Electric Corp. FANC-110SBH Toshiba TOSVERT VF-S15(2 uints) ・Inveter One station is occupied ・CC-Link option Toshiba CCL003Z(2 units) - 35 -...
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E658130 2. Network parameter setting of the master station Network parameters are set as below. Item Setting Conditions Item Setting Conditions Start I/O No. 0000 Remote register (RWw) W100 Operation Data link alarm Input clear Special relay (SB) settings station setting Special resister (SW) Setting at CPU Refresh...
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E658130 3. The relation between the device of the 4. The relation between the device of the programmable controller CPU and remote I/O programmable controller CPU and remote register (RX,RY) of the remote device station is as follows: (RWw, RWr) of the remote device station is as The devices used actually are indicated in shaded follows: regions.
E658130 6.1. Program example for reading the inverter status Example 1 shows a ladder logic to read the inverter status. Y30 of the output unit is turned on when inverter of station 2 is forward running SW80.1 ( M0 ) Check the ready of the station 2 X1020 Turn on the relay of output...
E658130 6.2. Program example for setting the operation mode a ladder logic to Example 2 shows write data in the inverter. The operation mode of station 1 inverter can be changed to network operation. Operation mode writing code number: 2003H (hexadecimal) Network operation set data: 0004H (hexadecimal) The reply code at the time of instruction code execution is set to D2.
E658130 6.3. Program example for setting the operation commands a ladder logic to Example 3 shows give a forward command to station 2 inverter. SW80.1 Check the ready of the Station 2 ( M0) Forward rotation command (RY20) (Y1020) Example 3 6.4.
E658130 6.5. Program example for monitoring the output frequency a ladder logic to Example 5 shows read the output frequency of station 1 inveter to D1. Output frequency reading code number: 0001H (hexadecimal) When the output frequency is 50Hz, D1 is 1388H (5000) (unit: 0.01Hz). SW80.0 ( M0) Check the ready of the station 1...
E658130 6.6. Program example for parameter writing a ladder logic to Example 6 shows chang the setting of f311 of station 1 inverter to 1 f311: Reverse-run prohibition reading code number: 2311H (hexadecimal) Reverse-run prohibition set data: 1 (decimal) SW80.0 ( M0) Check the ready of the Station 1 [ PLS M300]...
E658130 6.7. Program example for parameter reading a ladder logic to Example 7 shows read parameter f311 of station 1 inverter to D2. f311: Reverse-run prohibition reading code number: 1311H (hexadecimal) The reply code at the time of instruction code execution is set to D1. SW80.0 ( M0) Check the ready of the station 1...
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E658130 6.8. Program example for trip information reading a ladder logic to Example 8 shows read the trip information of station 1 inverter to D1. Trip history No. 1, No. 2 reading code number: 74H (hexadecimal) The reply code at the time of instruction code execution is set to D2. SW80.0 ( M0) Check the ready of the Station 1...
E658130 6.9. Program example for resetting the inverter at inverter error Example 9 shows a ladder logic to reset the station 2 inverter. SW80.1 [ M0 Check the ready of the station 2 X103 Turn on the error reset request flag [Y103A] (RY3A).
E658130 6.10. Instructions 1.Programming instructions 1.1 Since the buffer memory data of the master station is kept transferred (refreshed) to/from the inverters, the TO instruction need not be executed every scan in response to data write or read requests. The execution of the TO instruction every scan does not pose any problem. 1.2 If the FROM/TO instruction is executed frequently, data may not be written reliably.
E658130 Unusual diagnosis 7.1. Option error The error message is displayed when there is hardware error, software error or lose of connection of wire. Display of trip information ▼ (Optional unit fault 2 : 0037H) : Option error 7.2. Disconnection error of network cable ▼Display of trip information err8 ( Optional unit fault 1...
E658130 7.3. How to check the error using the LEDs The following example explains the causes of fault which may be judged from the LED status of the CC-Link unit (CCL003Z) of the inverter. 1. When One Inverter Is Connected The following example indicates the causes of faults which may be judged from the LED status of the CC-Link unit (CCL003Z) of the inverter under the condition that the SW, M/S and PRM LEDs of the master unit are off (the master unit setting is correct) in the system configuration...
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E658130 2.When two or more inverters are connected The following example explains the causes and corrective actions for fault which may be judged from the LED status of the CC-Link units (CCL003Z) of the inverters under the condition that the SW, M/S and PRM LEDs of the master unit are off (the master unit setting is proper) in the system configuration shown below: Master Station...
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E658130 3. Communication stops during operation ▪ Check that the CC-Link units and the CC-Link dedicated cable are connected properly. (Check for contact fault, break in the cable, etc.) ▪ Check that the PLC program is executed properly. ▪ Check that data communication has not stopped due to an instantaneous power failure, etc. LED Status Cause Corrective Action...