CC-Link Interface Option "OPC-E1-CCL"
Contents
1. 1 XO XOF x1 Le BMOV sSW80 K4MO K4 Unit failure Unit Host station ready being linked MO X20 Le PLS M300 Writing M300 ON SET M301 M301 X100F Se Mov H87 W102 Command code execution completed MOV H12C W103 SET Y100F RST M301 SET m302 M302 X100F MOV w2 D2 Command code execution completed RST Y100F RST M302 _ END Figure 10 10 Program Example 36 Read out data link status of slave stations Write the Write F07 command code H87 into RWw2 and the acceleration time H12C into RWw3 Turn command code execution request RYF ON When the command code execution completed signal RXF is turned ON the response code is read out from the remote register RWr2 into D2 0 Writing normally completed Turn command code execution request RYF OFF 10 11 Program Example for Setting up the Reference Frequency The program example shown below writes the reference frequency 50 00 Hz to FRENIC Multi station 1 X0 XOF X1 ES BMOV SW80 K4M0 K4 Read out data link status of slave Unit failure Unit Host station stations ready being linked man PLS M300 M300 Writing ON SET M301 M301 X100D rae MOV K5000 W101 Write reference frequency into RWw1 Frequency setting completed2. Master station Remote station Rem ote station Station 1 Station 2 aa RWwo gt ap eae RWwt J i Q RWw2 i i RW w3 i l if Jl RW w0______ NOOO RWw2 i U RWw3 O i oaa RWO kesesa RW Jo RW r2 a E Io RW rO a A G i haaa RW r2 l RW r3 l Figure 10 3 Relationship between Master Station Devices and Remote Registers 32 10 4 CC Link Startup Program Shown below is a CC Link startup program example to run for ACPU No startup program is required for QCPU which starts up CC Link communication with the network parameter settings made in the master unit x00 XOF z 7 A PLS M300 Permission to write settings Unit failure Unit ready M300 _ _ SET M301 Request to write settings M301 z TO HO H1 K2 K1 Number of units connected 2 TO HO H20 H1101 Kai Station info on inverter Station 1 TO HO H21 H1102 K141 Station info on inverter Station 2 RST M301 Writing of settings completed M9038 _ SET YOO _ Permission to bit output If OFF no RY One scan ON output yet after RUN X00 XOF 1 _ PLS M302 Permission to write settings Unit failure Unit ready M302 _ Z SET M303 Request to write settings M303 E SET YO6 Link start request x06 _ RST YO6 _ Cancel of link start request Link
3. SET Y100D Turn the frequency command RAM RYD ON RST m301 SET 302 M302 X100D _ a When the frequency setting MOV w2 D2 completed signal RXD is turned m ON read out the response code Frequency setting RWr2 into D2 completed RST Y100D _ Turn the frequency command RAM RST M302 RYD OFF END Figure 10 11 Program Example 37 10 12 Program Example for Reading out Alarm Codes The program example shown below reads out alarm codes stored in FRENIC Multi station 1 into data register D1 X0 XOF X1 BMOV SW80 K4MO K4 Unit failure Unit Host station ready being linked MO X20 LA PLS M300 M300 Writing ON 7a Z SET M301 M301 X100F r MOV H74 W102 Command code execution completed SET Y100F RST M301 SET M302 M302 X100F MOV w3 D1 Command code execution completed MOV w2 D2 RST Y100F RST M302 END Figure 10 12 Program Example 10 13 Program Example for Resetting a Inverter Trip Read out data link status of slave stations Write the Read from the latest and last alarm codes command code H74 into RWw2 Turn command code execution request RYF ON When the command code execution completed signal RXF is turned ON read out alarm code RWr3 and r
4. If the cable has been broken the inverter trips with alarm displayed When this option is turned ON the inverter has been at 50 ms OFF or the option connection cable has been intervals disconnected This option is OFF or broken If the inverter power is ON it trips with alarm displayed ON OFF Blinking It may seem to be ON depending on the current transmission speed 1 Alarm occurs when a communications error is detected after a normal communications link has been established once It is possible to change the occurrence conditions with inverter s function codes For details refer to Chapter 8 INVERTER REACTION TO CC Link COMMUNICATIONS ERRORS 2 4 RJ 45 Connector The RJ 45 connector is used to connect the keypad of the FRENIC Multi to this option The keypad can be detached from the option and mounted on a panel For details refer to the FRENIC Multi Instruction Manual INR SI47 1204 E Chapter 2 Section 2 4 Mounting and Connecting a Keypad 2 5 Power Supply Terminal Block and CC Link Terminal Block The power supply terminal block and CC Link terminal block are used to connect the 24V power cable and CC Link cable respectively in order to operate this option For details refer to Chapter 4 WIRING AND CABLING Chapter 3 MOUNTING THE CC Link INTERFACE OPTION A WARNING Turn the inverter s power OFF and wait for at least five minutes Further check that the DC link bus voltage bet
5. Is data written into the buffer memory areas RX RY RWw RW r as assigned to addresses NO Na Check writing to the I O memory areas YES The option or inverter unit may be defective Contact Fuji Electric 39 Chapter 12 SPECIFICATIONS 12 1 General Specifications For items not contained in the following table the specifications of the inverter apply Input power voltage 21 6 to 27 0 V Max 150 mA 24 VDC Operating ambient temperature 10 to 50 C 14 to 122 F Operating ambient humidit 5 to 95 RH There shall be no condensation External dimensions 79 6 x 127 x 47 5 mm 3 13 x 5 x 1 87 in 12 2 CC Link Specifications For the items not contained in the following table the CC Link specifications apply o Specifications S O CC Link interface option Station type Remote device station Max 42 units one station occupied unit compatible with other options connectable occupied CC Link version The option complies with CC Link versions 1 10 and 2 00 It can be configured with the function code 030 as follows 1 station occupied CC Link version 1 10 030 0 or 1 1 station occupied with 2X setting CC Link version 2 00 030 2 1 station occupied with 4X setting CC Link version 2 00 030 3 1 station occupied with 8X setting CC Link version 2 00 030 4 Setting invalid 030 Other than the above data Terminal block for 5 pin terminal block M3x5 screws connection Communications cable C
6. of output frequency into RWw0O Turn monitor command RYC ON Turning RYC ON reads out the output frequency from the remote register RWw0 into D1 10 9 Program Example for Reading from the Inverter s Function Code Data The program example shown below reads out the F07 data Acceleration time 1 from FRENIC Multi station 1 XO XOF X1 H BMOV SW80 K4MO K4 Unit failure Unit Host station ready being linked MO X20 H PLS M300 M300 Writing ON SET M301 M301 X100F an MOV H7 w102 Command code execution completed SET Y100F RST M301 SET M302 M302 X100F MOV w3 D1 Command code execution completed _MOV W2 D2 RST Y100F RST M302 END Figure 10 9 Program Exam 35 ple Read out data link status of slave stations Write the Read F07 command code H07 into RWw2 Turn command code execution request RYF ON When the command code execution completed signal RXF is turned ON the acceleration time 1 RWr3 and response code RWr2 are read out into D1 and D2 respectively Turn command code execution request RYF OFF 10 10 Program Example for Writing to Inverter s Function Code Data The program example shown below writes 3 0 s to the FO7 data Acceleration time 1 of FRENIC Multi station
7. 15 17 and 19 the RYF should be turned ON Write data 6 If no write data is required zero 0 should be written into each of RWw11 13 15 17 and 19 CC Link extension In CC Link version 1 10 RWw0 to RWw3 are available In CC Link version 2 00 with 2X setting RWw0 to RWw7 are available with 4X setting RWw0 to RWwF RWw9 for this option are available with 8X setting RWw0 to RWw1F RWw19 for this option are available 23 2 Remote registers RWr Inverter Master Description Remarks Monitored value 1 Turning the RYC ON stores the value of the monitor See Table 7 1 for item specified by Monitor code 1 RWw0 into monitor item codes RWr0 RWr1 Monitored value 2 Turning the RYC ON stores the value of the monitor item specified by Monitor code 2 RWw0 into RWr1 RWr2 Response code Turning the RYF ON stores the response code for See Table 7 3 for the command code specified in RWw2 into RWr2 response codes If the command code has normally executed zero 0 is automatically written into RWr2 if any error has occurred during processing of the command code any value other than zero is written RWr3 Read data If the command code has normally executed the response data for that command specified by the command code is automatically written into RWrs3 RWr4 Monitored value 3 Turning the RYC ON stores the value of the monitor item specified by RWwn into the corresponding
8. For details on how to mount the terminal cover refer to the FRENIC Multi Instruction Manual INR SI47 1204 E Chapter 2 Section 2 3 Wiring 4 Push the hooks provided on both sides of the keypad and pull the keypad up and out of the inverter For details on how to remove the keypad refer to the FRENIC Multi Instruction Manual INR SI47 1204 E EChapter 2 Section 2 4 Mounting and Connecting a Keypad Terminal cover Aw Keypad Interface printed circuit board Interface PCB Terminal cover fixing screw for inverters with a capacity of 7 5 to 20 HP Option connection cable that comes with the option Figure 3 1 Connecting the Option Connection Cable to the Interface PCB and Removing the Keypad For inverters with a capacity of 15 and 20 HP 5 Mount the option on the inverter making the RJ 45 connector on the back side of the option engage with the RJ 45 connector on the inverter to which the keypad had been connected 6 Connect the keypad to the RJ 45 connector on the front side of the option then secure the keypad and option to the inverter with the option fixing screw that comes with the option When using the keypad at a remote site secure the option without the keypad to the inverter with the screw Tightening torque 0 6 N m 0 44 Ibf ft Note Take care not to tighten the option fixing screw too much Doing so could make the screw defective Option fixing screw x ee that comes with
9. Overcurrent during acceleration Overcurrent aS 2 024 during deceleration Kag Motor 2 overload Overcurrent During running at constant a 5 Inverter overload speed 6 06 aa eatin fii i 32 204 Keypad communications error Overvoltage 5 Overvoltage during running at constant speed or being stopped Motor 1 overload Interface option communications error CC Link communications error Input phase loss Lir Operation protection Fuse blown Tuning error Charger circuit fault RS 485 communications error Heat sink overheat L Output phase loss 12n Alarm issued by an external I 51 33x Data saving error due to device aie 4 undervoltage RS 485 communications error Inverter overheat option Motor protection LILI LSI error PTC thermistor eine Power printed circuit board 30 Chapter 10 APPLICATION PROGRAM EXAMPLES 10 1 System Configuration Station 1 Station 2 Sequencer Power CPU CC Link Input supply master unit Q02CPU unit Q61P A1 QJ61BT11N ax4o OPC E1 CCL OPC E1 CCL Set the terminating resistor switch ON Insert the terminating resistor that comes with the master unit between DA and DB CC Link 031 1 031 2 Figure 10 1 System Configuration 10 2 Network Parameter Settings In program examples given in this chapter the network parameters of the master unit are set as listed in Table 10 1 Table 10 1 Network
10. Parameter Settings of the Master Unit Start I O No For units where a data link F Clear input Operation settings error is detected Type Master unit Mode Remote Net Ver 1 mode Total number of slaves connected 2 Remote input RX Remote output RY Remote register RWr wo Remote register RWw W100 Special relay SB Special register SW Retry count Automatic reconnection station count For CPU down 31 10 3 Relationship between Master Station Device and Remote I O and Remote Register 1 Remote I Os Figure 10 2 shows the relationship between the master station devices and remote I Os RX and RY in the program examples given on the following pages Master station Remote station Rem ote station Station 1 Station 2 if ROO to 100 RE RX OP X101F to X1010 l RX iF to RX 10 l gE RKO i i i RX 1F to RX 10 X105F to X1050 Y100F to 1000 Y101F to Y1010 E a Y103F to Y1030 Y104F to Y1040 _ RYF to RYO i RY 1F to RY 10 gt RY F to RYO RY 1F to RY 10 Figure 10 2 Relationship between Master Station Devices and Remote I Os 2 Remote registers Figure 10 3 shows the relationship between the master station devices and remote registers RWw and RWr in the program examples given on the following pages
11. RWrn Monitored value 5 n denotes any of the register numbers 4 to 7 Monitored value 6 Alarm code The content of the alarm code specified in RWw8 is automatically written into the lower 8 bits of See Chapter 9 for RWr8 The upper 8 bits of RWw8 will be echoed alarm codes back into the upper 8 bits of RWr8 RWr5 Monitored value 4 Output frequency This register stores the output frequency applied at an alarm at the occurrence time of the alarm specified in Unit 0 01 Hz occurrence RWws Output current at an This register stores the output current applied at alarm occurrence the occurrence time of the alarm specified in Unit 0 01 A RWws Output voltage at This register stores the output voltage applied at an alarm the occurrence time of the alarm specified in Unit 0 1 V occurrence RWws Cumulative This register stores the cumulative power ON time power ON time at elapsed until the occurrence time of the alarm Unit 1h an alarm specified in RWw8s occurrence RWr10 Response code 2 Turning the RYF ON stores the response code to See Table 7 3 for R des the command code specified in RWw10 12 14 response codes ESpOnNSeE Core 16 and 18 into RWr10 12 14 16 and 18 Response code 4 respectively RWr16 Response code 5 If the command code has normally executed zero 0 is automatically written into the corresponding RWr18 Response code 6 register RWr10 12 14 16 or 18 if any error has occurred d
12. allowed to write Attempted to write to function code whose data cannot be changed while the inverter is running Attempted to write to function code whose data is being edited from the keypad Invalid command code An invalid command code has been specified AAA Out of setting range Write data is out of the allowable setting range 27 Table 7 4 Command Code Format for Specifying Inverter s Function Codes bit 15 bit 0 ae a Ee ae 0 a a a ae 5 ee ee Onn Empty Fixed to 0 Function code group 0 Read Function code number F codes F00 to F99 fl Write 00 to 99 004 to 634 E codes E00 to E99 C codes C00 to C99 P codes P00 to P99 H codes H00 to H99 o codes 000 to 099 S codes S00 to S99 M codes MOO to M99 J codes J00 to J99 y codes y00 to y99 W codes W00 to W99 X codes X00 to X99 Z codes Z00 to Z99 CN ote Inverter s communication dedicated function codes S01 S05 and S06 are read only Attempting to write to those function codes will result in a Not allowed to write error Response code 00014 These function codes are functionally equivalent to certain remote outputs and remote registers Examples 1 Reading from H95 Function code group 044 Function code number 95 5F y bit 7 0 Read Set 045F to the command code 2 Writing 10 to E20 Function code group 014 Function code number 20 144 bit 7 1 Write Set 0194 to the command code
13. s Factory default SS2 function code E02 Terminal X3 function Terminal command assigned by inverter s Factory default SS4 function code E03 Terminal X4 f i Terminal i i ermina unction ermina command assigned by inverter s a Factory default BX function code E04 Terminal X5 f i Terminal i i RY6 erminal X5 function ermina command assigned by inverter s a Factory default RST function code E05 RY7 Not used RY8 Not used Secondary side output ON Coast to a stop Effective only when cut off BX the run command source is CC Link x1 Not used Not used Monitor command Turning this signal ON causes the inverter to store monitored values into remote registers RWrO 1 4 to 7 and then turns the Monitoring signal RXC ON RYD 3 Frequency command Turning this signal ON writes the reference frequency RWw1 to the RAM inverters RAM Upon completion of writing the Frequency setting completed signal RXD is turned ON PRYE Notused oo O Command code Turning this signal ON executes processing corresponding to execution request command codes specified in RWw2 10 12 14 16 and 18 After execution of those command codes the Command code execution completed signal RXF is turned ON If a command code execution error occurs the error factor will be set to the response code RWr2 RY1A Alarm reset request flag Turning this signal oH and then OFF when a trip has occur
14. should be written into RWw3 Write the code listed in Table 7 1 of monitor item to be referred to into the corresponding register RWwn After that turning the RYC ON stores the data of the monitor item into the RWrn n denotes any of the corresponding register numbers 4 to 7 Write 0000 0100 0200 or 0300 into RWw8 to specify which alarm code latest last 2nd last or 3rd last should be read out respectively The lower 8 bits are fixed to 00 n The content of the specified alarm code and its related information are stored in RWr8 9 A B and C Write the PID set value into RWw9 The setting range is from 150 00 Use these registers in the same way as RWw2 After writing into these registers turning the RYF ON executes these command codes in the order of RWw2 10 12 14 16 and 18 Upon completion of execution of RWw18 the RXF is turned ON To nullify the execution of RWw10 to 18 FFFFu should be written into these registers 22 format for specifying inverter s function codes is shown in Table 7 4 Latest Last 2nd last 3rd last it 0 01 to 150 00 Vni 0 01 Device No Signal name Description Remarks RWw11 Write data 2 Write object data specified in RWw10 12 14 16 and 18 if necessary into RWw11 13 15 17 and RWw13 Write data 3 19 respectively Write data 4 After writing into RWw10 12 14 16 and 18 and Write data 5 their respective registers RWw11 13
15. startup normally completed M a P RST M303 Link startup completed X07 FROM HO H668 D315 K1 Read link special device Link startup abnormally terminated E RST YOR Cancel of link start request RST M303 Link startup completed Figure 10 4 CC Link Startup Program Example for ACPU only 10 5 Program Example Using the Inverter Running Status Read The program example shown below turns ON the auxiliary relay M100 when FRENIC Multi station 1 starts running X0 XOF X1 BMOV Sws0 K4MO K4 Read out data link status of slave Unit Unit Host station stations failure ready being linked MO X1002 HE m100 Turn ON th ili W J urn e auxiliary relay M100 Inverter running RX02 Figure 10 5 Program Example 33 10 6 Program Example for Changing the Operation Mode The program example shown below switches the operation mode of FRENIC Multi station 1 to network operation specifying CC Link as both run command and frequency command sources X0 XOF X1 r A Bmov swo K4Mo K4 Unit failure Unit Host station ready being linked MO X20 LE PLs M300 Writing M300 ON a SET M301 H MOV HOFB W102 Command code execution completed MOV HO W103 SET Y100F RST M301 LSET M302_ M302 X100F mov w2 D2 Command code execution compl
16. the option RJ 45 connector front side CC Link interface option i f X RJ 45 connector back side RJ 45 connector on the inverter Figure 3 2 Mounting the CC Link Interface Option and the Keypad 11 7 Slightly pull the bottom of the option terminal cover towards you and remove it downward 8 Connect the other end of the option connection cable whose end has been connected to the interface PCB on the inverter in step 2 above to the CN1 connector on the interface option printed circuit board interface option PCB 9 Mount the option terminal cover First fit the bosses on the top of the cover into the square holes provided in the option and then push the bottom of the cover until it snaps into place Option terminal cover Interface option printed circuit board Interface option PCB Option connection cable that comes with the option ig AAN Y wv we are LS y Figure 3 3 Connecting the Option Connection Cable to the Interface Option PCB 12 Chapter 4 WIRING AND CABLING A WARNING Before starting installation turn the inverter s power OFF and wait for at least five minutes Further check that the DC link bus voltage between the P and N terminals is lower than 25 VDC e Qualified electricians should carry out wiring Otherwise electric shock could occur ACAUTION The inverter motor and wiring emit electrical noise Take approp
17. C Link dedicated cable Use the CC Link dedicated cable in CC Link system Using a cable other than a CC Link dedicated cable does not assure the CC Link system performance For further information about the CC Link dedicated cable specifications and inquiries visit the CC Link Partner Association s website at http www cc link org eng t_html top html 10 Mbps 032 4 5 Mbps 032 3 2 5 Mbps 032 2 625 kbps 032 1 156 kbps Baud rate 032 0 The transmission speed can be specified with the inverter s function code 032 LED status indicators L RUN Lights when the option is normally receiving refresh data It goes off if data transmission is interrupted for a certain period of time L ERR Lights when a communications error has occurred It blinks if the station address 031 or the transmission speed 032 is changed when the power is on RUN Lights during normal communication It blinks when mismatch in CC Link version settings is found or the connection between the inverter and the option is cut SD Lights during data transmission RD Lights during data reception 40 CC Link Interface Option OPC E1 CCL Instruction Manual First Edition December 2006 Fuji Electric FA Components amp Systems Co Ltd The purpose of this manual is to provide accurate information in the handling setting up and operating of CC Link Interface Option OPC E1 CCL for the FRENIC Multi series of inverters Please feel free to send
18. F 7 Fuji Electric Instruction Manual e Front runners FRENIC Multi CC Link Interface Option OPC E1 CCL ACAUTION Thank you for purchasing our CC Link Interface Card OPC E1 CCL e This product is designed to connect the FRENIC Multi series of inverters to CC Link network Read through this instruction manual in conjunction with the FRENIC Multi User s Manual and be familiar with the handling procedure for correct use e Improper handling blocks correct operation or causes a short life or failure e Deliver this manual to the end user of the product The end user should keep this manual in a safe place until the CC Link Interface Option is discarded e For the usage of inverters refer to the instruction manual prepared for the FRENIC Multi series of inverters Fuji Electric Systems Co Lid INR SI47 1175 EU Rev 052010 Copyright 2006 Fuji Electric FA Components amp Systems Co Ltd All rights reserved No part of this publication may be reproduced or copied without prior written permission from Fuji Electric Systems Co Ltd All products and company names mentioned in this manual are trademarks or registered trademarks of their respective holders The information contained herein is subject to change without prior notice for improvement Preface Thank you very much for purchasing our CC Link Interface Option OPC E1 CCL This manual has been prepared to help you connect your FRENIC Multi to a CC Link master Mit
19. IGNALS Provides the details of remote I O signals available for CC Link communication Chapter 8 INVERTER REACTION TO CC Link COMMUNICATIONS ERRORS Describes on how the inverter operates if a CC Link communications error occurs Chapter 9 ALARM CODE LIST Lists and describes inverter s alarm codes Chapter 10 APPLICATION PROGRAM EXAMPLES Provides program examples that control the inverter by a sequencer Chapter 11 TROUBLESHOOTING Provides troubleshooting instructions for certain problems e g when the inverter does not operate as ordered or when an alarm condition has been recognized Chapter 12 SPECIFICATIONS Lists the general specifications and communications specifications Icons The following icons are used throughout this manual Note This icon indicates information which if not heeded can result in the product not operating to full efficiency as well as information concerning incorrect operations and settings which can result in accidents Tip This icon indicates information that can prove handy when performing certain settings or operations This icon indicates a reference to more detailed information Table of Contents Preface sescsssnisizessacieseccuiavesevevatiecuncenenetatinaustexsstbaveteneceesst 1 Chapter 8 INVERTER REACTION TO CC Link How this manual is organized 0 ese ee eee eee 3 COMMUNICATIONS ERRORS eee 29 Chapter 1 BEFORE USING THE CC Link INTERFACE Chapter 9 LIST OF
20. ING THE CC Link INTERFACE OPTION Mount the option See Chapter 3 MOUNTING THE CC Link INTERFACE OPTION Connect the power cable and CC Link cable Configure the terminating resistor switch SW5 z See Chapter 4 Section 4 4 ON OFF Turn ON the power to the option and inverter Timing of the Option and the Inverter Configure function codes y98 and 027 to 032 to match the settings in the master Preparation completed Now the inverter is ready to run via CC Link After confirming that the CC Link master has been set up check that the communications link is established according to the ON OFF states of the LED status indicators see Chapter 2 Section 2 3 LED Status Indicators After the CC Link master becomes ready run the sequencer to operate the inverter via CC Link See Chapter 4 WIRING AND CABLING See Chapter 2 Section 2 2 Terminating Resistor Switch See Chapter 5 CONFIGURING INVERTER S FUNCTION CODES FOR CC Link COMMUNICATION 19 Chapter 7 LIST OF I O SIGNALS 7 1 Remote I O Signals 1 Remote outputs Master Inverter Description Remarks ea aaa OFF Stop command Simultaneously ON Run forward command turning RYO and RY1 ee en reverse command OFF Stop command ON results in 0 Hz of Run reverse command frequency ON as a X1 function Terminal command assigned by inverter s a Factory default SS1 function code E01 Terminal X2 function Terminal command assigned by inverter
21. INVERTER ALARM CODES 30 1 Acceplance Inspection ng Chapter 10 APPLICATION PROGRAM EXAMPLES 10 1 System Configuration eee eee Chapter 2 NAMES AND FUNCTIONS seessscsccsssssssssess20000 6 10 2 Network Parameter Settings 000 ee 251 Parts NAMES eienen dieas iiinn 6 10 3 Relationship between Master Station Device 2 2 Terminating Resistor Switch 6 and Remote I O and Remote Register 32 2 3 LED Status Indicators iisi 7 10 4 CC Link Startup Program s s11s11111s11211 11120 a 2 4 RJ 45 Connector on eee eee cece eeeeeeeeeeeeeeeeeeeneeeeee 8 10 5 Program Example Using the Inverter Running 2 5 Power Supply Terminal Block and CC Link Status ROA osaisia peipei aiina diaaa 33 Terminal BlOCK sis ccsciecnecsscenteeccvtemantsvechesenchauecest adan 8 10 6 Program Example for Changing the Operation MOd6 isis et areee A E eines 34 Chapter 3 MOUNTING THE CC Link INTERFACE 10 7 Program Example for Specifying Run Command 34 OPTION icseciccsssecinaiteisssesesecsurectadedsstedsureactesssees 9 10 8 Program Example for Monitoring the Output Chapter 4 WIRING AND CABLING 0 ee eee 13 FRCQUGINCY ocni ie ia a 35 4 1 Basic Connection Diagram 00 ee 13 10 9 Program Example for Reading from the 4 2 Wiring for Power Supply Terminal Block 14 Inverter s Function Code Data ee 35 4 3 Wiring for CC Link Terminal Block 0 00 15 10 10 Program Example for Writing to
22. Inverter s 4 4 ON OFF Timing of the Option and the Inverter 17 Function Code Data eee eee tenes 36 Chapter 5 CONFIGURING INVERTER S FUNCTION 10 11 Program Example for Setting up the Reference CODES FOR CC Link COMMUNICATION 18 Frequency shgepeet adds deadseckemenrcaseSuracedsteteeusandseeshedwae ys 37 Chapter 6 SETTING UP PROCEDURE 19 Chapter 7 LIST OF I O SIGNALS 20 7 1 Remote I O Signals c cece eee eeeteeeeeeeeee 20 7 2 Remote Registers ccccecceeeeseeeeeeeeeeeeeeees 22 7 3 List of Monitor Item Codes 0 ee 26 7 4 Command Codes and Response Codes 27 10 12 Program Example for Reading out Alarm Codes 38 10 13 Program Example for Resetting a Inverter Trip 38 Chapter 11 TROUBLESHOOTING ee 39 Chapter 12 SPECIFICATIONS eee 40 12 1 General Specifications 0 eee 40 12 2 CC Link Specifications 0 eee 40 Chapter1 BEFORE USING THE CC Link INTERFACE OPTION 1 1 Acceptance Inspection Unpack the package and check the following 1 A CC Link interface option and the following accessories are contained in the package See Figure 1 1 Two option connection cables A short one for inverters with a capacity of 5 HP or below and a long one for inverters with a capacity of 7 5 HP or above One option fixing screw CC Link Interface Option Instruction Manual this manual 2 The option and accessories have not been damaged durin
23. Inverter s function codes should be code inverter s function codes specified in the format shown in Write to function 0080 to 11E34 Table 7 4 code Read from operation Link operation CC method run command source Terminal command for external drive Keypad operation Others Change to y98 3 method run Link operation CC Change to y98 0 and F02 1 command source Change to y98 0 F02 0 and Terminal command for F01 0 Write to operation Read from the latest 00024 Keypad Scent Lower byte Latest alarm code and last alarm codes j Higher byte Last alarm code The contents of alarm codes are detailed in Chapter 9 Read from the 2nd Lower byte 2nd last alarm code and 3rd last alarm Higher byte 3rd last alarm code Reads the content of the 2nd cades The contents of alarm codes are d 3rd last al des E RE i detailed in Chapter 9 Reads the content of the latest and last alarm codes Read reference 006DH The allowable setting range is from 0 frequency to 20000 Specify the ratio of the Write reference O0EDu Reads out the reference frequency relative to the maximum frequency frequency via CC Link frequency defined by F03 in Hz Writes the reference frequency being assumed as 20000 This frequency is effective only Clear alarm history OOF ee ee Reset alarm OOFDH anon E hisin Pe 96961 Resets tripped state Normal No error Execution of command code has been normally completed Not
24. They indicate the operation status of the option as listed in Table 2 1 Figure 2 3 LED Status Indicators Table 2 1 LED Indications and Operation Status HED Seice Operation Status L RUN RUN L ERR SD RD Normally communicating Normally communicating But sometimes a CRC error occurs due to electrical noise Received data contains a CRC error so this option cannot respond Data destined for this station does not come Responding to polling But refresh data received contains a CRC error The inverter trips with alarm displayed 1 Data destined for this station contains a CRC error The inverter trips with alarm displayed 1 Station address incorrectly specified Data destined for this station cannot be received due to electrical noise Transmission speed Baud rate and or station address out of the allowable range at 0 8 second Transmission speed Baud rate or station address intervals changed during CC Link communication This option cannot receive data due to broken wires The inverter trips with alarm displayed 1 The master station is compliant with CC Link version 1 xx and this slave station with CC Link version 2 xx at 0 4 second Or the inverter s function code 030 is set to 5 to 255 intervals The inverter trips with alarm displayed During normal communication the option connection cable has been broken or the power to the inverter has at 0 2 second been cut OFF intervals
25. Write data 10 O00An Set 000Ax to the write data The data of inverter s function codes should be specified in the individual data formats For details about the data formats refer to the RS 485 Communication User s Manual Chapter 5 Section 5 2 Data Formats 28 Chapter 8 INVERTER REACTION TO CC Link COMMUNICATIONS ERRORS If the inverter detects a CC Link communications error such as broken wires it trips with an alarm by factory default The inverter reaction to be taken when it detects an error can be changed with the inverter s function codes 027 and 028 as listed in Table 8 1 Table 8 1 Inverter Reaction to CC Link Communications Errors Specified with Function Codes 027 and 028 Inverter reaction to CC Link communications error 4 9 a Immediately coast to a stop and trip with Factory default If the communications link is restored within the time specified by 028 ignore the communications 2 00 e 106005 error After the timeout coast to a stop and trip with pe foe Keep the current operation ignoring the communications error No trip Immediately decelerate to a sto Jne Herat tuncuon 10 a stobiih P code F08 specifies the pping deceleration time 11 0 0 sto 60 0s After the time specified by 028 decelerate to a Sameas above stop Issue after stopping If the communications link is restored within the 42 0 0s to 60 0s time specified by 028 ignore the communications Same as above error After the timeout decelerate
26. ble other than a CC Link dedicated cable does not assure the CC Link system performance Also observe the wiring lengths specified in the CC Link version 1 10 specifications CTi lt The recommended CC Link cable is FANC 110SBH made by Kuramo Electric Co Ltd Ip Te For details about wiring for CC Link refer to the CC Link Master Use s Manual or CC Link Cable Wiring Manual published by the CC Link Partner Association The CC Link Cable Wiring Manual is available as a free download from the CC Link Partner Association s website at http www cc link org eng t_html siryo html 2 Wiring around the CC Link terminal block The terminal block uses a pluggable 5 pin connector as shown in Figure 4 4 Table 4 4 shows the correspondence between the pin numbers and the ID colors A typical connector that matches this terminal block is Phoenix Contact MSTB 2 5 5 ST 5 08 AU CTi The Phoenix Contact TMSTBP 2 5 5 ST 5 08 AU and TFKC 2 5 5 STF 5 08 AU spring cage connection type connectors for multidrop connection are also usable Note that however the former can be used only for FRENIC Multi with a capacity of 5 HP or below Table 4 4 Layout of Terminal Pins Terminal ID Color of 8 DA DA sp no oe ime conmunearon TT TT data Yellow DG 7 This is internally SLD Metallic For Smeigen connected with wire terminal FG Connect the ground FG For grounding terminal of the inverter G to this terminal Figure 4 4 Connect
27. cause a fire accident or injury Prevent lint paper fibers sawdust dust metallic chips or other foreign materials from getting into the inverter and the option Otherwise a fire or an accident might result Incorrect handling in installation removal jobs could cause a failure A failure might result Noise may be emitted from the inverter motor and wires Implement appropriate measure to prevent the nearby sensors and devices from malfunctioning due to such noise Otherwise an accident could occur Operation A WARNING Be sure to mount the inverter s and option s terminal covers before turning the inverter s power ON Do not remove the covers while power is applied Otherwise electric shock could occur Do not operate switches with wet hands Doing so could cause electric shock If you configure the function codes wrongly or without completely understanding FRENIC Multi Instruction Manual INR SI47 1204 E and the FRENIC Multi User s Manual MEH457 the motor may rotate with a torque or at a speed not permitted for the machine Confirm and adjust the setting of the function codes before running the inverter Otherwise an accident could occur Maintenance and inspection and parts replacement A WARNING Turn the inverter s power OFF and wait for at least five minutes before starting inspection Further check that the DC link bus voltage between the P and N terminals is lower than 25 VDC Other
28. esponse code RWr2 into D1 and D2 respectively Turn command code execution request RYF OFF The program example shown below resets a trip that has occurred in FRENIC Multi station 1 X0 XOF X01 JF BMOV SW80 K4M0O K4 Unit failure Unit Host station ready being linked MO X101A X20 E D _Y101A Alarm Alarm status flag reset request ON END Figure 10 13 Program Example 38 Read out data link status of slave stations Turn X20 from ON to OFF to reset the trip Chapter 11 TROUBLESHOOTING 1 Option error F 4 2 Network error 5 5 If a network error CC Link error occurs analyze the E 4 has occurred cause of the error referring to the RAS information in the sequencer CPU For the access to the RAS information and its contents see the Sequencer User s Manual Do the CC Link versions of the slave and master stations match with each other master station version 1 xx slave station version 2 xx Match the versions of the master station and the slave station with 5 has occurred each other Is the power to the YES ro ee Is the option mounted The option or inverter sequencer shut down the CPU and reset on the inverter unit may be defective A ae unit the inverter Operation correctly Contact Fuji Electric can be resumed Mount the option into Does the detailed RAS Remove the error place referring to this informa
29. eted LRST Y100F RST m302 _ END Figure 10 6 Program Example 10 7 Program Example for Specifying Run Command Read out data link status of slave stations Write the Operation mode command code HFB into RWw2 and object data H0000 into RWw3 Turn command code execution request RYF ON When the command code execution completed signal RXF is turned ON the response code RWr2 is read out into D2 0 Reading out has normally finished Turn command code execution request RYF OFF The program example shown below writes the run forward command FWD into FRENIC Multi station 1 x0 XOF X01 AE BMOV SsW80 K4M0 K4 Unit failure Unit Host station ready being linked MO E AE _Y1000_ Run ON END Figure 10 7 Program Example 34 Read out data link status of slave stations Run forward command RYO 10 8 Program Example for Monitoring the Output Frequency The program example shown below reads out the output frequency from FRENIC Multi station 1 into data register D1 X00 XOF X01 BMOV SW80 K4MO Unit Unit Host station failure ready being linked MO X20 a MOV H1 Writing ON K4 w100 X100C Monitoring MOV wo C y100c D1 Figure 10 8 Program Exam END ple Read out data link status of slave stations Write the monitor item code H01
30. g transportation there should be no dents or parts missing 3 The model name OPC E1 CCL is printed on the nameplate attached to the right side of the option See Figure 1 1 If you suspect the product is not working properly or if you have any questions about your product contact your Fuji Electric representative Option connection cable CC Link interface option wi long gt ae a Option connection cable N j fi short IL Name plate H j Option fixing screw i p g Figure 1 1 CC Link Interface Option and Accessories Chapter 2 NAMES AND FUNCTIONS 2 1 Parts Names Figure 2 1 shows the inside view of the CC Link interface option with its terminal cover See Figure 3 3 removed RJ 45 connector r J Sy i bold UE n n a E L LEDS f Terminating resistor A ON OFF switch SW5 Power supply terminal block CC Link terminal block Figure 2 1 Parts Names of CC Link Interface Option 2 2 Terminating Resistor Switch The CC Link communications network requires insertion of line terminating resistors at its both ends When this option is mounted on the inverter at either end of the network turn this switch ON to insert the terminating resistor ON OFF ON OFF OFF No insertion of terminating resistor ON Insertion of terminating resistor Figure 2 2 Terminating Resistor Switch Settings 2 3 LED Status Indicators This option has five LED status indicators shown below
31. ion codes 027 and 028 refer to Chapter 8 INVERTER REACTION TO CC Link COMMUNICATIONS ERRORS 2 After changing the 030 data resetting the option by turning the terminal RST ON or by turning the option s power OFF and then ON validates the new setting However resetting the option causes an inverter trip with an alarm if Version 1 xx is specified on the master station and Version 2 xx on the option 3 Changing the 031 or 032 data causes the L ERR LED to start blinking Resetting the option validates the new setting and turns the L ERR LED OFF Transmission speed Table 5 2 Other Related Function Codes Factory default Function code data y98 1 Run frequency Select from the following choices If there is no command sources Frequency Run special problem command command with your system Fo inverter Inverter __ setting y98 3 is LA ecatink f inverer recommended Inverter CC Link 5 CC Link CC Link 1 In addition to y98 there are some function codes that specify run frequency command sources Using those function codes enables more flexible settings of run frequency command sources For details refer to the description for the function codes H30 and y98 in the FRENIC Multi Instruction Manual INR SI47 1204 E Chapter 5 FUNCTION CODES 18 Chapter 6 SETTING UP PROCEDURE The following flow shows the initial setting up procedure for the CC Link interface option Acceptance inspection See Chapter 1 BEFORE US
32. l INR SI47 1204 E The materials are subject to change without notice Be sure to obtain the latest editions for use Safety precautions Read this manual thoroughly before proceeding with installation connections wiring operation or maintenance and inspection Ensure you have sound knowledge of the device and familiarize yourself with all safety information and precautions before proceeding to operate the inverter Safety precautions are classified into the following two categories in this manual Failure to heed the information indicated by this symbol may lead to A WARN N G dangerous conditions possibly resulting in death or serious bodily injuries Failure to heed the information indicated by this symbol may lead to A CAUTI ON dangerous conditions possibly resulting in minor or light bodily injuries and or substantial property damage Failure to heed the information contained under the CAUTION title can also result in serious consequences These safety precautions are of utmost importance and must be observed at all times Installation and wiring A WARNING Turn the inverter s power OFF and wait for at least five minutes Further check that the DC link bus voltage between the P and N terminals is lower than 25 VDC Qualified electricians should carry out wiring Otherwise electric shock could occur A CAUTION Do not use the products that are damaged or lacking parts Doing so could
33. n Terminal status assigned by inverter s Factory default OL function code E21 Not used Not used Not used Terminal 30A B C Terminal command assigned by inverter s Factory default ALML function function code E27 a Monitoring This signal is turned ON when turning the Monitor command RYC ON has caused the inverter to store monitored values into remote registers RWr0 1 4 to 7 Turning the Monitor command RYC OFF turns this signal OFF Frequency setting This signal is turned ON when turning the Frequency commana completed RYD ON has written the reference frequency into the inverter Turning the Frequency command RYD OFF turns this signal OFF RXE Not used RXF Command code This signal is turned ON when turning the Command code execution execution completed request RYF ON has completed the execution of processing corresponding to command codes specified in RWw2 10 12 14 16 and 18 Turning the Command execution request RYF OFF turns this signal OFF Alarm state flag This signal is turned ON when the inverter has tripped Remote station This signal is turned ON when powering on the inverter or resetting the ready hardware has readied the inverter This signal is used for interlocking with reading or writing from to the master unit This signal is turned OFF concurrently when the Alarm state flag RX1A is turned ON if the inverter trips 1 For details about inve
34. ors on the CC Link Terminal Block Jppdg 15 Table 4 5 lists the recommended terminal screw size and its tightening torque and Figure 4 5 shows the recommended strip length of the cable wire end Approx Table 4 5 Recommended Tightening Torque of the Gable wire ia 0 mm 0 23 in Terminal Screws on the CC Link Terminal Block 051006 Nn 0 57 10 044 bt Figure 4 5 Recommended Strip Length of the Cable Wire End for Terminal Connection 3 When two or more inverters are connected Master OPC E1 CCL 1 OPC E1 CCL Terminating resistor Terminating SW 5 ON resistor 89 YE COPS OP EE Figure 4 6 Connection Diagram of Two or More Inverters On CC Link interface options connected in the middle of the network set their terminating resistor switches SW5 to OFF No insertion of terminating resistor 16 4 4 ON OFF Timing of the Option and the Inverter Observe the following instructions about the ON OFF timing of this option and the inverter 1 Power ON It is recommended that this option be turned ON at the same time as or before the inverter Turning the inverter ON first may detect no operation of the option causing a trip with alarm The alarm can be reset after this option is turned ON 2 Power OFF It is recommended that this option be turned OFF at the same time as or after the inverter Turning the option OFF first may cause the inverter to detect no operation of the option ca
35. red resets the trip state and turns this flag RX1A OFF RR For details about inverter s function codes E01 to E05 refer to the FRENIC Multi Instruction Manual INR SI47 1204 E Chapter 5 FUNCTION CODES Depending upon terminal commands assigned to terminals X1 through X5 these signals may not be operated via CC Link For details refer to the RS 485 Communication User s Manual MEH448 Chapter 5 Section 5 1 2 3 Operation command data 2 While the Monitor command RYC is ON the monitored values are constantly updated 3 While the Frequency command RYD is ON the current reference frequency RWw1 is constantly reflected on the speed 4 Each time the Command code execution request RYF is turned ON the command specified by the command code executes once To execute it again it is necessary to turn the Command code execution request RYF ON again 5 The Alarm reset request flag RY1A should be turned ON and then OFF 20 2 Remote inputs Inverter Master Device No Signal name Description Remarks Running forward OFF Except running in forward direction Stopped or Rotating in reverse direction Rotating in forward direction Running reverse Except running in reverse direction Stopped or Rotating in forward direction ON Rotating in reverse direction Terminal Y1 function Terminal status assigned by inverter s Factory default RUN function code E20 sa Terminal Y2 functio
36. riate measures to prevent the nearby sensors and devices from malfunctioning due to such noise Otherwise an accident could occur 4 1 Basic Connection Diagram FRENIC Multi OPC E1 CCL CC Link terminal block Terminating Jlpa ma resistor switch DA Power supply terminal block To CC Link network DB Figure 4 1 Basic Connection Diagram A CAUTION For the 24 VDC power supply to be connected to the power supply terminal block be sure to use an external 24 V power supply with a capacity of at least 150 mA Never use the PLC terminal on the inverter doing so flows a current exceeding the capacity of the PLC terminal resulting in a damaged inverter A failure might result 13 4 2 Wiring for Power Supply Terminal Block This terminal block is used to supply this option with 24 V power to operate it Perform wiring for the terminal ACAUTION For the 24 VDC power supply to be connected to the power supply terminal block be sure to use an external 24 V power supply with a capacity of at least 150 mA Never use the PLC terminal on the inverter doing so flows a current exceeding the capacity of the PLC terminal resulting in a damaged inverter A failure might result 1 Wiring for the power supply terminal block TERM3 The terminal block uses a pluggable 3 pin connector as shown in Figure 4 2 Table 4 1 shows the pin assignment A typical connector tha
37. rter rating ee current as 100 Au 10 33 No monitoring Fixed to 0 k 344 PID command 0 1 35H PID feedback 0 1 36H PID deviation 0 1 37H No monitoring Fixed to 0 1 The format of the input terminal status signal is shown below Individual bits denote the ON OFF states of input terminals on the actual control circuit terminal board If terminals X1 through X5 are turned ON or OFF by remote outputs RY2 to 6 the change of the ON OFF states cannot be reflected on this monitor b15 b8 b7 bO pf fd ed ef ff x xs x x rev rw Empty Fixed to 0 Figure 7 1 Input Terminal Status Signal Format 2 The format of the output terminal status signal is shown below Individual bits denote the ON OFF states of output terminals on the actual control circuit terminal board Their states are changed in synchronization with remote inputs RX2 3 and 7 b15 b8 b7 bO Empty Fixed to 0 Figure 7 2 Output Terminal Status Signal Format 26 7 4 Command Codes and Response Codes Table 7 2 lists the command codes available in remote registers RWw2 10 12 14 and 16 The response codes to be stored in RWr2 10 12 14 and 16 to those command codes are listed in Table 7 3 The format of command codes in reading or writing from to the inverter s function codes is shown in Table 7 4 Table 7 2 Command Codes Item Code number Read from function 0000x to 11634 Reads or writes data from to
38. rter s function codes E20 E21 and E27 refer to the FRENIC Multi Instruction Manual INR SI47 1204 E Chapter 5 FUNCTION CODES 21 7 2 Remote Registers 1 Remote registers RWw Master Inverter Monitor code 2 Monitor code 1 Write the codes listed in Table 7 1 of monitor items to be referred to into RWwoO After that turning the RYC ON stores the value of those The lower and upper bytes correspond to monitor codes 1 and monitor items into RWr0 and RWr1 2 respectively RWw1 Reference Write the reference frequency into RWw1 After frequency that turning the RYD ON sets up that frequency Unit 0 01 Hz to the inverter After completion of frequency al setting the RXD is turned ON RWw2 Command code Write one of command codes listed in Table 7 2 The command code Write data Monitor code 3 Monitor code 4 Monitor code 5 Monitor code 6 Alarm history RWw9 PID set value SV RWw18 Command code 6 into RWw2 which are required for execution of the following writing reading of operation methods run command sources and inverter s function codes referring to the alarm history alarm resetting etc After writing of a command code turning the RYF ON executes that command Upon completion of the execution the RXF is turned ON Write object data specified in RWw2 into RWw3 if necessary After writing into RWw2 and RWw3 turn the RYF ON If no write data is required zero 0
39. subishi Electric sequencer etc via CC Link Mounting this option on your FRENIC Multi allows you to connect the FRENIC Multi to a CC Link master and control it as a slave using run command speed command and access to inverter s function codes This option has the following features e CC Link Version Complies with CC Link versions 1 10 and 2 00 e Applicable Profile Inverter 1 station occupied e Monitoring the status of the FRENIC Multi running status frequency output torque output current output voltage and etc e Reading and writing from to function codes applicable to the FRENIC Multi om CC Link PAA This option is a CC Link version 2 00 compliant remote device unit and supports the following Extended cyclic transmission Easing restrictions on inter station cable length This instruction manual does not contain inverter handling instructions Read through this instruction manual in conjunction with the FRENIC Multi Instruction Manual INR S147 1204 E and be familiar with proper handling and operation of this product Improper handling might result in incorrect operation a short life or even a failure of this product Keep this manual in a safe place Related Publications Listed below are the other materials related to the use of the CC Link Interface Option OPC E1 CCL Read them in conjunction with this manual as necessary e RS 485 Communication User s Manual MEH448 e FRENIC Multi Instruction Manua
40. t matches this terminal block is Phoenix Contact MSTB 2 5 3 ST 5 08 Table 4 1 Pin Assignment on Power Supply Terminal Block Pin Votan Description Remarks name 1 24V Power supply Never use the PLC terminal 24 VDC side on the inverter for 24 V power 2 OV Power supply 24 VDC side Grounding Connect the ground terminal terminal of the inverter Figure 4 2 Connectors on the Power G to this terminal g Supply Terminal Block On ote For protection against external noise and prevention of failures be sure to connect a grounding wire Table 4 2 lists the recommended wire size terminal screw size and its tightening torque Table 4 2 Recommended Wire Size Terminal Screw Size and Its Tightening Torque for the Power Supply Terminal Block Wire size Tightening torque AWG20 to AWG16 0 5 to 1 5 mm wire with rated 0 5 to 0 6 Nem temperature 105 C 221 F UL recommended M3 0 37 to 0 44 Ibf ft Approx 6 0 mm 0 23 in i Cable wire Figure 4 3 Recommended Strip Length of the Cable Wire End for Terminal Connection 14 2 Input power requirements Select the 24 V input power supply that meets the specifications listed in Table 4 3 Table 4 3 Input Power Requirements Input power voltage range 21 6 to 27 0 V 4 3 Wiring for CC Link Terminal Block 1 To connect this option to a CC Link network use a CC Link dedicated cable complying with the CC Link specifications Using a ca
41. tion in the CPU factor from the station manual module indicate that concerned and reset an error has occurred the inverter 3 Commands via CC Link not reflected Make the station addre ss of 031 match that in the system configurati on definition Comm ands received via CC Link are not reflected Is the station address setting 031 correct NO Is the data of function code y98 set to any value otherthan 0 Any of the following wiring problems YES Wire s broken Wrong connection to the terminal block Signal lines wired in parallel with power line Terminating resistor setting CC Link cable not used Maximum cable length inter sta tion cable length and the number of units connec ted out of speci fications Corre ct y98 data YES Is LE assigned to X Turn ON the function E appropriate contact YES Check the CC Link wiring and the Correct the wiring Is the L ERR LED on the option lit or blinking sequencer CPU settings NO Is the setting of the Match the setting of 030 with that of the master function code 030 CC Link extension correct YES The option or inverter unit may be defective Contact Fuji Electric Is the command code format for specifying function code s correct Correct the format referring to the RS 485 Communication Users Manual Chapter 5 YES
42. to a stop and trip with Force to rotate the motor in forward direction 14 t No trip Force to rotate the motor in reverse direction 15 No trip In any of the following cases the inverter does not take reactions specified in Table 8 1 when it detects a CC Link communications error ignoring the occurrence of the error 1 The CC Link communications link has not been established once after the option was turned ON 2 Both run command and frequency command sources specified are not CC Link that is any of the following three Inverter s function code y98 0 Terminal command LE is assigned to a terminal X and the LE is OFF Inverter s function code y99 3 or y99 data y98 data 29 Chapter9 LIST OF INVERTER ALARM CODES Through CC Link the master can monitor the information on alarms in Table 9 1 that have occurred in the inverter by using the following procedure 1 Specify which alarm code latest last 2nd last or 3rd last should be read out into the remote register RWw s The alarm code will be stored in RWr8 2 Specify command codes 0074 and 0075 in remote registers RWw2 10 12 14 16 or 18 to read out alarm codes 3 Use inverter s communication dedicated function codes M16 to M19 to read out the latest last 2nd last and 3rd last alarm codes respectively Table 9 1 List of Inverter Alarm Codes Alarm Alarm 0 001 u No alarm 2 164 Braking resistor overheated
43. uring processing of the command code any value other than zero is written RWr11 Read data 2 If the command code specified in RWw10 12 14 16 or 18 has normally executed the response Eels Read data 3 data for that command code is automatically RWr15 Read data 4 written into RWr11 13 15 17 or 19 respectively RWr17 Read data 5 RWr19 Read data 6 24 CC Link extension In CC Link version 1 10 RWw0 to RWw3 are available In CC Link version 2 00 with 2X setting RWw0 to RWw7 are available with 4X setting RWw0 to RWwF RWw9 for this option are available with 8X setting RWw0 to RWw1F RWw19 for this option are available 25 7 3 List of Monitor Item Codes Table 7 1 lists the monitor item codes available in RWwo 4 to 7 Table 7 1 Monitor Item Codes Monitor item No monitoring Fixed to 0 Output frequency Output current 03H Output voltage 0 1V 044 No monitoring Fixed to 0 054 Reference frequency 0 01 Hz Motor speed 1 r min Calculated torque 0 1 094 to OCh No monitoring Fixed to 0 ODy Input power OEu Motor power consumption OFu Input terminal status 11H Load factor Assuming the motor rated i torque as 100 124 to 134 No monitoring Fixed to 0 14H Cumulative run time Pp i 1 hr 154 to 164 No monitoring Fixed to 0 1 hr 174 Cumulative motor run time 184 Current output from the inverter in RMS 0 1 Assuming the inverter rated based on the inve
44. using a trip with alarm Turning the inverter OFF resets the alarm K Tip The inverter issues an alarm if the option s power stays OFF for approximately 1 second when the inverter power is ON 17 Chapter 5 CONFIGURING INVERTER S FUNCTION CODES FOR CC Link COMMUNICATION Before starting CC Link communication between the inverter equipped with this option and the CC Link master device configure the inverter s function codes listed in Table 5 1 Table 5 2 lists other related function codes to be configured if necessary Table 5 1 Inverter s Function Codes for CC Link Communication The underlined values are factory defaults Function Response mode to apply Select a response mode to apply when a when a CC Link 0 communications link error or an option failure is communications error occurs detected Operation timer to apply when Specify the timer period during which the a CC Link communications 0 0 to 60 0 sec inverter keeps running even if a communications error occurs link error is detected 1 station occupied CC Link version 1 10 1 station occupied 2X setting CC Link version 2 00 1 station occupied 4X setting 2 2 030 CC Link extension CC Link version 2 00 4 1 station occupied 8X setting CC Link version 2 00 5 to 255 No operation 7 1 to 64 Set a station address 031 3 Station address 0 65 to 255 0 0 er kbps E 1 625 kbps 2 5 Mbps 1 For details about the funct
45. ween the P and N terminals is lower than 25 VDC Otherwise electric shock could occur A CAUTION Do not use the products that are damaged or lacking parts Doing so could cause a fire accident or injury Prevent lint paper fibers sawdust dust metallic chips or other foreign materials from getting into the inverter and the option Otherwise a fire or an accident might result Incorrect handling in installation removal jobs could cause a failure When handling this option take any antistatic measure or hold the plastic parts taking care not to directly touch the circuit board otherwise the static electricity charged in your body may damage it A failure might result Note Before mounting the option perform the wiring for the main circuit terminals and control circuit terminals 1 Remove the terminal cover from the inverter Note For inverters with a capacity of 7 5 to 20 HP you need to remove the terminal cover fixing screw to remove the terminal cover For details on how to remove the terminal cover refer to the FRENIC Multi Instruction Manual INR SI47 1204 E Chapter 2 Section 2 3 Wiring 2 Connect the option connection cable to the CN1 connector on the interface printed circuit board interface PCB on the inverter Use the short cable for inverters with a capacity of 5 HP or below and the long cable for the ones with a capacity of 7 5 HP or above 3 Mount the terminal cover
46. wise electric shock could occur Maintenance inspection and parts replacement should be made only by qualified persons Take off the watch rings and other metallic objects before starting work Use insulated tools Otherwise electric shock or injuries could occur Disposal ACAUTION Treat the product as an industrial waste when disposing of it Otherwise injuries could occur Others AWARNING Never attempt to modify the product Doing so could cause electric shock or injuries How this manual is organized This manual is made up of chapters 1 through 12 Chapter 1 BEFORE USING THE CC Link INTERFACE OPTION Lists points to be checked upon delivery of this option and describes the applicable inverters Chapter 2 NAMES AND FUNCTIONS Shows the inside view of this option and describes the terminating resistor switch and LED status indicators Chapter 3 MOUNTING THE CC Link INTERFACE OPTION Provides instructions and precautions for mounting this option Chapter 4 WIRING AND CABLING Provides wiring instructions around the terminal blocks on this option and the cable specifications Chapter 5 CONFIGURING INVERTER S FUNCTION CODES FOR CC Link COMMUNICATION Describes the inverter s function codes to be set for the CC Link communications link Also this chapter lists the related function codes Chapter 6 SETTING UP PROCEDURE Guides you to establish a CC Link communications link Chapter 7 LIST OF I O S
47. your comments regarding any errors or omissions you may have found or any suggestions you may have for generally improving the manual In no event will Fuji Electric FA Components amp Systems Co Ltd be liable for any direct or indirect damages resulting from the application of the information in this manual MEMO Fuji Electric Systems Co Lid http www fujielectric com fecoa Fuji Electric Corp of America 47520 Westinghouse Drive Fremont CA 94539 U S A Tel 1 510 440 1060 Fax 1 510 440 1063 Toll free support 1 888 900 FUJI 3854 Information subject to change without notice INR SI47 1175 EU Rev 052010 5 TF
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