Mitsubishi Electronics FX5U manuel d'utilisation
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Table des matières du manuel d’utilisation
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Page 1
MELSEC iQ-F FX5U User's Manual (Hardware)[...]
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1 SAFETY PRECAUTIONS (Read these precau ti ons before use.) Before using this product, please read th is manual and the rele vant manu als introduced in this manual carefully and pay full attention to safety in order to handle the product correctly . This manual classifies the safety precautions into two categories: [ W ARNING] and [ CAUTION]. Depe[...]
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2 [DESIGN PRECAUTIONS] [INST ALLA TION PRECAUTIONS] CAUTION ● When an inductive lo ad such as a lamp, heater , or solenoid valve is co ntrolled, a large current (approximately ten time s greater than n ormal) may flow when the ou tput is turned fr om off to on. T ake proper measures so that the flowing current does not exceed the value correspond[...]
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3 [INST ALLA TION PRECAUTIONS] CAUTION ● Do not touch the conductive parts of the produc t directly . Doing so may cause device failures or malfunctions. ● When drilling screw hole s or wiring, make sure that cutting and wiring debris do not enter the ventilation slits of the PLC. Failure to do so may cause fire, equipment fail ures o r malfunc[...]
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4 [WIRING PRECAUTIONS] [WIRING PRECAUTIONS] W A RNING ● Make sure to cut off all phases of the power supply exte rnally before at tempting in stallation or wiring work. Failure to do so may cause electric shock or dama ge to the product. ● Make sure to attach the terminal cover , provi ded as an accessory , before turning on the po wer or initi[...]
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5 [ST AR TUP AND MAINTENANCE PRECAUTIONS] ● Make sure to observe the following pre cautions in order to prevent any damage to the machine ry or accidents due to malfunction of the PLC caused by abnormal data written to the PLC due to the effect s of noise. - Do not bundle the power lin e, control line and communication cables together with or la [...]
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6 [ST AR TUP AND MAINTENANCE PRECAUTIONS] [OPERA TION PRECAUTIONS] [DISPOSAL PRECAUTIONS] CAUTION ● Do not disassemble or modify the PL C. Doing so may cause fire, equipment failures, or malfunctions. *For repair , contact your local Mi tsubishi Electric representative. ● After the first use of the SD memory card, do not insert/remove the memor[...]
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7 [TRANSPOR T A TION PRECAUTIONS] INTRODUCTION This manual contains text, diagrams and explanations which wil l guid e the reader in the correct installation, safe use and operation of the FX5U Programmable Contro llers and should be read and understoo d before attempting to install or use the module. Always forward it to the end user . Regarding u[...]
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8 CONTENTS SAFETY PRECAUTIO NS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 RELEV ANT MANUAL[...]
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9 CONTENTS CHAPTER 4 SYSTEM CONFIGURA TION 38 4.1 Rules of Sy stem Conf iguration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39 4.2 Limitations on the Nu mber of Connected Ex tension D evices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 1 Number o[...]
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10 Screw termina l block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76 European-type terminal block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77 6.3 Grounding . . . . . [...]
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11 CONTENTS 9.3 T ro ubleshoo ting using the engin eering to ol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 121 Module diagnosti cs (CPU Diagnostics) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 122 9.4 Error Status and Operation s o[...]
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12 RELEV ANT MANUALS User's manuals for th e applicable modules TERMS Unless otherwise specified, this manual uses the following terms. • indicates a variable part to collectively cal l multiple models or versions. (Example) FX5U-32MR/ES, FX5U-32MT/ES FX5U-32M /ES • For details on the FX3 devices that can be connected with the [...]
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13 Extension power supply module Generic term for FX5 extension power supply module and FX3 extension power supply module • FX5 extension power supply module Different name for FX5-1PSU-5V • FX3 extension power supply module Different name for FX3U-1PSU-5V Intelligent module The abbreviation fo r intelligent function modules Intelligent functio[...]
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14 1 OUTLINE 1.1 Part Names 1 OUTLINE 1.1 Part Names Front p anel No. Name Description [1] DIN rail mounting hooks Hook for mounting the CPU module on a DIN rail of DIN46277 (35 mm (1.38" ) wide). [2] Expansion adapter co nnecting hooks When connecting an exp ansion adapter , secure it with these hooks. [3] T erminal block cover Cover for prot[...]
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1 OUTLINE 1.1 Part Names 15 1 With cover open Use a tool such as a screwdriver to operat e RS-485 terminal resistor selector switch. Make sure that the edge of the tool do es not damage the switch or the case. When the terminal block covers are open No. Name Description [1] Built-in RS-485 communication terminal block T erminal block for connection[...]
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16 1 OUTLINE 1.1 Part Names Side Lef t side/right side Products that do not have the genuine product certification label or nameplate are not covered by the warranty . T op side/bottom side No. Name Description [1] Expa nsion adapter connector cover Cover for protecting th e expa nsion adapte r connector . Connect the expansion adapter to the exp a[...]
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2 SPECIFICA TIONS 2.1 Generic Specifications 17 2 2 SPECIFICA TIONS The CPU module specificatio ns a re explained be low . 2.1 Generic S pecifications *1 The simultaneous ON ratio of available PLC inputs or outputs changes with respect to the ambien t temperature, refer to Page 22 Input/Output Derating Curve. *2 For details on Intelligent funct[...]
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18 2 SPECIFICA TIONS 2.2 Power Supply Specifications ■ Exp ansion board, exp ansion adapter For dielectric withstand voltage test and insulation resistanc e test of each product, refer to manuals of each product. ■ Intelligent function module For information concerning dielectric withstand voltage and insu lation re sistance of intelligent func[...]
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2 SPECIFICA TIONS 2.3 Input Specifications 19 2 2.3 Input S pecifications The CPU module input specifi cations are explained below. 24 V DC Input (sink/source) The input points in the table below indicate the CPU module terminal points. Item Specifications No. of input points FX5U-32M 16 points FX5U-64M 32 points FX5U-80M 40 points Conn[...]
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20 2 SPECIFICA TIONS 2.3 Input Specifications Input circuit configuration • When using service power su pply • When using external power supply Item Specifications 24V N L 100 to 240 V AC Fuse X S/S 0V Source input wiring 24V N L 100 to 240 V AC Fuse X S/S 0V Sink input wiring Input impedance Input impedance Input impedance Input impedance 24V [...]
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2 SPECIFICA TIONS 2.4 Output Specifications 21 2 2.4 Output S pecifications The CPU module output specific ations ar e explained below . Relay output Item Output Specifications No. of output point s FX5U-32MR/ 16 points FX5U-64MR/ 32 points FX5U-80MR/ 40 points Connection type Removable terminal block (M3 screws) Output type Relay Exter[...]
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22 2 SPECIFICA TIONS 2.5 Input/Output Derating Curve T ransistor output 2.5 Input/Output Derating Curve The derating curve below shows th e simultaneous ON ratio of available PLC inputs or outputs with respect to the ambient temperature. Use the PLC within the simultaneous input or output ON ratio range shown in the figure . Item Output specificati[...]
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2 SPECIFICA TIONS 2.6 Performance Specifications 23 2 2.6 Performance S pecifications *1 The value listed above indicates the number of files stored in the root folder. *2 Clock data is retained using the power accumulated in a large- capacity capacitor incorporated into the PLC. When voltage of t he large- capacity capacitor drop s, clock data is [...]
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24 2 SPECIFICA TIONS 2.6 Performance Specifications Number of device point s *1 Can be changed with parameters within the capacity range of the CPU built-in memory . *2 T otal of the index register (Z) and lo ng index register (LZ) is maximum 24 words. Item Base Max. number of poin t s No. of user device points Input relay (X) 8 1024 points The tot[...]
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2 SPECIFICA TIONS 2.7 Built-in Analog Specifications 25 2 2.7 Built-in Analog S pecifications The analog input/output specific ations of the built-i n analog function are e xplained below. For details on the analog built-in function, refer to MELSEC iQ-F FX5 User's Manual (Analog Control ). Analog input *1 "Digit" refers to digit[...]
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26 2 SPECIFICA TIONS 2.8 Communication Specifications 2.8 Communication S pecifications The built-in Ethernet and built-in RS-485 communication specifi cat ions are as explained belo w . Built-in Ethernet communication For details of built-in Ethernet communication, refer to the following. MELSEC iQ-F FX5 User's Manual (Ethernet Communicat[...]
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2 SPECIFICA TIONS 2.9 External Dimensions 27 2 2.9 External Dimensions CPU module FX5U-32M FX5U-64M , FX5U-80M Model W W1 (mount ing hole pitch) Mass (weight) FX5U-32M 150 mm (5.91") 123 mm (4.85") Approx. 0.65 kg (1.43 lbs) • Exterior color Main body: Munsell 0.6B7.6/0 .2 • Accessories Dust proof protection sheet Manu[...]
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28 2 SPECIFICA TIONS 2.10 Terminal Layout 2.10 T erminal Layout Built-in RS-485 terminal Built-in analog terminal Built-in Ethernet connector 5 poles RDA (RXD+) RDB (RXD-) SDA (TXD+) SDB (TXD-) SG (GND) European type terminal block 5 poles V- V+ V- V2+ V1+ European type terminal block Analog input Analog output 81 Pin 1 2 3 4 5 6 7 8 Signal name TD[...]
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2 SPECIFICA TIONS 2.10 Terminal Layout 29 2 Power , input/output terminal block ■ Interpret ation of terminal block layout ■ FX5U-32M ■ FX5U-64M • Indication of power supply terminals [L] and [N] termina ls. For external wiri ng, refer to Page 79 Power Supply Wiring. • Indication of 24 V DC service power supply [0V] and [2 4V][...]
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30 2 SPECIFICA TIONS 2.10 Terminal Layout ■ FX5U-80M FX5U-80MT/ESS 0V S/S 0V 24V N L 24V X0 1 2 3 4 5 6 7 X10 11 12 13 14 22 16 X20 21 15 17 23 24 25 26 27 X30 31 32 33 34 35 36 X40 42 44 46 37 Y4 2 3 COM1 1 Y0 COM0 5 6 7 Y10 11 12 13 Y14 15 16 17 COM2 COM3 24 22 Y20 21 23 COM4 COM5 25 26 27 32 Y30 33 34 35 36 31 37 Y40 COM6 41 42 41 43 44 43[...]
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3 PRODUCT LIST 3.1 Overall Configuration 31 3 3 PRODUCT LIST The following shows the system co nf iguration equipment of the FX5U. 3.1 Overall Configuration I/O module Input Output • FX5-8EX/ES • FX5-16EX/ES Powered input /ou tput mo dule • FX5-32ER/ES • FX5-32ET/ES • FX5-32ET/ESS • FX5-8EYR/ES • FX5-8EYT/ES • FX5-8EYT/ESS • FX5-1[...]
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32 3 PRODUCT LIST 3.2 CPU Module 3.2 CPU Module The CPU module incorporates a CPU, memory , in put/output terminals, and pow er supply . AC power supply common to 24 V DC sink and source input *1 Power supply capacity when external power sup ply is used for input circuit The model na me of the CPU module can be che cked on the nameplate on th e rig[...]
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3 PRODUCT LIST 3.3 I/O Module 33 3 3.3 I/O Module The I/O module is used to expand inputs/output s. For details, refer to Page 132 I/O Module. Input module The input module is used to expand inputs. Output module The output module is used to expand outputs. Powered input/output module The powered input/output mo dule includes a power s upply an[...]
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34 3 PRODUCT LIST 3.4 Intelligent Function Module 3.4 Intelligent Function Module Intelligent function modules are modules th at have functions other th an input/output, such as simple motion modules. For details, refer to manuals of each module. FX5 intelligent Function Module Positioning FX3 intelligent Function Module The following FX3 intelli g[...]
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3 PRODUCT LIST 3.5 Expansion Board 35 3 Network *1 GX Works3 does not support this module. When usi ng this module, perform setting via buffer memory . *2 Number of remote I/O points is added. For details, refer to Page 46 Calculation of number of remo te I/O points. *3 The number of input/output points set by the rotary switch is added. For de[...]
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36 3 PRODUCT LIST 3.7 Extension Power Supply Module 3.7 Extension Power Supply Module The extension power supply module is an added powe r supply if the built-in power supply of th e CPU module is insufficient. For details on the specifications of the extension power supply modu le, refer to Manuals of each product. FX5 exp ansion power supply modu[...]
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3 PRODUCT LIST 3.10 Battery 37 3 3.10 Battery For details on the battery , refer to Page 1 16 Batte ry. 3.1 1 Communication Cable Use a communication cable to con nect a PLC with a personal co mputer by RS-232C communica tion. 3.12 Engineering T ool For design and programming of FX5U CP U module systems, use GX Wo rks3. For the operation method[...]
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38 4 SYSTEM CONFIGURA TION 4 SYSTEM CONFIGURA TION Configuration of a whole system The configuration of an entire system is shown below as an example. For assignment of the module numbers fo r extension modules, refer to Page 62 Module number of Extension modu les. Ex. Intelligent module FX3U-1PSU-5V FX3U-16CCL-M Module No.5 FX3U-4DA Module No.[...]
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4 SYSTEM CONFIGURA TION 4.1 Rules of System Configuration 39 4 4.1 Rules of System Configuration The system configuration must meet the following four requirements. Number of connected extension device The number of extension devic es that can be conn ected to a single system of FX5U CPU module is limited. For details, refer to Page 41 Limitati[...]
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40 4 SYSTEM CONFIGURA TION 4.1 Rules of System Configuration Current consumption Power of extension devices is supplied from th e CPU module or extension power supply module. The number of extension devices that c an be connected must be determined from the capacity of the power supply . For details on the current consumption, refer to Page 48 [...]
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4 SYSTEM CONFIGURA TION 4.2 Limitations on the Number of Connected Extension Devices 41 4 4.2 Limit ations on the Number of Connected Extension Devices Number of connected exp ansion boards Only 1 expansion board can be connected on the front face of the CPU module. Number of connected exp ansion adapters There is a limitation on the number of expa[...]
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42 4 SYSTEM CONFIGURA TION 4.2 Limitations on the Number of Conne cted Extension Devices Number of connected extension modules Overall system limit ation There is a limitation on the number of connected extension modules in a whole system as follows. Connection to the CPU module There is a limitation on the number of extension modules connected to [...]
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4 SYSTEM CONFIGURA TION 4.2 Limitations on the Number of Connected Extension Devices 43 4 Connection to the power ed input/output module There is a limitation on the number of extension module s connected to the powered input/output module as follows. The number of connected modules from th e right si de of the powered input/output module the next [...]
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44 4 SYSTEM CONFIGURA TION 4.2 Limitations on the Number of Conne cted Extension Devices Connection to the bus conversion module (connection with FX3 extension devices) There is a limitation on the number of extension module s connecte d to the bus con version module as fo llows. The number of modules connected on th e right side of the b us conver[...]
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4 SYSTEM CONFIGURA TION 4.3 Limitation on the Number of Input/Outp ut Points 45 4 4.3 Limit ation on the Number of Input/Output Point s With the FX5U CPU module, a total of 512 points including th e number of input/outp ut points of extension devices (max. 256 points) and the number of remote I/O points (max. 384 points) can be controlled. T ot al [...]
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46 4 SYSTEM CONFIGURA TION 4.3 Limitation on the Number of Inp ut/Output Points Calculation of number of input/output point s The number of input/output poin ts is the to tal of the number of input/output points of the CPU modu le and I/O module, and the number of occupied i nput/output point s of intelligent function modules. The total number of i[...]
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4 SYSTEM CONFIGURA TION 4.3 Limitation on the Number of Input/Outp ut Points 47 4 CC-Link remote I/O Remote I/O points that are used in FX3U-16CCL-M are calculate d as "number of stations X 32 points." Even if using less than 32 remote I/O points, ca lculate as "number of stations X 32 points." In the FX5U CPU module, FX3U-16CCL[...]
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48 4 SYSTEM CONFIGURA TION 4.4 Limitation on Current Consumpt ion 4.4 Limit ation on Current Consumption Power required for expansion adapters, ex pansion boards, and extension modules is supplied from the CPU module or extension power supply module. The number of extension de vices that can be connected must be determined from the capacity of the [...]
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4 SYSTEM CONFIGURA TION 4.4 Limitation on Current Consumption 49 4 4. Check if expansion to the CPU module is permitted. • 5 V DC power supply • 24 V DC power supply The value obtained by this calculation (w hen the value is positive) ind icates the remaining capacity of 24 V DC service power supply , and the capacity can be used for external l[...]
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50 4 SYSTEM CONFIGURA TION 4.4 Limitation on Current Consumpt ion 2. Check the number of input/output points and cu rrent consumption of the extension module. ( Page 33 I/O Module) ( Page 34 Intelligent Function Module) 3. Calculate the total current co nsumption of each power supply . 4. Check if expansion to the extension power supply mod[...]
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4 SYSTEM CONFIGURA TION 4.4 Limitation on Current Consumption 51 4 Power supply check from exte nsion power supply module (current consumption calculation) If 5 V DC power supply of the CPU module is insufficient an d cannot be extended, add an extension power supply module . Check if power can be supplied to extension module s with the power suppl[...]
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52 4 SYSTEM CONFIGURA TION 4.4 Limitation on Current Consumpt ion When connecting an input module after (on the ri g ht side of) the extension power supply module When using service po wer supply of the CPU module or powered input/output module for in put circuit of an input module, include the inpu t module in the 24 V DC current consumption calcu[...]
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4 SYSTEM CONFIGURA TION 4.5 Rules of System Configurati on and Examples of Reconfiguration 53 4 4.5 Rules of System Configuration and Examples of Reconfiguration The rules of system configuration are explained below referring to a sample system configuration using an expansion board, expansion adapter , I/O module, and intelligent function module. [...]
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54 4 SYSTEM CONFIGURA TION 4.5 Rules of System Configurati on and Examples of Reconfiguration • Number of modules connected to the CPU module ( Page 42 Connection to the CPU module) • Number of modules connected to the bus conversion module ( Page 44 Connection to the bus conver sion m odule (connection with FX3 exten sion devices)) Che[...]
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4 SYSTEM CONFIGURA TION 4.5 Rules of System Configurati on and Examples of Reconfiguration 55 4 Check of limit ation on the num ber of input/output points Check if the number of input/output points of the sa mple system configuration is within the limit range. ■ Number of input/output point s ( Page 46 Calculation of num ber of input/output p[...]
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56 4 SYSTEM CONFIGURA TION 4.5 Rules of System Configurati on and Examples of Reconfiguration Check of limit ation on current consumption Check if power required for extension devices can be su pplied from the CPU module and extension power supply module. A case using service power supply for input circuit is explained as an exampl e. ■ Check of [...]
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4 SYSTEM CONFIGURA TION 4.5 Rules of System Configurati on and Examples of Reconfiguration 57 4 System reconfiguration example If current consumption of the 5 V DC or 24 V DC power supply is insufficient with the CPU module only , powe red input/output module or use an extension power supply module. Reconfigure the example system configuratio n usi[...]
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58 4 SYSTEM CONFIGURA TION 4.5 Rules of System Configurati on and Examples of Reconfiguration • Number of modules connected to the bus conversion module ( Page 44 Connection to the bus conver sion m odule (connection with FX3 exten sion devices)) Check on limit ations when us ing FX3 extension devices Check on limitations when using the FX3 e[...]
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4 SYSTEM CONFIGURA TION 4.5 Rules of System Configurati on and Examples of Reconfiguration 59 4 ■ Number of remote I/O point s ( Page 46 Calculation of number of remote I/O points) ■ T otal number o f I/O point s and remote I/O point s ( Page 45 Limitation on the Number of Input/Output Points) Network No. of remote I/O points AnyWireASL[...]
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60 4 SYSTEM CONFIGURA TION 4.5 Rules of System Configurati on and Examples of Reconfiguration Check of limit ation on current consumption Check if power required for extension devices can be su pplied from the CPU module and extension power supply module. A case using service power supply for input circuit is explained as an exampl e. ■ Check of [...]
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4 SYSTEM CONFIGURA TION 4.5 Rules of System Configurati on and Examples of Reconfiguration 61 4 ■ Check of power supply from the extension power supply module ( Page 51 Power supply check from extension power supply module (current consumption calculation)) Power supply capacity of the extension power supply module Current consumption of exte[...]
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62 4 SYSTEM CONFIGURA TION 4.6 Numbers and Assignment in System 4.6 Numbers and Assignment in System Input/output numb ers and module numbers in an FX5U CPU module system are explained. Module input/output number The input/output numbers are octal numbers. In put is assigned to "X" and output to "Y ." Input/output nu mbers are u[...]
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5 INST ALLA TION 5.1 Installation Location 63 5 5 INST ALLA TION 5.1 Inst allation Location Use the PLC under the environmental conditions complyi ng with the generic specifications ( Page 17 Generic S pecifications). Inst allation location in enclosure T o prevent temperature rise, do not mount the PLC on the floor or ceiling, or in the vertic[...]
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64 5 INST ALLA TION 5.2 Examination for Installation Method in Enclosure 5.2 Examination for Inst allation Method in Enclosure Examine the installation location of PLC considering the environ mental conditions ( Page 17 Generic S pecifications). The PLC can be installed by the following two methods. Keep a space of about 2 mm (0.08") betwe[...]
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5 INST ALLA TION 5.3 Procedures for Installing on and Detaching from DIN Rail 65 5 5.3 Procedures for Inst alling on and Det aching from DIN Rail The CPU module can be installed on a DIN46277 rail (35 mm (1.38") wide). Prep aration for installation Connecting extension devices Some extension devices must be mounted on the CPU modu le before th[...]
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66 5 INST ALLA TION 5.3 Procedures for Installing on and Detaching from DIN Rail Inst allation of extension module Removal of CPU module 1. Push out the DIN rail mounting hook (A in the right figure) of the extension module. 2. Fit the upper edge of the DI N rail mounting groove (B in the right figure) onto the DIN rail. 3. Push the product against[...]
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5 INST ALLA TION 5.4 Procedures for Installing Directly (with M4 Screws) 67 5 5.4 Procedures for Inst alling Directly (with M4 Screws) The product can be installed direct ly in the enclo sure (with screws). Position the holes so that there is a gap of about 2 mm (0.08") between the products. Hole pitches for direct mounting The product mountin[...]
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68 5 INST ALLA TION 5.4 Procedures for Installi ng Directly (with M4 Screws ) I/O module Extension power supply module Bus conversion module Intelligent function module For the mounting hole dimensions of intelligent functi on modules, re fer to user's manuals of each product. Dimensions Model name Moun ting hole pitc h W Unit: mm (inches) FX5[...]
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5 INST ALLA TION 5.4 Procedures for Installing Directly (with M4 Screws) 69 5 Hole pitches when extension module connected Ex. *1 The gap between products is 2 mm (0.08"). Inst allation of CPU module Connect the expansion adapter to the CPU modul e before mounting th e PLC in the enclosure. For the connectio n method of the expansion adap ter [...]
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70 5 INST ALLA TION 5.4 Procedures for Installi ng Directly (with M4 Screws ) Inst allation of extension module 1. Make mounting holes on the mounting surface according to the external dimensions diagram. 2. Push in the DIN rail mo unting hook (A in the right figure) of the extension module. If t he DIN rail mountin g hook is not pushed in, the scr[...]
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5 INST ALLA TION 5.5 Connection Methods for CP U Module and Extension De vices 71 5 5.5 Connection Methods for CPU Module and Extension Devices This section explains the connec tion methods for extension devices. Connection of extension devices The connection method vari es depending on the comb ination of products, i.e., the CPU module, expansion [...]
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72 5 INST ALLA TION 5.5 Connection Methods for CPU Module and Extension Devices Connection method B - connection of an exp ansion adapter This subsection explains how to connect th e expansion adapter to the CPU module. Connection method C - connection of an extension module to the CPU module The procedure for co nnecting the extension module to th[...]
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5 INST ALLA TION 5.5 Connection Methods for CP U Module and Extension De vices 73 5 Connection method D - connecti on between extension modules The procedure for connecting the extension modules is expl a ined below . (Powered i npu t/output module are excluded.) Connection method E - connection of an extension module to the bus conversion module T[...]
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Page 76
74 6 WIRING 6.1 Wiring Preparations 6 WIRING 6.1 Wiring Prep arations Wiring procedure Before wiring, make sure that the source power supply is off. 1. Prepare the p arts for wiring. Prepare crimp terminals and cables needed for wiring. ( Page 76 Cable Con necting Procedure) 2. Wire the power supply terminals. Connect the cables to the powe r [[...]
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6 WIRING 6.1 Wiring Preparations 75 6 Removal and inst allation of removable terminal block Removal Loosen terminal block mountin g screws on the left and rig ht sides uniformly and remove the terminal block. Inst allation Place the terminal block at its predetermined position and tigh ten the terminal block mounting screws on the left and right si[...]
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Page 78
76 6 WIRING 6.2 Cable Connecting Procedure 6.2 Cable Connecting Procedure The cable connectin g procedure is explained below . Screw terminal block Wire the screw terminal block in accordance with the fo llowing specifications. For information concerning screw terminal blocks for inte lligent function modules, refer to User's manual for each i[...]
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Page 79
6 WIRING 6.2 Cable Connecting Proced ure 77 6 European-type terminal block Wire the European-typ e terminal block in a ccordance with the followin g specifications. Suit able wiring Precautions Do not tighten terminal screws with torque beyond the specif ied range. Otherwise it may cause equipmen t failure or malfunction. Wire end treatment T reat [...]
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Page 80
78 6 WIRING 6.3 Grounding ■ T ool <Reference> 6.3 Grounding Perform the following. • Perform class D grounding (Grounding resistance: 10 0 or less). • Ground the PLC independently when possible. • If the PLC cannot be grounded independ ently , perform the "Common grounding" shown below . PLC extension devices (excludin g[...]
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Page 81
6 WIRING 6.4 Power Supply Wiring 79 6 6.4 Power Supply Wiring Examples of AC power supply wiring Power supply example fo r sink input [-common] *1 Connect the AC power supply to the [L] and [N] termi nals (common for 100 V AC system and 200 V AC system). Make sure that the powered input/output module is turned on at t he same time as the CPU module[...]
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80 6 WIRING 6.4 Power Supply Wiring Power supply example for source input [+common] *1 Connect the AC power supply to the [L] and [N] termi nals (common for 100 V AC system and 200 V AC system). Make sure that the powered input/output module is turned on at t he same time as the CPU module or earlier th an the CPU module. *2 Connect the [0V] termin[...]
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Page 83
6 WIRING 6.4 Power Supply Wiring 81 6 Wiring example for an exte nsion power supply module (sink input [-common]) The following exam ple shows wiring for an extension power supply module when sink input [-common] is used. *1 Connect the AC power supply to the [L] and [N] terminals (comm on for 100 V AC system and 200 V AC system). Make sure that th[...]
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Page 84
82 6 WIRING 6.4 Power Supply Wiring Wiring example for an exte nsion power supply module (source input [+common]) The following example shows wiring for an extension power supply module when source input [+common] is used. *1 Connect the AC power supply to the [L] and [N] terminals (comm on for 100 V AC system and 200 V AC system). Make sure that t[...]
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Page 85
6 WIRING 6.5 Input Wiring 83 6 6.5 Input Wiring The input wiring of the CPU module and I/O modules is explained below . 24 V DC input (Sink and source input type) For input specifications of the CPU module, refer to Page 19 In put S p ecifications. For input specifications of the I/O modules , refer to Page 135 Input specifications. Sink an[...]
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Page 86
84 6 WIRING 6.5 Input Wiring Handling of 24 V DC input ■ Input terminal ■ Input circuit ■ Input sensitivity • Sink input • Source input When a no-voltage contact or NPN open collector transistor ou tput is connected betwee n an input (X) terminal and the [0V] terminal and the circuit is closed, t he input (X) turns on. The input display L[...]
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Page 87
6 WIRING 6.5 Input Wiring 85 6 Precautions for connecting input devices ■ In the case of no-volt age contact Use input devices appropriate for low electric current. If no-voltage contacts for high current (swi tches) are used, contact failure may occur . ■ In the case of input device wi th built-in series diode The voltage drop of the series di[...]
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Page 88
86 6 WIRING 6.5 Input Wiring ■ In the case of 2-wire proxi mity switch Use a two-wire proximity swit ch whose leakage current, I is 1.5 mA or less when the switch is off. If the resistance is larger than leakage current, I of 1.5 mA, connect a bleeder resistance Rb (k ), obtained by the following formula as shown in the following figu[...]
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Page 89
6 WIRING 6.5 Input Wiring 87 6 Input wiring example Sink input [AC power supply type] *1 Handle the power supply cir cuit properly in accordance with "P ower Supply Wiring." *2 For an input device having a parallel resistance or a two- wire proximity switch, a bleeder resistance may be required. *3 In the case of sink input wiring, short-[...]
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Page 90
88 6 WIRING 6.5 Input Wiring Source input [AC po wer supply type] *1 Handle the power supply cir cuit properly in accordance with "P ower Supply Wiring." *2 For an input device having a parallel resistance or a two- wire proximity switch, a bleeder resistance may be required. *3 In the case of source input wiring, short-circui t the [S/S][...]
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Page 91
6 WIRING 6.6 Output Wiring 89 6 6.6 Output Wiring The output wiring of the CPU module and I/O modules is explained below . Relay output For output specifications of the CPU module, refer to Page 21 Output S pecifications. For output specifications of the I/O modules, refer to Page 136 Output specifications. Product life of re lay output con[...]
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90 6 WIRING 6.6 Output Wiring Handling of relay output ■ Output terminal One common terminal is used for 4 or 8 relay output points. The common terminal blocks can drive loads of differ ent circuit voltage systems (for example,100 V AC and 24 V DC). ■ External power supply Use an external power supply of 30 V DC or less or 240 V AC or less (250[...]
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Page 93
6 WIRING 6.6 Output Wiring 91 6 Wiring precautions ■ Protection circuit for load short-circuiting ■ Cont act protection circuit for inductive loads ■ Interlock ■ In-phase A short-circuit at a load connected to an output terminal could cause burnout at the output e l ement or the PCB. T o pr event this, a protectio n fuse should be inserted [...]
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92 6 WIRING 6.6 Output Wiring T ransistor output For output specifications of the CPU module, refer to Page 21 Output S pecifications. For output specifications of the I/O modules, refer to Page 136 Output specifications. Sink and source output Sink output and source output products are available for transistor outputs of the CPU module and[...]
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Page 95
6 WIRING 6.6 Output Wiring 93 6 ■ Response time T ime taken from when the photocoupler of t he module is driven (or shut off) to when the transistor is turned on (or off) diff er s depending on the output terminal used . For specif ications of each module, refer to the followi ng. For output specifications of the CPU module, refer to Page 21 [...]
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94 6 WIRING 6.6 Output Wiring ■ Cont act protection circuit for inductive loads When an inductive load is connected , connect a diode (for commutation) in parallel with the load as necessary . The diode (fo r commutation) must comply with the following specifications. ■ Interlock For loads such as forward/reverse contactors, etc., where a haz a[...]
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Page 97
6 WIRING 6.6 Output Wiring 95 6 Output wiring example Relay output *1 The output circuit of the PLC does not have a built-in fuse. Provide a fuse suitable for each load to prevent melting of the wires on the circuit board c aused by output device breakdow n du e to load short-circuiting. *2 " " represents vacant terminals. Y0 COM0 Y7 [...]
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Page 98
96 6 WIRING 6.6 Output Wiring T ransistor output ■ Sink output type *1 The output circuit of the PLC does not have a built-in fuse. Provide a fuse suitable for each load to prevent melting of the wires on the circuit board c aused by output device breakdow n du e to load short-circuiting. *2 " " represents vacant terminals. Y0 COM0 [...]
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Page 99
6 WIRING 6.6 Output Wiring 97 6 ■ Source output type *1 The output circuit of the PLC does not have a built-in fuse. Provide a fuse suitable for each load to prevent melting of the wires on the circuit board c aused by output device breakdow n du e to load short-circuiting. *2 " " represents vacant terminals. Y0 +V0 Y7 Y0 +V1 Y7 PL [...]
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Page 100
98 6 WIRING 6.7 Analog Wiring 6.7 Analog Wiring Wiring to the built-in analog I/O terminals of the CPU module is explai ned below . For specifications of the bui lt-in analog I /O terminals of the CPU module, refer to Page 25 Built-in Analog S pecifications. Analog input wiring *1 For analog input wiring, use shielded twisted-pair cables (doubl[...]
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Page 101
6 WIRING 6.8 Examples of Wiring for Various Uses 99 6 6.8 Examples of Wiring for V arious Uses Notes about examples of wiring The examples of wiring are gi ven under the following condi tions. ■ Input/output number The input/output numbers are the actual numb ers on the p rogram (They may differ from the numbers shown on the product terminals). ?[...]
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100 6 WIRING 6.8 Examples of Wiring for Various Uses High-speed counter Examples of wiring for high-speed coun ters are shown below . When capturing pulses of a response frequen cy of 50 to 200 kHz, refer to Page 86 In the case of capturing high-speed pulses. For details on the high-sp eed counters, refer to MELSEC iQ-F FX5 User's Manu[...]
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Page 103
6 WIRING 6.8 Examples of Wiring for Various Uses 101 6 ■ Example of wiring (When 24 V DC ex ternal power supply is used) *1 The grounding resistance should be 100 or less. CPU module S/S L N 24V 0V 24V Rotary encoder Class D grounding *1 Fuse In the case of sink wiring 0V X000 A phase B phase Z phase • NPN open collector transistor output r[...]
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102 6 WIRING 6.8 Examples of Wiring for Various Uses 2-phase 2-count The wiring example s in this section u se the followi ng settings . When settings other than those in the table are used, use the examples shown in the following figures as references for wiring. The settings of the high-speed counters are set by using the paramete r settings of t[...]
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Page 105
6 WIRING 6.8 Examples of Wiring for Various Uses 103 6 ■ Example of wiring (When 24 V DC ex ternal power supply is used) *1 The grounding resistance should be 100 or less. CPU module S/S L N 24V 0V 24V Rotary encoder Class D grounding *1 Fuse 24 V DC In the case of sink wiring 0V X002 X003 A phase B phase Z phase • NPN open collector transi[...]
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104 6 WIRING 6.8 Examples of Wiring for Various Uses Interruption Examples of wiring for when the input inte rruption function of the CPU module is used are shown below . The same wiring is used for the pulse catc h and pulse width measurement functions. When capturing pulses of a response frequen cy of 50 to 200 kHz, refer to Page 86 In the ca[...]
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Page 107
6 WIRING 6.8 Examples of Wiring for Various Uses 105 6 Digit al Switch When DSW instructions are used Examples of wiring for capturing values from a 4-digit di gital switch to the data register D100 are given below . For the instruct ions, refer to MELSEC iQ-F FX5 Programming Ma nual (Instructions, S tandard Function s/Function B locks). ■ Ex[...]
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106 6 WIRING 6.8 Examples of Wiring for Various Uses When BIN instructions are used Examples of wiring for capturing values from a 2-digit di gital switch to the data register D102 are given below . For the instruct ions, refer to MELSEC iQ-F FX5 Programming Ma nual (Instructions, S tandard Function s/Function B locks). ■ Example of program ?[...]
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Page 109
6 WIRING 6.8 Examples of Wiring for Various Uses 107 6 Input Matrix Examples of wiring to take ON/OFF status of 24 switches by usi ng MTR instructio ns are given bel ow . For the instruct ions, refer to MELSEC iQ-F FX5 Programming Ma nual (Instructions, S tandard Function s/Function B locks). Example of program Example of wiring • Sink wiring[...]
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108 6 WIRING 6.8 Examples of Wiring for Various Uses Seven Segment with Latch For the instruct ions, refer to MELSEC iQ-F FX5 Programming Ma nual (Instructions, S tandard Function s/Function B locks). When SEGL instructions are used Examples of wiring for displaying the current va lue of D100 on the 4-digit 7-segment displa y are given below . [...]
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Page 111
6 WIRING 6.8 Examples of Wiring for Various Uses 109 6 When BCD instructions are used Examples of wiring for displaying the current va lue of D100 on the 2-digit 7-segment displa y are given below . ■ Example of program ■ Example of wiring • Sink wiring The example is the wiring for the input/output of the FX5U-32MT/ES. • Source wiring The [...]
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110 7 OPERA TION ADJUSTMENT 7.1 Preparation for Operation 7 OPERA TION ADJUSTMENT 7.1 Prep aration for Operation Preliminary inspection Incorrect connection of the power suppl y te rminal, contact of the DC input wire and power supply wire, or short-circuiting of output wires may resu lt in serious damage. Before applying power , check that the pow[...]
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Page 113
7 OPERA TION ADJUSTMENT 7.1 Preparation for Operation 111 7 Procedure until operation The procedure un til operation is explained be low . 1. T urn on the power of the system. Check the following items before turning on t he power of the system. When the CPU module with the factory default setting is powered on, the ERR LED flashes be cause the mod[...]
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Page 114
112 7 OPERA TION ADJUSTMENT 7.1 Preparation for Operation Connection with a personal computer Connect the CPU module with a personal computer on which an engineering too l has been installed. The system configuration examples and GX Works3 settings are described below . For details, refer to GX W orks3 Operating Ma nual. Direct connection Setti[...]
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Page 115
7 OPERA TION ADJUSTMENT 7.2 Operation and Test 113 7 ■ Serial connection GX Works3 settings 7.2 Operation and T est Self-diagnostic function When the power of the CPU module is turned on, the se lf-diagnostic function to check for errors starts in the module. The CPU module boots when there is no error with the hardware, parameters and program. W[...]
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Page 116
114 7 OPERA TION ADJUSTMENT 7.3 Running, Stopping, and Resetting 7.3 Running, S topping, and Resetting Methods of running, stopping, and resetting The following two methods of running, stopping , an d resetting th e FX5U CPU modules are provided. Using the RUN/STOP/RESET switch The operation status of the CPU module ca n be chang ed with the RUN/ST[...]
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Page 117
8 MAINTENANCE AND INSPECTION 8.1 Daily Inspection 115 8 8 MAINTENANCE AND INSPECTION T o keep using the PLC in the optimal condition, perf orm the follow ing inspections daily or periodically . 8.1 Daily Inspection Perform the following inspections on a daily basis. 8.2 Periodic Inspection Perform the following inspec tions once or twice every 6 mo[...]
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Page 118
116 8 MAINTENANCE AND INSPECTION 8.3 Battery 8.3 Battery Part names The Latch device memo ry and clock data upon power interruption. The battery is not incorpo rated in the CPU module during shipment from the factory . Order it if necessary . Parameter sett ing is required to ba ck up the device memory and clock data. ( Page 1 17 Setting an opt[...]
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Page 119
8 MAINTENANCE AND INSPECTION 8.3 Battery 117 8 3. Insert the battery connector (B in the figure below) of the battery . 4. Set the battery inside the lower hook (C in the following fi gure), push up the upper hook (D in the fo llowing figure), and then fit the battery in the battery holder (E in the following figure). 5. Attach the expansion board [...]
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Page 120
118 8 MAINTENANCE AND INSPECTION 8.3 Battery Battery replacement Battery life and replacement guidelines When the battery voltage is low , the BA T LED is lit red whil e the power is on, an d SM51 (SM8005) and SM52 (SM8006) are turned ON. The memory can be retained for about one month after the LED is turned on. However , the drop in battery voltag[...]
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Page 121
8 MAINTENANCE AND INSPECTION 8.3 Battery 119 8 3. Extract the old battery from the battery holder ("B" in figure belo w), and disconnect the batt ery connector ("C" in figure below). 4. Install the new battery . ( Page 1 16 Battery attachment) 5. Attach the expansion board connector cover . If an expansion board was removed [...]
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Page 122
120 9 TROUBLESHOOTING 9.1 Troubleshooting Procedure 9 TROUBLESHOOTING Details on errors occurring in the system, their causes, and corrective actions are explained below . For details on troubleshooting for each module, refer to the manuals for the module. Saving the programs and devi ces used at the occurre nce of an error helps in identifying the[...]
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Page 123
9 TROUBLESHOOTING 9.3 Troubleshooting using the engineering tool 121 9 Checking the ERR LED If the ERR LED flashes If the ERR LED is turned on, check the fo llowing items. If the ERR LED is turned on If the ERR LED is turned on, check the fo llowing items. If the ERR LED still does not turn off even after the item s shown above are checked, there m[...]
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122 9 TROUBLESHOOTING 9.3 Troubleshooting using the engineering tool Module diagnostics (CPU Diagnostics) This function diagnoses CPU module, expansion adapter , and expansion board. (The current error and its details can be checked.) Information required for troubleshooting, such as the current error , details and cause of the error , and action t[...]
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Page 125
9 TROUBLESHOOTING 9.4 Error Status and Ope rations on Occurrence of an Error 123 9 9.4 Error S t atus and Operations on Occurrence of an Error When an error occurs, the CPU module pe rforms precon figured actions depending on the status of the error . Error st atus Errors are classified into the following three types according to the urgency of the[...]
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Page 126
124 9 TROUBLESHOOTING 9.5 Backing Up the Data 9.5 Backing Up the Dat a Saving the fo llowing information i mmediately after the occurrence of an error helps in a nalyzing the cause of the error . • Parameters, programs, and device memory • Error histories Backing up p arameters, programs, and device memory The procedure for b acking up paramete[...]
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Page 127
9 TROUBLESHOOTING 9.7 Troubleshooting for Each Symptom 125 9 9.7 T roubleshooting for Each Symptom When the CPU module does not operate properly , check the approp riate item from the followin g and perform troublesho oting. I/O operation (CPU module, I/O module) Output does not turn on Output does not turn off Input does not turn on Input does no [...]
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126 9 TROUBLESHOOTING 9.7 Troubleshooting for Each Symptom PLC write, PLC read PLC write cannot be performed If data cannot be written to the CPU module fr om the engineering tool, check th e following items. If writing still cannot be performed even after the items shown above are checked, there may be a hardware issue. Consult your local Mitsubis[...]
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Page 129
APPENDIX Appendix 1 How to Check the Date of Manufacture 127 A APPENDIX Appendix 1 How to Check the Date of Manufacture Check the date of manufacture of the produ ct (except th e expansion board) as follows. • Nameplate • Module front surface (CPU module only) Checking the nameplate The date of manufacture of the product can be checked from the[...]
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Page 130
128 APPENDIX Appendix 2 Standards Appendix 2 St andards Certification of UL, cUL st andards FX5 supports UL(UL, cUL) standards. For models that support UL standards, refer to the following. UL site http://sit e.ul.com UL, cUL file number: E95239 Compliance with EC directive (CE Marking) This note does not guarantee that an entire machine produced i[...]
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Page 131
APPENDIX Appendix 2 Standards 129 A Product comp atibility T yp e: Programmable controller (open type equipment) Models: FX5 manufactured Requirement for compliance with L VD directive The following p roducts have shown compliance through direct testing (of the id entified standards below) and desi gn analysis (through the creation of a technical c[...]
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130 APPENDIX Appendix 2 Standards Caution for when anal og product s are used It is recommended to perform the following when pr ecision of measurin g a nd control is required. As analog devices are se nsitive by nature, their use should be considered carefu lly . For users o f proprietary cables (integral with sensors or actuators), the se users s[...]
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Page 133
APPENDIX Appendix 2 Standards 131 A Caution for when the built -in Ethernet port is used • Use a shielded twisted pair cable for the 10BASE-T or 100BASE-TX cable. S trip a part of the jacket of the shielded twisted pair cable as shown below and ground as much of the exposed shield as possible to both sides of th e cable. • Connect a ferrite cor[...]
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Page 134
132 APPENDIX Appendix 3 I/O Module Appendix 3 I/O Module Product configuration There are various types of I/O module. They differ in suppl y voltage, number of input/output poi nts, input form, output form and connection type. Product list Input modules : Sink, : Source Output module : Sink, : Source Model Input Output Conn ection type Ty p e No . [...]
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Page 135
APPENDIX Appendix 3 I/O Module 133 A Powered input/output module : Sink, : Source S pecifications The generic specifications are the sa me as those for the CPU module. ( Page 17 Generic Specifications) Power supply specifications ■ Input modules ■ Output modules ■ Powered input/output module(FX5-32E ) *1 This item shows value when all[...]
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Page 136
134 APPENDIX Appendix 3 I/O Module External color , weight, accessories ■ Input module/output module ■ Powered input/output module (FX5 -32E ) Item Specifications External color Munsell 0.6B7.6/ 0.2 Mass (weight) FX5-8E Approx. 0.2 kg (0.44 lbs) FX5-16E Approx. 0.25 kg (0.55 lbs) Accessories Dust proof protection sh eet Item Specifi[...]
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Page 137
APPENDIX Appendix 3 I/O Module 135 A Input specifications There is the simultaneous ON ratio of available PLC inpu ts or outputs with respect to th e ambient temperature. For details, refer to Page 22 Input/Output Dera ting Curve Item Specifications No. of input point s FX5-8EX/ES 8 point s FX5-16EX/ES 16 points FX5-32E 16 points Connection[...]
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Page 138
136 APPENDIX Appendix 3 I/O Module Output specifications There is the simultaneous ON ratio of available PLC inpu ts or outputs with respect to th e ambient temperature. For details, refer to Page 22 Input/Output Dera ting Curve ■ Relay output Input circuit configurat ion • When using external power supply by input module • When using ext[...]
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Page 139
APPENDIX Appendix 3 I/O Module 137 A ■ T ransistor output (sink output) ■ T ransistor output (source output) Item Specifications No. of output point s FX5-8EYT/ES 8 points FX5-16EYT/ES 16 points FX5-32ET/ES 16 points Connection type T erminal block (M3 screws) Output type T ransistor/sink output External power supply 5 to 30 V DC Output circuit[...]
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Page 140
138 APPENDIX Appendix 3 I/O Module External dimensions and component names Input module/output module External dimensions Part names Model W: mm (inches) FX5-8EX/ES 40 (1.58") FX5-8EYR/ES, FX5-8EYT/ ES, FX5-8EYT/ESS FX5-16EX/ES FX5-16EYR/ES, FX5 -16EYT/ES, FX5-16EYT/E SS No. Name Description [1] Input display LED, output display LED Lit when i[...]
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Page 141
APPENDIX Appendix 3 I/O Module 139 A Powered input/output module External dimensions Part names Model W: mm (inches) FX5-32ER/ES, FX5-32ET/ ES, FX5-32ET/ESS 150 (5.91") No. Name Description [1] Extension connecto r cover (for preceding module) Cover for p rotecting the extension con nector cover (for preceding mo dule). [2] T erminal block cov[...]
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Page 142
140 APPENDIX Appendix 3 I/O Module T erminal layout FX5-8EX/ES FX5-8EYR/ES FX5-8EYT/ES FX5-8EYT/ESS FX5-16EX/ES FX5-16EYR/ES FX5-16EYT/ES FX5-16EYT/ESS FX5-32E X 0 S S 1 2 3 X 4 5 6 7 Y 0 1 2 3 Y 4 5 6 7 C O M 0 C O M 1 Y 0 + V 0 1 2 3 Y 4 5 6 7 + V 1 X 0 S S 1 2 3 4 5 7 6 X 0 1 2 3 4 5 6 7 Lower numbers Higher number Y 0 1 2 3 4 5 7 6 Y 0 [...]
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Page 143
APPENDIX Appendix 4 SD Memory Card 141 A Appendix 4 SD Memory Card Part names An SD memory card is installed in the CPU module to operate the module based on the project data in the card. S pecifications The following shows functional specifications of the SD memory card. For L1MEM-2GBSD and L1MEM-4GB SD, refer to the following. ( QCPU User&apo[...]
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142 APPENDIX Appendix 4 SD Memory Card Insertion and removal of the SD memory card The following explains insertion and removal of the SD memory card. Insertion procedure Mount the SD memory card. Pay atte ntion to the d irection of the ca rd and follow the procedure b elow . Removal procedure Precautions • When mounting or removing the SD memory[...]
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Page 145
APPENDIX Appendix 5 Precautions for Battery Transportation 143 A Appendix 5 Precautions for Battery T ransport ation When transporting lithium batterie s, fo llow required tran sportation regulations. Batteries used in the FX5U CPU module are classified as follows. Control-subject product Built-in None (FX5U CPU modules do not include ba tteries wh[...]
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144 APPENDIX Appendix 6 Handling of Batteries and Devices with Built-in Batteries in EU Member States Appendix 6 Handling of Batteries and Devices with Built-in Batteries in EU Member S t ates This section describes the precautions for disposing of waste ba tteries in EU member states and exporting batteries and/or devices with built-in batteries t[...]
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Page 147
145 I INDEX B BAT LED . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Battery connector . . . . . . . . . . . . . . . . . . . . . . . 15 Battery hold er . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Built-in analog I/O t erminal block . . . . . . . . . . . . . 15 Built-in Ethernet communication con nector . . . . . 14 Built-in[...]
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Page 148
146 REVISIONS 2014 MITSUBISHI ELECTRIC CORPORA TION Revision date Revision Description October 2014 A First Edition January 2015 B ■ Added or modified part s RELEV ANT MANUALS, TERMS, Section 1.1, 2.1, 2.2, 2.6, 2. 7, 2.8, 3.1, 3.4, 3.5, 3.6, 3.7, 3.8, 3.9, 3.12, Chapter 4, Section 5. 4, 5.5, 6.1, 6.6, 7.1, 7.3, 8.2, 8.3, 9.1, 9.2, 9.3, 9.7, [...]
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147 W ARRANTY 1. Please confirm the following product warranty details before using this product. [Gratis Warranty Term] If any faults or defects (hereinafter "Failure") found to be the responsibility of Mitsubishi occurs during use of the product within the gratis warranty term, the product shall be repaired at no cost via the sales repr[...]
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Page 150
148 TRADEMARKS Microsoft and Windows are either registered trademarks or trademarks of Microso ft Corporat ion in the United S tates and/or other countries. Ethernet is a trademark of Xerox Corporation. Anywire is a registered tradem ark of the Anywire Corporation. MODBUS is a registered trademark of Schneider Electric SA. Phillips is a[...]
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HEAD OFFICE: TOKYO BUILDING, 2-7-3 MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN Specifications are subject to change without notice. When exported from Japan, this manual does not require application to the Ministry of Economy , T rade and Industry for service transaction permission. Manual number: JY997D55301 C Model: FX5U-U-HW -E Model code: 09 [...]