Page 1 MELSEC iQ-F FX5UC User's Manual (Hardware)
Page 3: Safety Precautions
SAFETY PRECAUTIONS (Read these precautions before use.) Before using this product, please read this manual and the relevant manuals 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: [ WARNING] and [ CAUTION].
Page 5 [DESIGN PRECAUTIONS] CAUTION ● When an inductive load such as a lamp, heater, or solenoid valve is controlled, a large current (approximately ten times greater than normal) may flow when the output is turned from off to on. Take proper measures so that the flowing current does not exceed the value corresponding to the maximum load specification of the resistance load.
Page 6 [INSTALLATION PRECAUTIONS] CAUTION ● Do not touch the conductive parts of the product directly. Doing so may cause device failures or malfunctions. ● When drilling screw holes or wiring, make sure that cutting and wiring debris do not enter the ventilation slits of the PLC.
Page 7 [WIRING PRECAUTIONS] WARNING ● Make sure to cut off all phases of the power supply externally before attempting installation or wiring work. Failure to do so may cause electric shock or damage to the product. ● Make sure to attach the terminal cover, provided as an accessory, before turning on the power or initiating operation after installation or wiring work.
Page 8 CAUTION ● Make sure to observe the following precautions in order to prevent any damage to the machinery or accidents due to malfunction of the PLC caused by abnormal data written to the PLC due to the effects of noise. Do not bundle the power line, control line and communication cables together with or lay them close to the main circuit, high-voltage line, load line or power line.
Page 9 ● Do not disassemble or modify the PLC. Doing so may cause fire, equipment failures, or malfunctions. *For repair, contact your local Mitsubishi Electric representative. ● After the first use of the SD memory card, do not insert/remove the memory card more than 500 times.
Page 10: Introduction
• Since the examples indicated by this manual, technical bulletin, catalog, etc. are used as a reference, please use it after confirming the function and safety of the equipment and system. Mitsubishi Electric will accept no responsibility for actual use of the product based on these illustrative examples.
Page 11: Table Of Contents
CONTENTS SAFETY PRECAUTIONS ..............1 INTRODUCTION.
Page 12 Total number of I/O points and remote I/O points ..........38 Calculation of the number of input/output points .
Page 13 Output wiring example..............76 Output wiring examples of terminal modules.
Page 14 APPENDIX Appendix 1 How to Check the Date of Manufacture ..........108 Appendix 2 Standards .
Page 15: Relevant Manuals
RELEVANT MANUALS User's manuals for the applicable modules Manual name <manual number> Description MELSEC iQ-F FX5UC CPU Module Hardware Manual Describes the details of input/output specifications, wiring and installation of the <JY997D61001> FX5UC CPU module from MELSEC iQ-F FX5UC User's Manual (Hardware). MELSEC iQ-F FX5 User's Manual (Startup) Performance specifications, procedures before operation, and troubleshooting of the <JY997D58201>...
Page 17 Terms Description Input module Generic term for Input modules (extension cable type) and Input modules (extension connector type) • Input module (extension cable type) Generic term for FX5-8EX/ES and FX5-16EX/ES • Input module (extension connector type) Generic term for FX5-C32EX/D and FX5-C32EX/DS Output module Generic term for output modules (extension cable type) and output modules (extension connector type) •...
Page 19: Chapter 1 Outline
OUTLINE Part Names Front panel When the front covers are open [13] [12] [11] [10] [9] Name Description Expansion adapter connecting When connecting an expansion adapter, secure it with these hooks. hooks Built-in RS-485 communication Terminal block for connection with RS-485-compatible devices terminal block Built-in Ethernet communication Connector for connection with Ethernet-compatible devices (with cap)
Page 20 1.1 Part Names...
Page 21: Side
Name Description Output connector Connector for connecting output signal cables. [10] DIN rail mounting hook Hook for mounting a CPU module on a DIN rail of DIN46277 (35 mm (1.38”) wide). [11] SD memory card disable switch Switch for disabling access to the SD memory card when the card is to be removed. [12] SD memory card slot Slot for inserting an SD memory card.
Page 22 1.1 Part Names...
Page 23 Bottom side Name Description Battery cover Cover for protecting the battery connecting connector. Power connector for CPU module Connector for connecting power cables. RS-485 terminal resistor selector switch Switch for switching terminal resistance for built-in RS-485 communication. Use a tool such as a screwdriver to operate the RS-485 terminal resistance selector switch. Make sure that the tip of a tool does not damage the switch or case.
Page 24: Chapter 2 Specifications
SPECIFICATIONS The CPU module specifications are explained below. Generic Specifications Item Specifications Operating ambient temperature 0 to 55 (32 to 131 ) Storage ambient temperature -25 to 75 (-13 to 167 ) Operating ambient humidity 5 to 95%RH, non-condensation Storage ambient humidity 5 to 95%RH, non-condensation *3*4 Vibration resistance...
Page 25: Power Supply Specifications
Power Supply Specifications The CPU module power supply specifications are explained below. For the consumption current of each extension module, refer to Page 26 PRODUCT LIST or manuals of each extension module. DC power supply Item Specifications Power supply voltage 24 V DC Allowable voltage range 20.4 to 28.8 V DC...
Page 26 2.2 Power Supply Specifications...
Page 27 Item Specifications Input signal format FX5UC-32MT/D No-voltage contact input NPN open collector transistor FX5UC-32MT/DSS No-voltage contact input Sink: NPN open collector transistor Source: PNP open collector transistor Input circuit insulation Photo-coupler insulation Indication of input operation LED is lit when input is on (DISP switch: IN) Input signal format FX5UC-32MT/D Fuse...
Page 28 2.3 Input Specifications...
Page 29: Output Specifications
Output Specifications The CPU module output specifications are explained below. Transistor output Item Output specifications No. of output points 16 points Connection type Connector Output type FX5UC-32MT/D Transistor/sink output FX5UC-32MT/DSS Transistor/source output External power supply 5 to 30 V DC Max.
Page 30 2.4 Output Specifications...
Page 31: Performance Specifications
Performance Specifications Item Specifications Control system Stored-program repetitive operation Input/output control system Refresh system (Direct access input/output allowed by specification of direct access input/output [DX, DY]) Programming Programming language Ladder diagram (LD), structured text (ST), function block diagram/ladder diagram (FBD/LD) specifications Programming extension function Function block (FB), structured ladder, label programming (local/global)
Page 32 Number of device points Item Base Max. number of points No. of user device points Input relay (X) 1024 points The total number of X and Y assigned to input/output points is up to 256 points. Output relay (Y) 1024 points 32768 points (can be changed with parameter) Internal relay (M) 32768 points (can be changed with parameter)
Page 33: Communication Specifications
Communication Specifications The built-in Ethernet and built-in RS-485 communication specifications are as explained below. Built-in Ethernet communication For details of built-in Ethernet communication, refer to the following. MELSEC iQ-F FX5 User's Manual (Ethernet Communication) MELSEC iQ-F FX5 User's Manual (SLMP) Item Specifications Data transmission speed...
Page 34 2.7 Communication Specifications...
Page 35: External Dimensions
External Dimensions FX5UC-32MT/D, FX5UC-32MT/DSS Unit: mm (inches) 74 (2.92") 89.1 (3.51") Model Mass (weight) FX5UC-32MT/D, FX5UC-32MT/DSS 42.1 mm (1.66") Approx. 0.2 kg (0.44lbs) • Exterior color Main body: Munsell 0.6B7.6/0.2 • Accessories Manual supplied with product FX2NC- 100MPCB power cable: 1 m (3'3") FX2NC-100BPCB power cable: 1 m (3'3") (FX5UC-32MT/D only) 2 SPECIFICATIONS 2.8 External Dimensions...
Page 36: Terminal Layout
Terminal Layout Built-in RS-485 terminal European-type terminal block RDA (RXD+) RDB (RXD-) SDA (TXD+) 5 poles SDB (TXD-) SG (GND) Built-in Ethernet connector Signal name Not used Not used Not used Not used Input/output connectors FX5UC-32MT/D FX5UC-32MT/DSS Input Input Notch Notch COM COM COM0 COM0...
Page 37 2.9 Terminal Layout...
Page 38: Chapter 3 Product List
PRODUCT LIST The following shows the system configuration equipment of the FX5UC. Overall Configuration Expansion adapter CPU module I/O module Bus conversion Connector Analog • FX5UC-32MT/D Input Output module Cable • FX5UC-32MT/DSS • FX5-CNV-BUSC • FX5-4AD-ADP • FX5-C32EX/D • FX5-C32EYT/D •...
Page 39 3.1 Overall Configuration...
Page 40: Cpu Module
CPU Module The CPU module incorporates a CPU, memory, input/output terminals, and power supply. FX5UC Power supply, input/output type: Connection on connector • T/D: DC power supply/24 V DC (sink) input/Transistor (sink) output • T/DSS: DC power supply/24 V DC (sink/source) input/Transistor (source) output Total number of CPU module input/output points...
Page 41 3.2 CPU Module...
Page 42: Extension Module
Extension Module Extension modules are used to expand inputs/outputs, functions, and others. The two connection types, extension connector type and extension cable type, are provided for extension modules. Extension connector type Extension cable type • • Pullout tab Extension connector Extension cable I/O module I/O modules are used to expand inputs/outputs.
Page 43 Output module Output modules are used to expand outputs. ■Extension connector type Model Number of input/output points Input type Output Connection Current consumption type type Total No. No. of No. of 5 V DC power 24 V DC power of points input output supply...
Page 44 3.3 Extension Module...
Page 45: Intelligent Function Module
Intelligent function module Intelligent function modules, such as simple motion modules, have functions other than input/output. For details, refer to manuals of each module. FX5 intelligent function module The following FX5 intelligent function module can be used in FX5UC CPU module systems using connector conversion modules.
Page 46 3.3 Extension Module...
Page 47: Bus Conversion Module
■Network Model Function No. of occupied Current consumption input/output 5 V DC power 24 V DC External 24 V DC points supply power supply power supply FX3U-16CCL-M 8 points Master for CC-Link (compatible with Ver. 2.00 240 mA and Ver. 1.10) FX3U-64CCL Intelligent device station for CC-Link 8 points...
Page 48 3.4 Expansion Adapter...
Page 49: Terminal Module
Terminal Module For details of the terminal modules, refer toPage 125 Terminal Module. Model Function No. of occupied Current consumption input/output 5 V DC power 24 V DC External 24 V DC points supply power supply power supply FX-16E-TB Directly connected to the I/O connector of a 112 mA PLC.
Page 50 3.5 Terminal Module...
Page 51: Chapter 4 System Configuration
SYSTEM CONFIGURATION Configuration of a whole system The configuration of an entire system is shown below as an example. For assignment of the module numbers for extension module, refer to Page 42 Module number of Extension modules. Configuration of a whole system Expansion CPU module FX5 extension module...
Page 52: Rules Of System Configuration
Rules of System Configuration The system configuration must meet the following four requirements. Number of connected extension devices The number of extension devices that can be connected to a single system of FX5UC CPU modules is limited. For details, refer to Page 36 Limitations on the Number of Connected Extension Devices. Up to 12 modules Input Input...
Page 53 4 SYSTEM CONFIGURATION 4.1 Rules of System Configuration...
Page 54 Current consumption The power to the extension devices is supplied from a CPU module. The number of extension devices that can be connected must be determined from the power supply capacity of the CPU module. For details on the current consumption, refer to Page 41 Limitation on Current Consumption.
Page 55 4.1 Rules of System Configuration...
Page 56: Limitations On The Number Of Connected Extension Devices
Limitations on the Number of Connected Extension Devices Number of connected expansion adapters There is a limitation on the number of expansion adapters connected to the FX5UC CPU module as follows. Type Limitation Communication adapter Up to 2 adapters can be connected Analog adapter Up to 4 adapters can be connected Communication...
Page 57 4.2 Limitations on the Number of Connected Extension Devices...
Page 58 Connection to the CPU module There is a limitation on the number of extension modules connected to the FX5UC CPU module as follows. The number of modules connected on the right side of the CPU module must be as follows. Type Limitation Total No.
Page 59: Limitation On The Number Of Input/Output Points
Limitation on the Number of Input/Output Points With the FX5UC CPU modules, a total of 512 points including the number of input/output points of extension devices (max. 256 points) and the number of remote I/O points (max. 384 points) can be controlled. Number of input/output points on whole system Up to 512 points 1.
Page 60 4 SYSTEM CONFIGURATION 4.3 Limitation on the Number of Input/Output Points...
Page 61: Calculation Of The Number Of Input/Output Points
Calculation of the number of input/output points The number of input/output points is a total of the number of input/output points of the CPU module, I/O module, and the number of occupied input/output points of intelligent function modules. The total number of input/output points must not exceed 256 points. Maximum number of Number of Number of input/output points...
Page 62 CC-Link remote I/O Remote I/O points that are used in FX3U-16CCL-M are calculated as "number of stations X 32 points". Even if using less than 32 remote I/O points, calculate as "number of stations X 32 points". Maximum number of Actually used CC-Link remote I/O points CC-Link remote I/O points...
Page 63: Limitation On Current Consumption
Limitation on Current Consumption Power required for expansion adapters and extension modules is supplied from the CPU module. The number of extension devices that can be connected must be determined from the capacity of the power supply. Power supply check from the CPU module (current consumption calculation) Check if power can be supplied to extension devices with the power supply capacity of the CPU module.
Page 64 4.4 Limitation on Current Consumption...
Page 65: Numbers And Assignment In System
Check if expansion to the CPU module is permitted. • 5 V DC power supply 5 V DC Current consumption Calculation result power supply capacity Total number of CPU module extension devices 0 mA ≥ 720 mA 630 mA 90 mA •...
Page 66 4.5 Numbers and Assignment in System...
Page 67: Chapter 5 Installation
INSTALLATION Installation Location Use the PLC under the environmental conditions complying with the generic specifications ( Page 17 Generic Specifications). Installation location in enclosure To prevent temperature rise, do not mount the PLC on the floor or ceiling, or in the vertical direction. Always mount the PLC horizontally on the wall as shown in the following figure.
Page 68 5 INSTALLATION 5.1 Installation Location...
Page 69: Examination For Installing Method In Enclosure
Examination for Installing Method in Enclosure Examine the installation location of PLC considering the environmental conditions ( Page 17 Generic Specifications). When extension cables are used for the connection, install the products keeping a space of about 2 mm (0.08") between them. Installing on DIN rail •...
Page 70: Installation Of Cpu Module
Installation of CPU module Connect expansion adapters or extension modules (extension connector type) on the CPU module before mounting the PLC in the enclosure. For the connection method of the expansion adapters, refer to Page 47 Connecting method A - connection of an expansion adapter.
Page 71: Installation Of Terminal Modules
Installation of terminal modules Turn off all the power supplies connected to the CPU module, extension modules, or terminal modules. Fit the upper edge of the DIN rail mounting groove (A in the right figure) onto the DIN rail. Push the product against the DIN rail. Removal of CPU module Remove the connection cables including power cables and I/O cables.
Page 72: 5.4 Connecting Methods For Cpu Module And Extension Devices
5 INSTALLATION 5.4 Connecting Methods for CPU Module and Extension Devices...
Page 73: Connecting Method A - Connection Of An Expansion Adapter
Connecting method A - connection of an expansion adapter This subsection explains how to connect the expansion adapter to the CPU module. Remove expansion adapter connector cover (A in the right figure). Slide the hook for coupling the expansion adapter of the CPU module (B in the right figure).
Page 74 5 INSTALLATION 5.4 Connecting Methods for CPU Module and Extension Devices...
Page 75: Connecting Method C - Connection Of A Connector Conversion Module (Extension Connector Type) And An Extension Module (Extension Cable Type)
Connecting method C - connection of a connector conversion module (extension connector type) and an extension module (extension cable type) This subsection explains how to connect the extension module (extension cable type) to the connector conversion module (extension connector type). Connect the extension cable (A in the right figure) from the extension module (extension cable type) to the subsequent extension connector of the connector conversion module...
Page 76 5 INSTALLATION 5.4 Connecting Methods for CPU Module and Extension Devices...
Page 77: Connecting Method E - Connection Of A Bus Conversion Module And An Fx3 Intelligent Function Module
Connecting method E - connection of a bus conversion module and an FX3 intelligent function module This subsection explains how to connect the FX3 extension module to the bus conversion module. Connect the extension cable (A in the right figure) from the FX3 extension module to the subsequent extension connector of the A bus conversion module.
Page 78: Connection Of Power Cables
Connection of power cables Power cable connection of the CPU module and I/O modules The power must be supplied to the FX5UC CPU module, FX5-C32EX/D, and FX5-C32ET/D. Use the power cable for CPU modules to supply the power to the FX5UC CPU module. To supply the power to FX5-C32EX/D and FX5-C32ET/D, use two power connectors (upper and lower) on each module for crossover wiring.
Page 79 Removal of power cables Hold the part "a" on the connecter of the power cable with fingers, and remove the cable in the direction of the arrow. FX5UC-32MT/D Push here with fingers. Connection of I/O cables I/O connectors ■Cable connection to I/O connectors I/O connectors conform to MIL-C-83503.
Page 80 5.4 Connecting Methods for CPU Module and Extension Devices...
Page 81: I/O Cables
• Terminal module I/O cable Terminal module ■Preparation of I/O connectors • Suitable connector (commercial item) Use 20-pin (1-key) sockets conforming to MIL-C-83503. Check that the sockets do not interfere with peripheral parts including connector covers in advance. • I/O cables (Mitsubishi option) I/O cables on which connectors are attached are prepared.
Page 82: Chapter 6 Wiring
WIRING Wiring Preparations Wiring procedure Before wiring, make sure that the source power supply is off. Prepare the parts for wiring. Prepare cables and crimp terminals required for wiring. (Page 54 Cable Connecting Procedure) Connect the power cable. Connect the cable to the power connector. Provide the protection circuit described in this chapter for the power supply circuit.
Page 83: Cable Connecting Procedure
Cable Connecting Procedure The cable connecting procedure is explained below. European-type terminal block Wire the European-type terminal block in accordance with the following specifications. Suitable wiring Number of wires Wire size Tightening connected per terminal Solid wires, stranded wire Wire ferrule with insulation sleeve torque 0.3 to 0.5 mm (AWG22 to 20)
Page 84 6 WIRING 6.2 Cable Connecting Procedure...
Page 85: Terminal Block
Screw terminal block Wire the screw terminal block in accordance with the following specifications. For information concerning screw terminal blocks for intelligent function modules, refer to User's manual for each intelligent function module. Terminal block screw size and tightening torque Model Terminal screw size Tightening torque...
Page 86 6 WIRING 6.2 Cable Connecting Procedure...
Page 87: Grounding
■M3.5 terminal screw • When a single wire is connected to a single terminal φ3.7 (0.15") Terminal screw Crimp terminal 6.8 mm (0.27") or less φ3.7 (0.15") 6.8 mm (0.27") Terminal or less • When two wires are connected to a single terminal φ3.7 (0.15") 6.8 mm (0.27") Terminal screw Crimp terminal...
Page 88 6.3 Grounding...
Page 89: Power Supply Wiring
Power Supply Wiring Examples of DC power supply wiring Provide a 24 V DC power supply to FX5UC CPU module and other modules. Use dedicated connectors to provide the power supply. (Refer to Page 50 Connection of power cables.) Power supply wiring example of FX5UC-32MT/D Expansion adapter 24 V DC...
Page 90 Power supply wiring example of FX5UC-32MT/DSS 24 V DC Expansion Circuit adapter protector Power ON FX5UC-32MT/DSS Class D grounding Emergency stop FX5-C32EX/DS, FX5-C32ET/DSS Fuse FX5-C32EX/DS, FX5-C32ET/DSS FX5-C32EYT/DSS 24 V DC 24 V DC FX5-CNV-IFC Power supply for loads connected to PLC output terminals For details of the emergency stop operation, refer to "DESIGN PRECAUTIONS".
Page 91: Input Wiring
Input Wiring The input wiring of the CPU modules, I/O modules, and terminal modules is explained below. 24 V DC input For input specifications of the CPU modules, refer to Page 18 Input Specifications. For input specifications of the I/O modules, refer to Page 115 Input specifications.
Page 92 6 WIRING 6.5 Input Wiring...
Page 93 Handling of 24 V DC input ■Input terminal • FX5UC-32MT/D When a no-voltage contact or NPN open collector transistor output is connected between an input (X) terminal and the [COM] terminal and the circuit is closed, the input (X) turns on. To turn on the I/O display LEDs, set the DISP switch to IN.
Page 94 6 WIRING 6.5 Input Wiring...
Page 95: Wiring Example
■Input sensitivity For the input signal current and input sensitivity current of the CPU modules, refer to Page 18 Input Specifications. For the input signal current and input sensitivity current of the I/O modules, refer to Page 115 Input specifications. ■Display of operation With the DISP switch set to IN, the LED turns on when photocouplers are actuated.
Page 96 6.5 Input Wiring...
Page 97 ■ In the case of 2-wire proximity switch Use a two-wire proximity switch 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 (kΩ), obtained by the following formula as shown in the following figure.
Page 98 Input wiring example When a sink-input-dedicated CPU module is used Power FX5UC-32MT/D connector Fuse 24 V DC Class D grounding 3-wire sensor Input Input connector impedance Power connector FX5-C32EX/D Input connector FX5-CNV-IFC 2-wire sensor FX5-16EX/ES Input terminal *1 The grounding resistance should be 100 Ω or less. *2 Handle the power supply circuit properly in accordance with "Power Supply Wiring".
Page 99 When a CPU module common to sink and source inputs is used ■Sink input wiring Power FX5UC-32MT/DSS connector Fuse 24 V DC Class D grounding COM0 3-wire sensor Input connector Input impedance FX5-C32EX/DS COM0 Input connector FX5-CNV-IFC 2-wire sensor FX5-16EX/ES Input terminal *1 The grounding resistance should be 100 Ω...
Page 100 ■Source input wiring Power FX5UC-32MT/DSS connector Fuse 24 V DC Class D grounding COM0 3-wire Input sensor connector Input impedance FX5-C32EX/DS COM0 Input connector FX5-CNV-IFC 2-wire sensor FX5-16EX/ES Input terminal *1 The grounding resistance should be 100 Ω or less. *2 Handle the power supply circuit properly in accordance with "Power Supply Wiring".
Page 101 Input wiring examples of terminal modules FX-16E-TB, FX-32E-TB Connected models: FX5UC-32MT/D, FX5-C32EX/D, FX5-C32ET/D 0 to 7 (Smaller numbers) 0 to 7 (Larger numbers) Input number of PLC Vacant terminal 3-wire sensor Fuse 24 V DC FX-16E-TB/UL, FX-32E-TB/UL Connected models: FX5UC-32MT/DSS, FX5-C32EX/DS, FX5-C32ET/DSS •...
Page 102 6.5 Input Wiring...
Page 103 • In the case of source wiring 0 to 7 (Smaller numbers) 0 to 7 (Larger numbers) COM0 *1 Input number of PLC Vacant terminal 3-wire sensor PNP 24 V DC Fuse *1 Replace this number with the one of the connected connector. FX-16EX-A1-TB Connected models: FX5UC-32MT/D, FX5-C32EX/D, FX5-C32ET/D 0 to...
Page 104: Output Wiring
Output Wiring The output wiring of the CPU modules, I/O modules, and terminal modules is explained below. Transistor output For output specifications of the CPU modules, refer to Page 20 Output Specifications. For output specifications of the I/O modules, refer to Page 116 Output specifications. For output specifications of the terminal modules, refer to Page 127 Output specifications.
Page 105 6.6 Output Wiring...
Page 106 ■Response time Time taken from when the photocoupler of the module is driven (or shut off) to when the transistor is turned on (or off) differs depending on the output terminal used. For specifications of each module, refer to the following. For output specifications of the CPU modules, refer to Page 20 Output Specifications.
Page 107 6 WIRING 6.6 Output Wiring...
Page 108 ■Contact 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 (for commutation) must comply with the following specifications. Standard Reverse voltage 5 to 10 times the load voltage Forward current Load current or more Sink output type...
Page 109 6.6 Output Wiring...
Page 110 Relay output For output specifications of the I/O modules, refer to Page 116 Output specifications. For output specifications of the terminal modules, refer to Page 127 Output specifications. Product life of relay output contacts The product life of relay contacts varies considerably depending on the load type used. Note that loads generating reverse electromotive force or rush current may cause poor contact or welding of contacts which may lead to considerable reduction of the contact product life.
Page 111 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 different circuit voltage systems (for example: 100 V AC and 24 V DC). Load Fuse 24 V DC COM0 Load...
Page 112 6.6 Output Wiring...
Page 113 Wiring precautions ■Protection circuit for load short-circuiting A short-circuit at a load connected to an output terminal could cause burnout at the output element or the PCB. To prevent this, a protection fuse should be inserted at the output. Load Fuse COM0 ■Contact protection circuit for inductive loads...
Page 114 Triac output For output specifications of the terminal modules, refer to Page 127 Output specifications. Handling of triac output ■Output terminal Four triac output points are covered by one common terminal. The common terminal blocks can drive loads of different circuit voltage systems (Example: 100 V AC and 24 V DC).
Page 115 6.6 Output Wiring...
Page 116 Wiring precautions ■Protection circuit for load short-circuiting A short-circuit at a load connected to an output terminal could cause burnout at the output element or the PCB. To prevent this, a protection fuse should be inserted at the output. Load 0 to 7 Fuse COMn...
Page 117 6 WIRING 6.6 Output Wiring...
Page 118: Output Wiring Example
Output wiring example Transistor output ■Sink output type FX5UC-32MT/D COM0 5 to 30 V DC COM0 Load Y000 Fuse Y001 Y002 Y003 MC2 MC1 Y004 Fuse Y005 MC1 MC2 Y006 Fuse Y007 Inductive load FX5-C32EYT/D COM0 COM0 Load Y000 Fuse Y001 Y002 Y003...
Page 119 ■Source output type FX5UC-32MT/DSS 5 to 30 V DC Fuse Load Y000 Y001 Y002 Y003 MC2 MC1 Y004 Y005 MC1 MC2 Y006 Y007 Inductive load FX5-C32EYT/DSS Fuse Load Y000 Y001 Y002 Y003 FX5-CNV-IFC FX5-16EYT/ESS Fuse Load Y000 Y001 Y002 Y003 *1 "•"...
Page 120 Relay output FX5UC-32MT/D COM0 24 V DC COM0 Load Y000 Fuse Y001 FX5-CNV-IFC FX5-8EYR-ES COM0 Load Y000 Fuse Y001 Y002 Y003 AC power supply 100 to 240 V COM1 Load Y004 Fuse Y005 Y006 Y007 *1 "•" represents a vacant terminal. 6 WIRING 6.6 Output Wiring...
Page 121 Output wiring examples of terminal modules FX-16E-TB, FX-32E-TB Connected models: FX5UC-32MT/D, FX5-C32EYT/D, FX5-C32ET/D 0 to 7 (Smaller numbers) 0 to 7 (Larger numbers) COM0 *1 Output number of PLC Vacant terminal Fuse Fuse Fuse 24 V *1 Replace this number with the one of the connected connector. FX-16E-TB/UL, FX-32E-TB/UL Connected models: FX5UC-32MT/DSS, FX5-C32EYT/DSS, FX5-C32ET/DSS 0 to7 (Smaller numbers)
Page 122 FX-16EYR-TB, FX-16EYR-ES-TB/UL Connected models: FX5UC-32MT/D, FX5-C32EYT/D, FX5-C32ET/D 0 to 7 Smaller numbers 0 to 7 Larger numbers PLC output 1 2 3 4 5 6 7 4 5 6 7 Relay power supply COM1 COM2 COM3 COM4 COM1 COM2 0 COM3 COM4 Fuse...
Page 123 FX-16EYT-ES-TB/UL Connected models: FX5UC-32MT/DSS, FX5-C32EYT/DSS, FX5-C32ET/DSS PLC output 5 6 7 0 1 2 3 4 5 6 7 Photocoupler power supply COM4 COM1 COM2 COM3 COM1 4 COM2 COM3 COM4 Fuse Fuse 24 V For external wiring precautions, refer to Page 69 Wiring precautions.
Page 124 FX-16EYS-TB Connected models: FX5UC-32MT/D, FX5-C32EYT/D, FX5-C32ET/D Surge absorbers are connected to each output. PLC output 1 2 3 4 5 6 7 1 2 3 Photocoupler power supply COM1 COM2 COM3 COM4 COM1 COM2 COM3 COM4 Fuse Load 24 V Fuse Fuse Fuse...
Page 125: Examples Of Wiring For Various Uses
Examples of Wiring for Various Uses Notes about examples of wiring The examples of wiring are given under the following conditions. ■Input/output number The input/output numbers are the actual numbers on the program (They may differ from the numbers shown on the product terminals).
Page 126 ■Example of wiring (NPN open collector transistor output rotary encoder) • FX5UC-32MT/D Rotary encoder Fuse 24 V 24 V DC Class D grounding kΩ X000 A phase B phase FX5UC-32MT/D Z phase *1 The grounding resistance should be 100 Ω or less. •...
Page 127 6.7 Examples of Wiring for Various Uses...
Page 128 2-phase 2-count The wiring examples in this section use the following settings. When settings other than those in the table are used, use the examples shown in the following figures as references for wiring. CH to be used Pulse input mode External preset input External enable input Operation mode...
Page 129 Interruption Examples of wiring for when the input interruption function of the CPU module is used are shown below. The same wiring is used for the pulse catch and pulse width measurement functions. When capturing pulses of a response frequency of 50 to 200 kHz, refer to Page 62 When a high-speed pulse is captured. For details of the input interruption function, pulse catch function, and pulse width measurement function, refer to MELSEC iQ-F FX5 User's Manual (Application).
Page 130 6 WIRING 6.7 Examples of Wiring for Various Uses...
Page 131: Digital Switch
Digital Switch When DSW instructions are used Examples of wiring for capturing values from a 4-digit digital switch to the data register D100 are given below. For the instructions, refer to MELSEC iQ-F FX5 Programming Manual (Instructions, Standard Functions/Function Blocks). ■Example of program SM400 DSW X010 Y010 D100 K1...
Page 132 When BIN instructions are used Examples of wiring for capturing values from a 2-digit digital switch to the data register D102 are given below. For the instructions, refer to MELSEC iQ-F FX5 Programming Manual (Instructions, Standard Functions/Function Blocks). ■Example of program SM400 BIN K2X010 D102 ■Example of wiring...
Page 133: Input Matrix
Input Matrix Examples of wiring to take ON/OFF status of 24 switches by using MTR instructions are given below. For the instructions, refer to MELSEC iQ-F FX5 Programming Manual (Instructions, Standard Functions/Function Blocks). Programming examples SM400 X010 Y010 M30 Wiring examples •...
Page 134 6 WIRING 6.7 Examples of Wiring for Various Uses...
Page 135: Seven Segment With Latch
Seven Segment with Latch For the instructions, refer to MELSEC iQ-F FX5 Programming Manual (Instructions, Standard Functions/Function Blocks). When SEGL instructions are used Examples of wiring for displaying the current value of D100 on the 4-digit 7-segment display are given below. ■Example of program SM400 SEGL D100 Y010...
Page 136 6 WIRING 6.7 Examples of Wiring for Various Uses...
Page 137 When BCD instructions are used Examples of wiring for displaying the current value of D100 on the 2-digit 7-segment display are given below. ■Example of program SM400 D100 K2Y010 ■Examples of wiring • Sink wiring The example is the wiring for the input/output of the FX5UC-32MT/D. FX5UC-32MT/D Transistor output (sink) COM0 COM0...
Page 138 6.7 Examples of Wiring for Various Uses...
Page 139: Chapter 7 Operation Adjustment
OPERATION ADJUSTMENT Preparation for Operation Preliminary inspection Incorrect connection of the power supply terminal, contact of the DC input wire and power supply wire, or short-circuiting of output wires may result in serious damage. Before applying power, check that the power supply and ground terminals are connected correctly and input/output devices are wired properly.
Page 140: Connection With A Personal Computer
Reboot the system. Reboot the system by any of the following methods. • Turning off and on the power • Resetting the CPU module ( Page 95 Resetting method) Check errors. Check the ERR LED of the CPU module. If an error has occurred, check the contents of the error with Module Diagnostics (CPU Diagnostics) of the engineering tool and eliminate its cause.
Page 141 7 OPERATION ADJUSTMENT 7.1 Preparation for Operation...
Page 142: Operation And Test
■Serial connection FX5-232ADP COM port (COM1) RS-232 cable (FX-232CAB-1) GX Works3 settings Item Selection item Internal setting Input value PC side I/F Serial/USB RS-232C COM Port COM1 Transmission Speed 115.2Kbps PLC side I/F PLC Module PLC Mode FX5CPU Other Station Setting No Specification Check at Communication Time 30 seconds...
Page 143: Running, Stopping, And Resetting
Running, Stopping, and Resetting Methods of running, stopping, and resetting The following two methods of running, stopping, and resetting the FX5UC CPU modules are provided. Using the RUN/STOP/RESET switch The operation status of the CPU module can be changed with the RUN/STOP/RESET switch. Setting the RUN/STOP/RESET switch to the RUN position runs the program.
Page 144 7.3 Running, Stopping, and Resetting...
Page 145: Chapter 8 Maintenance And Inspection
MAINTENANCE AND INSPECTION Daily Inspection Perform the following inspections on a daily basis. Item Inspection item Description Installation status Mounting status of the The module should be securely mounted. of the module module Looseness of cover The cover should not be off. Connection Looseness of terminal Retighten the terminal screws.
Page 146 8.1 Daily Inspection...
Page 147: Battery
Battery Part names The Latch device memory and clock data upon power interruption. The battery is not incorporated in the CPU module during shipment from the factory. Order it if necessary. Parameter setting is required to back up the device memory and clock data. ( Page 98 Setting an optional battery using the engineering tool) External appearance Name...
Page 148 8 MAINTENANCE AND INSPECTION 8.3 Battery...
Page 149: Battery Replacement
Setting an optional battery using the engineering tool The following setting is required when the capacity of the latch device/latch label is increased using the optional battery. Note that the battery does not back up the data if the following setting is not provided. Select the Navigation window [Parameter] [FX5UCPU] [CPU Parameter] [Memory/Device Setting] [Device/Label Memory Area Setting] [Option Battery Setting] [Mounted] Battery replacement...
Page 150 8 MAINTENANCE AND INSPECTION 8.3 Battery...
Page 151 Replacement procedure If the battery voltage is reduced, replace it following the procedure below. Even with the battery removed, the built-in capacitor holds the data of the memory for the power interruption time (20 sec.). Battery replacement steps 3 and 4 must be completed within 20 seconds. If the time taken for battery replacement is longer than the power interruption time, the data of the memory may be lost.
Page 152 8.3 Battery...
Page 153: Special Relay For Low Battery Voltage
Special relay for low battery voltage Prepare a system which allows constant external monitoring of the battery status, using a GOT, etc. • SM52 (SM8005) The special relay turns ON when the battery voltage is the specified value or less. The special relay turns OFF when the battery voltage returns is normal. SM52 (SM8005) Y1 Y1 is output when a battery low-voltage condition occurs.
Page 154: Chapter 9 Troubleshooting
If the PWR LED still does not turn on even after the items shown above are checked, there may be a hardware issue. Consult your local Mitsubishi Electric representative. Checking the BAT LED If the BAT LED turns on, check the following items.
Page 155: Err Led
• Fit a noise filter onto the power supply line. If the ERR LED still does not turn off even after the items shown above are checked, there may be a hardware issue. Consult your local Mitsubishi Electric representative. Checking the P.RUN LED If the P.RUN LED is turned off, check the status of the ERR LED and take corrective actions.
Page 156: Module Diagnostics (Cpu Diagnostics)
Module Diagnostics (CPU Diagnostics) The Module Diagnostics (CPU Diagnostics) function is used to diagnose the CPU module and expansion adapter (check the error being generated and its detailed information). Information required for troubleshooting, such as the current error, details and cause of the error, and action to be taken, are displayed.
Page 157 9.3 Troubleshooting using the engineering tool...
Page 158: Error Status And Operations On Occurrence Of An Error
Stop The module is unable to continue its operation due to a Perform troubleshooting. If the error still persists, consult your hardware issue. local Mitsubishi Electric representative. Moderate Stop The module is unable to carry out programs or continue the...
Page 159: Backing Up The Data
Backing Up the Data Saving the following information immediately after the occurrence of an error helps analyzing the cause of the error. • Parameters, programs, and device memory • Error histories Backing up parameters, programs, and device memory The procedure for backing up parameters, programs, and device memory by using an engineering tool is explained below. [Online] [Read from PLC] Check the parameters, programs, and device memory to back up.
Page 160 9 TROUBLESHOOTING 9.5 Backing Up the Data...
Page 161: Troubleshooting For Each Symptom
The output may be turned on unintentionally in the program. Review user program (Duplicate coils or RST instructions). ■When the output does not turn off There may be a hardware issue. Consult your local Mitsubishi Electric representative. Input does not turn on...
Page 162 9.7 Troubleshooting for Each Symptom...
Page 163 The boot operation may be being performed. Read the parameters and review the boot file settings with the engineering tool. If the boot operation is not being performed, there may be a hardware issue. Consult your local Mitsubishi Electric representative.
Page 164: Appendix
APPENDIX Appendix 1 How to Check the Date of Manufacture Check the date of manufacture of the product as follows. • Nameplate • Module front surface (CPU module only) Checking the nameplate The date of manufacture of the product can be checked from the manufacturer's serial number "S/N" indicated on the nameplate of the product..
Page 165 APPENDIX Appendix 1 How to Check the Date of Manufacture...
Page 166: Appendix 2 Standards
Compliance to EMC directive and LVD directive of the entire mechanical module should be checked by the user/ manufacturer. For more details please contact to the local Mitsubishi Electric sales site. Requirement for compliance with EMC directive...
Page 167 Appendix 2 Standards...
Page 168: Requirement For Compliance With Lvd Directive
(integral with sensors or actuators), these users should follow those manufacturers' installation requirements. Mitsubishi Electric recommends that shielded cables be used. If no other EMC protection is provided, users may experience temporary loss of accuracy between +10%/-10% in very heavy industrial areas.
Page 169 • Control cabinet - The control cabinet must be conductive. - Ground the control cabinet with the thickest possible grounding cable. - To ensure that there is electric contact between the control cabinet and its door, connect the cabinet and its doors with thick wires.
Page 170 Appendix 3 I/O Module Product configuration There are various types of I/O modules. They differ in supply voltage, number of input/output points, input form, output form, and connection type. I/O module Number of Power supply Input type Output type Connection type input/output points PLC internal 24 V DC (sink)
Page 171: Appendix 3 I/O Module
Appendix 3 I/O Module...
Page 172 ■Extension cable type Model Input Output Connection type Type No. of Common wiring Type No. of Common wiring points system points system ■Output extension/relay output type FX5-8EYR/ES Relay Terminal block FX5-16EYR/ES Relay Terminal block ■Output extension/sink output only FX5-8EYT/ES Transistor Sink Terminal block FX5-16EYT/ES...
Page 173 Appendix 3 I/O Module...
Page 174 ■Input/output module Item Specifications Voltage rating Input connector 5 V DC (supplied from PLC) Output connector 24 V DC (supplied from PLC) 5 V DC (supplied from PLC) Current consumption (5 V DC) 120 mA Current consumption (24 V DC) 100 mA Exterior color, weight, accessories ■Input module, Output module...
Page 175 Appendix 3 I/O Module...
Page 176 Input specifications There is the simultaneous ON ratio of available PLC inputs or outputs with respect to the ambient temperature. For details, refer to Page 20 Input/Output Derating Curve. Item Specifications No. of input points FX5-C32EX 32 points FX5-C32ET 16 points FX5-8EX/ES 8 points FX5-16EX/ES...
Page 177 Appendix 3 I/O Module...
Page 178 Output specifications There is the simultaneous ON ratio of available PLC inputs or outputs with respect to the ambient temperature. For details, refer to Page 20 Input/Output Derating Curve. ■Transistor output (sink output) Item Specifications No. of output points FX5-C32EYT/D 32 points FX5-C32ET/D 16 points...
Page 179 Appendix 3 I/O Module...
Page 180 ■Transistor output (source output) Item Specifications No. of output points FX5-C32EYT/DSS 32 points FX5-C32ET/DSS 16 points FX5-8EYT/ESS 8 points FX5-16EYT/ESS 16 points Connection type FX5-C32EYT/DSS Connector FX5-C32ET/DSS FX5-8EYT/ESS Terminal block (M3 screws) FX5-16EYT/ESS Output type Transistor/source output External power supply 5 to 30 V DC Output circuit insulation Photo-coupler insulation...
Page 181 Appendix 3 I/O Module...
Page 182 ■Relay output Item Specifications No. of output points FX5-8EYR/ES 8 points FX5-16EYR/ES 16 points Connection type Terminal block (M3 screws) Output type Relay External power supply 30 V DC or less 240 V AC or less (250 V AC or less when the module does not comply with CE, UL, or cUL standards) Output circuit insulation Mechanical insulation Indication of output operation...
Page 183 Appendix 3 I/O Module...
Page 184: External Dimensions
External dimensions and component names Input module, Output module ■Extension connector type Unit: mm (inches) 13 (0.52") 74 (2.92") External dimensions Model W: mm (inches) FX5-C32EX/D, FX5-C32EX/DS 20.1 (0.8") FX5-C32EYT/D, FX5-C32EYT/DSS Part names Name Description Extension connector Connector connected to extend modules PWR LED Indicates whether the input modules/output modules is powered or not.
Page 185 Appendix 3 I/O Module...
Page 186 Part names Name Description Input display LED, output display LED Lit when input or output is on. POWER LED Indicates whether the input modules/output modules are powered or not. Lit: Powered Off: Not powered or hardware error Pullout tab Tab for pulling out an extension cable. Extension cable Cable connected to extend modules.
Page 187 APPENDIX Appendix 3 I/O Module...
Page 188 Terminal layout Extension connector type FX5-C32EX/D FX5-C32EYT/D FX5-C32ET/D Input Output Input Smaller Notch Smaller Notch Notch numbers numbers COM COM COM0 COM COM • • • • • • Input Output Output Larger Larger numbers numbers COM COM COM1 COM0 COM0 •...
Page 189 Appendix 3 I/O Module...
Page 190 Extension cable type FX5-8EX/ES FX5-8EYR/ES FX5-8EYT/ESS FX5-8EYT/ES FX5-16EX/ES FX5-16EYR/ES FX5-16EYT/ESS FX5-16EYT/ES Smaller Smaller Smaller numbers numbers numbers Larger Larger Larger numbers numbers numbers...
Page 191 APPENDIX Appendix 3 I/O Module...
Page 192: Appendix 4 Sd Memory Card
• Operational compatibility of the SD memory cards manufactured by Mitsubishi (NZ1MEM-2GBSD and NZ1MEM-4GBSD) with MELSEC iQ-F series CPU modules has been checked. Use of SD memory card other than a Mitsubishi SD memory card may result in loss of the data stored in the SD memory card, or problems such as system stop.
Page 193: Insertion And Removal Of The 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 attention to the direction of the card and follow the procedure below. Insert the SD memory card (1) straight into the SD memory card slot. Make sure that the notch of the card is directed downward.
Page 194 Appendix 5 Terminal Module Product configuration Terminal modules are used to convert connector-type I/O terminals into terminal blocks. By using terminal blocks (built-in Option cable or element type) dedicated to input or output, capturing of AC input user-created cable signals and format conversion into the relay/transistor/triac output can be performed.
Page 195: Appendix 5 Terminal Module
Appendix 5 Terminal Module...
Page 196 Specifications Exterior color, accessories Item Specifications Exterior color Munsell 0.08GY/7.64/0.81 Accessories Input/output number label, terminal block layout card Input specifications ■FX-16EX-A1-TB Item Specifications Input type AC input Input signal voltage 100 to 120 V AC +10% -15% 50/60 Hz Input signal current 4.7 mA/100 V AC 50 Hz 6.2 mA/110 V AC 60 Hz Input impedance...
Page 197 Output specifications ■Relay output (FX-16EYR-TB, FX-16EYR-ES-TB/UL) Item Specifications Output type Relay External voltage 250 V AC or less, 30 V DC or less Max. load Resistance load 2 A/point The total load current per common terminals (four points) should be 8 A or less. Inductive load 80 VA Min.
Page 198 Appendix 5 Terminal Module...
Page 199 ■Transistor/sink output (FX-16EYT-TB, FX-16EYT-ES-TB/UL) Item Specifications Output type Transistor/sink output External voltage 5 to 30 V DC Max. load Resistance load 0.5 A/point The total load current per common terminals (four points) should be 0.8 A or less. Inductive load 12 W/24 V DC Min.
Page 200 Appendix 5 Terminal Module...
Page 201 ■Transistor/source output (FX-16EYT-ESS-TB/UL) Item Specifications Output type Transistor/source output External voltage 5 to 30 V DC Max. load Resistance load 0.5 A/point The total load current per common terminals (four points) should be 0.8 A or less. Inductive load 12 W/24 V DC Min.
Page 202 Appendix 5 Terminal Module...
Page 203 ■Triac output (FX-16EYS-TB, FX-16EYS-ES-TB/UL) Item Specifications Output type Triac (SSR) External voltage 85 to 242 V AC Max. load Resistance load 0.3 A/point The total load current per common terminals (four points) should be 0.8 A or less. Inductive load 15 VA/100 V AC 36 VA/200 V AC Min.
Page 204 Appendix 5 Terminal Module...
Page 205 External dimensions and component names • FX-16E-TB, FX-16E-TB/UL • FX-32E-TB, FX-32E-TB/UL 150 (5.91") 150 (5.91") (1.78") • FX-16EX-A1-TB • FX-16EYR-TB, FX-16EYR-ES-TB/UL, FX-16EYT-TB, FX-16EYT-ES-TB/UL, FX-16EYT-ESS-TB/UL, FX-16EYS-TB, FX-16EYS-ES-TB/UL 150 (5.91") 150 (5.91") Unit: mm (inches) Name Description CN1 connector Connector for connecting input signal cables or output signal cables for CN1 CN2 connector Connector for connecting input signal cables or output signal cables for CN2 (FX-32E-TB and FX-32E-TB/UL only)
Page 206 APPEND IX Appendix 5 Terminal Module...
Page 207 Terminal layout • FX-16E-TB, FX-16E-TB/UL Smaller numbers Larger numbers 3 COM 7 COM 3 COM 7 COM 2 COM 2 COM • FX-32E-TB, FX-32E-TB/UL Smaller numbers Larger numbers 7 COM 2 COM 6 COM 2 COM 6 COM Smaller numbers Larger numbers 3 COM 7 COM...
Page 208 Appendix 5 Terminal Module...
Page 209: Internal Circuit
Internal circuit FX-16E-TB, FX-32E-TB 0 to 7 (Smaller numbers) 0 to 7 (Larger numbers) 2 COM 6 COM 2 COM 6 COM (20) (10) COM (19) (9) COM 7 (18) (8) 6 (17) (7) 5 (16) (6) 4 (15) (5) 3 (14) (4) 2 (13) (3) 1 (12) (2)
Page 210 FX-16E-TB/UL, FX-32E-TB/UL 0 to 7 (Smaller numbers) 0 to 7 (Larger numbers) (20) (10) *1 COM0 (19) (9) COM0 7 (18) (8) 6 (17) (7) 5 (16) (6) 4 (15) (5) 3 (14) (4) 2 (13) (3) 1 (12) (2) 0 (11) (1) (20) (10) COM0 (19) (9) COM0...
Page 211 FX-16EX-A1-TB ⋅ ⋅ (20) (10) COM (19) (18) Photocoupler (17) Photocoupler (16) (15) (14) (13) (12) Photocoupler (11) 0 Photocoupler 0 to3 4 to7 0 to 4 to 3 COM1 COM2 1 COM3 COM4 COM1 COM2 COM3 COM4 0 to7 Smaller numbers 0 to 7 Larger numbers FX-16EYR-TB...
Page 212 Appendix 5 Terminal Module...
Page 213 FX-16EYR-ES-TB/UL ⋅ ⋅ (20) (10) (19) (9) (18) (8) (17) (7) (16) (6) (15) (5) (14) (4) (13) (3) (12) (2) (11) (1) 1 2 3 5 6 7 4 5 6 7 COM2 COM3 COM1 COM4 2 COM1 4 6 COM2 COM3 COM4...
Page 214 FX-16EYT-ES-TB/UL ⋅ ⋅ Photo- (20) (10) 3.3 kΩ coupler 3.3 kΩ (19) (9) 7 (18) (8) Photo- 6 (17) (7) (16) (6) coupler (15) (5) 3 (14) (4) Photo- 2 (13) (3) 3.3 kΩ coupler 1 (12) (2) 3.3 kΩ 0 (11) (1) Photo- coupler...
Page 215 FX-16EYS-TB ⋅ ⋅ (20) (10) 3.3 kΩ COM0 (19) (9) COM0 3.3 kΩ 7 (18) (8) Photo- 6 (17) (7) Photo- (16) (6) thyristor thyristor (15) (5) 3 (14) (4) 2 (13) (3) 3.3 kΩ 1 (12) (2) 3.3 kΩ 0 (11) (1) Photo- Photo-...
Page 216 APPENDIX Appendix 5 Terminal Module...
Page 217: Appendix 6 Precautions For Battery Transportation
Appendix 6 Precautions for Battery Transportation When transporting lithium batteries, follow required transportation regulations. Batteries used in the FX5UC CPU modules are classified as follows. Control-subject product Built-in None (FX5UC CPU modules do not include batteries when shipped from the factory.) Battery only (spare parts and optional parts) Weight Model...
Page 218 Appendix 6 Precautions for Battery Transportation...
Page 219: Appendix 7 Handling Of Batteries And Devices With Built-In Batteries In Eu Member States
Appendix 7 Handling of Batteries and Devices with Built-in Batteries in EU Member States This section describes the precautions for disposing of waste batteries in EU member states and exporting batteries and/or devices with built-in batteries to EU member states. Disposal precautions In EU member states, there is a separate collection system for waste batteries.
Page 220: Index
INDEX BAT LED ......14 SD LED .......14 .
Page 222: Revisions
First Edition This manual confers no industrial property rights or any rights of any other kind, nor does it confer any patent licenses. Mitsubishi Electric Corporation cannot be held responsible for any problems involving industrial property rights which may occur as a result of using the contents noted in this manual.
Page 223: Warranty
WARRANTY Please confirm the following product warranty details before using this product. 1. Gratis Warranty Term and Gratis Warranty 2. Onerous repair term after discontinuation Range of production If any faults or defects (hereinafter "Failure") found to 1) Mitsubishi shall accept onerous product repairs for be the responsibility of Mitsubishi occurs during use of seven (7) years after production of the product is the product within the gratis warranty term, the product...
Page 224: Trademarks
TRADEMARKS   Microsoft and Windows are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries. Ethernet is a trademark of Xerox Corporation. Anywire is a registered trademark of the Anywire Corporation.  MODBUS is a registered trademark of Schneider Electric SA.
Page 225 Manual number: JY997D61401A Model: FX5UC-U-HW-E Model code: 09R558 When exported from Japan, this manual does not require application to the Ministry of Economy, Trade and Industry for service transaction permission. HEAD OFFICE: TOKYO BUILDING, 2-7-3 MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAPAN HIMEJI WORKS: 840, CHIYODA MACHI, HIMEJI, JAPAN Specifications are subject to change without notice.
Page 226 Phone: +1 (847) 478-2100 Fax: +36 (0)1 / 431-9727 Fax: +1 (847) 478-0328 Mitsubishi Electric Europe B.V. / FA - European Business Group / Gothaer Straße 8 / D-40880 Ratingen / Germany / Tel.: +49(0)2102-4860 / Fax: +49(0)2102-4861120 / info@mitsubishi-automation.com / https://eu3a.mitsubishielectric.com...

This manual is also suitable for:

Melsec fx5uc Melsec fx5u-80mr/es Melsec fx5u-80mt/ess Melsec fx5u-32mt/es

Mitsubishi Electric MELSEC iQ-F Series User Manual

Chapter 1 Outline

Chapter 2 Specifications

Chapter 3 Product List

Chapter 4 System Configuration

Chapter 5 Installation

Chapter 6 Wiring

Chapter 7 Operation Adjustment

Chapter 8 Maintenance and Inspection

Chapter 9 Troubleshooting

Appendix

Appendix 1 How to Check the Date of Manufacture

Appendix 2 Standards

Appendix 3 I/O Module

Appendix 4 SD Memory Card

Appendix 5 Terminal Module

Appendix 6 Precautions for Battery Transportation

Appendix 7 Handling of Batteries and Devices with Built-In Batteries in EU Member States

Quick Links

Troubleshooting

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Summary of Contents for Mitsubishi Electric MELSEC iQ-F Series

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