Summary of Contents for YOKOGAWA FA-M3V e-RT3 Plus
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The product has a QR Code pasted for efficient plant maintenance work and asset information management. It enables confirming the specifications of purchased products and user’s manuals. For more details,please refer to the following URL. https://www.yokogawa.com/qr-code QR Code is a registered trademark of DENSO WAVE INCORPORATED. IM 34M06C11-01E 40th Edition Yokogawa Electric Corporation...
- Every effort has been made to ensure accuracy in the preparation of this manual. However, should any errors or omissions come to the attention of the user, please contact the nearest Yokogawa Electric representative or sales office. Safety Symbols - ”Handle with care.”...
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WARRANTY that is provided separately. - Yokogawa Electric assumes no liability to any party for any loss or damage, direct or indirect, caused by the use or any unpredictable defect of the product.
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Software Supplied by the Company - Yokogawa Electric makes no other warranties expressed or implied except as provided in its warranty clause for software supplied by the company. - Use the software with one computer only. You must purchase another copy of the software for use with each additional computer.
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General Requirements for Using the FA-M3 / e-RT3 Controller Set the product in a location that fulfills the following requirements: - INDOOR USE ONLY - This product is an open equipment. The product must be installed in a metallic panel enclosure with an impact rating IK08 or more.
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Configure and route cables with noise control considerations: - Perform installation and wiring that segregates system parts that may likely become noise sources and system parts that are susceptible to noise. Segregation can be achieved by measures such as segregating by distance, installing a filter or segregating the grounding system.
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- Refer to “A3.5.4 Grounding Procedure” in the “Hardware Manual” for attaching the grounding wiring. Authorized Representative: - The Authorized Representative for this product in the EEA is: Yokogawa Europe B. V. Euroweg 2, 3825 HD Amersfoort, The Netherlands IM 34M06C11-01E...
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viii General Requirements for Using the FA-M3 Slave Units (TAH Series) C onnect YHLS cable to SHIELD terminal: - Connect the DRAIN line of the YHLS cable to the SHIELD terminal of the YHLS master module securely. Failing to do so may affect the performance of the YHLS system.
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With reference to the equipment types in the WEEE directive, this product is classified as a “Monitoring and Control instruments”. When disposing of products in the EU, contact your local Yokogawa Europe B. V. office. Do not dispose of this product in domestic household waste.
Introduction Overview of the Manual This manual explains the configuration, specifications, compatible specification, and installation of the Range-Free Multi-controller FA-M3. It also discusses the individual specifications of power supply modules, base modules, I/O modules, cables and terminal block units. ...
Copyrights The copyright of the programs and online manuals contained in the software medium of the Software Product shall remain in YOKOGAWA. You are allowed to print the required pages of the online manuals for the purposes of using or operating the Product; however, reprinting or reproducing the entire document is strictly prohibited by the Copyright Law.
Hardware Manual IM 34M06C11-01E 40th Edition CONTENTS Applicable Product ..................i Precautions ....................ii Introduction ....................x Copyrights and Trademarks ..............xi Part A Standard Version A1. System Configuration ..............A1-1 A1.1 System Configuration ................A1-1 Basic Configuration ................A1-1 ...
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A3.3.6 Measures against Power Failure ........... A3-16 A3.4 Noise Control Considerations ............A3-20 A3.5 Wiring the Power Supply Module ............A3-22 A3.5.1 Re-checking Specifications ........... A3-22 A3.5.2 Wiring Materials ..............A3-22 A3.5.3 Power Supply Wiring ............. A3-23 A3.5.4 Grounding Procedure ............A3-25 A3.6 Wiring I/O Modules ................
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Part B FA-M3 Value (F3SC21-1N) B1. System Configuration ..............B1-1 B1.1 System Configuration ................B1-1 B1.2 Restrictions on Module Installation............. B1-3 B1.2.1 Restrictions on Module Location ..........B1-3 B1.2.2 Restrictions due to Current Consumption ....... B1-3 B1.3 Peripheral Tools Supporting the Program Development of FA-M3 .. B1-4 B2.
A1-1 System Configuration A1.1 System Configuration Basic Configuration The basic configuration of FA-M3 is a unit. A unit is a system with the minimum configuration consisting of the following modules. Install these modules on the base module to compose the unit. Table A1.1 Modules (Components) of a Unit Module Description...
A1-2 Slot Number A slot number identifies a slot of a base module in which a CPU module, an I/O module or some other module can be installed. A slot number is a 3-digit integer with the first digit representing a unit number. The unit number of the main unit is 0. Slot number Identifies a slot position starting next to a power supply module and ending at the right end of the base module: 01-16...
A1-3 Example of Increasing the Number of I/O Points Using Fiber-optic FA-bus Type 2 Modules You can install fiber-optic FA-bus type 2 modules in both main and subunits and connect them with fiber-optic cables. This enables distributed arrangement of remote I/O points, increase in the number of I/O points, and control of I/O modules via high-speed, noise- immune communication.
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A1-4 Note ■ Example of increasing the number of I/O points using FA-bus type 2 modules As with fiber-optic FA-bus type 2 modules, the number of I/O points can be increased using FA-bus type 2 modules. FA-bus type 2 modules use shielded twisted-pair cables for the connection between subunits.
A1-5 A1.2 Restrictions on Module Installation A1.2.1 Restrictions on Module Location - A Power supply module must be installed in the most left side slot. - A CPU module installed in slot 1 serves as the main CPU module. - CPU modules installed in slots 2 to 4 serve as the add-on CPU modules. - I/O modules may also be installed in slots 2 to 4.
A1-6 A1.2.2 Restrictions on CPU Module Installation A maximum of four CPU modules can be installed in slots 1 to 4. Table A1.2 Combinations of Main CPU Modules with Add-on CPU Modules Add-on CPU Module Model F3SP21-0N ...
A1-7 A1.2.3 Restrictions on I/O Module Installation Table A1.3 shows the types of modules that each CPU module can access directly, as well as the maximum number of modules of each type that can be installed at the same time. The maximum number referred to here means a limit to the quantity of modules when a multiple of the same I/O module is installed.
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A1-8 Table A1.3 Modules that Each CPU can Access Directly and the Maximum Number that can be Installed (2/2) Sequence CPU BASIC CPU Module Name Model F3LE01-T F3LE01-5T Ethernet interface module F3LE11-T F3LE12-T NX interface module F3NX01-N – – EhterNet/IP interface module F3LN01-0N –...
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A1-9 *1: Each number denotes the largest combined number of personal computer link modules, Ethernet interface modules, GP-IB communication modules (when in slave mode), FL-net interface modules, EtherNet/IP interface module, Modbus interface module and memory card modules that can be installed. If two or more CPU modules having different maximum limits are installed, the smallest limit applies. *2: The pulse-capture feature is disabled.
A1-10 A1.2.4 Restrictions due to Current Consumption Design your system making sure that the total sum of current consumed by modules in each unit does not exceed the capacity of the power supply module. For more information, see Section A2.9, "Module Current Consumption Tables" IM 34M06C11-01E...
A1-11 A1.3 Peripheral Tools Supporting the Program Development of the FA-M3 You can conveniently create and debug your programs on your personal computer. - FA-M3 Programming Tool WideField3 - FA-M3 ToolBox FA-M3 - BASIC Programming Tool M3 for Windows CD-ROM Ethernet, cable for programming tools (RS-232-C), Personal USB or FL-net...
A2-1 Specifications and Configuration A2.1 Specifications Common Specifications Item Specifications Operating : 0 to 55°C Surrounding air temperature range Storage -20°C to 75°C Operating : 10 to 90% RH (non-condensing) Surrounding humidity range Storage 10 to 90% RH (non-condensing) Surrounding atmosphere Must be free of corrosive gases, flammable gases or heavy dust.
A2-2 Power Supply Specifications Specifications Item F3PU10-0N F3PU20-0N F3PU30-0N F3PU16-0N F3PU26-0N F3PU36-0N F3PU10-0S F3PU20-0S F3PU30-0S F3PU16-0S F3PU26-0S F3PU36-0S Supply voltage range 100 to 240V AC, single phase 50/60Hz 24V DC Range of supply voltage change 85 to 264V AC 50/60Hz±3Hz 15.6 to 31.2V DC Power consumption 35VA...
A2-3 A2.2 FA-M3 Controller Configuration A2.2.1 Components Module Names Base module Power supply module CPU module I/O modules and special modules FA020201.VSD Figure A2.1 FA-M3 Controller FA-M3 Components Modules indicated by the triangle symbol () in the tables below are no longer available. ...
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A2-4 CPU Modules Module Description Model Specifications 10K ladder steps, 0.18 to 0.36s execution time for basic instructions F3SP21-0N 20K ladder steps, 0.12 to 0.24s execution time for basic instructions F3SP25-2N 100K ladder steps, 0.09 to 0.18s execution time for basic instructions F3SP35-5N ...
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A2-5 I/O Modules Digital I/O Module Description Model Specifications High-speed input F3XH04-3N 24V DC high-speed input points with pulse-capture feature, 4 points module 100 to 120V AC, 8 points F3XA08-1N AC input module F3XA08-2N 200 to 240V AC, 8 points 100 to 120V AC, 16 points F3XA16-1N F3XD08-6F...
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A2-6 Analog I/O Module Description Model Specifications F3AD04-0N 0 to 5V DC /1 to 5V DC /-10 to 10V DC, 4 points, 12-bit ADC F3AD04-0R 0 to 5V DC /1 to 5V DC /-10 to 10V DC, 4 points, 16-bit ADC 0 to 5V / 1 to 5V / -10 to 10V / 0 to 10V DC F3AD04-5R 4 differential inputs, 16-bit A/D conversion...
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A2-8 Remote I/O Module Description Model Specifications F3LH01-1N 12Mbps max., YHLS port x 1 F3LH02-1N 12Mbps max., YHLS port x 2 YHLS master module F3LH02-0N 12Mbps max., 126 slaves max., 300m range max., 2 ports F3LH04-0N 12Mbps max., 252 slaves max., 300m range max., 4 ports Fiber-optic FA-bus 7 stations max., total transmission distance 200m, 10Mbps F3LR01-0N...
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A2-9 Cables For detailed cable specifications, see A2.7, "Cables." Style Cable Description Model Specifications Code D-sub, 25-pin, male, 3m long KM11-2N Cable for programming tools D-sub, 9-pin, female, 3m long KM11-2T KM11-3T D-sub, 9-pin, female, 5m long KM11-4T D-sub, 9-pin, female, 10m long USB 1.1 compliant USB-serial converter, approx.
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A2-10 Style Cable Description Model Specifications Code Fiber-optic cable Cable for outdoor system expansion; 300m long (with one pulling eye) KM67-300 ― outdoor wiring, KM67-400 ― Cable for outdoor system expansion; 400m long (with one pulling eye) supplied with tension member (compatible with F3LR02 (200 to ...
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A2-11 Terminal Block Name Model Specifications *1*2 40 points; voltage rating: 5 to 24V DC Terminal block unit TA40-0N Connector terminal block 40 points (M3.5 screw) TA50-0N TA50-1N Connector terminal block 40 points (M3 screw) ▲ Connector terminal block *1*2 TA50-2N Connector terminal block 40 points (M3 screw)
A2-12 A2.3 Power Supply Modules F3PU10-0N/F3PU10-0S/F3PU20-0N/F3PU20-0S Power Supply Modules Specifications Specifications Item F3PU10-0N/ F3PU10-0S * F3PU20-0N/ F3PU20-0S * Supply voltage range 100 to 240V AC, single phase 50/60Hz Range of supply voltage 85 to 264V AC 50/60Hz±3Hz change Power consumption 35VA 85VA 20A max.
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A2-13 Note LG terminal has a half potential of the input power supply voltage when LG terminal isn’t connected to earth appropriately. Terminal dimensions F3PU10-0N / F3PU20-0N F3PU10-0S / F3PU20-0S M3.5 7.1mm 7.1mm 8.2mm 8.2mm FA020304.VSD Adaptable crimp-on terminal Compatible Modules and Crimping Torque Vendor...
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A2-14 Note Power supply circuit which is connected to FAIL signal contact output terminal must be SELV and limited-energy circuit separated by reinforced insulation or double insulation from hazardous voltage. IM 34M06C11-01E...
A2-15 F3PU30-0N/F3PU30-0S Power Supply Modules Specifications Specifications Item F3PU30-0N/F3PU30-0S Supply voltage 100 to 240V AC, single phase, 50/60Hz Range of supply voltage change 85 to 264V AC, 50/60Hz ±3Hz Power consumption 100VA Inrush current 20A max. (120V AC, Ta=25°C), 45A max. (240V AC, Ta=25°C) Time-lag fuse Fuse (Built into the L and N terminals and cannot be replaced.)
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A2-16 Terminal dimensions F3PU30-0N F3PU30-0S M3.5 7.1mm 7.1mm 8.2mm 8.2mm FA020306.VSD Adaptable crimp-on terminals Crimping Torque Vendor Model Compatible Conductor F3PU30-0N F3PU30-0S Japan Solderless V1.25-M3 May not be Terminal Mfg Co., Ltd. AWG22 to 18 used Nippon Tanshi Co., Ltd. RAV1.25-3.5 (0.33 to 0.82mm (Copper wire)
A2-17 F3PU16-0N/ F3PU16-0S and F3PU26-0N/ F3PU26-0S Power Supply Modules Specifications Specifications Item F3PU16-0N/ F3PU16-0S * F3PU26-0N/ F3PU26-0S * Supply voltage 24V DC Range of supply voltage change 15.6 to 31.2V DC Power consumption 15.4W 33.1W Inrush current 20A max. (31.2V DC, Ta=25°C) Time-lag fuse Time-lag fuse Fuse...
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A2-18 Terminal dimensions F3PU16-0N / F3PU26-0N F3PU16-0S / F3PU26-0S M3.5 7.1mm 7.1mm 8.2mm 8.2mm FA020304.VSD Adaptable crimp-on terminals Crimping Torque Vendor Model Compatible Conductor F3PU16-0N F3PU16-0S F3PU26-0N F3PU26-0S Japan Solderless V1.25-M3 May not be Terminal Mfg Co., Ltd. AWG22 to 18 used Nippon Tanshi Co., Ltd.
A2-19 F3PU36-0N/F3PU36-0S Power Supply Module Specifications Specifications Item F3PU36-0N/F3PU36-0S Supply voltage 24V DC Range of supply voltage 15.6 to 31.2V DC change Power consumption 46.2W Inrush current 20A max. (31.2V DC, Ta=25°C) Time-lag fuse Fuse (Built into the positive terminal and cannot be replaced.) Rated output voltage 5V DC Rated output current...
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A2-20 Note LG terminal has a half potential of the input power supply voltage when LG terminal isn’t connected to earth appropriately. Terminal dimensions F3PU36-0N F3PU36-0S M3.5 7.1mm 7.1mm 8.2mm 8.2mm FA020306.VSD Adaptable crimp-on terminals Crimping Torque Vendor Model Compatible Conductor F3PU36-0N...
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A2-21 Note Power supply circuit which is connected to 24V DC power supply terminal and FAIL signal contact output terminal must be SELV and limited-energy circuit separated by reinforced insulation or double insulation from hazardous voltage. IM 34M06C11-01E...
A2-22 A2.4 Base Modules There are six types of base modules: 4-, 6-, 5-, 9-, 13-, and 16-slot modules. Select an appropriate type of module according to your application needs. Model Number of Slots Number of I/O Slots Weight F3BU04-0N 150g F3BU06-0N 210g...
A2-23 A2.5 I/O Modules Components and Their Functions Terminal Block Type Connector Type • 10-point terminal block • 18-point terminal block Input indicaton LED: Input indication LED: Indicate the on or off Indicate the on or off XD16-...
A2-24 Isolation Methods The internal circuit is isolated from the field using one of the following methods: Photocoupler isolation : Withstands 1500V AC for 1 minute. Mechanical isolation : Withstands 1500V AC for 1 minute. Transformer isolation : Withstands 500V AC for 1 minute.
A2-25 F3XH04-3N High-speed Input Module Item Specifications Item Specifications Input type DC voltage Number of points Pulse-capture Selection Selected by DIP switches Common line type 4 independent points features Photo-coupler Insulation method insulation 1500V AC for one minute between the group of terminals for Withstanding voltage external connection...
A2-26 Setting up the Pulse-capture and Interrupt Functions The F3XH04-3N allows you to enable the pulse-capture or interrupt function by setting its internal DIP switch (DIP SW). (1) Hardware Setup Remove the side cover and select the desired function with internal DIP SW 1. The pulse-capture function is selected as default at the factory.
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A2-27 - Interrupt function The interrupt function may be used from either a ladder or BASIC program. Inputs 1-4 correspond to terminal numbers 1-4. (1) Interrupt processing in a ladder program When using the interrupt function as an interrupt input, make an “I/O interrupt definition”...
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A2-28 (4) Functional Description Pulse-capture Function The pulse-capture function is designed to reliably catch input pulses shorter than the scan time. As the CPU module usually reads the data of I/O modules during I/O refresh cycle, when a normal input module is used, the CPU may fail to read input pulses shorter than the scan time.
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A2-29 - Interrupt Function If the interrupt function is selected, the F3XH04-3N module continues to hold its input on for the duration of 512µs once it detects an off-to-on transition in the input. The interrupt program therefore may not be executed if an input pulse shorter than 512µs is used as the interrupt signal.
A2-30 F3XA08-1N/F3XA08-2N AC Input Modules Specifications Item F3XA08-1N F3XA08-2N Input type AC voltage Number of points Common line type 8 points/common line Isolation method Photocoupler insulation 1500V AC for one minute between the group of terminals for Withstanding voltage external connection and the internal circuit 100 to 120V AC 200 to 240V AC Rated input voltage...
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A2-31 Front View F3XA08-1N F3XA08-2N XA08-1N AC IN XA08-2N AC IN FA020511.VSD Internal Circuit Configuration External Connection Diagram Interface FA020512.VSD FA020513.VSD Note: Viewed from the front side of the module. IM 34M06C11-01E...
A2-32 F3XA16-1N AC Input Module Item Specifications Item Specifications Operating Input type AC voltage 80V AC min., 5mA min. voltage Number of points 40V AC max., 1mA min. /current 15ms max. or 30ms, Common line type 8 points/common line OFF→ON Response selectable time...
A2-33 F3XC08-0N No-voltage Contact Input Module Item Specifications Item Specifications Input type No-voltage contact 2.0ms max. or 17ms, OFF→ON selectable Number of points Response time Common line type 8 points/common line 2.0ms max. or 17ms, ON→OFF selectable Isolation method Transformer insulation 500V AC for one minute between the Can be specified for each...
A2-34 F3XC08-0C No-voltage Contact Input Module (independent commons) Item Specifications Item Specifications Input sampling time can Input type No-voltage contact be specified for 5 steps: OFF→ON Always (0μs), 62.5μs, Number of points 250μs, 1ms, and 16ms. *3*4 Response time Input sampling time can Common line type Independent commons be specified for 5 steps:...
A2-35 F3XD08-6F DC Input Module Item Specifications Item Specifications Input type DC voltage Input sampling time can be Number of points specified for 5 steps: OFF→ON Always (0μs), 62.5μs, 250μs, Common line type 8 points/common line 1ms, and 16ms. Isolation method Photocoupler isolation Response 1500V AC for one...
A2-36 F3XD16-3F/F3XD16-4F/F3XD16-3H DC Input Modules Specifications Item F3XD16-3F F3XD16-4F F3XD16-3H DC voltage Input type DC voltage (positive common) Number of points Common line type 8 points/common line Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for external connection and the Withstanding voltage internal circuit Rated input voltage...
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A2-37 Front View F3XD16-3F F3XD16-4F F3XD16-3H XD16-3F DC IN XD16-4F DC IN XD16-3H DC IN COM1 COM1 COM1 COM2 COM2 COM2 FA020520.VSD Internal Circuit Configuration External Connection Diagram F3XD16-3F, F3XD16-4F F3XD16-3F,F3XD16-4F – Interface –...
A2-38 F3XD32-3F/F3XD32-4F/F3XD32-5F DC Input Modules Specifications Item F3XD32-3F F3XD32-4F F3XD32-5F Input type DC voltage Number of points Common line type 8 points/common line Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for external connection and the Withstanding voltage internal circuit Rated input voltage...
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A2-39 Front View F3XD32-3F F3XD32-4F F3XD32-5F XD32-5F DC IN XD32-3F DC IN XD32-4F DC IN FA020523.VSD Internal Circuit Configuration External Connection Diagram COM4 COM2 – Interface – FA020524.VSD COM3 COM1 ...
A2-40 F3XD64-3F/F3XD64-4F DC Input Modules Specifications Item F3XD64-3F F3XD64-4F Input type DC voltage Number of points Common line type 8 points/common line Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for Withstanding voltage external connection and the internal circuit Rated input voltage 24V DC 12V DC...
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A2-41 Front View F3XD64-4F F3XD64-3F XD64-3F DC IN XD64-4F DC IN DISPLAY DISPLAY FA020526.VSD Internal Circuit Configuration External Connection Diagram COM4 COM2 COM8 COM6 – Interface – COM3 COM1 COM7 COM5 Display selection FA020527.VSD FA020528.VSD Note: Viewed from the front side of the module. IM 34M06C11-01E...
A2-42 (10) F3XD08-6N DC Input Module Item Specifications Item Specifications Input type DC voltage Number of points 2.0ms max. or 17ms, OFF→ON selectable Common line type 8 points/common line Photocoupler Isolation method isolation 1500V AC for one Response minute between the time group of terminals for Withstanding voltage...
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A2-43 Front View Internal Circuit Configuration F3XD08-6N – Interface – DC IN XD08-6N 9 COM FA020530.VSD External Connection Diagram ‐ ‐ FA020529.VSD FA020531.VSD Note: Viewed from the front side of the module. IM 34M06C11-01E...
A2-44 (11) F3XD16-3N/F3XD16-4N DC-Input Modules Specifications Item F3XD16-3N F3XD16-4N Input type DC voltage Number of points Common line type 8 points/common line Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for Withstanding voltage external connection and the internal circuit Rated input voltage 24V DC 12V DC...
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A2-45 Front View F3XD16-3N F3XD16-4N XD16-3N DC IN DC IN XD16-4N COM1 COM1 COM2 COM2 FA020532.VSD Internal Circuit Configuration External Connection Diagram – Interface – 9 COM COM1 FA020533.VSD COM2 FA020534.VSD Note: Viewed from the front side of the module. IM 34M06C11-01E...
A2-46 (12) F3XD32-3N/F3XD32-4N/F3XD32-5N DC Input Modules Specifications Item F3XD32-3N F3XD32-4N F3XD32-5N Input type DC voltage Number of points Common line type 8 points/common line Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for external connection and Withstanding voltage the internal circuit Rated input voltage...
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A2-47 Front View F3XD32-3N F3XD32-4N F3XD32-5N XD32-3N DC IN XD32-4N DC IN XD32-5N DC IN FA020535.VSD Internal Circuit Configuration External Connection Diagram COM4 COM2 – – Interface – – – – FA020536.VSD COM3 COM1 – – – –...
A2-48 (13) F3XD64-3N/F3XD64-4N DC Input Modules Specifications Item F3XD64-3N F3XD64-4N Input type DC voltage Number of points Common line type 8 points/common line Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for Withstanding voltage external connection and the internal circuit Rated input voltage 24V DC...
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A2-49 Front View F3XD64-4N F3XD64-3N XD64-3N DC IN XD64-4N DC IN DISPLAY DISPLAY FA020538.VSD Internal Circuit Configuration External Connection Diagram COM4 COM2 COM8 COM6 – – – – – – Interface – – – – COM3 COM1 COM7 COM5 Disp lay selector...
A2-50 (14) F3XD64-6M DC Input Module Item Specifications Item Specifications Input type DC voltage OFF→ON 16ms max. Number of points Common line type 8×8 matrix scan Isolation method Photocoupler isolation 1500V AC for one minute Response between the group of time Withstanding voltage connectors for external...
A2-51 (15) F3YD04-7N Transistor Output Module Item Specifications Item Specifications Output type Transistor contact Mechanical ─ Service life Number of points Electrical ─ Common line type All points independent Surge protector Zener diode 3.15A time-lag fuse (Built into each type-N Isolation method Photocoupler isolation Fuse...
A2-52 (16) F3YA08-2N Triac Output Module Item Specifications Item Specifications Output type Triac contact Mechanical ─ Service life Number of points Electrical ─ Common line type 8 points/common Surge protector CR absorber, varistor 4A time-lag fuse (Built into Isolation method Photocoupler isolation Fuse the COM terminal and...
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A2-53 Front View Internal Circuit Configuration F3YA08-2N Interface YA08-2N ACOUT FA020548.VSD External Connection Diagram FA020547.VSD FA020549.VSD Note: Viewed from the front side of the module IM 34M06C11-01E...
A2-54 (17) F3YC08-0C/F3YC08-0N Relay Output Module Specifications Item F3YC08-0C F3YC08-0N Output type Relay contact Number of points Common line type All points independent 8 points/common Isolation method Mechanical insulation 1500V AC for one minute between the group of terminals for external connection Withstanding voltage and the internal circuit Rated load...
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A2-55 Note The relays in the relay output modules are not of hermetically sealed type. Dust or corrosive gases in the installation environment adversely affect the service life of the relays. Relays that are switched on and off in an atmosphere containing silicone gases from silicone-based materials may suffer from poor electrical contact due to SiO (silicon dioxide) formed and deposited on the surfaces of their contacts.
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A2-56 Front View Internal Circuit Configuration Inte rnal 5V F3YC08-0C YC08-0C RL OUT Interface FA020551.VSD External Connection Diagram FA020550.VSD FA020552.VSD Note: Viewed from the front side of the module. Front View Internal Circuit Configuration F3YC08-0N Inte rnal 5V YC08-0N RLOUT...
A2-57 (18) F3YD08-6A/F3YD08-6B Transistor Output Modules Specifications Item F3YD08-6A F3YD08-6B Transistor contact Transistor contact Output type (sink type) (source type) Number of points Common line type 8 points/common Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for Withstanding voltage external connection and the internal circuit 12-24V DC...
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A2-58 Front View Internal Circuit Configuration F3YD08-6A Interface – YD08-6A DCOUT FA020557.VSD External Connection Diagram 12-24V FA020558.VSD Note: Viewed from the front side of the module. FA020556.VSD Internal Circuit Configuration Front View F3YD08-6B Interface – YD08-6B DC OUT FA020560.VSD...
A2-59 (19) F3YD08-7A Transistor Output Module Specifications Item F3YD08-7A Transistor contact Output type (sink type) Number of points Common line type 8 points/common Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals Withstanding voltage for external connection and the internal circuit 12-24V DC Rated load voltage (10.2 to 26.4V DC)
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A2-60 Front View ● Internal Circuit Configuration F3YD08-7A Interface + YD08-7A DCOUT - FA0205571.VSD ● External Connection Diagram 12-24V FA0205561.VSD FA020558.VSD Note: Viewed from the front side of the module. IM 34M06C11-01E...
A2-61 (20) F3YD14-5A/F3YD14-5B Transistor Output Modules Specifications Item F3YD14-5A F3YD14-5B Transistor contact Transistor contact Output type (sink type) (source type) Number of points Common line type 8 points/common, 6 points/common Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for Withstanding voltage external connection and the internal circuit 12-24V DC...
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A2-62 Front View Internal Circuit Configuration F3YD14-5A Interface – YD14-5A DC OUT FA020563.VSD External Connection Diagram COM1 COM1 12-24V COM2 COM2 12-24V FA020562.VSD FA020564.VSD Note: Viewed from the front side of the module. ...
A2-63 (21) F3YC16-0N Relay Output Module Item Specifications Item Specifications Output type Relay contact Mechanical 20 million operations or more Service life 100,000 operations or more Number of points Electrical (rated load) Common line type 8 points/common Surge protector None Isolation method Mechanical insulation Fuse...
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A2-64 Front View Internal Circuit Configuration Inte rnal 5V F3YC16-0N YC16-0N RL OUT Interface FA020569.VSD External Connection Diagram COM1 COM1 COM2 FA020568.VSD COM2 FA020570.VSD Note: Viewed from the front side of the module. IM 34M06C11-01E...
A2-65 (22) F3YD32-1A/F3YD32-1B Transistor Output Modules Specifications Item F3YD32-1A F3YD32-1B Transistor contact Transistor contact Output type (sink type) (source type) Number of points Common line type 8 points/common Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for Withstanding voltage external connection and the internal circuit Rated load voltage...
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A2-66 Front View Internal Circuit Configuration F3YD32-1A Interface – YD32-1A DC OUT FA020572.VSD External Connection Diagram 12-24V 12-24V COM4 COM2 12-24V 12-24V COM3 COM1 FA020573.VSD FA020571.VSD Note: Viewed from the front side of the module. Internal Circuit Configuration ...
A2-67 (23) F3YD32-1H Transistor Output Module (for high speed output) Item Specifications Item Specifications Service Mechanical ─ Transistor contact Output type life Electrical ─ (sink type) Protection Short-circuit Controlled short-circuit current Number of points circuitry Common line type 8 points/common Overheat Output shutdown Isolation method...
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A2-68 Front View ● Internal Circuit Configuration Voltage Regulator 9 COM L Interface Overheat/over- current protector L FA020571_2.vsd ● External Connection Diagram 12-24V 12-24V COM4 COM2 12-24V 12-24V COM3 COM1 FA020573.VSD Note: Viewed from the front side of the module. IM 34M06C11-01E...
A2-69 (24) F3YD32-1P/F3YD64-1P Transistor Output Modules (with short- circuit protector) Item F3YD32-1P F3YD64-1P Item F3YD32-1P F3YD64-1P Transistor contact Protection Short-circuit Controlled short-circuit current Output type (sink type) circuitry Overheat Output shutdown Number of points Surge protector Active clamp circuit Common line type 8 points/common Fuse None...
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A2-70 Front View Internal Circuit Configuration Voltage F3YD32-1P Regulator 9 COM L Interface YD32-1P DC OUT Overheat/over- current protector L FA020571_2.vsd External Connection Diagram F3YD32-1P 12-24V 12-24V COM4 COM2 12-24V 12-24V COM3 COM1 FA020571_1.VSD F3YD64-1P YD64-1P DC OUT DISPLAY FA020573.VSD Note: Viewed from the front side of the module.
A2-71 (25) F3YD32-1R/F3YD64-1R Transistor Output Modules (with short- circuit protector) Item F3YD32-1R F3YD64-1R Output type Transistor contact (source type) Number of points Common line type 8 points/common Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for external Withstanding voltage connection and the internal circuit Rated load voltage...
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A2-72 Note Operation of the protection circuitry: - If short-circuit occurs, the ON voltage increases and the short-circuit current is limited within the range 1-3A. - If the short-circuit condition is removed, normal operation resumes. - If the short-circuit condition persists, the short-circuit current may cause the temperature of the output element to reach approx.
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A2-73 Front View Internal Circuit Configuration 9 COM Voltage F3YD32-1R Regulator L Interface YD32-1R DC OUT Overheat/over- current protector L FA020571_4.vsd External Connection Diagram F3YD32-1R COM4 COM2 12 12 11 11 10 10 FA020571_3.VSD COM3 COM1 ...
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A2-74 Front View Internal Circuit Configuration 9 COM F3YD64-1R Voltage Regulator L Interface YD64-1R DC OUT DISPLAY Overheat/over- current protector L FA020571_4.vsd External Connection Diagram F3YD64-1R COM4 COM2 COM8 COM6 + + + + 12 12 12 12 11 11 11 11 10 10...
A2-75 (26) F3YD32-1T TTL Output Module Item Specifications Item Specifications Fuse None Transistor contact Output type (TTL output) 4.9V min. (no load) Off time Number of points Output 3.0V min. (with 0.4mA load) voltage 0.4V max. (over entire load Common line type 8 points/common On time range)
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A2-76 Front View Internal Circuit Configuration F3YD32-1T Interface – YD32-1T DC OUT FA020578.VSD External Connection Diagram 20 20 COM 2 COM 4 COM 1 COM 3 FA020577.VSD FA020579.VSD Note: Viewed from the front side of the module. IM 34M06C11-01E...
A2-77 (27) F3YD64-1A Transistor Output Module Item Specifications Item Specifications Mechanical ─ Transistor contact Output type Service life (sink type) Electrical ─ Number of points Surge protector Zener diode Common line type 8 points/common Fuse None Isolation method Photocoupler isolation Dissipating current 275mA (5V DC) 1500V AC for one...
A2-79 (28) F3YD64-1F Transistor Output Module Item Specifications Item Specifications Mechanical ─ Transistor contact Output type Service life (sink type) Electrical ─ Number of points Surge protector Zener diode Common line type 8 points/common Fuse None Isolation method Photocoupler isolation Dissipating current 275mA (5V DC) 1500V AC for one...
A2-81 (29) F3YD64-1M Transistor Output Module Item Specifications Item Specifications Mechanical ─ Transistor contact Output type Service life (matrix scan) Electrical ─ Number of points Surge protector Zener diode Common line type 8×8 matrix Fuse None Isolation method Photocoupler isolation Dissipating current 125mA (5V DC) 1500V AC for one...
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A2-82 Front View Internal Circuit Configuration F3YD64-1M 12 / 24V DC OUT 8 • • • • OUT 2 Interface YD64-1M DC OUT OUT 1 DISPLAY DAT A 8 DAT A 7 • • • DAT A 1 Display selector FA020587.VSD ...
A2-83 (30) F3WD64-3P/F3WD64-4P Input/Output Modules (with short-circuit protector) Input Block Item F3WD64-3P F3WD64-4P Input type DC voltage Number of points 32 (terminal Nos. 01 - 32) Common line type 8 points/common Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for external Withstanding voltage connection and the internal circuit Rated input voltage...
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A2-84 If an inductive load, such as a relay, is to be connected, a surge protector is also required on the load side. Connect a surge protector or a diode across the load nearby so that the module output terminal voltage will not exceed the specified operating load voltage range.
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A2-85 Front View F3WD64-4P F3WD64-3P WD64-4P DC I/O WD64-3P DC I/O DISPLAY DISPLAY FA020589_2.VSD Internal Circuit Configuration Voltage Regu lator - + ~ Over heat/over- curr ent prote ctor + - - + ~ Display selector FA020590_2.VSD IM 34M06C11-01E...
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A2-86 External Connection Diagram F3WD64-3P CN2 (Output block) CN1(Input block) COM8 COM6 COM4 COM2 + - - + + + - + + - COM3 COM1 COM7 COM5 + - - + + + - + + - FA020591_2.VSD Note: Viewed from the front side of the module.
A2-87 (31) F3WD64-3F/F3WD64-4F Input/Output Modules Input Block Specifications Item F3WD64-3F F3WD64-4F Input type DC voltage Number of points 32 (terminal Nos. 01 - 32) Common line type 8 points/common Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for Withstanding voltage external connection and the internal circuit Rated input voltage...
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A2-88 Output Block Specifications Item F3WD64-3F F3WD64-4F Output type Transistor contact (sink type) Number of points 32 (terminal Nos. 33 - 64) Common line type 8 points/common Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for Withstanding voltage external connection and the internal circuit Rated load voltage...
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A2-89 Front View F3WD64-4F F3WD64-3F WD64-3F DC I/O WD64-4F DC I/O DISPLAY DISPLAY FA020589.VSD Internal Circuit Configuration ~ ~ Disp lay selector FA020590.VSD IM 34M06C11-01E...
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A2-90 External Connection Diagram F3WD64-3F CN1 (input block) CN2 (output block) COM8 COM6 COM4 COM2 + - - + + + - + + - COM3 COM1 COM7 COM5 + - - + + + - + + - FA020591.VSD Note: Viewed from the front side of the module.
A2-91 (32) F3WD64-3N/F3WD64-4N Input/output Modules Input Block Specifications Item F3WD64-3N F3WD64-4N Input type DC voltage Number of points 32 (terminal Nos. 01 - 32) Common line type 8 points/common Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for Withstanding voltage external connection and the internal circuit Rated input voltage...
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A2-92 Output Block Specifications Item F3WD64-3N F3WD64-4N Output type Transistor contact (sink type) Number of points 32 (terminal Nos. 33 - 64) Common line type 8 points/common Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for Withstanding voltage external connection and the internal circuit Rated load voltage...
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A2-93 Front View F3WD64-4N F3WD64-3N WD64-3N DC I/O WD64-4N DC I/O DISPLAY DISPLAY FA020593.VSD Internal Circuit Configuration – – – Display selector FA020594.VSD IM 34M06C11-01E...
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A2-94 External Connection Diagram F3WD64-3N CN1 (Input block) CN2 (Output block) COM8 COM6 COM4 COM2 COM3 COM1 COM7 COM5 FA020595.VSD Note: Viewed from the front side of the module. F3WD64-4N CN1 (Input block) CN2 (Output block) COM8 COM6 COM2 COM4 COM3 COM1...
A2-95 A2.6 ROM Packs ROM packs can be installed in sequence CPU modules and BASIC CPU modules and used to store programs or data. You can write to a ROM pack from the programming tool. At CPU startup, programs and data are read from the ROM pack into the memory for execution.
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A2-96 Maximum Writing Operations and Weight RK10 RK30 RK50 RK33 RK53 RK73 RK93 Max. writing operations 10,000 times 100,000 times Weight Installing a ROM Pack Remove the side cover of the CPU module and attach the ROM pack to the internal connector.
A2-97 A2.7 Cables CAUTION Be sure to hold the cable’s connector when connecting or disconnecting the cable. The cable may break if you pull it forcibly while holding any part other than the connector or if you apply stress to the cable joint when the cable is bent at an angle of almost 90° from the connector.
A2-98 KM11-2T/KM11-3T/KM11-4T (for DOS/V (IBM PC/AT Compatibles)) External View Internal Connection To external equipment To CPU module Pin No. Signal name Signal name Pin No. To CPU To external equipment module 9-pin female D-sub SHIELD SHIELD FA020702.VSD Maximum number of Tolerance +e Tolerance –f insertions...
A2-99 (2) CPU Port/D-sub 9-pin Adapter Cable The CPU Port/D-sub 9-pin adapter cable is used to adapt the programming tool connector to a standard D-sub 9–pin female connector. An additional cable is required, however, for connecting a display unit. KM10-0C External View Internal Connection To external equipment...
A2-101 (4) Fiber-Optic Cord KM60 fiber-optic cord is used for wiring inside the panel enclosure on Fiber-optic FA link H modules, Fiber-optic FA-bus modules and Fiber-optic FA-bus type 2 modules. KM60 Note: There are two types of Fiber-optic Cord (KM60) with different optical connector. Type A is manufactured by SWCC Showa Cable Systems, and type B is manufactured by Sumitomo Electric Industries.
A2-102 (5) Fiber-optic Cables KM61, KM62, KM65, KM67 and KM69 fiber-optic cables are designed for use on Fiber- optic FA link H modules, Fiber-optic FA-bus modules and Fiber-optic FA-bus type 2 modules. KM61 and KM65 are used for indoor wiring whilst KM62 and KM67 are used for outdoor wiring.
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Pull rope Pulling eye Fiber-optic cable Anti-twist fitting (swivel) FA020710.VSD Note Use the specified fiber-optic cables to avoid problems, malfunctions or under- performance. KM6 cables cannot be used in submerged environments. Contact Yokogawa sales office for assistance. IM 34M06C11-01E...
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A2-104 Note Handle the fiber-optic cable very carefully since it may break readily if bent or tied like regular electrical cables. The cable is more likely to break at a point near the optical connector. For details on its installation, see the relevant instruction manual. Note - Before laying cables, customers should check the cables (immediately after delivery) for any defect.
A2-105 (6) Monitor Cables (for F3SP08-2□, -3□, and -5□) These cables are used to connect to the sequence CPU modules F3SP08-2□, -3□, and -5□ only. They are connected to the programming port labeled PROGRAMMER of the CPU module to provide for higher-level link (personal computer link) service. They cannot be used to provide connection for the FA-M3 programming tool WideField3.
A2-106 (7) Monitor Cables (for F3SP66-4S and F3SP67-6S) These cables are used to connect sequence CPU modules (F3SP66-4S and F3SP67- 6S) to a personal computer or a display unit for higher-level link (personal computer link) service. Connect the cable to the connector labeled SIO on the front of the F3SP66-4S or F3SP67-6S sequence CPU module.
A2-107 (8) SIO port/D-sub 9-pin Adaptor Cable (for F3SP66-4S and F3SP67-6S) KM10-0S The SIO port/D-sub 9-pin adapter cable adapts the SIO connector to the standard D-sub 9-pin female connector. An additional cable is necessary however to connect such equipment as a display unit. External View Internal Connection To e xterna l eq uipment...
A2-108 A2.8 Terminal Block Unit and Connector Terminal Block TA40-0N The TA40-0N terminal block unit is installed and used on I/O modules of connector specifications. Features - Allows 1:1 conversion of the connector of the I/O module to European type screw terminal.
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A2-109 Specifications Terminal Arrangement Item Specifications Number of I/O points Rated voltage 5 to 24V DC Operating 4.5 to 26.4V DC voltage range Maximum 0.5A DC/point current Compatible AWG28 to 23 cable (0.08 to 0.26mm Terminal block Slotted M2-size screw screw Mounting screw Slotted M2.6-size screw...
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A2-110 External Dimensions Unit: mm 75.4 11.8 61.4 FA020804.VSD CAUTION The correct tightening torque of the terminal block screws is 0.22 N m (1.9 lbf in). Use a • • screwdriver of the correct size; otherwise the screw head may be damaged. IM 34M06C11-01E...
A2-111 TA50-0N/TA50-1N/TA50-2N TA50-0N, TA50-1N and TA50-2N connector terminal blocks are designed for use with I/O modules of connector specifications. Features - Allows 1:1 expansion of the connector of the I/O module to screw terminal. - Connects to an I/O module using a dedicated connector terminal block KM55-0□□...
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A2-112 Operating Environment Specifications Item Specifications Operating :0 to 55°C Surrounding air temperature range Storage :-20°C to 75°C Operating :10 to 90% RH (non-condensing) Surrounding humidity range Storage :10 to 90% RH (non-condensing) Surrounding Must be free of corrosive gases, flammable gases or heavy dust.
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A2-113 TA50-1N Unit: mm Unit: mm 2-Ø4.5 × 5.6 141.6 oval holes Note: With a terminal cover Mounting dimension 141.6±1 FA020810.VSD TA50-2N Unit:mm Mounting Dimension FA0208101.vsd CAUTION The correct tightening torque of the terminal block screws is 0.8 N m (7.1 lbf in).
A2-114 TA60-0N The TA60-0N connector terminal block is designed for use with I/O modules of connector specifications. Features - Allows 1:1 expansion of the connector of the I/O module to European type screw terminal. - Using the European type terminal block eliminates the need for installing soldered and crimp-on terminals and end processing of I/O cables.
A2-116 A2.9 Module Current Consumption Tables Design your system making sure that the total sum of current consumed by modules with a 5V supply does not exceed the capacity of the internal 5V source of the power supply module. If necessary, separately procure an external power supply, which meets the specifications.
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A2-117 Power Supply Max. Current from External Sources Module Description Model at 5V Supply (mA) Voltage (VDC) Current (mA) F3SP76-7S ― ― Sequence CPU module F3FP36-3N ― ― F3BP20-0N ― ― BASIC CPU module F3BP30-0N ― ― I/O Modules Max.
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A2-118 Power Supply Max. Current from External Sources Module Description Model at 5V Supply (mA) Voltage (VDC) Current (mA) F3AD04-0N ― ― F3AD04-0R ― ― F3AD04-5R ― ― F3AD04-0V ― ― F3AD04-5V ― ― F3AD08-1N ― ― F3AD08-1R ― ― Analog input module F3AD08-4R ―...
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A2-119 Power Supply from Max. Current at Module Description Model External Sources 5V Supply (mA) Voltage (VDC) Current (mA) Fiber-optic FA link H module F3LP12-0N ― ― FA link H2 module F3LP32-0N ― ― F3LH02-0N ― ― YHLS master module F3LH01-1N ―...
A2-120 A2.10 External Power Supply Use an external power supply that meets the following requirements. Item Specifications 24V DC Output Voltage 5V DC 12V DC Ripple 240mV p-p max. 100mV p-p max. Noise 360mV p-p max. 150mV p-p max. Overcurrent Should be included protection Separated by reinforced insulation or double...
A2-121 A2.11 External Dimensions External View of the FA-M3 Controller (when F3BU06-0N Base Module is used) Unit : mm 88.8 : To obtain the depth including the base module, add 5.6 mm to the depth of the installed module. When mounting on the DIN rail, add another 6.5 mm.
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A2-122 Power Supply Modules Unit: mm F3PU20, F3PU26 F3PU01, F3PU10, F3PU16 83.2 28.9 83.2 FA021103.VSD F3PU30, F3PU36 (12.9) 83.2 FA021103_1.VSD IM 34M06C11-01E...
A3-1 Installation and Wiring A3.1 Environmental Conditions for Installation within a Panel Enclosure Refer to the following considerations when designing the interior of the panel enclosure to ensure operability, maintainability, and environmental durability. Figure A3.1 shows a typical example of a layout within a panel enclosure. ...
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A3-2 Atmospheric Considerations In a dusty location, either hermetically seal the panel enclosure, or purge the panel enclosure with clean air ensuring the interior of the panel enclosure is pressurized slightly higher than its surroundings to prevent the intrusion of outside dust. Duct for the Duct for the Duct for the...
A3-3 A3.2 Methods for Mounting the FA-M3 within a Panel Enclosure A3.2.1 Mounting Positions The FA-M3 module is designed with natural air cooling heat design considerations. Install the FA-M3, orientated so that the LED display is at the top and the air outlets are at the top and bottom.
A3-4 A3.2.2 Mounting Dimensions Screw Mounting Unit: mm (4.5) W2±0.5 85±0.5 W3±0.5 80 mi n. 95 mi n. W4±0.5 85±0.5 FA030202.VSD Mounting Width Full Width Base Module Model F3BU04-0N ― ― F3BU06-0N ― ― F3BU05-0D ― ― F3BU09-0N ― F3BU13-0N ― F3BU16-0N 517.3 Note: The FA-M3 does not come with the screws for mounting base modules.
A3-5 A3.2.3 Mounting on and Removing from a DIN Rail When mounting the FA-M3 on a DIN rail, attach a rail mount kit to the back of the controller. For the rail mount kit, purchase either Model T9031AP (for F3BU04, F3BU06 and F3BU05 base modules) or Model T9031AQ (for F3BU09 and F3BU13 base modules) separately.
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A3-6 Mounting on the DIN Rail Mount a base module on the DIN rail as follows. Note - Ensure that the base module is securely attached to the DIN rail. - Do not use the DIN rail to install the FA-M3 system in an environment where it would be subjected to excessive vibration, impact or mechanical load as it may fall off the DIN rail.
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A3-7 Removing the Rail Mount Kit Flat-blade screwdriver Removing latch (A) Release the latch on the front of the base module by hand and remove it. Removing latch (B) Insert a flat-blade screwdriver between the base module and Release the latch the latch and turn it slightly to remove the latch Viewed from the side...
A3-8 A3.2.4 Attaching/Detaching the Module Attaching the Module Figure A3.4 shows how to attach the module to the base module. First hook the anchor slot at the bottom of the module to be attached onto the anchor pin on the bottom of the base module.
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A3-9 Attaching the Module in Intense Vibration Environments If the module is used in intense vibration environments, fasten the module with a screw. Use screws of type listed in the table below. Insert these screws into the screw holes on top of the module and tighten them with a Phillips screwdriver.
A3-10 A3.2.5 Mounting Depth and Space - The depth of the installed module and the base module together is approximately 90mm. An additional length should be allowed for cable bending however, if any cable with connectors is attached to the controller. Module D (mm) d (mm)
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A3-11 In the case of Positioning module(with multi-channel pulse output) F3YP22-0P, F3YP24-0P, F3YP28-0P, this module requires space for the wiring of the connector for counters. D(mm) Min. space 100 min. FA030214.VSD Figuer A3.8 Mounting Space for Positioning module(with multi-channel pulse output) IM 34M06C11-01E...
A3-12 A3.3 System Design Considerations This section contains the considerations you should take into account when designing a system that incorporates the FA-M3. A3.3.1 Power Line Wiring and Emergency-stop Circuit The power lines can roughly be divided into three groups: one for motive-power equipment, one for control equipment except for the FA-M3 and one for the FA-M3 itself.
A3-13 A3.3.2 Grounding Lines When considering the grounding system in your panel enclosure, take into account the following: - To increase noise immunity, connect the signal ground (the GND terminal for the 5V output of the power supply module) to the metal chassis of the base module. This defines the signal ground as the point of reference potential.
A3-14 A3.3.3 Relay Circuits The input/output points of the FA-M3 are normally connected directly to external devices. Relays, however, should be placed between the input/output points of the controller and the external devices in the following cases: - The controller is far away from the external devices and is susceptible to noise interferences in the field.
A3-15 A3.3.5 Interlocking An interlock circuit is required when you handle particular outputs, such as those for the forward and reverse rotation of a motor that must not turn on at the same time. In such a case, installing an external interlock circuit allows one of the “b” contacts of the two relay coils to cut off the other when energized.
A3-16 A3.3.6 Measures against Power Failure The power supply block of the FA-M3 incorporates a built-in power sequence circuit which prevents the system from malfunctioning when a momentary power failure or voltage reduction occurs. This system has two modes of detecting power failures; one is the standard mode and the other is the immediate detection mode.
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A3-17 Standard Mode (common to all power supply modules) Momentary Power Failure Detection - System operation continues without interruption even if the power fails momentarily for no longer than 20ms (undetected momentary power failure). - If a power failure longer than 20ms occurs, the controller may or may not recognize a momentary power failure condition because an uncertainty is involved.
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A3-18 Immediate Detection Mode (when F3PU10-0N, F3PU10-0S, F3PU20-0N, F3PU20-0S, F3PU30-0N or F3PU30-0S is used) Momentary Power Failure Detection - System operation continues without interruption even if the power fails momentarily for no longer than 10ms (undetected momentary power failure). - If a power failure longer than 10ms and less than 25ms occurs, the controller may or may not recognize a momentary power failure condition because an uncertainty is involved.
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A3-19 Immediate Detection Mode (when F3PU16-0N, F3PU16-0S, F3PU26-0N, F3PU26-0S, F3PU36-0N or F3PU36-0S is used) Momentary Power Failure Detection - System operation continues without interruption even if the power fails momentarily for no longer than 2ms (undetected momentary power failure). - If a power failure longer than 2ms and less than 10ms occurs, the controller may or may not recognize a momentary power failure condition because an uncertainty is involved.
A3-20 A3.4 Noise Control Considerations Separating Cables from Motive-power Lines Route motive-power lines so that they are no closer than 20cm to the FA-M3 and all signal lines connected to the FA-M3. If this is not feasible, route the motive-power lines through a grounded metal conduit.
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A3-21 Protecting Special Modules against Noise - Analog and communication modules are designed to handle low-level or high-speed signals. Place the lines of these signals at a distance of more than 10cm away from other I/O signal lines and route them through separate cable ducts. - It is especially difficult to distinguish analog signals and noise and this will cause errors when an analog signal overlapped by noise is converted into a digital signal.
A3-22 A3.5 Wiring the Power Supply Module A3.5.1 Re-checking Specifications CAUTION - Re-check the I/O specifications for the power supply module. Specifically, note that connecting an AC power supply to a power supply module requiring DC input and connecting a 200-240V AC power supply to a power supply module requiring 100- 120V AC input will lead to machine failure.
A3-23 A3.5.3 Power Supply Wiring AC Power Supply Module Model Supply Voltage Allowable Range of Supply Voltage Change F3PU10-0N F3PU10-0S F3PU20-0N 100-240V AC 85 to 264V AC F3PU20-0S F3PU30-0N F3PU30-0S F3PU10-0N Isolation transformer (1:1) PU 10-0N POWER FAIL OUTPUT FAIL1 FAIL2 INPUT...
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A3-24 DC Power Supply Module Model Supply Voltage Allowable Range of Supply Voltage Change F3PU16-0N F3PU16-0S F3PU26-0N 24V DC 15.6 to 31.2V DC F3PU26-0S F3PU36-0N F3PU36-0S F3PU16-0N Noise filter PU 16-0N POWER FAIL OUTPUT FAIL1 FAIL2 INPUT 24VDC F3PU16-0N PU 16-0N POWER FAIL...
A3-25 A3.5.4 Grounding Procedure It is automatically brought into contact with the metal chassis of the base module when PU 10-0S POWER the FA-M3 is mounted onto the base module so it shares the same electric potential with the controller’s signal potential with the FAIL controller’s signal ground.
A3-26 A3.6 Wiring I/O Modules A3.6.1 Re-checking Specifications CAUTION - Re-check the I/O specifications for the input/output modules. Note that applying a voltage or current that exceeds the maximum permissible input voltage or current of an input module or a voltage or current that exceeds the maximum switching capacity of an output module will lead to machine failure, physical damage or fire hazard.
A3-27 A3.6.3 Terminal Blocks and Connectors Terminal Block The input/output modules for the FA-M3 use detachable terminal blocks. When removing the terminal block, loosen the mounting screws located on the top and bottom of the terminal block with a screwdriver as shown in the following figure. FA030602.VSD Figure A3.24 Installing and Removing a Terminal Block Connectors...
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A3-28 Input Connector COM4 (B18) COM2 (A18) 8-point input 8-point input signals for signals for COM2 COM4 COM3 (B9) COM1 (A9) Soldering side 24VDC – 8-point input 8-point input – signals for signals for COM1 COM3 Front view with soldered contacts FA030603.VSD The pin layout is the same for the connectors on the F3XD32-, F3XD64-, and F3WD64.
A3-29 A3.6.4 Connecting Input Devices Refer to this subsection when selecting or connecting the FA-M3 to input devices. Examples of Connection to DC Input Devices Dev ice with contact output DC input module Dev ice with NPN open collector output Sensor power supply Output DC input module Dev ice with NPN current output Const ant‐ ...
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A3-30 (3) Inductive Load Countermeasures If an inductive load is to be connected to the input block, connect a surge protector or a diode across the load nearby so that the module input voltage will not exceed the specified operating voltage range. ...
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A3-31 (4) Leakage Current Considerations There are cases in which a 2-wire sensor (proximity switch, photoelectric switch, etc.) or a limit switch with an LED indicator may cause faulty input signal generation or illumination due to leakage current. There is no problem if the leakage current is smaller than the “off current”...
A3-32 A3.6.5 Connecting Output Devices Observe the following precautions when connecting the FA-M3 to output devices. If an inductive load is to be connected to the output block, connect a surge protector or a diode across the load nearby so that the module output terminal voltage will not exceed the specified operating load voltage range.
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A3-33 Inrush Current Countermeasures When connecting an incandescent lamp or other load that generates large inrush current, it is necessary to take special caution to prevent fatal damage to the output elements. Examples of ways to suppress inrush currents are illustrated below. Examples ...
A3-34 A3.7 External Cable Routing Requirements It is especially desirable that the requirements given in this section be satisfied in the routing of the controller’s signal cables, power supply cables and power-motive cables of the devices. Isolating Cables When routing cables, segregate by at least 20cm cables that may become noise sources such as power-motive cables and power supply cables from signal cables that are susceptible to noise, as shown in figures A3.32 and A3.33.
A3-35 A3.8 Calculating Power Consumption Although the maximum power consumption is shown in item (1) "Common Specifications" in Section A2.1, “Specifications,” it actually differs depending on the number and types of modules installed. Calculate the power consumption according to the formulae shown below after reading Section A2.9, “Module Current Consumption Tables.”...
A3-36 A3.9 CE Marking Conformance About CE Marking CE Marking aims to integrate the safety regulations existing in countries within the EC community and ensure free circulation (movement) of products guaranteed to be safe. A manufacturer or importing agent is legally obligated to display a CE mark on a product circulated or marketed within the EC community showing conformity to the requirements of EU directives that are applicable to the product.
A3-37 A3.9.1 EMC Directive (1) Requirements of EMC Directive The EMC directive applies to equipment that may emit electromagnetic disturbances or equipment that may be damaged by electromagnetic disturbances. The EMC directive requires that the electromagnetic disturbances emitted by equipment to not exceed a tolerable level, and that equipment maintains a minimum level of immunity to electromagnetic disturbances.
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A3-38 Table A3.2 EMC Directive Applicable Standards (Immunity) Applicable Test Name/ Test Description Test Value <Performance Criterion > Standard Reference Standards Contact discharge 4kV EN 61326-1 Measures the Static electricity EN 61326-2-3 immunity to static (static electricity discharge to the panel discharge immunity EN61000-6-2 electricity discharge...
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A3-39 CAUTION This product is classified as Class A for use in industrial environments. If used in a residential environment, it may cause electromagnetic interference (EMI). In such situations, it is the user’s responsibility to adopt the necessary measures against EMI. (3) Installation Considerations From the safety viewpoint of the Low Voltage directive, this equipment should be installed within a panel enclosure.
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A3-40 Note Take the following corrective actions for problems encountered during the installation. - In case of noise leakage from the opening for the cable, wrap the cables using shield covers, shield tubes, conduit pipes, etc. to prevent noise leakage. Item Manufacturer Product...
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A3-41 Figure A3.37 Example of Installation Measures IM 34M06C11-01E...
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A3-42 (4) Considerations on Cable Routing Signal cables that are connected to the FA-M3 carry harmonic components. The signal cable acts like an antenna and emits these harmonic components as noise to the external space and at the same time receives the noise from the external space. Therefore, it is necessary to use shielded signal cables.
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A3-43 Note Adopt the following corrective actions if necessary when routing the cables. - Make the wiring cable as short as possible. This minimizes noise emission from the cable and noise receipt on the cable. - Fit a ferrite core around signal cables susceptible to noise to reduce the effect of the noise.
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A3-44 Route wires before and after the filter apart. Fitting ferrite cores on I/O cables is expected to improve EMC performance. Ferrite core, if fitted, should be near the opening of the panel enclosure. Noise filter Fit ferrite cores on power cables of YHLS slave units (TAH series), F3PU30-0S and F3PU36-0S.
A3-45 A3.9.2 Low Voltage Directive (1) Requirements of Low Voltage Directive The Low Voltage directive is applicable to equipment that operates with a rated voltage between 50 to 1000V AC or between 75 to 1500V DC. It requires equipment to be manufactured according to safety considerations and not pose risks of injury or death to personnel, livestock, or damage to property when used in applications for which they are designed.
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A3-46 (3) Installation Considerations - Use the FA-M3 in an Overvoltage Category II environment. Overvoltage categories are divided into 4 categories depending on the rate of attenuation of surge voltages induced by lightning. Figure A3.39 shows a conceptual diagram for the overvoltage categories. Stage light Switch Meter...
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A3-47 Pollution degree 4: The pollution generates persistent conductivity. - Install the FA-M3 in a metallic panel enclosure. - INDOOR USE ONLY - The FA-M3 must be installed in a metallic panel enclosure, because the FA-M3 is a open equipment. - Use a metallic panel enclosure which complies with the requirement of EN61010-1 and EN61010-2-201.(IK08 or more.) - Ground the panel enclosure and the metal plate.
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A3-48 (4) Precautions in the withstand voltage test CAUTION Figure A3.40 shows the insulation block diagram of FA-M3. - FA-M3 provides protection against electric shock from each hazardous voltage by both basic insulation and protective earth. - Apply the appropriate test voltage to the equipment incorporating the FA-M3 by referring to Fig.A3.40.
A4-1 Test Runs and Troubleshooting A4.1 Test Run Procedure Figure A4.1 shows the test run flowchart. Check the construction of the control panel and the FA-M3 Installation check ••• installation. Check the installation of the individual modules. Check cables to ensure that all cables are properly routed and Wiring check before power-on •••...
A4-2 A4.2 Test Run Precautions Attaching and Detaching Connectors and Modules Be sure to turn off the power before connecting or disconnecting connectors or modules. Removing or replacing connectors or modules with the power on may result in permanent damage to the device. ...
A4-3 A4.3 Self-diagnostic Functions A4.3.1 CPU Module Operation at Power-on Figure A4.2 shows the flowchart of CPU module operation at power-on time. Main CPU module Add-on CPU modules (installed in slot 1) (installed in slots 2-4) CPU module CPU module Initialize hardware Initialize hardware Self-diagnostics...
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A4-4 Main CPU module Add-on CPU modules (installed in slot 1) (installed in slots 2-4) CPU module CPU module Initialize hardware Initialize hardware Self-diagnostics Self-diagnostics RAM check Check the slot and Check I/O Initialize system number of the CPU and configuration tables expansion modules...
A4-5 A4.3.2 Fault Identification The FA-M3 provides means to quickly identify system faults as illustrated in the following figure. This fault identification system is easy to understand because it is hierarchically structured to facilitate fault analysis by checking for faults at each level. Means for fault identification Check for presence or absence of errors External alarms...
A4-6 A4.3.3 Indicating Problem Severity and Status of Output Module The FA-M3 indicates the presence or absence of failures by the LEDs in the upper section of the CPU module, classifying them into major, moderate and minor failures. Tables A4.1 to A4.3 summarize the failure severity levels and the status of the output module in each case.
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A4-7 Table A4.2 Failure Severity Levels and Status of Output Module (when the CPU module is F3SP22/28/38/53/58/59/66/67/71/76) Status of FAIL-signal Status of Output Module Contact Output Output modules Severity F3YD64-1A, Effect Probable Cause Between Between other than Level Indication F3YD64-1M, FAIL1 FAIL2 F3YD64-1A,...
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A4-8 Note - If you want to reset the contacts of an output module in the event of a major or moderate sequence CPU module failure, do the following: Use an output module with 32 or less points and set the Output When Stopped field under "Input/Output Setup"...
A4-9 A4.4 Troubleshooting Procedure If an error condition occurs, take note of the current situation and symptom, then troubleshoot the problem according to the flowchart shown in Figure A4.5 considering the relationship with the other devices and the reproducibility of the error condition. Start module RDY indicator lit?
A4-10 A4.5 CPU Module Reset and Memory Clearance (1) For the F3SP66, F3SP67, F3SP71 and F3SP76 Reset - Using the FA-M3 Programming Tool WideField3: Select [Online]–[Extended Functions]–[Reset Start] from the menu bar. F or details, refer to the FA-M3 Programming Tool WideField3 (IM 34M06Q16-E). The operations can also be carried out using the FA-M3 Programming Tool WideField2 for F3SP66-4S and F3SP67- - Using the smart access function: Execute the Press &...
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A4-11 (2) For the F3SP22, F3SP28, F3SP38, F3SP53, F3SP58 and F3SP59 Select [Online]–[Extended Functions] from the menu bar of the FA-M3 Programming Tool WideField, WideField2 or WideField3. F or details, refer to the FA-M3 Programming Tool WideField (IM 34M06Q14-01E), the FA-M3 Programming Tool WideField2 (IM 34M06Q15-01E) or the FA-M3 Programming Tool WideField3 (IM 34M06Q16-E).
A5-1 Maintenance and Inspection A5.1 Replacing Modules Spare Modules Always have spare modules on hand for immediate countermeasures against failures in the FA-M3. Procedure for Replacing a Module Be sure to turn off the power before replacing any module. When replacing a module, do not change the type and location of the module.
A5-2 A5.2 Routine Inspection Routine inspection comprises the minimum level of checks used to determine whether any fault might occur in the day’s operation. Observing these procedures properly will enable you to maintain stable FA-M3 operation. Category Check item Criterion F3PU10-0N F3PU10-0S F3PU20-0N...
Appx. A1-1 Appendix A1 System-wide Restrictions on Module Installation Restrictions on module installation include a limitation on the number of modules that can be installed in the system as a whole, in addition to a limitation on the number of respective CPU and I/O modules that can be installed.
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Appx. A1-2 Refer to Appendix Tables A1.1 and A1.2 when checking each of the restrictions. Appendix Table A1.1 Number of Slots Occupied and Number of I/O Points Supported by Each CPU Module Number of Slots Number of I/O Points Module Description Model Occupied Supported...
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Appx. A1-3 Appendix Table A1.2 Number of Slots Occupied and Number of I/O Points Supported by Each I/O Module and its Function Specifications (1/2) Number of I/O Number of Size of Size of Basic Module Description Model Points Slots ccupied Data Area CPU’s Work Area Supported...
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Appx. A1-4 Appendix Table A1.2 Number of Slots Occupied and Number of I/O Points Supported by Each I/O Module and its Function Specifications (2/2) Number of Number of Size of Basic Size of Module Description Model Slots I/O Points CPU’s Work Data Area Occupied Supported...
Appx. A1-5 Appendix A1.2 Restrictions due to the Number of Slots Determine the total sum W of slots occupied by all modules excluding the power supply, fiber-optic FA-bus, fiber-optic FA-bus type 2, and FA-bus type 2 modules. Then check that the value of W complies with restrictions placed by the maximum number of slots. The maximum number of slots varies depending on the types of CPU modules used and their combinations.
Appx. A1-6 Appendix A1.3 Restrictions due to the Size of Data Area Determine the total size M of the data area provided by all I/O modules (i.e., modules excluding the power supply and CPU modules). Then check that the value of M complies with restrictions placed by the maximum size of data area.
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Appx. A1-7 Example: If the system is configured with the following modules, the total size of data area M is 56. F F F F F F F F F F F F F 3 3 3 3 3 3 3 ...
Appx. A1-8 Appendix A1.4 Restrictions due to Type of CPU Module Appendix A1.4.1 For Sequence CPU Module Type Determine the total sum R of I/O points provided by I/O modules allocated to the sequence CPU module. Then check that the value of R complies with restrictions placed by the maximum number of I/O points.
Appx. A1-9 Appendix A1.4.2 For BASIC CPU Module Type Determine the total sum D of work areas provided by I/O modules for the BASIC CPU module to which the I/O modules are allocated. Then check that the value of D complies with restrictions due to the size of the BASIC CPU’s work area.
About a module that isn't shown in the tables below or that has option code /C□□ or /Z□□, contact your local Yokogawa sales personnel. This information is based on March 31 2020. The latest information is available from YOKOGAWA Pertner Portal site on “■ User’s Manuals and Approved / Compliant modules”.
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Appx. A2-2 Base Conformity Standard Name Model Related Manuals Remarks F3BU04-0N ✓ ✓ ✓ ✓ ✓ F3BU05-0D ✓ ✓ ✓ ✓ ✓ F3BU06-0N ✓ ✓ ✓ ✓ ✓ Base IM 34M06C11-01E F3BU09-0N ✓ ✓ ✓ ✓ ✓ F3BU13-0N ✓ ✓...
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Appx. A2-3 Memory Conformity Standard Name Model Related Manuals Remarks RK10-0N ✓ RK30-0N ✓ RK33-0N ✓ ✓ ✓ ROM pack IM 34M06C11-01E RK53-0N ✓ RK73-0N ✓ RK93-0N ✓ Utility Conformity Standard Name Model Related Manuals Remarks F3UM11-0N ✓ ✓...
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Appx. A2-4 Conformity Standard Name Model Related Manuals Remarks F3WD32-3F IM 34M06C11-01E ✓ ✓ ✓ ✓ ✓ F3WD64-3E Contact us ✓ ✓ ✓ Input/Output F3WD64-3P IM 34M06C11-01E ✓ ✓ ✓ ✓ ✓ F3WD64-3R Contact us ✓ ✓ ✓ ✓ F3WD64-4P IM 34M06C11-01E ✓...
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Appx. A2-5 Conformity Standard Name Model Related Manuals Remarks F3LC11-1F ✓ ✓ ✓ ✓ ✓ Personal computer link F3LC11-2F IM 34M06H41-02E ✓ ✓ ✓ ✓ ✓ F3LC12-1F ✓ ✓ ✓ ✓ ✓ F3RZ81-0F ✓ ✓ ✓ ✓ ✓ Ladder communication F3RZ82-0F IM 34M06H22-02E ✓...
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Appx. A2-6 Other module Conformity Standard Name Model Related Manuals Remarks F3BR01-0N F3BU09-9N F3BU09-9S F3LR02-9N Other Contact us F3PB01-0N F3PU30-9S F3PU38-9N F3SP69-9S Peripheral Devices Conformity Standard Name Model Related Manuals Remarks TAHWD32-3NBM ✓ ✓ ✓ ✓ ✓ TAHWD32-3PAM ✓...
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Appx. A2-7 Related Manuals Conformity Standard Name Model Remarks KM62-010 ✓ KM62-015 ✓ KM62-020 ✓ KM62-025 ✓ KM62-030 ✓ KM62-040 ✓ KM62-050 ✓ KM62-060 ✓ KM62-070 ✓ KM62-080 ✓ KM62-090 IM 34M06C11-01E ✓ KM62-100 ✓ KM65-001 ✓ KM65-003 ✓ KM65-005 ✓...
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Some special modules have Option code shown below in SUFFIX on its module name plate. The model that has option code /NR is non-RoHS, non-CE compliant module. About the model that has option code /C□□ or /Z□□, contact your local Yokogawa sales personnel. Other option codes does not affect the status of conformity.
B1-1 System Configuration B1.1 System Configuration Basic Configuration The FA-M3 Value version (F3SC21-1N) consists of the following components. - F3BU04-0N base module - F3SP05-0P sequence CPU module with a power supply and memory - F3WD64-3N I/O module Should the FA-M3 Value version fail, it can be fixed by replacing the failed module only. Install the F3SP05-0P sequence CPU module in the leftmost slot of the F3BU04-0N base module and the F3WD64-3N I/O module in slot 2.
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B1-2 Note ■ Example of increasing the number of I/O points using FA-bus type 2 modules As with fiber-optic FA-bus type 2 modules, the number of I/O points can be increased using FA-bus type 2 modules. FA-bus type 2 modules use shielded twisted-pair cables for the connection between subunits.
B1-3 B1.2 Restrictions on Module Installation B1.2.1 Restrictions on Module Location In the case of the F3SC21-1N, install the F3SP05-0P in slot 1 and the F3WD64-3N in slot 2. The remaining slots 3 and 4 are reserved for a variety of I/O modules available for use with the FA-M3 series.
B1-4 B1.3 Peripheral Tools Supporting the Program Development of FA-M3 You can conveniently create and debug your programs on your personal computer. - FA-M3 Programming Tool WideField3 or WideField2 - FA-M3 ToolBox FA-M3 - BASIC Programming Tool M3 for Windows CD-ROM Ethernet, cable for programming tools (RS-232-C), Personal...
B2-1 Specifications and Configuration B2.1 Specifications Common Specifications Item Specifications Supply voltage range 100 to 240V AC, single phase 50/60Hz Range of supply voltage change 85 to 264V AC, 50/60Hz ± 3Hz Power consumption 35VA 5MΩ min. when tested between a group of external AC terminals and the FG terminal using a 500V DC insulation resistance tester Insulation resistance 5MΩ...
B2-2 Model and Specification Code Basic Style Specification Model Remarks Specification Code Code Code Suffix FA-M3 Value F3SC21 …… …… (with base, power supply, sequence CPU, DI/O (F3WD64-3N) modules installed) Note: F3SC21-1N is no longer available. B2.2 System Configuration B2.2.1 Components The FA-M3 Value version (F3SC21-1N) consists of the following components.
B2-3 B2.3 Sequence CPU Module B2.3.1 Overview The F3SP05-0P sequence CPU module with a power supply and memory contains a power supply equivalent to the F3PU10-0N power supply module. This section explains the specifications of this built-in power supply block. Details on the sequence CPU block are explained in the "Sequence CPU –...
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B2-4 Components and Their Functions Figure B2.1 shows the power supply block of the F3SP05-0P with its cover removed. Lit when the power RDY indicator (green) CPU module supply module is normal. operation status indicators FAIL signal contact output SP05-0P Contact ratings: 24V DC, 0.3A System Failure and...
B2-5 WARNING To avoid electrical shock, turn off the power before wiring. Note LG terminal has a half potential of the input power supply voltage when LG terminal isn’t connected to earth appropriately. B2.3.3 External Dimensions Unit:mm F3SP05-0P 83.2 FB020303.VSD IM 34M06C11-01E...
C1-1 System Configuration C1.1 System Configuration Basic Configuration The FA-M3 Value II (F3SC22-□□, F3SC23-□□) consists of the following components. See Figure C1.1 for the available models with their respective module configurations. F3BU04-0N base module F3SP08-0P sequence CPU module with power supply (with M3.5 screws) and memory F3SP08-SP sequence CPU module with power supply (with M4 screws) and memory...
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C1-2 Concept of Unit Main Unit A unit in which the F3SP08-0P or F3SP08-SP sequence CPU module is installed is referred to as a main unit. Consequently, the F3SC22-□□ or F3SC23- □□ itself serves as the main unit. ...
C1-3 C1.2 Restrictions on Module Installation C1.2.1 Restrictions on Module Location Install the F3SP08-0P sequence CPU in slot 1 for the F3SC22-□□, and install the F3SP08-SP sequence CPU module in slot 1 for the F3SC23-□□. Install the other specified component modules in slot 2 (or slots 2 and 3). You may install FA-M3 I/O modules in the remaining slots.
C1-4 C1.3 Peripheral Tools Supporting the Program Development of FA-M3 You can conveniently create and debug your programs on your personal computer. - FA-M3 Programming Tool WideField3 or WideField2 - FA-M3 ToolBox FA-M3 - BASIC Programming Tool M3 for Windows CD-ROM Ethernet, cable for programming tools (RS-232-C), Personal...
C2-1 Specifications and Configuration C2.1 Specifications Common Specifications Item Specifications Supply voltage range 100 to 240V AC, single phase 50/60Hz Range of supply voltage change 85 to 264V AC, 50/60Hz ± 3Hz Power consumption 35VA 5MΩ min. when tested between a group of external AC terminals and the FG terminal using a 500V DC insulation resistance tester Insulation resistance 5MΩ...
C2-3 C2.3 Sequence CPU Module C2.3.1 Overview The F3SP08-0P (or F3SP08-SP) sequence CPU module with a power supply and memory contains a power supply equivalent to the F3PU10-0N (or F3PU10-0S) power supply module. This section explains the specifications of this built-in power supply block.
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C2-4 Components and Their Functions Figure C2.1 shows the power supply block of the F3SP08-0P with its cover removed. Figure C2.1 F3SP08-0P and F3SP08-SP Sequence CPU Module Terminal dimensions (all values in mm) F3SP08-0P F3SP08-SP M3.5 7.1mm 7.1mm 8.2mm 8.2mm ...
C2-5 Note LG terminal has a half potential of the input power supply voltage when LG terminal isn’t connected to earth appropriately. C2.3.3 External Dimensions Unit: mm F3SP08-0P/ F3SP08-SP 83.2 FC020303.VSD Note - F3SP08-0P and F3SP08-SP have exactly the same dimensions, internal circuitry and other characteristics, except that F3SP08-0P uses M3.5-screw terminals while F3SP08-SP uses M4-screw terminals.
C2-6 C2.4 F3WD32-3F Input/Output Module Input Block Specifications Item F3WD32-3F Input type DC voltage Number of points Common line type 8 points/common Isolation method Photocoupler isolation 1500V AC for one minute between the group of terminals for Withstanding voltage external connection and the internal circuit Rated input voltage 24V DC...
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C2-7 Output Block Specifications Item F3WD32-3F Output type Transistor contact (sink type) Number of points Common line type 8 points/common Isolation method Photocoupler isolation 24V DC Rated load voltage (20.4 to 26.4V DC) (Operating load voltage range) ─── Maximum load current 0.1A/point, 0.4A/common line OFF→ON 1ms max.
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C2-8 Front View F3WD32-3F WD32-3F DC I/O FC020304.VSD Input/Output Module Internal Circuit Configuration External Connection Diagram COM3 COM4 COM2 COM1 FC020305.VSD Note: Viewed from the front side of the module. FC020306.vsd IM 34M06C11-01E...
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C2-9 Operating Environment This module can be used with the following CPU modules. - F3SP08-0P - F3SP08-SP Model and Specification Code Basic Style Specification Model Specification Remarks Code Code Suffix Code …… …… F3WD32 24V DC Input/Output External Dimensions Unit:mm 83.2...
Rev-1 Revision Information Title : Hardware Manual Document No. : IM 34M06C11-01E Nov. 2020 / 40th Edition Correction of errors. Appx.A2 Update. Nov. 2019 / 39th Edition Addition of modules. Appx.A2 Update. Aug. 2019 / 38th Edition Addition of modules. Appx.A2 Update. Mar.
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Rev-2 Oct. 2013 / 23rd Edition Ed.3, Addition of modules Jan. 2012 / 22nd Edition Addition of modules. Correction of errors. Oct. 2010 / 21st Edition UL compliance. Terminology change. Incorporation of addendum contents. Oct. 2009 / 20th Edition CE compliance. Incorporation of addendum contents. Apr.
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New publication ■For Questions and More Information If you have any questions, you can send an E-mail to the following address. E-mail: plc_message@cs.jp.yokogawa.com ■Written by Yokogawa Electric Corporation ■Published by Yokogawa Electric Corporation 2-9-32 Nakacho, Musashino-shi, Tokyo, 180-8750, JAPAN IM 34M06C11-01E...
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