FX1N. The manual
Contents
1. 3 1 0 3 2 9 2 u ferto dee t ede ine Seep ad 3 4 9 9 General Specificalions4 aree o educ Mes qubd 3 5 3 4 PLC Mounting Arrangements e bs vt oca ero bie rigen 3 7 5 DIN Frail 1652 eot u lus 3 10 26 Direct MOUNINO 3 10 3 7 Termination at Screw 3 14 3 8 81 12 11 6 UNIS uuu ul luu 3 16 Expansion Boards EE a 3 16 3 8 2 FX41iN 5DM 5 eere teeth dent 3 18 3 8 8 Extension I O module and Special Function module 3 19 4 Power Supplyuuu EU 4 1 WIIG E Ri 4 1 42 Gallos tacite I kanta iom Rae zas 4 1 43 Power Supply uu LIO 4 2 4 4 Power Requirements roi iii 4 3 4 5 Example sais FERE 4 4 AG POWer SUDDIV 4 4 4 5 2 24V Power supply uuu eee 4 6 45 3 12V Pow r Supply ua al u An Lon aoc cxt Montt caa e ra DI 4 8 46 Seivice P2. 24V Y X Rb S S OV MITSUBISHI 5 4 Series Programmable Controllers Inputs 5 5 2 AC110V Input Extension Block Input voltage 85 132V 50 6 2 Input impedance 21kQ 50HZ 18 60 2 4 7mA 100V AC 50Hz 6 2mA 110V AC 60Hz OFF ON ON gt OFF input switching current 80V 3 8mA 30V 1 7 Circuit isolation Operation indication Photocoupler LED is lit 5 2 1 Input Circuit Connection FXon 8EX UA1 UL FX2n 8EX UA1 UL 85 132 V AC 50 60 Hz COM1 MITSUBISHI 5 5 Series Programmable Controllers Inputs 5 5 2 2 Programming Caution When using 110V AC units high speed counter and interrupt routines are not suitable for use due to the long ON OFF times The following instructions are also not suitable FNC 52 MTR FNC 56 SPD FNC 72 DSW MITSUBISHI 5 6 Series Programmable Controllers 6 6 Outputs 6 1 Output Specifications Relay Output lt 240 Switched voltages resistive load 30V DC 5 30V DC Rated current N points resistive 2A 1 point 0 5A 1 point load 8A COM 0 8A COM Max Inductive load 80VA 120 240V AC 12W 24V DC When supply voltage lt 5V allow at least 2mA flow 0 2ms OFF gt ON 10ms approx 60000 Open creut curenta
3. MITSUBISHI 6 3 Series Programmable Controllers 6 6 3 Transistor Output Example 6 3 1 Transistor Output Writing Diagram Source Type Y WEE e RUI VO Y000 V1 Y001 V2 Y002 V3 Y003 Y004 Y005 11111 mae cu A 100 e op 1 i MC1 olo TT 3 6 3 2 Japanese Model Transistor Output SInk Type COMO Y000 COM1 001 COM2 002 Y003 004 Y005 i 1 O ex LO MC1 e e L TI Do use this terminal Emergency Stop External Mechanical Interlock See Section 6 4 Incandescent Incandescent Lamp Reverse current protection diode Inductive load Ur D lt s e MITSUBISHI 6 4 Series Programmable Controllers 6 6 3 3 Response Times OFF times increase as the load current decreases For improved response times use resistor see the figure below If a response time of 0 5 ms or better is required when using light loads use a dummy resistor and ensure the signal line has a current greater than 60mA 24V DC 60 to 200mA 000 001 high s
4. Series Programmable Controllers Power Supply 4 4 5 3 12V DC Power Supply iov po 9 O wc 109 tas i 87123 24 OV 5 5 RSA tice Extension Extension Y Y Input Output DC DC 24 24 Block Converter DC Power supply 24V DC 10 15 Circuit protector or Fuse Emergency stop Power ON pilot indicator 9 p 0 9 Power supply for loads Power Supply for the input circuitry of the main unit and extension blocks that are connected When using a 12V DC power supply extension blocks occupying up to 32 I O points are connected Grounding resistor 1000 or less MITSUBISHI 4 8 Series Programmable Controllers Power Supply 4 4 6 Service Power supply An AC powered FX1N can supply a service current of 24V DC at 400mA when used on its own and when used with extension or special function blocks A DC powered FXin does not have the capacity to supply a service current However Additional extension blocks can be powered from the main units power supply 4 7 Earthing Grounding Use a cable at least 0 2mm AWG24 to ground equipment Ground resistance must be less than 100 Note that the ground cable must not be connected to the same ground as the power cir
5. 19 10 76 700 28 74 2 92 MITSUBISHI 3 12 Series Programmable Controllers Installation Notes 3 Table 3 3 Hole positions inches UNIT 0 2 0 01 G W 10mm 0 40 0 40 u 4 5mm 0 17 87 3 43 90 3 55 80 3 15 FXov 16CCL M n MITSUBISHI 3 13 Series Programmable Controllers Installation Notes 3 3 7 Termination at Screw Terminals Terminal screws should be tightened to between 0 5 to 0 8 N m Terminal screws must be secured to prevent a loose connection thus avoiding a malfunction The terminal screws for the FX1N FXoN FX2N Series PLCs are M3 0 However the terminal screws for the FXoN 32NT DP and Terminal Blocks are M3 5 The crimp style terminal see Figure 3 3 3 4 3 6 and 3 7 is suitable for use with these screws and should be fitted to the cable for wiring When installing 1 or 2 crimp terminals to a terminal see explanation Figure 3 5 and 3 8 However 3 crimp terminals or more should not be installed to a single terminal 1 Handle the crimp terminal of the following size when 1 wire is used per terminal Refer to Figure 3 5 for installation instructions Figure 3 3 Crimp Terminal for M3 5 Screws I 3 7 0 15 3 7 0 15 or less cm or less Figure 3 4
6. r E r gt lt gt lt cO gt lt gt lt LO LO gt lt lt gt lt lt gt lt gt lt gt gt gt lt gt lt T gt lt gt lt LL gt lt co gt lt gt lt 2 7 MITSUBISHI Terminal layouts 2 Y0 Y2 YA Y2 Y4 v0 Y1 Y3 Y5 Y6 Y7 YO Y1 Y3 Y5 Y7 FX2N 16EYT ESS UL Y0 Y2 YA 2 Y4 1 Y6 7 YO Y1 Y3 Y5 Y7 FX2N 16EYR ES UL X0 X2 X4 21 4 6 s SX1 3 5 X6 7 X1 5 X7 FX2N 16EX ES UL 2 8 FX1N Series Programmable Controllers FX2N Extension blocks 2 4 MITSUBISHI Series Programmable Controllers Installation Notes 3 3 Installation Notes The installation of FX1N products has been designed to be safe and easy When the products associated with this manual are used as a system or individually they must be installed in a suitable enclosure The enclosure should be selected and installed in accordance to the local and national standards MITSUBISHI 3 1 Series Programmable Controllers Installation Notes 3 3 1 Product Outl
7. FXiN 60MR ES UL OV YO Y1 Y2 Y4 Y6 e Y101Y12 14 Y16 20 22 Y24 26 24V coMo cOM1 cOM2 Y5 Y7 4 Y11 Y13 COM5 15 17 6 21 23 COM7 Y25 27 s s 1 X3 X5 X11 X13 X15 17 21 X23 X25 X27 X31 X33 X35 X37 41 L N x2 X6 10 X12 14 X16 X20 X22 X24 X26 X30 X32 X34 X36 X40 X42 FX1N 60MT ESS UL OV Yo Yi 2 Ye Mio Mz Ivive v2o vz2 241 26 24 11 Y13 V5 Y15 Y17 6 Y21 23 7 Y25 Y27 MITSUBISHI 2 3 Series Programmable Controllers Terminal layouts 2 2 2 DC Powered Main Units SS X1 5 7 5 5 X1 X5 X7 X11 X13 X15 XO 2 4 X6 2 X4 X6 X10 X12 X14 FX1N 14MR DS FX1N 24MR DS OV 0V 149 Y5 Yo 10 24V 0 1 1 2 1 3 4 5 24V 0
8. Y17 MITSUBISHI 2 5 Series Programmable Controllers Terminal layouts 2 S S X1 X3 X5 7 11 13 15 17 X21 23 25 X27 X31 X33 X35 X37 X41 X43 X2 X4 6 10 X12 X14 X16 20 22 24 26 X30 X32 X34 X36 X40 X42 FX1N 60MR DS 1 2 e YA 6 10 12 14 Y16 20 22 24 26 24V 1 2 Y5 Y7 0 4 Y11 13 5 15 Y17 21 Y23 Y25 Y27 S S XI X3 X5 X7 11 X13 X15 X17 X21 X23 X25 X27 X31 X33 X35 X37 X41 X43 XO X2 X4 X6 10 X12 X14 X16 X20 X22 X24 X26 X30 X32 X34 X36 X40 X42 FX1N 60MT DSS YO 1 Y2 4 Y10 Y12 14 16 Y20 Y22 24 26 24V 0 1 2 V3 YS 4 11 13 5 Y15 17 6 Y21 Y23 7 Y25 Y27 MITSUBISHI 2 6 Terminal layouts 2 Series
9. FXt1N Series be expanded as follows when used independently 2 special function blocks 1 special function block and up to 16 I O points Up to 32 I O points It can also be expanded to 4 special function blocks when used in conjunction with an FXoN extension unit 2 2 An AC powered FX1N be expanded by 8 special function blocks when used in conjunction with an FX2N extension unit 2 6 X000 X043 X050 X057 O 2 5 ER O 55 E 1515158 6 7 000 027 X060 X067 FXon 232ADP FX1N 60MR ES UL FXoN 16EX ES UL X070 X117 To 7 DE Y030 Y047 FXoN 40ER ES UL FXoN 8EYR ES UL e FXin series PLC cannot connect together with FX2n 32ASI M and FX2N 16CCL M An FX2n 32ASI M module cannot be attached to an FXin series PLC that is using an FX2N 16CCL M module Only FX2n 32ASI M module can connected to the PLC If connecting two or more FX2N 16CCL M the first master module can connect to the remote O modules and remote device modules but subsequent modules only connect to remote device modules MITSUBISHI Series Programmable Controllers Introduction 1 DC powered main unit is used with a power supply of less tha
10. Remedy Power OFF Disconnect earth ground terminal Power ON Remedy Possible program scan time error Check D8012 for program scan time units 0 2 ms must be less than 0 2 s i e data value lt 2000 Remedy Has the memory cassette been Reset PLC LED OFF installed or removed while the units Power Possible has still been powered results and trigger LED is lit RUN input Check for programming error Ensure the earth Possible ground cable is correctly rewired results M C PC M C 1 v Possible results D8012 D8000 MITSUBISHI 7 2 Series Programmable Controllers Diagnostics 7 7 3 Common Errors Corroded contact points at some point in line An device has been used outside its specified operating range An input signal occurs in a shorter time period that taken by one program scan 7 4 Maintenance Check interior temperature of the panel Check panel air filters if fitted Check for loosening of terminals or mounting facilities due to vibration MITSUBISHI 7 3 Series Programmable Controllers Diagnostics 7 7 5 Operation and Error Flags ref 8004 ON when M8060 7 are ON ref D8061 s Constant scan mode Program circuit error ref D8039 ref D8066 D8069 g M8067 Program execution error ref 08067 08069 99 8068
11. 1 2 1 Y4 coM4 Y7 11 S S X1 X5 X7 S S X1 X5 X7 11 X13 15 X0 X2 X4 X6 gt X X2 XA X6 X10 X12 X14 FX1N 1AMT DSS FX1N 24MT DSS 0V Y5 Y6 Y10 24V vo v2 v3 V4 V5 24V ol E E ET YA V4 11 MITSUBISHI 2 4 Series Programmable Controllers Terminal layouts 2 5 1 X3 5 7 11 X13 15 17 21 23 25 27 XO X2 X4 X6 X10 X12 X14 X16 X20 X22 X24 X26 FX1N 40MR DS OV YO Y1 Y2 24V 0 1 2 coms Y4 Y10 Y5 Y7 COM4 Y11 12 Y14 13 5 15 16 17 5 1 5 7 11 13 15 17 21 23 25 27 5 X0 X2 X4 X6 X10 12 14 16 X20 X22 X24 X26 FX1N 40MT DSS Y2 YO Y1 24V VO V1 V2 V3 Y4 Y10 Y12 Y6 Y5 Y7 V4 Y11 Y14 Y16 13 v5 Y15
12. 16 Relay 1 58 3 55 3 43 0 66 FX2N 16EYT ESS UL E MITSUBISHI 1 4 Series Programmable Controllers Introduction 1 Table 1 4 Special function blocks DIMENSIONS MASS WEIGHT DESCRIPTION mm inches kg Ibs Analog Digital converter 43 1 70 Analog Digital converter 55 2 17 Digital to analog converter 43 1 70 Analog to digital converter Digital to analog converter Analog to digital converter 2 17 2 4 100 probe interface FX2N AAD TC Thermo couple interface FX2N 8AD Analog input interface 90 MELSEC LINK FX2N 16LNK M Remote I O system master FX2N 16CCL M CC Link master 43 1 70 FX2N 32CCL CC Link interface FX2N 64CL M CC Link LT master Fx N S2ASL M 237 2 96 3 55 75 3 55 0 2 0 44 8 0 3 0 66 3 5 7 3 43 0 5 1 1 87 49 0 2 0 44 0 15 0 33 0 2 0 44 MITSUBISHI 1 5 Series Programmable Controllers Introduction 1 Table 1 5 Expansion Board and Communication Adapter MODEL DESCRIPTION MASS WEIGHT kg Ibs 1 The communication adapter needs to connect an FX1N CNV BD to the FX1N Series PLC MITSUBISHI 1 6 Series Programmable Controllers Introduction 1 1 1 World Specification Table 1 6 World Specification Input World spec models SINK SOU
13. MITSUBISHI 3 3 Series Programmable Controllers Installation Notes 3 3 2 FXiN RUN STOP Control RUN or STOP of the FX1N can be controlled by The RUN STOP switch mounted next to the programming port standard input XO to X17 defined by the system parameters Remotely from a personal computer or other programming peripheral Note The RUN STOP switch works in parallel with the RUN input terminal Please refer to the table below During remote operation the FX1n RUN STOP status is determined by the most recently operated control E g If the RUN STOP switch is in RUN and a remote STOP is made from a personal computer the RUN STOP switch must be switched to STOP then back to RUN to switch the MPU back to RUN mode Figure 3 2 RUN input terminal Table 3 2 RUN STOP selection RUN STOP RUNINPUT FXiN MPU SWITCH TERMINAL STATUS RUN S S OV 24V MITSUBISHI 3 4 Series Programmable Controllers Installation Notes 3 3 3 General Specifications Operating Temperature Storage Temperature Operating Humidity storage Humidity Vibration Resistance Direct Mounting Vibration Resistance DIN rail Mounting Shock Resistance Noise Immunity Dielectric Withstand Voltage Insulation Resistance Certification EC Directive 0 to 55 C 32 to 131 F 20 to 70 C 4 to 158 F 35
14. 246 to 250 5 points all counters latched EEPROM Max 6 points b acked up If high speed counter is used with the HSCS or HSCR instruction a combined counting frequency of 2 or less backed up 1 phase A B phase C251 to C255 5 points MITSUBISHI 712 Series Programmable Controllers Diagnostics 7 PASE S e Ue Va D0 to D127 General 128 points Type 16 bit data storage register pair for 32 bit device D128 to D7999 Latched 7872 points EEPROM keep D128 to D255 EEPROM EEPROM keep 128 points Capacitor keep D255 to D7999 backed up Capacitor keep 7744 points Type 16 bit data storage register pair for 32 bit device Data D1000 to D7999 set by parameter in registers D Maximum 7000 points 14 blocks of 500 program steps Type 16 bit data storage register D8030 amp D8031 Data is entered indirectly through the external setting potentiometer EN 256 points From the range D8000 to D8255 p inclusive of D8030 and D8031 Type 16 bit data storage register V and Z For use with CALL 128 points PO to P127 Pointers P Externally 2 points adjusted Range 0 to 255 1004 to 1504 6 points rising trigger 1 falling trigger 1 0 For use with interrupts 8 points for use with MC and MCR to N7 MITSUBISHI 7 13 Series Programmable Controllers Diagnostics 7 16 bit 32 768 to 32 767 32 bit 2 147
15. ref 08068 Execution error latch MITSUBISHI 7 4 Series Programmable Controllers Diagnostics 7 7 6 PLC Status Registers D8000 default 200ms Watchdog timer 26100 FX iN Version 1 00 26 FX 1n 100 Version 1 00 Memory capacity 0008 8K steps D8003 Memory type 02H EEPROM protect switch OFF OAHZEEPROM protect switch ON 10HzMPU memory D8004 Error flag number 8060 8060 8060 8068 MITSUBISHI 7 5 Series Programmable Controllers Diagnostics 7 7 7 Error Registers D8061 Error code for PLC hardware error D8063 Error code for parallel link fault D8064 Parameter error code D8065 Syntax error code D8066 Program circuit error code D8068 Latched step number of execution error D8069 Step number of errors associated with error flags M8065 M8067 MITSUBISHI 7 6 Series Programmable Controllers Diagnostics 7 7 8 Error Codes communications connections 0000 0000 102 302 6103 30 Check the programmer PC 30 connections 5305 6306 6201 6204 6205 MITSUBISHI 7 7 Series Programmable Controllers Diagnostics 7 7 9 Instruction List Gre oar mer or ron 210 Comp CMP 208 BMov BCD 0201 Logios ADD SUB MUL WOR WXOR ses sean so 040 Operation ZRST DECO
16. anti Changes for the Better Series Programmable Controllers Foreword e This manual contains text diagrams and explanations which will guide the reader in the correct installation and operation of the FX1N Series Programmable Controllers It should be read and understood before attempting to install or use the unit e Further information can be found in the FX Series Programming Manual Il e f in doubt at any stage of the installation of an FX1N Series Programmable Controller always consult a professional electrical engineer who is qualified and trained to the local and national standards which apply to the installation site e f in doubt about the operation or use of FX1N Series Programmable Controller please consult the nearest Mitsubishi Electric distributor e This manual is subject to change without notice V UKAS Q ISO 9001 MANAGEMENT MITSUBISHI FX1N SERIES PROGRAMMING CAUTION Thank you for buying The Mitsubishi FX1N series controller Please note the following Notes Block Move instruction Applicable PLC FX1N Ver 1 00 2 10 Applicable instructions BMOV BMOVP FNC15 If the file register parameter setting and the registers D8000 D8225 are used as the destination devices for the BMOV BMOVP instruction program steps or file register data may be lost or damaged All other data registers can be used safely for BMOV BMOVP instruction destination
17. k W 8 0 32 8 0 32 W 7 75 2 96 gt Please see the previous page for each units width measurement 1 2 MITSUBISHI Series Programmable Controllers Introduction 1 Table 1 2 Powered Extension Units MODEL INPUT OUTPUT POWER DIMENSIONS WEIGHT eee SUPPLY mm inches kg Ibs 100 240VAC FXoN 40ER ES UL 16 Relay 109 15 150 0 75 50 60 2 591 1 65 Transistor 24V DC ROUES FXon 40ER FXon 40ER DS Source 90 87 FX2N 32ER ES UL 16 Relay 100 Transistor 240VAC FX2N 32ET ESS UL 41095 5 91 15 FX2N PXowABETESSIUL E 10 110 15 220 1 00 MITSUBISHI 1 3 1 Series Programmable Controllers Introduction 1 Table 1 3 Extension blocks INPUT OUTPUT DIMENSIONS MASS MODEL WEIGHT TYPE DEVICE TYPE mm inches kg Ibs IFXON BEX UA1 UL FX2N 8EX UA1 UL FXoN 8EX ES UL FX2N 8EX ES UL FXoN 8ER ES UL FX2N 8ER ES UL T EX0N 8EYR ES UL bis FX2N 8EYR ES UL Sink BE FXoN 8EYT ESS UL Transistor Source FX2N 8EYT ESS UL 24V DC FXoN 16EX ES UL Sink Source PXWAeEYRESUL 16 Rely m m 24V DC Sink EOS 40 90 87 16
18. 0 00 Output protection Outside device Fuse Rated value according to the load MITSUBISHI 6 1 Series Programmable Controllers 6 6 2 Relay Output Example Typical Relay COMO Y000 COM1 001 COM2 Y002 COM3 Y003 Y004 Y005 2 o 2 p Ir 9 69 E 1 e reru e e 9 MC2 Li Bu Reverse current protection diode See section 6 4 J DC Power Supply External Mechanical Interlock See section 6 4 AC Power Supply e Emergency Stop Surge absorber 0 1uF capacitor 100 1200 resistor See section 6 4 MITSUBISHI 6 2 Series Programmable Controllers 6 6 2 1 Reliability Tests The test results in the table below were gathered from a 1 sec ON OFF test cycle Please note that the over current induced by in rush greatly reduces the relay contact s service life The rated life for an inductive AC load such as a conductor or solenoid valve is 500 000 operations at 20VA 20VA 35VA 80VA Load capacit 0 2A 100VAC 0 35A 100V AC 0 8A 100V AC did 0 1A 200VAC 0 17A 240V AC 0 4A 240V AC Life of contact cycles 3 000 000 1 000 000 200 000 Example load Mitsubishi contactor S K10 S K95 S K100 S K150 5 180 5 400
19. 5 24V 1 2 4 VA Y7 Y11 7 MITSUBISHI 2 1 Series Programmable Controllers Terminal layouts 2 X11 13 15 17 21 X23 X25 X27 S S X1 X5 X7 N XO X2 X4 X6 X10 X12 X14 X16 X20 X22 X24 X26 FX1N 40MR ES UL OV YO Y1 Y2 24V ICOMOICOM1 COM2 12 14 Y4 Y6 e 10 Y5 Y7 coM4 11 Y13 cous Y16 Y15 17 X3 X15 X27 X5 X7 X11 x13 X17 X21 X23 X25 L S S X1 N xo X2 X4 X6 X10 X12 X14 X16 X20 X22 X24 X26 FX1N A0MT ESS UL 0 Y2 24 V YO Y1 0 1 V 2 V3 Y12 YA 10 YS Y7 V4 Y11 Y13 V5 E 14 16 15 Lr Y1 MITSUBISHI 2 2 Series Programmable Controllers Terminal layouts 2 18 6 X1 X5 X7 X11 X13 X15 X17 X21 X23 X25 X27 X31 X33 X35 X37 X41 X43 L N X0 X2 X4 X6 10 12 14 16 20 X22 24 X26 X30 X32 X34 X36 X40 X42
20. 483 648 to 2 147 483 647 Hexadecimal 16 bit 0000 to FFFF H 32 bit 00000000 to FFFFFFFF Decimal K Constants MITSUBISHI 7 14 Series Programmable Controllers INTRODUCTION TERMINAL LAYOUTS INSTALLATION NOTES POWER SUPPLY INPUTS OUTPUTS 7 DIAGNOSTICS 1 MITSUBISHI Series Programmable Controllers INTRODUCTION TERMINAL LAYOUTS INSTALLATION NOTES POWER SUPPLY INPUTS OUTPUTS N DIAGNOSTICS MITSUBISHI Series Programmable Controllers MITSUBISHI HARDWARE MANUAL FX1N SERIES PROGRAMMABLE CONTROLLERS MITSUBISHI ELECTRIC CORPORATION HEAD OFFICE TOKYO BUILDING 2 7 3 MARUNOUCHI CHIYODA KU TOKYO 100 8310 JAPAN HIMEJI WORKS 840 CHIYODA CHO HIMEJI JAPAN 099511 JY992D89301K Effective Nov 2005 MEE Specification are subject to change without notice
21. FX1s PLC FX4N 422 BD FX 2PIF FX1N 5DM FX1N 422 BD FX 10DM FX 10DM FX1N 422 BD FX 10DM Connect two Programming tools FX 10P E FX 20P E Programming software etc The use of Special function Blocks Caution Connect a programming tool such as an FX 10P E FX 20P E and personal computer to either the connector built in to the PLC or the connector on the FX1N 422 BD FX1N 232 BD If a programming tool is connected to both connectors the program stored in the PLC may not match the program stored in the programming tool If the program is changed or the set value of timers or counters are changed with this configuration the program may be par tially overwritten and the PLC may malfunction MITSUBISHI 1 13 Series Programmable Controllers Introduction 1 1 43 Input Output Points and Current Consumption The following tables show the input output points of various types of and series extension blocks and special function blocks along with the special function block current consumption Table 1 11 Extension blocks N MODEL INPUT OUTPUT Corna INPUT OUTPUT TO FXON 8ER ES UL A FXON 8EYT ESS UL FX2N 8ER ES UL 4 8 4 8 FX2N 8EYT ESS UL FXoN 8EX ES UL FXoN 16EX FXON 16EX ES UL 16 16 gt FX0N 8EX UA1 UL PEZZA ANNE FXON 8EYR ES UL 2111 51 22 FX2N 8EYR ES UL Fx2N I6EYFESSUL 16 16 518 points are used fo
22. GAY Applying Sate Loads y 6 6 MITSUBISHI xix Series Programmable Controllers DIAGNOSHOS uuu uu 7 1 Zi Preliminary CHECKS u uuu kuno nunana iii 7 1 7 2 ERROR LED ON CPU ERROR uu u eta etes 7 2 ce M 7 3 FA Maintenance ira 7 3 Lo Operauornand eo 7 4 ZO hegislels uu eh cens qeu sese eu 7 5 110 45118111 7 6 Eror COG CS m EUMD 7 7 7 9 IDStFUC HOD EISE eee sida Exc euo vn ix a Ede rhon C aS aa reor hana een 7 8 Z JO Device LISK T 7 11 MITSUBISHI xx Series Programmable Controllers INTRODUCTION TERMINAL LAYOUTS INSTALLATION NOTES POWER SUPPLY INPUTS OUTPUTS 7 DIAGNOSTICS 1 MITSUBISHI Series Programmable Controllers INTRODUCTION TERMINAL LAYOUTS INSTALLATION NOTES POWER SUPPLY INPUTS OUTPUTS N DIAGNOSTICS MITSUBISHI Series Programmable Controllers Introduction 1 1 I
23. from April 1st 1996 FXoN 8ER ES UL FXoN 16EX ES UL FXoN 16EYR ES UL FXoN 16EYT ESS UL from May 1st 1996 FXON 40ER DS 40 1 055 from July 1st 1996 Harmonized Products FXoN 40ER ES UL FXoN 8EX ES UL FXoN 8EYR ES UL FXoN 8EYT ESS UL Standard IEC1010 1 1990 Safety requirements for The equipment has been assessed as a A1 1992 electrical equipment for component for fitting in a suitable enclosure which A2 1995 measurement control and meets the requirements of IEC 1010 1 1990 5 61010 1 1993 laboratory use 1 1992 and A2 1995 BSEN61010 1 1993 and A2 1995 A2 1995 Compliance to BSEN61010 1 and Amendment2 is claimed through virtue of direct compliance to IEC1010 1 Amendment 1 and Amendment 2 MITSUBISHI xi Series Programmable Controllers Models MELSEC FX2N series manufactured from July 1st 1997 FX2N ER ES UL FX2N ET ESS UL Where x x indicates 32 48 FX2N 16EYR ES UL from April 1st 1998 FX2N A8ER DS from August 1st 1998 FX2N 48ER UA1 UL FX2N 16MR DS from August 1st 2005 FX2N 8ER ES UL FX2N 8EX ES UL FX2N 8EYR ES UL FX2N 8EY T ESS UL to March 31st 2002 compliance with IEC 1010 1 from April 1st 2002 Above mentioned products compliance with EN61 131 2 Standard IEC1010 1 1990 Safety requirements for 1 1992 electrical equipment for The equipment has been assessed as a component measurement control and for fitting in a suitable enclosure which meets the l
24. inside the unit during installation e g cut wires shavings etc Once installation is complete remove the protective paper band to prevent overheating Always ensure that mounted units and blocks are kept as far away as possible from high voltage cables high voltage equipment and power equipment Do not lay signal cables near high voltage power cabling or cabinet housing along the same trunking duct Effects of noise or surge induction may occur Keep signal cables of more than 100 mm 3 94 away from these power cables Install necessary power supply cut off precautions to the enclosure of the final system Attach a warning label hazard symbol 417 IEC 5036 concerning electric shock to the enclosure Use the FX1N series PLC with consideration for electrical noise in an environment that does not exceed conditions provided by EN50081 2 and EN61000 6 2 Cut off all phases from the power source before installation or performing wiring work to avoid electric shock Incorrect operation can lead to serious damage to the product Cut off all phases from the power source before installing removing extension or communication cables to modules to avoid electric shock incorrect operation or serious damage to the product a MITSUBISHI 3 8 Series Programmable Controllers Installation Notes 3 Replace the terminal cover provided after installation or wiring work is completed and before supplying power and operating the unit to
25. per point MITSUBISHI 4 3 Series Programmable Controllers Power Supply 4 4 5 4 5 1 100 240V AC 50 60 Hz Example Wiring AC Power supply o e e 9 e 24V DC EI e mc 10 9 T e 1 1 t 2 24 OV 24V OV 24 24 l T nai 1 ec Extension Powered extention Special V unit Function 24 24 Block Unit Converter 1 It is recommended to use the same power source to power the main unit powered or at the same time the main unit is powered extension units and special function blocks units If two sources are required follow the below guidelines Supply power to the powered extension units and special function blocks units before The power supplies may be cut the same time after ensuring system safety MITSUBISHI 4 4 Series Programmable Controllers Power Supply 4 AC Power supply 100 240V AC 10 15 50 60 Hz O Circuit protector or Fuse Wm o Pe Powersa p Service Poner OCA MITSUBISHI 4 5 Series Programmable Controllers Power Supply 4 4 5 2 24 DC Power suppl
26. Crimp Terminal for M3 Screws 3 2 0 13 3 2 0 13 5 om or less Figure 3 5 Installing 1 wire Per a Terminal Terminal Crimp screw terminal Terminal MITSUBISHI 3 14 Series Programmable Controllers Installation Notes 3 2 Handle the crimp terminal of the following size when 2 wires are used per terminal Refer to Figure 3 8 for installation instructions Figure 3 6 Crimp Terminal for M3 5 Screws i 3 7 0 15 3 7 0 15 6 8 mm 0 27 E 6 8 mm 0 27 or less dre DIF gt 60 5 62 more Figure 3 7 Terminal for M3 Screws i 3 2 0 13 3 2 0 13 or less or less DE lt 63 mm more lt 63 mm more Figure 3 8 Installing 2 Wires Per a Terminal Terminal Crimp Screw terminal Terminal MITSUBISHI 3 15 Series Programmable Controllers Installation Notes 3 3 8 Installing Optional Units 3 8 1 Expansion Boards The following is a generic explanation of how to install an expansion board on to the FX1N PLC For greater detail specifications and wiring examples for each optional unit please see the relevant product manuals MODEL USE WITH FX1N 5DM USE WITH FX1N EEPROM 8L Possible for program upload and FX1N CNV BD OOOO y download while the PLC is in the STOP mode lt lt lt lt 0 v Powers fT Pew X MIT
27. ENCO T High Speed REF HSCS HSCR SPD PLSY PWM PLSR 060 Fandy Instructions IST ABSD WCD AT RAMP 070 Devices ow mo TO 50 FX Serial Devices RS PRON Aser HEX COD vamo VASC PO oi Gre i ASS 78 PLSV DAW 160 RealTime Cook TSUB TWR HOUR 170 5 EJE x Tue 20 inine compare AND AND AND ANDE ANDE _ 240 rors om ene o MITSUBISHI 7 8 Series Programmable Controllers Diagnostics 7 Symbol FNC No p P Symbol FNc No p P Symbol FNCNo ABS ws m 88 ABD 0 ADD 0 1 796 MITSUBISHI 7 9 Series Programmable Controllers Diagnostics 7 a MITSUBISHI 7 10 Series Programmable Controllers Diagnostics 7 7 10 Device List war Provided by built in Program capacity 8k steps momory MO configuration 00 hardware configuration points 128 dependent user selection VO ofron Max software addressable Inputs 128 Outputs 128 General 384 points M0 to M383 2 Au Latched 1152 points M384 to M1535 M 21 EEPROM keep 128 points EEPROM keep M384 to M511 3 backed
28. ES UL FXoN 8EYT ESS UL Models MELSEC FX2NC series manufactured from October 1st 2002 FX2NC 232ADP FX2NC 485ADP MITSUBISHI vi Series Programmable Controllers 50081 2 1993 Electromagnetic compatibility Compliance WIA alliielevantaspects tlie standard EN61000 6 4 2001 Generic SM standard Radiated Emissions and Mains Terminal Voltage Industrial environment Emissions Compliance with all relevant aspects of the EN61000 6 2 2001 Electromagnetic compatibility standard Generic immunity standard RF immunity Fast Transients ESD Conducted Industrial environment Surge Power magnetic fields Voltage dips and Voltage interruptions MITSUBISHI Series Programmable Controllers Models MELSEC FX2N series manufactured from July 1st 1997 FX2N ER ES UL FX2N ET ESS UL Where x x indicates 32 48 FX2N 16EX ES UL FX2N 16EYR ES UL FX2N 16EYT ESS UL from April 1st 1998 FX2N 48ER DS FX2N 48ET DSS from August 1st 1998 FX2N 48ER UA1 UL from August 1st 2005 FX2N 8ER ES UL FX2N 8EX ES UL FX2N 8EYR ES UL FX2N 8EYT ESS UL to March 31st 2002 compliance with EN50081 2 EN61000 6 4 and EN50082 2 from April 1st 2002 Above mentioned products compliance with EN50081 2 EN61000 6 4 and EN61 131 2 Standard EN50081 2 1993 Electromagnetic compatibility Compliance with all relevant aspects of the standard EN61000 6 4 Generic emission standard Radiated Emissi
29. Programmable Controllers FXoN FX2N 8E Extension blocks 2 3 COM1 X1 X3 X5 X7 X2 X4 X6 FXon 8EX UA1 UL FX2N 8EX UA1 UL S S X1 X3 COM1 Y1 X2 YO Y2 FXon 8ER ES UL FX2n 8ER ES UL 0 Y1 1 Y5 Y7 YO Y2 Y4 Y6 FXoN 8EYT ESS UL FX2N 8EYT ESS UL COM1 Y1 Y3 COM2 Y5 Y7 YO Y2 4 Y6 FXon 8EYR ES UL FX2N 8EYR ES UL S S X1 X3 X5 X7 X2 X4 X6 FXoN 8EX ES UL FX2N 8EX ES UL r r gt gt co co 7 gt 4 gt n gt gt T gt gt gt gt gt gt gt gt lt gt gt gt gt la gt gt r r gt gt co co gt gt LO LO gt gt o 3 cc LLI gt e gt gt gt lt gt LL e gt gt gt gt
30. RCE Sink Source Japanese models ALWAYS SINK Outputs World spec models ALWAYS SOURCE Transistor Japanese models ALWAYS SINK n MITSUBISHI 1 7 Series Programmable Controllers Introduction 1 1 2 Model Name FX1N 24MR DS O 1 x L C D Table 1 7 Notes on model name ne 0 DC World spec amp UL registered Exeo mu EY oup 1 The FXon 40ET DSS FXon 40ER DSS FXon series extension units do not have UL certi fication MITSUBISHI 1 8 Series Programmable Controllers Introduction 1 1 3 Serial Numbers SERIAL NO 0 6 3267 20 J L e g 0 2000 2 141 2001 1 9 Jan Sept X Oct Y Nov Z Dec Table 1 8 Notes on serial numbers Production year 2 Production month Production serial number n MITSUBISHI 1 9 Series Programmable Controllers Introduction 1 1 4 Configuration 1 4 1 Schematic system FXiN 2AD BD FXIN IDA BD B FX1N 14MR ES UL FXon 32ER ES UL FXoN 8EX UA1 UL FX1N 24MR ES UL FXoN 40ER ES UL FXon 8EX ES UL FX1N 40MR ES UL FX2N 48ER ES UL FXon 8ER ES UL FXoN 8EYR ES UL FX1N 60MR ES UL FX2N 32ET ESS UL FXoN 8EYT ESS UL FX1N 14MT ESS UL FX2N 48ET ESS UL FX2N 8EX UA1 UL FX1N 24MT ESS UL FXon 40ER DS FX2N 8EX ES UL FXiN 4EX BD FX1N 2EYT BD FX1N 232 BD FX1N 422 BD F
31. SHI 1 21 Series Programmable Controllers Introduction 1 MEMO MITSUBISHI 1 22 Series Programmable Controllers Terminal layouts 2 2 Terminal layouts The following selection of terminal layouts are taken from the FX1N product range Note All layouts are schematic only and are intended to aid the creation of wiring diagrams 2 1 AC Powered Main Units Jg S S X1 X3 X5 X7 L S S X1 X5 X7 X11 X13 X15 L XO X2 X4 X6 L N X0 X2 X4 X6 10 12 14 3 FX1N 14MR ES UL FX1N 24MR ES UL 4 OV YO Y1 Y2 Y3 YA Y5 oV YO Y1 Y2 Y5 Y6 10 e 24V 0 1 21 3 4 5 24V 2 Y4 1 4 Y7 11 5 S S X1 X3 X5 X7 S S X1 X5 X7 11 X13 X15 L XO X2 X4 X6 L XO X2 X4 X6 X10 12 X14 FX1N 14MT ESS UL FX1N 24MT ESS UL 6 YO 1 Y2 YA Y5 OV YO 1 2 Y51Y6 10 24V vo 1 V2 3 v4
32. SUBISHI 3 16 Series Programmable Controllers Installation Notes 3 Always make sure the power is turned off before installing a special function board Only one board can be used at any one time do not try to stack multiple boards A Special function or optional equipment board B Optional equipment connector port C M3 screw to secure board D Top cover for board E M3 screw to secure top cover Note Do not remove this screw Remove base unit top cover e Plug board A into connector Fix board to base unit using screws Attach top cover for board D removing section D to expose connector etc if applicable Secure top cover with M3 screw E MITSUBISHI 3 17 Series Programmable Controllers Installation Notes 3 3 8 2 FXin 5DM Display Module Always make sure the power is turned off before installing the 5DM A Top cover for DM B Optional equipment connector port C M3 screw to secure top cover Remove the base unit top cover e Attach the top cover for DM A and secure with screw C if 5DM is to be permanently mounted Plug in the 5DM at connector For further information please refer to the FX1N 5DM users manual MITSUBISHI 3 18 Series Programmable Controllers Installation Notes 3 3 8 8 Extension module and Special Function module Install remove extension module as shown in
33. X1N 485 BD FX1N 8AV BD FX1N 40MT ESS UL FXon 40ET DSS FX2N 8ER ES UL FX1N CNV BD FX2Nc 232ADP FX1N 60MT ESS UL FX2N 48ER UA1 UL mel EX SEV ES UU FX1N CNV BD FXoN 232ADP FX1N 14MR DS _ s FX1N CNV BD 485 FX1N 24MR DS FXon 16EYR ES UL FX1N CNV BD FXoN 485ADP FX1N 40MR DS FXoN 16EYT ESS UL FX1N 60MR DS FX2N 16EX ES UL FX1N 14MT DSS FX2N 16EYR ES UL FX1N 24MT DSS FX2N 16EYT ESS UL FX1N 40MT DSS FX1N 60MT DSS GOT 900 Series 49 2 FX 10DM E FX 10DU E FX1N 5DM FX1N EEPROM 8L 2 D FX2N 2DA FX2N 2AD FX2N 4DA FX2N 4AD FX2N 4AD PT FX2N 4AD TC FX2N 8AD FX2N 5A FX2N 2LC FX2N 16LNK M GX Developer FX PCS WIN E GX IEC Developer FX PCS AT EE FX 50DU TKS E MELSEC MEDOC FX 40DU TK ES FX 40DU ES FX2N 64CL M RS 232C RS 422 Converter FX 30DU E FX2N 16CCL M FX 232AW FX 232AWC FX 20P E SETO FX 25DU E FX2N 32CCL FX2N 32ASI M FX 232AWC H 10 FX 20DU E MITSUBISHI 1 10 Series Programmable Controllers Introduction 1 1 Available for use with version 2 00 or later 2 When using the FX1N EEPROM 8L with an expansion board in group C only the loader function transfer program can be used Remove it from the PLC after operating the loader function and attach the top cover into the PLC 3 GOT F900 Series can connect via FX1N 232 BD to the FX1N PLC 4 When supplying 24V DC power source to the FX1N ma
34. X2N 16CCL M module Only one FX2N 32ASI M module can be connected to the PLC MITSUBISHI 1 16 Series Programmable Controllers Introduction 1 2 Maximum number of I O points per system Connection is allowed as far as the following condition is satisfied Actual number of I O points of PLC Number of points occupied by special extension blocks Number of points occupied by FX2N 16CCL M 8 32 x Number of remote 1 O modules lt 128 Moreover if connecting two or more FX2N 16CCL M the first master module can connect to the remote I O modules and remote device modules but subsequent modules only connect to remote device modules 3 For details refer to FX2N 64CL M User s Manual 4 The value depends on the switch setting 16 32 48 64 96 or 128 points 5 FX2N 32ASI M must be supplied 70mA at Typical 30 5V from the AS interface power supply 6 The I O control points of both the FX2n 32ASI M and PLC CPU must not exceed 128 points Therefore there is a limitation in the number of units number of slaves which can be controlled according to the I O points recognized by the PLC s CPU occupation Occupation I O points Each AS i slave station occupies 4 CPU I O points MITSUBISHI 1 17 Series Programmable Controllers Introduction 1 1 4 4 Rules of Expansion The maximum for an FX1N system is 128 I O points and 8 special function blocks
35. a motor because of a critical safety situation should not rely on the PLC s sequencing alone Mechanical interlocks MUST be fitted to all critical safety circuits See proceeding figure Note If using another output type please replace symbol with appropriate symbol Forward operation tose oe PLC output Mechanical interlock Reverse LSF operation MITSUBISHI 6 8 Series Programmable Controllers Diagnostics 7 7 Diagnostics 7 1 Preliminary Checks RUN ERROR RUN ERROR Check power supply ground and I O cables are wired correctly Turn the power supply on Check that the power LED is lit Down load a small test program to the PLC Verify the program to ensure it has been writ ten to the PLC correctly Using the programming device force each output ON OFF Check the output LEDs for operation Put the PLC into RUN Check the RUN LED is lit Check that the previously down loaded program works correctly Once all checks are complete take the PLC out of run and turn OFF the power supply During this testing stage take extreme care not to touch any live or hazardous parts MITSUBISHI 7 1 1 Series Programmable Controllers Diagnostics 7 7 2 ERROR LED ON CPU ERROR RUN ERROR
36. aboratory use requirements of IEC 1010 1 1990 A1 1992 General requirements The equipment has been assessed as a component for fitting in a suitable enclosure which meets the requirements of EN61131 2 1994 A11 1996 A12 2000 EN61131 2 1994 Programmable controllers A11 1996 Equipment requirements and 12 2000 tests MITSUBISHI xi Series Programmable Controllers Associated Manuals The following manuals are recommended as essential reference material for the correct operation of a FX1N series Programmable controller Manual Number FX This manual contains instruction explanation about FX1S Programming Manual id FX1N FX2N and FX2Nc Series PLC FX Communication This manual contains explanation for N N network JY992D69901 OUS User s Manual parallel link no protocol communication and computer link FX1N 422 BD JY992D84101 This manual contains hardware explanation for Users Manual installation and specification FX1N 485 BD JY992D84201 This manual contains hardware explanation for Users Manual installation and specification FX1N 232 BD JY992D84401 This manual contains hardware explanation for Users Manual installation and specification FX1N 4EX BD JY992D95001 This manual contains explanation for installation Users Manual specification and special auxiliary relay allocation FX1N 2EYT BD JY992D95201 This manual contains explanation for installation Users Manual specification and special auxili
37. ary relay allocation MITSUBISHI xii 55 JY992D84901 This manual contains hardware explanation for User s Manual installation specification and operation JY992D86401 This manual contains hardware explanation for User s Manual installation specification and operation Series Programmable Controllers Manual Number FX1N 2AD BD JY992D96201 This manual contains explanation for installation Users Manual specification and special auxiliary relay allocation FX1N 1DA BD This manual contains explanation for installation Users Manual A specification and special auxiliary relay allocation FX1N 8AV BD JY992D84601 This manual contains hardware explanation for installation and specification FX1N CNV BD JY992D84701 This manual contains explanation for installation E JY992D49001 This manual contains explanation for wiring installation User s Manual specification and BFM allocation CAN SR JY997D11401 This manual contains explanation for wiring installation User s Manual specification and BFM allocation PAD JY992D74901 This manual contains explanation for wiring installation User s Manual specification and BFM allocation PANARD JY992D74701 This manual contains explanation for wiring installation User s Manual specification and BFM allocation PANADA JY992D65901 This manual contains explanation for wiring installation User s Manual specification and BFM allocation FCN AD JY992D65201 This manual co
38. avoid electric shock After reading the manual s safety instructions initiate the operation for making program changes while the PLC is in RUN mode forcing ON OFF and switching RUN STOP The power supply of the extension units blocks and the special function units blocks should be started at the same time or earlier than the FX1N Series main unit DO NOT use the terminal in PLC When using an incorrect power source or performing incorrect operation serious damage will occur regardless of the level of the voltage and frequency When performing incorrect wiring or operation serious damage will occur The L and N terminals are not reversible If the L and N terminals are reversed the units blocks may be seriously damaged The 24V and OV terminals not reversible If the 24V and OV terminals are reversed the units blocks may be seriously damaged During transportation avoid any impact as the PLC is a precision instrument It is necessary to check the operation of PLC after transportation in case of any impact damage When storing the PLC conform to the environmental conditions specified by the general specification MITSUBISHI 3 9 Series Programmable Controllers Installation Notes 3 3 5 DIN Rail Mounting Units can be snap mounted to 35mm 1 37 DIN rail DIN EN 50022 To release pull the spring loaded clips away from the rail and slide t
39. cuits MITSUBISHI 4 9 Series Programmable Controllers Power Supply 4 MEMO MITSUBISHI 4 10 Series Programmable Controllers Inputs 5 5 5 1 Inputs 24V DC input Specifications FX1N main unit extension block FXoN FX2N Extension block ELI Input voltage 24V DC 10 24V DC 7 24V DC 5mA 24V DC 5mA Variatie response tme xoxoa _ MITSUBISHI 5 1 al 8 1 1 Series Programmable Controllers Inputs 5 5 1 1 Typical Wiring PNP pq AC model Service supply Ix o DC model Input circuit power supply Bee PNP Sensor NPN Sensor 24 OV S S XO X1 2 9 2 Input Device Contact SEE big e Note The input circuit power supply provides a clean ge 24VDC supply for the inputs Hence use an external 24VDC power supply at your own risk E EM The input circuit power supply cannot provide a service supply to special function blocks SFB Use DAV OV sis X1 X2 an external supply to power the SFBs When using AC powered unit an external 24V DC supply be used MITSUBISHI 5 2 Series Programmable Controllers Inputs 5 5 1 2 Input Circuit Connection FX1N Main and FXon FX2n Ext
40. d be connected to the L terminal and the Neutral cable should be connected to the N terminal Do NOT connect the Live wire to the N terminal otherwise the user may receive a dangerous shock upon powerup e When wiring a DC supply the Live cable should be connected to the terminal and the Neutral cable should be connected to the terminal Do NOT connect the Live wire to the terminal otherwise the user may receive a dangerous shock upon powerup MITSUBISHI 4 2 Series Programmable Controllers Power Supply 4 4 4 Power Requirements Power supply 100 240V AC 10 15 50 60Hz Max allowable momentary power 10ms if less than 10ms the PLC will continue operation failure period If 10ms or more the PLC will shut down Fuse size rating 200V AC Max 50A for 5ms 3 24V DC Service Supply 400 mA 1 Includes the input current 5 or 7mA per point 4 Table 4 2 DC Power Supply Units s FX1N 14M FX1N 24M FX1N 40M FX1N 60M 5 Power supply 24V DC 20 12V DC 15 28 8 10 2V DC Max allowable momentary power 5 ms If less than 5 ms the PLC will continue operation failure period If 5 ms or more the PLC will shut down 6 Table 4 1 AC Power Supply Units 1 FX1N 24M Fuse size rating 125 V 3 15A 24V DC Max 25A for 1ms In rush current 12V DC Max 22A for 0 3ms 7 1 Includes the input current 5 or 7mA
41. ension Units 24V DC 24 r4 T Ke 5 5 0V Source OV Sink ve S S ve S S FX2n and FXon Extension blocks lo Sink AI 1 2 1 Source Kz al 8 1 1 MITSUBISHI 5 3 Series Programmable Controllers Inputs 5 5 1 3 Diodes and Inputs Connected in Series Vdrop across the diode Max 4V No more than 2 LEDs should be connected in series amp 24V FX1N X S S 0V 5 1 4 Resistors and Inputs Connected in Parallel uet FX2N Extension block n Parallel resistance Rp FX1N 15 If resistance Rp is less than the stated value then Hb See equation 1 for Rb calculation Alternatively Current leakage FX1N 1 5mA If the current leakage is greater than the stated value then add Rb See equation 2 for Rb calculation Parallel LED 4Rp Eqn1 Rb lt 15 6 2 Rb lt ap AS
42. he unit up and off 3 6 Direct Mounting Table 3 3 Hole positions 2 94 5 0 17 mm inches r r S 5 Ponema en B W 10mm B W T0mm 0407 40 SE ES 2 045 0 17 ral DIN rail 4 mounting slot v v MITSUBISHI MESEC 8 0 31 A W 5 48 172 6 78 1 Pe mounting gt MITSUBISHI slot PXWdSERUAVUL 249 827 25 4 5mm 0 17 6 78 B 19 0 36 W 87 3 43 MITSUBISHI 3 10 Series Programmable Controllers Installation Notes 3 Table 3 3 Hole positions mm inches UNIT 0 2 0 01 O FX2N 2AD FX2N 2DA FX2N 32CCL FX2N 16LNK M FX2N 64CL M FXON 232ADP FXON 485ADP FX2N 4AD PT FX2N 5A FX2N 4AD TC FX2N 2LC FX2N 32ASI M 4 5mm 0 17 MITSUBISHI 3 11 Series Programmable Controllers Installation Notes 3 Table 3 3 Hole positions mm inches UNIT 0 2 0 01 E W 8mm 0 32 EOS AC F W 24 5mm FEW Smm 097 97 FX2NC 232ADP 232ADP 258 FX2NC 485ADP 4 5mm 0 17
43. hi Electric sales site EMC The following products have shown compliance through direct testing of the identified standards below and design analysis through the creation of a technical construction file to the European Directive for Electromagnetic Compatibility 89 336 EEC when used as directed by the appropriate documentation Refer to a manual or related material of each product for details concerning products not included below Programmable Controller Open Equipment Models MELSEC FX1N series manufactured from March 1st 2000 FX1N 232 BD FX1N 485 BD FX1N 422 BD FX1N 8AV BD FX1N CNV IF FX1N 5DM FX1N EEPROM 8L from June 1st 2000 FX1N XXMR ES UL from December 1st 2000 FX1N X XMR DS FX1N XMT DSS Where indicates 14 24 40 60 MITSUBISHI v Series Programmable Controllers from June 1st 2001 FX1N 4EX BD FX1N 2EYT BD FX1N 2AD BD FX1N 1DA BD from July 1st 2001 FX1N MT ESS UL Where indicates 14 24 40 60 Models MELSEC series manufactured from November 1st 1995 FXoN A40ER ES FXoN 8EX ES FXoN 8EYR ES FXoN 8EYT ESS from February 1st 1996 FXoN 8ER ES FXoN 16EX ES FXoN 16EYR ES FXoN 16EYT ESS from April 1st 1996 FXoN 8ER ES UL FXoN 16EX ES UL FXoN 16EYR ES UL FXoN 16EYT ESS UL from May 1st 1996 FXON 40ER DS 40 1 055 232 FXoN 485ADP from July 1st 1996 Harmonized Products FXoN 40ER ES UL FXoN 8EX ES UL FXoN 8EYR
44. identified danger could POSSIBLY cause physical and property damage 3 Indicates a point of further interest or further explanation Software warning 1 Indicates special care must be taken when using this element of software 2 Indicates a special point which the user of the associate software element should be aware of 3 Indicates a point of interest or further explanation MITSUBISHI i Series Programmable Controllers e Under no circumstances will Mitsubishi Electric be liable or responsible for any consequential damage that may arise as a result of the installation or use of this equipment All examples and diagrams shown in this manual are intended only as an aid to understanding the text not to guarantee operation Mitsubishi Electric will accept no responsibility for actual use of the product based on these illustrative examples Please contact a Mitsubishi Electric distributor for more information concerning applications in life critical situations or high reliability MITSUBISHI Series Programmable Controllers Note Concerning the CE Marking This note does not guarantee that an entire mechanical module produced in accordance with the contents of this note will comply with the following 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 the local Mitsubis
45. in unit only the FXoN series powered extension unit DC power supply type can connect When supplying 12V DC power source to the FX1N main unit the powered extension unit and special function blocks cannot connect to it 5 FXin series PLC cannot connect together with an FX2N 32ASI M and FX2n 16CCL M An FX2N 32ASI M module cannot be attached to an FX1N series PLC that is using an FX2N 16CCL M module Only one FX2N 32ASI M module can be connected to the PLC MITSUBISHI 1 11 Series Programmable Controllers Introduction 1 Table 1 9 Configuration Notes Series Min Uni B Pen Expansion Boards or Analog VO HMI Devices GOT F900 GOT A900 DM DU lt GOT Graphic Operation Terminal DM Display Module DU Data access Unit gt RS 232C RS 422 Converter for PC Dedicated Programming Tools Discontinued since Sept 2002 Powered Extension Units J Extension Blocks EE Special Function Blocks Table 1 10 Connection Ports Left hand side port EA Left hand side port FX1N 422 BD Left hand side port FX1N 232 BD 2 Programming Port o 3 Extension Bus Pot Left hand side port FX1N CNV BD FX2NC 232ADP Or Left hand side port FX1N CNV BD FXoN 232ADP MITSUBISHI 1 12 Series Programmable Controllers Introduction 1 1 4 22 Note for Using Expansion Board The following conditions cannot be accomplished with an
46. ine Figure 3 1 Features of the FXin PLC 2 4 3 cover removed CTS C Q 2 v 3 v D 0123 MITSUBISHI 22 5 POWERO 2 RN O RN O MELSEC Suis ue M DI 99 3 3 i 7 i 4567 1 X 7 dr Y5 2 5 7 I TN YT T YE TU T T 30263632 5616 3 2 3 9 MITSUBISHI 3 2 Series Programmable Controllers Installation Notes 3 Table 3 1 Features table 3 Top cove Direct mounting holes 4 5 mm lt 0 17 gt diameter terminal block securing screws Input terminals 24 power supply terminals Input LED status indicators Expansion port cover PLC status indicators POWER RUN ERROR Output LED status indicators DIN rail mounting clip CN Output terminals and power supply source terminals Optional equipment Expansion port E umanuan Programming port Variable analog potentiometers Upper pot D8030 read from VR1 Lower pot D8031 read from VR2
47. llation AS interface Master JY992D76901 meli n p 9 i specification and allocation User s Manual MITSUBISHI Series Programmable Controllers MEMO MITSUBISHI xvi Series Programmable Controllers Table of Contents Guidelines T 1 Associated ae xiii ater Me ea estes 1 1 1 15 World SDECINC AN OM ES 1 7 NATI sr toot a umore see occ bill 1 8 DESSEN IINE Or 1 9 1 10 Schematic systern 1 10 1 4 2 Note for Using Expansion Board 1 13 1 4 3 Input Output Points and Current Consumption a 1 14 1 4 4 Rul s of ree d DoD ug ua rb 1 18 1 5 eee 1 20 Tod EEPROM ieri 1 20 1 5 2 Capacitor DaeKUD ii Duis 1 20 2 2 1 2 1 AG Powered Main Units er ete uya 2 1 2 2 DG Powered Main Unis eti o oo dade cuts 2 4 2 3 FXaN 8E Extension blockSs 2 7 24 2 8 MITSUBISHI xvii Series Programmable Controllers J MSEANATIONINOUGS
48. must be of a competent nature trained and qualified to the local and national standards required to fulfill that job These engineers should also be trained in the use and maintenance of the completed product This includes being completely familiar with all associated documentation for the said product All maintenance should be carried out in accordance with established safety practices C All operators of the completed equipment see Note should be trained to use that product in a safe manner in compliance to established safety practices The operators should also be familiar with documentation which is associated with the operation of the completed equipment Note The term completed equipment refers to a third party constructed device which contains or uses the product associated with this manual MITSUBISHI i Series Programmable Controllers Note s symbols used in this manual At various times through out this manual certain symbols will used to highlight points of information which are intended to ensure the users personal safety and protect the integrity of the equipment Whenever any of the following symbols are encountered its associated note must be read and understood Each of the symbols used will now be listed with a brief description of its meaning Hardware warnings 1 Indicates that the identified danger WILL cause physical and property damage 2 Indicates that the
49. n 24VDC 15 20 4V DC or less then it cannot be fully expanded by using special function blocks or powered extension units It can accommodate a maximum of an additional 32 I O points f an FXin expansion board is being used it does not alter the rules of expansion outlined above as it utilizes special M coils for its operation and therefore does not contribute to the maximum 128 point count Only one special function board be used at any time See section 3 9 1 for more details ej n MITSUBISHI 1 19 Series Programmable Controllers Introduction 1 1 5 1 5 1 1 5 2 Back up Data EEPROM backup Data includes the Program Comment File Registers D1000 07999 and parameter data This will be stored as long as the EEPROM is not damaged Mitsubishi Electric has guaranteed a life cycle time of 10 000 writes to the EEPROM memory Users may experience operational writes to the EEPROM in excess of 10 000 however due to temperature effects a quantitative estimation cannot be given If the PLC has been powered on for five minutes or more the following device data will be saved in the EEPROM at powerdown SO 5127 M384 M511 C16 C31 C235 C255 and 0128 D255 Capacitor backup The capacitor backed memory includes M512 M1535 5128 5999 T246 T255 C32 C199 C220 C234 D256 D7999 and The capacitor backed memory will retain data for a maximum of 10 da
50. ntains explanation for wiring installation User s Manual specification and BFM allocation JY992D65601 This manual contains explanation for wiring installation User s Manual specification and BFM allocation 22 15 JY992D65501 This manual contains explanation for wiring installation User s Manual specification and BFM allocation MITSUBISHI xiv Series Programmable Controllers Manual Number FX2N 8AD Users JY992D86001 This manual contains explanation for wiring installation Manual specification and BFM allocation FX2N 2LC User s JY992D85801 This manual contains explanation for wiring installation Manual specification and BFM allocation This manual contains explanation for wiring installation MELSEC I O Link JY992D73701 p 9 setting specification and I O allocation Master User s Manual FX2N 16CCL M This manual contains explanation for wiring installation CC Link System Master JY992D93101 Mode abo 9 specification BFM allocation User s Manual FX2N 32CCL This manual contains explanation for wiring installation CC Link System JY992D71801 Mile 9 specification and BFM allocation Interface User s Manual FX2N 64CL M This manual contains explanation for wiring installation CC Link System Master JY997D08501 2 dci 9 specification and BFM allocation User s Manual rN ep This manual contains explanation for wiring insta
51. ntroduction This manual covers hardware installation instructions for the FXin Series PLC Table 1 1 FXiN Main Modules MODEL INPUT OUTPUT POWER DIMENSIONS WEIGHT TYPE TYPE SUPPLY mm zT kg Ibs FX1N 14MR ES UL Relay 0 45 FX1N 14MT ESS UL 8 Transistor 4 0 99 19 100 240 24 p v 16 10 55 90 75 In FX1N 40MR ES UL da 130 3 55 2 96 65 FX1N 40MT ESS UL 12 1 43 0 80 1 76 FX1N 60MR ES UL Me FX1N 14MR DS 6 1 45 FX1N 14MT DSS 8 gt 0 99 FX1N 24MR DS 10 FX1N 24MT DSS 16 16 4 55 o0 75 3 55 2 96 ASIN RARE Source E EJ 65 FX1N 40MT DSS E 12 1 43 FX1N 60MR DS 36 EET 175 0 80 FX1N 60MT DSS 40 6 89 1 76 Note Occupied points are shown in brackets for input and outputs MITSUBISHI 1 1 gt o Series Programmable Controllers Introduction 1 Figure 1 1 Main unit outline 2 64 5 0 17 UNITS mm inches 1 T pim di 9 GSS SS e oo v v Ni MITSUBISHI 814 sae DIN rail 2 on mounting ola MIELSIEG FXin 24MR slot 9 v T I TONO aa
52. ons and Mains Terminal Voltage 2001 Industrial environment Emissions EN50082 2 1995 Electromagnetic compatibility Compliance with all relevant aspects of the standard Generic immunity standard RF immunity Fast Transients ESD Conducted and Industrial environment Power magnetic fields EN61131 2 1994 Programmable controllers Compliance with all relevant aspects of the standard A11 1996 Equipment requirements and RF Immunity Fast Transients ESD and Damped A12 2000 tests oscillatory wave MITSUBISHI vii Series Programmable Controllers Notes when using the FXON 40ER ES This unit may be used as supplied and will be in compliance with the previously identified standards directives However it is recommended as an additional precaution to reduce conducted mains terminal voltage emissions when power sources are shared that an external mains filter is used Mitsubishi have tested and would like to recommend the following filters or user selected filters which are manufactured designed used in a similar manner to those identified here Filter 1 Manufacturer Filter 2 Manufacturer Filter Manufacturer Unit VFB 05B Unit ZHG2203 11S Unit DRF1 DRF3 range of filters For the most effective use of any filtering system the following configuration should be adopted always remembering to keep the filter as close to the power input port as possible For example only AC mains input Va
53. or 1 min ground terminal more on 500V AC for 1 min Between input terminal 100V 500V DC AC and ground 1 5 for 1 min Between output terminal relay and ground terminal 1 5kV AC for 1 min Between output terminal tran sistor and ground 21 500 1 MITSUBISHI 3 6 Series Programmable Controllers Installation Notes 3 3 4 PLC Mounting Arrangements To prevent a rise in temperature mount the units to walls Never mount them to the floor or ceiling of an enclosure Below left Single row arrangement Below right Double row arrangement using extension cable FXoN 65EC 650mm 25 59 supplied separately 2 a 3 N FX1N P s S 5 4 lt x CPU o o O O 55 FX1N 27 20 IL mw CPU 5 52 5 gt gt IL dL m FXON FX2N lt gt Extension 6 EY gt 50mm 1 97 inches blocks 7 gt 50 1 97 inches MITSUBISHI 3 7 Series Programmable Controllers Installation Notes 3 Caution AN e Units should not be installed in areas subject to the following conditions excessive or conductive dust corrosive gas salt air Cl2 H2S SO2 NO2 etc or flammable gas moisture or rain excessive heat regular impact shocks or excessive vibration Take special care not to allow debris to fall
54. ower SUDDIY 3 acetone a 4 9 4 7 Grounding aec u TR 4 9 MITSUBISHI xvil Series Programmable Controllers sarete uwa iesu ice messi rusa eh eiua ue tbt ds paskaq 5 1 51 AV DC Input SpecllGallofiS eate aute toic thee cem e 5 1 Lele 5 2 5 152 Input Circuit Connection 5 3 5 1 3 Diodes and Inputs Connected in Series 5 4 5 1 4 Resistors and Inputs Connected in 5 4 525 ACTIOVW IfipurExtension Blocks on eee x ced 5 5 5271 Input Circuit Gonnectionuu sia 5 5 5 2 2 Programming 5 6 Or US PDC PN 6 1 6 1 Output Speciflcatiohns Fes nep cs duct exea crea stan De tunes aede 6 1 6 2 Relay Qutpub EXAmple uu kausa aa uyak 6 2 6 24 Reliability POSTS asesino ex UR Ext dade 6 3 63 Transistor OUIDUL EXambble esa i usas 6 4 6 3 1 Transistor Output Writing Diagram Source Type 6 4 6 3 2 Japanese Model Transistor Output SINK 6 4 6 3 3 Response 6 5
55. peed response V outputs with the following characteristics Dummy Load 0 10 100mA at 5 24V DC 100kHz maximum X output signal ia high speed response is required a current of 10 100mA must be used Dummy load Load al sl MITSUBISHI 6 5 Series Programmable Controllers 6 6 4 Applying Safe Loads Caution for DC Loads 1 Relay output case This PLC does not have any internal protection circuitry on the relay outputs For switching direct 200 bert current on inductive loads a reverse current 2 Inductive load protection diode should be installed in parallel with the load The relay contact life decreases PLC output Reverse current significantly if this is not done protection diode The reverse current protection diode needs to satisfy the following specifications The diode is rated for maximum reverse voltage of 5 to 10 times the load voltage The forward current is more than the load current 2 Transistor output case Transistor outputs use internal zener diode 50 DC DC as protection circuitry When driving the inductive load with transistor output a reverse current NC protection diode can be installed in parallel with the Leb EIS 2 load if necessary TA Reverse current The reverse current protection diode needs to output protection diode sa
56. r actual input output however this block should occupy 16 input output points MITSUBISHI 1 14 Series Programmable Controllers Introduction 1 Table 1 12 Special function block Function adapters Expansion board CURRENT CONSUMPTION INPUT OUTPUT MODEL iNTERNAL5SV INTERNAL EXTERNAL x yy y TOTAL DC 24V DC 24V DC po Perse i sana qn A ee ee mor mr e 16 qm eee er A FX2N 16CCL M Self supplied _ Pesen 39m 3 mom s J e en mo C TTT Primo sm T _ MITSUBISHI 1 15 Series Programmable Controllers Introduction 1 Table 1 12 Special function block Function adapters Expansion board CURRENT CONSUMPTION INPUT OUTPUT EM uL SE 24V DC 24V DC FX2NC 232ADP cT 8 8 8 12092 tt ff _ MA TT E FX1N 2EYT BD III 0 anni A E E Pese amp m TT CICLI L 1 FXin series PLC cannot connect together with FX2N 32ASI M and FX2n 16CCL M FX2N 32ASI M module cannot be attached to FX1N series PLC that is using F
57. registers Program example Problem OK M8002 S D nm M8002 S D e r gt MITSUBISHI MITSUBISHI Series Programmable Controllers FX1N Series Programmable Controllers Hardware Manual Manual number JY992D89301 Manual revision Date November 2005 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 MITSUBISHI Series Programmable Controllers Guidelines for the safety of the user and protection of the This manual provides information for the installation and use of the FX1N The manual has been written to be used by trained and competent personnel The definition of such a person or persons is as follows a Any engineer who is responsible for the planning design and construction of automatic equipment using the product associated with this manual should be of a competent nature trained and qualified to the local and national standards required to fulfill that role These engineers should be fully aware of all aspects of safety with regards to automated equipment b Any commissioning or service engineer
58. rious extension blocks Ex 75mm 3 inches H Z 7 gt x MR ES UL FXoN 40ER ES UL MITSUBISHI ix Series Programmable Controllers LVD The following products have shown compliance through direct testing of the identified standards below and design analysis through the creation of a technical construction file to the European Directive for Low Voltage 73 23 EEC when used as directed by the appropriate documentation Refer to a manual or related material of each product for details concerning products not included below Type Programmable Controller Open Type Equipment Models MELSEC FX1N series manufactured from June 1st 2000 FX1N XXMR ES UL from December 1st 2000 FX1N gt MR DS from July 1st 2001 FX1N XXMT ESS UL Where indicates 14 24 40 60 Standard EN61010 1 2001 Safety requirements for electrical The equipment has been assessed as a equipment for measurement component for fitting in a suitable enclosure control and laboratory use which meets the requirements of General requirements EN61010 1 2001 MITSUBISHI x Series Programmable Controllers Models MELSEC series manufactured from November 1st 1995 FXoN 40ER ES FXoN 8EX ES FXoN 8EYR ES FXoN 8EYT ESS from February 1st 1996 FXoN 8ER ES FXoN 16EX ES FXON 16EYR ES FXON 16EYT ESS
59. the figure below Caution Cut off all phases of power source before installing removing the extension module Ret Desorption Remove the extension bus cover 2 Install extension cable 20r2 2 Remove extension cable Install the extension bus cover n MITSUBISHI 3 19 Series Programmable Controllers Installation Notes 3 MEMO MITSUBISHI 3 20 Series Programmable Controllers Power Supply 4 4 Power Supply 4 1 Wiring Techniques Wiring for FX1N products has been designed to be safe and easy If the user is concerned about the correct installation of these products or associated products please contact a professional electrician who is trained to the local and national standards applicable to the installation site 4 2 Wiring Cautions AN e Do not run input signals in the same multicore cable as output signals or allow them to share the same wire Do not lay I O signal cables next to power cables or allow them to share the same trunking duct Low voltage cables should be reliably separated or insulated with regard to high voltage cabling e Where signal lines are used over an extended distance consideration for voltage drop and noise interference should be made MITSUBISHI 4 1 alj ej Series Programmable Controllers Power Supply 4 4 3 Power Supply AN e When wiring an AC supply the Live cable shoul
60. tisfy the following specifications The diode is rated for maximum reverse voltage of 5 to 10 times the load voltage The forward current is more than the load current MITSUBISHI 6 6 Series Programmable Controllers 6 Caution for Loads 1 Relay output case This PLC does not have any internal protection 100 100 circuitry on the relay outputs For switching AC inductive loads a surge absorber 0 1uF 100 to 1200 should be installed in parallel with the load The relay contact life decreases significantly if this is not done Besides protecting the internal circuity of the PLC a surge absorber decreases the noise emissions to the load Component Side of Loads The output contact of the PLC should be connected to components consistently as indicated in the figure Note If using another output type please replace symbol with appropriate symbol RE A Inductive load PLC output OK NG Surge absorber PLC output Load PLC output Load PLC output MITSUBISHI 6 7 Series Programmable Controllers 6 Mechanical Interlock Ensure all loads are applied to the same side of each PLC output see previous figures Loads which should NEVER simultaneously operate e g direction control of
61. to 85 Relative Humidity No condensation 35 to 90 Relative Humidity No condensation Conforms to EN 68 2 6 10 57 Hz 0 075 mm Half Amplitude 57 150 Hz 9 8 m s Acceleration Sweep Count for X Y Z 10 times 80 min in each direction Conforms to EN 68 2 6 10 57 Hz 0 035 mm Half Amplitude 57 150 Hz 4 9 m s Acceleration Sweep Count for X Y Z 10 times 80 min in each direction Conforms to EN 68 2 27 147m s Acceleration Action Time 11 ms 3 times in each direction X Y and Z 1000 Vp p 1microsecond 30 100 Hz tested by noise simulator AC PSU 1500 V AC 1 min tested between each terminal with ground terminal DC PSU 500 V AC 1 min tested between each terminal with ground terminal 5 gt at 500 V DC tested between each terminal with ground terminal Grounding resistance 100 or less UL cUL UL508 EMC EN61000 6 2 EN50081 2 LVD EN61010 1 1 Perform dielectric withstand voltage and insulation resistance tests at the stated voltage between each terminal and the main unit s ground terminal MITSUBISHI 3 5 n Series Programmable Controllers Installation Notes 3 Dielectric strength Insulation Between terminals AC Power Supply Units DC Power Supply Units eststance Between power supply termi ground terminal 1 5kV AC for 1 min Between 24V DC service power supply connected to Input terminal 24V DC and 500V AC f
62. up Capacitor keep 1024 points Capacitor keep M512 to M1535 256 points From the range M8000 to M8255 Latched 1000 points S0 to S999 State relays EEPROM EEPROM keep 128 points EEPROM keep S0 to S127 4 S coils backed up Capacitor keep 872 points Capacitor keep S128 to S999 10 points subset S0 to S9 5 46 points Range 0 to 327 67 sec 1200 to 1245 1 1 msec 4 point Capacitor keep Range 0 to 32 767 sec 124610 1249 200 points Range 0 to 3 276 7 sec 1010 1199 Timers T 100 msec 6 points Capacitor keep Range 0 to 3 276 7 sec T250 to 1255 7 MITSUBISHI 7 11 Series Programmable Controllers Diagnostics 7 General a points Range 1 to 32 767 counts Latched EEPROM backed up Counters C General Latched EEPROM Specification 0 CO to C15 Type 16 bit up counter C16 to C199 EEPROM keep C16 to C31 Capacitor keep C32 to C199 Type 16 bit up counter 184 points Range 1 to 32 767 counts EEPROM keep 16 points Capacitor keep 168 points 20 points Range 2 147 483 648 to 2 147 483 647 counts 15 points Capacitor keep Range 2 147 483 648 to C200 to C219 Type 32 bit bi directional counter C220 to C234 Type 32 bit bi directional counter C235 to C240 6 points C241to C245 5 points 2 147 483 647 counts Range 2 147 483 648 to 2 147 483 647 counts c w start General rule Select counter stop input combinations with a combined High speed 22 501655
63. y ev 9 I 9 DS 2 e 1 1 i al e 24V OV S S X S S OV 24 24 T Nome tcn Extension Powered extension unit Special Block Only connect DC power Function NAS O DC DC 24 24 supply type for Series Block Unit Converter 1 It is recommended to use the same power source to power the main unit powered extension units and special function blocks units If two sources are required follow the below guidelines Supply power to the powered extension units and special function blocks units before or at the same time the main unit is powered The power supplies may be cut the same time after ensuring system safety MITSUBISHI 4 6 Series Programmable Controllers Power Supply 4 DC Power supply 24V DC 10 15 Circuit protector or Fuse Emergency stop Power supply switch E E Power ON pilot indicator e Power supply for loads Grounding resistor 100Q or less K Power supply for the input circuitry of the main unit and extension blocks that are connected Powered extension unit of 24V DC supply type for FXoN Series 40 08 FXoN 40ET DSS MITSUBISHI 4 7
64. ys Ambient temperature 25 C and requires 30 minutes to recharge upon power up Note The FX1N does not have battery backup if a system requires backup of more than 10 days Ambient temperature 25 C a peripheral backup power source must be provided MITSUBISHI 1 20 Series Programmable Controllers Introduction 1 Warning If the PLC will be intentionally powered down for a duration exceeding 10days Ambient temperature 25 C then please include the following code into the user program as the supercapcitor backed area of memory will be unfixed M8002 D256 07999 M512 M1535 8128 5999 PE T246 T255 32 C199 C220 C234 M8001 RST T246 RST T247 RST C32 RST C33 The capacitor backed device currently used into the user program The device data held by the supercapcitor will not be reset to 0 as there is NO internal hardware reset function However initialization method by the ZRST instruction for capacitor backed devices T246 T255 C32 C199 C220 C234 not be initialized In order to initialize the condition of the reset coil execute in OFF the RST instruction of the corresponding device currently used into the user program as shown in the example program on the left MITSUBI
Download Pdf Manuals
Related Search