Mitsubishi Electronics MDAX520-0.5K TO 3.5K manual

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Table of contents for the manual

  • Page 1

    D R I VE U N I T H i gh P er f or m anc e & H i gh F unc t i on MA G N E T I C MO T O R SER I ES S P E CI F I CAT I O NS / I NS T RUCT I O N M ANUAL M D - A X 520- 0. 5K t o 3. 5K PR E- O PER AT I O N IN F O R M A T IO N I N S T A LLA T I O N C hapt er 1 C hapt er 2 C hapt er 3 C hapt er 4 Ch a p t e r 5 C hapt er 6 C hapt er 7 Ch a p t e r 8 W[...]

  • Page 2

    1 Please read h ere first Thank you for choosing the M itsubishi Magnetic Motor Drive Unit. This instr uction manual gives handling information and precautions for use of the drive unit. Incorrect handling of the equipment may cause an unexpected f ault. To optimize the unit capability, please read this manual carefully before using the equipment. [...]

  • Page 3

    2 Please read h ere first (Continued) Safety Instr uctio ns This section is spec ificall y about safet y matters Do not attem pt to install, operate, m aintain or inspect the drive un it until you have rea d through this instruct ion m anual and app ended docum ents carefully and can us e the equipm ent correctly. Do not use the drive u nit until y[...]

  • Page 4

    3 Please read h ere first (Continued) 1. Usage WARNING The MELIPM series m ot or is a synchronous motor with high-perform ance magnet s built in its rotor. Theref ore, after the drive unit is po wered off , there are high voltages at the m otor term inals while the motor is running. Bef ore starting wiring or m aint enance and inspect ion, make sur[...]

  • Page 5

    4 Please read h ere first (Continued) 4. Wiring WARNING Any person who is involved in t he wiring of this equipment should be fully com petent to do the work. Other wise, an electric shock or f ire can occur. Install a no-f use breaker or earth leakage circuit break er. Other w ise, a dri ve unit failure can cause large currents to f low, resulting[...]

  • Page 6

    5 Please read h ere first (Continued) 5. Operation WARNING Always replace the f ront cover before s witching input power on. W hile power is on, do not remove the f r ont cover. Doing so can ca use an electric shock. Operate the s witches with dry hands. Not doing so can cause a n electric shock. Prepare an em ergency stop s witch separatel y. The [...]

  • Page 7

    6 Please read h ere first (Continued) 6. Maintenance, Insp ection and Part (Cooling Fan) Replacem ent WARNING Any person who is involved in maint enance, inspection or p art replacem ent should be f ully competent t o do the work. Otherwise, an electric shock or injury can occur. Before starting m aintenance, inspection or part repl acem ent, make [...]

  • Page 8

    7  CONTENTS  Page 1. PRE-OPERATION INFORMATION 1-1 1.1 Checking the P roduct 1-2 1.1.1 C ontent s ............................................................................................ 1-2 1.1.2 T ype .................................................................................................. 1-2 1.1.3 D rive unit s to[...]

  • Page 9

    8 3.2.3 Wiring o f the AC power inpu t termin als R, S , T .................................. 3-6 3.2.4 Wiring of the contro l cir cuit power s upply terminal s R1, S1 ................ 3-6 3.2.5 Wiring of the motor conne ction terminal s U, V, W .............................. 3-7 3.2.6 Wiring of the ground terminal s ...............................[...]

  • Page 10

    9 5.3 Operation Examples 5-3 5.3.1 PU operation mode ............................................................................ 5-3 5.3.2 Ex ternal opera tion m ode .................................................................... 5-4 5.3.3 Ex ternal/PU combined operation mode 1........................................... 5-5 5.3.4 Ex ternal/PU[...]

  • Page 11

    10 8 PARAMETER FUNCTIONS 8-1 8.1 Protection and Editing of the Parameters 8-6 8.2 Selection of th e Operation Mode 8-8 8.3 Selection of th e Speed Comm and 8-12 8.3.1 Sel ection of the analog speed command spe cificatio ns ................... 8-12 8.3.2 Va riable-speed opera tion u sing conta ct input sign als ...................... 8-18 8.4 Select[...]

  • Page 12

    1. PRE-OPERATION INFORM ATION 1-1 1 2 3 4 5 6 7 8 1. PRE-OPERATION INFORMATION This chapter provides fundamental information necessary prior to operation of the drive unit.   Contents of This Chapt er  Page 1.1 Checking the P roduct 1-2 1.1.1 C ontent s [...]

  • Page 13

    1. PRE-OPERATION INFORM ATION 1-2 1.1 Checking the P roduct Unpack the drive unit, inspect the contents, and chec k the name plate to ensure that the product agrees with your order. 1.1.1 Contents Contents Quanti ty Drive unit 1 Specification/instr uction manual 1 SAFETY INSTRUCTIO NS (seal)* 1 * The SAFETY INSTRUCTIONS (seal) ar e included in the [...]

  • Page 14

    1. PRE-OPERATION INFORM ATION 1-3 1 1.2 Parts Identific ation Appearance of drive unit Capaci t y plate POW ER la mp ALARM lamp Oper ation pa nel ( FR-DU04) Brak e res istor (F itted on the back) Acce ssor y cove r Fro nt co ver Name plat e Withou t fro n t cov e r Wiri ng cove r PU connect or (Provide d with modul ar jack type relay connec tor) (F[...]

  • Page 15

    1. PRE-OPERATION INFORM ATION 1-4 1.3 Handling of the Cov er and Operation Panel 1.3.1 Removal and reinstallation of the front cover Removal 1) Hold both sides of the front cover top and push the front cover dow n. 2) Hold down the front cover and pull it toward you to remove. (The front cover may be removed w ith the PU (FR-DU04/ FR-PU04) on.) Uni[...]

  • Page 16

    1. PRE-OPERATION INFORM ATION 1-5 1 1.3.3 Removal and reinstalla ti on of the opera ti on panel Hold down the top button of the operation panel and pull the operation panel toward you to remove. Rein stallati on Removal To reinstall, insert stra ight and mount securely. NOTICE Do not reinstall t he operation panel to the front cover which has been [...]

  • Page 17

    1. PRE-OPERATION INFORM ATION 1-6 1.4 Transporta tion W hen carrying, always support the w hole drive unit. 1.5 Storag e Store the drive unit in the following environment. A mbi ence No corrosive gas, flammable gas, oil mist, dust and dirt. No exposure to direct sunlight. No salt. A mbient temp erature -10 ° C to +50 ° C ( non-freezing) Storage t[...]

  • Page 18

    2. INSTALL ATION 2-1 1 2 3 4 5 6 7 8 2. INSTALLATION This chapter gives preparatory information on installation and wiring of the drive unit. NOTICE The Japanese harmonic suppression guidelines for suppression of harmonics were established by the Mi nist r y of International Trade and Industries in September, 1994. To comply with the regulation lev[...]

  • Page 19

    2. INSTALL ATION 2-2 2.1 Checking the Ins tallation Env i ronment 2.1.1 Operat ing environment General operating environment Install t he unit in t he following environment. A mbi ence Indoors (No corrosive gas, flammable gas, oil mist, dust and dirt No exposure to direct sunlight. No salt.) A mbient temp erature -10 ° C to +50 ° C ( non-freezing[...]

  • Page 20

    2. INSTALL ATION 2-3 2 2.1.2 Installat ion in control box W hen installing the drive unit in a control box, the internal temperature of the control box must not exceed the permissible value due to drive-unit generated heat and peripheral-generated heat. Placing a heat sink outside the control box can reduce the heat generated inside the control box[...]

  • Page 21

    2. INSTALL ATION 2-4 Installation in enclosed control box The following is the relationship between the internal temperature rise and heat dissipation area o f an enclosed control box (hereafter referred to as the enclosure) w hich accommodates the drive unit. P A = K • T A: Heat dissipation area (m 2 ) P: All losses produced in enclosure ( W ) T[...]

  • Page 22

    2. INSTALL ATION 2-5 2 2.2 Preparation of Pe ripher al Dev i ces 2.2.1 Basic conf iguration I/O M UV W RST P/+ P1 PR N/- U V W Always c onnect e ither of th e above for circui t (wirin g) protect ion. M ake se lectio n in accordan ce with th e se lect ion tabl e. Choose th e ear th leaka ge circ uit breake r which has ha rmonic suppr ession. No-fus[...]

  • Page 23

    2. INSTALL ATION 2-6 2.2.2 Selection of peri pheral devices (1) Wire size AC power input terminals R, S, T, motor connection terminals U, V, W , DC reactor connection terminals P/+, P1, DC terminals P/+, N/- , ground terminals Wire Size s, U nit: mm 2 Capa city (K) Terminal Screw Size R, S, T U, V, W P/+, P 1, N/ - Con nection Wire Ty pe 0.5 1.0 1.[...]

  • Page 24

    2. INSTALL ATION 2-7 2 (2) Crimping terminals Wire S ize, Un it: mm 2 T erminal Sc rew Size Crimping T erminal S ize 0.5 M3.5 1.25-3.5 0.75 M3.5 1.25-3.5 1.25 M3.5 1.25-3.5 M3.5 2-3.5 2 M4 2- 4 3.5/5.5 M4 5.5-4 (3) No-fuse breakers, mag netic con t acto rs No-Fuse Breaker Capa city (K) With po wer factor improving reactor Without power factor impro[...]

  • Page 25

    2. INSTALL ATION 2-8 Settin g o f rated cu rren t sensi tivi ty Rated current sensitivity ≥ 10 {lg1 + lg n + K (lg 2 + lg m) } K: Constant in consideration of harmonics Earth Leakage Circuit Breaker Type Our product K Harmonic/surge suppression product NV-SF NV-CF 1 NV Ig1 Ign Ig2 Igm M Drive uni t Noise filter General product NV-CA NV-CS NV-SS 3[...]

  • Page 26

    2. INSTALL ATION 2-9 2 2.3 Installation Method 1) Rem ove the front cover. 2) Pass screws or bolts into the four mounting holes and secure the drive unit. 3) Replace the removed cover. Leave the cover removed when continuing the w iring work. CAUTION Prevent screw s, metal pieces an d other con du cti ve foreign matter and oi l an d other flammable[...]

  • Page 27

    3. W IRING 3-1 1 2 3 4 5 6 7 8 3. WIRING This chapter describes the wiring of the drive unit. WARNING Any person who is i nvolv ed in the wiring of this e quipme nt shoul d be fu lly competen t to do the work. O th erw ise, an electri c shock o r fi re can occur. Alwa ys install the unit before wiri ng. Otherw ise, an electri c shock o r fire can o[...]

  • Page 28

    3. W IRING 3-2 3.2 Wiring of the Main Circuit Terminal s 3-5 3.2.1 T erminal s ........................................................................................... 3-5 3.2.2 T erminal lay out and connecti on specif ication s ................................... 3-5 3.2.3 Wiring o f the AC power inpu t termin als R, S , T .....................[...]

  • Page 29

    3. W IRING 3-3 3 3.1 Pre-Wiring Instru ctions 3.1.1 Terminal connecti on diagram The following shows the wiring of all terminals (when sin k logic is used). After confirming the function of each terminal, wire necessary terminals according to your application. W hen the operation panel is used to perform operation, merely doing the main circuit wir[...]

  • Page 30

    3. W IRING 3-4 3.1.2 Noises Take the following measures if you want to further suppress noises which affect the drive unit or when there are devices nearby w hich are susceptible to noises (e.g. measuring instruments, telephone lines, various sensors). (1) When no i ses are expected from th e drive unit sign al cables Fit data line filters to the s[...]

  • Page 31

    3. W IRING 3-5 3 3.2 Wiring of the Main Circuit Terminal s 3.2.1 Te rminals Symbols Name Description R, S, T AC power input terminals Connect to the commercial power supply. U, V, W Motor connection terminals Connect to a dedicated variable-speed synchronous motor. R1, S1 Cont r ol circuit power supply terminals Connected to the AC power input term[...]

  • Page 32

    3. W IRING 3-6 3.2.3 Wiring of the AC power input terminals R, S, T Connect these terminals to the AC power supply. You need not match the phase se quence. RS T RS T Power supply No-fuse br eaker CAUTION Alway s apply power to only the AC power input termina ls R, S, T and c ontrol c ircuit power su pply termina ls R1, S1 . Apply ing power to the o[...]

  • Page 33

    3. W IRING 3-7 3 3.2.5 W iring of the motor connection terminals U, V, W Connect these terminals to the motor. M atch the phase sequence of the motor connec tion terminals U, V, W with that of the motor cables. Incorrect phase se quence will run the motor in reverse. UV W UV W Motor CAUTION The wirin g length betw een the dri ve unit and mo tor sh [...]

  • Page 34

    3. W IRING 3-8 3.2.7 Wiring of the DC reactor connection terminals P/+, P1 These terminals are designed for connection o f the power factor improving reactor (FR-BEL). Remove the jumper across the terminals P/+-P1 and conne ct the DC reactor. P1 FR-BEL P/ + Remove j umper. NOTICE The wiring distance (overall lengt h) should be within 5m. MEMO W ith[...]

  • Page 35

    3. W IRING 3-9 3 3.2.9 W iring of the DC term inals P/+, N /- These terminals are designed for connection of the BU brake unit or high power f actor converter. For connection of BU brake unit 1) Rem ove the jumper across the t erminals PR-PX. 2) Connect the BU brake unit. For full information, read the BU brake unit instruction m anual. 3) Change t[...]

  • Page 36

    3. W IRING 3-10 X10 (M RS) R1 S1 RES SD T S R M RDY N P RSO SE V U W P/ + N/ - Motor Power suppl y High powe r fa ctor converte r (FR-HC) Drive uni t CAUTION Do not c onnect a powe r supply to the A C power input te rminals R, S, T of the dr ive unit. Do ing so will da mage the driv e unit. Opposite polar ity (r evers e connec tion) of the DC ter m[...]

  • Page 37

    3. W IRING 3-11 3 3.3 Wiring of the Control Circuit Termin als CAUTION Use s hielded or twiste d cables f or wir ing the control c ircuit i nput term inals. A lso run the m a way from the main c ircuit wiring a nd othe r po wer cables . Not d oing s o can cause a mal f u nction due to noise. 3.3.1 Te rminals Aft er confirming the function of each t[...]

  • Page 38

    3. W IRING 3-12 MEMO Ratings of the contact input terminals Input resistance: 4.7k Ω , open-time voltage: 24 ± 3VDC, short cir cuit- time current: 4 to 6mADC Use the terminal PC as a pow er supply terminal. Can be used as a pow er supply for a sensor or equivalent. The common terminal is the terminal SD (digital common). Power supply voltage ran[...]

  • Page 39

    3. W IRING 3-13 3 (3) Transistor output terminals When the function of any ter minal is activated, t he internal transist or (open collector output) connected across that terminal and common te rminal turns ON (conducts). You can set the pa rameter function to change the function of each terminal. Refer to: Chapter 8, 8.7.2 Selection of the control[...]

  • Page 40

    3. W IRING 3-14 (5) Instrumen t connection termi nals Used to display the motor speed ex ternally. You can use the p arameter function to choose the item other than the motor speed Refer to: Chapter 8, 8.7.5 Selection of the ins trument connection terminal functions Sy mbo l Name Description FM Met e r connection The output voltage has an 8VDC puls[...]

  • Page 41

    3. W IRING 3-15 3 3.3.3 Switching between sink logi c and source logic Description Sink Logic Source Logic In this lo gic, a signal turns ON w hen a current flows out of the input terminal. In this logic, a signal turns ON when a current flows into the input terminal. To use the contact input terminals as source logic, the connector on the bac k of[...]

  • Page 42

    3. W IRING 3-16 3.3.4 Wiring of the contact input terminals Use shielded or twisted shielded cables for w iring. Connect one shield sheath to the common terminal of the corresponding logic connection. Leave the other shield sheath open. When using contact si gnals The following shows the wiring of the terminals S TF, STR. The same wiring also appli[...]

  • Page 43

    3. W IRING 3-17 3 When using pushbuttons Using the STOP terminal allows the start signal (forward/reverse rotation) to be self-held. W hen the start signal is input once, it is held within the drive unit until the stop signal is input. This function is not available for other than the start signal. Sink Logic Source Logic The terminal SD is a commo[...]

  • Page 44

    3. W IRING 3-18 3.3.6 W iring of the transistor output te rminals The following shows the wiring of the terminals RUN, SU. The same w iring also applies to the other terminals. Sink Logic Source Logic The terminal SE is a common terminal. RUN SU SE 1 2 9 R R R R DC24V Drive uni t The terminal SE is a common terminal. DC24V RUN SU SE 1 2 9 R R R R 8[...]

  • Page 45

    3. W IRING 3-19 3 3.3.7 Wiring of the contact output terminals The following wiring example assumes that when the protective circuit is activated, the ma gnet ic contactor (MC) on the pow er supply side is opened to sw itch off the main circuit power and the control circuit power of the drive unit is supplied to hold the alarm signal. R S T R1 S1 B[...]

  • Page 46

    3. W IRING 3-20 3.4 Wiring of the PU Connector 3.4.1 P in layout As seen from the drive unit (receptacle side) front 1) SG 2) P5S 3) RDA 4) SDB 5) SDA 6) RDB 7) SG 8) P5S 8) to 1) NOTICE Pins No. 2 and 8 (P5S) provide pow er to the operation panel. Do not use them when making RS-485 communication. 3.4.2 Using the cable to connect the operation pane[...]

  • Page 47

    3. W IRING 3-21 3 Parts used (Use co mmercially available part s f or wiring) Connector RJ45 connector Example: 5-554720-3, Tyco Electronics Corporation Cable Cable conforming to EIA568 (such as 10BASE-T cable) Example: SGLPEV 0.5mm × 4P (Twisted pair cable, 4 pairs), M itsubishi Cable Industries, Ltd. 2) For RS-232C communication operation Com pu[...]

  • Page 48

    3. W IRING 3-22 3.4.4 Wiring methods for communi cati on operation 1) Wiring of one computer and one drive unit for RS-485 SDB SDA RDB RDA FG SG CSB CSA RSB RSA RDB RDA SDB SDA SG Computer Si de Ter minals Signal name Descript ion Receiv e dat a Receiv e dat a Send data Send data Request t o send Request t o send Clea r to s end Clea r to s end Sig[...]

  • Page 49

    4. HOW TO USE THE OPERA TION PANEL 4-1 1 2 3 4 5 6 7 8 4. HOW TO USE THE OPERATION PANEL This chapter provides instructions on how to use the operation panel (FR-DU04) of the drive unit. MEMO For the way to use the FR-PU04 parameter unit, refer to the instruction manual of the FR-PU04 parameter unit. Note that when the FR-PU04 is used, there are re[...]

  • Page 50

    4. HOW TO USE THE OPERA TION PANEL 4-2 4.1 Part Na mes and Functions FR-DU04 Hz A V MON EX T PU CONTROL PANEL FWD MODE SET REV FWD STOP RESET REV Key operat ion section Main indi cator LED Unit indi cat or LEDs Mod e in dic a to r LE D s Name Function Main indicator LED (4 dig its) I ndicat es the speed, output current and o ther monitored values a[...]

  • Page 51

    4. HOW TO USE THE OPERA TION PANEL 4-3 4 4.2 Operation Mode s The operation panel can be used to stop operation, set the speed, moni tor the operation command/status, display an alarm, and copy the parameter values. Press the MO DE key to di splay each mode in sequence. Mode Description Mo nitor mo de Used to display the speed, motor current or out[...]

  • Page 52

    4. HOW TO USE THE OPERA TION PANEL 4-4 4.3 Operation Procedur es (1) Monitor m ode MODE SET SET SET FR-DU04 C ONT ROL PANEL Hz MON EXT PU A V REV FWD FR-DU04 C ONT ROL PANEL Hz MON EXT PU A V REV FWD FR-DU04 C ONT ROL PANEL Hz MON EXT PU A V REV FWD FR-DU04 C ONT ROL PANEL Hz MON EXT PU A V REV FWD SET SET SET To mon itor mode initia l screen Cur r[...]

  • Page 53

    4. HOW TO USE THE OPERA TION PANEL 4-5 4 (3) Parameter setting mode Setting example: Settin g of 50 in Pr. 232 MODE MODE SET SET SET SET SET SET SET FR-DU04 CONTRO L PAN EL Hz MON EXT PU A V REV FWD SET SET Appear alte rnat ely. Initial s creen Set par ameter Pre sent sett ing Setting cha nging Value write scre en Press for 2s . MEMO You can also s[...]

  • Page 54

    4. HOW TO USE THE OPERA TION PANEL 4-6 (5) Help mode SET MODE SET SET SET SET SET SET SET SET SET SET SET SET FR-DU04 CONTROL P ANEL Hz MON EXT PU A V REV FWD FR-DU04 CONTROL P ANEL Hz MON EXT PU A V REV FWD FR-DU04 CONTROL P ANEL Hz MON EXT PU A V REV FWD FR-DU04 CONTROL P ANEL Hz MON EXT PU A V REV FWD FR-DU04 CONTROL P ANEL Hz MON EXT PU A V REV[...]

  • Page 55

    4. HOW TO USE THE OPERA TION PANEL 4-7 4 SET FR-DU04 CONTROL P ANEL Hz MON EXT PU A V REV FWD Software versi on read Help mode ini tial sc reen To use r clea r Appe ar alternately . To alar m history read MEMO Pressing S E T on the alarm history display screen show s the speed, current and voltage at alarm occurrence. (This function is invalid for [...]

  • Page 56

    4. HOW TO USE THE OPERA TION PANEL 4-8 4.4 Restrictions for Use of the F R-PU 0 4 W hen the FR-PU04 parameter unit (option) is used, some of the FR-PU04 functions are unavailable. (1) Para meter unit display langua ge • Data may be displayed in Japanese o nly. It cannot be changed to any other language. (2) Para meter nam es and s etting range s [...]

  • Page 57

    5. OPERATION 5-1 1 2 3 4 5 6 7 8 5. OPERATION This chapter gives the basic operation me thods of the drive unit. CAUTION If the machi ne should beco me out of contro l, perform test operati on after ensuri ng safety. Start oper ation afte r perfor ming test opera tion under light load at low spee d to ensure that op eration i s p erformed safely. C[...]

  • Page 58

    5. OPERATION 5-2 5.1 Po wer On Switch power on after making sure that the unit has been installed and wired properly and that the start si gnal is OF F. The LEDs and PO W ER lamp o f t he operation panel are lit. NOTICE If the LEDs do not come on, chec k the following: • There is no contact fault in the connection of the oper ation panel and the [...]

  • Page 59

    5. OPERATION 5-3 5 5.3 Oper ation Exam ples 5.3.1 PU operation mode (1) When perfo rming operati on by setting the running sp eed (1000r/min) w ith the (UP/DOWN) key Step O peration Procedure (from Factory Setting) Dis pla y (on Compl eti on of Operati on) 1) When power is switched on , the "MON" mode indicator LED of the operation panel [...]

  • Page 60

    5. OPERATION 5-4 5.3.2 External operation mode (1) When performin g opera tion us ing the a nalog spe ed comm and (volta ge inp ut) Step O peration Procedure (from Factory Setting) Dis pla y (on Compl eti on of Operati on) 1) When power is switched on , the "MON" mode indicator LED of the operation panel is lit and the monitor scr een app[...]

  • Page 61

    5. OPERATION 5-5 5 5.3.3 External/PU combined operation mode 1 W hen performing operation by setting the running speed (1000r/min) wi th t he (UP /DO W N) key Step O peration Procedure (from Factory Setting) Dis pla y (on Compl eti on of Operati on) 1) When power is switched on , the "MON" mode indicator LED of the operation panel is lit [...]

  • Page 62

    5. OPERATION 5-6 5.3.4 External/PU combined operation mode 2 W hen performing operation using the analo g speed command (voltage input) Step O peration Procedure (from Factory Setting) Dis pla y (on Compl eti on of Operati on) 1) When power is switched on , the "MON" mode indicator LED of the operation panel is lit and the monitor screen [...]

  • Page 63

    5. OPERATION 5-7 5 5.3.5 Star ti ng oper ation The drive unit detects the magnetic pole of the motor at ev ery start. The magnetic pole detection time is approx. 0.1s (85ms ± 15ms) a fter t he start signal and speed signal are input. During this period, the motor remains stopped and starts running after magnetic pole detection is f inished. When i[...]

  • Page 64

    6. TROUBLESHOOTING 6-1 1 2 3 4 5 6 7 8 6. TROUBLESHOOTING This chapter describes how to remedy a fault which occurred in your drive unit or motor and the maintenance and inspection of the drive unit. NOTICE If you have found any fault, immediately perform inspection and take action to remove its cause. If you cannot identify the cause and resolve t[...]

  • Page 65

    6. TROUBLESHOOTING 6-2 6.1 Messag e Appearing on the Operation P anel 6.1.1 Protect ive function activ ated W hen the protective f unct ion is activated, any of the following messages may appears on the operation panel or parameter unit. At this time, the ALARM lamp is lit, the drive unit output is shut off, and the mo tor, i f running, coasts. MEM[...]

  • Page 66

    6. TROUBLESHOOTING 6-3 6 Table 6-1 (Continued) Indication Opera tion panel (A c tu al characters ) Paramete r unit Protective Function Name Detection Level Estimated Cause ( ) and Corrective A ction ( • ) (E. GF ) Outpu t sid e ground fault overcurrent Any of outputs U, V, W is in a gr ound fault. (E. 0V 1) Accelerati on- time over volta g e Main[...]

  • Page 67

    6. TROUBLESHOOTING 6-4 Table 6-1 (Continued) Indication Opera tion panel (A c tu al characters ) Parameter unit Protective Function Name Detection Level Estima ted Ca use ( ) and Corrective A ction ( • ) (E. 0H T) Extern al fau lt  The external relay or equivalent component connected to the terminal which had been assigned to the OH si gnal op[...]

  • Page 68

    6. TROUBLESHOOTING 6-5 6 If any of the messages in Table 6-2 appears, the drive unit is assumed to have failed. If the same message reappears after an alarm reset, immediately replace the drive unit. Table 6-2 I ndication Opera tion panel (A c tu al characters ) Paramete r unit Protective Function Name Detection Level Estimated Cause ( ) and Correc[...]

  • Page 69

    6. TROUBLESHOOTING 6-6 6.1.3 Othe rs Table 6-4 I ndication Opera tion panel (A c tu al characters) Parameter unit Protective Function Name Detection Level Estima ted Ca use ( ) and Corrective A ction ( • ) (Err) Op eration erro r Parameter changing operation w as performed during external operation. The value that was set is outside the parameter[...]

  • Page 70

    6. TROUBLESHOOTING 6-7 6 6.2 Motor operation out of ordin ary If any of t he follo wing f aults has occur red in th e motor , find out its cause an d take adeq uate meas ures. Event Check Point Estimated Cause ( ) and Corrective A ction ( • ) Check the main circuit. A normal power supply voltage is not applied. The jumper across terminals R1-S1 h[...]

  • Page 71

    6. TROUBLESHOOTING 6-8 6.3 Noise Malfunctions and Measu res Drive unit-generat ed noises are largely classified into those radiated by the cables connec ted to the drive unit and drive unit's main circuit (I/O), those electromagnet ically and electrost atically induced to the signal cables of the peripheral devices close to the main circuit ca[...]

  • Page 72

    6. TROUBLESHOOTING 6-9 6 (2) Specific measu res Take the following measures against anticipated noise propagation paths. For the nece ssity of the measures, refer to the levels (estimated values) of the expected e ffects. : La rge e ffect, : W ith effe ct , : S mall e ffect,  : W itho ut effect Noi se Pr opag ati on Pat hs A ir- propaga ted nois[...]

  • Page 73

    6. TROUBLESHOOTING 6-10 6.4 Maintenance and Insp ection WARNING When pe rfo rming insp ection by remo ving the fro n t cover or the li ke, sw itch pow er off, wait 10 or mo re mi nu tes, then check th at the vol t ag e across the DC termin als P/+-N/- is less than 30VDC w ith a tester or l i ke before starting i n spection. Not doi ng so can cau se[...]

  • Page 74

    6. TROUBLESHOOTING 6-11 6 Table 6-5 Periodic Inspection List A rea of Inspection Inspection I tems Methods Criteria Surrounding environment 1) Check ambient temperature, humidity, vibration, ambience (for dust, dirt, gas, oil mist, water drops, etc.) 2) Check f or tools, f oreign matter and dangerous articles in the periphery. 1) Measure visually o[...]

  • Page 75

    6. TROUBLESHOOTING 6-12 NOTICE Insulation resistance test using megger W here possible, do not conduct an insulation resistance test using a megger since an insulation test has been done before shipm ent from the factory. When it is inevitable to make an insulation resistance test using a megger, disconnect all cables from the control circuit to pr[...]

  • Page 76

    6. TROUBLESHOOTING 6-13 6 6.4.3 Cool ing fan repl acement method Removal 1) Rem ove the cooling fan cover. Push the cover in the direction of a rrows and pull it down. 2) Unplug the cooling fan connector. 3) Remove the cooling fan from the cooling f an cover. The cooling fan is secured by the latches. Reinstallation 1) After confirming the orientat[...]

  • Page 77

    6. TROUBLESHOOTING 6-14 6.4.4 Driv e unit replacement The drive unit can be chan ged with the control circuit wiring kept connected. Before replacement, remove the screws in the wiring cov er of the drive unit. 1) Remove the mounting screws in bo th ends of the control circuit terminal block. 2) With both hands, pull down the terminal block from th[...]

  • Page 78

    6. TROUBLESHOOTING 6-15 6 6.4.5 Measu rement of c ircuit current (1) Measurement o f main circui t voltages, cu rrents and pow ers Since the voltages and currents on the drive unit's pow er supply and output sides include harmonics, measured values may vary with the instrument types. Make measurement in the f ollowing method when instruments d[...]

  • Page 79

    6. TROUBLESHOOTING 6-16 (2) Measurement of power factor The power factor cannot be measured w ith a commercially available power-factor m eter which is designed to measure the phase di fference between a voltage and a cur rent. Measure the power supply side voltage, current and power, then calculate the power factor using the following expression. [...]

  • Page 80

    7. SPECIFICATIONS 7-1 1 2 3 4 5 6 7 8 7. SPECIFICATIONS   Contents of This Chapt er  Page 7.1 Driv e Unit Specification s 7-2 7.1.1 S tandard specifica tions ...................................................................... 7-2 7.1.2 Ou tline draw i[...]

  • Page 81

    7. SPECIFICATIONS 7-2 7.1 Driv e Unit Specification s 7.1.1 Standard spec ifications (1) Rating specifications MD-AX520- 0. 5K 1.0K 1.5K 2.0K 3. 5K Applicable motor capacity (kW) 0.5 1.0 1.5 2.0 3.5 Overload capacity 150% 60s (inverse-time characteristics) Max. value/time 150% 5s 100% 5s Outpu t Regenerat ive braking torq ue Permissib le duty 3% E [...]

  • Page 82

    7. SPECIFICATIONS 7-3 7 Control specifications Control system Sensor-less P W M con trol Carrier frequency Any of 1.3kHz, 3.8kHz, 6.4kHz and 9.0kHz can be set. Max. output speed 3000r/min ( output frequency 200Hz) A nal og i nput 1/4000 of the max. preset speed (0.15r/min or mo re) Speed setting resolution Digit al input 1r/min Speed output resolut[...]

  • Page 83

    7. SPECIFICATIONS 7-4 Start (for ward/r everse rot ation), stop, JOG by individual key operations Operation command Speed command by k ey operation Monitor items Motor speed, motor current, output voltage, alarm display, preset speed, converter output voltage, regenerative brake duty, electronic overcurrent protection load factor, cumulative energi[...]

  • Page 84

    7. SPECIFICATIONS 7-5 7 7.1.2 Outli ne drawings AX520-0.5K, 1.0K Driv e Unit Ty pe D 0.5K 110 1.0K 125 110 260 D 95 6 5 245 2- 6 hole (Uni t: mm) AX520-1.5K to 3.5K 150 260 140 143 125 6 5 245 49.5 2- 6 hole (Uni t: mm)[...]

  • Page 85

    7. SPECIFICATIONS 7-6 Operation panel < O ut l i ne dr a w i ng > <Panel cut ting dimen sion draw ing> 19.75 3.25 3.5 16.5 23.75 46.5 17 54 81.5 72 15 10.5 20 54 16.5 46.5 24 2-M3 threads Effective depth 4.5 2- 4 hole Select the mounting screws so that their len gt h w ill not exceed the mounting threads' effective depth. (Unit: mm[...]

  • Page 86

    7. SPECIFICATIONS 7-7 7 7.1.3 Option list Name Type A pplica ble Capacity Applicati on, Specifications, Etc. Parame ter unit (Japanese only) FR-PU04 All capacities LCD display, capable of direct input from ten-k ey pad. Refer to: Chapter 4, 4.4 Instructions fo r Us e of t he F R -P U 04 Parame ter unit connection cable FR- CB201 FR-CB203 FR-CB205 A[...]

  • Page 87

    7. SPECIFICATIONS 7-8 7.2 Motor Specific ations 7.2.1 Standard spec ifications Motor 2000r/min Se ries It em MM-CF52 MM -C F 10 2 MM -CF 152 M M-C F 20 2 MM -CF 352 Compatible drive unit MD-AX520- MD-CX520 - 0.5K 1.0K 1.5K 2.0K 3. 5K Rated output [k W ] 0.5 1.0 1.5 2.0 3.5 Continuous characteristics (Note 1) Rated t orque [N • m] 2.39 4.78 7.16 9[...]

  • Page 88

    8 PARAMETER FUNCTIONS 8-1 1 2 3 4 5 6 7 8 8 PARAMETER FUNCTIONS Refer to Appendix 1 for the parameter list. This chapter describes the parameter functions o f the drive unit. The parameters are basically ex plained in t he f ollowing f ormat. Example: Pr. 10, 11 Pr. 10 100 Pr. 11 9999 "voltage braking operatio n time" Paramete r number Pa[...]

  • Page 89

    8 PARAMETER FUNCTIONS 8-2 Pr. 199 "user's initial value set ting" 8.2 Selection of th e Operation Mode 8-8 BASIC Pr. 79 "operation mode selection" BASIC Pr. 75 "disconnected PU detection/PU st op select ion" 8.3 Selection of th e Speed Comm and 8-12 8.3.1 Sel ection of the analog speed command spe cificatio ns ...[...]

  • Page 90

    8 PARAMETER FUNCTIONS 8-3 8 8.5 Setting of the Oper ation Pattern 8-24 8.5.1 R unning speed region ...................................................................... 8-24 BASIC Pr. 1 "m aximum speed" BASIC Pr. 2 "m inimum speed" Pr. 13 "minim um motor speed" Pr. 31 to 36 "speed command jum ps 1A to 3B" BA[...]

  • Page 91

    8 PARAMETER FUNCTIONS 8-4 8.6 Setting of Various Operation Methods 8-34 8.6.1 JOG operation ................................................................................. 8-34 Pr. 15 "JOG speed" Pr. 16 "JOG accelera tion/d ecelerati on time" 8.6.2 Co mmuni cation ope ration from the PU conne ctor ............................ [...]

  • Page 92

    8 PARAMETER FUNCTIONS 8-5 8 8.7 Monitoring of Operation Status 8-55 8.7.1 Sel ection of operation panel di splay data......................................... 8-55 Pr. 37 "speed unit s witch-over 1" Pr. 144 "speed unit s witch-over 2" Pr. 52 "main display screen data sel ection" Pr. 171 "actual oper at ion hour m [...]

  • Page 93

    8 PARAMETER FUNCTIONS 8-6 8.1 Protection and Editing of the Parameters Initial value Pr. 77 "p arameter wri t e disable sel ecti on" 0 You can select between w rite-enable and disable f or parameter setting. Setting Function Exceptional Parameters 0 You can change the se tting only during a stop in the PU operation mode. Even during opera[...]

  • Page 94

    8 PARAMETER FUNCTIONS 8-7 8 Using Pr. 173 to Pr. 176, re gist er or delete the parameters to the user groups. Pr. Setting Range Descripti on 173 0 to 999 The parameter number to be re gistered is written as a set value. 0 to 999 The parameter number to be deleted is written as a set value. User group 1 174 9999 W ritten when the registered paramete[...]

  • Page 95

    8 PARAMETER FUNCTIONS 8-8 8.2 Selection of th e Operation Mode Initial value Pr. 79 "o peration mod e sel ection" 0 The setting range is 0 to 4 and 6 to 8. When the operation mode is fix ed (Setting 0 to 4) Setting Mode Function (Refer to: Chapter 5, 5.3 Operation Examples) 0 PU/e xtern al operat ion swit ch ing You can perform operation [...]

  • Page 96

    8 PARAMETER FUNCTIONS 8-9 8 When the operation mode sw itching condition is specified (Setting 6 to 8) Setting M ode Function 6 Switch-over In response to the selection of the PU operation mode or external operation mode from the operation panel or paramete r unit (FR-PU04), the operation command right can be chan ged from the external operation to[...]

  • Page 97

    8 PARAMETER FUNCTIONS 8-10 Setting M ode Function 8 External signal switching W hen the contact input terminal where the X16 signal has been selected is "ON", the operation mode is fixed to the external operation mode, or when that terminal is "OFF", the operation mode is fixed to the PU operation mode. Switching is enabled duri[...]

  • Page 98

    8 PARAMETER FUNCTIONS 8-11 8 Initial value Pr. 75 "d isconn ected PU detection/PU stop selection" 0 Disconnected PU detection function You can make selection between continued ope ration or an alarm stop ("E. PUE" indication) when the operation panel or FR-PU04 parameter unit has come o ff the drive unit during operation. MEMO T[...]

  • Page 99

    8 PARAMETER FUNCTIONS 8-12 8.3 Selection of th e Speed Comm and 8.3.1 Select ion of the analog speed command specif ications Initial value Pr. 73 "sp eed comman d ran g e selection" 0 You can select the speci ficat ions of the speed command input terminals, forward/reverse rotation operation according to the input signal polarity, and the[...]

  • Page 100

    8 PARAMETER FUNCTIONS 8-13 8 Initial value Pr. 74 "filter time c onstant " 1 You can set the filter time constants o f the speed command input terminals (terminals 2, 1, 4). Increase the value i f stable operation cannot be performed due to the in f luence of noise on the speed command si gnal. Decreasing the value makes the speed co mman[...]

  • Page 101

    8 PARAMETER FUNCTIONS 8-14 Initial value Pr. 902 "speed setti ng voltage bi as" Approx. 0/0 Pr. 903 "speed setti ng voltage g ain" Approx. 100/ 2000 You can set the relationship betw een the magnitude of the speed setting analog voltage signal input to the terminal 2 and the moto r speed. 0V of the speed setting signal correspon[...]

  • Page 102

    8 PARAMETER FUNCTIONS 8-15 8 <Setting example 1> Set 500r/min at the speed setting signal 0V and 1500r/min at 10V. 1500 500 01 0 Running speed (r/min) Speed setti ng vol tage (V) Make sure that 0-10V is selected as the input voltage of the terminal 2. (Pr. 73 = 0 ) Item Opera tion P roced ure Operation Panel Screen (on Completion of Operation[...]

  • Page 103

    8 PARAMETER FUNCTIONS 8-16 <Setting example 2> Set 0r/min at the speed setting signal 1V and 3000r/min at 5V. 3000 0 1(20%) 5( 100%) Speed set ting v oltage (V) Running spee d (r/min ) Make sure that 0-5V is selected as the input voltage of the terminal 2. (Pr. 73 = 1) Item Opera tion P roced ure Operation Panel Screen (on Completion of Opera[...]

  • Page 104

    8 PARAMETER FUNCTIONS 8-17 8 Initial value Pr. 904 "speed setti ng current bi as" A pp ro x. 20/0 Pr. 905 "speed setti ng current gai n" Appro x. 100/2000 You can set the relationship betw een the magnitude of the speed setting analog current signal input to the terminal 4 and the motor speed . 0mA of the speed setting signal co[...]

  • Page 105

    8 PARAMETER FUNCTIONS 8-18 8.3.2 Variable-speed operati on using contact input signal s Initial value Pr. 4 " three-speed setti ng (high sp eed )" 2000 Pr. 5 " three-speed setti ng (middl e speed)" 1000 Pr. 6 " three-speed setti ng (low speed)" 500 Pr. 24 to 27 " mu lti-speed setti ng (speed 4 to 7)" 9999 Pr.[...]

  • Page 106

    8 PARAMETER FUNCTIONS 8-19 8 Initial value Pr. 59 "remo t e setti ng function sel ection" 0 You can perform operation by chan ging the speed continuously with only the contact signals without using the analog speed signal. Function Setting Remote se tting function Speed setting storage function 0N o  1Y e s Y e s 2Y e s N o • W hen &[...]

  • Page 107

    8 PARAMETER FUNCTIONS 8-20 Initial value Pr. 28 " co ntact inpu t speed comp ensation" 0 Using the analog speed command, y ou can compensate for (increment/decrement) the speed se t by the contact input provided with the multi-speed setting or remote setting function. Setting Funct ion 0 W ithout speed compensation 1 W ith speed compensa [...]

  • Page 108

    8 PARAMETER FUNCTIONS 8-21 8 8.4 Selection of the Co ntrol Circuit Contact Input Terminal Functions Initial value Pr. 17 "MRS in put selection " 0 Select the operation logic of the MRS signal assigned to the control circuit terminal. Wiring Examples Setting Funct ion Sink logic Source logic 0 Outpu t shu t o ff when terminals are closed. [...]

  • Page 109

    8 PARAMETER FUNCTIONS 8-22 Initial value Pr. 180 "RL termin al fun ction selecti on" 0 Pr. 181 "RM terminal fu n ction selectio n" 1 Pr. 182 "RH terminal fu n ction selectio n" 2 Pr. 183 "RT terminal fun cti on selection " 3 Pr. 184 "AU terminal fun ction sel ectio n" 4 Pr. 185 "JOG term inal f[...]

  • Page 110

    8 PARAMETER FUNCTIONS 8-23 8 Initial value Pr. 188 "RES terminal operati on selection" 0 Select the reset operation of the RES terminal. Reset operation is performed when RES-SD (sink logic) are shorted more than 0 .1s. Setting Name Function 0 CPU reset The cumulative thermal value of the electronic overcurrent protection and the retry co[...]

  • Page 111

    8 PARAMETER FUNCTIONS 8-24 8.5 Setting of the Oper ation Pattern 8.5.1 Running speed regi on Initial value Pr. 1 " maximum sp eed" 3000 Pr. 2 "mini mu m speed" 0 Pr. Setti ng Range Unit 1 0 to 3000 r/min 2 0 to 3000 r/min You can set the upper and lower limits of the motor speed. If the speed command entered is mo re than the ma[...]

  • Page 112

    8 PARAMETER FUNCTIONS 8-25 8 Initial value Pr. 31 to 36 " speed comman d jumps 1 A to 3B" 9999 Pr. A point side B point side Setti ng Range Unit 31 32 0 to 3000, 9999 r/min 33 34 0 to 3000, 9999 r/min 35 36 0 to 3000, 9999 r/min You can set up to three speed areas w here continuous operation will be disabled. You can avoid continuous oper[...]

  • Page 113

    8 PARAMETER FUNCTIONS 8-26 8.5.2 A cceleration time and deceleration time Initial value Pr. 7 " acceleration time" 5 Pr. 8 " decelerati o n time" 5 Pr. 20 "accel eration / deceleratio n reference sp eed " 2000 Pr. 21 "accel eration / decelerati o n time uni t" 0 Pr. Pr. 21 Setting Range Unit 0 0.0 to 3600 7, [...]

  • Page 114

    8 PARAMETER FUNCTIONS 8-27 8 Initial value Pr. 44 "second acceleration time" 9999 Pr. 45 "second deceleration time" 9999 Pr. 110 "third accelerati on ti me" 9999 Pr. 111 "third d ecel eration time" 9999 By turning "ON"/"OFF" the contact input signals, you can change the accelera tion/decel[...]

  • Page 115

    8 PARAMETER FUNCTIONS 8-28 8.5.3 A cceleration/decelerat ion patterns Initial value Pr. 29 "accel eration/ deceleratio n pattern" 0 You can change the acceleration/deceleration pattern. Setting Name Function Time vs. Speed 0 Linear acceleration/ deceleration In this pattern, the speed varies with the time const antly. t Tim e Runni ng spe[...]

  • Page 116

    8 PARAMETER FUNCTIONS 8-29 8 8.5.4 Stopping oper ation Initial value Pr. 10 "b raking volt ag e operatio n speed" 100 Pr. 11 "b raking volt ag e operatio n time" 9999 Pr. Se tting R ange Unit Opera tion 10 4 0 t o 2 0 0 r / m in At the pr eset speed or less, th e motor is stop ped b y voltage brak ing. 0.0 to 60.0 s The voltage [...]

  • Page 117

    8 PARAMETER FUNCTIONS 8-30 Initial value Pr. 250 "coasting-to -stop setting" 9999 Set this parameter to coast the motor to a s top when the start signal is turned "OFF". Setting Range U nit Opera tion 0.0 to 100.0 s The motor starts coast ing the pres et time af ter t he start sig nal has turned "O FF". If the st art s[...]

  • Page 118

    8 PARAMETER FUNCTIONS 8-31 8 8.5.6 Stall p revention operation lev el Initial value Pr. 22 "stal l preventio n op erati on level" 150 Setting Range Unit Remarks 0, 1 5 0 % W hen 0 is set, the sta ll prevent ion f unction is not activate d. W hen the output current reaches the P r. 22 setting, the speed is varied w ith the r unning status [...]

  • Page 119

    8 PARAMETER FUNCTIONS 8-32 8.5.7 Selection of motor tone Initial value Pr. 72 "m otor tone s electi on" 1 Setting Range Unit 1 to 4  Increasing the setting will decrease noise (metallic tone) from the motor, but will increase the electromagnetic noise amount generated from the drive unit. 8.5.8 Other settings Initial value Pr. 9 "[...]

  • Page 120

    8 PARAMETER FUNCTIONS 8-33 8 Pr. 84 "rated mo tor speed" Read-onl y The rated speed of the motor used with the drive unit is displayed. This parameter is for read-only and its value cannot be chan ged. Initial value Pr. 244 "cooli ng fan operatio n selection" 0 W hen the drive unit has a built-in cooling fan, you can select the [...]

  • Page 121

    8 PARAMETER FUNCTIONS 8-34 8.6 Setting of Various Operation Methods 8.6.1 JOG operation Initial value Pr. 15 "JO G speed" 200 Pr. 16 "JO G acceleration / decelerati o n time" 0.5 Pr. Setti ng Range Unit 15 100 t o 3000 r/min Pr. 21 = 0 0.0 to 3600 16 Pr. 21 = 1 0.00 to 360 .0 s Set the speed for JOG operation in Pr . 15, and the[...]

  • Page 122

    8 PARAMETER FUNCTIONS 8-35 8 8.6.2 Communication oper ation fr om the PU connector Initial value Pr. 117 "station numb er" 0 Pr. 118 "communi cation sp eed " 192 Pr. 119 "stop bit len gth/data lengt h" 1 Pr. 120 "parit y check p resen ce/absen c e" 2 Pr. 121 "number of c ommunication r etries " 1 Pr[...]

  • Page 123

    8 PARAMETER FUNCTIONS 8-36 (1) Communi catio n specification s Conforming standard RS-485 St andard conformance Number of units connected 1 : N (max. 32 units) Communication speed Selected between 19200, 9600 and 4800bps Control protocol Asynchronous Communication method Half- duplex Chara cter sy stem ASCII (7 bits /8 bi ts) selecta ble Stop bit l[...]

  • Page 124

    8 PARAMETER FUNCTIONS 8-37 8 NOTICE Communication operation is performed in response to the communication request from the personal computer. Therefore, if communication is suspended due to a communication cable break or computer failure dur ing operation, the drive unit cannot detect a fault and stop operation. How ever, oper ation is brought to a[...]

  • Page 125

    8 PARAMETER FUNCTIONS 8-38 (4) Comm unication data str ucture Number of Characters Mode Communication Data 1 2 3 4 5 6 7 8 9 10 Computer sending data ENQ Station number Instruction code Data code Sum check CR LF W ithout error ACK Station number CR LF Wr i te Drive unit retu rning data Wi t h e rr or N A K Stat ion number Error code CR LF Computer [...]

  • Page 126

    8 PARAMETER FUNCTIONS 8-39 8 (5) Explana tion of c ommunic ation da ta struc ture 1) Control codes The following table lists the ASCII codes and their definitions of the control code names which are set at the beginning, end and like of the format . Signal Name ASCII Code Description STX H02 Star t of Text (St art of data) ETX H03 End of Text (End [...]

  • Page 127

    8 PARAMETER FUNCTIONS 8-40 ii) Sett ing the operation items Setting Item Mode Instructio n Code Data Codes and Definitions Character count Start W rite HFA H00: Stop H02: Forward rotation H04: Reverse rotation 00 0 1 0 0 00 b7 b0 (For forward rotation) 2 Wr i te H ED Speed setting (RAM ) Read H6D H0000 to H0BB8: 1r/min increments (hexadecimal) To c[...]

  • Page 128

    8 PARAMETER FUNCTIONS 8-41 8 Setting Item Mode Instructio n Code Data Codes and Definitions Character count Mon i t or Drive unit status Read H7A H01: Function assigned to RUN terminal is activ ated H02: During forward rotat ion (STF terminal signal ON) H04: D urin g rev erse ro tation (S TR te rminal signal ON) H08: Function assigned to SU termina[...]

  • Page 129

    8 PARAMETER FUNCTIONS 8-42 W hen converting a value having a decimal place, e .g. parameter setting range, into a data code, make conversion in the setting ran ge whose decimal place has been ca rried. Use HFFFF with the value 9999 which means no function. (Exa mple) Parameter Setting Range (Parameter list) Setting Range (Communication) Data Code P[...]

  • Page 130

    8 PARAMETER FUNCTIONS 8-43 8 4) Sumcheck As a sumcheck value, set the lower 1 byte (8 bits) of the su m derived from ASCII data (station number, instruction code, waiting time, data code) except the control code. The communication data is converted into ASCII automatically. ENQ 0 1 E 1 1 0 7 A D F 4 (H05) H30 H31 H4 5 H31 H31 H3 0 H37 H41 H44 (H 46[...]

  • Page 131

    8 PARAMETER FUNCTIONS 8-44 (6) Program examp l e (Switchi ng the operatio n mo de to commun i cation operation ) 10 OPEN " COM1 : 9600,E,8,2,HD " AS #1 80 A$=MI D$(D$,I,1) 90 A=AS C ( A $) 100 S=S+A 110 NEXTI 120 D$=CHR$ (&H5)+D$+RIGHT$ (HEX$(S) ,2) 130 PRINT# 1,D$ 140 GOTO 50 1000 REC 1010 IF LOC(1)=0 THEN RETURN 1020 PRINT "REC[...]

  • Page 132

    8 PARAMETER FUNCTIONS 8-45 8 8.6.3 PID contr ol operation Initial value Pr. 128 "PID action sel ection" 0 Pr. 129 "PID proportiona l ba nd " 100 Pr. 130 "PID integra l time" 1 Pr. 131 "upper l imit" 9999 Pr. 132 "lower l imit" 9999 Pr. 133 "PID action s et poi nt for PU operatio n" 0 Pr. 1[...]

  • Page 133

    8 PARAMETER FUNCTIONS 8-46 (1) PID operation setting Using Pr. 128, select the PID action and speed command input method. Reverse action and forward ac tion 1) Reverse action Increases the manipulated variable if deviation X (set point - process value) is positive, and decreases the manipulated variable if deviation is negative. Process v alue Set [...]

  • Page 134

    8 PARAMETER FUNCTIONS 8-47 8 Speed command input method 1) When the set point and proce ss value are input to the drive unit Pr. 128 Setting Terminal Used Function Terminal 2 Enter the set point. Terminal 4 Ent er the process value. 20 or 21 Terminal 1 Not used. MEMO The signal input to the terminal 1 is added to the set point of the terminal 2. 2)[...]

  • Page 135

    8 PARAMETER FUNCTIONS 8-48 The results of calibration are as show n below. 100 0 0 5 ( V ) (%) 100 0 0 20 ( mA ) (%) 4 60 0 0 100 Deviati on (% ) [Set poin t settin g] [Detectio n value ] [Manipulate d variabl e] variabl e (Hz) Manipulat ed MEMO For the set point, process value and dev iation signal, set their % equivalents. 1) When the selected fe[...]

  • Page 136

    8 PARAMETER FUNCTIONS 8-49 8 (4) Wiring example (when set point a nd process va lue are entere d to perform PID operation) NFB R S T STF STR RT(X14) SD 10 2 5 4 U V W FU(FUP) OL(FDN) SE M P (OUT) (24V) IPF(RL) (COM) 1 Drive Unit Mo to r Power supply Power supply (Process value) 4 to 20mA Forw ard r otati on Reve r s e rotati on PID control operati [...]

  • Page 137

    8 PARAMETER FUNCTIONS 8-50 (5) A djustment In Pr. 129, 130 and 134, set the proportional band (P), integral time (I) and differential time (D). First set the proportional band a little larger, the integral time a little longer, and the differential time a little shorter. While look ing at the system operation, reduce the proportional band, decrease[...]

  • Page 138

    8 PARAMETER FUNCTIONS 8-51 8 (6) Setting example A detector which outputs the proce ss values of 4mA at 0 ° C a nd 20mA at 50 ° C is used to ad just the temperature to 25 ° C under PID con trol. Procedure Description Determi ne the set point. Determine the set point of the item to be adjusted. Set Pr. 128. Convert the set point into %. Calculate[...]

  • Page 139

    8 PARAMETER FUNCTIONS 8-52 8.6.4 A larm retry operation Initial value Pr. 65 "retr y item sel e ction" 3 A retry is a function to automatically reset an alarm and restart operation i f an alarm is detected and operation stopped. The following table gives the alarms which enable a retry. By changing the set value, you can select the alarm [...]

  • Page 140

    8 PARAMETER FUNCTIONS 8-53 8 Initial value Pr. 68 "retr y time selecti o n " 1 Setting Range Unit Function 0.0 to 10.0 s Select t he waiting time from an alarm occurrence stop to a retry start. W hen the motor is restarted by a re try during coasting, the overcurrent alarm may be a ctivated. Set Pr. 68 so that a re try is made after the m[...]

  • Page 141

    8 PARAMETER FUNCTIONS 8-54 8.6.5 Power failure deceleration-to-stop operation Initial value Pr. 261 "power fai lu re stop selectio n" 0 Pr. 262 "subtracted sp eed at deceleratio n start" 0 Pr. 263 "subtracti on starting sp eed" 2000 Pr. 264 "power-fai l ure deceleratio n time 1" 5 Pr. 265 "power-fai l ur[...]

  • Page 142

    8 PARAMETER FUNCTIONS 8-55 8 8.7 Monitoring of Operation Status 8.7.1 Selection of operati on panel displ a y data Initial value Pr. 37 "sp eed uni t swi tch-over 1" 0 Change the display unit of the operation panel or FR-PU04 parameter unit (option). Setting Range Function 0 T he motor speed is disp layed. T he unit is r/ min. 1 to 9998 B[...]

  • Page 143

    8 PARAMETER FUNCTIONS 8-56 Initial value Pr. 52 "mai n displa y screen data selectio n" 0 You can select the display data o f the main display screen of the operation panel or FR-PU04 parameter unit (option). Setting Display Data Unit Display Screen Motor speed r/ mi n Mo tor curren t A Outpu t vol tage V 0 Alarm indication  Motor spee[...]

  • Page 144

    8 PARAMETER FUNCTIONS 8-57 8 Initial value Pr. 171 "actual op eration hou r meter clear" 0 You can clear the actual operation time read by setting "23" in Pr. 52. W rite "0" in Pr. 171. (The parameter is factory set to "0") MEMO You canno t clear the cumulative energization time read by setting 20 in Pr . 52.[...]

  • Page 145

    8 PARAMETER FUNCTIONS 8-58 8.7.2 Selection of the control circui t output termi nal functions Initial value Pr. 190 "RUN terminal fun ction selection " 0 Pr. 191 "SU terminal function selecti on" 1 Pr. 192 "IPF termin al function selecti o n" 2 Pr. 193 "OL termin al functio n sel ecti on" 3 Pr. 194 "FU t[...]

  • Page 146

    8 PARAMETER FUNCTIONS 8-59 8 Initial value Pr. 157 "OL sign al outpu t timer" 0 You can set the output timing of the OL signal. Setting Range Unit Function 0 s Output as soon as the stall prevention operation level is reached. 0.1 to 25.0 s Out p ut the preset period of time after the stall prevention operation level has been reached. Ref[...]

  • Page 147

    8 PARAMETER FUNCTIONS 8-60 The operations of the control circuit transistor output terminals relative to the alarm codes are listed in the following table. Logic of Output Terminals A l arm Code Di splayed on Operation Panel (Actual Characters) SU IPF O L FU Definiti on of Logic (E. 0C1) 00 01 (E. 0C2) 00 10 (E. 0C3) 00 11 (E. 0V1 to E. 0V3) 0100 ([...]

  • Page 148

    8 PARAMETER FUNCTIONS 8-61 8 8.7.3 Detection of r unni ng speed Initial value Pr. 41 "u p-to -speed sensiti vity" 10 Setting Range Uni t 0.0 to 100.0 % Once the motor speed in response to the speed command has fallen within the range set in Pr. 41 can be exported from the control circuit output terminal where the SU signal has been a ssig[...]

  • Page 149

    8 PARAMETER FUNCTIONS 8-62 Initial value Pr. 42 "sp eed detecti on" 180 Pr. 43 "sp eed detection for reverse ro tati o n" 9999 Pr. 50 "second s peed dete ction" 900 Pr. 116 "third sp eed detection" 9999 Pr. Setting Range Unit Signal 42 0 to 3000 r/min FU 0 to 3000 r/min FU 43 9999  50 0 to 3000 r/min FU[...]

  • Page 150

    8 PARAMETER FUNCTIONS 8-63 8 8.7.4 Detection of output cur r ent Initial value Pr. 150 "output curren t detecti o n level" 150 Pr. 151 "output curr ent dete ction tim e" 0 Pr. Setti ng Range Unit 150 0.0 to 200.0 % 151 0.0 to 10.0 s If the motor current remains higher than the Pr. 150 setting for longer than the time set in Pr. [...]

  • Page 151

    8 PARAMETER FUNCTIONS 8-64 8.7.5 Selection of the instrument connection terminal functions Initial value Pr. 54 "F M terminal fun ctio n selection" 1 Pr. 158 "AM terminal fun ction selection" 1 You can select the signals outpu t to the FM and AM terminals designed for instrument connection. Setting Display Data Unit Full-Scale 1[...]

  • Page 152

    8 PARAMETER FUNCTIONS 8-65 8 Pr. 900 "FM terminal cal ibration" Using the operation panel or parameter unit, y ou can calibrate the full scale of a meter connec ted to the FM instrument connection terminal. The terminal FM outputs a 1mADC current at the value set in P r. 55 or 56. When the full scale of the meter used must be calibrated, [...]

  • Page 153

    8 PARAMETER FUNCTIONS 8-66 Pr. 901 " AM ter minal calibr ation" Using the operation panel or parameter unit, y ou can calibrate the full scale of a meter connec ted to the AM instrument connection terminal. The terminal AM outputs a 10VDC voltage at the value set in Pr. 55 o r 56. W hen the full scale of the used meter must be calibrated,[...]

  • Page 154

    8 PARAMETER FUNCTIONS 8-67 8 8.8 Control Pa ra meters Do not change the settings of these parameters since they have been factory-set to the op timum values. W hen changing their settings, you need to set 801 in Pr. 77. <Contro l para meters> Initial value P r . 7 3 3 "motor pr otec tio n ele ctro nic ov erc urre nt protec tio n v alue &[...]

  • Page 155

    8 PARAMETER FUNCTIONS 8-68 Initial value Pr. 71 "applied m otor" 1 Pr. Se tting R ange Unit Opera tion 71 1  Set the moto r to b e us ed. Initial value Pr. 80 "mo t o r capacity" Pr. Se tting R ange Unit Opera tion 80 0.5, 1.0, 1.5, 2.0, 3.5 kW Set the motor cap acity . Set the same capacity as that of the drive unit. Note: C[...]

  • Page 156

    8 PARAMETER FUNCTIONS 8-69 8 A PPENDIX 1 PA R A METER LIST (NUMERICA L ORDER) Instruc tion Code Data No. Name Setting Range In itia l Value Custom er Setting read Wr ite Extensi on Refer to 1 Maxim um speed 0 t o 3000r/min 3000 01 81 0 2 Minim um speed 0 t o 3000r/min 0 0 2 82 0 8-24 4 Three-s peed set ting (high sp eed) 0 to 3000r/min 2000 04 84 0[...]

  • Page 157

    8 PARAMETER FUNCTIONS 8-70 A PPENDIX 1 PA R A METER LIST (NUMERICA L ORDER) Instruc tion Code Data No. Name Setting Range In itia l Value Custom er Setting read Wr ite Extensi on Refer to 28 Contact input speed compensation 0 , 1 0 1C 9C 0 8-20 29 Acceleration/ deceleration patte rn 0 , 1 , 2 0 1D 9D 0 8-28 30 Regenerative brake option selection 0,[...]

  • Page 158

    8 PARAMETER FUNCTIONS 8-71 8 A PPENDIX 1 PA R A METER LIST (NUMERICA L ORDER) Instruc tion Code Data No. Name Setting Range In itia l Value Custom er Setting read Wr ite Extensi on Refer to 59 Remote setting function selection 0, 1, 2 0 3 B BB 0 8- 1 9 65 Retry item selection 0 to 5 3 4 1 C 1 0 67 Retry count selection 0 to 10, 101 to 110 0 43 C 3 [...]

  • Page 159

    8 PARAMETER FUNCTIONS 8-72 A PPENDIX 1 PA R A METER LIST (NUMERICA L ORDER) Instruc tion Code Data No. Name Setting Range In itia l Value Custom er Setting read Wr ite Extensi on Refer to 117 Station number 0 t o 31 0 11 91 1 118 Communication speed 48, 96, 192 92 1 2 92 1 119 Stop bit length/dat a length 0, 1, 10, 11 1 13 93 1 120 Parity chec k pr[...]

  • Page 160

    8 PARAMETER FUNCTIONS 8-73 8 A PPENDIX 1 PA R A METER LIST (NUMERICA L ORDER) Instruc tion Code Data No. Name Setting Range In itia l Value Custom er Setting read Wr ite Extensi on Refer to 157 OL signal output timer 0.0 to 25.0s 0 39 B9 1 8 -5 9 158 AM termi nal function selection Refer to manual description. 1 3A BA 1 8-64 160 User gr oup read se[...]

  • Page 161

    8 PARAMETER FUNCTIONS 8-74 A PPENDIX 1 PA R A METER LIST (NUMERICA L ORDER) Instruc tion Code Data No. Name Setting Range In itia l Value Custom er Setting read Wr ite Extensi on Refer to 190 RUN terminal function selection Refer to manual description. 01 E 9 E 2 191 SU te rmina l function selection Refer to manual description. 11 F 9 F 2 192 IPF t[...]

  • Page 162

    8 PARAMETER FUNCTIONS 8-75 8 A PPENDIX 1 PA R A METER LIST (NUMERICA L ORDER) Instruc tion Code Data No. Name Setting Range In itia l Value Custom er Setting read Wr ite Extensi on Refer to 261 Pow er failure stop selection 0, 1 0 4 5 C5 2 262 Subtracted speed at deceleration start 0 to 600r/min 0 46 C6 2 263 Subtraction starting speed 0 t o 3000r/[...]

  • Page 163

    REVISIONS *The manual n umber is giv en on the bottom l eft of the ba ck cover. Print Date *Manual Numbe r Revision Feb., 2001 IB(NA )- 0600 056- A First edition[...]