Mitsubishi Electronics MR-J3- B manuel d'utilisation

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Table des matières du manuel d’utilisation

  • Page 1

    SH (NA) 030051-D (0806) MEE Printed in Japan Specifications subject to change without notice. This Instruction Manual uses recycled paper. MODEL MODEL CODE General-Purpose AC Servo MODEL MR-J3- B SERVO AMPLIFIER INSTRUCTION MANUAL SSCNET Compatible J3 Series D HEAD OFFICE : TOKYO BLDG MARUNOUCHI TOKYO 100-8310 J3 Series MR-J3- B Servo Amplifier Ins[...]

  • Page 2

    A - 1 Safety Ins tructions (Alwa ys rea d thes e ins truct ions befor e us ing the equ ipm ent.) Do not attem pt to inst all, o perat e, m aint ain or ins pect t he con verter uni t, ser vo am plif ier ( drive unit) and ser vo motor u ntil you hav e read th rough th is Instr uction Ma nual, I nstalla tion guid e, Servo mot or Inst ruction Man ual ([...]

  • Page 3

    A - 2 1. To prevent electric shock, note the following WARNING Befor e wiri ng or inspec tion, turn of f the power and wait for 15 m inutes or m ore (20 m inutes or f or dr ive unit 30kW or m ore) unt il t he c harge lam p turns off . T hen, conf irm that t he voltag e bet ween P( ) and N( ) (L and L for drive unit 30kW or more) is safe wit h a vol[...]

  • Page 4

    A - 3 4. Additional instructions The f ollowi ng ins truct ions s hould also be fu ll y noted. I nc orrect handl ing m ay caus e a f aul t, injur y, e lectr ic shoc k, etc. (1) Transportation and installation CAUTION Trans port the pro ducts c orrec tly accor ding to the ir weig hts. Stack ing in exces s of the s pecif ied number of pr oducts is no[...]

  • Page 5

    A - 4 CAUTION Prov ide ad equat e prot ectio n to pr even t scr ews a nd ot her con duct ive m atter, oil a nd oth er com bust ible ma tter from enter ing t he con verter unit , ser vo am plif ier ( drive unit) , an d serv o m otor. Do not dr op or str ike co nver ter un it, ser vo am plif ier ( drive u nit), or ser vo m otor. Is olate f rom all im[...]

  • Page 6

    A - 5 (3) Te st run adjust ment CAUTION Befor e oper atio n, check th e param eter setti ngs. Im prop er s ettings ma y caus e som e m achines to perf orm unexpec ted o perat ion. The par am eter se ttings mu st not be ch ange d exces sive ly. O perat ion wi ll be insat iable. (4) Usa ge CAUTION Prov ide an exter nal em erge ncy s top c ircuit t o [...]

  • Page 7

    A - 6 (5) Co rrecti ve ac tions CAUTION W hen it is as sum ed th at a h azard ous c onditi on m ay tak e plac e at th e occ ur due to a power fail ure or a produc t faul t, use a ser vo m otor with an electr omagn etic brak e or a n exter nal brake m echanism for the pur pose of p reventi on. Configur e the elec trom agne tic br ake c ircui t so th[...]

  • Page 8

    A - 7 About processing of waste W hen you d iscar d c onverte r uni t an d ser vo am plif ier ( drive unit) , a b atter y (pr im ary batt er y), and other opti on art icles, ple ase foll ow the law of each coun try (ar ea). FOR MAXIMUM SAFETY Thes e prod ucts ha ve b een m anuf acture d as a gener al-purp ose part f or ge neral indus tries, and hav[...]

  • Page 9

    A - 8 COMPLIANCE WITH EC DIRECTIVES 1. W HAT ARE EC D IR ECTI VES? The E C direc tives were issued to sta ndard ize th e reg ulati ons of the EU cou ntries and e nsure s mooth distr ibutio n of s afet y-guar anteed produc ts. I n the EU co untries , the mac hiner y direc tive ( eff ective in Janu ar y, 1995), EMC direct ive ( effec tive i n Janu ar[...]

  • Page 10

    A - 9 (2) C onfigur ation The c ontro l circ uit pr ovid e saf e se parati on t o the m ain c irc uit i n the c onver ter u nit an d ser vo am plif ier (d rive unit). (a) MR-J3-22KB (4) or less NFB MC 24V DC power supply Servo amplifier Reinforced insulating type Control box Servo motor No-fuse breaker Magnetic contactor M (b) MR-J3-DU30KB(4) or mo[...]

  • Page 11

    A - 10 (b) D o not c onnec t t wo gr ound c ables to th e s ame protec tive earth (PE) ter mina l. Al ways c onnec t the cables to th e term inals one- to- one. PE terminals PE terminals (c) If a leak age c urren t brea ker is use d to pr event an el ectr ic sh ock , the pr otecti ve e arth (P E) ter mina ls of the co nvert er un it and s erv o am [...]

  • Page 12

    A - 11 CONFORMANCE WITH UL/C-UL STANDARD (1) C onver ter un it, ser vo am plif iers ( driv e unit) and s erv o m otors us ed Use th e con verter un it, s ervo am plifier s ( drive unit) and ser vo m otors whic h com ply with the s tand ard m odel. Conve rter unit series :MR -J3-CR55K MR-J3-C R55 K4 Serv o ampl ifier (dr ive unit) ser ies :MR- J3-10[...]

  • Page 13

    A - 12 (4) Capaci tor discharge ti me The c apacit or disc harge tim e is as l isted b elow . To ens ure saf et y, do not t ouch th e c harging s ecti on for 1 5 minutes (m ore tha n 20 minu tes in case driv e un it is 30kW or more) after p ower- off . Servo amplifi er Discharge tim e [min] MR-J3-10B 20B 1 MR-J3-40B 60B(4) 10B1 20B 1 2 MR-J3-70B 3 [...]

  • Page 14

    A - 13 <<Abou t the man uals>> This In structio n Manual an d the MELSE RVO Servo Moto r Instruct ion Manua l (Vol.2) a re requi red if y ou use the Ge neral- Purp ose AC s ervo MR- J3- B for t he f irst t im e. Alwa ys purc hase them and use th e MR-J 3-B safely. Rele vant m anua ls Manual name Manual No. MELSERVO-J3 Series I nstructio[...]

  • Page 15

    A - 14 MEMO[...]

  • Page 16

    1 CONTENTS 1. FUNCT IONS AN D CONF IGURATION 1 - 1 to 1 -28 1.1 Intr oduct ion ............................................................................................................................................... 1 - 1 1.2 Func tion b lock diagram ............................................................................................[...]

  • Page 17

    2 3.13 Contr ol ax is selec tion ............................................................................................................................ 3 -52 4. START UP 4 - 1 t o 4 -1 0 4.1 Swi tchin g power on f or the f irst t ime ....................................................................................................... 4 - 1 [...]

  • Page 18

    3 6.4 Inter pola tion m ode ......................................................................................................... ......................... 6 -1 1 6.5 D iffer ences bet ween MEL SER VO-J2- Su per a nd MEL SERVO -J3 i n aut o tuni ng ................................ 6 -1 2 7. SPECI AL ADJU STMENT FUNCTION S 7 - 1 to 7 -16 7.1 Fun[...]

  • Page 19

    4 11.3. 4 Out line d im ens ion dr awings .......................................................................................................... 11-4 3 11.4 Po wer r egenera tion c onvert er .............................................................................................. ............... 11-45 11.5 Po wer r egenera tion c omm on co[...]

  • Page 20

    5 13.4.1 D ispl ay flowc hart ....................................................................................................... .................... 13-49 13.4. 2 Status displa y mode ..................................................................................................... ................. 13-50 13.4. 3 Diag nos tic m ode .......[...]

  • Page 21

    6 MEM O[...]

  • Page 22

    1 - 1 1. FUNCTIO NS AND CONFIGURATION 1. FUNCTIONS A ND CONFIGURATION 1.1 Introduc tion The M itsub ishi MELS ERV O-J3 s eries gen eral- purp ose AC s ervo has f urth er hi gher perf orm ance a nd hi gher functi ons c ompar ed to t he cur rent MELSE RVO-J 2-Sup er ser ies. The MR-J 3-B ser vo am plifier conn ects t o serv o s ystem control ler and [...]

  • Page 23

    1 - 2 1. FUNCTIONS AND CONFIGURAT ION 1.2 Func tion bloc k diagram The fu nction block di agram of thi s servo i s shown below . (1) MR-J3- 350B or less MR- J3-20 0B4 or less Base amplifier CN4 N( ) D C Encode r Current detection CN5 NFB MC L 1 L 2 L 3 L 11 L 21 B2 U V W B1 USB USB Power factor improving DC reactor Regenerative option MR-J3 BAT P 1[...]

  • Page 24

    1 - 3 1. FUNCTIONS AND CONFIGURAT ION (2) MR-J3-3 50B4 MR-J3-50 0B(4) MR-J3-700B( 4) Base amplifier CN4 N C Encode r Current detection CN5 NFB MC L 1 L 2 L 3 L 11 L 21 B2 U V W B1 USB USB Power factor improving DC reactor Regenerative option MR-J3 BAT P 1 P 2 D/A Position command input (Note) Power supply CHARGE lamp Regene - rati ve TR Current det[...]

  • Page 25

    1 - 4 1. FUNCTIONS AND CONFIGURAT ION (3) M R-J3-1 1KB( 4) t o 22K B(4) Cooling fan Base amplifier CN4 N C Encode r Current detection CN5 NFB MC L 1 L 2 L 3 L 11 L 21 B2 U V W B1 USB USB Power factor improving DC reactor Regenerative option MR-J3 BAT P 1 D/A Position command input (Note) Power supply CHARGE lamp Regene - rati ve TR Current detector[...]

  • Page 26

    1 - 5 1. FUNCTIONS AND CONFIGURAT ION 1.3 Serv o amplif ier stan dar d specif ications (1) 20 0V class, 10 0V class Servo am plifier MR-J 3- Item 10B 20B 40B 60B 70B 100B 200B 350B 500B 700B 11K B 15KB 22KB 10B1 20B1 40B1 Voltage/ frequency 3-phase or 1-phas e 200 to 230VAC, 50/60Hz 3-phase 200 to 230VAC, 50/60H z 1-phase 100V to 120VAC, 50/ 60Hz P[...]

  • Page 27

    1 - 6 1. FUNCTIONS AND CONFIGURAT ION (2) 400V class Servo am plifier MR-J 3- Item 60B4 100B 4 200B4 350B4 500B4 700B4 11KB4 15KB4 22KB4 Voltage/ frequency 3-phas e 380 to 480VA C, 50/60Hz Permis sible volt age fluct uation 3-phase 323 to 528VA C Perm issible f requency fluct uation Wi th in 5% Power supply c apacit y Refer to s ection 10. 2 Power [...]

  • Page 28

    1 - 7 1. FUNCTIONS AND CONFIGURAT ION 1.4 Func tion list The f ollowi ng tabl e list s the funct ions of this ser vo. For detai ls of t he func tions , ref er to t he ref erenc e fie ld. Function Des cription Reference High-resolut ion encoder High-resolut ion encoder of 262144 pulses/rev is used as a servo motor encoder. Absolute posit ion detecti[...]

  • Page 29

    1 - 8 1. FUNCTIONS AND CONFIGURAT ION 1.5 Mode l code d efinition (1) Rating plate MR-J3- 10B AC SER VO POW ER : INPUT : OUTPUT: SER IAL : 100W 0.9A 3PH+1PH200- 230V 50Hz 1.3A 1PH 200-23 0V 50/60Hz 170V 0-3 60Hz 1.1A 3PH+1PH 200-230V 60Hz A34230001 Model Capacity Applicable power supply Serial number Rated output current[...]

  • Page 30

    1 - 9 1. FUNCTIONS AND CONFIGURAT ION (2) Model Power supp ly MR J3 B Serie s Symbol Description -PX Indicates a servo amplifier of 11k to 22 kW that does not us e a regenerative resistor as standard accesso ry. With no regenerative resistor Symbol Power supply 3-phase or 1-phase 2 00 to 230VAC 1-phase 100 to 120VAC (Note 1) None (Note 2) 1 4 3-pha[...]

  • Page 31

    1 - 10 1. FUNCTIONS AND CONFIGURAT ION 1.6 Com bination with ser vo m otor The f ollow ing ta ble lists c om binat ions of ser vo am plif iers an d ser vo m otors. T he s am e com binatio ns app ly to the m odels with a n elec trom agnet ic brak e a nd the m ode ls wit h a re ducti on gear . Serv o motors HF-SP Servo amplifi er HF-MP HF-K P 1000r/m[...]

  • Page 32

    1 - 11 1. FUNCTIONS AND CONFIGURAT ION 1.7 Structure 1.7.1 Parts identif icat ion (1) MR-J3 -100B or less 7 9 6 8 5 4 3 2 1 0 F E D C B A ON 4F 12 SW1 SW2 Fixed part (2 places) Used to set the axis No. of servo am plifier. Rot ary ax is se tting switch (SW1 ) SW2 Test operation select switch (SW2-1) Used to perform the test operation mode by using [...]

  • Page 33

    1 - 12 1. FUNCTIONS AND CONFIGURAT ION (2) MR-J3-60B4 MR-J3- 100B4 Used to set the axis No. of servo am plifier. Rot ary ax is se tting switch (SW1 ) SW2 Test operation select switch (SW2-1) Used to perform the test operation mode by using MR Configurator. Spare (Be sure to s et to the "Down" position). Detailed explanation Section 3.13 S[...]

  • Page 34

    1 - 13 1. FUNCTIONS AND CONFIGURAT ION (3) MR-J3-200B(4) 7 9 6 8 5 4 3 2 1 0 F E D C B A 12 ON 4F SW1 SW2 TEST Fixed part (3 places) Cooling Fan Used to set the axis No. of servo am plifier. Rot ary ax is se tting switch (SW1 ) SW2 Test operation select switch (SW2-1) Used to perform the test operation mode by using MR Configurator. Spar e (Be sur [...]

  • Page 35

    1 - 14 1. FUNCTIONS AND CONFIGURAT ION (4) MR-J3-350B 7 9 6 8 5 4 3 2 1 0 F E D C B A 12 ON 4F SW1 SW2 TEST Fixed part (3 places) Cooling fan Used to set the a xis No. of servo am plifier. Rotary axis setting switch (SW1) SW2 Test operation select switch (SW2-1) Used to perform t he test operation mode by using MR Configurator. Spare (Be su re to s[...]

  • Page 36

    1 - 15 1. FUNCTIONS AND CONFIGURAT ION (5) MR-J3-350B4 MR-J3-5 00B( 4) POINT The s ervo amplif ier is s how n without th e front c over. For rem oval of the front cover, ref er to sec tion 1.7. 2. 7 9 6 8 5 4 3 2 1 0 F E D C B A 12 ON 4F SW1 SW2 TEST Used to set th e axis No. of servo a mplifier. Rotary axi s settin g switch (SW1) SW2 Test operatio[...]

  • Page 37

    1 - 16 1. FUNCTIONS AND CONFIGURAT ION (6) MR-J3-700B(4) POINT The s ervo amplif ier is s how n without th e front c over. For rem oval of the front cover, ref er to sec tion 1.7. 2. 7 9 6 8 5 4 3 2 1 0 F E D C B A 12 ON 4F SW1 SW2 TEST Used to set the axis No. o f serv o amp lifier . Rota ry axis s ettin g switc h (SW 1) SW2 Test operation s elect[...]

  • Page 38

    1 - 17 1. FUNCTIONS AND CONFIGURAT ION (7) MR-J3-11KB(4) to MR-J3-22KB(4 ) POINT The s ervo amplif ier is s how n without th e fr ont cover. F or rem oval of the front cover, ref er to sec tion 1.7. 2. 7 9 6 8 5 4 3 2 1 0 F E D C B A 12 ON 4F SW1 SW2 TEST Cooling fan Fixed p art (4 places) Used to set the axis No. of servo am plifier. Rota ry axis [...]

  • Page 39

    1 - 18 1. FUNCTIONS AND CONFIGURAT ION 1.7.2 Rem oval and reinst allation of the f ront cover W ARNING Be fore re moving or in stalling the fro nt cov er, tu rn off t he pow er and wait fo r 15 minutes or m ore u ntil t he c harge lam p turns off. T hen, c onf irm that the vo ltage between P( ) and N( ) is s afe wit h a volt age tes ter a nd o ther[...]

  • Page 40

    1 - 19 1. FUNCTIONS AND CONFIGURAT ION Rein stalla tion o f the fron t cove r Front cove r settin g tab A) A) Insert the fr ont c over s ettin g tabs into the soc kets of servo am pl ifier (2 p laces) . Pull up the cover , suppo rting at point A) . Setting tab Push the settin g tabs un til they click.[...]

  • Page 41

    1 - 20 1. FUNCTIONS AND CONFIGURAT ION (2) For MR-J3-11KB(4) to MR-J3-22KB(4 ) Remo val of the f ront c over A) B) C) 1) Press the rem oving k nob on the lo wer sid e of the front c over ( A) and B) ) an d rel ease t he i nstal lation hook . 2) Pres s t he r emov ing k nob of C) and r ele ase th e exter nal hook . 3) Pu ll it t o rem ove th e fr on[...]

  • Page 42

    1 - 21 1. FUNCTIONS AND CONFIGURAT ION 1.8 Conf iguratio n includ ing aux iliar y equipm ent POINT Equipm ent other tha n the s ervo am plif ier and ser vo motor are opt ional or recomm ended produc ts. (1) MR-J3 -100B or less (a) For 3-phas e or 1-ph ase 20 0V to 2 30V AC W CN5 PC L 11 L 21 P 1 P 2 UV Serv o amplifie r L 1 L 2 L 3 MR Configurator [...]

  • Page 43

    1 - 22 1. FUNCTIONS AND CONFIGURAT ION (b) For 1-phas e 10 0V to 1 20V AC (Note 2) W UV CN5 PC CN3 CN1A CN1B CN2 CN4 L 11 L 21 L 1 L 2 (Note 3) Powe r supp ly R S Power f actor improving (FR-BAL) Regenerative option Servo amplifier (Note 1) Batte ry MR-J3 BAT Line noise filter (FR-BSF01) Magnetic contactor (MC) No-fuse br eaker (NFB) o r fuse Junct[...]

  • Page 44

    1 - 23 1. FUNCTIONS AND CONFIGURAT ION (2) MR-J3-60B4 MR-J3- 100B4 (Note 3) Power supply R S T No-fuse breaker (NFB) o r fuse Magnetic contactor (MC) (Note 2) Line noise filter (FR-BSF01) L 2 L 3 (Note 2) Power factor improving DC react or (FR-BE L-H) P 1 P 2 Regenerative option PC L 11 L 21 UV W (Note 1) Battery MR-J3BAT CN5 CN3 CN1A CN1B CN2 CN4 [...]

  • Page 45

    1 - 24 1. FUNCTIONS AND CONFIGURAT ION (3) MR-J3-200B(4) R S T L 21 L 11 C P (Note 3) Powe r supp ly No-fuse breaker (NF B) or fu se Magnetic contactor (MC ) (Note 2) Line noise filter (FR-BSF01) (Note 2) Power factor improving DC reactor (FR-BEL/ FR-BEL-H) L 1 L 2 L 3 P 1 Regenerative opt io n Servo amplifier CN5 CN3 CN1A CN1B CN2 CN4 (Note 1) Bat[...]

  • Page 46

    1 - 25 1. FUNCTIONS AND CONFIGURAT ION (4) MR-J3-350B R S T P C L 21 P 1 P 2 UV W L 11 L 1 L 2 L 3 CN5 CN3 CN2 CN1A CN1B CN4 Line noise filter (FR -BLF ) (Note 3) Powe r supp ly Magnetic contactor (MC ) No-fuse breaker (NFB) or fuse Regenerative opt io n (Note 2) Powe r facto r improving DC reactor (FR-BEL) (N ote 2) Servo amplifier Junction termin[...]

  • Page 47

    1 - 26 1. FUNCTIONS AND CONFIGURAT ION (5) MR-J3-350B4 MR-J3-5 00B( 4) R S T L 21 P 1 P 2 CN3 CN2 CN1A CN1B CN4 CN5 (Note 2) L 11 UV W C P L 1 L 2 L 3 Regenerative option Line noise filter (FR-BLF) (Note 3) Power supply Magnetic contactor (MC) No-fuse breaker (NFB) or fu se MR Co nfigura tor Personal computer Servo amplifier (Note 2) Power facto r [...]

  • Page 48

    1 - 27 1. FUNCTIONS AND CONFIGURAT ION (6) MR-J3-700B(4) R S T L 21 L 11 UV W C P L 1 L 2 L 3 CN5 CN3 CN2 CN1A CN1B CN4 P 2 P 1 Line noise filter (FR-B LF) (Not e 3) Power supply Magnetic conta ctor (MC) No-fuse breaker (NFB) or fuse (Note 2) (N ote 2) Power factor improving DC react or (FR-BEL -(H)) Servo amplifier Regenerative option Servo motor [...]

  • Page 49

    1 - 28 1. FUNCTIONS AND CONFIGURAT ION (7) MR-J3-11KB(4) to MR-J3-22KB(4 ) Line noise filter (FR-BLF) (Note 3) Power supply R S T Magnetic contacto r (MC) No-fuse breaker (NFB) or fuse Regenerative option L 21 Servo amplifier Servo m otor (Note 2) L 11 U V W C P L 1 L 2 L 3 CN4 MR Configurator Personal computer CN5 CN3 CN2 Junction terminal blo ck [...]

  • Page 50

    2 - 1 2. INSTALLATION 2. INSTALLA TION CAUTION Stack ing in exces s of the l im ited num ber of prod ucts is no t allo wed. Instal l the e qui pment o n inc om bustible m ateri al. Ins tall ing th em directl y or cl ose to com bustibles wil l lead to a fir e. Instal l the equi pm ent in a load-bear ing p lace in ac corda nce with th is Instr ucti o[...]

  • Page 51

    2 - 2 2. INSTALLATION (b) I nstal lation of t wo or m ore s ervo ampl ifiers POINT Close m ounting is availab le fo r the servo amplif ier of u nder 3. 5kW for 200V class and 400W for 100V cl ass. Leave a lar ge cle aranc e bet ween the t op of t he s ervo a m plifier and the int ernal surfac e of the co ntrol box, a nd in stal l a co oling f an t [...]

  • Page 52

    2 - 3 2. INSTALLATION (b) I nstal lation of t wo or m ore s ervo ampl ifiers Leave a lar ge cle aranc e bet ween the t op of t he s ervo a m plifier and the int ernal surfac e of the co ntrol box, a nd in stal l a co oling f an t o pre vent th e in terna l temper atur e of the co ntrol box f rom exceed ing t he environm ent al co ndit ions. 100 mm [...]

  • Page 53

    2 - 4 2. INSTALLATION (3) Avoi d any proba bilit y that the c able sh eath migh t be cut by shar p chips, r ubbed b y a machin e corner or stam ped by work ers or ve hicles. (4) For insta lla tion o n a m achine where the s ervo m otor will m ove, the fl exing radi us s hould b e made as lar ge as pos sible. Refer to sec tion 10.4 for th e flexi ng[...]

  • Page 54

    2 - 5 2. INSTALLATION (4) Bu ndle fi xing Fix the cab le at the closes t part to the conn ector wi th bundl e material in order to pr event SS CNET cabl e from putting its ow n weig ht on CN1A CN1 B conn ecto r of s ervo am plif ier. O ptica l cord s hou ld be g ive n loose s lack to a void f rom becom ing sm all er tha n the m in imum bend ra dius[...]

  • Page 55

    2 - 6 2. INSTALLATION 2.5 Inspec tion item s W ARNING Befor e starting maint enanc e and/ or inspec tion, tur n off the power and wa it for 15 minutes or m ore u ntil t he c harge lam p turns off. T hen, c onf irm that the vo ltage between P( ) and N( ) is s afe wit h a volt age tes ter a nd o thers . Other wis e, an electric shoc k m ay occur . In[...]

  • Page 56

    3 - 1 3. SIGNALS AND WI RING 3. SIGNALS AND W IRING W ARNING Any pers on who is invol ved in wir ing sho uld be ful ly compet ent to do the work . Befor e wiri ng, tur n off the p ower and wai t for 15 m inutes or m ore unt il the c har ge lamp tur ns off . Then, c onfir m that the volta ge b etwee n P( ) and N( ) i s safe wi th a volt age t ester [...]

  • Page 57

    3 - 2 3. SIGNALS AND WIRING 3.1 Input power supp ly circuit CAUTION Alwa ys conn ect a m agnetic cont actor ( MC) bet ween t he m ain circ uit po wer su ppl y and L 1 , L 2 , and L 3 of the s ervo am plif ier, and c onfigur e the wirin g to be abl e to s hut down the po wer sup ply on the side of the servo am plifier ’s power suppl y. If a magnet[...]

  • Page 58

    3 - 3 3. SIGNALS AND WIRING Note 1. Always connect P 1 and P 2 . (Factory-wired.) W hen using the power factor improvi ng DC reactor, refer to section 11.13. 2. Always connect P( ) and D. (Factory-wired.) W hen using the regenerative option, refer to section 11.2. 3. For t he encoder c able, use of the opt ion cable i s recommended. Ref er to s ect[...]

  • Page 59

    3 - 4 3. SIGNALS AND WIRING (3) For MR-J3-10B1 to MR-J3-4 0B1 EM1 NFB MC L 1 L 2 1-phase 100 to 120VAC ALM RA1 P 1 P DICOM DOCOM L 11 L 21 N D C U V W (Note 1) (Note 2) CNP1 CNP3 PE CNP2 U V W 2 3 4 1 M Motor Encoder CN2 24VDC (Note 3) Encoder cable (N ote 6) DOCOM Forced stop CN3 CN3 OFF Forced stop ON MC MC SK (Note 4) Alar m RA1 Controller force[...]

  • Page 60

    3 - 5 3. SIGNALS AND WIRING (4) MR-J3-60B4 to MR-J3-200B4 EM1 NFB MC L 1 L 2 L 3 3-phase 200 to 230VAC ALM RA1 P 1 P DICOM DOCOM L 11 L 21 N D C U V W (Note 1) (Note 2) CNP1 CNP3 PE CNP2 U V W 2 3 4 1 M Motor Encoder CN2 24VDC (Note 3) Encoder cable (N ote 6) DOCOM Forced stop CN3 CN3 OFF Forced stop ON MC MC SK (Note 4) Alar m RA1 Controller force[...]

  • Page 61

    3 - 6 3. SIGNALS AND WIRING (5) MR-J3-500B MR-J3- 700B EM1 NFB MC L 1 L 2 L 3 ALM RA1 P 1 DICOM DOCOM N U V W (Note 2) (Note 1) TE1 PE U V W 2 3 4 1 M Motor Encoder CN2 24VDC (Note 3) Encoder cable (Note 6) DOCOM Forced stop CN3 CN3 OFF Forced stop ON MC MC SK (Note 4) Alarm RA1 Controller forced stop RA2 Servo amplifier Servo motor (Note 5) Troubl[...]

  • Page 62

    3 - 7 3. SIGNALS AND WIRING (6) MR -J3-3 50B4 t o MR-J 3-70 0B4 EM1 NFB MC L 1 L 2 L 3 ALM RA1 C DICOM DOCOM P U V W (Note 2) (Note 1) TE1 PE U V W 2 3 4 1 M Motor Encoder CN2 24VDC (Note 3) Encoder cable (Note 6) DOCOM Forced stop CN3 CN3 OFF Forced stop ON MC MC SK (Note 4) Alarm RA1 Controller forced stop RA2 Servo amplifier Servo motor (Note 5)[...]

  • Page 63

    3 - 8 3. SIGNALS AND WIRING (7) MR-J3-11KB to MR-J3 -22KB BW BV BU Dynamic break (Option) OFF Forc ed stop ON MC MC SK (Note 4) Alarm RA1 Controller forced stop RA2 Servo amplifier NFB MC L 1 L 2 L 3 3-phase 200 to 230VAC P C TE1 PE L 11 L 21 U V W M Encoder CN2 (Note 3) Encoder cable (Note 6) P 1 (Note 1) (Note 2) Regenerative resistor Cooling fan[...]

  • Page 64

    3 - 9 3. SIGNALS AND WIRING (8) MR-J3-11KB4 to MR-J3-22KB4 BW BV BU Cooling fan (Note 7) (Note 8) Cooling fan power supply Dynamic break (Option) OFF Forc ed stop ON MC MC SK (Note 4) Alarm RA1 Controller forced stop RA2 Servo amplifier NFB MC L 1 L 2 L 3 3-phase 380 to 480VAC P C TE1 PE L 11 L 21 U V W M Encoder CN2 (Note 3) Encoder cable (Note 6)[...]

  • Page 65

    3 - 10 3. SIGNALS AND WIRING 3.2 I/O s ignal co nnection e xam ple 13 9 15 10 6 16 7 17 2 12 19 CN3 Encoder Z-phase pulse (differential line drive r) 2m Max (Note 12) (Note 5) MR Configurator Personal computer Magnetic brake interlock CN5 Servo amplifier CN1A Servo syst em co ntro ll er USB cable MR-J3USBCB L3M (option) Trouble (Note 11) In-positio[...]

  • Page 66

    3 - 11 3. SIGNALS AND WIRING Note 1 To prevent an electric shock, always connect the protective earth (PE) terminal (t erminal marked ) of the servo amplifier t o the protect ive earth (PE) of the control box . 2. Connect the diode in the correct direction. If i t is connected reversely, the servo amplifier will be faulty and will not ou tput signa[...]

  • Page 67

    3 - 12 3. SIGNALS AND WIRING 3.3 Expla nation of power s uppl y system 3.3.1 Sign al expla nations POINT For the la yout of connect or and term inal b lock , refer to outl ine dra wings in chapter 9 . Abbreviati on Connection t arget (Applic ation) Descr iptio n Supply the foll owing power to L 1 , L 2 , L 3 . For the 1-phase 200 V to 230VAC power [...]

  • Page 68

    3 - 13 3. SIGNALS AND WIRING 3.3.2 Power -on se quence (1) Po wer-o n proce dure 1) Alwa ys wire the power suppl y as s hown in a bove s ectio n 3. 1 usin g th e magne tic c ontact or with the m ain circui t power s up ply (thr ee-phas e: L 1 , L 2 , L 3 , single-p hase: L 1 , L 2 ). C onfigur e up an e xternal seque nce to switc h of f the m agn e[...]

  • Page 69

    3 - 14 3. SIGNALS AND WIRING 3.3.3 CNP1, CN P2, CN P3 wiring m ethod POINT Refer to tab le 11.1 i n sectio n 11.11 f or the wire sizes used f or wiring. MR-J3-500 B or m ore MR-J3- 350B4 or m ore does n ot have these conn ectors . Use the supp lied s ervo amplif ier power s uppl y con necto rs f or wirin g of CN P1, C NP2 and CN P3. (1) MR-J3-10B t[...]

  • Page 70

    3 - 15 3. SIGNALS AND WIRING (c) The twin type connector for CNP2 (L 11 L 21 ): 721-21 05/026- 000 ( W AGO) Using this c onn ector e nable s pass ing a wire of c ontro l ci rcuit power supp ly. Refer t o ap pendix 3 f or det ails of c onnec tor. L 21 L 11 L 21 L 11 Power supply or Front axis Rear axis CNP2 Twin type connector for CNP2 (2) MR-J3-200[...]

  • Page 71

    3 - 16 3. SIGNALS AND WIRING (c) The twin type connector for CNP2 (L 11 L 21 ): 721-22 05/026- 000 ( W AGO) Using this c onn ector e nable s pass ing a wire of c ontro l ci rcuit power supp ly. Refer t o ap pendix 3 f or det ails of c onnec tor. L 21 L 11 L 21 L 11 Power supply or Front axis Rear axis CNP2 Twin type connector for CNP2 (3) MR-J3-350[...]

  • Page 72

    3 - 17 3. SIGNALS AND WIRING 2) CNP 2 CNP2 is the sam e as MR-J 3-10 0B or sm aller c apac ities . Refer to (1) (b) of th is sec tion. (4) I nsertio n of cable into Mol ex and W AGO connec tors Insert ion of cable into 5 4928- 0610, 5 4928- 0520 , 54928 (Molex ) con nect ors and 721-20 7/02 6-000 , 721- 205/ 026-00 0 and 721-2 03/02 6-000 (W AGO) c[...]

  • Page 73

    3 - 18 3. SIGNALS AND WIRING (a) W hen usi ng t he sup plied cable conn ection lever 1) The s erv o am plifi er is p ack ed with the ca ble c onnect ion lever. a) 549 32-00 00 (M olex) [Unit: mm] MXJ 54932 7.7 4.7 Approx. 3 4.9 10 20.6 3.4 6.5 Approx. 4.9 Approx. 7.7 Approx.3.4 b) 231- 131 (W AGO) [Unit: mm] 20.3 10 16 7.6 3 6.5 3.4 4.9 17. 5 1.5 1[...]

  • Page 74

    3 - 19 3. SIGNALS AND WIRING 2) Cab le con necti on pr ocedure 1) Attach the ca ble connection lever to the housing. (Detach able) 2) Push the cable connection lever in the direct ion o f arr ow. 3) Hold down the ca ble connection lever a nd insert t he cable in the direction of arrow. 4) Release the cable c onnection lever. Cable connection lever[...]

  • Page 75

    3 - 20 3. SIGNALS AND WIRING (b) I nsert ing t he ca ble in to t he con nect or 1) Ap plica ble fl at-bl ade sc rewdr iver dim ensions Alwa ys use the scre wdriv er sho wn here to do th e work . [Unit: mm] 3 0.6 Approx. R0.3 Approx. 22 3 to 3.5 Approx. R0.3 2) W hen usi ng the f lat- blade scre wdriver - par t 1 1) Insert the screwdriver into the s[...]

  • Page 76

    3 - 21 3. SIGNALS AND WIRING 3) W hen usi ng the f lat- blade scre wdriver - par t 2 1) Insert the screwdriver into the square window a t top of the co nnector . 2) Push the scr ewdriver in the direction of arrow. 3) With the screwdriver pushed, insert the cable in the dire ction of arrow. (Insert t he cable as far as it will go.) 4) Releasing the [...]

  • Page 77

    3 - 22 3. SIGNALS AND WIRING (4) How to ins ert the cab le into Phoen ix Contac t conn ector POINT Do not use a precisi on dri ver becaus e the ca ble cann ot be tighte ned with enough tor que. Insert ion of cables int o Ph oenix Contac t con nect or PC 4/6-ST F-7.6 2-CRW H or PC4/3- STF -7.62-C RW H is shown as fol lows. Befor e ins ert ing the ca[...]

  • Page 78

    3 - 23 3. SIGNALS AND WIRING 3.4 Conn ectors and s ignal arrangem ents POINT The pin c onfigur ations of the conn ectors are as vi ewed f rom the c able connector wir ing section. (1) Si gnal ar rang ement The s ervo am plif ier fron t vie w sho wn is th at of the MR-J 3-20B or les s. Ref er to c hapter 9 Outl ine Dr awin gs for the app earanc es a[...]

  • Page 79

    3 - 24 3. SIGNALS AND WIRING 3.5 Signa l (device) expla nations For th e I/O inte rface s (sy mbols in I/ O divisio n colu mn in the ta ble), r efer to section 3.7.2. In th e contro l m ode fie ld of t he ta ble The p in No.s in th e conn ector pin N o. col umn ar e thos e in the in itial status . (1) Connec tor appl ications Connector Nam e Functi[...]

  • Page 80

    3 - 25 3. SIGNALS AND WIRING (b) Output device Device Sym bol Connector pin No. Function/Applic ation I/O divisi on Trouble ALM CN3-15 ALM turns off when power is sw itc hed off or the protective circuit is activate d to shu t off th e ba se circu it. Without alarm occurring, ALM turns on within about 1s after power-on. DO-1 Electrom agnetic brake [...]

  • Page 81

    3 - 26 3. SIGNALS AND WIRING Device Sym bol Connector pin No. Function/Applic ation I/O divisi on Wa rn ing WNG When using this signal, make it usable by the setting of param eter No.PD 07 to PD 09. When warning has occurred, WNG turns on. When there is no warning, WNG turns off within about 1.5s after power-on. DO-1 Batt ery warning BWNG When usin[...]

  • Page 82

    3 - 27 3. SIGNALS AND WIRING 3.6 Alarm occ urrence tim ing chart CAUTION W hen an alarm has oc cur red, rem ove its caus e, m ak e sure tha t the op erati on sign al is not bei ng input, en sure safe ty, and rese t the alar m before re starting operat ion. As soo n as an a larm occ urs, m ake the Ser vo off stat us and i nterrup t the m ain circuit[...]

  • Page 83

    3 - 28 3. SIGNALS AND WIRING 3.7 Interf aces 3.7.1 Inter nal conn ection d iagram 3 EM1 CN3 20 DI1 2 DI2 12 DI3 19 DICOM 5 3 CN3 10 13 9 15 DICOM (Note 2) INP ALM CN3 6 16 7 17 8 18 LA LAR LB LBR LZ LZR RA CN3 MO1 MO2 LG 4 14 11 RA Differenti al line driver output (35mA or less) <Isolated> Approx 5 .6k Analog monitor Servo amplifier 2 4 7 8 M[...]

  • Page 84

    3 - 29 3. SIGNALS AND WIRING 3.7.2 Detailed des cription o f interfac es This sect ion pr ovides t he det ails of the I/O s igna l int erfac es (r efer t o t he I /O di vision in t he t able) giv en i n secti on 3.5. Refer to th is s ectio n and m ak e connec tion with the ex terna l equi pment. (1) Digi tal inpu t interface DI-1 Give a signa l wit[...]

  • Page 85

    3 - 30 3. SIGNALS AND WIRING (3) Enc oder outp ut p ulse D O-2 (D iff erent ial l ine dr iver s ystem ) (a) Interface Max. o utput c urrent: 35m A LA (LB, L Z) LAR (LBR, LZR) LG SD LA (LB, LZ) LAR (LBR, LZR) SD Servo amplifier Servo amplifier Am26LS32 or equivalent High-speed photocoupler 150 100 (b) Ou tput pulse Servo m otor CC W rotati on LA LAR[...]

  • Page 86

    3 - 31 3. SIGNALS AND WIRING 3.7.3 Sour ce I/O interfaces In this ser vo am plifier , so urce t ype I /O i nterf aces c an be us ed. In t his c ase, all DI- 1 inp ut si gnals and DO-1 outpu t signa ls ar e of source t ype. Perf orm wiring accor ding to th e foll owin g inter face s. (1) Digi tal inpu t interface DI-1 EM1, etc. Servo amplifier Switc[...]

  • Page 87

    3 - 32 3. SIGNALS AND WIRING 3.8 Treatm ent of cable shie ld ext ernal cond uctor In the c ase of t he CN 2 and CN3 c onnec tors, s ecur el y connec t th e shie lded exter nal co nductor of the c able to the gr ound p late as sh own i n this sect ion and fix it to the co nnec tor she ll. External conductor Sheath External conductor Pull back the ex[...]

  • Page 88

    3 - 33 3. SIGNALS AND WIRING 3.9 SSCNET cable conn ection POINT Do not see directl y the light generated from CN1A CN1B conn ector of servo amplif ier or the end of SSCNET cable. W hen the light gets into e ye, ma y feel som ething is wrong for eye. (The light sourc e of SSCN ET com plies with class1 def ined in JIS C68 02 or IEC60825- 1.) (1) SSCN[...]

  • Page 89

    3 - 34 3. SIGNALS AND WIRING 3) W ith holding a ta b of S SCNET cable c onnec tor, m ake s ure t o ins ert it int o CN1 A CN1B c onnector of ser vo am plif ier u ntil you hear the c lick . If the end f ace of optic al co de tip is d irt y, optic al tr ansm ission is int erru pted an d it m ay caus e m alfunctio ns. If it becom es dirt y, wipe wi th[...]

  • Page 90

    3 - 35 3. SIGNALS AND WIRING 3.10 Connec tion of s ervo a mplif ier and ser vo m otor CAUTION Dur ing p ower- on, do not open or close the m otor power line. O ther wise, a ma lfunctio n or f ault y ma y occu r. 3.10.1 Connec tion ins truct ions W ARNING Insula te th e con nectio ns of the power s uppl y term inals to pr eve nt an e lectr ic shock [...]

  • Page 91

    3 - 36 3. SIGNALS AND WIRING 3.10.2 Po wer suppl y cable wirin g diagram s (1) HF-MP service HF-KP series HF-KP series servo moto r (a) W hen c able l engt h is 1 0m or less CNP3 AWG 19(red) AWG 19(white) AWG 19(black) AWG 19(green/yellow) W V U Servo motor Servo amplifier 10m or less MR- PWS1C BL M-A1 -L MR- PWS1C BL M-A2 -L MR- PWS1C BL M-A1 -H M[...]

  • Page 92

    3 - 37 3. SIGNALS AND WIRING (2) HF-SP series HC-RP ser ies HC-U P series HC-LP ser ies ser vo m otor POINT Insert a con tact in th e direc tion s hown in the figure. If inser ted in the wrong direction, t he co ntact is da m aged and falls off. Soldered part or crimping part facing up Soldered part or crimping part facing down Pin No.1 Pin No.1 Fo[...]

  • Page 93

    3 - 38 3. SIGNALS AND WIRING 2) W hen the power s uppl y con nector and t he e lectrom agnet ic br ake c onnect or ar e share d. Servo mot or (Note) Servo amplifier M U V W B1 B2 U V W 24VDC power supply for electromagnetic brake 50m or less Forced stop (EM1) Troub le (ALM) RA1 24VDC ALM DOCOM DICOM MBR CN3 RA1 RA2 Electromagnetic brake interlock ([...]

  • Page 94

    3 - 39 3. SIGNALS AND WIRING Encoder c onnector signal allotment CM10-R10P Power supply connect or signal allotment MS3102A18-10P MS3102A22-22P CE05-2A32-17PD-B Power supply connect or signal allotment CE05-2A22-23PD-B Terminal No. Signal Termi nal No. Signal Terminal No. Signal 1 MR A U A U 2 M RR B V B V 3 C W C W 4 BAT 5 LG D (earth) D (eart h) [...]

  • Page 95

    3 - 40 3. SIGNALS AND WIRING (3) HA-LP series servo motor (a) W iring di agram s Refer t o sec tion 1 1.11 for the c ables used for wiring. 1) 200V class Ser vo motor (Note 1) Servo amplifier U V W B1 B2 U V W 24VDC power supply for electromagnetic brake 50m or l ess Forc ed stop (EM1) Troubl e (ALM) RA1 24VDC ALM DOCOM DICOM MBR CN3 RA1 RA2 El ect[...]

  • Page 96

    3 - 41 3. SIGNALS AND WIRING 2) 400V class Servo motor (Note 1) Servo amplifier U V W B1 B2 U V W 24VDC power supply for electromagnetic brake 50m or l ess Forced stop (EM1) Trouble (ALM) RA1 24V DC ALM DOCOM DICOM MBR CN3 RA1 RA2 El ec trom ag ne tic br ak e int er loc k (MB R) RA2 RA3 M Cooling fan (Note 2) 24VDC power supply OHS2 OHS1 Servo moto[...]

  • Page 97

    3 - 42 3. SIGNALS AND WIRING (b) Servo motor terminal s Terminal box Encoder connector CM10-R10P Brake connector MS3102A10SL-4P Terminal No. Signal Terminal No. Signal 1 MR B1 2 MRR 1 (Note) 3 B2 4 BAT 2 (Note) 5 LG 6 7 8 P5 9 10 SHD Encoder c onnector signal allotmen t CM10-R10P 5 6 1 4 3 2 8 7 9 10 Brake c onnector signal allotmen t MS3102A10SL-4[...]

  • Page 98

    3 - 43 3. SIGNALS AND WIRING Terminal box inside (HA-LP801 (4) 12K1 (4) 11K 1M(4) 15K1M(4) 15K2(4) 22 K2(4) ) Thermal sensor terminal block (OHS1 OHS2) M4 screw Cooling fan terminal block (BU BV BW) M4 screw Encoder connector CM10-R10P Motor power supply terminal block (U V W) M8 screw Earth terminal( ) M6 screw Term inal block signa l arrangem ent[...]

  • Page 99

    3 - 44 3. SIGNALS AND WIRING Term inal box ins ide (HA- LP25K 1) OHS 2 OH S1 BW BV BU W V U Encoder connector CM10-R10P Thermal sensor terminal block Cooling fan terminal block (OHS1 OHS2) M4 screw (BU BV BW) M4 screw Motor power supply terminal block (U V W) M10 screw Earth terminal( ) M6 screw Term inal block signa l arrangem ent BV UV W BU BW OH[...]

  • Page 100

    3 - 45 3. SIGNALS AND WIRING Signal name Abbreviat ion Descri ption Power supply U V W Connect to t he motor output terminals (U, V, W ) of the servo amplifier. During power-on, do not open or close the motor power line. Otherwise, a malfunct ion or faulty may occur. Supply power which satisf ies the following specifications. Servo m otor V oltage [...]

  • Page 101

    3 - 46 3. SIGNALS AND WIRING 3.11 Ser vo motor with an el ectrom agnetic brak e 3.11.1 Saf ety prec autions CAUTION Configur e the elec trom agne tic brak e cir cuit s o th at it is ac tivate d not onl y by the interf ace un it s ignals but also b y a f orce d stop (EM 1). EM1 RA 24VDC Contacts must be open when servo-off, when an alarm occurrence [...]

  • Page 102

    3 - 47 3. SIGNALS AND WIRING 3.11.2 T iming char ts (1) Ser vo-on c omm and (f rom control ler) O N/OFF Tb [m s] af ter th e ser vo-on is s witc hed off, the ser vo l ock is re lease d and the s ervo m otor c oasts . If the electrom agn etic br ake is mad e vali d in the s ervo lock status , the br ake lif e m ay be s horter. T heref ore, when usin[...]

  • Page 103

    3 - 48 3. SIGNALS AND WIRING (3) Al arm occurr ence Servo moto r speed Base ci rcuit Electromagnetic brake interlock (MBR) Alarm Dynamic brake Dynamic brake Electromagnetic brake Electromagnetic brake operation delay time Electromagnetic brake (10ms) ON OFF ON OFF No Yes (Note) (ON) (OFF) Note. ON: Electromagnet ic brake is not activated. OFF: Elec[...]

  • Page 104

    3 - 49 3. SIGNALS AND WIRING (5) On ly m ain cir cuit power supp ly of f (c ontrol c ircu it power supp ly r emains on) Servo motor s peed Base circu it Electromagnetic brake interlock (MBR) Alarm Main ci rcuit p ower supply Dynamic brake Dynamic brake Electromagnetic brake Electromagnetic br ake Electromagnetic br ake operation delay time (Note 2)[...]

  • Page 105

    3 - 50 3. SIGNALS AND WIRING 3.11.3 W iring dia gram s (HF-MP ser ies HF-KP series servo motor) POINT For HF-SP se ries HC-RP se ries HC-UP series HC-LP ser ies servo m otors, refer to section 3.10.2 (2 ). (1) W hen c able l engt h is 1 0m or less AWG20 AWG20 MR-BKS1CB L M-A1-L MR-BKS1CB L M-A2-L MR-BKS 1CBL M-A1-H MR-BKS 1CBL M-A2-H (Note 1) B1 B2[...]

  • Page 106

    3 - 51 3. SIGNALS AND WIRING 3.12 Gro unding W ARNING Groun d the s ervo am pl ifier and s ervo motor sec urel y. To pre vent an elec tric s hock , al ways co nnect t he pr otect ive earth ( PE) t erm inal (term inal m ark ed ) of the s ervo am plif ier wi th th e prot ecti ve ear th (P E) of the contr ol box. The se rvo amplifie r switches t he po[...]

  • Page 107

    3 - 52 3. SIGNALS AND WIRING 3.13 Contro l axis select ion POINT The c ontrol axis num ber set to ro tary axis setting swit ch (SW 1) should b e the same as the one set to the s ervo system control ler. Use the rotar y ax is se tting switc h (SW 1) to set the contr ol ax is num ber f or the s ervo . If the s am e num bers ar e set to diff erent con[...]

  • Page 108

    4 - 1 4. STARTUP 4. STARTUP W ARNING Do no t oper ate the s witches with wet hands . You m ay get an electr ic sh ock . CAUTION Befor e star ting o perat ion, c hec k the param eters. Som e m achines m a y perf orm unexpec ted o perat ion. Take s afet y meas ures, e .g. provide cover s, t o pre vent a ccide ntal co ntac t of ha nds and par ts (c ab[...]

  • Page 109

    4 - 2 4. STARTUP 4.1.2 W iring chec k (1) Power supply system wiring Befor e switc hing on t he mai n circ uit and contr ol c ircu it po wer sup plies, c heck the f ollo wing items . (a) Power supply system wiring The power s uppli ed to the po wer input term ina ls (L 1 , L 2 , L 3 , L 11 , L 21 ) of th e ser vo a mplif ier sh oul d satis f y the [...]

  • Page 110

    4 - 3 4. STARTUP 2) W hen reg enera tive o ption is us ed o ver 5kW for 200 V class and 3 .5kW f or 400 V class The l ead of bui lt-in r egener at ive res istor c onnec ted to P t erm inal and C ter m inal of TE1 t erm inal bl ock shoul d not b e conn ected. The g enera tive br ake op tion s hou ld be c onnec ted to P term inal an d C term in al. A[...]

  • Page 111

    4 - 4 4. STARTUP 4.2 Start up Connec t the servo m otor wit h a m achine after c onf irm ing tha t the servo m otor oper ates pr oper ly alon e. (1) Power on W hen the m ain an d contr ol circui t power sup plies are s witc hed on, "b 01" (f or th e fir st ax is) a ppears on t he serv o ampl ifier dis pla y. In the a bso lute p ositi on d[...]

  • Page 112

    4 - 5 4. STARTUP 4.3 Serv o amplif ier d ispla y On the ser vo am plif ier dis pla y (three- dig it, se ven-s egment dis pla y), ch eck the stat us of com munic ation with the servo s ystem contr oller at p ower- on, ch eck the axis nu m ber, and diagnos e a f ault at occur rence of a n alar m. (1) Display sequence Only alarm and warning No. are di[...]

  • Page 113

    4 - 6 4. STARTUP (2) Indication list Indication S tatus Desc ription A b Initializi ng Power of the servo amplifier was switc hed on at the condition t hat the power of serv o sys tem con tro ller i s OFF . The axis No. set to the servo system controller does not matc h the axis No. set with the rotary axis s etting switch (S W 1) of the servo ampl[...]

  • Page 114

    4 - 7 4. STARTUP 4.4 Tes t operatio n Befor e star ting ac tual opera tion, perf orm test op erati on to m ak e sure t hat t he mac hine op erates norm all y. Refer t o sec tion 4. 2 for the power on and off methods of the serv o am plifi er. POINT If neces sary, verif y contro ller program b y using motor less oper ation. Refer to s ection 4. 5.2 [...]

  • Page 115

    4 - 8 4. STARTUP 4.5 Tes t operatio n mode CAUTION The tes t oper at ion m ode is des igned f or ser vo o perat ion co nfir matio n an d not for mac hine op erati on co nfirm ation. Do n ot use this mode wit h the m ac hine. A lwa ys use th e ser vo m otor alon e. If an op erati on f ault occ urred, use the for ced st op (E M1) to m ak e a stop . P[...]

  • Page 116

    4 - 9 4. STARTUP 2) Oper ation m ethod Operation Sc reen control Forward rotation start Click the "Forward" button. Reverse rot ation st art Click the "Revers e" button. Pause Cli ck the "Paus e" button. (c) Pr ogram op eratio n Posit ioning opera tion c an be per form ed in t wo or m ore operat ion pat terns c om bine[...]

  • Page 117

    4 - 10 4. STARTUP 4.5.2 Mot orless o peration in contro ller POINT Use m otor-less operation whic h is av ailable by mak ing the serv o system controller param eter setting. Motorless operatio n is don e while connec ted with the s ervo system control ler. (1) M otorl ess o perat ion W ithout connec ting the ser vo m otor, ou tput s ignals or statu[...]

  • Page 118

    5 - 1 5. PARAMETERS 5. PARAME TERS CAUTION Never adjus t or c hange the param eter va lues ex trem ely as it will m ake oper atio n instab le. POINT W hen the ser vo am plif ier is conn ected with the s ervo s ystem contr oller, the param eters are set to t he va lues of the ser vo s ystem contro ller. S witch ing power of f, then on m akes the val[...]

  • Page 119

    5 - 2 5. PARAMETERS 5.1.1 Par am eter list No. Sy mbol Name Initial value Unit PA01 For manuf acturer setting 0000h PA02 **REG Regenerat ive option 0000h PA03 *ABS Absol ute position detection system 0000h PA04 *AOP 1 Func tion se lecti on A-1 0000h PA05 0 PA06 1 PA07 For manuf acturer setting 1 PA08 A TU Auto tuning m ode 0001h PA09 RSP Aut o tuni[...]

  • Page 120

    5 - 3 5. PARAMETERS 5.1.2 Par ame ter write inhi bit Para meter No. Symbol Nam e Initi al value Uni t Set ting range PA19 *BLK P arameter write inhibit 000Bh Ref er to the text. POINT W hen setting the par amete r values from the servo s ystem controller , the param eter No.PA19 setting nee d not be changed. This param eter is m ade valid when po w[...]

  • Page 121

    5 - 4 5. PARAMETERS 5.1.3 Selec tion of regen erativ e option Para meter No. Symbol Nam e Initi al value Uni t Set ting range PA02 **RE G Regenerative opti on 0000h Ref er to the text. POINT This param eter value a nd switc h power of f onc e, then s witch it on again to mak e that param eter setting v alid. W rong setting m ay cause t he regener a[...]

  • Page 122

    5 - 5 5. PARAMETERS 5.1.4 Usin g absolut e position d etection s ystem Para meter No. Symbol Nam e Initi al value Uni t Set ting range PA03 *ABS Absol ute position detection system 0000h Refer to the text. POINT This param eter is m ade valid when po wer is sw itched o ff, then o n after setting, or when the c ontro ller reset has bee n perform ed.[...]

  • Page 123

    5 - 6 5. PARAMETERS 5.1.6 Auto t uning Para meter No. Symbol Nam e Initi al value Uni t Set ting range PA08 A TU Auto tuning m ode 0001h Ref er to t he text. PA09 RS P Aut o tuning response 12 1 to 32 Make ga in adju stment u sing auto t uning. Refer to section 6. 2 for det ails. (1) Aut o tun ing m ode (p aram eter No. PA08) Selec t the gain adjus[...]

  • Page 124

    5 - 7 5. PARAMETERS (2) Aut o tun ing r espons e (p aram eter No. PA09) If the mac hine hu nts or gen erates larg e gear soun d, d ecreas e th e set value. To im pro ve per form ance, e .g. short en the s ettli ng t ime, inc reas e the s et v alue. Setting Res ponse Guideli ne for machine resonance f requency [ Hz] S etting Res ponse Guideline f or[...]

  • Page 125

    5 - 8 5. PARAMETERS 5.1.8 Selec tion of ser vo motor r otation dir ection Para meter No. Symbol Nam e Initi al value Uni t Set ting range PA14 *POL Rotati on direction selection 0 0 1 POINT This param eter is m ade valid when po wer is sw itched o ff, then o n after setting, or when the c ontro ller reset has bee n perform ed. Selec t ser vo m otor[...]

  • Page 126

    5 - 9 5. PARAMETERS (1) F or outpu t pulse de signation Set " 0 " (i nitial valu e) in paramet er No.PC0 3. Set t he num ber of puls es p er ser vo m otor r evolu tion. Output puls e set value [pulses/ rev] For ins tance, s et "5 600 " to Par ameter No.PA 15, the actu all y output A /B-ph ase pu lses ar e as indic ated belo w. 4[...]

  • Page 127

    5 - 10 5. PARAMETERS 5.2 Gain/f ilter par am eters (No.PB ) POINT Param eter whose s ymbol is precede d b y * is m ade valid with the f ollowing conditio ns. * : Set t he param eter va lue, switc h power of f once af ter settin g, and t hen switch it on again, or perf orm the controll er reset. 5.2.1 Par am eter list No. Sy mbol Name Initial value [...]

  • Page 128

    5 - 11 5. PARAMETERS No. Sy mbol Name Initial value Unit PB40 For m anufacturer sett ing 0.0 PB41 1125 PB42 1125 PB43 0004h PB44 0.0 PB45 0000h 5.2.2 Detai l list No. S ymbol Name and function Initial value Unit Setting range PB01 FI LT Adaptive t uning mode (adapt ive filter ) Select t he setting m ethod for f ilter tuning. S etting this parameter[...]

  • Page 129

    5 - 12 5. PARAMETERS No. S ymbol Name and function Initial value Unit Setting range PB02 VRFT Vibration s uppression cont rol tuning mode (advanced vi bration suppressi on control) This parameter cannot be used in the speed control mode. The vibration suppressi on is valid w hen the param eter No.PA08 (auto tuning) setting is " 2" or &quo[...]

  • Page 130

    5 - 13 5. PARAMETERS No. S ymbol Name and function Initial value Unit Setting range PB06 GD2 Rat io of load inertia moment to servo motor inertia moment Used t o set the ratio of the l oad inertia m oment to the s ervo mot or shaft i nertia moment. When auto tuning mode 1 and interpolation mode is selected, the result of auto tuning is automatical [...]

  • Page 131

    5 - 14 5. PARAMETERS No. S ymbol Name and function Initial value Unit Setting range PB14 NHQ1 Notch shape s election 1 Used to selection the machi ne resonance suppression filter 1. Notch depth selection Settin g value Depth Gain 0 Deep 1 14dB 2 8dB 3 4dB Shallow Notch width Settin g value Width 02 Standard 13 24 35 Wide 00 to to 40dB Setting param[...]

  • Page 132

    5 - 15 5. PARAMETERS No. S ymbol Name and function Initial value Unit Setting range PB18 LPF Low-pass filter s etting Set the low-pass filt er. Setting paramet er No.PB23 (low-pass filter selecti on) to " 0 " a ut om ati ca ll y changes t his parameter. When parameter No.PB 23 is set to " 1 ", this parameter can be set manually.[...]

  • Page 133

    5 - 16 5. PARAMETERS No. S ymbol Name and function Initial value Unit Setting range PB26 *CDP Gai n changing selection Select t he gain c hanging condition. (Ref er to sect ion 7.6.) Gain ch anging sele ction Under any of the following conditions, the gains change on the basis of the param eter No.PB29 to PB32 settings. 0: Invalid 1: Control instru[...]

  • Page 134

    5 - 17 5. PARAMETERS No. S ymbol Name and function Initial value Unit Setting range PB34 VRF2B Gain changing vibration suppression control resonanc e frequency setting This parameter cannot be used in the speed control mode. Set the resonance frequency for vibrati on suppression control when the gain changing is valid. This param eter is made valid[...]

  • Page 135

    5 - 18 5. PARAMETERS 5.3 Extens ion sett ing par am eters ( No.PC ) POINT Param eter whose s ymbol is precede d b y * is m ade valid with the f ollowing conditio ns. * : Set t he param eter va lue, switc h power of f once af ter settin g, and t hen switch it on again, or perf orm the controll er reset. **: Set the param eter valu e, s witch po wer [...]

  • Page 136

    5 - 19 5. PARAMETERS 5.3.2 List of deta ils No. S ymbol Name and function Initial value Unit Setting range PC01 ERZ (Note 2) Error excessi ve alarm level This parameter cannot be used in the speed control mode. Set error excessi ve alarm level with rotation amount of servo motor. Note 1. Setting can be changed in parameter No.PC06. 2. For a servo a[...]

  • Page 137

    5 - 20 5. PARAMETERS No. S ymbol Name and function Initial value Unit Setting range PC06 *COP3 Function selection C-3 Select the error excess ive alarm level setti ng for parameter No.PC01. 0 0 Error exce ssive al arm level sett ing select ion 0: 1 [rev]unit 1: 0.1 [rev]unit 2: 0.01 [rev]unit 3: 0.001[rev]unit 0 This parameter is available t o soft[...]

  • Page 138

    5 - 21 5. PARAMETERS No. Symbol Name and function Initia l value Unit Setting range PC12 MO2 Analog monitor 2 offset Used to set the offset voltage of the analog monitor 2 (MO2) output. 0 mV -999 to 999 PC13 MOSDL Analog m onitor feedback position output s tandard data Low Used to set the st andard position of feedback output with analog monitor 1 [...]

  • Page 139

    5 - 22 5. PARAMETERS 5.3.3 Anal og m onitor The s ervo s tat us can be out put to two chan nels in ter ms of volta ge. T he ser vo s tatus can be m onit ored using an amm eter. (1) Setting Change the f ollo wing di gits of param eter N o.PC 09, PC1 0. Analog monitor (MO1) output selection (Signal output to across MO1-LG) Analog monitor (MO2) output[...]

  • Page 140

    5 - 23 5. PARAMETERS Setting Out put item Des cription Setting Out put item Des cription 6 Droop puls es (Note 1) ( 10V/100 pulses ) 100[p ulse] CW direction CCW direction 100[p ulse] 0 10[V ] -10[V ] 7 Droop puls es (Note 1) ( 10V/1000 pulses ) 1000[ pulse] CW direction CCW direction 1000[ pul se] 0 10[V ] -10[V ] 8 Droop puls es (Note 1) ( 10V/10[...]

  • Page 141

    5 - 24 5. PARAMETERS (3) An alog moni tor bl ock diag ram PWM M Feedback position Current control Speed control Current command Position control Droop pulse Differ- ential Speed command Bus voltage Speed command Current feedback Position feedback Servo Motor speed Current encoder Servo Moto r Encoder Torque Position command received from a co ntro [...]

  • Page 142

    5 - 25 5. PARAMETERS 5.4 I/O setti ng param eters (No.PD ) POINT Param eter whose s ymbol is precede d b y * is m ade valid with the f ollowing conditio ns. * : Set t he param eter va lue, switc h power of f once af ter settin g, and t hen switch it on again, or perf orm the controll er reset. 5.4.1 Par am eter list No. Sy mbol Name Initial value U[...]

  • Page 143

    5 - 26 5. PARAMETERS 5.4.2 List of deta ils No. S ymbol Name and function Initial value Unit Setting range PD01 0000h PD02 For manuf acturer setting Do not change this value by any means. 0000h PD03 0000h PD04 0000h PD05 0000h PD06 0000h PD07 *DO1 Output signal device sel ection 1 (CN3-13) Any input signal can be assigned to the CN3-13 pi n. Select[...]

  • Page 144

    5 - 27 5. PARAMETERS No. S ymbol Name and function Initial value Unit Setting range PD10 0000h PD11 For manuf acturer setting Do not change this value by any means. 0004h PD12 0000h PD13 0000h PD14 *DOP3 Function s election D-3 Set the ALM output signal at warning occurrence. 00 0 Selection of o utput device at warning occurre nce Select the warnin[...]

  • Page 145

    5 - 28 5. PARAMETERS MEMO[...]

  • Page 146

    6 - 1 6. GENERAL GAIN ADJUSTMENT 6. GENERAL GAIN A DJUSTMENT 6.1 Diff erent adjus tment metho ds 6.1.1 Adjus tm ent on a sin gle servo amplif ier The ga in adj ustm ent in this secti on can be m ade on a sin gle ser vo am plif ier. F or ga in adj ustm ent, firs t exec ute auto t uning m ode 1 . If you are not s atisf ied wi th the r es ults, ex ecu[...]

  • Page 147

    6 - 2 6. GENERAL GAIN ADJUSTMENT (2) Adj ustm ent seq uence an d mode usage Usage Used when you want to match the position gain (PG1) between 2 or more axes. Normall y not used for other purposes. Allows adjustm ent by merely changing the response level setting. First us e this mode to mak e adjustment. Used when the conditions of auto tuning mode [...]

  • Page 148

    6 - 3 6. GENERAL GAIN ADJUSTMENT 6.2 Auto tuning 6.2.1 Auto t uning m ode The s ervo am plif ier has a re al-tim e auto tuni ng func tio n whic h estim ates the m achin e char acter istic (lo ad iner tia mom ent rat io) in re al tim e and aut om atical ly sets th e optim um gains acc ordin g t o tha t val ue. T his f unct ion perm its eas e of g ai[...]

  • Page 149

    6 - 4 6. GENERAL GAIN ADJUSTMENT 6.2.2 Auto t uning m ode op eration The b lock di agram of real-ti m e auto tun ing is sho wn bel ow. Servo motor Command Automa tic setti ng Loop gains PG1,VG 1 PG2,VG 2,VIC Current control Current feedback Load inertia momen t Encode r Position/speed feedback Real-time auto tuning secti on Speed feedback Load iner[...]

  • Page 150

    6 - 5 6. GENERAL GAIN ADJUSTMENT 6.2.3 Adjus tment pr ocedure b y auto t uning Since aut o tuni ng is m ade v alid b efore sh ipment fr om th e fac tor y, sim ply r unnin g th e ser vo m otor a utom atica ll y sets the op tim um gains that m atc h the m ac hine. Mere l y chan ging t he r espons e level sett ing v alue as r equir ed com pletes the a[...]

  • Page 151

    6 - 6 6. GENERAL GAIN ADJUSTMENT 6.2.4 Respo nse lev el settin g in aut o tuning m ode Set t he resp onse ( The f irst di git of param eter No .PA 09) of the wh ole ser vo s ystem . As th e res ponse level settin g is inc reas ed, th e trac k abil ity and s ettl ing tim e for a c omm and decr eases , but a t oo hi gh resp onse l evel will g enerat [...]

  • Page 152

    6 - 7 6. GENERAL GAIN ADJUSTMENT 6.3 Manual m ode 1 (sim ple m anual adjustm ent) If you are not s atisf ied with the adjus tm ent of aut o tun ing, you can m ake s imple m anual adj ustm ent with t hree param eters. POINT If m achine res onance occ urs, fi lter t uni ng m ode (p aram eter No. PB0 1) or mac hine res onanc e sup pres sion f ilter (p[...]

  • Page 153

    6 - 8 6. GENERAL GAIN ADJUSTMENT (c)Adj ustm ent des crip tion 1) Spee d loop ga in (param eter No. PB0 9) This param eter determ ines the res pons e lev el of the s peed c ontr ol loo p. Incr eas ing t his v alue enhanc es res ponse but a too hi gh va lue wil l mak e the m echanica l sys tem lia ble to vi brate. The act ual respo nse fre quenc y o[...]

  • Page 154

    6 - 9 6. GENERAL GAIN ADJUSTMENT (2) For position control (a) Parameters The f ollowi ng par ameter s are us ed for g ain adj ustm ent. Parameter No. Abbreviat ion Name PB06 GD2 Ratio of load inertia moment to servo motor inertia m oment PB07 PG1 Model loop gain PB08 PG2 Position loop gain PB09 VG2 Speed loop gain PB10 V IC Speed i ntegral compensa[...]

  • Page 155

    6 - 10 6. GENERAL GAIN ADJUSTMENT (c) Adju stm ent descrip tion 1) Spee d loop ga in (VG2: param eter No. PB09) This param eter determ ines the res pons e lev el of the s peed c ontr ol loo p. Incr eas ing t his v alue enhanc es res ponse but a too hi gh va lue wil l mak e the m echanica l sys tem lia ble to vi brate. The act ual respo nse fre quen[...]

  • Page 156

    6 - 11 6. GENERAL GAIN ADJUSTMENT 6.4 Interpo latio n mode The in terpo lation m ode is u sed t o matc h the posit ion lo op ga ins of the ax es when per form ing t he int erp olatio n operat ion of serv o m otors of two or m ore axes for a n X- Y tab le or th e lik e. In this m ode, m anu ally se t the model loop g ain t hat det erm ines c omm and[...]

  • Page 157

    6 - 12 6. GENERAL GAIN ADJUSTMENT 6.5 Dif ferenc es between M ELSER VO-J2- Super an d MEL SERVO- J3 in aut o tunin g To m eet h igher r espons e demands , t he MEL SER VO-J 3 ser ies h as bee n c hanged in r espo nse l evel s ett ing ran ge from the ME LSERVO-J2S -Supe r series. The fo llowin g table li sts compari son of the re sponse level settin[...]

  • Page 158

    7 - 1 7. SPECIA L ADJUSTMENT FUNCTIONS 7. SPECIAL ADJUSTME NT FUNCTIONS POINT The f unctions give n in th is chapter need no t be us ed gener ally. Use them if you are n ot satisf ied with the m achine status after mak ing adjustm ent in the methods in chapter 7. If a m echanic al s ystem has a natura l reso nance poin t, incr easi ng the s ervo s [...]

  • Page 159

    7 - 2 7. SPECIAL ADJUSTMENT FUNCT IONS (2) Parameters The op erati on of a dapt ive tu ning m ode (p aram eter No .PB01) . Filter tunin g mode selec tion 000 Paramete r No.PB01 Setting Filt er adjustment mode Automaticall y set para m eter 0 Filter OFF (Note) 1 Filter tuning m ode Param eter No.PB13 Paramet er No.PB14 2 Manual m ode Note. Paramet e[...]

  • Page 160

    7 - 3 7. SPECIAL ADJUSTMENT FUNCT IONS (3) Ada pti ve tun ing m ode pr oced ure The response has increased to the machin e limit . The machine is too complicated to provide the optimum filter. Facto r Adaptive tuning adjustment Operation Is the target response reached? Tuning ends automatically after t he predetermined period of time. (Parameter No[...]

  • Page 161

    7 - 4 7. SPECIAL ADJUSTMENT FUNCT IONS POINT "Filter O FF" ena bles a r eturn to t he fact ory-set initial value. W hen adaptive tu ning is ex ecuted, vibration s ound inc reas es as an exc itation signal is for cibl y applied f or severa l secon ds. W hen adaptive tuning is executed, m achine res onanc e is det ected f or a maxim um of 1[...]

  • Page 162

    7 - 5 7. SPECIAL ADJUSTMENT FUNCT IONS (2) Parameters (a) M achin e reson anc e sup pressi on f ilter 1 ( par ameter No.P B13, PB14) Set the n otc h frequ enc y, notch depth an d notc h widt h of the mac hine res onanc e suppr ess ion fi lter 1 (param eter No .PB13 , PB 14) W hen you have m ade a daptiv e filter t unin g mode ( par ameter No.PB0 1)[...]

  • Page 163

    7 - 6 7. SPECIAL ADJUSTMENT FUNCT IONS 7.4 Advance d vibra tion suppr ession co ntrol (1) Op erati on Vibra tion s uppres sio n contr ol is used to fur ther s uppr ess machin e end vibrat ion, such as work piec e end vibrat ion an d base s hake. T he m otor sid e oper ation is adjus ted f or pos itioni ng so th at the m achin e does n ot shak e. t [...]

  • Page 164

    7 - 7 7. SPECIAL ADJUSTMENT FUNCT IONS (3) Vi brati on sup pressi on co ntrol tuning m ode proc edur e No Estimation cannot be made as machine end vibration has n ot been transmitted to the motor end. The response of the model loop gain has increased to the ma chine end vibration frequency (vibration suppression control limi t). Vibration suppressi[...]

  • Page 165

    7 - 8 7. SPECIAL ADJUSTMENT FUNCT IONS (4) Vi brati on sup pressi on co ntrol m anu al m ode Measur e work end vibra tion and d evice sh ake wit h the m achine a nal yzer or ext ernal m easur ing instr um ent, and set th e vibr ation s uppres sio n contr ol vibr atio n freque nc y (param eter No. PB19) and vibr atio n suppr ession cont rol r eson a[...]

  • Page 166

    7 - 9 7. SPECIAL ADJUSTMENT FUNCT IONS POINT W hen machine en d vibrati on does not s how up in m otor end vibrati on, the setting of the m otor end vib ration f requenc y does not p roduce a n effec t. W hen the anti-resonanc e frequenc y and reson ance frequenc y can be confirm ed using t he m achine anal yzer or ex ternal F FT device, d o not se[...]

  • Page 167

    7 - 10 7. SPECIAL ADJUSTMENT FUNCT IONS 7.5 Lo w-pass filt er (1) Function W hen a bal l scre w or th e lik e is used, r eso nance of h igh fr equenc y ma y occur as t he resp onse leve l of the serv o system is increase d. T o preve nt this, t he lo w-pass f ilter is fac tor y -s et to be vali d for a tor que comm and. T he filt er fr equenc y of [...]

  • Page 168

    7 - 11 7. SPECIAL ADJUSTMENT FUNCT IONS 7.6.2 Functi on bloc k diagr am The v alid loop g ains PG2, VG2, VIC a nd GD 2 of t he act ual lo op ar e ch anged accor ding to t he con ditions selec ted b y gain c hang ing s elect ion C DP (p aram eter N o.PB26) and gai n chan ging condit ion CDS ( param eter No.PB27). GD2 Para meter No .PB06 GD2B Para me[...]

  • Page 169

    7 - 12 7. SPECIAL ADJUSTMENT FUNCT IONS 7.6.3 Par ameter s W hen using t he g ain c hangi ng fu nction, alwa ys set " 3 " in param eter No.P A08 ( auto tu ning) to ch oos e the manual m ode of the gai n adjus tm ent modes . The ga in c hanging f uncti on cann ot be us ed in the a uto tu ning mode. Parameter No. Abbreviation Name Unit Des [...]

  • Page 170

    7 - 13 7. SPECIAL ADJUSTMENT FUNCT IONS (1) Pa rameters No.PB06 to PB 10 Thes e param eters are th e sam e as i n ord inar y manua l adjustm ent . Gai n chan ging allows the v alues of ratio of load inert ia m oment to s erv o motor inert ia m oment, p osition loop gain, s peed loop gain an d spee d integr al com pens atio n to be cha nged. (2) Ga [...]

  • Page 171

    7 - 14 7. SPECIAL ADJUSTMENT FUNCT IONS 7.6.4 Gai n changi ng operat ion This op erat ion will b e descr ibed b y wa y of set ting ex ampl es. (1) W hen you choos e chang ing by input device (a) Setting Parameter No. Abbreviat ion Name Setting Unit PB07 PG1 Model loop gain 100 rad/s PB06 GD2 Ratio of load inertia moment to servo motor inertia m ome[...]

  • Page 172

    7 - 15 7. SPECIAL ADJUSTMENT FUNCT IONS (2) W hen you choos e chang ing by droo p pulses (a) Setting Parameter No. Abbreviat ion Name Setting Unit PB 07 PG1 Model loop gain 100 rad/s PB06 GD2 Ratio of l oad ine rtia m oment to servo m otor inertia m oment 4.0 Multiplie r ( 1) PB 08 PG2 Position loop gain 120 rad/s PB 09 VG2 Speed loop gain 3000 rad[...]

  • Page 173

    7 - 16 7. SPECIAL ADJUSTMENT FUNCT IONS MEMO[...]

  • Page 174

    8 - 1 8. TROUBLESHOOTING 8. TRO UBL ESH OOT ING POINT As soon as an alarm occ urs, mak e the Serv o off status and interr upt the m ain circuit po wer. If an alarm /warn ing has occ urred, r efer to t his cha pter and r emove its c ause. 8.1 Alarm s and warning list W hen a fa ult oc curs durin g operat ion, t he c orres pond ing alarm or warning i[...]

  • Page 175

    8 - 2 8. TROUBLESHOOTING 8.2 Rem edies f or alarm s CAUTION W hen an y alarm has occ urred, elim inat e its c ause , ens ure s afet y, then r eset t he alarm , and r estart opera tion . Oth erwis e, inj ur y may occ ur. If an absolut e pos itio n eras e (25) occ urred, al ways m ake h ome pos it ion se tting again. Not d oing so m ay cause unexp ec[...]

  • Page 176

    8 - 3 8. TROUBLESHOOTING Display Nam e Definit ion Cause Action 12 Memory error 1 (RAM) RAM, m emory fault Printed board fault Faulty parts in the servo amplifi er Checking method Alarm (any of 12 and 13) occurs if power is switched on after disconnection of al l cables but the control circuit po wer supply cables. Change the servo amplifier. 13 Cl[...]

  • Page 177

    8 - 4 8. TROUBLESHOOTING Display Nam e Defi nition Cause Act ion 1. Wrong setting of parameter No. PA02 Set c orrectly. 2. Built-in regenerati ve resistor or regenerative option is not connected. Connect c orrectly. 3. High-duty operat ion or continuous regenerative operation c aused the permissib le regenerative power of the regenerative opt ion t[...]

  • Page 178

    8 - 5 8. TROUBLESHOOTING Display Nam e Defini tion Cause Action 1. Regenerative opt ion is not used. Us e the regenerative option. 2. Though the regenerative option is used, t he parameter No.PA 02 setting is " 00 (not used)". Set c orrectly. 3. Lead of built-in regenerati ve resistor or regenerative option is open or disconnect ed. 1. Ch[...]

  • Page 179

    8 - 6 8. TROUBLESHOOTING Display Nam e Defini tion Cause Action 1. Servo amplifier f ault caused the paramet er setting to be rew ritt en. Change the servo amplifier. 2. There is a parameter whose value was set to outside the setting range by the controller. Change the parameter val ue to within the setting range. 37 Parameter error Parameter sett [...]

  • Page 180

    8 - 7 8. TROUBLESHOOTING Display Nam e Defini tion Cause Action 1. Mach ine struck s omething. 1. Check operation pattern. 2. In stall l imit swi tches. 2. Wrong c onnection of s ervo motor. Servo amplifi er's output terminals U, V, W do not match s ervo motor's input terminals U, V, W. Connect c orrectly. 3. Servo system is i nstable and[...]

  • Page 181

    8 - 8 8. TROUBLESHOOTING Display Nam e Defini tion Cause Action (Note) 888 Watchdog CPU, parts fault y Fault of parts in servo amplifier Checking method Alarm (888) occurs if power is switched on after d isconnection of all cables but the control circuit power su pply cable. Change the servo amplifier. Note. At power-on, "888" appears ins[...]

  • Page 182

    8 - 9 8. TROUBLESHOOTING Display Nam e Defi nition Cause Action E1 Overload warning 1 There is a possib ility tha t overload alarm 1 or 2 may occur . Load increased to 85% or more of overload alarm 1 or 2 occurrence level. Cause, checking method Refer to 5 0,51. Refer to 50, 51. E3 Absolu te position counter warning Absolute posit ion encoder pulse[...]

  • Page 183

    8 - 10 8. TROUBLESHOOTING MEMO[...]

  • Page 184

    9 - 1 9. OUTLINE DRAW INGS 9. OUTLINE DRA W INGS 9.1 Servo am plifier (1) MR-J3-10B MR-J3-2 0B MR-J3- 10B1 MR-J 3-20 B1 [Unit: mm] 135 168 161 156 6 6 4 6 6 40 Approx.80 CNP1 CNP3 CNP2 Approx.14 Appro x. 25.5 Approx.68 With MR-J3BAT (Note) (Note) 6 mounting hol e Note. This data applies to the 3-phase or 1-phase 200 to 230VAC power supply models. F[...]

  • Page 185

    9 - 2 9. OUTLINE DRAW INGS (2) MR-J3-40B MR-J3-6 0B MR-J3- 40B1 [Unit: mm] Approx. 25.5 6 5 161 168 6 170 40 6 Approx.80 156 CNP3 CNP1 CNP2 Approx.14 Approx.68 CN4 CN2L CN2 CN1B CN1A CN3 CN5 CHARGE L2 U W V D L21 L11 C P N P1 P2 L3 L1 (Note) (Note) With MR-J3BAT L1 L2 L3 N P1 P2 P C D L11 L21 U V W 6 mounti ng hole 6 Note. This data applies to the [...]

  • Page 186

    9 - 3 9. OUTLINE DRAW INGS (3) MR-J3-70B MR-J 3-100B [Unit: mm] 60 12 12 6 156 6 161 168 185 6 Approx.80 Cooling fan wind di rection CNP3 CNP1 CNP2 Approx.14 Appro x.25.5 Approx.68 With MR-J3BAT 6 mount ing hol e 6 42 Mass: 1.4 [kg] (3.09 [lb]) L 1 L 2 L 3 N P 1 P 2 P C D L 11 L 21 U V W CNP3 CNP2 CNP1 PE te rmina l Terminal signal layout Screw siz[...]

  • Page 187

    9 - 4 9. OUTLINE DRAW INGS (4) MR-J3-60B4 MR-J3- 100B4 [Unit: mm] With MR-J3BAT 6 12 42 Approx. 25.5 CNP2 CNP3 CNP1 6mounting hole 60 12 195 Approx. 80 6 Approx. 68 Mass: 1.7 [kg] (3.75 [lb]) L 1 L 2 L 3 N P 2 P C D L 11 L 21 U V W CNP3 CNP2 CNP1 PE te rmina l Terminal signal layout P 1 Screw size: M4 Tightening torque: 1.2 [N m] (10.6 [lb in]) Mou[...]

  • Page 188

    9 - 5 9. OUTLINE DRAW INGS (5) MR-J3-200B(4) POINT Connector s (CNP1, CN P2, and C NP3) and appeara nce of MR- J3-200B s ervo amplif ier have b een ch anged fr om Januar y 2008 pro duct ion. Mode l nam e of the exis ting ser vo am plifier is chang ed to MR-J 3-200 B-RT . For MR-J 3-200B- RT, ref er to appendix 5. [Unit: mm] Cooling fan wind directi[...]

  • Page 189

    9 - 6 9. OUTLINE DRAW INGS (6) MR-J3-350B [Unit: mm] Approx.1 4 Approx. 25.5 90 168 6 78 6 45 6 156 6 6 mounti ng hole 195 21.4 Approx.80 Cooling fan wind direction Approx.68 6 85 With MR-J 3BAT 6 Mass: 2.3 [kg] (5.07 [lb]) U V W CNP3 P C D L 11 L 21 CNP2 L 1 L 2 L 3 N P 1 P 2 CNP1 Terminal signal layout PE ter minal Screw size : M4 Tigh tening to [...]

  • Page 190

    9 - 7 9. OUTLINE DRAW INGS (7) MR-J3-350B4 MR-J3-5 00B( 4) [Unit: mm] CHARGE Cooling fa n 130 118 6 7.5 7.5 250 235 With MR-J3BAT 200 Ap prox. 80 131. 5 68.5 Cooling fa n wind dir ection 6 Ter minal layo ut (Termi nal cover open) TE1 TE2 TE3 20.5 2- 6 moun ting hole 3 plac es for ground (M4) Built-i n regener ative re sisto r lea d te rmin al fixin[...]

  • Page 191

    9 - 8 9. OUTLINE DRAW INGS (8) MR-J3-700B(4) [Unit: mm] 172 160 6 7.5 7.5 300 285 6 With MR-J3BAT 200 Approx.80 138 62 6 TE2 TE3 TE1 CHARGE Cooling fan 20.5 CN3 CN1A CN1B CN3 CN1A CN1B Cooling f an wind dire ction Terminal layo ut (Termi nal cove r open) 2- 6 mou nting ho le 3 pl aces for grou nd (M 4) Buil t-in regener ative resistor lea d termina[...]

  • Page 192

    9 - 9 9. OUTLINE DRAW INGS (9) M R-J3-1 1KB( 4) t o 22K B(4) [Unit: mm] 2- 12mounting hole 12 236 12 260 12 260 Approx. 80 Cooling fan wind direction With MR-J3BAT Rating plate 26 52 6 26 156 13 123.5 183 227 236 0.5 Approx. 260 4-M10 screw Approx. 12 Approx. 12 Servo amplifier MR-J3-11KB(4) 18.0 (40) MR-J3-15KB(4) 18.0 (40) MR-J3-22KB(4) 19.0 (42)[...]

  • Page 193

    9 - 10 9. OUTLINE DRAW INGS 9.2 Conn ector (1) CN1A CN1 B conn ector [Unit: mm] F0-PF2D103 F0-PF2D103-S 2.3 20.9 0.2 1.7 4.8 13.4 15 6.7 9.3 17.6 0.2 8 2.3 1.7 4.8 13. 4 15 6.7 9.3 17.6 0.2 20.9 0.2 8 (2) Min iatur e delt a rib bon (M DR) s ystem ( 3M) (a) One-touch lock ty pe [Unit: mm] E B A 23. 8 39.0 12.7 C Logo etc, are indicated here. D Each [...]

  • Page 194

    9 - 11 9. OUTLINE DRAW INGS (b) Jack screw M2 .6 type This i s not availa ble as option. [Unit: mm] E B A 23.8 39.0 12.7 C D 5.2 F Logo etc, are indicated here. Each type of dimension Connector Shel l kit A B C D E F 10120-3000PE 10320-52F0-008 22.0 33. 3 14.0 10.0 12.0 27. 4 (3) SCR connector s y stem (3M) Recept acle : 36210- 0100 PL Shell k it :[...]

  • Page 195

    9 - 12 9. OUTLINE DRAW INGS MEMO[...]

  • Page 196

    10 - 1 10. CHARACTERISTICS 10. CHARA CTERISTICS 10.1 Overl oad prot ection c haracterist ics An e lectro nic therm al r ela y is bui lt in th e ser vo am plifier to protec t t he se rvo m ot or and s ervo am plifier from overl oads. O ver load 1 a larm (50) oc curs if over load opera tion per form ed is abov e the e lectron ic t herm al rela y prot[...]

  • Page 197

    10 - 2 10. CHARA CTERIST ICS 10000 100 0 100 10 1 0 100 200 300 During operation Durin g se rvo l ock O p e r a t i o n t i m e [ s ] (Note) Lo ad ratio [ %] MR-J3-11K B(4) to MR- J3-22K B(4) Note. If operation that generat es torque more than 100% of the rating is performed with an abnormally high frequency in a servo moto r stop status (servo loc[...]

  • Page 198

    10 - 3 10. CHARA CTERIST ICS 10.2 Power suppl y equipm ent capacit y and gener ated los s (1) Am ount of he at gen erat ed b y the s ervo amplif ier Table 10.1 i ndicat es ser vo amplif iers' power s up ply ca pacit ies a nd los ses g enera ted un der r ated lo ad. Fo r therm al desig n of an enc los ure, use th e val ues in Tab le 10.1 in con[...]

  • Page 199

    10 - 4 10. CHARA CTERIST ICS (Note 2) Servo amplifier-generat ed heat[W] Area required for heat dissipation Servo amplifi er S ervo motor (Note 1) Power supply capacity[k VA] A t rated torque With servo off [m 2 ] HF-SP702 (4) 10.0 300 25 6.0 HA-LP702 10.6 300 25 6.0 HA-LP601 (4) 10. 0 260 25 5.2 MR-J3-700B (4) HA-LP701M (4) 11. 0 300 25 6.0 HC-LP1[...]

  • Page 200

    10 - 5 10. CHARA CTERIST ICS (2) H eat dis sipa tion ar ea for enc losed ser vo am plifi er The enc lose d contr ol box (her eafter call ed the c ontro l box ) whic h will c ont ain the s ervo am pl ifier s houl d be desig ned to ens ure tha t its tem peratur e rise is within 10 at the am bient tem peratur e of 40 . (W ith a 5 (41 ) safet y marg in[...]

  • Page 201

    10 - 6 10. CHARA CTERIST ICS 10.3 D ynamic br ake c haracteristics 10.3.1 D ynamic brake oper ation (1) C alcul atio n of c oastin g d istanc e Fig. 1 0.3 sh ows the patt ern in which the ser vo m otor co m es to a st op when the d ynam ic brak e is operat ed. Use Eq uation 10.2 to ca lcul ate a n appr oxim ate co asting dista nce to a st op. T he [...]

  • Page 202

    10 - 7 10. CHARA CTERIST ICS Speed [r/min] T i m e c o n s t a n t [ m s ] 500 1000 1500 2000 10 20 30 40 50 60 0 0 81 201 121 51 421 301 Speed [r/min] Time constant [ms] 52 500 1000 15 00 20 00 25 00 30 00 152 20 40 60 80 100 120 0 0 102 202 502 702 35 2 HF-SP1 000r/m in s eries HF- SP200 0r/m in ser ies Speed [r/min] 0 2 4 6 8 10 12 14 16 18 0 50[...]

  • Page 203

    10 - 8 10. CHARA CTERIST ICS T i m e c o n s t a n t [ m s ] 0 0 52 500 100 0 1500 200 0 202 200 152 102 160 120 80 40 302 Speed[r/min] HC-LP series (b) 400V class servo motor 5024 0 1000 2000 3000 75 60 45 30 15 0 90 7024 1524 352 4 1024 524 2024 T i m e c o n s t a n t [ m s ] Speed[r/min] T i m e c o n s t a n t [ m s ] 0 400 800 1200 35 0 30 25[...]

  • Page 204

    10 - 9 10. CHARA CTERIST ICS 10.3.2 T he d ynamic brak e at the l oad iner tia mom ent Use the d ynamic brake und er the lo ad iner tia mom ent rati o indic ated in the fol lowing table. If th e load inertia mom ent is h igher th an th is val ue, the b uilt- in d ynamic brake m a y bur n. If t here i s a poss ibi lity th at the l oad inert ia mom e[...]

  • Page 205

    10 - 10 10. CHARA CTERIST ICS 10.4 Cable flexing lif e The f lexing life of th e cab les is sho wn b elow. This gr aph ca lcula ted values . Si nce the y are not guara ntee d values , pro vid e a li ttle allo wance f or t hese valu es. 1 10 7 5 10 7 1 10 8 5 10 6 1 10 6 5 10 5 1 10 5 5 10 4 1 10 4 5 10 3 1 10 3 a b F l e x i n g l i f e [ t i m e s[...]

  • Page 206

    11 - 1 11. OPTIONS AND AUXILIARY EQUIPMENT 11. OPTIONS AND AUX ILIARY EQUIPMEN T W ARNING Befor e conn ectin g an y optio n or p eriph eral equipm ent, t urn of f the power and wa it for 15 m inut es or m ore until the ch arge l am p turns of f. T hen, c onfir m tha t the volt age be tween P( ) and N( ) is sa fe wit h a volt age tes ter an d ot her[...]

  • Page 207

    11 - 2 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.1.1 Com binatio ns of c able/connec tor sets 36) Direct connection type (c able length 10m or less, IP65) 15)16)17)18) Servo system cont 1)2) Personal computer 35) Servo amplifier CN5 CN1A CN1B CN2 CN3 CNP1 CNP2 CNP3 32)33)34) 37) 32)33)34) Cap (Servo amplifier attach ment) Note CN4 Servo amplifier CN[...]

  • Page 208

    11 - 3 11. OPTIONS AND AUX ILIARY EQUIPMEN T 24)25) 26) Ser vo motor HC-RP HC-UP HC-LP Encoder connector Bra ke connector Power supply connector 24)25) 26) Termin al box Servo mot or HA-LP 38) 30)39)40) From previous page a) From previous p age b) No. Product Model Description Application 1) Servo amplifier power supply connector CNP1 connect or: 5[...]

  • Page 209

    11 - 4 11. OPTIONS AND AUX ILIARY EQUIPMEN T No. Product Model Desc ription A pplication 2) Servo amplifier power supply connector CNP1 connect or: PC4/6-STF-7.62- CRWH (Phoenix Contact) CNP2 connector: 54928-0520 (Molex) CNP3 connector: PC4/3-STF-7.62- CRWH (Phoenix Contact) Supplied with serv o amplifier s of 3.5kW in 200V clas s <Applicable c[...]

  • Page 210

    11 - 5 11. OPTIONS AND AUX ILIARY EQUIPMEN T No. Product Model Description Applic ation 9) Motor brak e cable MR- BKS1CBL M-A 1-L Cable length: 2 5 10m IP65 Load side lead 10) Motor brake cable MR- BKS1CBL M-A 1-H Cable length: 2 5 10m Brake connector HF-MP series HF-KP series Refer to sectio n 11.1.4 for details. IP65 Load side lead Long flex life[...]

  • Page 211

    11 - 6 11. OPTIONS AND AUX ILIARY EQUIPMEN T No Product Model Desc ription Application 21) Encoder cable MR-EK CB L M-L Cable length: 20 30m IP20 22) Encoder cable MR-EK CB L M-H Cable length: 20 30 40 50m For HF-MP HF -KP series Refer to se ction 1 1.1.2 ( 2) for deta ils. IP20 Long flex life 23) Encoder connector set MR-ECNM For HF-MP HF -KP seri[...]

  • Page 212

    11 - 7 11. OPTIONS AND AUX ILIARY EQUIPMEN T No. Product Model Des cription Appli cation 32) SSCNET cable MR-J 3BUS M Cable length: 0.15 to 3m (Refer to secti on 11.1.5.) Connector: PF-2D103 (Japan Aviation Elect ronics Indust ry, Ltd.) Connector: PF-2D103 (Japan Aviation Elect ronics Indust ry, Ltd.) Inside panel standard c ord 33) SSCNET cable MR[...]

  • Page 213

    11 - 8 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.1.2 Enc oder cabl e/connec tor sets (1) MR-J3ENCBL M-A 1-L/ H MR-J 3ENCBL M-A2-L/H These c ab les are enco der cables f or t he HF- MP HF-KP series servo motors. The numerals in the Cable Leng th fiel d of the tabl e are the sy mbols ent ered in th e part of th e ca ble m odel . The cabl es of the len[...]

  • Page 214

    11 - 9 11. OPTIONS AND AUX ILIARY EQUIPMEN T (b) Ca ble in ternal wiring diagra m Servo amplifier side connector Encoder side connector Plat e MR-J3ENCBL2M-L/-H MR-J3ENCBL5M-L/-H MR- J3E NCB L10 M-L /-H P5 LG 1 2 MR MRR 3 4 2 3 9 SD 5 4 6 9 LG MR MRR SHD P5 BAT BAT (2) MR-EKCBL M-L/H POINT The f ollowing en coder ca bles are of four -wire t ype. Wh[...]

  • Page 215

    11 - 10 11. OPTIONS AND AUX ILIARY EQUIPMEN T (a) C onnect ion of serv o am plifier and s er vo motor Servo mot or HF-MP HF-KP 1) MR-E KCBL M-L MR-E KCBL M-H MR-J3JCBL03M-L Cable length: 0.3m 2) Servo amplifier CN2 Cable model 1) For CN2 connector 2) For encoder connector Receptacle: 36210-0100PL Shell k it: 36310-3200-008 (3M) Connector s et: 5459[...]

  • Page 216

    11 - 11 11. OPTIONS AND AUX ILIARY EQUIPMEN T (b) Inter nal wir ing diagr am MR-EKCBL20M-L Servo amplifier side En coder side P5 LG 1 2 MR MRR 3 4 3 7 9 SD Plate 1 2 8 9 P5G MR MRR SHD P5E BAT BAT (Note ) MR-E KCBL30M- L Servo amplifier side Encoder sid e P5 LG 1 2 MR MRR 3 4 MDR 8 5 3 7 4 MD 7 9 SD 1 2 8 9 P5G MR MRR MDR MD SHD P5E 6C O N T BAT BA[...]

  • Page 217

    11 - 12 11. OPTIONS AND AUX ILIARY EQUIPMEN T (c) W hen f abricat ing the e ncod er ca ble W hen fabric atin g the c able, pre pare th e foll owin g parts and to ol, and fabr icat e it accordi ng to the wir ing diagr am in ( b). R efer t o sec tio n 11. 8 for the sp ecific atio ns of the used c able. Parts/t ool Desc ription Connector s et MR-ECNM [...]

  • Page 218

    11 - 13 11. OPTIONS AND AUX ILIARY EQUIPMEN T (a) C onnect ion of serv o am plifier and s er vo motor Servo motor HF-MP HF-KP MR-J3JCBL03M-A2-L MR-E KCBL M-L/- H 1) Servo amplifier 2) Servo motor HF-MP HF-KP MR-J3JCBL03M-A1-L 1) 2) or CN2 Cable model 1) J unction connector 2) For encoder connector MR-J3JCBL03M-A1-L MR-J3JCBL03M-A2-L Housing: 1-1721[...]

  • Page 219

    11 - 14 11. OPTIONS AND AUX ILIARY EQUIPMEN T (4) MR-J3ENSCBL M-L MR-J 3ENS CBL M- H These c ables are detec tor cables f or HF-S P HA-LP HC-RP HC-UP HC-L P Ser ies s ervo m otors . T he number in the c able lengt h col umn of the tab le ind icate s the s ymbol f illi ng the s qua re in the cab le m odel. Cable lengt hs corr esp ondin g to t he sp [...]

  • Page 220

    11 - 15 11. OPTIONS AND AUX ILIARY EQUIPMEN T (b) Inter nal wir ing diagr am P5 LG 1 2 MR MRR 3 4 4 8 9 SD 1 2 5 10 LG MR MRR SHD P5 BAT BAT Servo amplifier side connector Encoder side connector Plate MR-J3ENSCBL10M-L/H MR-J3ENSCBL5M-L/H MR-J3ENSCBL2M-L/H Servo amplifier side con nector Encoder side connector Plate P5 LG 1 2 MR MRR 3 4 4 8 9 SD 1 2[...]

  • Page 221

    11 - 16 11. OPTIONS AND AUX ILIARY EQUIPMEN T (5) MR-J3BTCBL03M This cab le is a battery connecti on cable. U se this cabl e to retain th e current position even i f the detect or cable is dis con nect ed fr om the s erv o am plifi er. Cable model Cable lengt h Applic ation MR-J3BTCBL03M 0.3m For HF- MP HF-KP HF-S P HA-LP HC-RP HC-UP HC-LP servo m [...]

  • Page 222

    11 - 17 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.1.3 M otor po wer suppl y cables These c ables are motor power sup ply cab les f or th e HF- MP HF-KP seri es servo mo tors . The numeral s in the Cable l ength f ield of the ta ble are th e s ymbols e ntere d in the part of the cab le m odel. The c ables of the lengths with the s ymbols ar e avai la[...]

  • Page 223

    11 - 18 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.1.4 M otor brak e cables Thes e cables are m otor br ak e cables f or the HF-MP HF-KP s eries ser vo motors . T he num erals in th e Cab le len gth fiel d of the ta ble are th e symbols en tered in the part of the ca ble m odel. T he c ables of th e le ngths with the sy m bols are availabl e. Refe r [...]

  • Page 224

    11 - 19 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.1.5 SSCN ET cable POINT Do not see directl y the light generated from CN1A CN1B connector of servo amplif ier or the end of SSCNET cable. W hen the light gets i nto e ye, you ma y feel som ething is wrong f or e ye. (The lig ht sourc e of SSCN ET co m pli es with class 1 defin ed in JI S C6802 or IEC[...]

  • Page 225

    11 - 20 11. OPTIONS AND AUX ILIARY EQUIPMEN T (3) Ou tlin e dra wings (a) MR-J3BUS015M [Unit: mm] (13.4) (2.3) (1.7 ) (37.65) (15) (6.7 ) (20.9) Protective tube 0 150 50 0 8 (b) MR-J3BUS03M to MR-J3BUS3M Refe r to the ta ble sh own in (1) o f this secti on fo r cable len gth (L). [Unit: mm] (100) (100) L (Note) Protective tube Note. Dimensi on of c[...]

  • Page 226

    11 - 21 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.2 Regenerat ive options CAUTION The spec ifie d com bina tions of reg ener ative opt ions a nd serv o ampl ifiers m ay onl y be use d. Oth erw ise, a f ire m ay oc cur. (1) Co mbinat ion and regenera tive powe r The po wer v alues in th e tabl e are r esist or-g enerat ed po wers a nd n ot rat ed po [...]

  • Page 227

    11 - 22 11. OPTIONS AND AUX ILIARY EQUIPMEN T (2) Se lect ion of the r egen erative opti on Use the f oll owin g metho d whe n rege nerati on occ urs co ntin uousl y in v ertic al m otion applic ations or when it is des ired to m ake an in-dep th sel ectio n of t he re gener ati ve option . (a) R egen erati ve e nerg y cal culat ion Use th e foll o[...]

  • Page 228

    11 - 23 11. OPTIONS AND AUX ILIARY EQUIPMEN T (b) L osses of ser vo m otor a nd se rvo am plif ier in reg ener ative m ode The f ollow ing tab le lis ts the eff icienc ies an d other data of the ser vo m otor an d ser vo am plifier in the regener ati ve m ode. Servo amplifi er Invers e efficiency[%] Capac itor charging[J] Servo am plifier I nverse [...]

  • Page 229

    11 - 24 11. OPTIONS AND AUX ILIARY EQUIPMEN T The f ollow ing are s ettin g val ues for regen erati ve resis tor a nd rege nerat ive opt ion whic h are used with a servo am pl ifier of 11k to 22kW . Regenerative resist or, regenerative option Setting value Standard suppl ied regenerati ve resistor 00 Standard suppl ied regenerati ve resistor (with [...]

  • Page 230

    11 - 25 11. OPTIONS AND AUX ILIARY EQUIPMEN T (a) MR-J3- 350B or less MR-J3- 200B4 or less Alwa ys rem ove th e wir ing fr om ac ross P- D a nd fit t he re genera tive option acros s P- C. The G 3 an d G4 term inals ac t as a ther m al sens or. G 3-G 4 is disc onnect ed when t he r egen erati ve option ove rheats ab normally . D P C G4 G3 C P Regen[...]

  • Page 231

    11 - 26 11. OPTIONS AND AUX ILIARY EQUIPMEN T (b) MR-J3-350B4 MR-J3-5 00B( 4) MR-J3-700B(4) Alway s remove th e wiring (across P-C ) of the servo ampli fier built-in r egenera tive resist or and fi t the regener ati ve opt ion acr oss P-C. The G 3 an d G4 term inals ac t as a t herm al sens or. G3- G4 is ope ned when the r eg enerat ive opti on ove[...]

  • Page 232

    11 - 27 11. OPTIONS AND AUX ILIARY EQUIPMEN T The dra wing below s hows t he MR-J 3-35 0B4 MR-J3-50 0B(4) . Refer to sec tion 9. 1 ( 6) outli ne dra wings for the posi tion of the fix ing screw f or MR- J3-700 B(4). Built-in regenerative resistor lead terminal fixing screw For t he MR- RB51, MR -RB3G-4, MR -RB5G-4 , MR-RB34 -4 or MR -RB54-4 i nstal[...]

  • Page 233

    11 - 28 11. OPTIONS AND AUX ILIARY EQUIPMEN T (c) MR- J3-11 KB(4) to MR-J 3-22 KB(4) (when usin g the supp lied re gener ati ve resis tor) W hen using t he r egener ativ e res istors supp lied to the s erv o am plifi er, the spec ified num ber of r esist ors (4 or 5 r esis tors) mus t be co nnecte d in series . If th e y are con nect ed in paralle [...]

  • Page 234

    11 - 29 11. OPTIONS AND AUX ILIARY EQUIPMEN T (d) M R-J3-1 1KB( 4)-PX to M R-J3-2 2KB(4)- PX ( when using the re gener ati ve opt ion) The M R-J3- 11K B(4)- PX to MR- J3-2 2KB( 4)-PX ser vo am plif iers are not supp lie d with rege nerat ive resist ors. W hen using an y of thes e s ervo amplif iers , al ways us e th e MR-R B5E, 9P, 9F, 6B-4, 60-4 a[...]

  • Page 235

    11 - 30 11. OPTIONS AND AUX ILIARY EQUIPMEN T (5) Ou tlin e dra wing (a) MR-RB032 MR-RB 12 [Unit: mm (in)] LA 5 LB TE1 6 6 1 5 6 1 6 8 1 4 4 1 2 A p p r o x . 6 A p p r o x . 1 2 Ap pro x. 20 LD 1.6 LC G3 G4 P C 6 mounting hole MR-RB TE1 Terminal block G3 G4 P C Terminal screw: M3 Tightening torque: 0. 5 to 0.6 [N m] (4 to 5 [lb in]) Mounting screw[...]

  • Page 236

    11 - 31 11. OPTIONS AND AUX ILIARY EQUIPMEN T (b) MR-RB30 MR-R B31 MR-RB 32 MR-RB34- 4 MR-RB3M -4 MR- RB3G-4 TE1 Terminal block G3 G4 P C Terminal sc rew: M4 Tightening torque: 1.2 [ N m] (10.62 [lb in]) Mounting screw Screw size: M6 Tightening torque: 5.4 [ N m] (47.79 [lb in]) Variable dimensions Regenerative option A B Mass [kg] ( Ib) MR-RB30 MR[...]

  • Page 237

    11 - 32 11. OPTIONS AND AUX ILIARY EQUIPMEN T (d) MR-RB5E MR-R B9P MR- RB9F MR-R B6B-4 MR- RB60 -4 MR-RB 6K-4 Terminal block G3 G4 P C Terminal sc rew: M5 Tightening torque: 2.0 [ N m] (17.70 [lb in]) Mounting screw Screw size: M8 Tightening torque: 13.2 [ N m] (116.83 [lb in]) Mass Regenerative option [kg] [Ib] MR-RB5E 10 22.0 MR-RB9P 11 24.3 MR-R[...]

  • Page 238

    11 - 33 11. OPTIONS AND AUX ILIARY EQUIPMEN T (f) MR-RB1H-4 Terminal screw: M3 Tightening torque: 0. 5 to 0.6 [N m] (4.43 to 5.31 [lb in]) G3 G4 P C Mounting screw Screw size: M5 Tightening torque: 3. 24 [N m] (28.32 [lb in]) Regenerative option Mass [kg ] ([lb]) MR-RB1H-4 1.1 (2.4) [Unit: mm (in)] TE1 6 2 149 173 6 Approx. 24 15 36 40 6 mounting h[...]

  • Page 239

    11 - 34 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.3 FR- BU2-(H) Br ake uni t POINT Use a 200V class brak e unit and a resistor unit with a 2 00V class servo amplif ier, and a 400V c lass brak e unit and a resistor unit with a 4 00V class servo am plifier . Com binatio n of dif ferent vo ltage cl ass units and ser vo amplif ier cannot be used. Instal[...]

  • Page 240

    11 - 35 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.3.1 Sel ectio n Use a c ombin atio n of servo am plifier , brak e uni t and res istor u nit l isted belo w. Brake unit Resistor unit Number of connected units Per missibl e continuous power [kW] Total resistanc e [ ] Applic able servo amplifier 200V FR-BU2-15K FR-BR-15K 1 0.99 8 MR-J3-500B (Note) cla[...]

  • Page 241

    11 - 36 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.3.3 Connec tion ex ample POINT Connectin g PR term inal of the brak e unit to P ter minal of the ser vo am plifier results in brak e unit m alfunction. Alwa ys connect the PR ter minal of the brak e unit to t he PR ter minal of the res istor unit. (1) Combination with FR-BR-(H) resistor unit (a) W he[...]

  • Page 242

    11 - 37 11. OPTIONS AND AUX ILIARY EQUIPMEN T (b) W hen c onnect ing t wo brak e un its to a ser vo am plifi er POINT To us e brake units with a p arallel co nnect ion, use t wo sets of FR-BU2 br ake unit. Com bination with ot her br ake unit res ults in alarm occurr ence or malfunc tion. Always con nect the m as ter and slav e term inals (MSG and [...]

  • Page 243

    11 - 38 11. OPTIONS AND AUX ILIARY EQUIPMEN T Controller forced stop RA3 NFB 24VDC ALM RA1 MC SK MC ON OFF EM1 Servo mot or thermal relay RA2 (Note 7) (Note 1) Power supply N/ P/ BUE SD PR B C A SD MSG (Note 4) (Note 6) 3 10 EM1 DOCOM DICOM ALM P 1 P 2 P N C FR-BU2-(H) FR-BR Servo amplifier P PR TH2 TH1 (Note 5) MC Term ina l block (Note 3) (Note 1[...]

  • Page 244

    11 - 39 11. OPTIONS AND AUX ILIARY EQUIPMEN T (2) Combination with MT-BR5-(H) resistor unit NFB 24VDC ALM RA1 MC SK MC ON OFF EM1 Servo m otor thermal relay RA2 (Note 1) Power supply N/ P/ BUE SD PR B C A SD MSG (Note 3) (Note 6) RA4 3 10 EM1 DOCOM DICOM ALM P 1 P( ) N( ) FR-BU2-(H) MT-BR5-(H) Servo amplifier P PR TH2 TH1 (Note 5) MC (Note 4) RA4 ([...]

  • Page 245

    11 - 40 11. OPTIONS AND AUX ILIARY EQUIPMEN T (3) Precautions for wiring The c ables betwe en t he ser vo am plif ier a nd t he br ake u nit, an d bet ween the r esist or un it and the brak e uni t shoul d be as sh ort as poss ible . Al ways t wist the c able lon ger t han 5m (t wist f ive tim es or m or e per one meter ). Even when the ca ble is t[...]

  • Page 246

    11 - 41 11. OPTIONS AND AUX ILIARY EQUIPMEN T 2) Contr ol c ircui t term ina l POINT Undertight ening ca n cause a cable d isconnect ion or m alfunctio n. Overtighte ning can cause a s hort circ uit or m alfunc tion due to d am age to the screw or t he brak e unit. A RES PC B SD BUE C MSG SD MSG SD SD Jumper Term inal b lock 6mm Sheath Co re W ire [...]

  • Page 247

    11 - 42 11. OPTIONS AND AUX ILIARY EQUIPMEN T (5) Cr im ping te rm inals f or P and N term inals of s ervo am pl ifier (a) R ecomm ende d crim ping term inals POINT Always use recom mended c rimping t erm inals or equ ivale nt since s ome crimping t erm inals c annot be ins talled depend ing on th e size. Servo a m plifier Brak e uni t Number of co[...]

  • Page 248

    11 - 43 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.3.4 Out line dim ension dr awin gs (1) FR-BU2- (H) brake un it [Unit: mm] FR-BU2-15K Rating plate 5 hole (Screw size: M4) 68 6 56 6 5 18.5 52 62 4 132.5 FR-BU2-30K FR-BU2-H30K 129.5 5 59 18.5 Rating plate 52 2- 5 hole (Screw size: M4) 5 108 6 6 96 FR-BU2-55K FR-BU2-H55K, H75K 18.5 Rating plate 52 72 [...]

  • Page 249

    11 - 44 11. OPTIONS AND AUX ILIARY EQUIPMEN T (2) FR-BR- (H) resistor unit [Unit: mm] 2- C Control circuit terminal Main circuit terminal W1 1 Approx. 35 Approx. 35 204 Hanging bolt C C W 5 For FR-BR-55K/FR-BR-H55K, a hanging bolt is placed on two locations (Indicated below). (Note) (Note) Note. Ventil ation ports are provided on both sides and the[...]

  • Page 250

    11 - 45 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.4 Power regener ation c onverter W hen using t he p ower r egener ation conv erter , set " 01" in para meter No .PA02. (1) Selecti on The co nverte rs can conti nuously return 75% o f the nomina l rege nerative power. T hey are appli ed to the servo am pl ifiers of th e 5k to 22kW . Power r[...]

  • Page 251

    11 - 46 11. OPTIONS AND AUX ILIARY EQUIPMEN T (2) C onnect ion ex am ple NFB MC Servo amplifier L 11 L 21 L 1 L 2 L 3 SK ON MC BC NP C RDY SE Alar m output RDY output A B C 5m o r less Operation ready MC OFF EMG ALM RA2 FR-RC-(H) Ready Power factor improv ing reactor FR-BAL-(H) R/L 1 S/L 2 T/L 3 B C R RX R SX S TX T Phase detection terminals (Note [...]

  • Page 252

    11 - 47 11. OPTIONS AND AUX ILIARY EQUIPMEN T (3) Ou tside dim ensio ns of t he po wer re gener atio n con verters [Unit : mm] AA A C F K EE BA B E D 2- D hole Rating plate Front cove r Display panel window Mounting foot (removable) Mounting foot movable Cooling fan Heat generation area outside m ounting dimension Pow er regeneration converter A AA[...]

  • Page 253

    11 - 48 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.5 Power regener ation c omm on converter POINT Use the FR-C V for the ser vo am plifier of 200V clas s and th e FR-CV-H for that of 400V c lass. For deta ils of the power r egenerat ion com m on convert er FR-CV- (H), ref er to the FR-C V-(H) Ins tallat ion Guide (IB(N A)060007 5). Do not supp ly pow[...]

  • Page 254

    11 - 49 11. OPTIONS AND AUX ILIARY EQUIPMEN T The fol lowing ta ble lists the restr ictions . FR-CV- Item 7. 5K 11K 15K 22K 30K 37K 55K Maximum number of connected servo am plifiers 6 Total of c onnectable servo amplifier c apacities [kW ] 3.75 5.5 7.5 11 15 18.5 27.5 Total of c onnectable servo m otor rated currents [ A] 33 46 61 90 115 145 215 Ma[...]

  • Page 255

    11 - 50 11. OPTIONS AND AUX ILIARY EQUIPMEN T (3) C onnect ion di agram (a) 200V class P 1 DOCOM RA1 EM1 C B R/L 11 3-phase 200 to 230VAC S/L 21 T/L 31 R2/L 1 S2/L 22 R2/L 12 T2/L 32 S2/L 2 (Note 3) P24 SD RDYB RDYA RSO SE A T2/L 3 R/L 11 S/L 21 T/MC1 RES SD (Note 1) L 11 L 21 P N U V W (Note 1) EM1 (Note 2 ) RA1 RA2 24VDC power supply Therm al rel[...]

  • Page 256

    11 - 51 11. OPTIONS AND AUX ILIARY EQUIPMEN T (b) 400V class P 1 (Note 8) Stepdow n transfor mer DOCOM RA1 EM1 C B R/L 11 3-phase 380 to 480VAC S/L 21 T/L 31 R2/L 1 S2/L 22 R2/L 12 T2/L 32 S2/L 2 (Note 3) P24 SD RDYB RDYA RSO SE A T2/L 3 R/L 11 S/L 21 T/MC1 RES SD (Note 1) L 11 L 21 P( ) N( ) U V W (Note 1) EM1 (Note 2 ) RA1 RA2 24VDC power supply [...]

  • Page 257

    11 - 52 11. OPTIONS AND AUX ILIARY EQUIPMEN T (4) Se lect ion ex am ple of wires used f or wiring POINT Selectio n con dition of wire si ze is as f ollows. W ire type : 600V Po lyvinyl chl oride insula ted wire (IV w ire) Constructio n condit ion: O ne wire is constr ucted i n the air (a) W ire sizes 1) Acr oss P- P( ), N-N( ) The f ollowi ng t abl[...]

  • Page 258

    11 - 53 11. OPTIONS AND AUX ILIARY EQUIPMEN T (b) Exam ple of select ing th e wire s izes W hen connect ing m ultip le ser vo am plif iers, al wa ys use j unction term inals f or wir ing th e ser vo am plifier term inals P, N. A lso, conn ect the ser vo am plifier s in the order of larg er to sm aller ca pacit ies. 1) 200V class R2/L 1 S2/L 2 T2/L [...]

  • Page 259

    11 - 54 11. OPTIONS AND AUX ILIARY EQUIPMEN T (5) Ot her pr ecaut ions (a) Al ways us e the FR-CV L-( H) as th e po wer fact or im provi ng react or. Do not use th e FR-B AL or F R-B EL. (b) T he inpu ts/o utputs (m ain circ uits) of th e FR- CV-( H) and s ervo am plifier s incl ude high-f reque nc y com ponents a nd m ay pro vide e lectr omagne ti[...]

  • Page 260

    11 - 55 11. OPTIONS AND AUX ILIARY EQUIPMEN T (6) S pecif ica tions Power regeneration comm on converter FR-CV- Item 7.5K 11K 15K 22K 30K 37K 55K Total of c onnectable servo amplifier c apacities [kW] 3.75 5.5 7. 5 11 15 18.5 27. 5 Maximum s ervo amplifi er capacity [kW] 3. 5 5 7 11 15 15 22 Total of c onnectable servo m otor rated curren ts [A ] 3[...]

  • Page 261

    11 - 56 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.6 Extern al dynam ic brake POINT Configure up a sequ ence whic h switc hes off the contac t of the brak e unit af ter (or as s oon as) it has turne d off the servo on s ignal at a po wer failur e or failure. For the br aking tim e tak en when the dynam ic brak e is operat ed, refer to section 10.3 . [...]

  • Page 262

    11 - 57 11. OPTIONS AND AUX ILIARY EQUIPMEN T (2) C onnect ion ex am ple NFB L 11 L 21 U V W U V W M Servo amplifier Serv o motor RA2 MC SK MC ON OFF ALM RA1 Operation-ready EM1 L 3 L 2 L 1 (Note 5) Power supply 13 U 14 V W External dynamic brake a b (Note 1) P P 1 (Note 2) (Note 4) EM1 3 20 SD Pla te DICOM 10 DB (Note 3) DOCOM 5 DICOM ALM 15 CN3 R[...]

  • Page 263

    11 - 58 11. OPTIONS AND AUX ILIARY EQUIPMEN T Servo moto r rotation Coasting Alarm RA1 ON OFF Forced stop (EM1) Absent Invalid Valid Short Open a. Timing chart at alarm o ccurrence b. Timing chart at forced stop (EM1) validit y Dy na mic br ake Base ON OFF Coasting Dynamic brake Dy na mic br ake Present (Note 2)15 to 60ms (Note 1)7ms 10ms Dynamic b[...]

  • Page 264

    11 - 59 11. OPTIONS AND AUX ILIARY EQUIPMEN T (3) Ou tlin e dim ension dra wing (a) DBU-11K DBU- 15K DBU- 22K UV W D 100 D 5 C E G F 2.3 Terminal block Screw : M3.5 Screw : M4 B A 5 E 13 14 E (GND) ab [Uni t: mm] Tightening torque: 1.2 [N m](10.6 [lb in]) Tightening torque: 0.8 [N m](7 [lb in]) Dynamic brake A B C D E F G Mass [kg]( [Ib]) Connectio[...]

  • Page 265

    11 - 60 11. OPTIONS AND AUX ILIARY EQUIPMEN T (b) DBU-11K-4 DBU-2 2K-4 [Unit: mm] 15 51 25 15 73. 75 7 25 150 10 200 170 178.5 179.5 15 260 280 43 10 2- 7mounting hole 195 228 26 26 210 2.3 Mass: 6. 7[kg] a TE1 Tightening torque: 0.8[N m](7[lb in]) Scre w: M3 .5 b 13 14 Terminal block W V U Tightening torque: 1.2 [N m](10.6[lb in]) Scre w: M4 TE2 W[...]

  • Page 266

    11 - 61 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.7 Junc tion term inal bl ock PS7DW -20V14B-F (r ecom mended) (1) H ow to us e the j unct ion t erm inal block Alwa ys use the j unct ion te rm inal bloc k (P S7W -20V1 4B-F( YOSHID A EL ECTRIC INDU STR Y)) with th e option c able (MR-J 2HBUS M) as a set. A co nnecti on ex am ple is sh own b elow. Ser[...]

  • Page 267

    11 - 62 11. OPTIONS AND AUX ILIARY EQUIPMEN T (3) Ou tline draw ings of junc tion t erm inal bl ock [Unit : mm] TB.E ( 6) 36.5 27. 8 18.8 7.6 2 44.11 54 63 4 .5 4.5 5 4 60 50 9.3 27 M3 5L M3 6L 1.4 2 6.2 11.8 MR Configura tor The MR Conf igurator (MRZJW 3-SET UP221E) us es the c omm unication func tion of the servo amplif ier to perform param eter [...]

  • Page 268

    11 - 63 11. OPTIONS AND AUX ILIARY EQUIPMEN T (2) S ystem conf igurat ion (a) C ompone nts To us e this soft ware , the f ollo wing c om ponents are re quir ed i n addi tion t o the ser vo am plif ier a nd ser vo mot or. Equipm ent (Note 1) Descripti on OS IBM PC/AT compatible where the English version of Windows R 98, Windows R Me, Windows R 2000 [...]

  • Page 269

    11 - 64 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.9 Batter y MR-J3BAT POINT The revis ion (E dition 44) of the D angerous Goods Rule of the Internat ional A ir Trans port Assoc iation (I ATA) went i nto ef fect on J anuar y 1, 2003 and was enforc ed imm ediatel y. In this r ule, "pro visions of the l ithium and lithium ion batteries" were [...]

  • Page 270

    11 - 65 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.10 Heat s ink outsi de mounti ng attachm ent (MR-J 3ACN) Use the hea t sink outsid e mou nting a ttac hment t o m ount the heat generat ion area of the s ervo am pl ifier in the outsid e of th e co ntrol b ox t o diss ipate ser vo am plifier -ge nerate d heat to th e outs ide of the b ox an d reduc e[...]

  • Page 271

    11 - 66 11. OPTIONS AND AUX ILIARY EQUIPMEN T (3) Fi tting m eth od Fit using the assembling screws. Attac hment Servo amplifier Attac hment Servo amplifier Punched hole Control box a. Assembling the heat sink outside mounti ng attachment b. Installat ion to the control box (4) Ou tlin e dim ension dra wing [Unit: mm] 236 280 Approx. 260 20 3.2 105[...]

  • Page 272

    11 - 67 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.11 Selec tion exam ple of wires POINT Refer to sect ion 11.1.5 for SSCNET cable . W ires indicated i n this s ection ar e separat ed wires . W hen using a c able for power lin e (U, V, and W ) between th e serv o amplif ier and s ervo m otor, us e a 600V gra de EP ru bber ins ulated c hloropre ne she[...]

  • Page 273

    11 - 68 11. OPTIONS AND AUX ILIARY EQUIPMEN T (a) W hen using the 60 0V P olyvin yl chlor ide ins ulat ed wire (I V wire) Selec tion exampl e of wire si ze when us ing IV wir es is in dicate d belo w. Table 11. 1 W ire size sel ection ex am ple 1 (IV wi re) Wi re s [m m 2 ] (Note 1, 4) Servo amplifi er 1) L 1 L 2 L 3 2) L 11 L 21 3) U V W 4) P C 5)[...]

  • Page 274

    11 - 69 11. OPTIONS AND AUX ILIARY EQUIPMEN T (b) W hen using the 60 0V Gr ade heat- resis tant pol yvin yl chlori de insu lated wire (HIV wir e) Selec tion exampl e of wire s ize when us ing HIV wir es is indic ated bel ow. For th e wire (8) ) for power regener atio n conver ter (FR- RC-(H )), use the IV wire ind icate d in (1) (a) in this sec tio[...]

  • Page 275

    11 - 70 11. OPTIONS AND AUX ILIARY EQUIPMEN T (c) Se lec tion ex ampl e of crim ping t erm inals Selec tion exam ple of c rimpi ng term ina ls for the ser vo am plifi er ter mina l box when us ing th e wir es mentio ned in (1) (a) a nd ( b) in this s ecti on is ind icate d belo w. Servo am plifier side c rimping terminals Applic able tool Symbol (N[...]

  • Page 276

    11 - 71 11. OPTIONS AND AUX ILIARY EQUIPMEN T (2) Wires for cables W hen fabric atin g a ca ble, u se t he wir e mode ls given in the follo wing table or eq uiva lent. Table 11. 3 W ires for option cables Char acterist ics of on e co re Type Mo del Length [m] Core size [mm 2 ] Number of Core s Structure [W ir es/ mm] Conductor resistance [ /mm] Ins[...]

  • Page 277

    11 - 72 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.12 No-f use break ers, f uses, m agnetic co ntactors Alwa ys use one no- fuse break er a nd on e magn etic c ont actor with o ne s ervo a m plifier. W hen using a fus e instea d of the no-f use bre ak er, use th e one havi ng the spec ific atio ns given i n this se ction. No-fuse break er Fuse Servo [...]

  • Page 278

    11 - 73 11. OPTIONS AND AUX ILIARY EQUIPMEN T Rating plate L H B or le ss E A or le ss Terminal box - sc rew size G Mounting leg D F C or less Servo amplifier P 1 P 2 (Not e 2) FR-BEL-(H) 2-F L notch 5m or less Servo amplifier P 1 P 2 (Not e 2) FR-BEL -(H) (No te 3) B or le ss A or le ss Mount ing le g Rating plate 2-F L notch Screw size G (Note 1)[...]

  • Page 279

    11 - 74 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.14 Po wer factor impr oving AC r eactors The p ower f act or im prov ing AC re acto rs im prov e th e phas e fac tor b y increas ing the f orm factor of serv o amplif ier's inp ut cur rent. It can reduce the power capaci ty. The inp ut power factor is im proved to be abou t 90%. For use with a 1[...]

  • Page 280

    11 - 75 11. OPTIONS AND AUX ILIARY EQUIPMEN T Dimensions [mm] Serv o amplif ier Model W W 1 H D D1 C Mount ing screw si ze Termina l screw si ze Mass [kg (l b)] MR-J3- 10B 20B 10B 1 FR-BAL-0.4K 135 12 0 115 59 45 0 -2.5 7.5 M4 M3.5 2. 0 (4.4 1) MR-J3- 40B 20B1 FR -BAL-0.75K 13 5 120 115 69 57 0 -2.5 7.5 M4 M3.5 2. 8 (6.1 7) MR-J3- 60B 70B 40B 1 FR-[...]

  • Page 281

    11 - 76 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.16 Sur ge absorber s (rec omm ended) A surge absor ber is required for the electromagnetic brake. Use the following surge absorber or equivalent. W hen using t he s urge absor ber, p erf orm insulat ion bef oreh and to preve nt shor t-cir cuit. Maximum rating Per missibl e circui t voltage Surge immu[...]

  • Page 282

    11 - 77 11. OPTIONS AND AUX ILIARY EQUIPMEN T (c) T echni ques f or no ises ra diated b y the ser vo am plif ier th at caus e per ipher al de vic es to m alf unctio n Noises prod uced by the s er vo am plifier are clas sified int o thos e radi ated from the ca bles co nnec ted to the ser vo am plif ier an d its m ain c ircui ts ( input a nd outp ut[...]

  • Page 283

    11 - 78 11. OPTIONS AND AUX ILIARY EQUIPMEN T Noise transmiss ion route Suppression t echniques 1) 2) 3) When meas uring instrum ents, rec eivers, sens ors, etc. which handle weak s ignals and m ay malfunct ion due to noise and/ or their si gnal cabl es are contai ned in a control bo x together with the servo am plifi er or run near the s ervo ampl[...]

  • Page 284

    11 - 79 11. OPTIONS AND AUX ILIARY EQUIPMEN T (b) Surge suppresso r The rec omm ended s urge suppr ess or for inst allat ion to an AC rela y, AC val ve or the l ike ne ar the ser vo am plifier is s hown belo w. U se this pro duct or e quiva lent . MC Surge suppr essor Relay Surge suppresso r This distance should be short (within 20cm). (Ex.) 972 A.[...]

  • Page 285

    11 - 80 11. OPTIONS AND AUX ILIARY EQUIPMEN T Outli ne dra wing [Unit: mm] Earth plate Clamp section diagram (Note)M4 sc rew 1 1 3 6 C A 6 22 17.5 35 3 5 L or less 10 3 0 7 2 4 0 0 . 2 2 4 0 . 3 0 B 0 . 3 2- 5 hole installation hole Note. Sc rew hole f or grounding. Connect i t to the earth plate of the control box. Type A B C Acc essory fittings C[...]

  • Page 286

    11 - 81 11. OPTIONS AND AUX ILIARY EQUIPMEN T (d) Lin e no ise f ilter (F R-BSF 01, FR -BLF) This filter is ef fec tive in s uppr essi ng nois es r adiate d fr om the po wer su ppl y side an d outp ut sid e of th e servo am pl ifier a nd a lso in suppres sing high-f reque nc y leak age curr ent ( zero- phase c urre nt) es pecia lly wi thin 0.5 MHz [...]

  • Page 287

    11 - 82 11. OPTIONS AND AUX ILIARY EQUIPMEN T (f) Varistors for input po wer supp ly (Recom m ended) Varist ors ar e ef fectiv e to pr event ex oge nous n oise a nd li ghtnin g sur ge from enter ing th e ser vo am plifi er. W hen using a var istor , connec t it betwee n each ph ase of th e inpu t power suppl y of the eq uipm ent. For varist ors, t [...]

  • Page 288

    11 - 83 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.18 Leak age cur rent break er (1) Se lect ion m ethod High-f reque ncy ch opper c urren ts co ntrol led b y puls e width m odulatio n fl ow in t he AC serv o circ uits. Leak age curre nts co ntai ning harm on ic cont ents are larger tha n those of the m otor wh ich is run wit h a comm erc ial power s[...]

  • Page 289

    11 - 84 11. OPTIONS AND AUX ILIARY EQUIPMEN T Table 11.4 Servo motor's leak age current example (Igm) Table 11.5 Servo amplif ier's leakage current example (Iga) Servo m otor power [kW] Leakage current [mA] Servo amplifi er capacity [kW] Leakage current [mA] 0.05 to 1 0.1 0.1 to 0.6 0. 1 2 0.2 0.75 to 3.5 (Note) 0. 15 3.5 0.3 5 7 2 5 0.5 [...]

  • Page 290

    11 - 85 11. OPTIONS AND AUX ILIARY EQUIPMEN T 11.19 EMC f ilter ( recom mended) For com plianc e with t he E MC dir ectiv e of the E N Sta ndard, it is rec omm ended to use th e fol lowing f ilter . Som e EMC f ilter s are large in l eakag e curr ent. (1) C omb ination with the s ervo ampl ifier Recommended f ilter (Soshi n Electric) Servo amplifi [...]

  • Page 291

    11 - 86 11. OPTIONS AND AUX ILIARY EQUIPMEN T (3) Ou tlin e dra wing (a) EMC filte r HF3010 A-UN [Unit: mm] M4 IN 3-M4 65 4 Approx.41 4-5 .5 7 258 4 273 2 288 4 300 5 3-M4 85 2 32 2 110 4 HF3030 A-UN HF-304 0A-U N J 2 H 2 G 1 F 2 E 1 D 2 3-L 6-K 3-L M C 1 B 2 A 5 C 1 Dimensi ons [mm] Model A B C D E F G H J K L M HF3030A-UN 260 210 85 155 140 125 4[...]

  • Page 292

    11 - 87 11. OPTIONS AND AUX ILIARY EQUIPMEN T HF3100 A-UN 2-6.5 8 M8 2- 6.5 145 1 165 3 M6 380 1 400 5 160 3 M8 TF3005 C-TX T X3020C- TX TF3030C-TX [Unit: mm] 290 2 100 1 308 5 332 5 Approx.12.2 3-M4 16 16 6-R3.25 length8 M4 M4 125 2 140 1 155 2 IN 150 2 Approx.67.5 3 Approx.160 170 5 M4 3 M4 100 1[...]

  • Page 293

    11 - 88 11. OPTIONS AND AUX ILIARY EQUIPMEN T TF3040 C-TX T F3060 C-TX [Unit: mm] K 2 L J H 5 M6 C 2 D 1 B 5 A 5 Approx.17 3-M6 22 22 8-M M4 M4 G 2 3-M6 F 1 E 2 IN D 1 D 1 Dimensi ons [mm] Model A B C D E F G H J K L M TF3040C-TX TF3060C-TX 438 412 390 100 175 160 145 200 Approx.190 180 Approx.91.5 R3.25 length 8 (M6)[...]

  • Page 294

    11 - 89 11. OPTIONS AND AUX ILIARY EQUIPMEN T (b) Sur ge pr otect or RAV -781BY Z-2 4.5 0.5 1 3 2 41 1. 0 28.5 1.0 28 1.0 4 .2 0.2 200 30 0 UL-1015AWG16 5.5 1 11 1 [Unit: mm] Black 1) 2) 3) Black B lack RAV -781B XZ-4 1 3 2 UL-1015AWG16 4 .2 0.2 5.5 1 11 1 28.5 1.0 200 30 0 28 1.0 41 1. 0 4.5 0.5 [Unit: mm] 1) 2) 3) 4)[...]

  • Page 295

    11 - 90 11. OPTIONS AND AUX ILIARY EQUIPMEN T MEMO[...]

  • Page 296

    12 - 1 12. ABSOLUTE PO SITION DETECTIO N SYSTEM 12. ABSOLU TE POSITION DE TECTION SYSTEM CAUTION If an absolut e pos itio n eras e alar m ( 25) or a bsolu te p ositio n coun ter war nin g (E3) has oc curre d, a lways per for m home pos ition s ett ing ag ain . Not do ing s o can c ause runawa y. Not doing s o m ay caus e unex pect ed oper atio n. P[...]

  • Page 297

    12 - 2 12. ABSOLUTE POSITION DETECTION SYSTEM 12.2 Specif ications POINT Repla ce the batte r y with only the cont rol circuit power ON. Removal o f the battery with t he cont rol circuit power OFF will e rase the ab solute po sition data . (1) Spec ificat ion l ist Item Description System Electroni c battery back up syst em Battery 1 piece of l it[...]

  • Page 298

    12 - 3 12. ABSOLUTE POSITION DETECTION SYSTEM 12.3 Batter y installat ion procedur e W ARNING Befor e inst allin g a b atter y, tur n off the m ain c ircuit powe r whil e kee ping t he c ontro l circui t power on. W ait f or 15 m inutes or m ore ( 20 m inute s or f or dr ive uni t 30kW or mo re) until the c harge lam p turns off . Then, c onf irm t[...]

  • Page 299

    12 - 4 12. ABSOLUTE POSITION DETECTION SYSTEM (2) For MR-J3-500B or more MR-J3- 350B4 o r more Inser t conne ctor into CN4.[...]

  • Page 300

    12 - 5 12. ABSOLUTE POSITION DETECTION SYSTEM 12.4 Conf irm ation of abso lute pos ition detec tion dat a You ca n conf irm the a bsolu te p ositi on dat a wit h MR Co nf igurator . Choose "Diag nostic s" and "Absol ute Encod er Dat a" to open the abs olute posi tion d ata d ispla y scr een. (1) C hoosi ng "Di agnost ics &q[...]

  • Page 301

    12 - 6 12. ABSOLUTE POSITION DETECTION SYSTEM MEMO[...]

  • Page 302

    13 - 1 13. SERVO AMPLIFIERS WITH A LARGE CAPACITY ( 30k T O 55kW ) 13. SERVO AMPLIFIER S W ITH A LARGE CAPAC ITY (30k TO 55kW) This ch apter expl ain s the MELSERV O-J3-B seri es AC servo fe aturing a large capa city of 200V (30k to 37kW )/400V (30k to 55kW ). Expla nati on made in this ch apter is exclus ive ly for th e MR-J3-C R (4) con verter un[...]

  • Page 303

    13 - 2 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.1.1 Func tion bl ock diagr am The fu nction block di agram of thi s servo i s shown below . L L 11 L 21 L 1 L 2 L 3 P 1 P 2 C L 11 L 21 L L L Power supply Control power supply Base amplifier MC CN1 I/F CHARGE lamp Converter NFB Cooling fan CPU Trouble, warning, forced stop CN40 C[...]

  • Page 304

    13 - 3 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) Model positio n control Model speed contro l L L L L Current co ntr ol Actual speed contro l Actual position control OHS2 Optional bat tery (For absolut e position detection system) Termination connector MR-J3-TM (Option) CN40 BU BV BW U V W Over current Control power supply Current[...]

  • Page 305

    13 - 4 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.1.2 Pac king lis t Unpack the produc t a nd ch eck the r ating plate to se e if t he con vert er un it, dr ive unit and ser vo m otor are as you ordered . (1) Converter unit POINT Regenerat ive resis tor and power fac tor im proving DC reac tors are op tion. Purchase t hem separa[...]

  • Page 306

    13 - 5 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.1.3 St andard sp ecif ications (1) Converter unit Model Item MR-J3-CR55K MR-J3-CR55K4 Voltage/f requency 3-phase 200 t o 230VAC, 50/60Hz 3-phase 380 t o 480VAC, 50/60Hz Permiss ible voltage fluctuat ion 3-phase 170 to 253VAC 3-phas e 323 to 528VAC Main circuit power supply Permis[...]

  • Page 307

    13 - 6 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (2) Drive unit (a) 200V class Model Item MR-J3-DU30KB MR-J3-DU37K B Voltage/f requency 1-phase 200 t o 230VAC, 50/60Hz Permiss ible voltage fluctuat ion 1-phase 170 to 253VAC Permissi ble frequency fluctuat ion Wi th i n 5% Control power supply Power consumption 45 W Main circuit po[...]

  • Page 308

    13 - 7 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (b) 400V class Model Item MR-J3-DU30KB 4 MR-J3-DU37KB 4 MR-J3-DU45KB4 MR-J3-DU55K B4 Voltage/f requency 1-phas e 380 to 480VAC, 50/60Hz Permiss ible voltage fluctuat ion 1-phas e 323 to 528VAC Permissi ble frequency fluctuat ion Wi th in 5% Control power supply Power consumption 45W[...]

  • Page 309

    13 - 8 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.1.4 M odel def inition (1) Rating plate Serial number POWER MITSUB ISHI AC S ERVO MADE IN JAPAN MODEL MR-J3-CR 55K MITSUBIS HI ELECTRIC CORPORA TION AC SERVO PASSED Applicable power supply Capacity Model Rated output current : 55kW : : A5**** *** POWE R : AC200V-23 0V 50/60Hz INP[...]

  • Page 310

    13 - 9 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.1.5 Com binatio ns of c onverter uni ts, dri ve unit and servo m otors The f ollowi ng tabl es in dicat e th e com binati ons of the co nver ter un its, dr ive unit a nd s ervo m otors. (1) 200V class Servo m otor HA-LP Converter unit Dri ve unit 1000r/min 1500r/ min 2000r/min MR[...]

  • Page 311

    13 - 10 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.1.6 Pa rts id entif ication (1) Converter unit (MR-J3-CR55K(4)) POINT The s ervo amplif ier is s how n without th e fr ont cover. F or rem oval of the front cover, ref er to sec tion 13. 1.7. Protecti ve earth (PE ) termin al ( ) Gr oun d term in al. L L t erminal (TE2-1) When u[...]

  • Page 312

    13 - 11 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (2) Drive unit (MR-J3-DU 30KB4 MR-J3-DU37KB4 ) POINT The s ervo amplif ier is s how n with th e front cov er open ed. For rem ova l of the front c over, refer to sect ion 13.1.7. 7 9 6 8 5 4 3 2 1 0 F E D C B A 12 ON 4F SW1 SW2 TEST Cooling fan Chapter 4 Section 3.2 Section 3.4 Sec[...]

  • Page 313

    13 - 12 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (3) Drive unit (MR-J3-DU 30KB MR-J3-DU 37K B MR-J3-DU4 5KB4 MR-J3- DU55K B4) POINT This servo am plifier is show n without th e front c over. F or rem oval of the front cover, ref er to sec tion 13. 1.7. 7 9 6 8 5 4 3 2 1 0 F E D C B A 12 ON 4F SW1 SW2 TEST fixed part (4 places) Co[...]

  • Page 314

    13 - 13 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.1.7 Rem oval an d reins talla tion of the term inal bloc k c over CAUTION Be fore re moving or in stalling the fro nt cov er, tu rn off t he pow er and wait fo r 20 minutes or m ore u ntil t he c harge lam p turns off. T hen, c onf irm that the vo ltage between L and L is s afe [...]

  • Page 315

    13 - 14 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (b) H ow to r einst all the ter mina l bl ock c over A) B) C) D) 1) 2) Mounting screw 1) Pu t the te rminal block cov er on an d match th e screw h oles of the c over f it with th ose of the main u nit. 2) Inst all the in stallin g screws into t he screw hol es (A), B), C), D)).[...]

  • Page 316

    13 - 15 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (2) MR-J3-DU30KB4 or MR-J3-DU37KB4 (a) Upper terminal block cover 1) How to open A ) A)' Pull u p th e cov er us ing th e axis A), A)' as a suppor t. W hen pulled up t o the to p, t he co ver is fixe d.[...]

  • Page 317

    13 - 16 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 2) Ho w to clos e Setting tab A) A)' Close the co ver us ing t he ax is A) , A)' as a suppor t. Setting tab Press th e cover agains t the term ina l box until the ins tall ing k nobs c lick .[...]

  • Page 318

    13 - 17 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (b) Lower terminal blo ck cover 1) How to open Hold th e bot tom of the t erm inal bl ock cover with both ha nds . B) B)' Pull u p th e cov er us ing th e axis B), B)' as a suppor t. W hen pulled up t o the to p, t he co ver is fixe d.[...]

  • Page 319

    13 - 18 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 2) Ho w to clos e Setting tab Setting tab Hold th e bot tom of the t erm inal bl ock cover with both ha nds . B) B)' Close the co ver us ing t he ax is B) , B)' as a suppor t. Setting tab Press th e cover agains t the term ina l box until the ins tall ing k nobs c lick .[...]

  • Page 320

    13 - 19 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.1.8 Ser vo s ystem with aux iliary equ ipment L L BV BW BU L 11 L 21 L 11 RS T 3-phase AC power supply MR Configurator L (Note 1) Commu nicati on cable Drive unit(Note 3) Converter unit (MR-J3CDL05M) Servo motor HA-LP s eries (Note 2) V U EW P 2 P 1 L 1 L 2 L 3 P C S R L 21 L Ma[...]

  • Page 321

    13 - 20 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.2 Installa tion CAUTION Stack ing in exces s of the l im ited num ber of prod ucts is no t allo wed. Instal l the e qui pment t o inco m bustibles . Ins talli ng them dir ectl y or clos e to com bustibles will le d to a fire. Instal l the equi pm ent in a load-bear ing p lace in[...]

  • Page 322

    13 - 21 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.2.1 Instal lation direc tion and clearanc es CAUTION Instal l the e qui pment i n th e specif ied direct ion. Not do ing s o can caus e a fa ilure. Leave the sp ecif ied cl earan ces b etwee n the conver ter unit/ drive unit and th e contr ol box i nside walls or ot her eq uipm [...]

  • Page 323

    13 - 22 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.2.2 Insp ection W ARNING Befor e starting maint enanc e and/ or inspec tion, tur n off the power and wa it for 20 minutes or m ore u ntil t he c harge lam p turns off. T hen, c onf irm that the vo ltage between L and L is s afe with a vo ltag e tester and other s. Oth er wise, a[...]

  • Page 324

    13 - 23 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.3 Signals and wiring W ARNING Any pers on who is invol ved in wir ing sho uld be ful ly compet ent to do the work . Befor e wiri ng, tur n off the p ower and wai t for 20 m inutes or m ore unt il the c har ge lamp tur ns off . Then, c onfir m that the volta ge b etween L and L i[...]

  • Page 325

    13 - 24 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) POINT Explanat ions on t he fol lowing i tem are the sam e as th ose for servo am plifiers with 22kW or less. Ref er to the secti on belo w for detai ls. I/O signal c onnect ion exam ple Ref er to secti on 3.2. Signa l (device) expla nations Refer to s ection 3. 5. Interfac es Refe[...]

  • Page 326

    13 - 25 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (1) Ena bling con trol f uncti on of m agnet ic c ontact or (p aram eter No. PA02 1 (i nitia l valu e)) Connec ting t he m agnet ic co ntactor con trol connec tor (CNP 1) to the o perat ing c oil of t he m agnetic co ntactor enables to contr ol the m agnet ic contac tor. Co nv erte[...]

  • Page 327

    13 - 26 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.3.2 Input power s upply cir cuit W ARNING Insula te th e con nectio ns of the power s uppl y term inals. Not doing so c an caus e an electric shoc k. Magnet ic co ntactor wir ing c onnect or on the co nvert er u nit CNP 1. Unatt ached st ate m a y cause a n elec tric shock . CAU[...]

  • Page 328

    13 - 27 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (1) W hen m agnetic cont acto r contr ol co nnector (CN P1) i s m ade vali d (fac tor y-set) POINT The c onverter uni t contro ls the m ain circ uit m agnetic contac tor. Refer to s ection 13 .3.7 (1) f or the po wer circ uit tim ing chart, sec tion 13.3. 7 (2) for the al arm occur[...]

  • Page 329

    13 - 28 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (b) 400V class (MR-J3-DU30KB4 to MR-J3-DU55KB4) Termination connector MR-J3- TM (Op tion ) L L Encoder cable Converter unit Drive unit MC L 1 L 2 L 3 L 11 L 21 NFB 3- ph ase 380 to 480VAC 50/60Hz 1 MC1 2 MC2 CN40 CN40A CN2 Servo m otor thermal relay RA3 OHS 1 BW BV BU M OHS2 Encode[...]

  • Page 330

    13 - 29 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (2) W hen m agnet ic co ntacto r contr ol co nnec tor (C NP1) is m ade in valid POINT The c onverter uni t contro ls the m ain circ uit m agnetic contac tor. W hen making CNP1 inval id, set "000 0" in param eter No.PA02 . (Refer to section 13.5.) Always con nect a pr otec[...]

  • Page 331

    13 - 30 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (b) 400V class (MR-J3-DU30KB4 to MR-J3-DU55KB4) 3- ph ase 380 to 480VAC 50/60Hz (Note 6) Power supply S400 R400 S400 R400 S400 R400 MR-J3CDL05M cable Termination connector MR-J3- TM (Op tion ) L L Encoder cable Converter unit Drive unit MC L 1 L 2 L 3 L 11 L 21 NFB 1 MC1 2 MC2 CN40[...]

  • Page 332

    13 - 31 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.3.3 T erminal Refe r to se ction 13. 7 for the t ermin al bloc k arrang ement a nd signal layout . (1) Converter unit Descr iptio n Connection t arget (Applic ation) Abbrevi ation (Note) Terminal block MR-J3-CR55K MR-J3-CR55K4 Main circuit power supply L 1 L 2 L 3 TE1-1 Connect [...]

  • Page 333

    13 - 32 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.3.4 How to use the c onnec tion bars Make s ure to us e the s uppli ed conn ectio n conduc tors a nd co nnect t he L and L of the dr ive uni t to th ose of the co nverter unit as sh own below. Never use connect ion con ductors other th an the one s supplie d with the driv e unit[...]

  • Page 334

    13 - 33 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.3.5 Connec tors and sign al arrangem ents POINT The pin c onfigur ations of the conn ectors are as vi ewed f rom the c able connector wir ing section. (1) Converter unit CN6 Leave this open. CN40 Connect to CN4 0A of the drive unit. CN3 Leave this open. CHARGE CNP1 CN1 CN1 (Digi[...]

  • Page 335

    13 - 34 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (2) Drive unit The dri ve un it fron t vie w sh own is that of the M R-J3- DU30 KB4, M R-J3-D U37K B4 or less . Ref er to sec tion 13.7 Ou tline Dr awin gs f or the ap peara nces and c onnec tor l ayouts of the MR- J3-DU 30K B, MR-J3- DU3 7KB, MR-J3-D U45 KB4, MR-J 3-DU55 KB4. The [...]

  • Page 336

    13 - 35 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.3.6 Conv erter u nit signal (device) explan ations POINT Explanat ions on t he dr ive unit s ignals ar e the sam e as those for s ervo amplif iers with 22kW or less. Refer to s ection 3. 5. (1) Signal s For the I/O i nterf aces (s ymbols in I /O colum n i n the t able) , ref er [...]

  • Page 337

    13 - 36 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (2) I/O interfaces (a) Digital inpu t interface (DI) Give a signa l with a rel ay or open c ollec tor tra nsist or. Re fer to s ection 3.7.3 f or th e sour ce i nput. EM1 Converter unit Switch Approx. 5mA For transistor DICOM V CES 1.0V I CEO 10 0 A TR 24VDC 10 150mA 5.6k (b) D igi[...]

  • Page 338

    13 - 37 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.3.7 T iming char t (1) Power circuit timing chart Power-o n proc edure (a) Al ways wire t he power sup ply as s ho wn in a bove s ectio n 13 .3.2 us ing th e m agnetic contac tor with th e main c ircuit po wer su ppl y (3-phas e: L 1 , L 2 , L 3 ). Co nfigur e up an ext ernal se[...]

  • Page 339

    13 - 38 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 2) W hen contro l functi on of m agnetic co ntactor is enab led and th e status returns to read y off The m agnet ic cont act or of t he con verter uni t is t urned of f with s ervo off , and the m ai n circ uit m agnet ic contac tor is shu t off . (3s) (3 s) (Note 3) ON OFF Main c[...]

  • Page 340

    13 - 39 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 3) W hen con troll ing m agnet ic cont actor by ex tern al seq uence W hen an alar m oc curs, tur n O FF the m agnetic c ontac to r b y the ext ernal s equenc e and sh ut off the main ci rcuit pow er supply . (95ms) (3 s) (Note 5, 6) Tb (Note 3) 0r/min Coasting Electromagnetic brak[...]

  • Page 341

    13 - 40 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (2) Al arm occurr ence t iming chart CAUTION W hen an alarm has oc cur red, rem ove its caus e, m ak e sure tha t the op erati on sign al is not bei ng input, en sure safe ty, and rese t the alar m before re starting operat ion. As soo n as an a larm occ urs, m ake the Ser vo off s[...]

  • Page 342

    13 - 41 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 2) Dri ve unit W hen an alar m oc curs on the dr ive u nit, th e base circu it is shut off and the s ervo m ot or co asts. W hen using a d ynamic brak e (option) , the d ynamic br ake is ac tivate d to st op t he ser vo m otor. T o de activ ate the alarm , p ower th e contr ol circ[...]

  • Page 343

    13 - 42 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (b) W hen c ontro lling m agn etic c ont actor by ex tern al seq uenc e 1) Con verter unit W hen an alar m oc curs on the c onvert er un it, t he ser vo-on t urns OF F; however , t he m ain circ uit p ower suppl y is not sh ut off . Ther efore, shut off the mai n circ uit po wer su[...]

  • Page 344

    13 - 43 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 2) Dri ve unit W hen an alar m oc curs in th e dri ve unit, the dr ive u nit t urns i nto t he ser vo of f but t he m ain circ uit power s uppl y is not sh ut off . Ther efore, shut off the mai n cir cuit po wer s upp ly usin g the externa l sequenc e. O perat ion ca n b e resum ed[...]

  • Page 345

    13 - 44 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (3) Forced stop (EM1) ON/OFF tim ing chart (a) W hen contro l funct ion of m agnet ic contr oller is enabl ed 1) Con verter unit W hen the forc ed st op (E M1) is m ade va lid in the c onver ter u nit, th e m agnetic cont act or is tur ned off and t he m ain circ uit po wer s uppl [...]

  • Page 346

    13 - 45 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 2) W hen CN P1 is inva lid W hen the forc ed st op (E M1) is in put in the c onver ter un it, th e driv e un it in o perat ion s tops a nd Ma in circui t off warn ing ( E9) ap pears. W hen the for ced st op ( EM1) is d eactiv ated in the c onver ter unit, t he drive u nit autom ati[...]

  • Page 347

    13 - 46 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (b) Forc ed sto p in the drive unit W hen the forc ed st op (E M1) is made va lid in the dr ive unit, t he dr ive u nit in opera tio n stops , Mai n circ uit off w ar ning (E9) appear s, and th en the dri ve unit is for ced ly stop ped. Conf igure to a ctiva te the forc ed stop ( E[...]

  • Page 348

    13 - 47 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.3.8 Ser vo m otor side d etails Encod er co nnector sign al ar rangem ent CM10-R10 P Terminal No. Si gnal 1 MR 2 MRR 3 4 BAT 5 LG 6 7 8 P5 9 Termin al box E ncoder connector CM10-R10P 5 6 1 4 3 2 8 7 9 10 10 SHD HA-LP30K1M4 HA-LP 30K24 HA-LP37K24 HA-LP30K1 HA-LP37K1 HA-LP30K1M H[...]

  • Page 349

    13 - 48 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) Signal name Abbrevi ation Description Serv o motor power supply U V W Connect to the motor power terminals (U, V, W) of the drive unit. During power-on, do not open or c lose the m otor power line. Otherwise, a malfunct ion or faulty may occur. Supply power which satisf ies the fol[...]

  • Page 350

    13 - 49 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.4 Disp la y section and o peration s ection of the con verter unit 13.4.1 D ispla y flowchart Use th e d ispla y (3- dight, 7-s egment LED) on the f ront pane l of t he c onvert er u nit f or st atus dis pla y, param eter settin g, etc. Set the param eters bef ore op erati on, d[...]

  • Page 351

    13 - 50 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.4.2 St atus disp la y mode The s ervo sta tus dur ing o perat ion is sho wn on th e 3-di git, 7-s egm ent LED d ispl ay. Pr ess t he "UP " or " DOW N" butt on to chan ge display data a s desired . W hen the r equir ed data is sel ected, the corr espo ndi ng s[...]

  • Page 352

    13 - 51 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.4.3 D iagnostic m ode (1) Diagnostic li st Name Di splay Unit Not ready. Initial izing. An alarm occurred. External forc ed stop status. Bus voltage is not est ablished. Sequence Ready Indicates t hat the servo was switched on after completion of initial ization and the drive un[...]

  • Page 353

    13 - 52 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (b) D isp lay def in itio n The 7-s egm ent LE D segm ents and C N1 con nector pins corres pond as sh own b elow. Lit: ON Exting uished : OFF Input signals Output signals CN1-7: Forc ed stop (EM1) CN1-8: Warning (WNG) CN-2: Trouble (ALM) The LE D segmen t correspon ding to the pin [...]

  • Page 354

    13 - 53 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.4.4 Alar m m ode The c urrent alarm , par ameter error and p oint table error are d ispla yed. The l ower 2 digits on t he dis pla y indic ate the alarm number that has occurre d or t he param eter n umber in err or. Displ ay exam ple are s hown belo w. Name Di splay Des criptio[...]

  • Page 355

    13 - 54 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) Funct ions at occ urrenc e of an alar m (1) An y mode scree n disp lays the c urrent alarm . (2) T he othe r scre en is visi ble d uring occurr enc e of an al arm . At th is tim e, the decim al p oint i n the th ird d igit flick ers . (3) T o clear an y alarm , switc h po wer off ,[...]

  • Page 356

    13 - 55 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.5. Par ameter s for converter uni t CAUTION Ne ver adj ust or chan ge th e param eter valu es extr em ely as it wil l mak e oper ation instab le. POINT Refer to c hapter 5 f or param eters for drive u nit. Param eter whose s ymbol is precede d b y * is m ade valid with the f oll[...]

  • Page 357

    13 - 56 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.5.2 L ist of det ails No. S ymbol Nam e and function Initial value Unit Set ting range PA01 *REG Regenerat ive opt ion Used to select the regenerati ve option. Select the regenerative option. 00: No used 01: MR-RB139 02: MR-RB137(3 pcs.) 11: MR-RB136-4 12: MR-RB138-4(3 pcs.) &qu[...]

  • Page 358

    13 - 57 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) No. S ymbol Nam e and function Initial value Unit Set ting range PA12 *DIF Input filter setti ng Select the input fil ter. In put si gna l fil ter If external input signal causes chattering due to noise, et c., input filter is used to suppress it. 0: None 1: 1.777[ms] 2: 3.555[ms] [...]

  • Page 359

    13 - 58 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (2) R emedies for alarm s CAUTION When an y alar m h as oc cur red, elim inate its c ause , en sure safet y, t hen r eset the alarm , and r estart opera tion . Oth erwis e, inj ur y may occ ur. POINT W hen any of the f ollowing alarm s has occ urred, alwa ys rem ove its c ause and [...]

  • Page 360

    13 - 59 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) Display Nam e Def inition Cause Action 1. Wrong setting of paramet er No.PA01 Set correctly. 2. Regenerative opt ion is not connected. Connect c orrectly. 3. High-duty operat ion or continuous regenerative operation c aused the permissib le regenerative power of the regenerative op[...]

  • Page 361

    13 - 60 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) Display Nam e Def inition Cause Action 1. Wrong c onnection of the magnetic contactor. Review the wiring. 2. Parameters s pecifying whether to use/not use the magnetic contact or do not m atch the c onfiguration. Set parameter No.P A02 correctly. 3. Magneti c contactor f ailed. Cha[...]

  • Page 362

    13 - 61 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (3) R emedies for warni ngs Continu ing opera tion i n an a larm occurr ence s tatus m ay resu lt in a n al arm or disa ble pr oper opera tion. Eli minate th e cause of th e warning a ccording to this secti on. The warn ing display ed will di sappea r when the cause of its occ urre[...]

  • Page 363

    13 - 62 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.6.2 Dri ve unit POINT Explanat ion m ade in t his se ction is exclusi vely for th e dr iver unit. Other trou bleshoot ing is the sam e as that f or ser vo am plifiers with 22kW or less. Refer to c hapter 8. As soon as an alarm oc curs, m ake the Serv o off status and interrupt t[...]

  • Page 364

    13 - 63 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (3) R emedies for warni ngs Continu ing opera tion i n an a larm occurr ence s tatus m ay resu lt in a n al arm or disa ble pr oper opera tion. Eli minate th e cause of th e warning a ccording to this secti on. The warn ing display ed will di sappea r when the cause of its occ urre[...]

  • Page 365

    13 - 64 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.7 Outl ine dra wings POINT Refer to s ection 13 .2.1 for outline d imens ion drawing . 13.7.1 Conv erter unit ( MR-J3- CR55K(4)) [Unit: mm] 7 328 277 300 Approx. 200 180 20 Approx. 20 Approx. 80 260 128 TE1-2 TE2-2 TE3 TE1-1 TE1-2 TE1-1 TE3 TE2-2 PE CHARGE 2- 7 Installation hole[...]

  • Page 366

    13 - 65 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.7.2 Dri ve unit (1) MR-J3-DU30KB MR-J3- DU37KB MR- J3-DU45K B4 MR- J3-DU5 5KB4 [Unit: mm] For mounting MR-J3BAT TE2-1 PE TE2-1 20 260 Approx. 200 300 180 7 TE3 TE1 328 Approx. 200 128 277 TE1 TE3 Approx. 20 Approx. 80 2- 7 Installation hole Cooling fan wind direction Terminal bl[...]

  • Page 367

    13 - 66 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (2) MR-J3-DU30KB4 MR-J3- DU37KB4 [Unit: mm] 240 Approx. 200 Approx. 200 328 128 180 120 60 6 219.2 TE2 TE3 TE1 For mounting MR-J3BAT Approx. 60 Approx. 80 2- 6 Installation hole Cooling fan wind direction Terminal block layout (Terminal cover removed) Mass: 18[kg] (39.7[l b]) TE1 T[...]

  • Page 368

    13 - 67 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.8 Character istics 13.8.1 Ov erload pr otection charac teristics An el ectro nic t herm al re la y is built in t he c onver ter unit and drive unit to pr ot ect th e ser vo m otor, con verter u nit and dr ive u nit fr om over loa ds. Overlo ad 1 alarm (50) oc cur s if ov erloa d[...]

  • Page 369

    13 - 68 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.8.2 Po wer suppl y equip m ent capacit y and generat ed los s POINT The c alculation m ethod of heat dis sipati on area f or enc losed contr ol pan el is the sam e as that for servo am plifiers with 2 2kW or less. Ref er to section 10 .2 (2). Table 13.1 ind icates the gener ated[...]

  • Page 370

    13 - 69 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.8.3 D ynamic brake c haracteris tics (1) D ynam ic brak e oper atio n (a) C alcul atio n of c oastin g d istanc e Fig. 13.2 show s the patt ern in which the servo mot or comes to a stop when the dyna mic brake i s operat ed. Us e Eq uation 13.1 t o ca lcul ate an approx imat e c[...]

  • Page 371

    13 - 70 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (b) D ynam ic brak e tim e cons tant The f ollowi ng sho ws nec ess ary d ynamic brake t im e cons tant for th e equ ations ( 13.1) . 40 35 30 25 20 15 10 5 0 200 600 1000 0 1200 Spe ed [r/min ] HA-LP30K1 HA-LP37K1 400 80 0 Time constant [ms] 40 35 30 25 20 15 10 5 0 200 600 1000 0[...]

  • Page 372

    13 - 71 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 45 40 35 30 25 20 15 10 5 0 500 1000 1500 0 2000 HA-LP30K2 HA-LP37K2 Spee d [r/mi n] Time constant [ms] 45 40 35 30 25 20 15 10 5 0 500 1000 1500 0 2000 HA-LP45K24 HA-LP55K24 HA-LP37K24 HA-LP30K24 Speed [r/min] Time constant [ms] HA-LP 2000r /min s eries (2) T he dynam ic br ak e a[...]

  • Page 373

    13 - 72 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.8.4 Inrus h curr ents at po wer-on of m ain cir cuit and c ontrol c ircuit The f ollow ing tab le ind icate s the inrush c urr ents (r efere nce dat a) that will f low wh en the m axim um perm issible volt age (20 0V class : 253 VAC, 400V class : 528VA C) is ap plied at the powe[...]

  • Page 374

    13 - 73 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (1) Mak eup of cab les a nd lik e The f ollowi ng sho ws the c abl e m akeup f or co nnect ion wit h th e servo motor and o ther m ode l. 3) Drive unit Converter unit 4) 5) 6) Terminal box Servo motor HA-LP CNP1 CN40 CN1 7) 8) 2) 1) CN40A CN40B CN2 No. Product Model Description App[...]

  • Page 375

    13 - 74 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (2) MR -J3CDL 05M(0. 5m ) Protect ion c oordi nation cabl e CAUTION Connect pr otection coordin ation cab les corr ectly if th ey are f abric ated. Other wise, the s ystem m ay perform unexpected opera tion. W hen fabric ating a pr otec tion co ordin ation c able, us e the r ecom m[...]

  • Page 376

    13 - 75 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.9.2 Regen erative option CAUTION T he spec ifie d com bina tions of r egen erati ve opt ions , con verter unit and driv e un it ma y only be used. Oth erw ise, a fire ma y occur. POINT The c alculation method of regener ative en ergy is th e sam e as that f or ser vo amplif iers[...]

  • Page 377

    13 - 76 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (4) Conne ction of t he reg enera tive opti on Alwa ys sup ply 1-p hase 2 00V a nd 400 V res pecti vel y to the c ooli ng f an. T he cool ing f an spec ific atio ns are as fol lows. Table 13. 3 Cooling fan Item 200V class 400V class Model MR-RB137 MR-RB139 MR-RB136-4 MR-RB138-4 Vol[...]

  • Page 378

    13 - 77 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (b) MR-RB137 MR-RB138-4 POINT Three of MR-RB13 7 or MR- RB138-4 are requir ed per c onverter unit. P lease purchase thr ee of MR- RB137 or MR-RB 138-4. RA (Note 2) C P C P C P Regenerative option Co nv erte r uni t P 1 P 2 (N ote 1) Power factor improving DC reactor (Option) C Ser [...]

  • Page 379

    13 - 78 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (5) Ou tlin e dim ension dra wings [Unit: mm] MR-RB139 MR-RB136-4 Mas s [k g(lb ) ] 11(24.25) 10(22.05) 10 15 15 TE1 10 480 500 10 10 2- 10 hole Regenerative option R (Not e 2) G4 G3 C P 260 230 215 197 MR-RB137 MR-RB138-4 Terminal block signal layout TE1 Termina l screw: M5 Tighte[...]

  • Page 380

    13 - 79 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.9.3 Ext ernal d ynamic brak e POINT Configure up a sequ ence whic h switc hes off the contac t of the brak e unit af ter (or as s oon as) it has turne d off the servo on ( signa l) at a p ower f ailure or failure. For the br aking tim e tak en when the dynam ic brak e is operat [...]

  • Page 381

    13 - 80 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) EM1 (Note 3) NFB L 1 L 2 L 3 L 11 L 21 U 1 MC 1 2 MC2 CNP1 L 11 L 21 CN3 RA1 RA4 RA1 MC SK (Note 2) RA2 RA3 CN1 1 DICOM 5 DOCOM 6 DICOM 2A L M 7E M 1 9 DOCOM MC Forc ed st op (Note 5) L 1 L 2 L 3 L 11 L 21 U V W U V W M Servo m otor (Note 4) Powe r supply Drive unit Converter unit [...]

  • Page 382

    13 - 81 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (3) Ou tlin e dim ension dra wing [Unit: mm] Terminal block TE1 Terminal screw: M5 Tightening torque: 2.0 [N m] (17.7 [lb in]) Mounti ng scre w Screw size : M8 Tightening torque: 13.2 [N m] (117 [lb in ]) Terminal screw: M5 Tigh tening to rque: 0 .8 [N m] (7 .1 [lb in]) TE2 230 15 [...]

  • Page 383

    13 - 82 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.9.4 Sel ectio n exam ple of wires POINT W ires indicated i n this s ection ar e separat ed wires . W hen using a c able for power lin e (U, V, and W ) between th e serv o amplif ier and s ervo m otor, us e a 600V gra de EP ru bber ins ulated c hloropre ne sheath c ab-tir e cable[...]

  • Page 384

    13 - 83 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (1) W hen using the 60 0V P olyvin yl chlor ide ins ulat ed wire (I V wire) Selec tion exampl e of wire si ze when us ing IV wir es is in dicate d belo w. Table 13. 4 W ire size sel ection ex am ple 1 (IV wi re) Wi re s[ mm 2 ] (Note 1, 3) Converter unit (Note 2) Drive unit 1) L 1 [...]

  • Page 385

    13 - 84 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.9.5 No-f use bre akers , fuses, m agnetic co ntactors. Alwa ys use one no-f use br eak ers and one m agnetic c ontac tor with on e drive un it. No-fuse break er Fuse Converter unit Dri ve unit Power factor improving DC reactor is not used Pow er factor improving DC reactor is us[...]

  • Page 386

    13 - 85 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.9.7 L ine nois e filter (FR-BLF) POINT This section exp lains ho w to us e the lin e noise f ilter un ique to s ervo am plif iers with a lar ge capacit y. Other noise reduct ion prod ucts ar e the sam e as those for s ervo amplif iers with 22kW or les s. Refer to section 11.17. [...]

  • Page 387

    13 - 86 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.9.8 Leak age cur rent bre aker (1) Se lect ion m ethod High-f reque ncy ch opper c ur rents c ontro lled b y puls e width m odulat ion f low i n the A C ser vo circ uits . Leak age cur rents c ont ainin g harm onic c onten ts ar e lar ger th an thos e of th e m otor wh ich is ru[...]

  • Page 388

    13 - 87 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (2) S elect ion exam ple Indica ted belo w is an exam ple of select ing a leak age curr ent break er un der the fol lowin g condit ions . 22mm 2 5mm M NV Ig1 I g2 Igm Converter unit Drive unit Servo m otor 30m m 2 5mm Iga Use a leak age cur rent break er des igned f or s uppress in[...]

  • Page 389

    13 - 88 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.9.9 EMC f ilter (r ecomm ended) For com plianc e with t he E MC dir ectiv e of the E N Sta ndard, it is rec omm ended to use th e fol lowing f ilter . Som e EMC f ilter s are large in l eakag e curr ent. (1) Converter unit Drive unit Recomm ended filt er (Soshin E lectric ) Conv[...]

  • Page 390

    13 - 89 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (3) Ou tlin e dra wing HF3200 A-UN [Unit: mm] 500 5 480 1 3- 6.5 3-M10 M8 3- 6.5 Length: 8 TF3150 C-TX [Unit: mm] 150 1 150 1 150 1 452 5 500 3 3-M8 3-M8 M4 M8 M4 M4 8-R 4.25 Length: 12 (for M8) 110 2 210 2 (227) 260 3[...]

  • Page 391

    13 - 90 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 13.9.10 FR- BU2-(H) Brake Unit POINT Use a 200V class brak e unit and a resistor unit with a 2 00V class converter unit, an d a 400V c lass br ake unit a nd a res istor un it with a 4 00V clas s convert er unit. C om bination of diff erent voltag e class u nits can not be use d. In[...]

  • Page 392

    13 - 91 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (2) Brake unit parameter settin g Norm ally, c hangi ng par ameter s of t he FR- BU2- (H) is n ot nec essar y. W hether a param eter c an be c ha nged or not i s listed below. Parameter No. Nam e Change possible/ impossi ble Remar ks 0 B rake mode switc hover Imposs ible Do not cha[...]

  • Page 393

    13 - 92 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) NFB Drive unit Converter unit L 1 L 2 L 3 L 11 L 21 (Note 1) Power supply L L L L 1 MC1 2 MC2 CNP1 EM1 3 20 SD Plate DICOM 10 DOCOM 5 DICOM ALM 15 CN3 RA1 Forced stop (Note 2) MC CN1 1 DICOM 5 DOCOM 6 DICOM 2A L M 7E M 1 9 DOCOM (Note 2) RA2 N/ P/ BUE SD PR B C A SD MSG (Note 4) (N[...]

  • Page 394

    13 - 93 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) Note 1. For power supply specific ations, refer to section 13.1. 3. 2. Configure the circ uit to turn OFF the forced stop (EM1) of the drive unit and the converter unit at the same time. 3. Always connect P 1 and P 2 terminals (Factory-wired). When using the power factor improving [...]

  • Page 395

    13 - 94 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (b) Combination with MT-BR5-(H) resistor unit 1) W hen con necti ng a br ake unit to a c onver ter u nit NFB Drive unit Co nver te r u nit L 1 L 2 L 3 L 11 L 21 (Note 1) Powe r supp ly L L L L 1 MC 1 2 MC 2 CNP1 L 11 L 21 RA1 MC SK (Note 5) RA2 RA3 Drive unit Converter uni t Contro[...]

  • Page 396

    13 - 95 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) 2) W hen con necti ng tw o bra ke uni ts to a con verter unit POINT To us e brake units with a p arallel co nnect ion, use t wo sets of FR-BU2- (H) brak e unit. Com bination with other brake uni t results in alar m oc currenc e or malfunc tion. Always con nect the m as ter and slav[...]

  • Page 397

    13 - 96 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) NFB Drive unit Converter unit L 1 L 2 L 3 L 11 L 21 (Note 1) Powe r supply L L L L 1 MC1 2 MC2 CNP1 EM1 3 20 SD Pl ate DICOM 10 DOCOM 5 DICOM ALM 15 CN3 RA1 Forced stop (Note 2) MC CN1 1 DICOM 5 DOCOM 6 DICOM 2A L M 7E M 1 9 DOCOM (Note 2) RA2 L 11 L 21 (Note 5) P 1 P 2 (Note 3) L [...]

  • Page 398

    13 - 97 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) Note 1. For power supply specific ations, refer to section 13.1. 3. 2. Configure the circ uit to turn OFF the forced stop (EM1) of the drive unit and the converter unit at the same time. 3. Always connect P 1 and P 2 terminals (Factory-wired). When using the power factor improving [...]

  • Page 399

    13 - 98 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) b) Contr ol c ircui t term ina l POINT Under tigh tening c an cause a c able dis connectio n or malf unctio n. Over tightening can caus e a shor t circuit or malf unction du e to dam age to the screw or t he brak e unit. A RES PC B SD BUE C MSG SD MSG SD SD Jumper Term inal b lock [...]

  • Page 400

    13 - 99 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (e) Crimping terminals for L and L term inals of T E2-1 of ser vo am plif ier 1) Rec omm ended c rim ping ter mina ls POINT Always use recom mended c rimping t erm inals or equ ivale nt since s ome crimping t erm inals c annot be ins talled depend ing on th e size. Convert er unit [...]

  • Page 401

    13 - 100 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (4) Ou tlin e dim ension dra wings (a) FR-BU2- (H) brake un it [Unit: mm] FR-BU2-55K FR-BU2-H55K, H75K 18.5 Rating plate 52 72 5 142.5 5 6 158 6 170 2- 5hole (Screw size: M4) (b) FR-BR- (H) resistor unit [Unit: mm] 2- C Control circuit terminal Main circuit terminal W1 1 Approx. 3[...]

  • Page 402

    13 - 101 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) (c) MT-BR5- (H) resistor unit [Unit: mm] Resistor unit Resistance value Approximate ma ss [ kg ] 200V clas s MT-BR5-55K 2.0 50 400V clas s MT-BR5-H75K 6.5 70 4 15 mounting hole 300 75 75 450 7.5 7.5 M6 M4 193 189 480 510 37 60 21 10 NP[...]

  • Page 403

    13 - 102 13. SERVO AMPLIFIER S WITH A LARGE CAPACITY ( 30k TO 55kW ) MEMO[...]

  • Page 404

    App. - 1 A PPENDIX App. 1 Par ameter list POINT Param eter whose s ymbol is prec eded b y * is m ade valid with th e follo wing conditio ns. * : Set the p aram eter value , s witch po wer off onc e after s etting, and t hen switch it on again, or p erform the contr oller res et. **: Set the param eter valu e, s witch po wer off once, an d then s wi[...]

  • Page 405

    App. - 2 A PPENDI X Extension sett ing parameters (PC ) I/ O setting parameters (PD ) No. Symbol Name No. Symbol Name PC01 *ERZ Error excess ive alarm level PC02 MBR E lectromagnet ic brake sequenc e output PC03 *ENRS Encoder out put pulses selection PD01 to PD06 For manufact urer setting PC04 **COP1 Function selection C-1 PD07 *DO1 Output si gnal [...]

  • Page 406

    App. - 3 A PPENDI X App. 2 Sig nal layout recor ding paper 1 2 3 5 4 6 7 9 8 10 11 12 13 14 15 16 17 18 19 20 DI1 MO1 DICOM LG DOCOM DICOM LZ DI2 MO2 EM1 LG LBR LA LB LZR LAR DI3 App. 3 Tw in type conn ector : Outli ne draw ing for 721- 2105/026- 000(WAGO) [Unit: mm] DC 2.7 20. 8 5. 8 10.6 15.1 2.9 26.45 4.7 5 25 2.75 A 4 A( B) 721-2105/026-000 721[...]

  • Page 407

    App. - 4 A PPENDI X Ap p. 4 Change of connector sets to the RoHS compatible products The f ollowi ng con nector s et s have b een c hang ed to R oHS c om pliant s ince Septem ber 2006. RoHS complia nt and non -RoHS complian t conne ctor sets may be mixed ba sed on avail abili ty. Onl y the com pone nts of the c onnect or set that have c hang ed are[...]

  • Page 408

    App. - 5 A PPENDI X App. 5 MR -J3-200B- RT serv o ampli fier Connec tors (C NP1, CNP2 , and C NP3) and a ppear ance of MR-J 3-200 B ser vo am plif ier ha ve bee n chan ged from Januar y 2008 pr oduct ion. Mo del n ame of the exis ting s ervo am plif ier is chang ed to MR-J 3-20 0B-RT . T he diff erenc e betwe en n ew M R-J 3-200B serv o am plifier [...]

  • Page 409

    App. - 6 A PPENDI X App. 5.2 Configurat ion inc ludi ng auxiliar y equipm ent (1.8 C onfigur ation i ncludi ng auxil iar y equipm ent) R S T P C L 21 P 1 P 2 UV W L 11 L 1 L 2 L 3 CN5 CN3 CN2 CN1A CN1B CN4 Line noise filter (FR -BLF ) (Note 3) Powe r supp ly Magnetic contactor (MC ) No-fuse breaker (NFB) or fuse Regenerative opt io n (Note 2) Powe [...]

  • Page 410

    App. - 7 A PPENDI X App. 5.3 CN P1, CNP 2, CNP3 wiring m ethod (3.3.3 C NP1, CNP 2, CNP3 wiring m ethod) (a) Ser vo am plif ier po wer s upp ly conn ectors Servo amplifier power supply connectors CNP3 CNP1 CNP2 Connector for CNP 1 PC4/6-STF-7.62-CRWH (Phoenix Contact) <Applicable cable example> Cable finish OD: 5mm or less Connector for CNP 3[...]

  • Page 411

    App. - 8 A PPENDI X App. 5.4 O UTLINE DR AW INGS (Chapter 9 OUT LINE DRAW INGS) [Unit: mm] Approx.1 4 Approx. 25.5 90 168 6 78 6 45 6 156 6 6 mounti ng hole 195 21.4 Approx.80 Cooling fan wind direction Approx.68 6 85 With MR-J 3BAT 6 Mass: 2.3 [kg] (5.07 [lb]) U V W CNP3 P C D L 11 L 21 CNP2 L 1 L 2 L 3 N P 1 P 2 CNP1 Ter minal sign al la yout PE [...]

  • Page 412

    App. - 9 A PPENDI X App. 6 Sel ection ex ample of ser vo motor power cable POINT Selectio n con ditio n of wire si ze is as f ollows . W ire length: 30m or les s Depending on the ca ble sel ected, ther e ma y be cases that the c able do es not fit into the Mitsubis hi opt ional or recom mended c able c lamp. Sel ect a ca ble clam p according to the[...]

  • Page 413

    REVISIONS *The m anual num ber is g iven on th e bottom left of the bac k cover . Print Data * Manual N umber Revision May, 2005 SH(NA)030051-A First edition Jan., 2006 SH(NA)030051-B Addition of serv o amplifier M R-J3-11KB(4), 1 5KB(4) and 22KB (4) Addition of se rvo motor HC -RP, HC-UP, H C-LP and HA-LP4 ser ies Section 1.5 (2) : Addition of re [...]

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    Print Data * Manual N umber Revision Jul., 2007 SH(NA)030051-C Section 1.2(1) Section 1.3 Section 1.3(2) Section 1.5(2) Section 1.6 Section 1.7 Section 1.7.1(1) (3) Section 1.7.2 Section 1.8 Section 1.8(1) ( a) Section 1.8(2) t o (7) Section 2.1(b) Chapter 3 Section 3.1 Section 3.1(4) Section 3.1(6) Section 3.1(7) Section 3.1(8) Section 3.3.1 Secti[...]

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    Print Data *Manual Number Rev ision Jul., 2007 SH(NA)030051-C Section 3.10.2( 3) Section 3.10.2( 3) (b) Section 3.11.3( 1) Section 3.12 Section 4.3(2) Chapter 5 Section 5.1.3 Section 5.1.8 Section 5.2.1 Section 5.3.1 Section 5.3.2 Section 5.3.3(2) Section 6.3(1) ( a) Section 6.4(2) Section 8.2 Section 9.1 Section 9.1(1) t o (7) Section 9.2(3) Secti[...]

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    Print Data *Manual Number Rev ision Jul., 2007 SH(NA)030051-C Section 11.1.1 Section 11.1.2( 1) Section 11.1.2( 1) (a) Section 11.1.2( 1) (a) (c) Section 11.1.2( 2) Section 11.1.2( 2) (a) Section 11.1.2( 3) (a) (c) Section 11.1.2( 4) (a) Section 11.1.2( 5) (a) Section 11.1.4 Section 11.2 Section 11.2(1) Section 11.2(2) (b) Section 11.2(3) Section 1[...]

  • Page 417

    Print Data *Manual Number Rev ision Jul., 2007 SH(NA)030051-C Section 11.11( 1) Section 11.12 Section 11.13 Section 11.14 Section 11.18 Section 11.19 Section 11.19( 1) Section 11.19( 3) Section 12.3(1) Chapter 13 Section 13.1.6( 1) Section 13.1.6( 2) (3) Section 13.1.7 Section 13.3 Section 13.3.1( 1) (a) Section 13.3.1( 1) (b) Section 13.3.1( 2) (a[...]

  • Page 418

    Print Data * Manual N umber Revision Jul., 2007 SH(NA)030051-C Section 13.5.2 Section 13.6.1( 3) Section 13.8.1 Section 13.9.1 Section 13.9.2( 5) Section 13.9.3( 2) Section 13.9.3( 3) Section 13.9.4 Section 13.9.5 Section 13.9.7 Section 13.9.8( 1) (2) Appendix 1 Appendix 5 : Deletion of parameter No.PA 08 name and initial v alue : Deletion of "[...]

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    Print Data * Manual N umber Revision Jun, 2008 SH(NA)030051-D Section 3.2 Section 3.3.3 ( 1) (a) Section 3.3.3 ( 2) (3) Section 3.7.2 ( 2) Section 3.10.2 (3) (a) 1) to 2) Section 3.10.2 (3) (b) Section 3.11.2 Section 4.1.2 ( 1) (c) 2) to 3) Section 5.2.1 Section 7.4 Section 7.6.3 Section 7.6.4 ( 1) (a) Section 7.6.4 ( 2) (a) Section 10.1 ( 5) (6) S[...]

  • Page 420

    Print Data * Manual N umber Revision Jun, 2008 SH(NA)030051-D Section 1 1.2 (4) Section 11.2 ( 5) (a) Section 11.3.3 (4) (a) Section 11.3.4 (2) Section 11.5 ( 4) (a) 1) Section 11.5 ( 4) (b) 1) Section 11.5 ( 4) (b) 2) Section 11.6 ( 3) (a) Section 11.6 ( 3) (b) Section 11.8 ( 2) (a) Section 11.11 Section 11.11 (1) Section 11.12 Section 11.13 Secti[...]

  • Page 421

    Print Data * Manual N umber Revision Jun, 2008 SH(NA)030051-D Appendix 6 : New additio n of servo motor pow er cables sel ection example SH(NA)030051-D[...]

  • Page 422

    SH (NA) 030051-D (0806) MEE Printed in Japan Specifications subject to change without notice. This Instruction Manual uses recycled paper. MODEL MODEL CODE General-Purpose AC Servo MODEL MR-J3- B SERVO AMPLIFIER INSTRUCTION MANUAL SSCNET Compatible J3 Series D HEAD OFFICE : TOKYO BLDG MARUNOUCHI TOKYO 100-8310 J3 Series MR-J3- B Servo Amplifier Ins[...]