Mitsubishi Electronics MR-J2S- CP manuel d'utilisation
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- instructions d'utilisation, de réglage et d’entretien de l'équipement Mitsubishi Electronics MR-J2S- CP
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Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif Mitsubishi Electronics MR-J2S- CP, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.
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Table des matières du manuel d’utilisation
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Page 1
General-Purpose AC Servo J2-Super Series SH (NA) 030017-G (0709) MEE Printed in Japan Specifications subject to change without notice. This Instruction Manual uses recycled paper. MODEL MR-J2S- CP SERVO AMPLIFIER INSTRUCTION MANUAL Built-In Positioning Function MR-J2S- CP Servo Amplifier Instruction Manual MODEL MODEL CODE J2-Super Series G G HEAD [...]
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Page 2
A - 1 Safety Instructions (Alwa ys read t hese instruct ions before us ing th e equi pm ent.) Do not attempt t o inst all, op erate, m aintai n or insp ect the s ervo amplifi er and s ervo m otor unt il y ou ha ve read throug h this Instr uctio n Manu al, Instal lation gu ide, Ser vo motor Ins truct ion Man ual and app ended doc um ents caref ully [...]
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Page 3
A - 2 1. To prevent electric shock, note the following: WARNING Befor e wirin g or insp ection, turn off the po wer and wait for 1 5 minu tes or m ore unt il the char ge lam p turns off . Then, co nfirm that the volta ge bet ween P and N is s afe with a voltag e tester and ot hers. O therwis e, an electric shock ma y occur. I n addit ion, alwa ys c[...]
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A - 3 4. Additional instruct ions The f ollowi ng instr uctions shoul d also b e full y noted. Incorr ect hand ling m ay cause a fault, injur y, electr ic shock , etc. (1) Transportation and installation CAUTION Trans port the products correctl y accor ding to their weights. Stack ing in excess of the spec ified num ber of pr oducts is not allowed.[...]
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A - 4 CAUTION Secur ely att ach the s ervo motor to t he mach ine. If attach insecur ely, th e servo m otor m ay com e off dur ing operat ion. The s ervo motor with reduct ion gear must be instal led i n the sp ecified direc tion to pr event oil le akage. Take s afet y meas ures, e .g. pro vide co vers, to prevent accide ntal acces s to th e rotat [...]
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A - 5 (3) Te st run adju stment CAUTION Befor e operat ion, c heck th e param eter set tings. Im prope r settin gs m ay cause s ome machines to p erform unexpec ted o peratio n. The par ameter settin gs m ust not be change d exce ssivel y. Oper ation wi ll be i nsatiab le. (4) Usa ge CAUTION Prov ide an ext ernal emerge ncy stop c ircuit t o ensure[...]
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A - 6 (6) Maintenance, inspection and parts replacement CAUTION W ith age, the e lectrol ytic capac itor of the serv o amplif ier will deter iorate. T o prevent a seco ndary acc ident due t o a fault, it is r ecomm ended to r eplac e the e lectrolyti c capac itor e very 1 0 year s when us ed in ge neral environm ent. Pleas e consu lt our s ales r e[...]
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Page 8
A - 7 COMPLIANCE WITH EC DIRECTIVES 1. W HAT ARE EC DIR ECTI VES? The EC directives were issued to standa rdize the regulations of the EU countries and ensure smooth distributi on of safety-guaranteed products. In the EU countrie s, the machinery directive (effective in January, 1995), EMC directive (effect ive in J anuary, 19 96) and low vo ltage [...]
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Page 9
A - 8 (4) Power supply (a) Operat e the servo amplifier t o meet the requirements of t he overvolta ge category II set forth in IEC60664-1. For this purpose, a reinforced insulating transformer conformi ng to the IEC or EN Standard should be used in the power input section. (b) When supplying int erface power from external, use a 24VDC power supply[...]
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A - 9 CONFORMANCE WITH UL/C-UL STANDARD (1) Ser vo am plifier s and s ervo m otors us ed Use the servo amplifiers and servo motors which comply with the standard model. Servo amp lifier series :MR-J2S-10CP to MR-J2S- 700CP MR-J2S-10CP1 to MR-J2S-4 0CP1 Servo motor series :HC-KFS HC-MFS HC-SFS HC-RFS HC-UFS HA-LFS HC-LFS (2) Installation Install a c[...]
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A - 10 MEMO[...]
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Page 12
1 CONTENTS 1. FUNCT IONS AND CO NFIGURAT ION 1- 1 to 1- 26 1.1 Intro duction ............................................................................................................... ............................... 1- 1 1.1.1 Fun ction b lock diag ram ............................................................................................[...]
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Page 13
2 3.10 Ground ing ................................................................................................................. ............................ 3-37 3.11 Se rvo amplif ier termi nal block ( TE2) wir ing meth od ....................................................................... 3 -38 3.11.1 Fo r the servo amplif ier produced la[...]
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Page 14
3 5.2.5 Cha nging the stop pa ttern using a limit switch ........................................................................... 5- 24 5.2.6 Al arm histo ry clear ...................................................................................................... .................... 5-24 5.2.7 Rough m a tch ou tput ..........................[...]
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Page 15
4 7.10.2 Po sition dat a setting method ............................................................................................ ............ 7-25 8. GEN ERAL G AIN ADJU STMENT 8- 1 to 8-12 8.1 Differe nt adju stment methods ............................................................................................... ................ 8- 1 8.1[...]
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Page 16
5 13. CH ARACT ERISTICS 13- 1 t o 13- 8 13.1 Ove rload pro tection c haracteri stics ....................................................................................... ............ 13- 1 13.2 Po wer supply equipm ent capac ity and gener ated lo ss .................................................................... 13- 2 13.3 Dyn amic bra ke c[...]
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Page 17
6 15.11 Co mmand and d ata No. li st ................................................................................................ ............. 15-11 15.11.1 Read comm ands .......................................................................................................... ............... 15-11 15.11.2 Write co mmands ....................[...]
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7 Optional Servo Motor Instruction Manual CONTENTS The rough tabl e of contents of the optional MELSERVO Servo Motor Instruction Ma nual is introduced here for your reference. Note that the conten ts of t he Servo Motor Instruction Manual are not included in the Servo Amplif ier Instru ction M anual. 1. INTRODUCT ION 2. IN STALLAT ION 3. CONNECT OR[...]
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Page 19
8 MEM O[...]
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1 - 1 1. FUNCTIO NS AN D CONFIGURATI ON 1. FUNCTIONS A ND CONFIGURATION 1.1 Introduc tion The MR-J2S-C P AC se rvo ampl ifier w ith buil t-in po sitioni ng fun ction s is the MR-J2 S-A gene ral-pu rpose AC servo am plifier which incorporat e single-axis pos itioning functi ons. These functions perform posi tioning o perat ion by merely settin g the[...]
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1 - 2 1. FUNCTIONS AND CONFIGURATION (1) MR-J2S-350CP or le ss 100 0 0 80 100 100 0 ( Note 2 ) Powe r suppl y NFB MC Servo amplifier Reg ene r ati ve opt io n (Note 1) PD C Diode stack Relay L 1 L 2 L 3 CHARGE lamp Rege nerat ive transistor Dynamic brake Current detector Serv o motor M U V W U V W B2 B1 Encode r Electro- magneti c brake CN2 L 11 L [...]
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1 - 3 1. FUNCTIONS AND CONFIGURATION (2) MR-J2S-500CP 700C P 1000 0 80 100 100 0 (Note) Powe r supply NFB MC Servo amplifier Regenerative option PN C Diode stack Relay L 1 L 2 L 3 CHARGE lamp Rege nerative transistor Dynamic brake Current detector Servo m oto r M U V W U V W B2 B1 Encoder Electro- magnetic brake CN2 L 11 L 21 Cooling fan Base ampl [...]
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1 - 4 1. FUNCTIONS AND CONFIGURATION 1.1.2 S y stem configur ation This se ction de scribe s oper ations u sing thi s servo . You can arrange any configurations from a si ngle-axis to max. 32-axis syst ems. Further, the connector pins in the interface section a llow you to as sign the optimum si gnals to respect ive systems. (Refer t o section s 1.[...]
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1 - 5 1. FUNCTIONS AND CONFIGURATION (2) Op eration using ex terna l input s igna ls and com muni cation (a) Description Commun icatio n can be used to ch ange the poin t table data , choo se the point table, c hange parameter v alues, and confirm mon itor data, for ex a mple. Ente r a forw ard rotat ion start (ST1) o r reverse rotati on start (ST2[...]
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1 - 6 1. FUNCTIONS AND CONFIGURATION 2) Several (up to 32) servo amplifi ers are connected with the personal computer by RS-422. Use parameter No. 1 6 to change the communication system. MR Configurator (Servo configuration Software) Servo amplifier (axis 1) Exter nal I/ O signals Power supply Servo m otor RS–422 Personal computer CN1A CN1B CN2 C[...]
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1 - 7 1. FUNCTIONS AND CONFIGURATION (3) Op erati on usin g comm unicat ion (a) Description Analog inp ut, force d stop (EMG) and o ther sign als are con trolled by e xternal I/O signal s and the other devices controlled through communication. Also, you can s et each point tabl e, choose the point table, and cha nge or set p arameter valu es, for e[...]
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1 - 8 1. FUNCTIONS AND CONFIGURATION 2) Several (up to 32) servo amplifi ers are connected with the personal computer by RS-422. Use parameter No. 1 6 to change the communication system. MR Configurator (Servo configuration Software) Servo amplifier ( a xis 1) Exter nal I/ O signals Power supply Ser vo moto r RS–422 Personal computer CN1A CN1B CN[...]
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1 - 9 1. FUNCTIONS AND CONFIGURATION 1.1.3 I/O de vices This serv o amplifie r allows device s to be alloca ted to the pins of connector CN1A/CN1B as desired. The following devices can be allocated. For de vice detail s, refer to section 3.3.2. Input device Symbol Factory- allocated pin Output device Symbol Factory- allocated pin Proximity dog DOG [...]
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Page 29
1 - 10 1. FUNCTIONS AND CONFIGURATION 1.2 Serv o amplif ier standar d specif ications Servo am plifier MR-J2S - Ite m 10CP 20CP 40CP 60C P 70CP 100CP 200CP 350CP 500CP 700CP 10C P1 20CP1 40CP1 Volta ge/freq uenc y 3-phase 200 to 230VAC, 50/60Hz or 1-phase 230VAC, 50/60Hz 3-phase 200 to 230V AC, 50/60Hz 1-phase 100 to 120VAC 50/60Hz Permissible vo l[...]
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1 - 11 1. FUNCTIONS AND CONFIGURATION Servo am plifier MR-J2S - Ite m 10CP 20CP 40CP 60CP 70CP 100CP 200CP 350CP 500CP 700CP 10CP1 20CP1 40CP1 Home position ignorance (Servo-o n position as home position) Position wher e serv o-on (SON) is switch ed on is d efin ed a s home p osi tion. Home position address may be set. Dog t ype rear end reference [...]
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1 - 12 1. FUNCTIONS AND CONFIGURATION 1.3 Func tion list The followin g table lists the functions of this servo. For details of the functions, refer to the reference field. Function Des cription Reference Positioning by automatic operation Sele ct th e req uir ed on es f rom am ong 3 1 pr eset poi nt ta bl es an d perfo rm opera ti on in acc ordan [...]
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1 - 13 1. FUNCTIONS AND CONFIGURATION Function Des cription Reference Analog monitor The servo status is output in terms of voltage i n real time. Section 5.2. 4 Alarm histor y By using th e MR Conf igurator (s ervo conf iguration s oftware), the current alarm and five past alarm numbers are stored and displaye d. Section 6.8 I/O signal selection ([...]
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1 - 14 1. FUNCTIONS AND CONFIGURATION (2) Model Rating plate MR–J2S–100CP or less MR–J2S– 200CP 350CP Built-in po sitioning functions Rated output Rating plate Rat ing p lat e MR–J2S– Ser ies CP Power Supply Power supply None 3-phase 200 to 230VAC (Note 1) 1-phase 230VAC (Note 2) 1 1-phase 100V to 120VAC Symb ol Rated output [W] 100 10 [...]
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1 - 15 1. FUNCTIONS AND CONFIGURATION 1.6 Structure 1.6.1 Part names (1) MR-J2S-100CP or le ss MODE UP DOWN SET Used to set data. Used to change th e display or data in each mode. Used to change th e mode. Reference Section4.5 Chapter7 Name/Application Battery holder Contains the battery f or absolute position data backup. Batte ry c onnecto r (CO [...]
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1 - 16 1. FUNCTIONS AND CONFIGURATION (2) MR-J2S-200CP MR- J2S-3 50CP POINT This se rvo amplifier i s shown without the front cover. For removal of the front cover, refer to section 1.6.2. MODE UP DOWN SET Cooling fan Fixed part (4 places) Used to set data . Used to change the disp lay o r data in e ach mode. Used to change the mode. Reference Sect[...]
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1 - 17 1. FUNCTIONS AND CONFIGURATION (3) MR-J2S-500CP POINT The servo am plifier is shown without t he front cover. For remova l of the front cover, refer to section 1.6.2. MODE UP DOWN SET MODE UP DOWN S ET Name/Application Reference Batte ry c onnecto r (CO N1) Used to co nnect the battery for abso lute position data backup. Section4 .5 Battery [...]
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1 - 18 1. FUNCTIONS AND CONFIGURATION (4) MR-J2S-700CP POINT The servo am plifier is shown without t he front cover. For remova l of the front cover, refer to next page. MODE UP DOWN SET MODE UP DOWN SET Name/Application Reference Batte ry co nnector (CON1 ) Used to co nnect the batte ry for absolut e position data backup. Section4 .5 Battery holde[...]
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1 - 19 1. FUNCTIONS AND CONFIGURATION 1.6.2 Rem oval and rei nstallatio n of the f ront cover W ARNING Be fore removi ng or instal ling the fr on t cove r, tur n off t he pow er and wai t for 15 minutes or m ore unti l the c harge l amp tur ns off . Then, c onfirm that t he volta ge betwe en P and N is saf e wit h a vo ltage t ester a nd other s. O[...]
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1 - 20 1. FUNCTIONS AND CONFIGURATION (3) For MR-J2S-700CP Front cover socket (2 p lac es) A) 1) Removal of the front cove r Reinstallation of the front cove r 1) Ins ert the two fro nt co ver h ooks at th e bottom into the sockets o f the servo amplifie r. 2) Press the front co ver against the servo amp lifier until the re m oving knob clicks. 1) [...]
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1 - 21 1. FUNCTIONS AND CONFIGURATION 1.7 Servo system with auxiliar y equipm ent W ARNING To preve nt an elec tric sho ck, alwa ys connec t the protec tive eart h (PE) term inal (term inal m arked ) of the s ervo am plif ier to the protect ive ear th (PE) of the c ontrol box. (1) MR-J2S-100CP or le ss (a) F or 3-phase 20 0V to 230V AC or 1-p hase [...]
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1 - 22 1. FUNCTIONS AND CONFIGURATION (b) F or 1-phase 10 0V to 120 VAC (Note 2) Power supply Circuit breaker (NFB) or fuse Magnetic contactor (MC) To CN2 To CN3 To CN1B To CN1A L 21 L 11 Protective earth (P E) terminal Servo m otor Perso nal computer UV W MR Configurator (Servo configuration software MRZJW3-SETUP151E) Servo amplifier Reg ener ati [...]
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1 - 23 1. FUNCTIONS AND CONFIGURATION (2) MR-J2S-200CP MR- J2S-3 50CP MR Config urator (Servo configuration software) Reg ener ati ve op ti on Chapter 6 Section 14.1.1 Options and auxiliary equipment Circuit breaker Magnetic contac tor Reference Section 14.2.2 Section 14.2.2 Options and auxiliary equipment Reference Cables Manual p ulse g enerator [...]
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1 - 24 1. FUNCTIONS AND CONFIGURATION (3) MR-J2S-500CP L 1 L 2 L 3 U V W L 21 L 11 MR Configurator (Servo configuration sof tware) Regenerative option Chapter 6 Section 14.1.1 (Note 2) Power supply Circuit breaker (NFB) or fuse Magnetic conta ctor (MC) Servo amplifier Regenera tive optio n P C To CN2 To CN1A To CN1B To CN3 Comman d device Jun cti o[...]
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1 - 25 1. FUNCTIONS AND CONFIGURATION (4) MR-J2S-700CP MR Configurator (Servo configuration sof tware) Regenerative option Chapter 6 Sectio n 14.1 .1 Options and auxiliary equipment Circui t breaker Magnetic contactor Reference Section 14.2.2 Section 14.2.2 Options and auxiliary equipment Reference Cables Manual pu lse gener ator External digit a l[...]
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1 - 26 1. FUNCTIONS AND CONFIGURATION MEMO[...]
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2 - 1 2. INSTALLATION 2. INSTALLA T ION CAUTION Stack ing in ex cess of the lim ited num ber of prod ucts is not allowed. Instal l the e quipm ent on inc ombus tible m aterial. Install ing them direct ly or c lose t o com bustibles will lead to a fir e. Instal l the equipm ent in a load- beari ng place in ac corda nce with this Ins tructi on Manual[...]
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2 - 2 2. INSTALLATION 2.2 Instal lation dir ection an d clearance s CAUTION Do not hol d the fr ont cove r to transpor t the ser vo ampl ifier. T he servo am plif ier may d ro p . The equ ipment m ust be ins talled in the sp ecified d irection. O therwis e, a fau lt ma y occur. Leave s pecifi ed clear ances between t he serv o amplif ier and c ontr[...]
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Page 48
2 - 3 2. INSTALLATION (2) I nstallat ion of two or m ore se rvo am plifier s Leave a la rge clearance between the t op of the servo ampli fier and the internal su rface of the control box, and ins tall a coo ling f an to pre vent th e intern al temperature of the control box from exceeding the environm ental cond itions. Control box 30mm (1.2 i n.)[...]
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2 - 4 2. INSTALLATION 2.4 Cable s tress (1) The wa y of clamping the cabl e must be fully examined so that flexing stress and cabl e's own weight stress are not applied to the cable connection. (2) For use i n any application where the s e rvo motor moves , fix the cab les (encoder, power supply, brake) supplied wit h the servo motor, a nd fle[...]
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3 - 1 3. SIGNALS AND WI RING 3. SIGNALS AND W IRING W ARNING Any pers on who is in volved in wiring should be ful ly compet ent to do the wor k. Befor e wiring, tur n off the p ower and wait for 15 m inutes or m ore until th e charge lamp tur ns off . Then, c onfir m that the v oltage betwee n P and N is safe with a volt age tester and oth ers. Oth[...]
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3 - 2 3. SIGNALS AND W IRING 3.1 Standar d connect ion exam ple Servo amplifier (Note 3, 7) (Note 3, 7) CN1A CN1A DOG SG 8 10 9 18 COM ZP (Note 3, 7) (Note 3, 7) CN1B CN1B 15 16 17 7 5 14 8 9 10 11 2 1 12 Plate SON LSP LSN MD0 DI0 DI1 ST1 ST2 SG P15R VC LG TLA SD 3 13 4 6 18 19 VDD COM CPO MEND ALM RD (Note 3, 7) CN3 4 3 14 13 Plate MO1 LG MO2 LG S[...]
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3 - 3 3. SIGNALS AND W IRING 3.2 Interna l connect ion diagr am of servo amplif ier This section g ives the inte rnal conn ection diagra m wher e the sig nal a ssignmen t is in t he init ial st atus. Servo amplifier VDD COM COM DOG SG DI0 MD0 ST1 ST2 DI1 SON LSP LSN SG CN1B 3 13 9 8 5 7 8 9 14 15 16 17 10, 20 10, 20 OPC PG PP NG NP SD 11 13 3 12 2 [...]
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3 - 4 3. SIGNALS AND W IRING 3.3 I/O sign als 3.3.1 Connec tors and s ignal arran gements POINT The connector pin-out s shown above a re viewed fro m the cable connector wiring section side. (1) Si gnal arr angem ent 1 2 3 5 4 6 7 9 8 10 11 12 13 14 15 16 17 18 19 20 RXD MO1 TRE LG LG RDP SDP TXD MO2 P5 LG LG RDN SDN 1 2 3 5 4 6 7 9 8 10 11 12 13 1[...]
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3 - 5 3. SIGNALS AND W IRING 3.3.2 Sign al (devic es) explanat ions (1) I/O devices POINT The devices not indicat ed in the Connector P in No. field of the I/O devi ces can be ass igned to the connector CN1 A/CN1B usin g the MR Configurat or (servo configurat ion software). (a) Pins whose devices can be changed Refer to section 3.6.2 for the I/O in[...]
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3 - 6 3. SIGNALS AND W IRING Device nam e Dev ices symbol Connector pin No. Func tions/Applications To sta rt op eration , sho rt LSP-SG and/or LS N-SG. Op en them to b ring the motor to a sud den stop and mak e it serv o-l ocked . Set " 1 " in p aramete r No. 2 2 t o ma ke a slow stop . (Ref er to secti on 5.2.5 .) (Note) Input si gnal O[...]
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3 - 7 3. SIGNALS AND W IRING Device nam e Dev ices symbol Connector pin No. Functions/Applicat ions The following table lists the point table nu mbers that may be chosen by the combinations of DI0, DI1, DI2, D I3 and DI4. Point table No. selection 1 DI0 CN1B 5 (Note)Input s ignal DI4 DI3 DI2 DI1 DI0 Point table No. Point table No. selection 2 DI1 C[...]
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3 - 8 3. SIGNALS AND W IRING Device nam e Dev ices symbol Connector pin No. Functions/Applicat ions Tempo rary stop/R estart STP Short ST P-SG d uri ng au tomat ic operati on to make a temporar y s top. S hort STP- SG again to make a r estart. Shorting the forward rotation st art (ST1) or rev erse rotation sta rt (ST2) during a temporary stop is ig[...]
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3 - 9 3. SIGNALS AND W IRING (c) Output devices Device nam e D evi ces symbol Connector pin No. Functions/Applicat ions Troub le ALM CN1B 18 ALM- SG ar e discon nect ed wh en powe r is switc hed off or th e prote ctive circu it i s activated to shut off the base circuit. Without alar m, ALM-SG are connected wit hin about 1s after power-on. Ready RD[...]
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3 - 10 3. SIGNALS AND W IRING Device nam e Dev ices symbol Connector pin No. Func tions/Applications Point table No. output 1 PT0 As soon as Movement finish (MEND) turns on, the point table No. is output as a 5- bit code. (Note) Output si gnal Point table No. output 2 PT1 Point table No. PT4 PT3 PT2 PT1 PT0 0 0 0 0 0 Point table No. output 3 PT2 1 [...]
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3 - 11 3. SIGNALS AND W IRING (2) In put signal For th e inpu t interf ace s (symbo ls in I /O colu mn in the ta ble), re fer to section 3.6 .2. Signal Signal symbol Connector pin No. Functions/Applicat ions I/O divisi on PP CN1A- 3 Manual pulse generat o r NP CN1A- 2 Used to connect th e manual pulse generat or (MR-HDP01). For details, refer to se[...]
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3 - 12 3. SIGNALS AND W IRING (4) Communication POINT Refer to chapter 15 for the communication funct ion. Signal Signal symbol Connector pin No. Func tions/Applications RS-422 I/F SDP SDN RDP RDN CN3 9 CN3 19 CN3 5 CN3 15 RS-422 and RS-232C functions cannot be us ed together. Choos e eit her one i n para meter No. 16. RS-422 termination T RE CN3 1[...]
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3 - 13 3. SIGNALS AND W IRING 3.4 Deta iled desc ription of signals ( devices) 3.4.1 For ward rotation s tart Rev erse rotation start T emporary stop/res tart (1) A forward rotat ion start (ST1) or a reverse rotati on st art (ST2) s hould make the s equence which can be used after the mai n circuit has been est ablished. These si gnals are inval id[...]
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Page 63
3 - 14 3. SIGNALS AND W IRING 3.4.2 Movem ent finis h Rough m at ch In pos ition POINT If an alarm cau se, etc. are removed and servo-on occurs afte r a stop is made by se rvo-off, al arm occurrence or Forced stop (EMG) ON during automatic operati on, Movement finish (MEND), Rough-match, (CPO) and In positi on (INP) are turned on. T o resume operat[...]
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Page 64
3 - 15 3. SIGNALS AND W IRING (3) In position The followi ng timing chart shows the relationsh ip between the signal and the feedback pulse of the servo motor. This timing can be changed u sing parameter No. 6 (in-po sition range). INP-SG ar e connected in the servo-on statu s. ON OFF ON OFF Forward rotation start (ST1) or reverse rotation start (S[...]
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Page 65
3 - 16 3. SIGNALS AND W IRING 3.4.3 Overr ide POINT When usin g the override (VC), make the override select ion (OVR) device available . The override (VC) may be used to change t he servo motor s peed. The followi ng table lists the signals and parameter re lated to the override. Item Name Remarks Analog in put signal Overr ide (VC) Contact i nput [...]
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Page 66
3 - 17 3. SIGNALS AND W IRING 3.4.4 T orque limit POINT To use the torque limit, m ake the ex ternal torque limit se lection (T L) and internal to rque limit se lection ( TL2) available . The fo llowin g table list s the signal s and p arame ters r elated to the torque limi t. Ite m Na me Rema rks Analog input signal Analog to rque limit (TLA) Exte[...]
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Page 67
3 - 18 3. SIGNALS AND W IRING (3) Ex terna l torque limit s electio n (TL) , inter nal tor que li mit selec tion (TL2) To use the extern al torqu e limit sele ction ( TL) and internal to rque lim it selec tion (T L2), make them available using the MR Configurator (servo configurati on software) (refer to chapter 6). These input signal s may be used[...]
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Page 68
3 - 19 3. SIGNALS AND W IRING 3.5 Alarm occur rence timing c hart CAUTION W hen an alarm has occ urred, r emove its caus e, mak e sure th at the op eration signa l is not be ing input, ensure saf ety, an d reset t he alarm before r estarting operat ion. As so on as an alarm occurs , turn of f Ser vo-on (SO N) an d power of f. When an alarm occurs i[...]
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Page 69
3 - 20 3. SIGNALS AND W IRING 3.6 Interf aces 3.6.1 Comm on line The fo llow ing diag ram show s the po wer supply and i ts com mon l ine. Dl-1 CN1A CN1B VDD COM SON,etc. SG OPC 24VDC ALM,et c CN1A CN1B RA DO-1 Manual pulse generator MR-HDP01 A(B) 0V 5V PP(NP) SG 5V SG <Isolated> 15VDC 10% 30mA P15 R TLA VC, etc. LG SD Analog input ( 10V/max.[...]
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Page 70
3 - 21 3. SIGNALS AND W IRING 3.6.2 Detai led descript ion of the interfac es This secti on gives the detai ls of the I/O signal interfa ces (refer to I/O Division in the ta ble) indicat ed in sectio ns 3.3. 2. Ref er to th is se ction and conn ect the in terface s with the ex terna l equipm ent. (1) Digi tal inpu t interface DI-1 Give a signal wit[...]
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Page 71
3 - 22 3. SIGNALS AND W IRING (b) Lamp load For use of internal p ower supp ly For use of external p ower supp ly Servo amplifier COM R VDD 24VDC SG ALM, e tc (Note) 24VDC 10% Servo amplifier COM R VDD 24VDC SG ALM, et c Do no t conn ect VDD-COM. Note. If the voltage drop (maxim um of 2.6V) interferes with the relay operation, apply high voltage (u[...]
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Page 72
3 - 23 3. SIGNALS AND W IRING 2) Outp ut pu lse Servo motor CCW rotation LA LAR LB LBR LZ LZR T /2 400 s or more OP The time cycle (T ) is determined by the setting of the pa r ameter No. 27 a nd 58. (4) Analog input Input impedance 10k to 12k Upper limit setting 2k 15VD C P15R VC‚ etc LG SD 2k Servo amplifier Approx. 10k (5) Ana log outp ut Outp[...]
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Page 73
3 - 24 3. SIGNALS AND W IRING (6) Sourc e inpu t interfac e When using th e input interface of source type, all Dl-1 in put signals are of source type. S ource output cannot be provided. For use of internal p ower supp ly For us e of externa l power supp ly SG COM 24VDC VDD TR R: Approx. 4.7k SON, etc . (Note) For a transistor Approx. 5mA V CES 1.0[...]
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Page 74
3 - 25 3. SIGNALS AND W IRING 3.7 Input power suppl y circuit CAUTION Alwa ys connect a m agnet ic cont actor ( MC) betwe en the m ain circu it power s uppl y and L 1 , L 2 , and L 3 of the ser vo am plifier, a nd conf igure t he wirin g to be ab le to shu t down the po wer suppl y on the side of the servo am plifier ’s power sup ply. If a magnet[...]
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Page 75
3 - 26 3. SIGNALS AND W IRING (2) For 1-phas e 100 t o 120 VAC or 1- phase 230VAC power su pply RA OFF ON MC MC SK NFB MC L 1 L 2 L 3 L 11 L 21 EMG SON SG VDD COM ALM RA Power supply 1-phase 100 to 120VAC or 1-phase 230VAC Forced stop Servo-on (Note) Servo amplifier Trouble Forced stop Note : Not provided for 1 -phase 100 to 120VAC.[...]
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Page 76
3 - 27 3. SIGNALS AND W IRING 3.7.2 T erminals The positions a nd signal arrangements of the termin al blocks change wit h the capacity of the servo amplifie r. Refer to sect ion 12.1. Symbol Connect ion Target (Applic a tion) Descr ipt ion Supply L 1 , L 2 and L 3 with th e following pow er. For 1-phase 230VAC, connect the power supply to L 1 /L 2[...]
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Page 77
3 - 28 3. SIGNALS AND W IRING 3.7.3 Power -on seque nce (1) Po wer-on procedur e 1) Always wire t he power su pply as shown in above section 3.7.1 usi ng the magnetic contactor wit h the main circuit power supply (three-phase 200V: L 1 , L 2 , L 3 , single-phase 230V single-phase 100V: L 1 , L 2 ). Configure up an external sequence to switch off th[...]
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Page 78
3 - 29 3. SIGNALS AND W IRING 3.8 Conn ection of s ervo amplif ier and s ervo motor 3.8.1 Connec tion instr uctions W ARNING Insula te the connec tions o f the p ower su ppl y term inals to pr event an electr ic shock . CAUTION Connec t the wir es to the cor rect ph ase term inals ( U, V, W ) of the serv o amplif ier and ser vo m otor. Oth erwise ,[...]
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Page 79
3 - 30 3. SIGNALS AND W IRING Servo m otor Connection diagram HC-KFS053 (B) to 73 (B) HC-MFS053 (B) to 73 (B) HC-UFS13 (B) to 73 (B) Servo amplifier (Note 1) Servo moto r Electromagnetic brake 24V DC EMG (Note 2) To be shu t off when ser vo-on (S ON) swit ches off or by Tro uble ( ALM) Encoder cable CN2 Motor Encoder U V W B1 B2 U (Red) V (White ) [...]
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Page 80
3 - 31 3. SIGNALS AND W IRING 3.8.3 I/O term inals (1) HC-KFS HC-MF S HC-UFS3 000r/m in series 24 13 4 Power supply connecto r (Molex) Without electromag netic brake 5557-04R -210 (rece ptacle) 5556PBT L (Female term inal) With electrom agnetic brake 5557-06R -210 (rece ptacle) 5556PBT L (Female term inal) Enc oder cabl e 0.3m ( 0.98f t.) Power sup[...]
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Page 81
3 - 32 3. SIGNALS AND W IRING (2) HC-SFS HC-RF S HC-UFS2 000 r/m in series Ser vo mo tor si de co nn ect ors Servo motor For pow er supply For encod er Electromagnetic brake connector HC-SFS81(B) HC-SFS52(B) to 152(B ) HC-SFS53(B) to 153(B ) CE05-2A22- 23PD-B The c onnector for power is shared. HC-SFS121(B) to 301(B ) HC-SFS202(B) to 502 (B ) HC-SF[...]
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Page 82
3 - 33 3. SIGNALS AND W IRING 3.9 Serv o motor with electrom agnetic brak e CAUTION Configur e the elec trom agnetic br ake oper ation c ircuit so that it is ac tivated n ot only by the s ervo amplif ier sig nals bu t also b y an ext erna l forced s top (E MG). EMG RA 24V DC Contacts must be o pen when servo-on (SON) is of f or when a trouble (ALM)[...]
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Page 83
3 - 34 3. SIGNALS AND W IRING (3) T iming char ts (a) Servo-on (SON) command (from controller) ON/OFF Tb (ms) after servo-on (SON) i s switched off, se rvo lock is released and the servo motor coasts. If the elect romagnetic brake is m ade vali d in the servo lock st atu s, the brake li fe may be shorter. For use in v ertical lif t and sim ilar app[...]
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Page 84
3 - 35 3. SIGNALS AND W IRING (c) Alarm occurrence Electromagnetic brake Dynamic brake Electromagnetic brake Dynamic brake (ON) Forward rotation Electromagnetic brake interlock (MBR) Servo motor s peed Base ci rcuit Trouble (ALM) ON OFF ON OFF (Note) 0r/min No Yes (OFF) Electro magnetic brake operatio n delay time (10ms) Note. ON: Electromagnet ic [...]
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Page 85
3 - 36 3. SIGNALS AND W IRING (e) On ly main c ircuit pow er supply off (con trol circu it pow er supply remains o n) (10ms) (10ms) Electromagnetic brake Dynamic brake Electromagnetic brake Dynamic b r ake Electromagnetic brake operation delay time (Note 2) (ON) Forward rotati on Electromagnetic brake interlock (MBR) Servo motor speed Base circ uit[...]
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Page 86
3 - 37 3. SIGNALS AND W IRING 3.10 Gro unding W ARNING Groun d the ser vo am plifier and ser vo m otor sec urel y . To prev ent an el ectric s hock , always con nect the pr otecti ve earth ( PE) ter minal of the ser vo am plifier with the protect ive ear th (PE) of the control box. The servo amplifier switches the power transistor on-off to suppl y[...]
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Page 87
3 - 38 3. SIGNALS AND W IRING 3.11 Ser vo amplif ier term inal block (TE2) wiri ng metho d POINT Refer to Table 14.1 in se ction 14.2. 1 for the wire s izes used for wiring. 3.11.1 For the servo am plifi er produced l ater than J an. 2006 (1) Term ination of the ca bles (a) Soli d wire After t he sheath has b een stripped, the cabl e can be us ed a[...]
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Page 88
3 - 39 3. SIGNALS AND W IRING (2) T erminat ion of the cab les (a) When the wire is inserted directl y Insert the wire to the end pressi ng the butt on with a small flat b lade screwdriver or the like. Button Small flat bla de screwdriver or the like Twisted wire When removing the short-circuit bar from across P-D, press the buttons of P and D alt [...]
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Page 89
3 - 40 3. SIGNALS AND W IRING 3.11.2 For the servo am plifi er produced e arlier than D ec. 2005 1) Termi nation of the cables Solid wire: After the shea th has been stripped, the cable can be used as it is. Approx. 10mm (0.39inch) Twiste d wire : Use the ca ble af ter stripp ing the sheath and twis ting the c ore. At th is time, t ake care to avoi[...]
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Page 90
3 - 41 3. SIGNALS AND W IRING To loosen. To tighten. Opening Control circuit terminal block Cable Flat-blade sc rewdriver Tip thickness 0.4 to 0.6mm (0.016 to 0.024in.) Overall width 2.5 to 3.5mm (0.098 to 0.138in.) Use of a flat-blade torque screwdriver is recomme nde d to manage the screw tig htenin g torque . The following ta ble indicates the r[...]
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Page 91
3 - 42 3. SIGNALS AND W IRING 3.12 Instr uctions f or the 3M c onnector When fabricating a n encoder cable or t he like, securely connect the s hie lded externa l conductor of the cable to the ground plate as shown in this s ection and fi x it t o the connector shell. External conduct or Sheath External conduct or Pull back the external conductor t[...]
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Page 92
4 - 1 4. OPERATION 4. OPERATION 4.1 W hen s witching p ower on for t he firs t time 4.1.1 Pre-o peratio n check s Before starti ng operation, check the following. (1) W iring (a) A correct power supply is connect ed to the p ower in put ter minal s (L 1 , L 2 , L 3 , L 11 , L 21 ) of the servo amplifie r. (b) The servo motor power supply t erminals[...]
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Page 93
4 - 2 4. OPERATION 4.1.2 S tartup W ARNING Do not oper ate the switch es with wet ha nds. You ma y get an e lectric sh ock. CAUTION Befor e starti ng oper ation, c heck the par ameters . Som e mac hines ma y perfor m unexpec ted o peratio n. Take s afet y m easures, e .g. pro vide co vers, t o prevent accide ntal co ntact of hands and par ts (c abl[...]
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Page 94
4 - 3 4. OPERATION (2) Star tup pr ocedur e (a) Power on 1) Switch off the servo-on (SON). 2) When main circui t power/contro l circuit power is switched on, "P oS" (Curre nt position) appears on the servo amplifier dis play. In the absolute positi on detection system, first power-on results in the abs olute posit ion lost (AL.25) alarm a[...]
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Page 95
4 - 4 4. OPERATION (f) Home position return Perform home position return as required. Refer to sect ion 4.4 for home position return types. A parameter set ting example for dog type ho me position return is given here. Parameter Name Setting Descrip tion No.8 Home position return type 000 Dog type h ome posi tion re turn is select ed. Home pos itio[...]
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Page 96
4 - 5 4. OPERATION 4.2 Aut omatic operat ion m ode 4.2. 1 W hat i s automati c operat ion m ode? (1) C ommand s ystem After selection of pres et point tables usi ng the input signals or communi cation, operation is started by the forward rota tion start (ST1) or reverse rota tion start (ST2 ). Automati c operation has th e absolut e value comm and [...]
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Page 97
4 - 6 4. OPERATION (2) Point table (a) Point ta ble setti ng Up to 15 p oint tab les ma y be set. To u se poin t table N o.s 4 to 31, h oweve r, the po int table No. selec tion 3 (D I2), po int ta ble No. se lection 4 (DI3) and po int table No. sele ctio n 5 (DI4) should be made va lid in "I/O Device s" on the MR Configur ator ( servo con[...]
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Page 98
4 - 7 4. OPERATION (Note 2) Input s ignals (Note 1) DI4 (Note 1) DI3 (Note 1) DI 2 DI1 DI0 Select ed point table No. 0 0 0 0 0 0 (Manual home position re turn mode) 0 0 0 0 1 1 0 0 0 1 0 2 0 0 0 1 1 3 0 0 1 0 0 4 0 0 1 0 1 5 0 0 1 1 0 6 0 0 1 1 1 7 0 1 0 0 0 8 0 1 0 0 1 9 0 1 0 1 0 10 0 1 0 1 1 11 0 1 1 0 0 12 0 1 1 0 1 13 0 1 1 1 0 14 0 1 1 1 1 15[...]
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Page 99
4 - 8 4. OPERATION 4.2. 2 Absol ute value command s y stem (1) Point table Set the point tabl e values using the MR Configurator (servo configurati on software) or from the operating section. Set the p ositio n data , motor speed, acc elerat ion tim e con stant, dece lera tion ti me const ant, dwe ll and auxili ary function to the point table. The [...]
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Page 100
4 - 9 4. OPERATION (b) ST1 coordinate system selecti on (parameter No.1) Choose t he servo motor rotation directi on at the time when the forwar d rotation sta rt (ST1) is switched on. Param eter No. 1 setting S ervo motor rot ation directi on when forward r otation st art (ST1) is switched on 0 CCW rotation with positio n data CW rotation with pos[...]
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Page 101
4 - 10 4. OPERATION 4.2.3 Increm ental va lue co mm and system (1) Point table Set the point tabl e values using the MR Configurator (servo configurati on software) or from the operating section. Set the p ositio n data , motor speed, acc elerat ion tim e con stant, dece lera tion ti me const ant, dwe ll and auxili ary function to the point table. [...]
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Page 102
4 - 11 4. OPERATION (b) ST1 coordinate system selecti on (parameter No.1) Choose t he servo motor rotation direction at the time when the forward rota tion start (ST1 ) signal or reverse rotation start (ST2 ) signal is switched on. Servo m otor rotation direc tion Paramete r No .1 setting Forward rotati on start (ST1) ON Revers e rotation start (ST[...]
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Page 103
4 - 12 4. OPERATION 4.2.4 Absolu te va lue comm and/ increm ental va lue c omm and specif ying s ystem This system is an auxili ary func tion fo r poi nt table s to use them by spe cifying the a bsolute valu e command and increment al value command. (1) Point table Set each value of point tabl es by using MR Configurator (Setup soft ware) or operat[...]
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Page 104
4 - 13 4. OPERATION (2) Paramete r setting Set th e fol lowing p arame ters to perfo rm au tomatic ope ration. (a) Command mode selection (parameter No.0) Choose the abs olute value command/incremental value command specifyi ng system. 2 Pa ram ete r No. 0 Absolute value command/incrementa l value command specifying system (b) ST1 coordinate system[...]
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Page 105
4 - 14 4. OPERATION 4.2.5 Autom atic oper ation timing c hart The ti ming chart is shown below. ON OF ON OF ON OF ON OF ON OF ON OF 0r/min ON OF ON OF 2 1 ON OF 12 Automa tic/ma nual selection (MD0) Servo-on (SON) Forward rotation start (ST1) Reverse rotation st art (ST 2) ( Note 1 ) Point ta ble No. Servo motor speed Forwar d rota tio n Reverse ro[...]
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Page 106
4 - 15 4. OPERATION 4.2.6 Autom atic co ntinuo us oper ation (1) W hat is autom atic cont inuous operat ion? By merely choosing one point table and making a start (ST1 or ST2), operation can be performed in accord ance w ith th e poin t tabl es hav ing c ons ec uti ve numb ers. Automatic operat ion is ava ilable i n two types: varied speed opera ti[...]
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Page 107
4 - 16 4. OPERATION (a) A bsolute value comm and system 1) Posi tioning in single direction The position data (a ddresses) of the midway point tables are not used for positioning and speed is chang ed conti nuous ly to mov e to the set ad dress in the last po int table . The operati on example given below ass umes that the set values are as indicat[...]
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Page 108
4 - 17 4. OPERATION 2) Pos itioning that reverses the di rection midway The po sitio n da ta (addr esse s) of the mid way p oint tables are u sed for positio ning and the direc tion is reve rsed to reach the po sition ing add ress set in the last point table . The operati on example given below ass umes that the set values are as indicated in t he [...]
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Page 109
4 - 18 4. OPERATION (b) Incremental value com mand system The positi on data of the incremental value command system is the sum of the position data of the consecutive point tables. The operati on example given below ass umes that the set values are as indicated in the followi ng table. Point t able No. Posit ion data [ 10 STM m] Servo m otor speed[...]
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Page 110
4 - 19 4. OPERATION (c) Ab solute va lue com mand/incre mental v alue com mand specifying sys tem This system i s an auxil iary f unction fo r point ta bles to perform au tomatic o perat ion by spe cifying the absol ute value command or incremental value command. 1) Posi tioning in single direction The operati on example given below ass umes that t[...]
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Page 111
4 - 20 4. OPERATION 2) Pos itioning that reverses the di rection midway The operati on example given below ass umes that the set values are as indicated in t he following table. Here, t he point table No. 1 use s the a bsolute v alue co mmand syste m, the p oint ta ble No. 2 the incremental value command system, and the point table No. 3 t he absol[...]
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Page 112
4 - 21 4. OPERATION (4) T emporar y stop/res tart When STP-S G are connected during aut omatic operation, the mot or is decelerated t o a temporary st op at t he decelerat ion time cons tant i n the poi nt tabl e bei ng executed. When STP -SG are connected again, the remai ning distance is execut ed. If the forward/reverse rotat ion start signal is[...]
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Page 113
4 - 22 4. OPERATION 4.3 Ma nual operat ion mode For machine adjustment, home position matching, etc. , jog operation or a manual pulse generator may be used to make a motio n to any position . 4.3.1 Jog oper atio n (1) Setting Set the input signal and parameters as follows according to the purpose of use. In this cas e, the point table N o. se lect[...]
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Page 114
4 - 23 4. OPERATION (4) T iming ch art Servo-on (SON) Ready (RD) Trouble (ALM) Automatic/manual selection (MD 0) Rough match (CPO) Servo motor speed Forward rotation start (ST1) Reverse rotation sta rt (ST2) Forwa rd rotation jog Reverse rotatio n jog ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF Forwar d rota tio n Reverse rotation ON OFF ON OFF 0r/mi[...]
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Page 115
4 - 24 4. OPERATION 4.3. 2 Manual pul se gene rato r operati on (1) Setting Set the input signal and parameters as follows according to the purpose of use. In this cas e, the point table N o. se lection 1 to 5 ( DI0 to DI4) are in valid. Item S etting met hod Description Manual operation mo de selection Automatic/manual selection (MD0) Open MD0-SG [...]
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Page 116
4 - 25 4. OPERATION (b) Using the input signals for s etting Set the pulse gen erator m ultiplica tion 1 ( TP0) and p ulse gene rator multip licatio n 2 (TP1) to the input signa ls in "De vice s etting " on the MR Con fig urator (servo configuration software) (refer to chapter 6). (Note) Puls e generator multiplication 2 (acr oss TP1 ) (N[...]
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Page 117
4 - 26 4. OPERATION 4.4 Man ual hom e posi tion retur n m ode 4.4.1 Outlin e of hom e posi tion ret urn Home position ret urn is performed to match the comma nd coordinates with the machin e coordinates. In the incremental system, home position return is requ ired every t ime input power is switched on. In the absolu te po sition de tectio n syste [...]
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Page 118
4 - 27 4. OPERATION (2) Home position return parameter When p erform ing ho me p osition return , set p arame ter No .8 as fo llows . Home position return method································ ····· ···················1) 0: Dog type 1: Count type 2: Da ta sett ing ty pe 3: Stopper type 4: Hom[...]
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Page 119
4 - 28 4. OPERATION 4.4. 2 Dog type ho me posi tion retu rn A home positi on return method usi ng a proximity dog. W ith decelerati on started at t he front end of the proximity dog, the positi on where the first Z-phase signal is given past the rear end of the dog or a motion has been made over t he home positi on shift dista nce starting from th [...]
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Page 120
4 - 29 4. OPERATION (3) T iming ch art ON OFF Reverse rotation start (ST2) ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF td Movemen t finish (MEND) Rough match (CPO) Home position return comp letion (ZP) Servo motor speed Z-phase Proximit y dog (DOG) Forward rotation start (ST1) Home position Proximity dog 5ms or mo re Poi nt ta ble No. 1 Accelerati on[...]
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Page 121
4 - 30 4. OPERATION 4.4. 3 Count type ho m e p ositi on return In co unt type h ome po siti on retur n, a mot ion is m ade ov er the d istance set in parame ter No. 43 (mov ing distance after proxi mity dog) after detection of th e proximity dog front end. The position where t he first Z- phase signal is given a fter that is defined as a home posit[...]
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Page 122
4 - 31 4. OPERATION 4.4. 4 Data se tting ty pe home positio n return Data se tting type ho me posi tion re turn i s used wh en it i s desire d to dete rmin e any p osition as a home position. JOG operation, manual pulse generator operation or like can be used for movement. (1) Signal s, parameters Set th e inpu t signa ls and parame ter s as follo [...]
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Page 123
4 - 32 4. OPERATION 4.4. 5 Stop per ty pe home posi tion retu rn In stopper type home positi on return, a machine part is pressed against a stopper or the like by jog ope ration, m anual p ulse gen erator o perat ion or the l ike to make a home posi tion re turn a nd th at po sition is defined as a home position. (1) Signal s, parameters Set th e i[...]
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Page 124
4 - 33 4. OPERATION (2) T iming ch art Parameter No.28 (Note)Parameter No.45 P arameter No.28 ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF Automatic/manual selection (MD0) Moveme nt finish (MEND) Rough match (CPO) Home position return completion (ZP) Servo motor spe ed Forward rotation start (ST1) Forward rotation start (ST2) Limiting torque (T[...]
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Page 125
4 - 34 4. OPERATION 4.4.6 Home pos ition i gnoran ce (ser vo-on p osition define d as hom e pos ition) The posit ion where s ervo is swit ched on is defined as a home position. (1) Signal s, parameter Set th e inpu t signa ls and parame ter as follow s. Item Devi ce/Param eter used Description Home position ignorance Paramet er No.8 4 : Home pos it[...]
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Page 126
4 - 35 4. OPERATION 4.4. 7 Dog type rea r end r efere nce ho me po sition return POINT This home posi tion return method depends on the timing of reading Proximit y dog (DOG) that has detected the rear end of a proximit y dog. Hence, if a home posit ion return i s made at the cree p spee d of 100r/min , an error of 200 pulses will occur i n the hom[...]
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Page 127
4 - 36 4. OPERATION 4.4.8 Count t ype front end r eferenc e home pos itio n retu rn POINT This home posi tion return method depends on the timing of reading Proximit y dog (DOG) th at has detected the front end of a proximity dog. Hence, if a home position return is made at the home position return speed of 100r/mi n, an erro r of 200 pu lses will [...]
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Page 128
4 - 37 4. OPERATION 4.4.9 Dog cra dle t ype hom e positio n retur n The positi on where the first Z-phase signal is issued aft er detection of the proxi mity dog front end ca n be defined as a home position. (1) Signal s, parameters Set th e inpu t sign als and param eter s as ind icate d bel ow. Item Devi ce/Param eter used Descri ption Automatic/[...]
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Page 129
4 - 38 4. OPERATION 4.4.1 0 Hom e positio n retur n autom atic r eturn fu nctio n If the current position is at or beyond the proximity dog in the home position return using the proximity dog , this fun ctio n start s hom e posi tion re turn af ter ma king a return to th e posi tion whe re th e home position return can be made. (1) W hen the c urre[...]
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Page 130
4 - 39 4. OPERATION 4.4.1 1 Automatic positio ning func tion to the hom e positi on POINT You cannot perform aut omatic positioning from out side the positi on data settin g rang e to the h ome p osition . In thi s case, make a h ome po sition return again u sing a manu al home pos ition return. If thi s func tion i s used w hen r eturni ng to the [...]
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4 - 40 4. OPERATION 4.5 Absolute pos ition detec tion system CAUTION If an absolut e posit ion eras e alarm (AL.25) or an absolu te pos ition c ounter warning (AL.E 3) has occur red, al ways perform home pos ition sett ing agai n. Not doin g so can c ause runa way. POINT When the fol lowing para meters are changed, the home posi tion is l ost when [...]
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4 - 41 4. OPERATION (3) Structure Component Description Servo amp lifier Servo mo tor Use standard models. Battery MR-BAT or A6BAT Encoder ca ble Use a standard model. When fabricating, refer to (2), section 14.1.4. (4) Outl ine of abs olute pos ition detec tion da ta comm unicat ion For normal operation, as shown below, the encoder c onsis ts of a[...]
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4 - 42 4. OPERATION 1) Open the opera tion window. (W hen the model us ed is the MR-J2S -200CP MR-J2S-350CP or more, also remove the front cover.) 2) Install the batt ery in the battery holder. 3) Inst all the battery co nnecto r into CO N1 unt il it cli cks. Battery connector Batter y Operation window CON1 Battery holder CON1 Battery connector Bat[...]
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4 - 43 4. OPERATION 4.6 Se rial co m muni cation ope ration The RS-422 or RS-232C communication functi on may b e used to operate the s ervo amplifier from a command device (controlle r) such as a personal co m puter. Positioning operation can be performed with the posit ioning operation/posit ion specified b y selection of the poi nt tabl es. Note[...]
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4 - 44 4. OPERATION 4.6.2 P osition ing oper ation Posit ioning op erat ion can be perfo rmed by changin g the p oint ta ble se ttings and ma king a start. For example, positi oning operation can be performed by writing the data of point table No.1, then specifying point table No.1, and mak ing a st art. For transm ission data details, refer to cha[...]
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4 - 45 4. OPERATION 4.6.4 Group des igna tion When using several serv o amplifier s, command-d riven parame ter settings, etc. can be m ade on a group basi s. You c an set up to six gro ups, a to f. Set th e grou p to e ach st ation u sing th e com munic ation comman d. (1) Gr oup sett ing exam ple CHARGE MITSUB I S HI RS-422 CHARG E MITSUB ISHI CH[...]
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4 - 46 4. OPERATION (2) T iming ch art In the followi ng timing chart, operation is performe d group-by-group in accordance with the values set in point table No .1. Transmissi on data Station 0 Servo motor speed 1) 2) 4) 5) 7) 8) 10) Station 1 Serv o mot or speed Station 2 Serv o mot or speed Station 3 Serv o mot or speed Station 4 Serv o mot or s[...]
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5 - 1 5. PARAMETERS 5. PARAME TERS CAUTION Ne ver adj ust or c hange the param eter v alues ex trem ely as it will m ake oper atio n instab le. 5.1 Param eter list 5.1.1 Par ameter writ e inhibit POINT Set "000E " when usin g the MR Co nfigurator ( servo con figuration softwar e) to make d evice s etting. After se tting the paramete r No.[...]
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5 - 2 5. PARAMETERS 5.1.2 List POINT The paramet ers marked * before thei r symbols a re made vali d by switching p ower off o nce and then switching it on again afte r parameter setting. Refer to the corresponding reference it ems for details of the parameters. (1) Item lis t Class No. Symbol Name and Function Init ial v alu e U nit Custom er sett[...]
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5 - 3 5. PARAMETERS Class No. Symbol Name and Function Init ial v alu e U nit Custom er setting 20 *O P2 Function selection 2 0000 21 For manufacturer setting 0002 22 *O P4 Function selection 4 0000 23 SIC Serial communications time-out select i on 0 24 FFC F eed forward gain 0 % 25 V CO Over ride offset 0 mV 26 TLO T orque limit o ffset 0 mV 27 *E[...]
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5 - 4 5. PARAMETERS Class No. Symbol Name and Function Initial value Unit Custom er setting 54 For manufacturer setting 0000 55 *O P6 Function selection 6 0000 56 For manufacturer setting 0000 57 *O P8 Function selection 8 0000 58 *O P9 Function selection 9 0000 59 * OPA Function selection A 0000 60 For manufacturer setting 0000 61 NH1 Mac hine res[...]
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5 - 5 5. PARAMETERS (2) Detail li st Class No. S ymbol Name and Function Initia l value Uni t Set ting range 0 *ST Y Co mman d sys tem, rege nerative o ption selection Used to sele ct the comman d system and regenera tive opti on. Selection of command system (Refer t o section 4.2) 0: Absolute v alue command syst em 1: Incremental value command s y[...]
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5 - 6 5. PARAMETERS Class No. S ymbol Name and Function Initia l value Uni t Set ting range 2 *OP 1 Function selection 1 Used to select the i nput f ilter a nd ab solute p osition det ection syste m. Input filter If external input signal causes chattering due to noise, etc., input fi lter is used to su ppress it. 0: N one 1: 0.88[ms] 2: 1.77[ms] 3:[...]
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5 - 7 5. PARAMETERS Class No. S ymbol Name and Function Initia l value Uni t Set ting range 4 *CMX Electronic gear n umera tor Se t th e va lue o f e lect ron ic ge ar n ume rato r. S etting "0" automatically sets the resoluti on of the s ervo motor connected . (Refer to sec tion 5.2. 1) 1 0 to 65535 5 *CDV Electron ic gea r den ominat or[...]
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5 - 8 5. PARAMETERS Class No. S ymbol Name and Function Initia l value Uni t Set ting range 16 *BPS Se rial communication function selection, alarm history clear Used to select t he serial commun ication baud rate, s elect various communication conditions , and c lear the alar m history. Serial baud rate selection (Refer to section 15.2.2) 0: 9600 [...]
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5 - 9 5. PARAMETERS Class No. S ymbol Name and Function Initia l value Uni t Set ting range Basic pa rameters 18 *DMD Status display selection Used to select t he status disp lay shown at p o wer-on. (Refer to sect io n 7.2) Status display on servo amplifier display at power-on 00: Current position (initial value) 01: Command position 02: Command r[...]
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5 - 10 5. PARAMETERS Class No. S ymbol Name and Function Initia l value Uni t Set ting range Parameter write inhibit Used to s elect t he refe renc e and wri te ran ges of t he p ara meters . Operat ion ca n be p erformed for t he param eters ma rked . Set value Operation Basic paramet ers No.0 to 19 Expansion paramet ers 1 No.20 to 53 Expansion pa[...]
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5 - 11 5. PARAMETERS Class No. S ymbol Name and Function Initia l value Uni t Set ting range 24 FFC Fee d forw ard g ain Set the feed forward gain. When the se tting is 100%, the droop pulses during operation at constant speed are nearly zero. However, sudden acceleration/deceleration will increase the ove rshoot. As a guideline, when th e feed for[...]
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5 - 12 5. PARAMETERS Class No. S ymbol Name and Function Initia l value Uni t Set ting range 31 MO1 Analog monit or 1 (MO1) offset Used to s et the of fset volt ag e of t he analog monito r 1 (MO1 ) ou tput . 0 mV 999 to 999 32 MO2 Analog monit or 2 (MO2) offset Used to s et the of fset volt ag e of t he analog monito r 2 (MO2 ) ou tput . 0 mV 999 [...]
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5 - 13 5. PARAMETERS Class No. S ymbol Name and Function Initia l value Uni t Set ting range 46 47 *L MP Softwar e lim it Used to set the address increment side software stroke limit. The software limit is made invalid if this value is the same as in "software limit ". (Refer to section 5.2.8) Set the same sign to parameters No.46 and 47.[...]
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5 - 14 5. PARAMETERS Class No. S ymbol Name and Function Initia l value Uni t Set ting range 54 For manufacturer setting Do not change this value by any means. 0000 55 *OP6 Function s election 6 Used to s elect how to p roc ess t he base circu it w hen reset (R ES) i s va lid . 0 00 0: Base circuit shut off 1: Base circuit not shut of f Processing [...]
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5 - 15 5. PARAMETERS Class No. S ymbol Name and Function Initia l value Uni t Set ting range Expan sion paramet ers 2 59 *OPA Function selection A Used to select the alarm code. Setting of alarm code output Connector pins Set value CN1B-19 CN1A-18 CN1A-19 0 1 88888 AL.12 AL.13 AL.15 AL.17 AL.8A AL.8E AL.30 AL.45 AL.50 AL.51 AL.24 AL.32 AL.31 AL.35 [...]
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5 - 16 5. PARAMETERS Class No. S ymbol Name and Function Initia l value Uni t Set ting range 60 For m anufactur er setting Do not c hang e th is va lue by an y mean s. 0000 61 NH1 Mach ine r esonanc e suppres sion filter 1 Used to selection t he machine resonance suppressi on filter. (Ref er to secti on 9.1.) 2 3 0 0 1 40dB 14dB 8dB 4dB Notch frequ[...]
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5 - 17 5. PARAMETERS Class No. S ymbol Name and Function Initia l value Uni t Set ting range 63 LPF L ow-pass filter/ adaptive vibrat ion suppression contro l Used to selection t he low-pass filter and adaptive vibration suppr ession control . (R efer t o chap ter 9) 0 Low-pass filter selection 0: Valid (Automatic adjust ment) 1: Invalid Adaptive v[...]
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5 - 18 5. PARAMETERS Class No. S ymbol Name and Function Initial value Uni t Setting range 68 *CDP Gain changing s election Used to select t he gain chan ging conditi on. (Refer to s ection 9 .5) 0 00 Gain cha nging selection Gains are changed in accordance with the settings of parameters No. 64 to 67 under any of t he following co ndi ti ons : 0: [...]
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5 - 19 5. PARAMETERS 5.2 Deta iled expla nation 5.2.1 Elec tronic gear CAUTION False se tting will resu lt in unexpec ted fast r otatio n, caus ing inj ury. POINT This parame ter is made valid wh en power is swi tched off, then on after setti ng, or when the controller res et has been perfor med. The range of t he electronic gear sett ing is CMX CD[...]
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5 - 20 5. PARAMETERS 5.2.2 Chang ing the status displa y screen The stat us display it em of the servo amplifi er display and the dis play item of the external digit al displa y (MR-D P60) shown at power-o n can be changed by c hangi ng the para mete r No. 18 (sta tus d isplay selec tion) se ttings. In the in itial cond ition, th e servo amplif ier[...]
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5 - 21 5. PARAMETERS 5.2.3 S-p attern acc eleration/dec eleratio n In servo operati on, linear acceleration/decel eration is usual ly made. By setting the S-patt ern acceleration/decel eration time constant (pa rameter No.14), a smoot h start/stop can be made. When t he S- pattern time consta nt is set, smooth positioning is executed as shown below[...]
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5 - 22 5. PARAMETERS (2) C ontents of a se tting The se rvo ampl ifier is facto ry-set to output the servo motor sp eed to an alog mo nitor 1 an d the tor que to analo g moni tor 2. Th e set ting can be change d as listed belo w by changing the p arameter No.17 (analog monitor output) value. Refer to (3) f or the measur ement p oint. Setting Output[...]
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5 - 23 5. PARAMETERS PWM M Current control Spe ed control Current command Position control Dr oop pu ls e Diffe r- ential Command speed Bus vo ltage Spe ed command Command posi tion Current feedback Position feedback Serv o Motor speed Current encoder Servo Mot o r Encoder Torque differentiation[...]
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5 - 24 5. PARAMETERS 5.2.5 Chang ing the stop pattern usi ng a lim it switch The servo amplifier is factory-set to make a sudden st op when the l imit swit ch or soft ware limit i s made valid. When a sudden stop is not required, e.g. wh en t here is an allowance from t he limit s witch installa tion positi on to the permissibl e moving range of th[...]
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6 - 1 6. MR Configurator (SERVO CONFIGURATION SOFTWARE) 6. MR Conf igurator (SERV O CONFIGURATION SOFTW ARE) POINT Some functions of the MR Configurator (s ervo configurat ion software) may be unavailab le for some versions. For det ails, please contact us. The MR Configurator (servo configuration so ftwa re) (MR2JW3-SETUP151E or more) us es the co[...]
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6 - 2 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) (2) C onfigur ation d iagram (a) For use of RS-232C Personal computer Com muni cat io n cabl e Servo amplifie r Servo mo tor CN3 CN2 To RS-232C connector U V W (b) For use of RS-422 Up to 32 axe s may be mu ltidropp ed. Personal computer Communication cable To RS-232C connector Servo amplifi[...]
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6 - 3 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) 6.3 Station setting Click “ Sy s te m ” on the me nu bar and cl ick “ Stat ion Selec tion ” on the menu. When the above choices are made, the following window appears. (1) St ation nu mber set ting Choose t he station number in the combo box and click the “ Station Set tings ” bu[...]
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6 - 4 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) 6.4 Param eters Click “ Param eters ” on the m enu bar and click “ Parameter List ” on the menu. When the above choices are made, the following window appears. a ) b ) c) d ) e ) f) g ) i) h) (1) Parameter value write ( a) ) Click the parameter whose setting was changed and press the[...]
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6 - 5 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) (3) Parameter value bat ch-read ( c) ) Click the “ Read All ” butto n to re ad and d isplay all pa rameter values f rom th e serv o amplifie r. (4) Parameter value bat ch-write ( d) ) Click the “ Wri t e Al l ” button to wri te all p arame ter valu es to the ser vo amp lifier . (5) P[...]
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6 - 6 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) 6.5 Point table Click “ P ositi on-Data ” on th e menu b ar and c lick “ Poin t Tables ” on the menu. When the above choices are made, the following window appears. a ) f) b ) d ) h ) e) g) c) (1) Poi nt table da ta write ( a) ) Click the poi nt table data changed a nd press the “ [...]
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6 - 7 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) (3) Point table data batch-read ( c) ) Click the “ Read All ” but ton to re ad an d displ ay al l point table d ata fro m the serv o amplif ier. (4) Poi nt table da ta batch-w rite ( d) ) Click the “ Wri t e Al l ” button to wri te all poin t table dat a to the serv o amplif ier. (5)[...]
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6 - 8 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) 6.6 Devic e assignm ent method POINT When usi ng the device s etting, pres et “000E” in parameter No. 19 . (1) H ow to open the s etting s creen Click “ Param eters” on the menu bar a nd click “Device setting ” in the menu. Making selection displays the following window. Click ?[...]
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6 - 9 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) (2) Scr een explanat ion (a) DIDO device setting window screen This is the devi ce assignment screen of the servo amplifier displa ys the pin assignment status of the serv o amplifier. b) d) c) a) 1) Read of func tion ass ignment ( a) ) Click the “ Read ” button reads and displays all fu[...]
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6 - 10 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) (b) DIDO function display window screen This screen is used t o select the device assigned to the pins. The fu nction s disp layed below * and * are a ssignable . a) b) Move the po inter to the place of the func tion to be ass igned. D rag an d dro p it as- is to the p in yo u want to assig[...]
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6 - 11 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) (c) Function device assignment checking auto ON se tting d isplay Click the “ / ” butt on in the DIDO function display window displays the followi ng window. a) b) c) d) e) The assi gned functions are indicated by . The functions assigned by auto ON are grayed. When you want to se t aut[...]
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6 - 12 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) 6.7 Tes t operation CAUTION W hen confirm ing the machine opera tion in t he tes t opera tion m ode, use the ma chine after check ing that the saf ety mec hanism such as t he force d stop (E MG) operat es. If an y operati onal f ault has occurr ed, stop operat ion us ing the f orced s top ([...]
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6 - 13 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) (1) Ser vo m otor spee d setti ng ( a) ) Enter a new v alue in to the “ Motor s peed ” input field a nd press the enter key. (2) Acc elera tion/dec elerat ion tim e const ant sett ing ( b) ) Enter a new v alue in to the “ Accel /decel ti me ” input field and press the enter key. (3)[...]
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6 - 14 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) 6.7.2 Pos itioning oper ation POINT The serv o motor will not op erate if the forced stop (EMG), fo rward rotati on stroke end (LS P) and reverse rota tion st roke end (LSN) are o ff. Make au tomatic O N set ting to tur n on the se dev ices or m ake dev ice setting to assign th em as exte r[...]
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6 - 15 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) (1) Ser vo m otor spee d setti ng ( a) ) Enter a new v alue in to the “ Motor s peed ” input field a nd press the enter key. (2) Acc elera tion/dec elerat ion tim e const ant sett ing ( b) ) Enter a new v alue in to the “ Accel /decel ti me ” input field and press the enter key. (3)[...]
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6 - 16 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) 6.7.3 Motor -less oper ation POINT When this operation i s used in an abs olute posit ion detection sys tem, the home positi on cannot be restored properl y. Without a servo motor being connected, the output signals are provided and the servo amplifi er display shows the status as if a serv[...]
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6 - 17 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) 6.7.4 Outp ut signal (DO) forced output POINT When an alarm occurs, the DO forced outp ut is automatic ally cance led. Each servo a mplifier output signal is forcibly swit ched on/off independently of the output condition of the output sign al. Click “ Test ” on the me nu bar and cl ick[...]
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6 - 18 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) 6.7.5 Sing le-step f eed POINT In the jog opera tion mod e, do not rewrit e data from t he point t able li st screen or the s ervo ampli fier's front panel. Otherw ise, the set va lues are made invalid . The serv o motor will not op erate if the forced stop (EMG), fo rward rotati on st[...]
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6 - 19 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) 6.8 Alarm history Click “ Alarm s ” on the menu ba r and click “ Histor y ” on the menu. When the above choices are made, the following window appears. (1) A larm histor y displa y The mo st recent six al arms are d isplaye d. The small er number s indic ate ne wer al arms. (2) Al a[...]
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6 - 20 6. MR Configur ator (SERVO CONF IGURATION SOFTWARE) MEMO[...]
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7 - 1 7. DISPLAY AND OPERATION 7. DISPLAY AND OPE RATION 7.1 Displ ay flowchart Use the displa y (5-digit, 7-s egment LED) on the front panel of the servo amplifier for stat us display, parame ter se tting, e tc. Se t the para meter s befor e ope ration, di agnose an alar m, confir m exte rnal sequences, and/ or confirm the operation status. Press [...]
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Page 183
7 - 2 7. DISPLAY AND OPERATION 7.2 Status disp lay The servo stat us during operation is shown on t he 5-digit, 7-s egment LED display. Press the " UP " or " DOWN " button to change display data as desired. When the required dat a is selected, the corresponding symbo l appe ars. Press th e " SET " button to displ ay it[...]
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Page 184
7 - 3 7. DISPLAY AND OPERATION 7.2.2 Disp lay exam ples The followi ng table lists dis play examples. Displayed dat a Item Statu s S ervo amplifier display M R-DP60 Forward rotation at 2500r/min Servo m otor speed Reverse rotation at 3000r/min Reverse rotation is ind icated by " ". Load inertia momen t 15.5 times 11252pulse Multi- revolut[...]
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Page 185
7 - 4 7. DISPLAY AND OPERATION 7.2.3 St atus displa y lis t The foll owing tab le lists the servo s t atus es that ma y be s hown. Display range Status dis play Symbol Unit Descrip tion Servo amplifier displa y MR-DP60 Current posit ion PoS 10 ST M mm The c urrent positi on fr om the machi ne h ome posit ion of 0 is displaye d. 99999 to 99999 99999[...]
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Page 186
7 - 5 7. DISPLAY AND OPERATION 7.3 Diagnos is m ode 7.3.1 Disp lay trans ition After c hoosin g the diag nosis m ode wi th the " MODE " button, pressing t he " UP " or " DOW N " button c hange s the disp lay as shown be low. To Te achin g To Sequence Sequence External I/O signal display Output signal (DO) forced output[...]
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7 - 6 7. DISPLAY AND OPERATION 7.3.2 Diagn osis m ode list Name D ispla y Descr ipt ion Not r eady . Indicates that the servo amplifier is being initialized or an alarm has occurr ed. Sequence Ready. Indica tes that the serv o was swit ched on afte r comp leti on of initialization and the se rvo amplifier is ready to operate. External I/O signal di[...]
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Page 188
7 - 7 7. DISPLAY AND OPERATION Name D ispla y Descr ipt ion Motor se ries Press the " SET " button to sh ow the m otor se ries ID of the servo motor c urrently con nect ed. For indication details, refer to the optional MELSERVO Servo Motor In struction Ma nual. Motor type Press the " SET " butt on to sh ow t he m otor t ype ID o[...]
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Page 189
7 - 8 7. DISPLAY AND OPERATION 7.4 Alarm mode The current alarm, past alarm history and param ete r error are displayed. T he lower 2 digits on the display indicat e the alarm number that has occurred or the pa rameter number in error. Display exampl es are shown be low. 7.4.1 Disp lay trans ition After ch oosing the alarm mode w ith the " MOD[...]
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Page 190
7 - 9 7. DISPLAY AND OPERATION 7.4.2 Alar m mode lis t Name Di splay Desc ription Indica tes no occu rren ce of an a larm. Current alarm Indi cates the occ urren ce of overv oltag e (AL .33) . Flick ers at occurren ce of the ala rm. Indicates that the last al a rm is overload 1 (AL.50). Indicates that the second alarm in th e past is overvoltage (A[...]
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Page 191
7 - 10 7. DISPLAY AND OPERATION Functions at occurrence of an alarm (1) Any mode screen displa ys the current alarm. (2) Even during alarm occurrence, the ot her screen can be viewed by pressing the button i n the operation area. At thi s time, t he dec imal p oint in the four th dig it re mains f licker ing. (3) For any alarm, remove its cause and[...]
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Page 192
7 - 11 7. DISPLAY AND OPERATION 7.5 Point t able m ode You can se t the target position, servo motor sp eed, acceleration time, deceleration time, dwell and auxiliary function. 7.5.1 Po int table tr ansition After choosing the poi nt table mode wit h the " MODE " bu tton, press ing the " UP " or " DOW N " button change[...]
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Page 193
7 - 12 7. DISPLAY AND OPERATION 7.5.2 Point table m ode setting s creen seque nce Press " SE T " in the point table mode. The foll owing screen appears. Press " UP " or " DOW N " to move to the next sc reen . Tar get pos iti on Servo moto r speed Acceleration time constant Deceleration time constant Dwell Auxi liary fu[...]
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Page 194
7 - 13 7. DISPLAY AND OPERATION 7.5.3 Oper ation m ethod (1) Set ting of 5 or less-di git val ue The followi ng example provides the after-power-on operation procedure to set "1" in the auxil iary function of point ta ble No.1. Press MODE three times. Press SET once. Press SET twic e. Press UP five ti mes. Press UP or DOWN to choose point[...]
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Page 195
7 - 14 7. DISPLAY AND OPERATION (2) Setting o f 6 or more-digit value The followi ng example gives t he after-power-on oper ation procedure t o change the target value of point ta ble No.1 to "123456". Press SET once. Setting of lower 3 digits The screen f lickers. Enter th e setting. Setting of upper 3 digits Press SET once. Press MODE o[...]
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Page 196
7 - 15 7. DISPLAY AND OPERATION 7.6 Param eter mode POINT To use the expansion parameters, change the parameter No. 19 (parameter write inhibit) value. (Refer to section 5.1. 1) 7.6.1 Par ameter m ode transitio n After choosing the corresponding parameter mode with the " MODE " button , pre ssing th e " UP " or " DOW N &quo[...]
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Page 197
7 - 16 7. DISPLAY AND OPERATION 7.6.2 Oper ation exam ple (1) Paramete r of 5 or less digits The followi ng example shows the operation procedure performed aft er power-on to change the home posi tion set ting metho d (Param eter No. 8) into th e data se tting typ e. Press " MODE " to sw itch to the bas ic para meter s cr een. Press four [...]
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Page 198
7 - 17 7. DISPLAY AND OPERATION (2) Si gned 5-d igit par ameter The followi ng example gives the opera tion procedure to change the home pos ition return position data (parame ter No. 42) to "- 1234 5". Setting of lower 4 digits The screen f lickers. Enter th e setting. Setting of upper 1 digits Press SET once. Press MODE once . Press SET[...]
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Page 199
7 - 18 7. DISPLAY AND OPERATION 7.7 Externa l I/O signal d isplay The ON/OFF states of t he digital I/O signals connected to the servo ampli fier can be confirmed. (1) Op eration Call t he dis play screen s hown after power-on. Using the " MODE " button, show t he dia gnostic screen. Press UP once. External I/O signal display s creen (2) [...]
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Page 200
7 - 19 7. DISPLAY AND OPERATION 7.8 Output s ignal (DO) forced o utput POINT When the s ervo system is used in a verti cal li ft applica tion, turning on the electromagnet ic brake interlock (MBR) after assigning it t o pin CN1B-19 will releas e the electromagnetic brake, causing a drop. Tak e drop preventive measures on the machine side. The outpu[...]
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Page 201
7 - 20 7. DISPLAY AND OPERATION 7.9 Tes t operation m ode CAUTION The tes t opera tion m ode is desig ned to co nfirm servo operati on and not to co nfirm mac hine operat ion. In th is m ode, do not use the s ervo m otor with t he machin e. Alwa ys use th e servo m otor a lone. If an y operati onal f ault has occurr ed, stop operati on usin g the f[...]
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Page 202
7 - 21 7. DISPLAY AND OPERATION 7.9.2 Jog o peratio n Jog operation can be performed when there is no command from the external command device. (1) Op eration Conne ct EMG- SG to start j og op eration and con nect V DD-CO M to use the in tern al power supply . Hold dow n the " UP " or " DO W N " button to run the se rvo mo tor. [...]
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Page 203
7 - 22 7. DISPLAY AND OPERATION 7.9.3 Pos itioning oper ation POINT The MR Configurator (s ervo configuration s oftware) is required to perform positi oning operati on. Positioni ng operation can b e performed once when there i s no comma nd from the ext ernal comman d device. (1) Op eration Connect EMG-S G to st art positi oning operati on and con[...]
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7 - 23 7. DISPLAY AND OPERATION 7.9.4 Motor -less oper ation Without connecting the s ervo motor, you can provide output si gnals or monitor the status display as if the servo motor is running in resp onse to external input signals. This operation can be used to check the sequence of a host programmabl e controller or the like. (1) Op eration After[...]
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7 - 24 7. DISPLAY AND OPERATION 7.10 Teac hing funct ion POINT This fu nctio n is ava ilable for the absolu te va lue com mand sy stem. I t is no t availa ble for th e incremen tal v alue command syste m. This function is en abled after a ho me position return . After m aking sur e that th e serv o motor has stopp ed, pre ss the " SET " b[...]
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7 - 25 7. DISPLAY AND OPERATION 7.10.2 Pos ition data s etting m ethod When the preparati ons for teaching are over, se t position dat a in the foll owing procedure. (1) W hen deter minin g pos ition da ta b y JOG opera tion 1) Turn automatic/manual selection (MD0) OFF to choose the manual operation mode. (Refer to sectio n 4.3) 2) Tu rn forw ard r[...]
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7 - 26 7. DISPLAY AND OPERATION MEMO[...]
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8 - 1 8. GENERAL GAIN ADJUSTMENT 8. GENERAL GAIN ADJUSTMENT 8.1 D ifferent adj ustm ent metho ds 8.1.1 Adjustm ent on a sing le servo ampl ifier The ga in adju stment in th is sectio n can be made on a si ngle se rvo ampl ifier. For gain adju stment, first execute aut o tuning mode 1. If you are not satisfied with the res ults, execute auto tuning [...]
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8 - 2 8. GENERAL GAIN ADJUSTMENT (2) Adj ustment seque nce an d mode usage Usage Used when you want to match the position gain (PG1) between 2 or more axes. Normally not used for other p urposes. Allows adjustment by merely changing the resp onse lev el setting. First use this mode to make adjustment. Use d when the c onditi ons of auto tuning mode[...]
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8 - 3 8. GENERAL GAIN ADJUSTMENT 8.2 Aut o tuni ng 8.2.1 A uto tun ing mode The serv o ampl ifier has a real-t ime auto tuning f uncti on which est imates the machine characteris tic (load inerti a momen t rat io) in real time and autom atic ally set s the optimu m gains ac cordin g to that valu e. Thi s function permits eas e of gain adjustment of[...]
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8 - 4 8. GENERAL GAIN ADJUSTMENT 8.2. 2 Auto tuni ng mode op eration The block dia gram of real-time auto tuni ng is shown below. Servo motor Comma nd Automa tic setti ng Control gains PG1, VG1 PG2, VG2,VIC Current control Current feedback Load inertia moment Encode r Position/speed feedback Real-time auto tuning section Speed feedback Load inertia[...]
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8 - 5 8. GENERAL GAIN ADJUSTMENT 8.2.3 A djustm ent proc edure b y auto t uning Since auto tuning is made valid before shipment from the factory, simply running the servo motor autom atica lly set s the optimu m gain s that ma tch the machine . Mere ly changin g the re sponse level setting value as require d co mpletes t he adju stme nt. The adjust[...]
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8 - 6 8. GENERAL GAIN ADJUSTMENT 8.2.4 Respons e leve l settin g in au to tun ing mode Set th e respo nse ( The fi rst d igit of param eter No .3 ) of the whole servo system. A s the response l evel setting is increase d, the track abil ity and set tling ti me for a com mand decre ases, but a to o high respo nse level w ill gene rate vibratio n. He[...]
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8 - 7 8. GENERAL GAIN ADJUSTMENT 8.3 Man ual m ode 1 (s imple manual adjustm ent) If you are not satis fied with the adjustment of auto tuning, you can make simple manual adjustment with three parameters. 8.3.1 Operat ion of manual mode 1 In this mode, setti ng the three gains of position control gain 1 (PG1), speed control gain 2 (VG2) and spee d [...]
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8 - 8 8. GENERAL GAIN ADJUSTMENT (c) Adjustment description 1) Speed contro l gain 2 ( parameter No. 37) This pa rameter determines the response l evel of the speed control loop. Increasing this value enhances response b ut a too high value will make the mechanical system li able to vib rate. The actual response frequency of the speed loop is as in[...]
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8 - 9 8. GENERAL GAIN ADJUSTMENT (c) Adjustment description 1) Posi tion co ntrol g ain 1 (p arameter No . 7) This paramet er determines the response level of the position control loop. Increasing position control ga in 1 impro ves tr ack ability to a po sition command but a too high value wi ll make overshooti ng liable to occur at the time of set[...]
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8 - 10 8. GENERAL GAIN ADJUSTMENT 8.4 Inter polati on m ode The interpolation mode is us ed to m atch the pos ition control gains of t he axes when performing the interpolati on operation of servo mot ors of two or more axes for a n X-Y table or the like. In this mode, the positio n control g ain 2 and speed con trol gain 2 whic h determin e comman[...]
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8 - 11 8. GENERAL GAIN ADJUSTMENT 8.5 D ifferenc es in a uto tun ing bet ween MELSER VO-J2 and MELS ERVO-J 2-Sup er 8.5. 1 Respon se level setting To meet higher respon se demands, the ME LSERVO-J2-Supe r series has been change d in response level setti ng range from the MELS ERVO-J2 seri es. The followi ng table li sts comparis on of the response [...]
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8 - 12 8. GENERAL GAIN ADJUSTMENT MEM O[...]
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9 - 1 9. SPECIA L AD JUSTMENT FUNCTI ONS 9. SPECIAL ADJUSTME NT FUNCTIONS POINT The functions given in this chapter need not be used generall y. Use them if you are not satisfie d with the machine statu s after making ad justment in the m ethods in c hapter 8. If a me chanic al sy stem ha s a natur al re sonance poin t, incre asing t he ser vo syst[...]
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9 - 2 9. SPECIAL ADJUSTMENT FUNCT IONS You can use the machine resonance suppression fil ter 1 (parameter No. 61) and ma chine resonance suppression filt er 2 (p aramet er No. 62) t o suppress the vib ration of two resonance frequencies . Note that if adap tive vibr ation sup pressio n control is ma d e valid, th e machine resonance suppression fil[...]
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9 - 3 9. SPECIAL ADJUSTMENT FUNCT IONS POINT If the frequency of machine res onance is unk nown, decrease the not ch frequency from hi gher to lower ones in order. The optimum notch frequency is s et at the point where vib rati on is minimal . A deeper not ch has a hi gher effect on machi ne res onance suppress ion but increases a phase delay and m[...]
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9 - 4 9. SPECIAL ADJUSTMENT FUNCT IONS (2) Parameters The operati on of adaptive vibration suppression control s election (parameter No.63). Pa ram ete r No. 63 Adaptive vibration suppression control selec tion Choosing "valid" or "held" in adapt ive vibration suppression control selection makes the machine resonance suppression[...]
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9 - 5 9. SPECIAL ADJUSTMENT FUNCT IONS 9.5 Gain c hanging function This function can change the gains. You can change between gains during rotation and gains during stop or can use an external signal to change gains during operation. 9.5.1 Ap plications This function is used when. (1) You want t o incr ease th e gains duri ng serv o lock but dec re[...]
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9 - 6 9. SPECIAL ADJUSTMENT FUNCT IONS 9.5.3 Par ameters When using the gain changing functi on, always set " 4 " in p arameter No.3 (auto tuning) t o choose the manual mode of t he gain adjustment modes. The gain changing function cannot be used in the aut o tuning mode. Parameter No. Abbrev- iation Name Uni t Descri ption 7 PG1 Po sitio[...]
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9 - 7 9. SPECIAL ADJUSTMENT FUNCT IONS (1) Para meters No. 7, 34 to 38 These parameters are the same as in ordinary manual adjustment. Gain changing allows the val ues of ratio of load inertia moment to servo motor inertia moment, position control gain 2, speed control gain 2 and speed in tegral compen sation to be ch anged. (2) R atio of l oad in [...]
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9 - 8 9. SPECIAL ADJUSTMENT FUNCT IONS 9.5.4 Gai n changing o peration This operati on will be described by way of setting examples. (1) W hen you choose c h anging by exte rnal inp ut (a) Setting Parameter No. Abbreviati on Name S etting Unit 7 PG1 Position control gain 1 100 rad/s 36 VG1 Spee d control gain 1 1000 r ad/s 34 GD2 Rati o of loa d in[...]
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9 - 9 9. SPECIAL ADJUSTMENT FUNCT IONS (2) W hen you choose c h anging by droop pulses (a) Setting Parameter No. Abbreviation Name Setting Unit 7 PG1 Po sit ion contr ol gain 1 100 rad/s 36 VG1 Speed control gai n 1 1000 rad/s 34 GD2 Rat io of loa d inert ia m oment t o servo motor inertia moment 40 0.1 times 35 PG2 Position con tr ol ga in 2 120 r[...]
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9 - 10 9. SPECIAL ADJUSTMENT FUNCT IONS MEMO[...]
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10 - 1 10. INSPECTION 10. INSPEC TION W ARNING Befor e starti ng maint enanc e and/ or insp ection, turn of f the po wer and wait f or 15 minutes or m ore unti l the c harge l amp tur ns off . Then, c onfirm that t he volta ge betwe en P and N is saf e wit h a vo ltage t ester a nd other s. Oth erwise, an el ectric shock may occ ur. In a dditio n, [...]
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10 - 2 10. INSPECTION MEMO[...]
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11 - 1 11. TROUBLESHOOTING 11. TROUBLESHOOTING 11.1 Troub le at start- up CAUTION Exc essive a djustm ent or c hange of par ameter s etting m ust not be m ade as it will mak e operat ion inst able. POINT Using the MR Configurator (servo configuration software), you can refer to unrotated servo motor reasons, etc. The followi ng faults may occur at [...]
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11 - 2 11. TROUBLESHOOTI NG 11.2 W hen alarm or warning has oc curred POINT Configu re up a circuit w hich will d etect the trouble ( ALM) signa l and turn off the servo-o n (SON) signa l at occurrence of an ala rm. 11.2.1 Alar ms and warning list When a fault occurs during operati on, the corresponding alarm or warning is displayed. If any alarm o[...]
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11 - 3 11. TROUBLESHOOTI NG 11.2.2 Rem edies for al arms CAUTION W hen any alar m has oc curred, elim inate its cause , ens ure saf ety, then r eset t he alarm , and res tart op eration . Other wise, injur y may occu r. If an absolut e posit ion eras e alarm (AL.25) occurr ed, al ways m ake home p osition settin g agai n. Other wise, misoper ation [...]
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11 - 4 11. TROUBLESHOOTI NG Display Nam e Defini tion Cause Action CPU/parts fault 1. Faulty parts in th e servo amplifier. Checkin g method Alarm (AL.17) o ccu rs if p ower is switched o n a fter d isconnect ion of all cable but t h e control circuit power sup ply cable. Change the servo amplifier. AL.17 Board error The outp ut termin als U, V, W [...]
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11 - 5 11. TROUBLESHOOTI NG Display Nam e Defini tion Cause Action 1. Wrong setting of parameter N o. 0 Set correctly. 2. B uilt -in re gener ative res istor or regen erative option i s not conne cted. Con nect co rrectl y 3. High-duty operation or continuous regen erativ e operat ion caus ed th e perm issib le regene rati ve power of the regenerat[...]
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11 - 6 11. TROUBLESHOOTI NG Display Nam e Defini tion Cause Act ion 1. Short occurred in servo a mplifier outpu t p hases U, V and W. Correct the wiri ng. 2. Tra nsist or (IPM) of t he serv o amplifier faulty. Checking m ethod Alarm (AL.3 2) occurs i f power is switched on after U,V and W are disconn ected. Change the servo amplifier. 3. Gr ound fa[...]
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11 - 7 11. TROUBLESHOOTI NG Display Nam e Definition Cause Action 1. Serv o amplifi er faul t caus ed the parameter setting to be rew ritten. Change the servo amplifier. 2. Regenerative option not used with servo amplifier was selected in para meter No.0. Set param eter No.0 corr ectly. 3. Va lue outsi de s etting ra nge ha s be en set in som e par[...]
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11 - 8 11. TROUBLESHOOTI NG Display Nam e Definition Cause Act ion 1. Mac hine st ruck s omet hing . 1. Re view opera tion pattern. 2. Install limit switch es. 2. Wr ong conn ection of servo m otor. Servo amplifier's output t erminals U, V, W d o not match servo motor's input terminals U , V, W. Con nect co rrectl y. 3. Servo system is in[...]
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11 - 9 11. TROUBLESHOOTI NG 11.2.3 Rem edies for warnings CAUTION If an absol ute pos ition c ount er warn ing (AL .E3) occ urred , alwa y s m ake hom e posit ion se tting a gain. O ther wise, m isoper ation m ay occ ur. POINT When any of the foll owing alarms has occurred, do not res ume operation by switchin g power of the servo ampli fier OFF/ON[...]
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11 - 10 11. TROUBLESHOOTI NG Display Nam e Defi nition Cause A ction 1. Software limit was set wit hin actual operati on rang e. Set parameter No. 48 to 51 correctl y. 2. Poi nt t abl e of posit ion data in excess of softw are l imit was ex ecut ed. Set point table co rrectly. AL.98 Software limit warning Software limit set in param ete r is reache[...]
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12 - 1 12. OUTLINE DIMENSION DR A WING S 12. OUTLINE DIMENS ION DRAWINGS 12.1 Servo am plifiers (1) MR-J2S-10CP to MR-J2S-60CP MR-J2S-10CP1 to MR-J2S-40CP1 E N C () [Un it: mm] 6 ( 0.24) mounting h ole A Approx.70 (2.76) 135 ( 5 .32) TE2 4(0.16) B 1 6 8 ( 6 . 6 1 ) A p p r o x . 7 ( 0 . 2 8 ) 1 5 6 ( 6 . 1 4 ) 6 ( 0 . 2 4 ) 6 (0.24) C N 1 A OPEN L1[...]
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12 - 2 12. OUTLINE DIMENSION DRAW INGS (2) MR-J2S-70CP MR-J2S-100CP C N 1 A OPEN MITSU BISHI C N 1 B C N 2 E N C C N 3 A p p r o x . 7 ( 0 . 2 8 ) C N 1 A OPEN L1 L2 L3 UV W MITSU BISHI C N 1 B C N 2 E N C C N 3 [Unit : mm] ([Unit: in] ) Approx.70(2.76) 70(2.76) 190(7.48) 22 TE1 TE2 6(0.24) ( 0 . 7 9 ) Name plate Ter mi nal la yo ut (Terminal co ve[...]
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12 - 3 12. OUTLINE DIMENSION DRAW INGS (3) MR-J2S-200CP MR- J2S-3 50CP MITSUB ISHI MI TSUB ISHI Approx.70 (2.76) 195(7.68) 90(3.54) 78(3.07) 6 1 6 8 ( 6 . 6 1 ) 1 5 6 ( 6 . 1 4 ) 6 2- 6 ( 0.24) mounting hole Terminal layout TE1 [Un it: mm] ([Uni t: in]) TE2 PE terminal (0.24) ( 0 . 2 4 ) Cooling fan wind dir ection Servo a m plif ier Mass [kg]( [lb[...]
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12 - 4 12. OUTLINE DIMENSION DRAW INGS (4) MR-J2S-500CP 2- 6( 0 .24) mounting hole [Uni t: mm] ([Unit: in] ) C N 2 C N 3 C N 1 A C N 1 B OPEN OPEN C N 2 C N 3 C N 1 A C N 1 B OPEN TE1 TE2 130(5.12) 118(4.65) 7.5 (0.5) (0.24) 6 (0.24) 250(9.84) 235(9.25) 7.5 (0. 5) 6(0.24) N.P. Approx. 70 (2.76) 6 (0.79 ) 200(7.87) (0.19) 5 Terminal layout N.P. Cool[...]
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12 - 5 12. OUTLINE DIMENSION DRAW INGS (5) MR-J2S-700CP 2- 6( 0.24) mounting hole C N 1 B C N 1 A C N 3 C N 2 TE2 OPEN C N 1 B C N 1 A C N 3 C N 2 TE1 7.5 (0.5) (0.39 ) 10 180(7.09) 160(6.23) (0.39 ) 10 Approx.70 (2.76) 200(7.87) 62 (2.44) 6(0.2 4) Te rminal layout [Uni t: mm] ([Unit: in]) (0.79) 350(13.8) 335(13.2) 7.5 (0.5) 6 (0.24) Cooling fan w[...]
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12 - 6 12. OUTLINE DIMENSION DRAW INGS 12.2 Connectors (1) Servo amplifie r side <3M > (a) Soldered type Model Connector : 10120-3000VE Shell kit : 1032 0-52F0-00 8 [Un it: mm] ([Uni t: in]) 1 0 . 0 ( 0 . 3 9 ) Logo, etc. are indica ted here. 12.0(0.47) 22.0 (0.87) 3 9 . 0 ( 1 . 5 4 ) 2 3 . 8 ( 0 . 9 4 ) 14.0 (0.55) 12. 7( 0. 50) 33.3 (1.31) [...]
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12 - 7 12. OUTLINE DIMENSION DRAW INGS (2) Co mm un icati on cable conne cto r <JAE> C D F A B [Un it: mm] ([Unit: in]) Fitting fixing screw G E (max. d iameter o f cable used) Type A 1 B 1 C 0.25 D 1 E F reference G DE-C1-J6-S6 34.5 (1.36) 19 (0. 75) 24.99 (0. 98) 33 (1. 30) 6 (0.24) 18 (0.71) #4-40[...]
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12 - 8 12. OUTLINE DIMENSION DRAW INGS MEMO[...]
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13 - 1 13. CHARACTERISTICS 13. CHARA CTERISTICS 13.1 Overl oad protec tion character istics An electronic thermal relay is built in the servo amplifier to protect the servo motor and servo amplifier from o verload s. Ove rload 1 alarm (A L.50) o ccurs if overload operati on performed is above the electronic thermal relay protection curve shown in a[...]
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13 - 2 13. CHARA CTERISTICS 13.2 Power suppl y equipm ent capacit y and gener ated loss (1) Am ount of heat g enerat ed b y the s ervo amplif ier Table 12.1 ind icate s servo amplifier 's powe r supply capac ities an d los ses gen erated u nder rate d load . For thermal design of an enclosure, use the values in Tabl e 13.1 in consideration for[...]
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13 - 3 13. CHARA CTERISTICS (2) H eat diss ipation area for enclos ed ser vo am plifier The enclos ed control box (hereafter called t he control box) which will conta in the servo ampli fier should be des igned to ensure that its temperature rise is wit hin 10 ( 50 ) at the ambie nt temperature of 40 (104 ). (W ith a 5 (41 ) safety margin, t he sys[...]
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13 - 4 13. CHARA CTERISTICS 13.3 D y nam ic brak e characteristics 13.3.1 D ynamic brak e operatio n (1) C alculat ion of coast ing dis tance Fig. 13 .3 shows the pa ttern in which th e servo motor comes t o a stop when t he dynamic brak e is operated. Use E quation 13. 2 to calculat e an approxim ate coasti ng distance t o a stop. The dyna mic bra[...]
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13 - 5 13. CHARA CTERISTICS Time constant [s] 0.005 0.01 0.015 0.02 0.025 0.03 0.035 0.04 0 50 500 01 0 0 0 121 201 301 81 Speed [r/min] Time const ant [s] Speed [r/min] 0 0.005 0.0 1 0.015 0.02 0.025 0.03 0.035 0.04 0.045 0 500 1000 1500 2000 352 202 702 102 152 502 52 c. HC-SFS 1000r/m in series d. HC-SFS2000r /min ser ies 0 0.02 0.04 0.06 0.08 0[...]
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13 - 6 13. CHARA CTERISTICS 13.3.2 T he dynamic brake at th e load iner tia m oment Use the dyna mic brake under the load i nertia moment rati o indicated in t he following ta ble. If the l oad inertia moment is higher tha n this value, the built-in dynami c brake may burn. If there is a possibilit y that the l oad inertia moment may exceed the val[...]
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13 - 7 13. CHARA CTERISTICS 13.5 Inrus h currents at power- on of main c ircuit and co ntrol circu it The fo llowing table ind icate s the inru sh curre nts (r eference value) that will flow when t he maximum permissible voltage (253VAC) is applied at the power supp ly capacity of 2500kVA and the wiring length of 1m. Inru sh Cu rren ts ( A 0-p ) Se[...]
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13 - 8 13. CHARA CTERISTICS MEMO[...]
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14 - 1 14. OPTIONS AND AUXI L IARY EQUIPMENT 14. OPTIONS AND AUXILIARY EQU IPMENT W ARNING Befor e connect ing an y opt ion or perip heral e quipm ent, turn of f the power an d wait for 15 m inut es or m ore unti l the ch arge lam p tur ns off . Then, co nfirm that the volt age betw een P and N i s safe with a volta ge tester and others . Other wis[...]
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14 - 2 14. OPTIONS AND AUXILIARY EQU IPMENT (b) To make selection accord ing to regenerative energy Use the following method when regenerati on occurs conti nuously in vertical motion applicat ions or when it is desired to make an in-depth selection of the regenerative opti on. a. Regenerative energy calculation Use the following tabl e to calculat[...]
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14 - 3 14. OPTIONS AND AUXILIARY EQU IPMENT Inverse efficiency ( ) :Efficiency including some efficien ci es of the servo motor and servo amplifier when rated (regenerat ive) torque is generated at rated speed. Since the efficiency varies with the speed and generated torque, allow for about 1 0%. Capacitor ch arging (Ec) :Energy charged into the el[...]
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14 - 4 14. OPTIONS AND AUXILIARY EQU IPMENT (4) Co nnecti on of the r ege nerativ e opti on POINT When the M R-RB50 MR-RB51 is used, a cooling fan is required t o cool it. The cooling fa n should be prepared b y the customer. The regenerati ve option will generate heat of about 100 . Fu lly ex amine hea t dissip ation, install ation position, used [...]
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14 - 5 14. OPTIONS AND AUXILIARY EQU IPMENT (b) MR-J2S-500CP MR-J2 S-700C P Always remove the wiring (across P-C) of the serv o ampl ifier built- in regener ative re sistor and fit the re genera tive op tion across P-C. The G3 and G4 terminals act as a thermal sensor. G3-G4 is opened when the regenerative option overheats abnormally. Servo amplifie[...]
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14 - 6 14. OPTIONS AND AUXILIARY EQU IPMENT For the MR-RB 50 MR-R B51 in stall the coolin g fan a s show n. 82.5 40 (1 .58) 82.5 133 Cooling fan i nstallation screw hole dimensions 2-M3 screw hole (for cooling fan installation) Depth 10 or less (Screw hole already machined) Cooling fan Terminal block Thermal relay Insta llation s urf ace Horizontal[...]
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14 - 7 14. OPTIONS AND AUXILIARY EQU IPMENT (5) Out line drawing (a) MR-RB032 MR-R B12 LA 5 (0.20) LB TE1 6 (0.24) 6 ( 0 . 2 4 ) 1 5 6 ( 6 . 1 4 ) 1 6 8 ( 6 . 6 1 ) 1 4 4 ( 5 . 6 7 ) 1 2 ( 0 . 4 7 ) 6 ( 0 . 2 4 ) 1 2 ( 0 . 4 7 ) 20 (0.79) LD 1.6 (0.06) LC G3 G4 P C [Uni t: mm (in )] 6 (0.24) mounting hole MR-RB TE1 Terminal block G4 G3 C P Terminal[...]
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14 - 8 14. OPTIONS AND AUXILIARY EQU IPMENT (c) MR-RB50 MR- RB51 [Unit: mm (in)] Terminal block G4 G3 C P Terminal sc rew: M4 Tightening torque: 1.2 [N m] (10.6 [Ib in]) Mounting screw Screw : M6 Tightening torque: 5. 4 [N m] (47.79 [Ib in]) Regenerative option Mass [kg ] (Ib) MR-RB50 MR-RB51 5. 6 (12.3) 2.3 (0.09) 49 (1.93) 82.5 (3.25) 200 (7.87) [...]
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14 - 9 14. OPTIONS AND AUXILIARY EQU IPMENT 14.1.2 FR- BU2 brak e unit POINT Use a 200V cl ass brake unit and a resistor unit with a 200V class se rvo amplifier. Combin ation of differe nt voltage class un its and se rvo amplifier cannot be used. Install a brake unit and a resisto r unit on a flat surf ace vertically. When the unit i s installe d h[...]
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Page 267
14 - 10 14. OPTIONS AND AUXILIARY EQU IPMENT (2) Br ake uni t param eter s etting Normally, when using the FR-BU2, changing parame ters is not nece ssary. Whether a parameter c an be change d or n ot is li sted below. Para m eter No. Nam e Change possibl e/ impossi ble Remar ks 0 Brake mod e switch over Impossi ble Do not cha nge the p ara meter. 1[...]
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Page 268
14 - 11 14. OPTIONS AND AUXILIARY EQU IPMENT (3) Connec tion exam ple POINT Conne cting PR termin al of the brake unit to P ter minal of th e servo amplifier re sults in bra ke unit malfunct ion. Always connect the PR terminal of the brake uni t to the P R terminal of the res istor unit . NFB ALM RA1 MC SK MC ON OFF EMG (Note 1) Power supply N/ P/ [...]
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Page 269
14 - 12 14. OPTIONS AND AUXILIARY EQU IPMENT (a) Precautions for wiring The cabl es bet ween the servo amplifi er and the br ake unit, a nd between t he resist or unit and t he brake unit should be as short as possible. Al ways twist th e cable longer than 5m (twist five ti mes or more per one meter). Even when the cable is twisted, the cable shoul[...]
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Page 270
14 - 13 14. OPTIONS AND AUXILIARY EQU IPMENT b) Control circu it terminal POINT Undertightening ca n cause a cabl e disconnection or malfunct ion. Overtightening ca n cause a short circuit or malfunction due t o damage to the screw or t he brak e unit. A RES PC B SD BUE C MSG SD MSG SD SD Jumper Termin al blo ck 6mm Sheath Co re Wire the st ripped [...]
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Page 271
14 - 14 14. OPTIONS AND AUXILIARY EQU IPMENT (4) Out line dimens ion dr awings (a) FR-BU2 brake unit [Unit: mm ] FR-BU2-15 K Rating plate 5 hole (Screw size: M4) 68 6 56 6 5 18.5 52 62 4 132.5 FR-BU2-30 K 129.5 5 59 18.5 Rating plate 52 2- 5 hole (Screw size: M4) 5 108 6 6 96[...]
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14 - 15 14. OPTIONS AND AUXILIARY EQU IPMENT (b) FR-BR resistor unit [Unit: mm ] 2 C Control circuit terminal Main circuit terminal W1 1 Approx. 35 Approx. 35 C C W 5 (Note) (Note) Note. Ventil ation ports are provided on both sides and the top. The b ottom is open. Resistor unit W W 1 H H1 H2 H3 D D1 C Approximate ma ss [kg]( [Ib]) FR-BR-15K 170 1[...]
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14 - 16 14. OPTIONS AND AUXILIARY EQU IPMENT (2) C onnectio n exam ple (Note 3) Power supply NFB MC Servo amplifier L 11 L 21 L 1 L 2 L 3 Power regeneration converter FR-RC SK ON MC B C NPC RDY SE Alar m output RDY output A B C 5m(16.4ft) or less N/ P/ Operation ready MC OFF EMG RA2 FR-RC Ready Power factor improving reactor FR-BAL (Note 2) Phase d[...]
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14 - 17 14. OPTIONS AND AUXILIARY EQU IPMENT (3) Outs ide d imensio ns of t he po wer rege neratio n con verters [Unit : mm(in )] AA A C F K EE BA B E D 2- D hole Rating plate Front cove r Display panel window Mounting foot (rem ovable) Mo unt in g foot movable Cooling fan Heat generation a rea outside mounting di mension Pow er regeneration conver[...]
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14 - 18 14. OPTIONS AND AUXILIARY EQU IPMENT 14.1.4 Cabl es and conn ectors (1) Cable make-up The following cables are u sed for connection with t he servo motor and other models. Those in dicated by broken li nes in the figure are not options. HC-SFS HC-RFS HC-UFS 2000r/min HC-KFS HC-MFS HC-UFS 3000 r/min CN1A CN1B CN2 CN3 1) 2 ) 3) 4 ) 5) 7) 8) 6[...]
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14 - 19 14. OPTIONS AND AUXILIARY EQU IPMENT No. Product Model Description Application 1) Standard e ncoder cable MR-JCCBL M-L Refer to (2) of this section. Connector: 10120-3000PE Shell kit: 10320-52F 0-008 (3M or eq uivalen t) Housing: 1-172161-9 Connector pin: 170359-1 (Tyc o Elect roni cs or equiv al ent) Cable clamp: MTI-0002 (Toa E lect ric I[...]
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14 - 20 14. OPTIONS AND AUXILIARY EQU IPMENT No. Product Model Des cription Application 9) Control signal connecto r set MR-J2CN1 Connector: 10120-3000PE Shell kit: 10320-52F 0-008 (3M or eq uivalen t) Qty: 2 each Connector: HIF 3BA-20D-2.54R (Hiro se Electric) Connector: 10120-6000EL Shell kit: 10320-3210-000 (3M or eq uivalen t) 10) Junction term[...]
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14 - 21 14. OPTIONS AND AUXILIARY EQU IPMENT (2) Enc oder c able CAUTION If you hav e fabric ated t he encod er cab le, conn ect it correc tly. Other wise, m isopera tion or explosio n ma y occur. POINT The encoder cabl e is not oil resist ant. Refer to secti on 13.4 for the flexing l ife of the enc oder cabl e. When the encoder ca ble is us ed, th[...]
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14 - 22 14. OPTIONS AND AUXILIARY EQU IPMENT P5 LG P5 LG 19 11 20 12 2 MR MRR 7 17 MDR 16 5 3 7 4 18 P5 LG MD 6 LG 1 BAT 9 SD 1 2 8 9 P5 LG P5 LG 19 11 20 12 2 MR MRR 7 17 MDR 16 5 3 7 4 MR-JCCBL2M-L MR-JCCBL5M-L MR-JCCBL2M-H MR-JCCBL5M-H 18 P5 LG MD 6 LG 1 BAT 9 SD 1 2 8 9 P5 LG P5 LG 19 11 20 12 2 MR MRR 7 17 MDR 16 5 3 7 4 18 P5 LG MD 6 LG 1 BAT[...]
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14 - 23 14. OPTIONS AND AUXILIARY EQU IPMENT (b) MR-JHSCBL M- L MR-JH SCBL M-H MR- ENCBL M-H These encoder cables are used wit h the HC-SFS HC-RFS HC-UFS2000 r/min series servo m otors . 1) Model explanation L H 2 5 10 20 30 2 (6.56) 5 (16.4) 10 (32.8) 20 (65.6) 30 (98.4) Symbol Specifications Standard flexing life Long flexing life Symbol Cable le[...]
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14 - 24 14. OPTIONS AND AUXILIARY EQU IPMENT MR-J HSCBL2M- L MR-J HSCBL5M- L MR-JHSCBL2M -H MR-JHSCBL5M -H MR-E NCBL2M-H MR-E NCBL5M-H MR-JHSCBL10M-L to MR-JHSCBL30M-L MR-JHSC BL10M-H to MR-JHSC BL50M-H MR-ENCB L10M-H to MR-ENCB L50M-H Servo am plifier side Enco der side (Note2) Use of A WG24 (Less than 1 0m(32.8ft)) Servo am plifier si de Encode r[...]
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14 - 25 14. OPTIONS AND AUXILIARY EQU IPMENT (3) Co mm un ica tion cabl e POINT This cable may not be used w ith some perso nal compu ters. After fully examining the signal s of the RS-232C conne ctor, refe r to this sectio n and fabricate the cable. (a) Model definition Model : MR-CPCATCBL3M Cable len g th 3[m] ( 10[ft] ) (b) Connection diagram Ha[...]
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14 - 26 14. OPTIONS AND AUXILIARY EQU IPMENT 14.1.5 Junc tion term inal block (MR-T B20) POINT When using the junct ion terminal block, you cannot use SG of CN1A-20 and CN1B-20 . Use SG of CN1A-4 and CN1B- 4. (1) H ow to use the ju nction t erminal block Always use t he junction terminal block (MR-TB20 ) with the junc tion term inal b lock cable (M[...]
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14 - 27 14. OPTIONS AND AUXILIARY EQU IPMENT (4) Ju nction t erminal block c able (MR-J 2TBL M) Model : MR-J 2TBL M Cable length[ m ( ft)] Symbol 05 1 0.5 (1.64) 1 (3.28 ) Junction terminal block side connector (Hirose Electric) HIF3B A-20D-2.54R (connecto r) Servo amplifier side (CN1A CN1B) connector (3M) 10 B1 0A 1 11 B2 1A 2 12 B3 2A 3 13 B4 3A [...]
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14 - 28 14. OPTIONS AND AUXILIARY EQU IPMENT 14.1.6 Main tenance junc tion car d (MR-J2CN3T M) (1) Usage The maint enance junction card (MR-J2CN3TM) is designed for us e when a personal computer and analog monit or are used at the same time. VDD CN3B CN3C CN3A CN3 EM1 PE SG A1 A2 A3 A4 B4 B3 B2 B1 B5 B6 A 5 A6 LG LG MO1 MO2 COM DI M BR EM GO Commun[...]
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14 - 29 14. OPTIONS AND AUXILIARY EQU IPMENT (3) Out line drawing 2- 5.3(0.21)(mounting hole) 3(0.12) 41.5(1.63) 7 5 ( 2 . 9 5 ) 88(3.47) 100(3.94) M R - J 2 C N 3 T M CN3A CN3B CN3 C A1 B1 A6 B6 TE1 [Un it: mm] ([Unit: in] ) Mass: 110 g( 0.24Ib ) (4) Bus cable (MR-J2HBUS M) 10120-6000EL (connector) 10320-3210-000 (shell kit) MR-J2HBUS0 5M MR-J2HBU[...]
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14 - 30 14. OPTIONS AND AUXILIARY EQU IPMENT 14.1.7 Ext ernal digital displa y (MR-DP6 0) The data equivalent to t he servo ampli fier status displa y can be dis played on the M R-DP60. W hen using the MR- DP60, se t " 1 4" in parameter No. 16. The it ems that appear at the time of power-on can be se lect ed in pa ram ete r No.18 . (1) S [...]
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14 - 31 14. OPTIONS AND AUXILIARY EQU IPMENT (4) Mounting Front mounting 2- 5 (0. 20) Square hole 141(5.55) 150(5.91) 53 (2.09) [Unit : mm (in )] Insid e moun ting 2- 5 (0.20) Square hole 95(3.74) 150(5.91) 20 ( 0.7 9 ) (5) Out line dimens ion dr awing 7.5 MITSUBISHI 7.5 150(5.91) 165(6.50) MR-DP60 TB1 TB2 29(1.14) 29(1.14) 58(2.28) 4 43(1.69) 38(1[...]
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14 - 32 14. OPTIONS AND AUXILIARY EQU IPMENT 14.1.8 M anual puls e generator (MR-HDP0 1) (1) S pecific ations Item S pecifications Voltage 4.5 to 13.2VDC Powe r supply Current consu mption 60mA max. Interf ace Outp ut curr ent ma x. 20mA for open coll ector output Pulse signal form A-phase and B-ph ase signals with 90°phase difference Pulse resolu[...]
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14 - 33 14. OPTIONS AND AUXILIARY EQU IPMENT (4) Mounting 7 2 ( 2 . 8 3 5 ) 6 2 ( 2 . 4 4 1 ) 3- 4.8(0.189) Panel cutting equally divided [Un it: mm(i n)] (5) Out line dimens ion dr awing 8.89 7.6(0.299) 12V 0V A B 5V t o MANUAL TYPE SERI ALNO . 50(1.969) 70(2.756) 3.6(0.142) 16 20 Packing t2 .0 [Un it: mm (in)] 3-M4 stud L10 P.C.D.72 equally divid[...]
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14 - 34 14. OPTIONS AND AUXILIARY EQU IPMENT 14.2 Auxil iary equipment Always u se the device s indicate d in th is sectio n or eq uivalen t. To comp ly with the EN S tandard or UL/C- UL (CSA) Standard, use the products which conform to the corresponding standard. 14.2.1 Recom mended wires (1) W ires for power supply wiring The followi ng diagram s[...]
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14 - 35 14. OPTIONS AND AUXILIARY EQU IPMENT Use wires 6) of the followi ng sizes with the power regeneration converter (FR-RC). Model Wires[mm 2 ] FR-RC-15K 14(AWG6) Table 14. 2 Recom mended cr i m ping term inals Servo am plifier side crim ping terminals Symbol Crim ping terminal A pplicable tool Manufac turer a 32959 47387 b EVD5.5-4 YNT -1210S [...]
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14 - 36 14. OPTIONS AND AUXILIARY EQU IPMENT 14.2.2 C ircuit break ers, f uses, magnetic contactors Always use one circuit breaker and one magnetic cont actor with one s ervo amplifier. When using a fus e instead of the circuit bre aker, use the one having the specif ications g iven in this section. Fuse Servo amplifi er Circuit break er Cl ass Cur[...]
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14 - 37 14. OPTIONS AND AUXILIARY EQU IPMENT Dime nsion s [ mm (in) ] Serv o amplif i er Model W W 1 H D D1 C Mount i ng screw si ze Termi nal screw si ze Mass [kg (l b)] MR-J2S -10CP (1)/2 0CP FR-B AL-0. 4K 135 (5 .31) 120 (4 .72) 115 (4.5 3) 59 (2. 32) 45 (1.77 ) 7. 5 (0.29) M4 M3.5 2. 0 (4.4) MR-J2S -40CP /20CP 1 FR-B AL-0. 75K 135 (5.3 1) 120 ([...]
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14 - 38 14. OPTIONS AND AUXILIARY EQU IPMENT 14.2.6 No ise reducti on techniq ues Noises are classi fied into external noises w hich enter the servo ampli fier to cause it to malfunction and those ra diated by the servo ampli fier to cause peripheral devices to malfuncti on. Since the servo ampl ifier is an e lectron ic device which h andles small [...]
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14 - 39 14. OPTIONS AND AUXILIARY EQU IPMENT (c) Techniques for noises radiated by the servo ampl ifier that cause peripheral devices to malfunction Noises produced by the servo amplifi er are classifi ed into those radiat ed from the cables connected to the servo amp lifier and it s main circuit s (input and output circu its), those induced electr[...]
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14 - 40 14. OPTIONS AND AUXILIARY EQU IPMENT Noise transm ission route Suppres sion techniques 1) 2) 3) When measuring instruments, receivers, se nsors, etc. which handle weak signals and may malfu nction d ue to noise a nd/o r th eir sign al cab les are contained in a control box together with the servo amplifier o r run near the servo amplifier, [...]
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14 - 41 14. OPTIONS AND AUXILIARY EQU IPMENT (b) Surge suppressor The recommended surge suppressor for i nstallation to an AC rel ay, AC valve, AC electroma gnetic brake or the li ke near the servo amplifier is shown b elow. Use this product or equivalent. Relay This distance should b e short (within 20cm(0.79 in. )). Surge suppressor MC Surge supp[...]
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14 - 42 14. OPTIONS AND AUXILIARY EQU IPMENT Outline drawing Earth plate Clamp section diagram (Note)M4 sc rew 1 1 ( 0 . 4 3 ) 3 ( 0 . 1 2 ) 6 ( 0 . 2 4 ) C A 6 22(0.87) 17.5(0.69) 35(1.38) 3 5 ( 1 . 3 8 ) L or less 10(0.39) 3 0 ( 1 . 1 8 ) 7 ( 0 . 2 8 ) 2 4 0 0 . 2 Note: Scre w hole for grounding. Connect it to the earth plate of the control box. [...]
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14 - 43 14. OPTIONS AND AUXILIARY EQU IPMENT (d) Line noise filter (FR-BLF, FR-BSF01) This fil ter is effecti ve in suppressi ng noises radia ted from the power suppl y side and output side of the servo ampli fier and also in suppressing high-frequency leaka ge current (zero-phase current) especi ally wi thin 0.5 MHz to 5M Hz band . Connection di a[...]
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14 - 44 14. OPTIONS AND AUXILIARY EQU IPMENT (f) Varistors for input power supply (Recommended) Varistors a re effective to prevent exogenous noise and li ghtning surge from entering the servo amplifier. When using a varis tor, connect it b etween each phase of t he input power suppl y of the equipme nt. Fo r varistors , the TND 20V-43 1K and TND 2[...]
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14 - 45 14. OPTIONS AND AUXILIARY EQU IPMENT 14.2.7 Leak age current break er (1) Se lectio n meth od High-frequency chopper currents controlled by pulse width modulation fl ow in the AC s ervo c ircuits. Leakage currents containing harmonic contents are la rger than thos e of the motor which is run with a commercial power supp ly. Select a leak ag[...]
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14 - 46 14. OPTIONS AND AUXILIARY EQU IPMENT (2) S electio n exam ple Indicate d below is an ex ample o f selec ting a le akage current bre aker un der the followin g condi tions. M Servo amplifier MR-J 2S-6 0CP HC-MFS73 2mm 2 5m(196.85inch) Ig1 Ig 2 Iga Igm NV 2mm 2 5m(196. 8 5inch) Use a leakage current breaker desi gned for suppre ssin g harmo n[...]
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14 - 47 14. OPTIONS AND AUXILIARY EQU IPMENT 14.2.8 EMC f ilter For compliance with the EMC Directive of the EN Standard, it is recommended to use the following filt er. Some EMC filters are la rge in leakage current. (1) Co m bi natio n wi th the se r v o ampli fier Recommended f ilter Servo a m plif ier Model Leakage current [mA] Mass [kg ]([lb ][...]
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14 - 48 14. OPTIONS AND AUXILIARY EQU IPMENT (3) Out line drawing (a) EMC filter 23.0(0.90 6) LABEL LINE LOAD 168.0(6 .614) L1' L2' L3' L1 L2 L3 149. 5(5.886) LINE (input s ide) LOAD (output s ide) 140.0(5 .512) 156.0(6 .142) 16.0(0.63 ) 42.0 8.5 SF125 2 LABEL LIN E LOAD 168.0(6 .614) L1' L2' L3' L1 L2 L3 209. 5(8.248)[...]
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14 - 49 14. OPTIONS AND AUXILIARY EQU IPMENT (b) Surge protector RAV -781BYZ -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 -781BXZ-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)[...]
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14 - 50 14. OPTIONS AND AUXILIARY EQU IPMENT 14.2.9 Sett ing potent iometer s for analog inputs The followi ng variable resis tors are availa ble for use with analog i nputs. (1) Sin gle -revol ution ty pe WA2WYA 2SEBK2K (Japan Resi stor make) Rated power Res istance Resist ance tolerance Dielect ric strength (for 1 minute) Insulation resistanc e M[...]
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15 - 1 15. COMMUNICATION FUNCTI ONS 15. COMMUNICATION FUNCTIONS This servo a mplifier has the RS-422 and RS-232C serial communication functions. Thes e functions can be used to perform servo operation, para meter changing, moni tor function, etc. However, the RS-42 2 and RS-232C communication functions cannot be us ed together. Select between RS- 4[...]
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15 - 2 15. COMMUNICA TION FUNCTIONS 15.1.2 R S-232C config uration (1) Outline A single axis of servo amplifier is operat ed. CHARGE MITSUBISHI RS-232C Controller such a s persona l computer Servo a mplifie r To CN3 (2) Ca ble conne ction di agram Wire as shown below. The communication cable for connection with the personal computer (MR- CPCA TCBL3[...]
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15 - 3 15. COMMUNICA TION FUNCTIONS 15.2 Comm unication specif ications 15.2.1 Com municatio n overvi ew This serv o amplif ier is design ed to send a reply on re ceipt of an ins truction. The de vice which giv es this instruc tion (e .g. person al compu ter) is c alled a master station and the devic e which sends a reply in respon se to the instru[...]
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15 - 4 15. COMMUNICA TION FUNCTIONS 15.2.2 Par ameter s etting When the RS -422/RS-232C communi cation function is used t o operate the s er vo, s et the communication specif ications of th e servo ampl ifier in the corre spond ing paramete rs. After setting t he values of thes e parameters, they are ma de valid by s witching power off once, then o[...]
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15 - 5 15. COMMUNICA TION FUNCTIONS 15.3 Protoc ol POINT Whether sta tion number sett ing will be made or not mus t be selected if the RS-232C co mmunication fu nction is used. N ote that choo sing "no station numbers" in parameter No. 57 will make the communication protocol free of s tation numbers . Since up to 32 axes m ay be co nnecte[...]
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15 - 6 15. COMMUNICA TION FUNCTIONS (3) R ecover y of com munic ation st atus b y time- out E O T Controller side (Ma ster sta tion) Servo side (Sla ve sta tion) EOT ca uses t he servo to return to the receive neutra l sta tu s. (4) Data frames The data length depends on the command. or Data 4 fr ame s Data 8 frames or 12 frames o r 16 frame s[...]
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15 - 7 15. COMMUNICA TION FUNCTIONS 15.4 Charact er codes (1) C ontrol co des Code name Hexadecimal (ASCII code) Descripti on Personal computer termin al key operation (General) SOH STX ETX EOT 01H 02H 03H 04H start of head start of tex t end of t ext end of transmi ssion ctrl A ctrl B ctrl C ctrl D (2) Codes for data ASCII codes are used. b 8 0 0 [...]
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15 - 8 15. COMMUNICA TION FUNCTIONS 15.5 Error codes Error codes are u sed in the following cases and an error code of single-code length is transmitted. On receipt of data from the master station, the slave station s ends the error code corresponding to that data to the maste r stat ion. The error code sent in upper case indic at es that the s erv[...]
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15 - 9 15. COMMUNICA TION FUNCTIONS 15.7 Tim e-out operat ion The master stat ion transmits EOT when the slave station does not start reply operat ion (STX is not receive d) 300[ms] after th e master s tation h as ended communicat ion oper ation. 10 0[ms] af ter that, the master st ation ret ransmits the me ssage. Time-out occurs if the s lave stat[...]
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15 - 10 15. COMMUNICA TION FUNCTIONS 15.9 Initia lization After the slave station i s switche d on, it cannot re ply to co mmunic ation un til the in ternal in itializ ation processing terminates. Hence, at power-on, ordinary communication should be st arted after. (1) 1s or more time has elapsed a fter the slave station is switched on; and (2) Mak[...]
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15 - 11 15. COMMUNICA TION FUNCTIONS 15.11 Comm and and dat a No. list POINT If the comma nd/data No. is the s ame, its data ma y be different fr om the interface an d drive un its and o ther servo amplif iers. 15.11.1 R ead comm ands (1) Sta tus dis pla y (Com mand [ 0][1]) Command Da ta No. Description Di splay item Frame length [0][1] [8][0] Cur[...]
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15 - 12 15. COMMUNICA TION FUNCTIONS (4) Al arm his tory (C ommand [ 3][3]) Command Data No. Descripti on Alarm occurrence seq uence Frame length [3][3] [1][0] Most recent alarm 4 [3][3] [1][1] First alarm in past 4 [3][3] [1][2] Second alarm in past 4 [3][3] [1][3] Third alarm in past 4 [3][3] [1][4] Fourth alarm in past 4 [3][3] [1][5] Alarm numb[...]
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15 - 13 15. COMMUNICA TION FUNCTIONS (6) Po int tab le/posi tion data (Comm and [4][ 0]) Command Data No. Descripti on Frame length [4][0] [0][1] to [1][F] Position da ta read The deci mal equ ivalent of th e data No. valu e (hex adecima l) correspond s to the Point tabl e No. 8 (7) Po int tab le/spee d data ( Comm and [5][0]) Command Data No. Desc[...]
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15 - 14 15. COMMUNICA TION FUNCTIONS 15.11.2 W rite comm ands (1) Sta tus dis pla y (Com mand [ 8][1]) Command Data No. Description Setting range Frame length [8][1] [0][0] Status disp lay data clear 1EA5 4 (2) Param eter (Comm and [8][4]) Command Data No. Description Setting range Frame length [8][4] [0][0] to [5][A] Each param eter write The deci[...]
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15 - 15 15. COMMUNICA TION FUNCTIONS (9) Po int tab le/dece lerat ion tim e constant (Comm and [C] [8]) Command Data No. Description Setting range Frame length [C][8] [0][1] to [1][F] Decele ration time constant write The deci mal equ ivalent of the data N o . valu e (hexadec imal) c o rr esponds t o the Po int table No. 0 to 20000 8 (10) Poi nt ta[...]
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15 - 16 15. COMMUNICA TION FUNCTIONS (14) Dat a for tes t operat ion m ode (Comm and [9][2] [A][0 ]) Command Data No. Description Setting range Frame length [9][2] [0][0] Input si gnal for test op eration Refer to section 15.12.7 8 [9][2] [A][0] Forced ou tput fr om signal pin Refer t o section 15.12.9 8 Command Data No. Descri ption Setting range [...]
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15 - 17 15. COMMUNICA TION FUNCTIONS 15.12 Detai led explan ations of commands 15.12.1 D ata process ing When th e maste r statio n transm its a com mand data No. or a comm and data No. d ata to a slave station, the servo amplifier returns a re ply or data according to the purpose. When numerical val ues are represent ed in thes e send data a nd re[...]
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15 - 18 15. COMMUNICA TION FUNCTIONS (2) Wr iting the proces sed data When th e data to be wri tten is h andled as decim al, the dec imal point po sition must be sp ecified. If it is not spe cified , the da ta canno t be writte n. Whe n the dat a is handle d as he xadec imal, spec ify "0 " as the decimal point position. The data to b e se[...]
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15 - 19 15. COMMUNICA TION FUNCTIONS 15.12.2 Stat us displa y (1) Stat us displa y data read When th e maste r stat ion tran smit s the dat a No. to th e slave s tation, the slave statio n send s back the data value and data processing information. (a) Transmission Trans mit comman d [0][ 1] and the data No . corre sponding to the status d ispla y [...]
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Page 327
15 - 20 15. COMMUNICA TION FUNCTIONS 15.12.3 Param eter (1) Parameter read Read the parame ter settin g. (a) Transmission Trans mit com mand [ 0][5] and the data N o. cor respon ding to the p aramete r No. Comm and Data N o. Data N o. definit ion [0][5] [0][0] to [5][A] Corres ponds to the parameter No. (b) Reply The slave station sends back the da[...]
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15 - 21 15. COMMUNICA TION FUNCTIONS (2) Parameter write POINT If setting value s need to be chang ed wi th a high frequency (i .e. one time or more per one hour), writ e the set ting values to the RAM, not the EEP- ROM. The EEP-ROM ha s a limita tion in the nu mber of write times an d excee ding this limitatio n causes the servo amp lifier to malf[...]
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Page 329
15 - 22 15. COMMUNICA TION FUNCTIONS 15.12.4 Ex ternal I/O s ignal status es (1) Re adin g of inpu t device statuse s Read the s tatuses of t he input devices. (a) Transmission Transmit command [1][2] and data No. [0][0]. Command Data No. [1][2] [0][0] (b) Reply The sla ve station s ends back the stat u ses of the i nput pins. b31 b0 0:OFF 1:O N b1[...]
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15 - 23 15. COMMUNICA TION FUNCTIONS (3) R ead of t he status es of input de vices s witche d on th rough c ommunic ation Read the ON/OFF status es of the input devices switched on through communication. (a) Transmission Transmit command [1][2] and data No. [6][0]. Command Data No. [1][2] [6][0] (b) Reply The sla ve station s ends back the stat u s[...]
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Page 331
15 - 24 15. COMMUNICA TION FUNCTIONS (5) R ead of the status es of output devices Read the ON/OFF status e s of the output devices. (a) Transmission Transmit command [1][2] and data No. [8][0]. Command Data No. [1][2] [8][0] (b) Reply The slave station sends back t he statuses of the output devices. b31 b0 0:OFF 1:ON b1 Command of each bit is trans[...]
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15 - 25 15. COMMUNICA TION FUNCTIONS 15.12.6 D isable/enabl e of I/O devices (DIO ) Inputs can be disabled independently of the I/ O devices ON/OFF. When inputs are disabled, the input signals (devices ) are recognized as follows. Among the input devices, EMG, LSP and LSN cannot be disabled. Si gnal St atus Input dev ices (DI) OFF Externa l analog [...]
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15 - 26 15. COMMUNICA TION FUNCTIONS 15.12.7 Inpu t devices ON/OFF (test operatio n) Each input devices can be turned on/off for test operation. when the device to be switched off exists in the exter nal inpu t signal , also swi tch off tha t input sig nal. Send command [9] [2], data No. [0] [0] and data. Command Data No. Set data [9][2] [0][0] See[...]
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15 - 27 15. COMMUNICA TION FUNCTIONS 15.12.8 T est operation m ode (1) I nstruct ions for test o perat ion m ode The test operation mode must be executed in the fo llo wing proced ure. If com munica tion is in terrupted for longer than 0.5s during test operation, the serv o amplif ier cau ses the moto r to be decele rated to a stop and servo-l ocke[...]
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15 - 28 15. COMMUNICA TION FUNCTIONS (2) Jo g oper ation Transmit the following communication commands. (a) Setting of jog operat ion data Item Comm and Data No. Data Speed [A][0] [1][0] Write the s peed [r/min] in hexa decimal. Accelerati on/deceleration time co nstant [A][0 ] [1][1] Write t he acc elerat ion/d ecelera tion t ime cons tant [ms] in[...]
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15 - 29 15. COMMUNICA TION FUNCTIONS (c) Start of positioning operation Transmit t he speed and acceleration/decelerati on time constant, turn on the servo-on (SON) and forward/reverse rotation stroke end (LSP LSN ) , and the n sen d the m oving distan ce to start posi tioning ope ratio n. After tha t, posi tioning o peratio n will st art eve ry ti[...]
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Page 337
15 - 30 15. COMMUNICA TION FUNCTIONS 15.12.9 Ou tput signal pin ON/O FF output si gnal (DO) f orced output In the test operation mode, the output signal pins can be turned on/off independently of the servo status. Using command [ 9][0], d isable the ou tput signal s in adv ance. (1) C hoosing DO force d output in test operati on mode Transmit comma[...]
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Page 338
15 - 31 15. COMMUNICA TION FUNCTIONS 15.12.10 A larm his tory (1) Alarm No. read Read the al arm No. which occurred in the past. The alarm numbers a nd occurrence times of No.0 (last alar m) to No .5 (si xth alarm in th e past) ar e read. (a) Transmission Send command [3][3] and data No. [1][0] to [1][5]. Re fer to section 15.11.1. (b) Reply The al[...]
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15 - 32 15. COMMUNICA TION FUNCTIONS 15.12.11 Cur rent alarm (1) C urrent alarm r ead Read th e alarm No . which is occurring curren tly. (a) Transmission Send command [0][2] and data No. [0][0]. Comm and Data N o. [0][2] [0][0] (b) Reply The slave station sends back the alarm currently occurring. 00 Alarm No. is transferred in decimal. For exa mpl[...]
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15 - 33 15. COMMUNICA TION FUNCTIONS 15.12.12 Point table (1) Data read (a) Position data Read the posi tion data of the point tabl e. 1) Transm issio n Transmit command [4][0] and a ny of data No. [0][1] to [1][F] corres ponding to the point t able to be read . Refer to sec tion 1 5.11.1. 2) Reply The slave stati on sends back the position data of[...]
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15 - 34 15. COMMUNICA TION FUNCTIONS (c) Acceleration time constant Read the acce leration time constan t of th e poin t table . 1) Transm issio n Transmit command [5][4] and a ny of data No. [0][1] to [1][F] corres ponding to the point t able to be read . Refer to sec tion 1 5.11.1. 2) Reply The slave stati on sends back the accelerati on time con[...]
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15 - 35 15. COMMUNICA TION FUNCTIONS (e) Dwell Read the dwell of the poi nt table. 1) Transm issio n Transmit command [6][0] and a ny of data No. [0][1] to [1][F] corres ponding to the point t able to be read . Refer to sec tion 1 5.11.1. 2) Reply The slave stati on sends back the dwell of the requested point table. 0 Hex adecimal data Displa y ty [...]
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15 - 36 15. COMMUNICA TION FUNCTIONS (2) Data write POINT If setting value s need to be chang ed wi th a high frequency (i .e. one time or more per one hour), writ e the set ting values to the RAM, not the EEP- ROM. The EEP-ROM ha s a limita tion in the nu mber of write times an d excee ding this limitatio n causes the servo amp lifier to malfu nct[...]
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15 - 37 15. COMMUNICA TION FUNCTIONS (c) Acceleration time constant Write the accel eration time constant of the poi nt table. Transmit command [C][7], any of data No. [0][1] to [1][F] corresponding to the point t able to be writte n to, and th e data. Re fer to sect ion 15.11. 2. Comm and Data No. Data [C][7] [0][1] to [0][F] S ee below. 0 Hexadec[...]
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15 - 38 15. COMMUNICA TION FUNCTIONS (e) Dwell Writ e the dwell of the point tabl e. Transmit command [C][A], any of data No. [0 ][1] to [1][F] corresponding to the point ta ble to be writte n to, and th e data. Re fer to sect ion 15.11. 2. Comm and Data No. Data [C][A] [0][1] to [0][F] See bel ow. 0 Hexadecimal data Write mode 0: EEP-ROM, RAM writ[...]
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15 - 39 15. COMMUNICA TION FUNCTIONS 15.12.13 Servo am plifier gr oup desig nation With g roup se tting m ade to the slave station s, dat a can be transm itted simul taneou sly to tw o or mor e slave stations set as a group through RS- 422 communication. (1) Gro up sett ing write Write t he group designation val ue to the s l ave s tation. (a) Tran[...]
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15 - 40 15. COMMUNICA TION FUNCTIONS 15.12.14 Sof tware v ersion Reads the software version of the s e rvo ampli fier. (a) Transmission Send command [0] [2] and data No. [7] [0]. Comm and Data No. [0][2] [7][0] (b) Reply The slave station returns the software ver sion requested. Software version (15 di gits) Space[...]
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App - 1 A PPENDIX App 1. Stat us indication bl ock diag ram Peak load rati o PWM M Current control Droop p ulse ABS counter Low High CMX CDV Electronic gear Bus volta ge ABS counte r Ser vo moto r Position control Absolut e position encoder Speed feedback Auto tuning section Current posi tion calculation Peak hold Effective valu e calculatio n Effe[...]
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App - 2 A PPENDI X App 2. Juncti on ter minal block ( MR-TB20) terminal block labels For CN1A 10 11 12 13 14 15 16 17 18 19 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 0 1 2 3 4 5 6 7 8 9 PG OPC COM PP LG NP P15R DOG SG NG ZP SD For CN1B 10 11 12 13 14 15 16 17 18 19 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 0 1 2 3 4 5 6 7 8 9 VDD CO[...]
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App - 3 A PPENDI X App 3. Co mbinati on of serv o amplifier and s ervo motor The servo amplifier software versions compatible with the servo motors are indi cated in the parenthese s. The servo amplifiers whose s oftware versions are not indicated can be used regardless of the versi ons. Serv o motor Servo amplifier (Software versi on) Servo m otor[...]
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App - 4 A PPENDI X Ap p 4. Change o f connector sets to the R oHS compatible products Connec tor sets (opti ons) in the fol lowing table ar e chan ged to t he RoH S compat ible pr oducts after Septem ber, 2006 s hipment. Pleas e accept tha t the current pr oducts m ight be mix ed with RoHS com patib le product s based on ava ilabil ity. Model Curre[...]
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REVISIONS *The manual numb er is given on the bottom left of the back cover. Print Data *M anual Number Revision Jan., 2002 SH(NA)030017-A First edition Oct., 2002 SH(NA)030017-B Addition of Note to th e envir onment condit ions in Saf ety Inst ructions 4 (1) Addition of "About proc essin g of wast e" Addition of "EEP-RO M life"[...]
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Print data *Manual num ber Revision Oct., 2002 SH(NA)030017-B Section 15.10: Figur e change Section 15.12. 3 (2): POINT addition Mar., 2004 SH(NA)030017-C Safety Instruct ions: Ov erall r eexamination Section 1. 1.1: Par tial figu re reex aminati on Section 1. 5: Note addit ion Section 1. 7 (3): Note addition Section 1. 7 (4): Note addition Sectio [...]
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Print data *Manual num ber Revision Mar., 2004 SH(NA)030017-C Section 14.1.9: POINT addit ion Section 1 4.2.8 (3): P artial f igure reexa m inat ion Section 14.2.6 (2) (d): Partial figure cha nge Section 14.2.6 (2) (e): Partial figure chan ge Section 14.2.8: Partial figu re change Appendix: Addition Mar., 2005 SH(NA)030017-D COMPLI ANCE WITH EC DIR[...]
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Print data *Manual num ber Revision Mar., 2005 SH(NA)030017-D Section 14. 1. 1 (5) (c): Par tial chang ing of figur e Section 1 4. 1. 2 (2): N ote reex amination Section 1 4. 1. 3 (2): N ote reex amination Section 1 4. 1. 4 (1): S entence reexaminat ion (2) S entence reex aminati on Sectio n 14. 1. 9: Corre ction of words in POI NT Section 14. 2. 3[...]
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Print data *Manual num ber Revision Jul., 2006 SH(NA )030017-F Section 7. 2.3: Correc tion of d escription for command p o sit ion Section 8. 3.1 (1) (a): Add ition of parameter in Tab le Section 8.4 (2): Correction of descri ption for Step 5 Sectio n 11.2.2: Correcti on of name for Al . 17 Section 11.2.3: Correcti on of descriptio n for Al. 90 Sec[...]
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General-Purpose AC Servo J2-Super Series SH (NA) 030017-G (0709) MEE Printed in Japan Specifications subject to change without notice. This Instruction Manual uses recycled paper. MODEL MR-J2S- CP SERVO AMPLIFIER INSTRUCTION MANUAL Built-In Positioning Function MR-J2S- CP Servo Amplifier Instruction Manual MODEL MODEL CODE J2-Super Series G G HEAD [...]