Mitsubishi FR-A5AP manuel d'utilisation
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Un bon manuel d’utilisation
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Qu'est ce que le manuel d’utilisation?
Le mot vient du latin "Instructio", à savoir organiser. Ainsi, le manuel d’utilisation Mitsubishi FR-A5AP décrit les étapes de la procédure. Le but du manuel d’utilisation est d’instruire, de faciliter le démarrage, l'utilisation de l'équipement ou l'exécution des actions spécifiques. Le manuel d’utilisation est une collection d'informations sur l'objet/service, une indice.
Malheureusement, peu d'utilisateurs prennent le temps de lire le manuel d’utilisation, et un bon manuel permet non seulement d’apprendre à connaître un certain nombre de fonctionnalités supplémentaires du dispositif acheté, mais aussi éviter la majorité des défaillances.
Donc, ce qui devrait contenir le manuel parfait?
Tout d'abord, le manuel d’utilisation Mitsubishi FR-A5AP devrait contenir:
- informations sur les caractéristiques techniques du dispositif Mitsubishi FR-A5AP
- nom du fabricant et année de fabrication Mitsubishi FR-A5AP
- instructions d'utilisation, de réglage et d’entretien de l'équipement Mitsubishi FR-A5AP
- signes de sécurité et attestations confirmant la conformité avec les normes pertinentes
Pourquoi nous ne lisons pas les manuels d’utilisation?
Habituellement, cela est dû au manque de temps et de certitude quant à la fonctionnalité spécifique de l'équipement acheté. Malheureusement, la connexion et le démarrage Mitsubishi FR-A5AP ne suffisent pas. Le manuel d’utilisation contient un certain nombre de lignes directrices concernant les fonctionnalités spécifiques, la sécurité, les méthodes d'entretien (même les moyens qui doivent être utilisés), les défauts possibles Mitsubishi FR-A5AP et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service Mitsubishi en l'absence de l'efficacité des solutions proposées. Actuellement, les manuels d’utilisation sous la forme d'animations intéressantes et de vidéos pédagogiques qui sont meilleurs que la brochure, sont très populaires. Ce type de manuel permet à l'utilisateur de voir toute la vidéo d'instruction sans sauter les spécifications et les descriptions techniques compliquées Mitsubishi FR-A5AP, comme c’est le cas pour la version papier.
Pourquoi lire le manuel d’utilisation?
Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif Mitsubishi FR-A5AP, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.
Après un achat réussi de l’équipement/dispositif, prenez un moment pour vous familiariser avec toutes les parties du manuel d'utilisation Mitsubishi FR-A5AP. À l'heure actuelle, ils sont soigneusement préparés et traduits pour qu'ils soient non seulement compréhensibles pour les utilisateurs, mais pour qu’ils remplissent leur fonction de base de l'information et d’aide.
Table des matières du manuel d’utilisation
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Page 1
1 INSTRUCTION MANUAL ORIENTA TION CONTROL/PLG FEEDBA CK CONTROL/PULSE TRA IN UNIT FR-A5AP TYPE FR-A 5AP EIBUN TORISETSU CODE 1A 2H59 IB (NA) 66848-A (9803) M EE[...]
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Page 2
2 Thank you for choosing the M itsubishi transistorized inverter option unit. This instruction manual gives handling information and precautions for use of this product. Incorrect handling might cause an unexpected fault. Before using the equipment, please read this manual carefully to use it to its optimum. Please forward this manual to the end us[...]
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Page 3
3 SAFETY INSTRUCTIONS 1. Electric Shock Prevention WA RNING W hile power is on or when the inverter is running, do not open the front cover. You may get an electric shock. Do not run the inverter with the front cov er removed. Otherwise, you may access the exposed high-voltage terminals and charging part and get an electric shock. If po[...]
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Page 4
4 3. Additional instructions Also note the following points to prevent an accidental failure, injury , electric shock, etc.: (1) Transportation and installation CA UTION Do not install or operate the option unit if it is damaged or has parts missing. Do not stand or rest heavy objects on the product. Check that the mounting orientation [...]
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Page 5
5 CA UTION W hen parameter clear or all parameter clear is performed, each parameter returns to the factory setting. Re-set the required parameters before starting operation. For prevention of damage due to static electricity , touch nearby metal before touching this product to eliminate static electricity from y our body. (4) Maintenance, [...]
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Page 6
6 1 PRE-OPERA TION INSTRUCTIONS 8 1.1 Unpacking and Pr oduct Confirmation 8 1.2 Packing Confir mation 8 1.3 Structure 9 2 INSTA LLA TION 10 2.1 Pre-Install ation Instructions 10 2.2 Installation Procedur e 10 2.3 W iring 11 3 ORIENTA TION CONTROL 12 3.1 W iring Ex ample 12 3.2 Input Circui t 13 3.3 Terminals 14 3.4 W iring Instructi ons 17 3.5 Rela[...]
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Page 7
7 5 PULSE TRA IN INPUT 55 5.1 W iring Ex ample 55 5.2 Terminals 55 5.3 Adjustment 56 5.4 Parameter Defini tion 56 5.5 Setting Ex ample 57 5.6 Specifications 58[...]
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Page 8
8 PRE-OPERATION INSTRUCTI ONS 1. PRE-OPERA T ION INSTRUCT IONS 1.1. Unpacking and Product Confirmation Take the option unit out of the package, check the unit name, and confirm that the product is as you ordered and intact. Note: This product may be used with the inv erter manufactured during and after February, 1998. The inverter may be used with [...]
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Page 9
9 1.3. Structu re FR-A5 AP PIN PO 5V PA2 PAR PB1 PB2 PBR PC1 PC2 PC R SG PA1 Mountin g hole T erminal block screw size M3 Termi nal s y mbol Front view Terminal re sistor j umpers Mountin g hole s Option fixin g holes Rear vi ew Connector Mountin g hole[...]
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Page 10
10 I.ISTALLATION 2.INSTA LLA TION 2.1. Pre-Installatio n Instruction s (1) Make sure that the input power of the inv erter is off and make sure the charge light is off. (2) W hen the FR-A5AP unit is used for PLG feedback control or orientation control, a PLG (motor with P LG) and external power supply are required. W hen PLG feedback control and or[...]
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Page 11
11 2.3. Wiring Route the cables so that they do not take up a large space in the control circuit terminal block wiring area of the option unit. W ire the twisted pair shielded cable after stripping its sheath to make its cables loose. Also, protect the shield cable of the twisted pair shielded cable to ensure that it will not make contact with the [...]
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Page 12
12 3. ORIENTA TION CONT ROL This function is used with a position detector (PLG) installed to the spindle of a machine tool (or the motor) to allow a rotary shaft to be stopped at the specified position (oriented). Pr. 350 "stop position command selection" is factory-set to "9999" to make the orientation control function inv ali[...]
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Page 13
13 Note: 1. W hen the motor with a PLG used is other than the standard motor with PLG (SF-JR), the pin numbers are different. To reduce radiated noise, connect the shield wires of the PLG cables to the CG. 2. W hen orientation control is used with PLG feedback control, the PLG and 5V power supply may be shared between these controls. 3. Couple the [...]
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Page 14
14 3.3. T erminals Symbo l Term inal Rem arks Description PA1 PLG A-phase signal input term inal PA2 PLG A-phase inverse signal input term inal PB1 PLG B-phase signal input term inal PB2 PLG B-phase inverse signal input term inal For inform ation on t he pulse signals, refer t o page 11. A-, B- and C(Z)-phase signals are input from the PLG PC1 PLG [...]
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Page 15
15 <Inverter I/O terminals> Symbol Term inal Rem arks Description X22 (Note 1) Orientat ion comm and input term inal Used to enter an orientation signal. SD Com m on term inal Com m on term inal f or the orientation signal. ORA (Note 2) In-position signal output term inal Open collector output. Perm issible load 24VDC, 0.1A Switched low if t [...]
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Page 16
16 <FR-A 5A X, i nverter input termi nals> Symbol Terminal Remarks Descripti on X0 to X11 Digital signal input term inals Used to input digital signals t hrough eit her relays or open collector transistors. As the com mand signals are ent ered, speed or position com m ands are selected using Pr. 360. FR- A5AX input term inal s DY Data rea[...]
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Page 17
17 3.4. Wiring In structions (1) Connection with the position detector (PLG). Use twisted pair shielded cables (0.2mm 2 or larger) to connect the FR-A5AP and position detector (PLG). Cables to terminals 5V and SG should be connected in parallel or be larger in size according to the cable length table as indicated below. To protect the cables from n[...]
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Page 18
18 3) Connection with NC. (Or similar device) W hen one position detector is shared between the FR-A5AP and NC (or another device), its output signals should be connected as shown below. In this case, the cable length between the FR-A5AP and NC should be as short as possible, within 5m. NC FR-A5AP PLG Inv erter Max . 5m ( 2 parallel cables ) Positi[...]
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Page 19
19 (4) Position detector (PLG). Line driver LED ty pe PLG A. A signal 1000ppr to 4096ppr B. B signal 1000ppr to 4096ppr C(Z).C(Z) signal 1ppr Output pulse specifications P ab c d 2. 4 to 5. 25V H 1000ppr to 4 096pp r 1000ppr to 4096p p r 1000ppr to 4096p p r 1000ppr to 4096p p r 1ppr 1ppr A A B B C C L 0 to 0. 4V a, b, c and d should be (1/4 1/[...]
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Page 20
20 3.5. Related Parameter L ist Parameter Number Name Setting Range Minimum Setting Increments Factory Setting Remarks 350 Stop position com m and sele ction 0, 1, 9999 1 9999 9999: No orientation 351 Orientation speed 0 to 30Hz 0.01Hz 2Hz 352 Creep speed 0 to 10Hz 0.01Hz 0.5Hz 353 Creep select pos ition 0 to 16383 (Note) 1 511 354 Position loop se[...]
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Page 21
21 3.6. Pre-Op eration Settings (1) Pr. 350 "stop position command selection". For the stop position command, either the internal stop position command or the external stop position command using external signals (12-bit data) may be selected. Set "9999" in Pr. 350 to make orientation control invalid. Pr. 350 Setting Des[...]
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Page 22
22 (4) Pr. 356 "internal stop position command". Set "0" in Pr. 350 "stop position command selection" to choose the internal position command mode. In the internal position command mode, the value set in Pr. 356 is processed as the stop position command. W hen the PLG pulse count is 1024ppr, one revolution of the PLG ([...]
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Page 23
23 [Example 1] 4 stop pos itions 180 ( 2 ) 90 ( 1 ) CW Ori g in ( 0 ) 270 ( 3 or mo re ) Pr. 360 = "3" [Example 2] 8 stop pos itions 315 ( 6 ) 270 ( 5 ) 225 45 ( 1 ) 135 ( 3 ) 180 ( 4 ) 90 ( 2 ) Ori g in ( 0 ) ( 7 or more ) Pr. 360 = "7" [Example 3] 120 stop po sition s 270 ( H5A ) 180[...]
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Page 24
24 (7) Pr. 363 "in-position signal output delay time". W hen the motor shaft enters the in-position zone, the in-position signal is output after a delay of the time set in Pr. 363. Also, when the motor shaft comes out of the in-position zone, the in-position signal is switched off after a delay of the time set in Pr. 363. (8) Pr. 364 &quo[...]
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Page 25
25 3.7. Operatio n (1) Orientation starting during rotation. 1) The orientation command (X22) causes the motor to decelerate to the orientation speed set in P r. 351. 2) After the orientation speed is reached, the motor decelerates to the creep speed set in Pr. 352 as soon as the current position signal reaches the creep select position set in Pr. [...]
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Page 26
26 9) The in-position signal (ORA) and orientation fault signal (ORM ) are not output if the orientation command is off. CAUTION If the orientation command is switched off with the start signal on, the motor accelerates to the command speed. Orientation speed Creep selection Creep sp eed Ori g in Orientation DC d y namic brakin g start position Pos[...]
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Page 27
27 (2) Orientation starting during stop. Switch on the orientation command (X 22), then switch on the start signal to start and accelerate the motor to the orientation speed set in Pr. 351 and perform orientation using the same procedure as in Section (1). Note that if the current position signal is within the DC dynamic braking start position, the[...]
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Page 28
28 (3) Multi-position orientation. Orientation starting w ith orientation command and STF/STR kept on (Orientation starting in the servo-in state) DY Spindle speed ( PLG ) Sta rt si g nal Orientation command Position si g nal Orientation speed Creep speed Se rvo tor q ue 200ms or lon g er Position comma nd latch Position comma nd latch In -posit io[...]
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Page 29
29 (4) Pr. 358 "servo torque selection" Pr. 358 Setting Function 01234567891 0 1 1 1 2 1 3 Remarks 1) Selection of servo torque funct ion unt il out put of in- position signal X OOOOX OX OX OX X OO : S e r v o t o r q u e f u n c t i o n v a l i d X:Ser vo tor que f unct ion invalid 2 ) R e t r y f u n c t i o n s e l e c t i o n XXXXXXXO[...]
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Page 30
30 1) Selection of servo torque function until the in-position signal is output. Set Pr. 358 "serv o torque selection" to determine whether servo torque is required or not. W hen the current position signal is between the orientation stop position and DC dynamic braking start position, serv o torque is not generated. The shaft is held by [...]
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Page 31
31 (5) Pr. 362 "position loop gain" W hen Pr. 358 "servo torque selection" value has been set to choose the serv o torque function, the output frequency prov ided to generate servo torque rises gradually up to the creep speed set in Pr. 352 according to the inclination set in Pr. 362 "position loop gain". Increasing th[...]
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Page 32
32 3.8. Instructio ns (1) The PLG should be coupled with the motor shaft or the spindle oriented with a speed ratio of 1 to 1 without any mechanical looseness. (2) The DC dynamic brake operated for positioning must be released in the shortest time (within sev eral seconds). Operating the brake continuously can cause the motor to generate heat and b[...]
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Page 33
33 3.9. Specificatio ns Stop position accuracy 1.5 degrees Note: Depends on the load torque, load GD 2 , orientat ion speed, creep speed, position loop select position, et c. Perm issible rot ation speed PLG-m ounted shaf t speed (6000r/m in) Note: The mot or and PLG-m ounted shaft m ust be coupled direct ly or via a belt without any slip. A ge[...]
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Page 34
34 I.PLG FEEDBACK CONTROL 4. PLG FEEDBA CK CONTROL This function is used with a speed detector (PLG) to allow the motor speed to be detected by the speed detector and fed back to the inverter so that the output frequency of the inverter is controlled to keep the motor speed constant to load variations. Pr. 367 "speed feedback range" is fa[...]
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Page 35
35 Note: 1. W hen the motor with PLG used is other than the standard motor with P LG (SF-JR), the pin numbers are different. To reduce radiation noise, connect the shield wires of the PLG cables to the case earth pin. 2. W hen PLG feedback control is used with orientation control, the PLG and 5V power supply may be shared between these controls. 3.[...]
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Page 36
36 4.3. T erminals Symbol Terminal Remarks Descripti on PA1 PLG A-phase signal input term inal PA2 PLG A-phase inverse signal input term inal PB1 PLG B-phase signal input term inal PB2 PLG B-phase inverse signal input term inal For inf orm ation on t he pulse signals, refer t o page 30. A and B-phase signals are input f r om the PLG. PAR A-phase te[...]
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Page 37
37 4.4. Wiring In structions (1) Connection with the speed detector (PLG). Use twisted pair shielded cables (0.2mm 2 or larger) to connect the FR-A5AP and speed detector (PLG). Cables to terminals 5V and SG should be connected in parallel or be larger in size according to the cable length table as indicated below. To protect the cables from noise, [...]
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Page 38
38 (4) Speed detector (PLG) Line driver LED ty pe PLG A. A signal 1000ppr to 4096ppr B. B signal 1000ppr to 4096ppr Output pulse specifications P abc d 2. 4 to 5.2V ( Hi g h ) A A B B 0 to 0.4V ( Low ) a, b, c and d should be (1/4 1/8)P when rotation is clockwise as v iewed from the shaft end of the PLG. <Example of P LG available on the mar[...]
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Page 39
39 4.5. Related Parameter L ist Control Mode Parameter Number Name Setting Range Minimum Setting Increments Factory Setting PLG feedback control Vector control 22 Torque lim it level (Stall prevention operation level) (Note 1) 0 to 200%, 9999 0.1% 150% (Note 3) 29 Acceleration/dec eleration pattern 0, 1, 2, 3, 4 1 0 ( Note 4) (Note [...]
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Page 40
40 4.6. Pre-Op eration Settings (1) Pr. 144 "number of motor poles (PLG)". The either of the following motors may be used. Set the number of motor poles according to the motor used: Standard motor (with PLG) : SF-JR 0.2kW to 55kW Constant-torque motor (with PLG) : SF-JRCA 0.4kW to 55kW Note: 1. For vector control, this parameter v[...]
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Page 41
41 4.7. Cont rol Mode Setti ng By setting the P r. 370 "control mode selection" value, you can choose any of PLG feedback control (V /F control, advanced magnetic flux vector control) and vector control. Torque control and position control are not performed. (However, torque limit can be done in the v ector control mode.) W hen holding to[...]
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Page 42
42 4.8. PLG Feedback Con trol Make sure that P r. 80 "motor capacity", Pr. 81 "number of motor poles", Pr. 144 "number of motor poles", Pr. 369 "number of PLG pulses", Pr. 359 "PLG rotation direction" and Pr. 370 "control mode" v alues are set properly. (Refer to Section 4.6 "Pre-Oper[...]
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Page 43
43 (2) Pr. 368 "feedback gain". This parameter is valid when PLG feedback control is v alid. Set if rotation is instable or response is slow. W hen the setting is greater than 1, response is faster but overcurrent or rotational instability is more liable to occur. W hen the setting is less than 1, response is slower but rotation is more s[...]
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Page 44
44 9) Set Pr. 285 "ov erspeed detection frequency" to prevent misoperation caused if an accurate signal cannot be detected from the PLG. This shuts off the output and gives an inv erter alarm (E.MB 1) when; (detection frequency) - (output frequency ) > Pr. 285. 4.9. Vector co ntrol Vector control can be performed using the standard mot[...]
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Page 45
45 <Zero speed control and servo lock timing charts> 1) Zero speed control or servo lock is made v alid when the auxiliary exciting terminal (LX ) is ON without the start signal (STF, STR) being entered into the inverter (during a stop). Assign the function of the aux iliary exciting terminal (LX) to any of the terminals using Pr. 180 to Pr. [...]
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Page 46
46 3) Zero speed control or servo lock is made v alid when the frequency command is not more than the DC dynamic brake frequency during deceleration of the inverter. The position at the DC dynamic brake operation frequency is held. OFF OFF OFF LX STF ( STR ) Output fre q uenc y Zero sp eed contr ol or servo lo ck DC d y namic bra ke operation fre q[...]
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Page 47
47 (2) Pr. 22 "torque limit level" Torque limit may be activ ated only when vector control is selected. The second and third functions are Pr. 48 "second torque limit level" and Pr. 144 "third torque limit lev el". W hen vector control is not selected, the stall prevention functions are activ ated. Use the same paramet[...]
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Page 48
48 Torque Characteristic of the Standard M otor with PLG (Example: SF-JR S tandard Motor with PLG (4 poles)) With Referen ce to 1800r/min (60Hz) Torqu e Cy cl i c operation mode setting [When th e inverter used has a cap aci ty on e rank high er than that of the motor and the ra ted voltage is input] Continuous operation mode setting [ When th [...]
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Page 49
49 (4) Pr. 372 "speed control P gain". Used to set the proportional gain of the speed loop. A high setting will make the speed response faster but if the setting is too high this will cause vibrations and noise. (5) Pr. 373 "speed control I gain". Used to set the integral gain of the speed loop. A high setting will shorten resto[...]
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Page 50
50 10) In the vector control mode, the carrier frequency is as follows: Pr. 72 Setting Carrier Freq u ency V/F con trol, ad vanced magnetic flu x vector control Vector cont ro l 0 0.7kHz 1 1kHz 2 2kHz Approximately 1kHz 3 3kHz 4 4kHz 5 5kHz Approximately 3kHz 6 6kHz 7 7kHz 8 8kHz 9 9kHz 10 10kHz 11 11kHz 12 12kHz 13 13kHz 14 14kHz 15 14.5kHz Approx[...]
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Page 51
51 4.10 . A ddit i onal Functions (1) Pr. 162 "selection of automatic restart after instantaneous power failure selection". By setting "2" in P r. 162, automatic restart after instantaneous power failure can be made at the frequency detected from the PLG. In the vector control mode, automatic restart is made with the P LG detect[...]
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Page 52
52 (3) Pr. 374 "overspeed detection lev el". Used to limit the maximum speed. (0 to 400Hz) Any speed higher than the speed set in P r. 374 is judged as overspeed and the corresponding signal is output. If overspeed is detected, the inv erter will not come to an alarm stop. Sp eed ( r/min ) OFF ON Pr.374 Speed se t in Pr. 374 Overspee d de[...]
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Page 53
53 (5) S-shaped acceleration/deceleration C W hen the FR-A5AP is fitted, S-shaped acceleration/deceleration C can be selected by setting "4" in Pr. 29 "acceleration/deceleration pattern". The S-shaped acceleration/deceleration C function allows the speeds of S- shaped acceleration/deceleration to be set in the corresponding para[...]
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Page 54
54 4.11. Specificatio ns Speed variation ratio 0. 02% of the m aximum speed (3600r/m in) in vector control m ode (load variation 0 to 100% at 6Hz or m ore). (Note 1) Speed control range 1:1000 in vector control m ode. Functions Speed f eedback range setting. Feedback gain setting. PLG rotation direct ion set ting. DC power supply A [...]
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Page 55
55 5. Wiring Ex ample I. PULSE TRAIN INPUT A pulse train signal can be used to enter the speed setting of the inverter. Pr. 384 is factory set to "0" to make this function inv alid. 5.1. Wiring Examp le NFB IM PC PIN PO SD FR-A5AP R ( L1 ) S ( L2 ) T ( L3 ) U V W NFB IM PC PIN PO SD FR-A5AP R ( L1 ) S ( L2 ) T ( L3 ) U V W Power suppl y I[...]
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Page 56
56 5.3. A djustment ( 60Hz ) 0 Pr. 386 Pr. 385 Output frequen cy Bias Factor y settin g Maximum num ber of pulses Inpu t pul ses ( PPS ) Gain Note: Max imum number of input pulses: 100kpps Note: Number of input pulses are multiplied by 2 internally 5.4. Parameter Definitio n Parameter No. Name Setting Range M inimum Increments Factory Setting 384 ([...]
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Page 57
57 5.5. Setting Ex ample W hen the frequency is set to 0 to 60Hz at the input pulse frequency setting of 0 to 50kpps. NFB IM FR- A5A P Hz 0 60 50kpps 0 to 50kpps 0 to 60Hz Power suppl y Fre q uenc y settin g potentiomet er e. g . pul se g enerator Inverter Motor Preset freque ncy Input pulse fr e q uen c y R ( L1 ) S ( L2 ) T ( L3 ) U V W 1) From t[...]
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Page 58
Input example (Pr. 386 = 400Hz) Inpu t Pul se Frequency Division Rati o (Pr. 384) Maximum Numb er of Inpu t Pulses * 1 Minimum Detectab le Freque ncy * 2 0 (factory setting) Pulse input invalid 20 8kpps 1.5Hz 50 20kpps 1.0Hz 100 40kpps 0.5Hz 120 48kpps 0.5Hz 200 80kpps 0.5Hz 250 100kpps 0.5Hz Ho w to calcula te the inp ut pulse freque ncy di[...]