Instruction/ maintenance manual of the product FR-S500 Mitsubishi
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TRANSIST ORIZED INV ER TER FR-S 500 INSTR U CTION MANU AL (D etailed) FUNC TIONS Chapter 2 HEAD OFFICE:MITSUBISHI DENKI BLDG M AR UNOUCHI TOKY O 100-8310 WIRING Chapter 1 PR O TECTIVE FUNC TIONS Chapter 3 SPECIFICA TIONS Chapter 4 FR-S 500E -NA TRANSIST ORIZED INVER TER INSTRU C TION MANU AL (Detailed) A SIMPLE INVER TER FR-S520E-0.
A-1 1. Elec tric Sh ock Pr eventio n Thank you for choosing this Mit subishi T ransistorized inverter . This instruction manual (detail ed) provides instructions for advanced use of the FR- S500 series inverters. Incorrect handling might cause an unexpected fault.
A-2 2. Fire P revent ion 3. Injur y Preven tion 4. Additional Instructions Also note the following point s to prev ent an accidental failure, injury , electric shock, etc. (1) T r ansport atio n and installation CAUTION Mount the invert er on an incom bustible s urface.
A-3 (2) Wirin g (3) T rial run (4) Operatio n CAUTION Do not fit capaciti v e equipment such as power factor c orrection capacitor , radio noise filter (option FR-BIF(-H)) or surge suppressor to the output of the inverter .
A-4 (5) Emergency stop (6) Maintenance, in spection and par ts replacement (7) Disposing of the inverter (8) General inst ructions CAUTION The electronic thermal relay function does not guarantee protec tion of the motor from overheating. Do not use a magnetic cont actor on the inverter input for frequent starting/stopping of the inverter .
I CONTENTS CONTENTS 1. WIRING 1 1.1 Standar d connecti on diagram and termi nal specifications ..2 1.1.1 Standa rd connectio n diagram ......... ................ ................. ................. ............ 2 1.1.2 Expla nation of mai n circuit te rminals .
II 1.5.4 Start s elf-holdin g selection (STOP signal ): Pr. 60 to Pr. 63 s etting "5 " ....... 34 1.5.5 Outp ut shut-off (MRS signal): Pr. 60 to Pr . 63 settin g "6" ...... ................. .... 34 1.5.6 Extern al thermal rel ay input: Pr.
III CONTENTS 2.3.1 8 Biase s and gains of the frequ ency se tting voltag e (current) (Pr. 38 , Pr. 39 , C2 to C7 ). ................. ................. ................. ................. .... 82 2.3.1 9 Start-tim e ground fault detec tion selec tion (Pr.
IV 2.12.1 Mainten ance output f unction (H1 , H2 ) ...... ................. ................. ............. 122 2.12.2 Current average v alue mon itor signa l (H3, H4, H 5) .... .... .... ..... .. 123 2. 13 Cal ibra tio n pa ram eter s .... .... .....
V CONTENTS 3.2.1 1 Motor produces an noying soun d ..... ................ ................. ................. ........ 168 4. SPECIFICATIONS 169 4.1 Spec ifi cati on lis t ...... .... .... ..... .... .. ..... .... ..... .... ..... .... .... ..... ....
1 Cha pt e r 2 Cha pt e r 3 Cha pt e r 4 Cha pt e r 1 1. WIRING This chapter explains the basic "wiring" for use o f this product. Always read the instructions before use. For description of "inst allation", refer to the instruction manual (basic ) .
2 S tan dard co nnectio n diagr am and t erminal specif icatio ns 1.1 S t andard connection diagram and termin al specifi cations 1.1.1 S tandard connection di agram Three-phase 200V power input Three-phase 400V power input REMARKS *1. The N/- te rminal is not pro v ided f or the FR-S52 0E-0.
3 S tan dard c onnectio n diagr am and t ermina l specif icatio ns 1 WIRING Single-phase 100V power input 1.1.2 Ex planation of main circui t termina ls (1) Main circ uit REMARKS • T o ensure sa.
4 S tan dard co nnectio n diagr am and t erminal specif icatio ns (2) Control ci rcuit Symbol T ermina l Na me Definition Input sign als Cont act input STF Forward rota tion st art T ur n on the STF sign al to st art f orwar d rot atio n and turn it off to stop.
5 S tan dard c onnectio n diagr am and t ermina l specif icatio ns 1 WIRING *1. Do not co nnect termina ls SD and PC each ot her or to the groun d. For si nk l ogic ( fact ory set tin g), ter minal SD ac ts as t he commo n term inal of cont act input .
6 Main circuit terminals 1.2 Mai n circuit termi nals 1.2. 1 T erminal block layout 1) T hree- phase 200V pow er input • FR-S520 E-0. 1K, 0.2 K-NA • FR-S520E-1.5K, 2.2K, 3.7K-NA • FR-S520 E-0. 4K, 0.7 5K-NA 2) T hree- phase 400V pow er input • FR-S540E-0.
7 Main circu it terminals 1 WIRING 3) S ing le-phase 100V power input • FR-S510WE-0.1K, 0.2K, 0.4K-NA • FR-S510WE-0.75K-NA CAUTION • Make sure the po wer cables ar e connected to the R/L1, S/L2, T/L3 of the inve r ter . Never con nect the power ca ble to the U, V , W of the inverter .
8 Main circuit terminals 1.2.2 Cable s, wiring length, and crimping terminals The following t able indicates a selection example for the wiring length of 20m (65.62 feet). 1) Three-phase 200V power input 2) Three-phase 400V power input 3) Single-phas e 100V power input Wiring length 100m (328.
9 Main circu it terminals 1 WIRING 1.2 .3 Wir in g in str uct ions 1) Use insulation-sleeved crimping terminal s for the power supply and motor cables. 2) Appli cation of power to the output terminal s (U, V , W) of the inverter will damage the inverter .
10 Main circuit terminals 1.2. 4 Selecti on of peripheral devices Check the cap ac ity of the motor applic able to the inverter y ou purchased. Appropriate peripheral devices must be selec ted ac cording to the cap acity .
11 1 WIRING Main circu it terminals 3) Single-phase 100V power input *2. For inst allat ions in the United S tates or Canada , the circ uit breaker m ust be inv erse time o r insta ntaneo us trip type. *3. The pow er facto r may be slightly lower . *4.
12 Main circuit terminals 1.2.5 Lea kage current and install ation of ground leakage circuit break er Due to st atic capacit anc es existing in the inverter I/O wiring and motor , leakage currents flow through them. Since th eir values depend on the s tati c capacitanc es , carrier frequency , etc.
13 Main circu it terminals 1 WIRING (2) Line-t o-line leakage curre nt s Countermeasures • Use the electronic thermal relay fun c tion of the inv er ter . • Decrease the carrier frequency . Note that motor noise increases. Selection of Soft-PWM (Pr .
14 Main circuit terminals (3) Selec ting the rated sensiti vity current for the ear th leakage circui t breaker When using the earth leakage circuit breaker with the inverter circuit, select its rated.
15 Main circu it terminals 1 WIRING CAUTION • The ground leakage circuit breaker should be inst alled to the primary (power supply) side of th e inverter . • In the conn ection neutral point grounded system, th e sensitivity current becomes worse for ground fau lt s on th e inverter secondary side.
16 Main circuit terminals 1.2.6 Power-of f and magnetic contac tor (M C) (1) Invert er input s ide magnetic co nt actor (MC) On the inverter's input side, it is recommended to provide an MC for the following purposes.
17 Main circu it terminals 1 WIRING 1.2.7 Regar ding the installation of the power factor improving reactor When the i nv erter is ins talled near a large-cap acity power transformer (500kV A or more with the wiring length of 10m ( 32.
18 Main circuit terminals 1.2.8 Rega rding noise and the insta llation of a noise filter Some noise enters the inverter c ausing it to malfunction and others are gener ated by the inverter causing the malfunction of peripheral devices.
19 Main circu it terminals 1 WIRING 1.2.9 Grounding precautions Leakage currents flow in the inv erter. T o prevent an electric shock, the inverter and motor must be grounded. Grounding must conform to the requirements of national and local safety regulat ions and electrical codes.
20 Main circuit terminals 1.2. 10 Powe r supply harmonics The inverter may generate power supply harmoni cs from its converter circuit to af fect the power generator , power capacitor etc. Power s upply harmonics are different from noise and leakage currents in sourc e, frequency band and transmission path.
21 Main circu it terminals 1 WIRING 1.2.1 1 Inverter- driven 400V cl ass motor In the PWM type inverter , a surge voltage attributable to wiring const ants is generated at the motor terminals . Especially for a 400V class motor , the surge volt age may deteriorate the insu lation.
22 How to u se the co ntrol circuit termi nals 1.3 How to use the control circ u it termi n als 1.3. 1 T erminal block layout In the control circuit of the inverter , the terminals are arranged as shown below: 1.3 .2 Wir in g in stru cti ons 1) T erminals, SE and 5 are common to the I/O signals isolated from each other .
23 How to use the control circuit terminals 1 WIRING 1.3.3 Changing the c ont rol logic The input signals are set to sink logic. T o change the control logic, the jumper connector under the setting dial must be moved to the other position. Chang e the jum per connec tor pos iti on usin g twe ezer s, a pair of long -nose pl iers etc .
24 How to u se the co ntrol circuit termi nals 2) Source logic ty pe • In this logic, a signal switches on w hen a current flows i nto the corresponding signal input terminal. T erminal PC is common to the contact input si gnals. For the open collector output signals, terminal SE is a positive external power supply terminal.
25 Input terminals 1 WIRING 1.4 Input terminal s 1.4.1 Run (start) and s t op (STF , STR, STOP) T o start and stop the moto r , first switch on the input power supply of the inverter (switch on the ma.
26 Inpu t terminal s *1: Also stopped by the . Refer to page 105. (2) Three-wir e type connect ion (STF , STR, STOP) A three-wire type connection is shown on the right. Assign the st art self-holding signal (STO P) to any of the input terminals. T o make a reverse rotation s tart, set Pr .
27 Input terminals 1 WIRING St art/Stop Timing Chart (fo r two -wire type) Forward-Reverse Rot at ion Switch- Over T iming Chart REMARKS *1. The "startin g freq uency " in Pr . 13 (fa ctory- set to 0.5Hz) may be se t betw een 0 and 60Hz. *2.
28 Inpu t terminal s 1.4.2 Connection of fre q uency se t ting potentiometer a nd output fre q uency meter (10, 2, 5, 4, AU) The analog frequency setting input signals that may be entered are voltage and current signals.
29 Input terminals 1 WIRING (2) Current input (4, 5, AU) T o automatically perform operation under cons tant pressure or temperature control using a fan, pump etc ., enter the controll er output signal of 4 to 20mADC across terminals 4-5. T erminals AU-SD must be shorted to use the 4 to 20mADC signal for operation.
30 Inpu t terminal s *When using the REX signal, an external command cannot be used to make a reverse rotation start. Multi-Speed Operatio n Connectio n Example Multi-Speed Setting Spe e d T ermina l Input Parameter Set Fr equency Range Remarks REX- SD* RH- SD RM- SD RL- SD* Sp e e d 1 (high speed) OFF OFF O FF Pr .
31 Input terminals 1 WIRING 1.4.4 Indicator conne ction and adjustment (AM) A full-scale 5VDC analog s ignal can be output from across terminals AM- 5. The analog output level can be calibrated by the operation panel or parameter unit (FR-PU04). T er minal AM function selecti on c an be set in Pr .
32 Inpu t terminal s 1.4.5 Control cir cuit common terminals (SD, 5, SE) T erminals SD, 5, and SE are all common ter minals (0V) for I/O signals and are isolated from each other . T erminal SD is a common terminal for the cont act input terminals (STF , STR, RH, RM, RL).
33 How t o us e the input s ignal s (a ssign ed ter minal s RL, RM, RH, STR) 1 WIRING 1.5 How to use the input signals (assigned terminals RL, RM, RH, STR) 1.5.1 Multi - spee d setting (RL, RM, RH, REX signals): Pr . 60 to Pr . 63 setting "0, 1, 2, 8" Remote setti ng (RL, RM, RH s ignals ): Pr .
34 How to use th e inpu t sign als (a ssign ed ter minals RL, RM, RH, STR) 1.5.4 S tart self-holding selection (ST OP signal): Pr . 60 to Pr . 63 setting "5" 1.
35 How t o us e the input s ignal s (a ssign ed ter minal s RL, RM, RH, STR) 1 WIRING 1.5.6 Ex t ernal thermal relay input: Pr . 60 to P r . 63 settin g "7" 1.
36 How to use th e input signa ls (assig ned ter min als RL, RM, RH, STR) 1.5. 8 Reset si gn al: Pr. 60 to Pr . 6 3 setting "10" Used to reset the alarm stop s tate e stablished when the in verter 's protective function is activated. The reset signal immediately se ts the control circuit to the ini tial (cold) st atus , e.
37 How t o us e the input s ignal s (a ssign ed ter minal s RL, RM, RH, STR) 1 WIRING 1.5.9 PID c ontrol valid t erminal: Pr . 60 to Pr . 63 setting "14" T o exercise PID control, turn on the X14 signal. When this signal is off, ordinary inverter operation is performed.
38 Connection to the Stand-Alone Option 1.6 Connection to the St and-Alone Option The inverter accepts a v ariety of st and-alone option units as required. Incorrect connectio n will cause inverter damage or acc ident. Connec t and operate the option unit caref ully in accordance with the corresponding option unit manual.
39 Conne ction to the S tand-Al one Option 1 WIRING 1.6.2 Connection of the high power factor converter (FR-HC) When c onnec ting the high power factor conv erter (FR-HC) to s uppress power supply harmonics, perform wiring se c urely as shown bel ow .
40 Connection to the Stand-Alone Option 1.6.3 Connection of the p ower r e generation c ommon converte r (FR-CV) When connecting the FR-C V type power regeneration common converter , connect the inverter terminals (P, N) and FR-CV type power regeneration c ommon converter terminals as shown below so that their signals m atc h with each other .
41 Handling of the RS-485 connector 1 WIRING 1.7 Handlin g of the RS-485 connector 1.7.1 Connection of the param eter unit (FR-PU04) When connecting the parameter unit to the RS-485 connector , use the optional parameter unit connecti on c able (FR-CB2 ) .
42 Handling of the RS-485 connector 1.7.2 Wi ring of RS-485 communication Use the RS-485 connector to perform communication operation from a personal computer etc.
43 Handling of the RS-485 connector 1 WIRING (2) Combination of computer an d multiple inver ters (1: n connection) REMARKS Refe r to the f ollow ing when f abri catin g the ca ble on th e user si de.
44 Handling of the RS-485 connector <Wiri ng methods> 1) Wiring of one RS-485 computer and one inverter 2) Wiring of one RS-485 computer and "n" inverters (several inverters) REMARKS *1. Make co nnect ion in a ccor dance with th e inst ructi on manu al of the com puter to be u sed with .
45 Design information 1 WIRING 1.8 Desi gn information 1) Provide electrical and mechanic al interlocks for MC1 and MC2 w hich are used for commercial power supply-inverter switc hov er .
46 MEMO.
47 Cha pt e r 2 Cha pt e r 3 Cha pt e r 4 Cha pt e r 1 2. FUNCTIONS This chapter explains the "functions" for use of this product. For simple variable-speed operation of the inverter , the factory s ettings of the parameters may be us ed as they are.
48 Function (Parame ter) list Para me ter List 2.1 Function (Parameter) list *1. T he fac tory sett ing va ries wi th the i nver ter c apacity: 5% for FR-S 540E- 1.5K and 2 .2K, 4% for FR -S540E -3.7K. CAUTION indicates that the setting can be changed during operation if Pr .
49 Function (Parameter) list 2 FUNCTIONS Paramet er List The extended function parameters are made valid by setting "1" in P r . 30 "extended function display selection". (For more det ailed information on the way to set Pr . 30, refer to the instruction manual (basic).
50 Function (Parame ter) list Para me ter List S tandard op erati on funct ions 24 Multi-s peed setti ng (spe ed 4) 0 to 12 0Hz, - - - 0.1Hz - - - 66 25 Multi-s peed setti ng (spe ed 5) 0 to 12 0Hz, - - - 0.1Hz - - - 66 26 Multi-s peed setti ng (spe ed 6) 0 to 12 0Hz, - - - 0.
51 Function (Parameter) list 2 FUNCTIONS Paramet er List Outp ut term inal funct ions 41 Up-to- freq uency sensi tiv ity 0 to 10 0% 1% 10% 86 42 Output freq uency detec tion 0 to 120Hz 0.1Hz 6Hz 8 7 43 Output freq uency detec tio n for rever se rotati on 0 to 12 0Hz, - - - 0.
52 Function (Parame ter) list Para me ter List Displa y function s 52 Oper ation panel displ ay data se lect ion 0: Outpu t freque ncy , 1: Ou tput c urrent, 100:Set freq uency dur ing stop /outpu t f.
53 Function (Parameter) list 2 FUNCTIONS Paramet er List T ermin al fu ncti on s elect ion 60 RL termi nal funct ion selec tio n 0: RL, 1: RM, 2: RH, 3: RT , 4: AU, 5: STOP , 6: MRS, 7: OH, 8: REX, 9: JOG , 10: RE S, 14: X14, 16: X1 6, - - - : STR ( The STR sig nal can be assi gned to t he STR ter minal only .
54 Function (Parame ter) list Para me ter List Oper ati on se lecti on functions 70 So ft-PW M setti ng Prese nce/absence of Sof t-PWM control c an be sele cted. When Soft-PWM is valid, the m et allic tone of mot or noise can be chang ed into unof fending compo site tone.
55 Function (Parameter) list 2 FUNCTIONS Paramet er List Operat ion s election fu nction s 75 Reset selec tion/ PU stop s electi on 0: Reset nor mally enabl ed/PU st op key di sabled 1: Enabled at ala.
56 Function (Parame ter) list Para me ter List Multi-sp ee d operatio n functi on 84 Multi-s peed setti ng (spe ed 12) 0 to 12 0Hz, - - - 0.1Hz - - - 66 85 Multi-s peed setti ng (spe ed 13) 0 to 12 0Hz, - - - 0.1Hz - - - 66 86 Multi-s peed setti ng (spe ed 14) 0 to 12 0Hz, - - - 0.
57 Function (Parameter) list 2 FUNCTIONS Paramet er List Maintenance p ar ameters Additional p arameters Parameter for manufacturer setting Func- tion Parame- ters Indi- catio n Name Setting Range Min.
58 Function (Parame ter) list Para me ter List Calibration parameters * Factory settings may dif fer because of calibration p arameters. Func- tion Parame- ters Indi- catio n Name Setting Ra nge Minim.
59 Function (Parameter) list 2 FUNCTIONS Paramet er List Communication Pa r ameters Func tion Parame- ter Indi ca- tion Name Settin g Range Minimu m Setting Incre- ments Facto ry Settin g Refer To : Cus- tomer Setti ng Communicatio n Parameters n1 ( 331) Commun ication statio n number 0 to 31: S peci fy the s tation number of th e inver ter .
60 Function (Parame ter) list Para me ter List PU parameters When the p arameter unit (FR-PU04) is used, operation from the operation p anel is not accepted.
61 List of pa rameters classifie d by purpose of use 2 FUNCTIONS 2.2 List of p aram eters classified by pu rpose of use Set the p arameters according to the operating conditi ons. The following list i ndicates purpose of use and corresponding parameters.
62 List of parameters classified b y purpose o f use Related to monit o rin g Fre quenc y meter calibr ation Pr . 54, Pr . 55, Pr . 56, cali brat ion p aram eter C 1 Dis play of mon itor on o perat ion panel or parame ter un it (FR-P U04) Pr . 52, Comm unicat ion parameter n16 Disp lay of speed , etc.
63 Explanati on of fun ctions (param eters) 2 FUNCTIONS 2.3 E xp lanation of f unctions (p arameters) 2.3.1 T orque boost (Pr . 0 , Pr . 46 ) <Setting> • Assuming that the base frequency volt age is 100%, set the 0Hz voltage in %. Use the R T signal to s witch between two dif ferent torque boosts.
64 Explanation of functi ons (parameters) 2.3. 2 Maximum a nd minimum frequenc y (Pr . 1 , Pr . 2 ) <Setti ng> • Use Pr . 1 to set the upper limit of the output frequenc y . If the frequency of the frequency command enter ed is higher than the setting, the output frequency is clamped at the maximum frequency .
65 Explanati on of fun ctions (param eters) 2 FUNCTIONS 2.3.3 Base fr equency , base frequency volt age (Pr .3 , Pr .19 , Pr .47 ) *1. 1 .9 ti mes gre ater than the powe r supply v oltage for the FR- S510W E-0. 1K to 0.75 K. *2 . T wic e greate r than the pow er supp ly volt age fo r the FR -S510WE- 0.
66 Explanation of functi ons (parameters) 2.3.4 Multi-speed operation (Pr . 4 , Pr . 5 , Pr . 6 , Pr . 24 to Pr . 27 , Pr . 80 to P r . 87 ) <Setti ng> • Set the running frequencies in the c orr esponding parameters. Each speed (frequency) can be set as desired between 0 and 120Hz during inverter operation.
67 Explanati on of fun ctions (param eters) 2 FUNCTIONS 2 . 3. 5 Accelerat ion/deceleration time (Pr . 7 , Pr . 8 , Pr . 20 , Pr . 44 , Pr . 45 ) CAUTION 1. The multi-speed settings o verride the main sp eeds (across terminals 2-5, 4- 5, setting dial).
68 Explanation of functi ons (parameters) <Setti ng> • Use Pr . 7 and Pr . 44 to set the accelerati on time required to reach the frequency set in Pr . 20 from 0Hz. • Use Pr . 8 and Pr . 45 to set the dec elerati on time required to reach 0Hz from the frequency set in Pr .
69 Explanati on of fun ctions (param eters) 2 FUNCTIONS 2.3 .6 Selecti on and protection of a motor ( Pr . 9 , Pr . 71 , H7 ) • The parameter nu mber i n parentheses is the one fo r use with t he parameter uni t (FR-PU0 4). <Setting> • Refer to the followi ng list an d set Pr .
70 Explanation of functi ons (parameters) REMARKS • When running tw o motor s with one inv ert er , you c an set the electr onic therm al re lay fun ctio n of e ach invert er . CAUTION Set this para m eter correctly according to the m otor used. Incorrect setting may cause the motor to overheat and burn.
71 Explanati on of fun ctions (param eters) 2 FUNCTIONS 2.3.7 DC injec tion brake (Pr . 10 , Pr . 1 1 , Pr . 12 ) * The fac tory setting va ries acc ording to the inve rter capacity . (Refer to the follo wing table fo r details.) <Setting> • Use Pr .
72 Explanation of functi ons (parameters) 2.3.8 S tarting frequency (Pr . 13 ) The starting frequency at which the st art signal is turned on can be set in the range 0 to 60Hz. Paramet er Name Factory Sett ing Sett ing Range Remarks 13 S tart ing freq uency 0.
73 Explanati on of fun ctions (param eters) 2 FUNCTIONS 2.3.9 Load pattern se lection (Pr . 14 ) Y ou can select the optimum output c haracteristic (V/F characteris tic ) for the application and load charac teristics.
74 Explanation of functi ons (parameters) 2.3.10 Jog operation (Pr .15 , Pr .16 ) Set the frequency and acceleration/deceleration time for jog operation.
75 Explanati on of fun ctions (param eters) 2 FUNCTIONS 2 .3 . 1 2 S t all preven t ion function and c urrent limit function (Pr . 21 ) Y ou c an make setting to prev ent stall caused by overcurre nt .
76 Explanation of functi ons (parameters) CAUTION • If the load is heavy , th e lif t is pred etermined, o r the acceleration/deceleration time is short, the stall prevention may be activated and t he motor no t stopped in the preset acceleration/deceleration time.
77 Explanati on of fun ctions (param eters) 2 FUNCTIONS 2.3.1 3 S tall preve ntion (Pr . 22 , Pr . 23 , Pr . 2 8 ) <Setting> • Generally , set 150% (factory s etting) in Pr . 22 "stal l prevention operation level". Setting "0" in Pr .
78 Explanation of functi ons (parameters) to Refer to to (page 66 ) REMARKS When the hi gh resp onse c urre nt lim it is se t in Pr . 21 "s tal l prev enti on func tion se lecti on" (factor y setting ), do not set any val ue abo ve 170% i n Pr .
79 Explanati on of fun ctions (param eters) 2 FUNCTIONS 2.3.14 Acceleration/decel e ration pattern (Pr . 29 ) <Setting> Set the acceleration/deceleration p attern. Para m eter N a m e F actor y Sett ing Sett ing Range Remarks 29 Acceler ation/ deceler ation patter n 0 0, 1 , 2 Setting is enab led when Pr .
80 Explanation of functi ons (parameters) 2.3.15 Extended function disp lay selection (Pr . 30 ) 2.3. 16 Frequency jump ( Pr . 31 to P r . 36 ) <Setti ng> Used to display the extended function p arameters. Refer to page 48 for the extended func tion parameter list.
81 Explanati on of fun ctions (param eters) 2 FUNCTIONS 2.3 .17 Sp eed d ispl ay (P r . 3 7 ) <Setting> • T o display the machine speed, set in Pr .
82 Explanation of functi ons (parameters) 2.3. 18 Biases and ga ins of the fr equency sett ing voltage (current ) (Pr . 38 , Pr . 39 , C2 to C7 ) *1. Fact ory setting s may differ be caus e of cali brat ion para meter s. *2. The para meter numb er in parent hese s is th e one for use wi th the paramete r unit (FR-P U04).
83 Explanati on of fun ctions (param eters) 2 FUNCTIONS <Setting> (1) How to change the highest frequency (2) Adjusting th e deviation of the highest frequency from the Pr .
84 Explanation of functi ons (parameters) (2) Adjusting a deviat ion of the highest frequency from the Pr . 38 (Pr . 39) set t ing. (2)- 1 Making a djustment wi th a volt age applied dire ctly across .
85 Explanati on of fun ctions (param eters) 2 FUNCTIONS (2) - 2 Mak ing ad justment at any poin t with a volt age not applie d across ter minals 2- 5 (without a curr ent fl owing acros s terminals 4-5.
86 Output terminal function param eters 2.3.19 S tart-time g round faul t detection selection (Pr . 40 ) 2.4 Out p ut terminal function p arameters 2.4.1 Up-to-f requency (Pr . 41 ) Use Pr . 64 or Pr . 65 (output terminal function selection) to assign the terminal used for SU signal output.
87 Output terminal functio n parameters 2 FUNCTIONS 2.4.2 Output frequency detection (Pr . 42 , Pr . 43 ) <Setting> Refer to the above chart and set the corresponding parameters. • When Pr . 43 "output frequency detection for reverse rotation" ≠ "- - -", the Pr .
88 Cur rent detec tion fu nction pa rameters 2.5 Current detection function p aram eters 2.5.1 Outp ut current detection f unctions (Pr . 48 , Pr . 49 ) <Setti ng> Use Pr . 64 or Pr . 65 (output terminal function selection) to assign the terminal used for Y12 signal output.
89 Cur rent detec tion fu nction pa rameters 2 FUNCTIONS 2.5.2 Zero current detection (Pr . 50 , Pr . 51 ) <Setting> Use Pr . 64 or Pr . 65 (output terminal func tion selection) to assign the term i nal used for Y13 signal output. When the inverter's output current falls to "0[A]", torque will not be generated.
90 Display functi on parameters 2.6 Display function p arameters 2.6. 1 Monitor display (Pr . 52 , Pr . 54 ) <Setti ng> When "100" is set in Pr . 52, the monitored values during stop and during operation differ as indic ated bel ow . Y ou can choose the display of the operation panel "monitor/frequency setting screen".
91 Disp lay funct ion param eters 2 FUNCTIONS 2.6.2 Setting dial function selection (Pr . 53 ) Using the setti ng dial like a poten tio meter to perform operation Refer to (pag e 90).
92 Restart operation parameters 2.6. 3 Monitoring refer ence (Pr . 55 , Pr . 56 ) <Setti ng> Refer to the a bove d iag rams a nd s et t he freq uenc y moni tor ing r efer ence va lue in Pr . 55 and the current moni toring reference value in Pr .
93 Restart operation parameters 2 FUNCTIONS <Setting> Refer to the following table and set the parameters: Par ameter S etti ng Descri ption 57 0 0.1K to 1. 5K Co asting t ime of 0.5 s Gen erally , this setting w ill pose no pr oblem s. 2.2K , 3.
94 Restart operation parameters REMARKS • When the start si gnal is turne d off duri ng powe r fail ure and power i s rest ored Wi thout speed sea rch (H6=1): Dece lerat es to stop af ter run ning in th e same dire ctio n before power f ailure. Note that the motor will coast if the st art si gnal is tu rned o f f duri ng res tart opera tio n.
95 Addit ional fu nction par ameters 2 FUNCTIONS 2.8 Addition al function p arameters 2.8.1 Remote setting function sele ction (Pr . 59 ) * External running fr equency (other than multi-speed) or PU r.
96 Addit ional funct ion param eters <Setti ng> • Use Pr . 59 to select whether the remote setting function is used or not and whether the frequency setting storage function* in the remote s etting mode is used or not.
97 Addit ional fu nction par ameters 2 FUNCTIONS <Frequenc y setting stor age conditions > • The frequency at which the start signal (STF or STR) turns off is stored. • The remotely-set frequency is stored every one minute after one minute has elapsed since turn of f (on) of both the RH (acceleration) and RM (dec el eration) signals.
98 T ermin al funct ion sel e cti on param eters 2.9 T ermi n al fun ction selec tion p arameter s 2.9.1 Input terminal function s election (Pr . 60 , Pr . 61 , Pr . 62 , Pr . 63 ) CAUTION • The frequency can be varied by RH (acceleration) and RM (deceleration) between 0 and the m aximum frequen cy (Pr .
99 Termi nal function s election p arameters 2 FUNCTIONS <Setting> Refer to the following table and set the parameters: *1.W hen Pr . 59 = "1 or 2" , the functions of the RL, RM and RH signals change as listed above. *2.A c tuated when the relay contact "opens".
100 T ermin al funct ion sel e cti on param eters 2. 9 . 2 Outpu t terminal function selec tion (Pr . 64 , Pr . 65 ) <Setti ng> Y ou can change the functions of the open collector output terminal and cont act output terminal.
101 Oper ation select ion funct ion paramete rs 2 FUNCTIONS 2.10 Operati on selection function p arameters 2 . 1 0 . 1 Retry function (Pr . 66 , Pr . 67 , Pr . 68 , Pr . 69 ) <Setting> • Use Pr . 66 to s elect the protective functions (major faults) to be activated for retries.
102 Operation selection function param eters CAUTION • The cumu lative number in Pr . 69 is incremented by "1" when retry op eration is regarded as successfu l, i.e. when no rmal operation is continued without the protective fun ction (major f ault) acti vated during a p eriod four times longer than the time set in Pr .
103 Oper ation select ion funct ion paramete rs 2 FUNCTIONS 2.10 .2 PWM ca rrier frequency ( Pr . 70 , Pr . 72 ) <Setting> • By p ar ameter setting, you c an s et whether to ex ercise Sof t- PWM c ontr ol that changes the motor tone.
104 Operation selection function param eters 2.10.3 V oltage input selection (P r . 73 ) Y ou c an change th e input (terminal 2 ) specifi cations ac cording to the frequ ency setting voltage signal. Whe n entering 0 to 10VDC , always make thi s setting.
105 Oper ation select ion funct ion paramete rs 2 FUNCTIONS 2.10.4 Input filter time constant (Pr . 74 ) <Setting> Increase the filter ti me constant if steady operation cannot be performed due to noise. A larger setting result s in slower response.
106 Operation selection function param eters (1) How to make a rest art af ter a stop by the input from the operati on p anel (Rest artin g method with shown) (2) How to make a rest art when a stop is.
107 Oper ation select ion funct ion paramete rs 2 FUNCTIONS 2.10.6 Cooling fan operation selection (Pr . 76 ) <Setting> CAUTION Do not reset the inverter w ith the st art sign al on. Otherwise, the motor wi ll st art inst ant ly af ter resetting, leading to potentially ha zardous conditions.
108 Operation selection function param eters 2.10 .7 Paramet er write disable selection (Pr . 77 ) <Setti ng> Y ou can select between write-enable and disable for parameters. This fu nc tion is used to prevent parameter values from being rewritten by incorrect operation.
109 Oper ation select ion funct ion paramete rs 2 FUNCTIONS 2.10 .8 Reverse rotation preven tion selection (P r . 78 ) <Setting> 2.10 .9 Operation mode selec tion (Pr . 79 ) This function can prevent reverse rot ation faults resulting from the in correct input of the start signal.
11 0 Operation selection function param eters <Setti ng> In the following table, operation using the op er ation panel or parameter unit is abbreviated to PU operation. Pr . 79 Setting Function LED I ndicati on * RUN PU EXT 0 At powe r on, the inver ter is put i n the extern al oper ation m ode.
111 Oper ation select ion funct ion paramete rs 2 FUNCTIONS (1) PU operati on interl ock PU operation interlock forces the operation mode to be chan ged to the external operation mode when the MRS signal switches off.
11 2 Operation selection function param eters (2) Operation mode switching by exter nal signal 1) Preparation Set "8" (switching to other than external operation mode) in Pr . 79 . Use any of Pr . 60 to Pr . 63 ( input terminal function selection) to s et the terminal used for X16 signal input.
11 3 Oper ation select ion funct ion paramete rs 2 FUNCTIONS 2.10 .10 PID control ( Pr . 88 to Pr . 94 ) <Setting> (1) Basic PI D cont rol configurat ion (2) PID action overvi ew The inverter can be used to exercise process control, e.g. flow rate, air volume or pressure.
11 4 Operation selection function param eters 2) P D action A combination of proportional control action (P) and differential control action (D) for providing a manipulated variable in response to dev iation speed to improve the transient characteristic.
11 5 Oper ation select ion funct ion paramete rs 2 FUNCTIONS Relationship s b etween deviation and ma nipulated variable ( output frequency) (3) Wiring ex ample 5) Forward action Increases the manipul.
11 6 Operation selection function param eters (4) I/O s ign als • Enter the set point across inverter terminals 2-5 or in Pr . 93 and enter the measured value signal across inverter terminals 4-5. • T o exercise PID control, turn on the X14 signal.
11 7 Oper ation select ion funct ion paramete rs 2 FUNCTIONS (6) Adjustm ent procedure 91 PID upper lim it 0 t o 10 0% Set th e upper limit . If the f eedba ck valu e exce eds th e sett ing, th e FUP signa l is outp ut. ( Meas ured value of 4mA is eq uiva lent to 0 % and 20 mA to 100 %.
11 8 Operation selection function param eters (7) Calibra tion exampl e (A detector of 4mA at 0°C (32°F) and 20mA at 50°C ( 122°F) is used to adj ust the room temperature to 25°C (77°F) under PID control. The set point is gi ven to across inverter terminals 2-5 (0-5V).
11 9 Oper ation select ion funct ion paramete rs 2 FUNCTIONS <Set point input calibration> 1. Apply the input volta ge of 0% set point setting (e.
120 Auxiliary parameters 2.1 1 Auxiliary p arameters 2.1 1.1 Slip compe nsation (Pr . 95 , Pr . 96 , Pr . 97 ) <Setti ng> *When this value is made smaller , response will be faster . However , as load inertia is greater , a regenerative overvoltag e (O VT) error is more liable to occur .
121 Auxiliary parameters 2 FUNCTIONS 2.1 1 .2 Automatic torque boo st se lection (Pr . 98 ) <Operat i ng conditi ons> • The number of motor poles should be any of 2, 4 and 6 poles. • Single-motor operation (One motor for one inver ter) • The wiring length from inverter to motor s hould be within 30m (98.
122 Maintenance parameters 2.1 1.3 Motor primar y resist ance (Pr . 99 ) 2.12 Maintenance p ar ameters 2.12.1 Maintenance output function (H1 , H2 ) The parameter numbers in parentheses are those for use with the parameter unit (FR- PU04). <Setti ng> Generally this parameter need not be set.
123 Maintenance parameters 2 FUNCTIONS 1) H1 (Pr . 503) "maintenance timer" • The cumulative energization time of the inverter is stored i nto the E 2 PROM every hour and indicated in 1000h increments . ( Cannot be written.) • The maintenance timer is clamped at 999 (999000h).
124 Maintenance parameters <Pulse operation> The output pulse of the Y93 signal is shown below . <Setting> Perform setting according to the following steps.
125 Maintenance parameters 2 FUNCTIONS 4) Output of maintenance timer value (maintenance parameter H1) After the output current average value is output as low pul se shape, the maintenance timer value is output as high pulse shape. The output time of the maintenance timer value is obtai ned from the fol lowing calculation.
126 Cal ibration pa rameter s 2.13 Calibrati on p aramet ers 2.13.1 Meter (frequency meter) calibration (C1 ) The parameter number in parentheses is the one for us e with the parameter unit (FR- PU04). The AM terminal is factory-set to provide 5VDC output in the full-scale status of each monitor item.
127 Calibration parameters 2 FUNCTIONS Changing example Deflecting the meter ( analog indicator) to full-s cale (5V) at the preset frequency of 60Hz (for frequency setting, refer to the instruction manual (basic).
128 Cal ibration pa rameter s to Refer to , ( page 82). POINT By setting the Pr . 54 "A M terminal function selection" value, preset Pr . 55 "fr equency monitoring reference" or Pr . 56 "current monitoring refer ence" to the running frequency or current value at which the output signal is 5V .
129 Clear parameters 2 FUNCTIONS 2.14 Clear p arameters 2.14.1 Paramete r clear (CLr ) *1.P ar ameters are not cl eared by setting "1" in Pr . 77 "p arameter write di sable selec tion". Pr . 75, Pr . 38, Pr . 39, Pr . 53, Pr . 60 to Pr .
130 Communication parameters 2.15 Communicati on p arameters (1) Operationa l functions 1) Operation mode switching [Operation mode switching method] *1. * When "1" is set in the communication p arameter n10 "link st artup mode selection", the inverter is placed in the compute r link operation mode at power on or inverter reset.
131 2 FUNCTIONS Communication parameters 2) Operation mode-based functions *1. As set in the co mmun icati on paramet ers n8 "op erati on comman d sourc e" and n9 "sp eed comm and sou rce". (refer to page 147 ) *2. A t occurrence of RS -485 communi cation error , the inverter c annot be res et from the computer .
132 Communication parameters 2.15.1 Communication settings (n1 to n7 , n1 1 ) Communication-related parameters • The parameter numbers within p arentheses are those for use of the p ara meter unit (FR-PU04). • Refer to page 180 for the instruction codes.
133 Communication parameters 2 FUNCTIONS <Setting> T o make communication between the per sonal computer and inverter , i nitialization of the communication s pec ifications mus t be made to the inverter . If initial setting i s not made or there is a setting fault, data transfer cannot be made.
134 Communication parameters <Computer programming> (1) Communication prot ocol Data communic ati on between the computer and inverter is performed using the following procedure: (2) Communicati.
135 Communication parameters 2 FUNCTIONS (3) Dat a format Data used is hex adecimal. Data is automati c ally transferred in ASCII between the co mputer and i nverter .
136 Communication parameters 4) S end dat a fr om comp uter to inverter dur ing data read (4) Dat a definit ions 1) Co ntrol codes 2) In verter st ation number S pecify the st ati on number of the inverter which communicates with the computer . 3) In struction code S pecify the processing reques t, e.
137 Communication parameters 2 FUNCTIONS 5) W aitin g time S pecify the waiting time between the receipt of dat a at the inverter from the computer and the transmission of reply data. Set the waiting time in accord anc e with the response time of the computer between 0 and 150ms in 10ms increment s (e.
138 Communication parameters 7) O pen cable detection (Commu nication par am eter n6 "communicatio n check time interval") · If disconnection (communication stop) is detected between the inverter and computer as a result of disconnection check, a communication error (OPT) occurs and the inverter output is shut off.
139 Communication parameters 2 FUNCTIONS 8) Sum check code The sum check code is 2-digit ASCII (hex adecimal) representing the lower 1 by te (8 bits) of the sum (binary) derived from the checked ASCII.
140 Communication parameters CAUTION Always set the commu nication check tim e interval before st arting operation t o prevent hazardous conditio ns. Dat a com munication is not st arted automat ically but is made on ly once when the comp uter provides a comm unicat ion request.
141 Communication parameters 2 FUNCTIONS <Setting items and set dat a> Af ter complet ion of p arame ter settin gs, set t he instruct ion codes a nd dat a then s tart communica tion from t he comp uter to allo w various types of operation control a nd monit oring.
142 Communication parameters 3 Run command HF A * F un ction ch ange ca n be ma de using Pr . 60 to Pr . 63 (inp ut ter minal func tion sel ect ion). 2 digi ts 4 Inv erter st at us monitor H7A * F un ction c hange can b e made usin g Pr . 64 an d Pr .
143 Communication parameters 2 FUNCTIONS 5 Set freque ncy read (RAM) H6D • When P r . 3 7 = "0" ( factor y setting ) The set freq uency (RAM or E 2 PR OM) is read . H0000 t o H2EE0: 0.01H z increme nts • When Pr . 37 = " 0.1 to 999", ex pansio n link parame ter (HF F) = 0 Th e set speed is read.
144 Communication parameters 8 All par amete r cle ar HFC All p aramet ers retu rn to the factor y sett ings. Any of four different all cle ar ope ration s are pe rfor med acco rdin g to th e data.
145 Communication parameters 2 FUNCTIONS <Error Code List> The corresponding error code in the following list is displayed i f an error is detected i n any communication request data from the c omputer: (5) Operation at alarm occurre nce *3: C an be selected using the corresponding parameter (factory-set to stop).
146 Communication parameters (7) Program example Program General flowchart T o change the oper ation mode to computer link operation 1000 *R EC 1010 IF L OC(1)=0 THEN RE TURN 1020 PRIN T"RE CEIVE.
147 2 FUNCTIONS Communication parameters 2.15.2 Operation and speed command source (n8 , n9 ) The parameter numbers within parenthes es are those for use of the p arameter unit (FR-PU04). <Setting> In the computer operati on mode, commands from the ex ternal terminals and c omputer are as listed below .
148 Communication parameters [Explanation o f t able] External : Operation is valid only from external terminal s ignal. Computer : Operati on is valid only from computer . Combined : Operation is valid from either of external terminal and computer . : Operation is invalid from either of external terminal and computer .
149 2 FUNCTIONS Communication parameters <Setting> • n10 can be changed independently of the operation mode of the operation p anel . • Setting of n10 = "1" is made valid when "0" or "2" is s et in Pr . 79 "operation mode sele ction" .
150 Communication parameters 2.1 5.4 E 2 PROM write selection (n 12 ) The par amete r num ber in parenth eses is th e one f or use wit h the paramet er uni t (FR- PU04) . Y ou can choose whether the parameters are stored into the E 2 PROM or not at the p ar ameter setting for c omputer communication.
151 Parameter u nit (FR-P U04) setti ng 2 FUNCTIONS 2.16 Parameter unit (FR-PU04) setti n g 2.16.1 PU display language selection ( n13 ) The parameter number in parentheses is the one for us e with the parameter unit (FR- PU04).
152 Parameter un it (FR-PU 04) setting 2.16 .3 PU contra st adjustment ( n15 ) The parameter number in parentheses is the one for us e with the parameter unit (FR- PU04). 2.16 .4 PU main disp lay screen dat a selecti on (n16 ) The parameter number in parentheses is the one for us e with the parameter unit (FR- PU04).
153 Parameter u nit (FR-P U04) setti ng 2 FUNCTIONS 2.16.5 Disconnected PU dete ction/PU setting lock selection (n17 ) The parameter number in parentheses is the one for us e with the parameter unit (FR- PU04). <Setting> * The monitor display and the are valid.
154 MEMO.
155 Cha p t er 2 Cha p t er 3 Cha p t er 4 Cha p t er 1 3. PROTECTIVE FUNCTIONS This chapte r explains the "prot ective funct ions" of this product. Always r ead the in structions b efore using the equipment . 3.1 Erro rs (A larm s) . .... .
156 Errors (Alarms) 3.1 E rrors (Alarms) If any fault has occurred in the inverter , the corresponding protective function is activated to bring the inverter to an alarm stop and auto mati cally give the corresponding error (alarm) indication on the PU display .
157 Errors (Alarms) 3 PROTECTIVE FUNCTIONS 3.1.1 Error (alarm) definitions (1) Maj or fai lur es When the pr otective f uncti on i s activated, the inverter output is shut of f and the al arm is output.
158 Errors (Alarms) Operat ion Pane l Indi cati on OV1 FR-PU04 OV During Acc Name Regen erat ive ov ervoltag e shut-off durin g acceler ati on Descript ion When the ma in circuit DC volt age in the in.
159 Errors (Alarms) 3 PROTECTIVE FUNCTIONS *1. Resetting the inverter initializes the internal thermal integratied data of the electronic thermal relay function.
160 Errors (Alarms) *2. F unctions only when any of Pr . 60 to Pr . 63 (input terminal function selection) is set to OH. Operat ion Pane l Indi cati on GF FR-PU04 G round Fa ult Name S tart- time o ut.
161 Errors (Alarms) 3 PROTECTIVE FUNCTIONS (2) Minor failures When the protective function i s activated, the output is not shut off. Y ou can m ak e parameter setting to output the minor fault signal. (Set " 98" in any of Pr . 64, Pr . 65 (output terminal function selection).
162 Errors (Alarms) (3) W arni ngs *3. T he stall preventi on oper ation current can be set as desired. It is factory-set to 150%. Operat ion Pane l Indi cati on OL F R-PU04 OL Name S tall prev ention.
163 Errors (Alarms) 3 PROTECTIVE FUNCTIONS Operat ion Panel Indi cation PS FR-PU04 PS Name PU sto p Description Pr . 75 "r eset sele ction/ PU st op se lecti on" ha d bee n set and a sto p was made by pres sing t he of the ope rati on pan el o r param eter uni t (FR- PU04) during op erat ion in the ex tern al oper ation mod e.
164 Errors (Alarms) (4) Write e rro rs Operat ion Pane l Indi cati on Er1 FR-PU04 Control Mode Name Write di sable er ror Descript ion • W rite was perfor med wi th "1" ( write disabl e) set in Pr . 77 "paramet er writ e disabl e sele ction".
165 3 PROTECTIVE FUNCTIONS Errors (Alarms) 3.1.2 T o know the operating status at the occurrence of alarm (only whe n FR-PU04 is used) When any al arm has o ccurred, th e display automatic ally swit ches to the i ndication of the corres ponding prot ective function (e rror).
166 Trou bles hoo ting 3.2 T r oubleshooting POINTS If the cause is still unknown after every check, it i s recommended to initialize the parameters (return to factory setting) then r e-set the required p ar ameter values and check again.
167 T roublesho oting 3 PROTECTIVE FUNCTIONS 3.2.2 Motor r otates i n oppo site directi on Check that the phase sequence of output terminals U, V and W i s correct. Check that the start signals (forward rotation, reverse rotation) are connected properly .
168 Trou bles hoo ting ................ C heck the Pr . 79 setting. When the Pr . 79 "operati on mode selection" setting is "0", switching input power on places the inverter in the external operati on mode. Press the to switch to the PU operation mode.
169 Cha pt e r 2 Cha pt e r 3 Cha pt e r 4 Cha pt e r 1 4. SPECIFICA TIONS This ch apter provides the "speci fications" of thi s product. Always r ead the in structions b efore using the equipment 4.1 Specif icat ion l ist ... ..... .... ...
170 Specification list 4.1 S pecifi cation list 4.1.1 Rati n gs (1) Three-phase 200V power supply *1. T he ap plied motor capaci ty in dicate d is t he max imu m capacity app licabl e for us e of t he Mitsu bishi 4- pole standar d motor . *2. T he rat ed out put ca pacity ind icat ed ass umes th at the outpu t voltage i s 230V .
171 Spec ific ati on li st 4 SPECIFICATIONS (2) Three-phase 400V power supply *1. T he applied mot or ca pacity indica ted i s the max imum capaci ty app licabl e fo r use o f th e Mitsu bish i 4-pole standar d motor . *2. T he r ated outpu t capacity indi cated assum es th at the out put v oltage is 440V .
172 Specification list (3) Single-phase 100V power supply *1. T he a pplied moto r capaci ty indi cated i s the maxim um capaci ty app lic able w hen a Mitsu bishi 4-po le s tandar d mot or i s u sed. *2. T he rat ed out put ca pacity ind icat ed ass umes th at the outpu t voltage i s 230V .
173 Spec ific ati on li st 4 SPECIFICATIONS 4.1 .2 Common specifications Control specifications Cont rol sy stem Sele ctable b etwee n Soft-P WM cont rol and h igh ca rrie r freque ncy PW M contr ol, V /F contr ol or aut omati c torque boost cont rol are se lectab le.
174 Specification list *1. When underv oltage or inst antane ous powe r failure oc curs, no a larm outpu t is provide d but the outp ut is shut of f. After p ower restor ation, the inverter may be run a s it is. Depend ing on the runnin g status ( e.g.
175 Outli ne drawin gs 4 SPECIFICATIONS 4. 2 Out line draw ings • FR-S520E-0.1K, 0.2K, 0.4K, 0.75K-NA • FR-S510WE-0.1K, 0.2K, 0.4K-NA • Three-phase 200V power supply • Single-phase 100V power supply (Unit: mm (inches)) Capacity D D1 D2 0.1K ,0.
176 Out line dra wings • FR-S520E-1.5K, 2.2K, 3.7K-NA • FR-S540E-0.4K, 0.75K, 1.5K, 2.2K, 3.7K-NA • FR-S510WE-0.75K-NA • Three-phase 200V power supply • Three-phase 400V power supply • Single-phase 100V power supply (Unit: mm (inches)) Cap ac ity W W1 D D1 D2 D3 1.
177 Outli ne drawin gs 4 SPECIFICATIONS • Parameter unit (FR- PU04) <Outline drawing> <Panel cut dimension drawing> Choose the mounting screws whose length will not exceed the effective depth of the mounting threads. 125 ( 4. 92) 5- M3 hol e 5- 4 hol e Effec ti ve de pth 4.
178 MEMO.
179 APPENDIX APPENDIX 1 Parameter In struction Code List . ...... 180.
180 Parameter Instruction Cod e List APPEND IX 1 Pa rameter Ins tructi on Code List The extended function parameters are made valid by setting "1" in Pr .
181 Parameter Instruction Code List S tandard ope ratio n function s 23 S t all pr eventi on ope ration leve l compensa tion facto r at do uble spee d 17 97 0.1% 0 24 Mult i-s peed se tting (spe ed 4 ) 18 98 0.01Hz 0 25 Mult i-s peed se tting (spe ed 5 ) 19 99 0.
182 Parameter Instruction Cod e List Disp lay fu nctio ns 52 Oper ation p ane l disp lay dat a select ion 34 B4 1 0 53 Frequ ency s etting oper ation se lecti on 35 B5 1 0 54 AM te rmin al fu nct ion sele cti on 36 B6 1 0 55 Frequ ency mo nito ring ref erenc e 37 B7 0.
183 Parameter Instruction Code List Mu lti-speed o perati on 80 Mult i-s peed se tting (spe ed 8 ) 50 D0 0.01Hz 0 81 Mult i-s peed se tting (spe ed 9 ) 51 D1 0.01Hz 0 82 Mult i-s peed se tting (spe ed 1 0) 52 D2 0.01Hz 0 83 Mult i-s peed se tting (spe ed 1 1) 53 D3 0.
184 Parameter Instruction Cod e List Additional functio n H6 (16 2) Automa tic rest art af ter instan taneous power fail ure sele ction 3E BE 1 1 H7 (55 9) Sec ond elec tron ic ther mal O/L rela y 3B BB 0. 01A 5 – b1 ( 560) Param et er for m anufa ctur er sett ing.
185 Parameter Instruction Code List The parameter numbers in parentheses are those for use with the parameter unit (F R- PU04). * T hough parameter setting by RS-485 communication can be made in the setting increments indic ated i n the t able, note that the valid setting inc rements are as indicated in the para meter list (p age 48) .
REVI SIONS *The manual number is given on t he bottom lef t of the back cover . Prin t Date * Manual Numb er Revisi on Dec., 20 04 I B(NA)- 0600 209ENG-A Fir st edit ion.
An important point after buying a device Mitsubishi FR-S500 (or even before the purchase) is to read its user manual. We should do this for several simple reasons:
If you have not bought Mitsubishi FR-S500 yet, this is a good time to familiarize yourself with the basic data on the product. First of all view first pages of the manual, you can find above. You should find there the most important technical data Mitsubishi FR-S500 - thus you can check whether the hardware meets your expectations. When delving into next pages of the user manual, Mitsubishi FR-S500 you will learn all the available features of the product, as well as information on its operation. The information that you get Mitsubishi FR-S500 will certainly help you make a decision on the purchase.
If you already are a holder of Mitsubishi FR-S500, but have not read the manual yet, you should do it for the reasons described above. You will learn then if you properly used the available features, and whether you have not made any mistakes, which can shorten the lifetime Mitsubishi FR-S500.
However, one of the most important roles played by the user manual is to help in solving problems with Mitsubishi FR-S500. Almost always you will find there Troubleshooting, which are the most frequently occurring failures and malfunctions of the device Mitsubishi FR-S500 along with tips on how to solve them. Even if you fail to solve the problem, the manual will show you a further procedure – contact to the customer service center or the nearest service center
