MICROMASTER 420 - Service, Support
Contents
1. Note P2240 100 corresponds to 4000 hex r2250 CO Output setpoint of PID MOP Min Datatype Float Unit 96 Def P Group TECH Max Displays output setpoint of motor potentiometer in 9 z DIN t _ 41 USS CB COMlink p m P1 082 1 00 o lt od sn ODU SO db ESCAPE MP teh A E uei C SW deese en duo Morel E de ELEN dnd P2000 Note r2250 100 corresponds to 4000 hex MICROMASTER 420 Parameter List 136 6SE6400 5BAO0 0BPO Issue 10 06 Parameter Description P2253 CI PID setpoint Min 0 0 CStat CUT Datatype U32 Unit Def 0 0 P Group TECH Active first confirm QuickComm No Max 4000 0 Defines setpoint source for PID setpoint input MOP ga 3 S P2254 al al a a ADC o Motor PID PID PIDO oy E PID P2253 SUMI IRFG PT1 AC r2273 P2285 FF 2 t A USS N S B QO n Output BOP link P2267 USS P2264 a pri kene COM link 4 CB P2265 P2268 P2271 COM link P2200 Common Settings P2200 BI Enable PID controller E E PID controller de activated P2254 Cl PID trim source Min 0 0 CStat CUT Datatype U32 Unit Def 0 0 P Group TECH Active first confirm QuickComm No Max 4000 0 Selects trim source for PID setpoint This signal is multiplied by the trim gain and added to the PID setpoint Common Settings See parameter P2253 P2255 PID setpoint gain factor Min 0 00 CStat CUT Datatype Flo2. USS on COM link Index P2019 0 Transmitted word 0 P2019 1 Transmitted word 1 P2019 2 Transmitted word 2 P2019 3 Transmitted word 3 Details See P2016 PZD to BOP link r2024 2 USS error free telegrams Min Datatype U16 Unit Def P Group COMM Max Displays number of error free USS telegrams received Index r2024 0 Serial interface COM link r2024 1 Serial interface BOP link r2025 2 USS rejected telegrams Min Datatype U16 Unit Def P Group COMM Max Displays the number of rejected USS telegrams The sum of all USS errors r2026 r2031 is displayed in parameter r2025 The following monitoring mechanisms have been implemented when a telegram is received then initially the correct start of a telegram start interval STX must be identified and then the length must be evaluated LGE If the length does not correspond to the selected value for a fixed telegram or it does not have a valid value for a variable telegram length the telegram is rejected the appropriate times are monitored before and while receiving telegrams the block check character BCC is generated while the telegram is received and after the complete telegram has been read in this is compared with the received BCC If these do not match then the telegram is not evaluated if a character frame error or a parity error has not occurred in any of the received characters then the n
3. table Type 2 pole 4 pole 6 pole 8 pole 1LA7050 13 13 1LA7053 13 19 1LA7060 8 11 1LA7063 8 13 12 1LA7070 8 10 12 12 1LA7073 8 10 12 12 1LA7080 8 10 12 12 1LA7083 10 10 12 12 1LA7090 5 9 12 12 1LA7096 6 11 12 14 1LA7106 8 12 12 16 1LA7107 12 16 1LA7113 14 11 13 12 1LA7130 11 10 13 10 1LA7131 11 1LA7133 10 14 10 1LA7134 16 1LA7163 15 19 20 12 1LA7164 15 14 1LA7166 15 19 20 14 Dependency P0611 lt 99 s l2t calculation inactive To activate 121 calculation set P0611 to a value gt 99 s Note Mode of operation of let The square of the normalized motor current measured motor current r0027 divided by the rated motor current P0305 weighted with the thermal motor time constant results in the It value of the motor In addition the output frequency motor speed is incorporated in the calculation to take into consideration the cooling effect of the motor fan If parameter P0335 is changed to a force ventilated motor then the calculation is appropriately modified The l t value represents a dimension for the temperature rise temperature of the motor If users do not enter parameters such as P0344 motor weight then a value based on a Siemens motor is used When required the motor time constant can be changed using P0611 which is the same as overwriting the calculated value The l t value that is obtained is displayed in 0034 If this value reaches the value defined in P0614
4. t21 I t21 MESE ai m P2258 P2258 100 Dependency P2200 1 PID control is enabled disables normal ramp up time P1120 PID setpoint ramp effective only on PID setpoint changes P1121 ramp down time and P1135 OFF3 ramp down time define the ramp times used after OFF1 and OFF3 respectively Notice Setting the ramp down time too short can cause the inverter to trip on overvoltage F0002 overcurrent F0001 r2260 CO PID setpoint after PID RFG Min Datatype Float Unit 96 Def P Group TECH Max Displays total active PID setpoint after PID RFG in 95 Note r2260 100 96 corresponds to 4000 hex MICROMASTER 420 Parameter List 138 6SE6400 5BAO0 0BPO Issue 10 06 Parameter Description P2261 PID setpoint filter timeconstant Min 0 00 CStat CUT Datatype Float Unit s Def 0 00 P Group TECH Active Immediately QuickComm No Max 60 00 Sets a time constant for smoothing the PID setpoint Note 0 no smoothing r2262 CO Filtered PID setp after RFG Min Datatype Float Unit Def P Group TECH Max Displays the filtered PID setpoint after the PID ramp function generator PID_HLG as percentage Parameter r2262 is obtained from the filtered parameter r2260 that is filtered using the PT1 filter with time constant P2261 Note r2262 100 corresponds to 4000 hex P2264 CI PID feedback Min 0 0 CStat CUT Datatype U32 Unit Def 755 0 P Group TECH Active first c
5. 00 0 dn dwres dias did 99JnoS WI 01410 001001 9S 2d 00 00L 00 0 19e ure uud did MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 173 WAV suoneoipoyy AouenbeuJ jeuonippy 027 H31SVINOHOIIN z 9002780791 weep uogounj pPs Wav 0026 euueuo Ca E 4 1 s p s qm ww T e jJ WM 3 Issue 10 06 Function Diagrams 000 08014 ZH 007099 0070 Aouenbeu um ZH H asojeq di S o2 lk Ozu 00709 28014 ZH 007099 000 XEVN 0012 LOL ld ZH 00 01 000 ulpiwpueq bejjdbiS ZH ujo 4p dies O9 u dis upiwpueg gt I ly z 00 0 60Ld 00 0 L60Ld zH 007099 0010 zH 00 0S9 00 0 e dis Aouenbau dis 000 v60 ld 00 0 2601 ZH 007099 0070 zH 00 099 0070 y fcuanba due z dis zH desbeu les 09 lt 6 014 Old YUM uonen eA e ON uon l s L 224 ELL L 19 0 0 OLLLd dies Dou yy 6 00224 y zul 96 1ndino 01 410 09 s 49 0J1UO9 J d NAS lt 82014 zH dies bey 101 MICROMASTER 420 Parameter List 65E6400 5BA00 OBPO 174 Function Diagrams Issue 10 06 J9 O1JUOD Xew ZH DAY 194e 099 00 2114 Oc
6. p xi i ZH 33 127 00 S ZOOld o ZH 00 099 00 099 Qu c pexiJ Nc 0 0010 LOOld o ZH 00 099 00 099 1 Sank AR 5 Ho L4J4O NO Ng Zi 0 0 4 4 22014 77 D g101d 218 q s 44 19 218 epou 44 LAMP 219 epoul 44 o 0 o d 0 Be PY 0 0 ER 4e0ld 1 ZLOLd yg es 44 L ZLOLd Hg 192 44 4 16 apow 44 e 18 epou 44 o 0 Be Toal im a C 0ZOld 1 9LOLd 01g 1 s 44 e L 9LOLd Ig 195 Jd 418 0 118 epou 44 0 11g pow 44 Function Diagrams MICROMASTER 420 Parameter List 65E6400 5BA00 OBPO 160 Function Diagrams Issue 10 06 027 H31SVINOHOIW zin 9002909 pepoo ueuig 44 KouenbeJ4 1 uonouny pPswJd pes e9JnoS 1uiodjes euJaju 00 0 0014 zH 00 0S9 00 0S9 4 K9uanbaJ paxIy 00 SZ 900 ld zH 00 0S9 00 099 9 ouenboJ 1 00 02 S00Ld zH 00 0S9 00 0S9 ouenboJ pexi 00 31 FO0 Le zH 00 0S9 00 0S9 y cuanbaJ 1 00 01 60014 zH 44 19V 09 zH 00099 00 0S9 AouenboJ 1 00 S Z00Ld zH 00 0S9 00 0S9 z 1 0010 LOOLd zH 00 0S9 00 0S9 p xi i L440 o 0 7 340 NO po 0 B Ran lt 2 1 8L0Ld c Hg 195 44 Ig 5 SOS 1 ulo IIE 104 0 c
7. Ifthe above serial interface controls the inverter P0700 or P0719 then the 1st control word must be transferred in the 1st PZD word the setpoint source is selected via P1000 or P0719 then the main setpoint must be transfered in the 2nd PZD word When P2012 is greater than or equal to 4 the additional control word 2nd control word must transferred in the 4th PZD word if the serial interface controls the inverter P0700 or P0719 STW HSW ZSW HW STW2 201 i PZD2 PZD3 PZD4 i P2012 STW Control word HSW Main setpoint ZSW Status word HIW Main actual value PZD Process data MICROMASTER 420 Parameter List 114 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P2013 2 USS PKW length Min 0 CStat CUT Datatype U16 Unit Def 127 P Group COMM Active first confirm QuickComm No Max 127 Defines the number of 16 bit words in PKW part of USS telegram The PKW part consists of the PKE part 1 word IND part 2 word resp PWE part 3 n word In contrary to the IND and PKE part the PWE part can be varied Depending on the particular requirement 3 word 4 word or variable word lengths can be parameterized The PKW part of the USS telegram is used to read and write individual parameter values Possible Settings O No words 3 3words 4 4words 127 Variable Index P2013 0 Serial interface COM link P2013 1 S
8. No faults on Blackout 1 Fault acknowl Fault acknovvl Fault acknovvl Fault acknovvl 2 Restart restart Fault acknowl Fault acknowl Fault acknowl Fault acknowl Fault acknowl 3 restart restart restart restart restart Fault acknowl Fault acknowl 4 ES restart restart Fault acknowl Fault acknowl Fault acknowl 5 Restart restart restart restart Fault acknowl Fault acknowl Fault acknowl Fault acknowl Fault acknowl 6 Restart restart restart restart restart restart Flying start must be used in cases where the motor may still be turning e g after a short mains break or can be driven by the load P1200 Number of restart attempts CUT P Group FUNC P1211 CStat Datatype U16 Active first confirm Min 0 Unit Def 3 QuickComm No Max 10 Specifies number of times inverter will attempt to restart if automatic restart P1210 is activated MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 91 Parameter Description Issue 10 06 3 20 Motor holding brake P1215 Holding brake enable Min 0 CStat T Datatype U16 Unit Def 0 P Group FUNC Active first confirm QuickComm No Max 1 Enables disables holding brake function This function applies the following profile to the inverter ON 1 2 OFF1 OFF3 t Motor excitation A finished r0056
9. i224 co SH A Y II 19 0 0 N st 00 a LHJO NO I8 gt 9 q8U3 18 e e 2 LO co LO LO o D D lt 9 q8U3 18 l dl N st a dies ajqeua 93u Ig 2 m T T A o O LL m 18 e 2 N CH LO r 00 T o a a 9 qtua zd 18 e qeue es ng 19 lt sl n l 1440 NO 18 0 224 st 00 D 13 118 8 6 OL Ll t S 9 4 1glusubas 21 EL vL 9118 jueubeg Aeyds p 1 00 vOled uxoe syney z 18 Udu BIA dOV dO8 z cc2 0LZd uxoe syne4 18 e st 00 D 440 2 19 0 1 00 Y 00 A 440 19 1 61 LO Y 00 A Z440 218 0 1 o x x o O a cdJdO 16 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 167 Issue 10 06 Function Diagrams 20001 Sn1618 027 HALSV NOHOLN zin 9002809 ueibep uopoun4 Perzwus oer 5900 Z pJOM 1041U02 suonoun J bojouyoa e 2 9 sas e z 0 L c eui Buizi eaJ JO SIEMYOS OMJUOD 120 eui SI jo3uoo eouenbes ay Jonuoo eouenbes Jolluo5 Suleiq 0 lOluo5 did s r u nb z s r u nb z pexi J s r u nb z pexi J L 29001 lt SS00
10. jne4 018 WOO gt LPMUIO O8 XLS l dav ofi Je Je 90 lqeu jurodies omg mw 024 ves O4H sold 8 e qeue EJ rog 9AIl920H Y qxu lqeu 5 6018 dojs 198 2 2018 dois e911199 3 2 LOE 13 0018 155 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 Sun iusuel ull NOD uo SSN 027 HALSV NOHOLN zin 9007809 uonounj psryouossn 0192 s998 19 u eula x3 o dn o E E E YY Y Y e Y e Issue 10 06 Function Diagrams uomneanDijuoo ssn 0 2 v LOZd su Sess9 0 HO weba SSN 421 e eLozd yop ulBu MAd SSN Xut WOO lt 0 x pul SJejeuireJed V 2 21 2102d SE ulBu 424 SSN o z LLozd pea ssaJppe SSN 9 c 0L 0cd dOV VO 198 ejep peojumog Gilg 75 s um s 3nejop ase dOV Woy 0 195 EIER peojumog rg 9jejpned SSN es el6L0zd xew 014 V zed yezei Indino did Lg iz llelozd uu did 26224 6221 1100 did old GL 2604 oleLozd p uslul Buidwey 6018 En eug ON 2 124 92001 9PA 10 8016 eja ed abueyo ed gt 9200 5 ov zoug l l dl s lt 2001 bey jov 9018 L Y astzd gt 12001 bey joy 5018 2500 17 9124 12001 bey JOY volg ZEMS PV Og OO 0 124 lt 2200110euno joy 6018 uiu 4 08014 lt 12004 Dau yoy 2018 yo 4 9124 lt 12001 Dot Joy LONE exeJq Oq 0018 DEOH AO Gg 1y6u suni JOJON v Lig
11. 0053 1 Bit 01 y OFF2 Inactive Active P2168 Delay time T_off Min 0 CStat CUT Datatype U16 Unit ms Def 10 P Group ALARMS Active Immediately QuickComm No Max 10000 Defines time for which the inverter may operate below switch off frequency P2167 before switch off occurs Dependency Active if holding brake P1215 not parameterized Details See diagram in P2167 switch off frequency MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 129 Parameter Description Issue 10 06 P2170 Threshold current thresh Min 0 0 CStat CUT Datatype Float Unit Def 100 0 P Group ALARMS Active Immediately QuickComm No Max 400 0 Defines threshold current in relative to P0305 rated motor current to be used in comparisons of act and Thresh as illustrated in the diagram below ac gt 1 thresh act act 21 thresh r0053 Delay time current 0 10000 ms Threshold current P2171 D 10 0 0 400 0 P2170 D 100 0 Note This threshold controls bit 3 in status word 3 r0053 P2171 Delay time current Min 0 CStat CUT Datatype U16 Unit ms Def 10 P Group ALARMS Active Immediately QuickComm No Max 10000 Defines delay time prior to activation of current comparison Details See diagram in P2170 threshold current _thresh P2172 Threshold DC link voltage Min 0 CStat CUT Datatype U16 Unit V Def 800 P Group ALARMS Active Immediately QuickComm No Max 2
12. 9 KI 8 PNP NPN DIN P24 PNP 0 1 P0701 Debounce time DIN 0 3 P0724 3 CO BO Bin inp val Possible Settings O Digital input disabled 1 ON OFF1 2 ONreverse OFF1 3 OFF2 coast to standstill 4 OFF3 quick ramp down 9 Fault acknowledge 10 JOG right 11 JOG left 12 Reverse 19 MOPup increase frequency 14 MOP down decrease frequency 15 Fixed setpoint Direct selection 16 Fixed setpoint Direct selection ON 17 Fixed setpoint Binary coded selection ON 21 Local remote 25 brake enable 29 External trip 33 Disable additional freq setpoint 99 Enable BICO parameterization Dependency Setting 99 enable BICO parameterization requires P0700 command source or P0010 1 P3900 1 2 or 3 quick commissioning or P0010 30 P0970 1 factory reset in order to reset Notice Setting 99 BICO for expert use only To change back the setting 99 in any of the DIN function parameters it is necessary to alter P0700 For reversing the drive 2 DINs are necessary one for ON command and another for Reverse Settings 3 OFF2 and 4 OFFS are low active MICROMASTER 420 Parameter List 46 6SE6400 5BAO0 0BPO Issue 10 06 Parameter Description P0702 Function of digital input 2 Min 0 CStat CT Datatype U16 Unit Def 12 P Group COMMANDS Active first confirm QuickComm No Max 99 Selects function of digital input 2 Possible Settings 0 Digital input disabled 1 ON
13. Issue 10 06 uueJ6eip uonouny PSA did OOLS 027 19 cu 9007780791 1 jloluoO did 9uuey5 luirod18s L cu E E E SET E E A E E YE C C xs 0010 2622 0011 6622 196 00 002 00 003 JeMo dino did s 00 004 0070 euin dues ui did 007001 1622 00 003 00 00 ul Jjeddn dino did lt 094221 dino 1 410 OO Y62421 Cs m C 01 800 NT ul dy 09221 dies ZPNNE S 19V Og OO 12 dies WY ld 09 000 9224 s 00 09 000 000 0 S8 2d 4001 yy dies qid s 000 09 000 0 eun e16a ul did 000 0822 000 S9 00070 urep dosd did josyo Bulun did SSEZd 1noeuun Bulun gd ysezd unloln did 09224 wi se did 3urodies se ld epou Cid LSZZd 9 01J409 Old 9 98U3 18g 00ZZd 00 0 8922 00 003 00 00Z Gr en UU Y9QP did d reos aia op TA enue Id woapriti id 00 d dd4 992321 XX x 0 92 922 did 10 0 0 224 007001 6922 CG 00 00S 00 0 00 0 S9ZZd I8s JOU yoqp did ure did 00 001 9224 s 00 09 00 0 001002 00 002 SUO9 HI A9QPY amp xew Y9QP did 10119 Aid OO 7 L 89224 s 00 0S9 00 0 2664 d s did 19v 09 des did 00001 SSZZd 00 00 0070 1084 ure dies Aid 0011 ZSZ2d s 00 099
14. Parameter Description Issue 10 06 3 2 r0018 r0019 r0020 r0021 r0022 r0024 20 Diagnosis parameters Firmware version Min Datatype Float Unit Def P Group INVERTER Max Displays version number of installed firmware CO BO BOP control word Min Datatype U16 Unit P Group COMMANDS Displays status of operator panel commands The settings below are used as the source codes for keypad control when connecting to BICO input parameters Bitfields Bit00 ON OFF1 0 NO 1 YES Bit01 OFF2 Electrical stop 0 YES 1 NO Bit08 JOG right O NO 1 YES Bit11 Reverse setpoint inversion 0 NO 1 YES B1t13 Motor potentiometer MOP up 0 NO 1 YES Bit14 Motor potentiometer MOP down 0 NO YES Note When BICO technology is used to allocate functions to panel buttons this parameter displays the actual status of the relevant command The following functions can be connected to individual buttons ON OFF1 OFF2 JOG REVERSE INCREASE DECREASE CO Freq setpoint before RFG Min Datatype Float Unit Hz Def P Group CONTROL Max Displays actual frequency setpoint input from ramp function generator ES P1110 P1091 P1080 P1082 P1120 IT 35 Inhibit Ifl Setpoint Skip Motor m d r1079 r1114 r0020 r1170 r1078 r1119 CO Act frequency Min Datatype Float Unit Hz Def P Group CONTROL Max Displays actual inverter output frequency r0021 excluding slip compensation resona
15. Skip frequency bandwidth Min 0 00 CStat CUT Datatype Float Unit Hz Def 2 00 P Group SETPOINT Active Immediately QuickComm No Max 10 00 Delivers frequency bandwidth to be applied to skip frequencies in Hz See P1091 skip frequency 1 BI Inhibit neg freq setpoint Min 0 0 CStat CT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 This parameter suppresses negative setpoints Therefore modification of the motor direction is inhibited to the setpoint channel Common Settings Notice 0 Disabled 1 Enabled VVhere Ifa min frequency P1080 and a negative setpoint are given the motor is accelerated by a positive value in relationship to the min frequency This function does not disable the reverse command functions e g Reverse ON left rather a reverse command causes motor to run in the positive direction only as described above MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P1110 1 ON OFF1 i 1 Reverse f set 71170 P1113 Bl Reverse Min 0 0 CStat CT Datatype U32 Unit Def 722 1 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source of reverse command Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be s
16. e All MICROMASTER 3 variants Order No 6SE32 e All MICROMASTER 410 Order No 6SE6410 e All MCROMASTER 411 Order No 6SE6411 e All MICROMASTER 436 Order No 6SE6436 e All MICROMASTER MMI CM2 Order No 6SE96 These products are unchanged from their original design but this is no longer compliant with the new requirements These products may still bear the UL symbol but it is now the end users responsibility to provide listed motor overload protection external to the inverter We suggest the end user consider devices such as the Siemens overload relay 3RU series on the motor side of the inverter in order to provide the motor protection details of which can be found at the link below http www automation siemens com mcms industrial controls en protection equipment overload relays pages default aspx A 5 E 4 5 Deutsch nderung zum thermischen Motorschutz bei Frequenzumrichtern MICROMASTER SIMATIC und SINAMICS Ab 9 November 2010 hat Underwriters Laboratories Inc UL den Standard Safety of power conversion equipment ge ndert Davon sind auch Siemens Frequenzumrichter betroffen Die Anderung trat am 9 Mai 2013 in Kraft Die Anderung bezieht sich auf die Leistungsfahigkeit der Software f r den Motorschutz den der Frequenzumrichter bietet Wenn bei dem Frequenzumrichter ein Power Cycle durchgef hrt wird muss der Wert der Motortemperatur beim Wiederein
17. 4 USS on BOP link and P0719 0 Cmd Setpoint BICO parameter r2036 BO CtriWrd1 from COM link USS Min Datatype U16 Unit Def P Group COMM Max Displays control word 1 from COM link i e word 1 within USS Bitfields Bit00 ON OFF1 O NO 1 YES Bit01 OFF2 Electrical stop 0 YES 1 NO Bit02 OFF3 Fast stop 0 YES 1 NO Bit03 Pulses enabled 0 NO 1 YES Bit04 RFG enable 0 NO 1 YES Bit05 RFG start 0 NO YES Bit06 Setpoint enable 0 NO YES Bit07 Fault acknovledge 0 NO YES Bit08 JOG right 0 NO 1 YES Bit09 JOG left 0 NO 1 YES Bit10 Control from PLC O NO 1 YES Bit11 Reverse setpoint inversion O NO 1 YES Bit13 Motor potentiometer MOP up 0 NO 1 YES Bit14 Motor potentiometer MOP down 0 NO 1 YES Bit15 Local Remote 0 NO 1 YES Details See r2033 control word 2 from BOP link r2037 BO CtrIWrd2 from COM link USS Min Datatype U16 Unit Def P Group COMM Max Displays control word 2 from COM link i e word 4 within USS Bitfields Bit00 Fixed frequency Bit 0 0 NO YES Bit01 Fixed frequency Bit 1 0 NO 1 YES Bit02 Fixed frequency Bit 2 0 NO 1 YES Bit08 PID enabled 0 NO 1 YES Bit09 DC brake enabled O NO 1 YES Bit13 External fault 1 0 YES 1 NO Details See r2033 control vvord 2 from BOP link P2040 CB telegram off time Min 0 CStat CT Datatype U16 Unit ms Def 20 P Group COMM Active Immediately QuickComm No Max 65535 Defines time after which a fault will be generated F0070 if no telegram is receive
18. Dependency Select fixed frequency operation using P1000 Inverter requires ON command to start in the case of direct selection P0701 P0703 15 Note Fixed frequencies can be selected using the digital inputs and can also be combined with an ON command MICROMASTER 420 Parameter List 72 6SE6400 5BA00 0BPO Issue P1002 P1003 P1004 P1005 P1006 P1007 P1016 P1017 10 06 Details Details Details Details Details Details Possibl Details Possibl Details Parameter Description Fixed frequency 2 Min 650 00 CStat CUT Datatype Float Unit Hz Def 5 00 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 2 See parameter P1001 fixed frequency 1 Fixed frequency 3 Min 650 00 CStat CUT Datatype Float Unit Hz Def 10 00 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 3 See parameter P1001 fixed frequency 1 Fixed frequency 4 Min 650 00 CStat CUT Datatype Float Unit Hz Def 15 00 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 4 See parameter P1001 fixed frequency 1 Fixed frequency 5 Min 650 00 CStat CUT Datatype Float Unit Hz Def 20 00 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 5 See parameter P1001 fixed frequency 1 Fixed frequency 6 Min 650 00 CSt
19. Instructions for use 1 Set P0003 3 expert user 2 Goto P0013 indices to 16 user list 3 Enter into P0013 index 0 to 16 the parameters required to be visible in the user defined list The following values are fixed and cannot be changed P0013 index 19 12 key for user defined parameter P0013 index 18 10 commissioning parameter filter P0013 index 17 3 user access level 4 Set P0003 0 to activate the user defined parameter MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description Index P0013 0 1st user parameter P0013 1 2nd user parameter P0013 2 3rd user parameter P0013 3 4th user parameter P0013 4 5th user parameter P0013 5 6th user parameter P0013 6 7th user parameter P0013 7 8th user parameter POO13 8 9th user parameter POO13 9 10th user parameter P0013 10 11th user parameter P00131111 12th user parameter P0013 12 13th user parameter P0013 13 14th user parameter P0013 14 15th user parameter P0013 15 16th user parameter P0013116 17th user parameter P0013 17 18th user parameter P0013118 19th user parameter P0013 19 20th user parameter Dependency First set P0011 lock to a different value than P0012 key to prevent changes to user defined parameter Then set P0003 to 0 to activate the user defined list When locked and the user defined parameter is activated the only way to exit the user defined parameter and view other pa
20. Note This applies only in Quick Commissioning mode Reset to Factory default To reset all parameters to the factory default settings the following parameters should be set as follows Set P0010 30 Set P0970 1 Note The reset process takes approximately 10 seconds to complete MICROMASTER 420 Parameter List 12 6SE6400 5BA00 0BPO Issue 10 06 Parameters Seven segment display The seven segment display is structured as follows SegmentBit 15 14 13 12 11 10 9 8 Segment Bit 7 6 5 4 3 2 1 O The significance of the relevant bits in the display is described in the status and control word parameters MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 13 Parameters 2 3 2 4 2 5 14 Issue 10 06 Binector Input Parameters Parno Parametername P0810 Bl CDS bit 0 Local Remote P0840 HEN 1 F Uu P1113 P1124 P1230 Bl Enable DC braking 1 Bl Fixed PID setp select Bit 1 P1036 Bl Enable MOP DOWN command P1055 Bl Enable JOG right P1056 Bl Enable JOG left Connector Input Parameters Parno Parametername Paro Parametername Binector Output Parameters Paro Parametername Parno Parametername BO CtrlWrd1 from BOP link USS BO CtrlWrd2 from COM link USS BO CtrlWrd2 from BOP link USS BO Control word 1 from CB BO CtrlWrd1 from COM link USS BO Control word 2 from CB MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issu
21. SIEMENS MICROMASTER 420 Parameter List Issue 10 06 User Documentation 65E6400 5BA00 OBPO Available Documentation for the MICROMASTER 420 Getting Started Guide SIEMENS Is for quick commissioning with SDP and BOP gt B m khL Operating Instructions SIEMENS Gives information about features of the MICROMASTER 420 Installation Commissioning Control modes System u S Parameter structure Troubleshooting Specifications and available options of the MICROMASTER 420 Parameter List SIEMENS The Parameter List contains the description of all Parameters structured in functional order and a detailed description The Parameter list also includes a series of function plans MICROMASTER 420 Catalogues In the catalogue you will find all needs to select a certain inverter as well as filters chokes operator panels or communications options SIEM ENS SINAMICS SIMATIC MICROMASTER Product Information Edition 08 2013 English Changes to the motor thermal protection feature of the MICROMASTER SIMATIC SINAMICS inverters On 9th November 2010 Underwriters Laboratories Inc UL revised the standard for safety of power conversion equipment which covers Siemens inverters These changes in the standard become effective from the 9th of May 2013 The changes relate to the performance of the software motor protection offered by the inverter in that when the inverter i
22. 3 has 3 programmable points The two non programmable points are Continuous boost P1310 at zero Hz Rated motor voltage P0304 at rated motor frequency P0310 The acceleration boost and starting boost defined in P1311 and P1312 are applied to V f with rogrammable characteristic P1321 Programmable V f volt coord 1 Min 0 0 CStat CUT Datatype Float Unit V Def 0 0 P Group CONTROL Active Immediately QuickComm No Max 3000 0 See P1320 programmable V f freq coord 1 P1322 Programmable V f freq coord 2 Min 0 00 CStat CT Datatype Float Unit Hz Def 0 00 P Group CONTROL Active Immediately QuickComm No Max 650 00 See P1320 programmable V f freq coord 1 P1323 Programmable V f volt coord 2 Min 0 0 CStat CUT Datatype Float Unit V Def 0 0 P Group CONTROL Active Immediately QuickComm No Max 3000 0 oee P1320 programmable V f freq coord 1 P1324 Programmable V f freq coord 3 Min 0 00 CStat CT Datatype Float Unit Hz Def 0 00 P Group CONTROL Active Immediately QuickComm No Max 650 00 oee P1320 programmable V f freq coord 1 P1325 Programmable V f volt coord 3 Min 0 0 CStat CUT Datatype Float Unit V Def 0 0 P Group CONTROL Active Immediately QuickComm No Max 3000 0 See P1320 programmable V f freq coord 1 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 103 Parameter Description Issue 10 06 P1333 Start frequency for FCC Min 0 0 CStat CUT Datatype Float Unit
23. 4 t fmin p1080 r0052 C Bit 12 1 0 Brake x Status I closed Brake Release Time Brake Closing Time ON OFF2 Inactive OFF2 Active t mm LE oFFr oFF3 L 3 t Motor excitation finished r0056 Bit04 t f fmin p1080 t r0052 C Bit 12 1 0 t Brake Aen otatus closed t gt 4 mt Brake Release Time Brake Closing Time Possible Settings 0 Motor holding brake disabled 1 Motor holding brake enabled MICROMASTER 420 Parameter List 92 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description Caution N 1 To activate the motor holding brake in addition to parameter P1215 1 the status signal r0052 bit 12 motor holding brake active must be output via a digital output The user must also select the signal e g in parameter P0731 2 Ifthe motor holding brake is controlled by the drive inverter then for potentially hazardous loads e g suspended hanging loads for crane applications the drive inverter may not be conditioned unless the load has been secured Before commissioning potentially hazardous loads can be secured as follows lower the load to the floor or during commissioning or after replacing the drive inverter prevent the drive inverter from controlling the motor holding brake Only then should STARTER be used to carry out a quick commissioning or
24. CUT Datatype U16 Unit Def 1 P Group FUNC Active first confirm QuickComm No Max 6 Configures automatic restart function Possible Settings O Disabled 1 Trip reset after power on P1211 disabled 2 Restart after mains blackout P1211 disabled 3 Restart after mains brownout or fault P1211 enabled 4 Restart after mains brownout P1211 enabled 5 Restart after mains blackout and fault P1211 disabled 6 Restart after mains brown blackout or fault P1211 disabled Dependency Automatic restart requires constant ON command via a digital input wire link Caution N P1210 gt 2 can cause the motor to restart automatically without toggling the ON command l Notice A mains brownout is where the power in interrupted and re applied before the display on the BOP if one is fitted to the inverter has gone dark a very short mains break where the DC link has not fully collapsed A mains blackout is where the display has gone dark a long mains break where the DC link has fully collapsed before the power is re applied P1210 0 Automatic restart is disabled P1210 1 The inverter will acknowledge reset faults i e it will reset a fault when the is re applied This means the inverter must be fully powered down a brownout is not sufficed The inverter will not run until the ON command has been toggled P1210 2 The inverter will acknowledge the fault F0003 at power on after blackout and restarts the drive It is nece
25. Offenders will be liable for damages All rights including rights created by patent grant or registration of a utility model or design are reserved Siemens AG 2001 2002 2004 All Rights Reserved MICROMASTER is a registered trademark of Siemens Printed in the Federal Republic of Germany Other functions not described in this document may be available However this fact shall not constitute an obligation to supply such functions with a new control or when servicing We have checked that the contents of this document correspond to the hardware and software described There may be discrepancies nevertheless and no guarantee can be given that they are completely identical The information contained in this document is reviewed regularly and any necessary changes will be included in the next edition We welcome suggestions for improvement Siemens handbooks are printed on chlorine free paper that has been produced from managed sustainable forests No solvents have been used in the printing or binding process Document subject to change without prior notice Siemens Aktiengesellschaft MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameters MICROMASTER Parameters MICROMASTER 420 This Parameter List must only be used together with the Operating Instructions of the MICROMASTER 420 Please pay special attention to the Warnings Cautions Notices and Notes contained in these manuals Table of Contents
26. P0100 2 no P0100 1 yes lt v v v Power in kW Power in kW Power in hp Frequency 50 Hz Frequency 60 Hz Frequency 60 Hz P0100 0 P0100 2 P0100 1 Notice P0100 setting 2 gt kW frequency default 60 Hz is not overwritten by the setting of DIP switch 2 see diagram above P0199 Equipment system number Min 0 CStat UT Datatype U16 Unit Def 0 P Group Active first confirm QuickComm No 255 Equipment system number This parameter has no operation effect MICROMASTER 420 Parameter List 28 6SE6400 5BAO0 0BPO Issue 10 06 Parameter Description r0200 Act power stack code number Min Datatype U32 Unit Def P Group INVERTER Max Identifies hardware variant as shown in table below No MLFB kW Filter Size 1 3AC200 240V 10 10 47 63Hz 1 3AC200 240V 10 10 47 63Hz 1 3AC200 240V 10 10 47 63Hz 1 3AC200 240V 10 10 47 63Hz 1 3AC200 240V 10 10 47 63Hz 6 6SE6420 2UC21 1BAx 1 3AC200 240V 10 10 47 63Hz 11 no B 1 3AC200 240V 10 10 47 63Hz 1 5 no B 8 6SE6420 2UC22 2BAx 1 3AC200 240V 10 10 47 63Hz 22 B 9 6SE6420 2UC23 0CAx 1 3AC200 240V 10 10 47 63Hz 3AC200 240V 10 10 47 63Hz 3AC200 240V 10 10 47 63Hz 1AC200 240V 10 10 47 63Hz 1AC200 240V 10 10 47 63Hz 1AC200 240V 10 10 47 63Hz 1AC200 240V 10 10 47 63Hz 1AC200 24
27. P2013 4 fixes PKW length Allows access to all parameters but indexed parameters can only be read one index at a time Word order for single word values are different to setting 3 or 127 see example below P2013 127 most useful setting PKW reply length varies depending on the amount of information needed Can read fault information and all indices of a parameter with a single telegram with this setting Example Set P0700 to value 5 0700 2BC hex P2013 3 P2013 4 P2013 127 Master gt MM4 22 0000 0005 22BC 0000 0000 0005 22BC 0000 0005 0000 MM4 Master 12BC 0000 0005 12BC 0000 0000 0005 12BC 0000 0005 MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 115 Parameter Description Issue 10 06 P2014 2 USS telegram off time Min 0 CStat CT Datatype U16 Unit ms Def 0 P Group COMM Active Immediately QuickComm No Max 65535 Defines the telegram failure time for the serial interfaces with USS protocol The telegram failure time defines the time within which a valid telegram must have been received If a valid telegram is not received within the specified time the drive inverter outputs fault F0070 Index P2014 0 Serial interface COM link P2014 1 Serial interface BOP link Notice By default time set to 0 no fault is generated i e watchdog disabled r2015 4 CO PZD from BOP link USS Min Datatype U16 Unit Def P Group COMM Max Displays pr
28. PID controller event controlled de activated activated PID MOP P2254 ADC De Motor PID PID POLO lt P 5 M PID P2253 SUMI IRFGI PT1 2257 2258 P2261 2273 2280 2285 2294 USS BOP link USS P2264 5 COM link 7 1 CB P2265 P2268 P2271 COM link P2200 Q ol E N Si P2267 0 0 Common Settings Parameter Sen 1 P2200 BI Enable PID controller 0 PID controller de activated Dependency Note Setting 1 automatically disables normal ramp times set in P1120 and P1121 and the normal frequency setpoints Following an OFF1 or OFF3 command however the inverter frequency will ramp down to zero using the ramp time set in P1121 P1135 for OFF3 The PID setpoint source is selected using P2253 The PID setpoint and the PID feedback signal are interpreted as values not Hz The output of the PID controller is displayed as Ve and then normalized into Hz through P2000 reference frequency when PID is enabled In level 3 the PID controller source enable can also come from the digital inputs in settings 722 0 to 722 2 for DIN1 to DINS or from any other BiCo source The minimum and maximum motor frequencies P1080 and P1082 as well as the skip frequencies P1091 to P1094 remain active on the inverter output However enabling skip frequencies with PID control can produce instabilities Changes in parameter P2200 are onl
29. S SS9 0 40 uomeanBijuoo 02 gO su sesg9 0 Dou 024 euin Ho 191 GO SAH OY u 49149AU09 oU O peuejsueJ eq jsnuJ 041UOO Sy UOSB 1 SIU 104 pien Buraq se ejep ssoooud ay 1deooe IM G H AUO ay JEU OS SSN BIA ureJeJol y JO PJOM QZd 15114 ay l Jas aq IsNW 0 dig 9 0N Jed aBueyo L 018 16034 8 gt ZPM OH QZd 06021 STET go Al H AL L axy MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 157 PBuiluisueil uo gO 027 HALSVNOHOIN zin 9002809 i urejDeip uonounj pseyyoouogo 0122 EE L uw E E E cg E E YE Y Y x b Issue 10 06 Function Diagrams 0 S 1024 S SS9 0 40 uomneanDijuoo 0 gs SUI Jo 191 JO 91 2604 9170 018 BIA Jed auey dOV Wo3 Jes ejep peojumog Spg dOV Wo4 0 Jes peojumog phg xew did 16224 yezzi indino did 1119 UIW Id 26224 6 2 ndino did 0118 peusiuy Buidwey 6018 21124 92001 9PA 10 8018 una da gt 92001 5 ov zog ulog jes lt J b z D es e sozd enn L 5 Gan bay id 7 iz lllgozd S00J 1 estad 12001 bey toy rOlg es 10119024 ZPMIEIS 127 8 0 124 22001 1 nn JOY eolg 91ON uiu 08014 lt 12001 bay iov 2008 yo Z912d lt 12001 beg mv Log 9 1198 exyeJg
30. a parameter download etc The motor holding brake terminals can then be re used for the motor holding brake in this case it is not permissible to parameterize the system so that the digital output P0748 is inverted 3 In order to hold the motor against the mechanical brake at a certain frequency it is important that the min frequency P1080 approximately corresponds to the slip frequency Ifthe value is selected to be too high then the current drawn can be too high so that the drive inverter trips shuts down due to an overcurrent condition For a low value it is possible that the torque cannot be established to hold the load 4 Itis not permissible to use the motor holding brake as operating brake as generally it is only designed and dimensioned for a limited number of emergency braking operations Note Parameter settings To open close a digital output controls the motor holding brake at point 1 2 refer to the diagram In this case as prerequisite the motor holding brake P1215 must be activated as well as the motor holding brake selected at the digital output Brake opening time P1216 greater than equal to the time for the holding brake to open Brake delay time P1217 greater than equal to the time to close the holding brake Select the minimum frequency P1080 so that it acts like weight equalization Atypical value of the minimum frequency P1080 for the motor holding brake is the slip frequency of the mo
31. default 10096 an alarm message A0511 is output and depending on P0610 a response is initiated or when a shutdown threshold is reached a fault is output MICROMASTER 420 Parameter List 42 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description Trip threshold 1 1 P0614 i2t temp max reduction reaction P0610 P Ke r0027 Motor P0614 Warning threshold P0614 Motor 121 warning level Min 0 0 CStat CUT Datatype Float Unit Def 100 0 P Group MOTOR Active first confirm QuickComm No Max 400 0 Defines the 96 value at which alarm A0511 motor overtemperature is generated The motor temperature will be dependent on many factors including the size of the motor the ambient temperature the previous history of the loading of the motor and of course the load current The square of the current actually determines the heating of the motor and the temperature rises with time hence l t A motor l2t value of P0614 means that the motor has reached its maximum permissible operating temperature The actual l2t value is displayed in parameter 0034 Dependency A motor over temperature trip F0011 is produced at 110 of this level trip 96 26 1 1 P0614 1 1 POD b s ii P0614 Motor temperature class f current speed a ei 2 d H 2 2 ig D p f motor weight cooling
32. jy PZD mapping to parameter r2018 Index r2018 0 Received word 0 r2018 1 Received word 1 r2018 2 Received word 2 r2018 3 Received word 3 Note The control words can be viewed as bit parameters r2036 and r2037 Restrictions f the above serial interface controls the inverter P0700 or P0719 then the 1st control word must be transferred in the 1st PZD word fthe setpoint source is selected via P1000 or P0719 then the main setpoint must be transfered in the 2nd PZD word When P2012 is equal to 4 the additional control word 2nd control word must transferred in the 4th PZD word if the above serial interface controls the inverter P0700 or P0719 MICROMASTER 420 Parameter List 118 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P2019 4 Cl PZD to COM link USS Min 0 0 CStat CT Datatype U32 Unit Def 52 0 P Group COMM Active Immediately QuickComm No Max 4000 0 Selects signals process data PZD to be transmitted to serial interface via USS on COM link E 10053 TC O fe ee ees T r0053 l PZD4 PZD3 PZD2 i PZD1 ZSW2 HW ZSVV SIX Start of text AE NND MM LGE Le ngth ADR Address YT BC A NENNEN BCC Block check character ZSW Status word HIW Main actual value DKW Parameter ID value j PZD Process data USS telegram gt PZD mapping from parameter P2019
33. onsuojoeJeuo uoneyur uoneyur Jojenueaeyia e O J1UOO d J0 e16a u 14 urec 1 191114 027 HALSVNOHOIN z 90078091 uueJ6eip uonoun J suJeJ6eip uonyuni ui sjoqui s psasjoqu s 0100 L e q s Jp s E dq v qx Jd e dq R 4 H AUO y q 4919AUOO G V LON uxa Jequunu JejeujeJeg lt unNd LON 1x8 Jejeure jeg SUMUS LUeieoumg ed HBunopuoN 1ndino 10 9eurg 10128uu02 9186 yO s x pul JOQUINN Jaquinu 19 9uIeJeg lt Te unna uN 1xa 19 jaweJeg ZH sawen ed 19 oweJed BunopuoW 1ndino Joj9auuo ANY unej q unej q s x pul JOQUINN Jequunu J9 9uIeJed e q O uinNd 1X9 SUENE 19JoweJed 6unes indui 10128uu025 Jequunu C unna 1x3 19 9148 18 d SUENE Ele v 1 N e ep 440 pue NO Ael H 330 indino 4012001 nezed e p NO 1 quunu D UINNA un 1x9 wig SueNied Bulnes indui Jojoaulg SJojoureJed 0019 jo no uonoejes pp 010 100 000 s x pul 1equunN 195 eAug pueuiulo2 Jequunu le q O 4equinNd o up 1x9 uq weyd YOUMS O Wed SsJ9jeujejed Duuouuom uosa s x pul jequinN 195 eyep eAug pueuuioo e
34. t P0611 P0640 Motor overload factor Min 10 0 CStat CUT Datatype Float Unit Def 150 0 P Group MOTOR Active Immediately QuickComm Yes Max 400 0 Defines motor overload current limit in relative to P0305 rated motor current Dependency Limited to maximum inverter current or to 400 96 of rated motor current P0305 whichever is the lower min r0209 4 P0305 P0305 P0640max 100 Details See function diagram for current limitation MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 43 Parameter Description Issue 10 06 3 5 Command source P0700 Selection of command source Min 0 CStat CT Datatype U16 Unit Def 2 P Group COMMANDS Active first confirm QuickComm Yes Max 6 Selects digital command source Possible Settings O Factory default setting 1 BOP keypad 2 Terminal 4 USS on BOP link 5 USS on COM link 6 CB on COM link Example Changing form P0700 1 to P0700 2 sets all digital inputs to default settings BOP Terminals USS BOP link USS COM link B COM link gt Sequence control Setpoint Motor channel control Notice Setting 4 USS on BOP link is also used for STARTER via PC connection kit or AOP control Setting 5 USS on COM link is used for remote AOP communications via RS485 Caution N Be aware by changing of parameter P0700 all Bl parameters are reset to the default value or modified as listed in the table below If the Inverter is b
35. 0 81224 ZiZgd 91 22d g enba suonoejes apou 44 IIE j 1 00 09 0224 00 003 00 002 Z dies ld p x d 00 09 90 2d e 00 003 00 002 9 dies did p xi d 0010 S0ZZd 00 003 00 002 q dies did pexiJ 00 0 vt0ZZd 00 003 00 002 y des ld 1 00 02 6022 00 003 00 002 dies did p xi d 00 01 ZO0 2d 00 002 00 002 c dies id p xi i 0010 LOZZd 00 002 00 002 dias did p xi i 7 0 0 Zeced 1 8122d c 1g lt d1es q d q 7 z iig das 014 Xi 27 kin 00 LZZZd 1 ZLzZd 11g lt d1es gid ig CE ug dies gia xij 77 73 0 9 0222d 1 91224 0 ug lt dies Uld 19 Geck 0 ug das qid xi MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 163 Issue 10 06 Function Diagrams 027 HALSV NOHOLN zin 9007809 uo noung lt 094221 dies dino JON 09 1 zezzd ue 9J GOW Ald Ou PS dOlNdld 007 Odd dON dld 0 1400 118 S indino dOW dlId 0 Lezzd pg wau 0195 dOW dld 00 0L Or ZZd 00 002 00 002 dOW dld 10 dias o o dOW Gld 4e1euonuejog 1010 Ald 329 05 1uiodieg euJeju o ZH 007099 0070 A ou nb li XEVN M mdi 00709 Z80Ld T 001 00 0S OLEOd ZH 00 0S9 00 ZL v 1 61 9 22 NMQ dOW dld 18 81 61 GEZZd dN dOW dld 18 MICROMASTE
36. 1 P0927 11 I ll Bits 0 1 2 and 3 reset This setting allows no parameters to be modified via any interface with the exception of P0003 and P0927 If all bits are reset the parameter is displayed on BOP as follows BOP Li I d d P0927 VK Details The seven segment display is explained in the Introduction to MICROMASTER System Parameters in this handbook r0947 8 CO Last fault code Min Datatype U16 Unit Def P Group ALARMS Max Displays fault history according to the diagram below where F1 is the first active fault not yet acknowledged F2 is the second active fault not yet acknowledged F1e is the occurrence of the fault acknowledgement for F1 amp F2 MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 65 Parameter Description 66 Index Issue 10 06 This moves the value in the 2 indices down to the next pair of indices where they are stored Indices 0 4 1 contain the active faults When faults are acknowledged indices 0 amp 1 are reset to 0 r0947 0 r0947 1 r0947 2 r0947 3 r0947 4 r0947 5 r0947 6 r0947 7 r0947 0 r0947 1 r0947 2 094713 r0947 4 r0947 5 r0947 6 r0947 7 Example If the inverter trips on undervoltage and then receives an external trip before the undervoltage is acknowledged you will obtain r0947 0 3 Flet Ss Pier Recent fault trip fault 1 Recent fault trip fault 2 Recent fault
37. 4 1 1 1 2 1 3 2 2 1 2 2 2 3 2 4 2 5 2 6 2 7 3 3 1 3 2 3 3 3 4 3 5 3 6 3 7 3 8 3 9 3 10 3 11 3 12 3 13 3 14 3 15 3 16 3 17 3 18 3 19 3 20 3 21 Block Diagram and Terminals 7 9 A EA cL 7 mol Is MEE idni in icit eb HC a ass 8 Control Terminals ooonccccccccnnnnnnccconnnncnoconnnnnnnononnnnnnononnnnnnnnnnanennnnononnnnnnnns 8 EE 9 Introduction to MICROMASTER System Parameters 9 Quick commissioning P0010 1 2 12 Binector Input Parameters U u uuu 14 Connector Input Parameters 14 Binector Output Parameters 322 833 3 14 Connector Output Parameters 15 Connector Binector Output Parameters 15 Parameter Descriptor 16 COMMON DaraIMmeters 5 Du ea oe dal 16 Diagnosis parameters 20 Inverter parameters HW 28 M t r parameters criar aaa 33 Commmand source o A isyu 44 Digital rel ei KEE 46 Balen e ai 51 PATAGIOG INP citado 53 Analog OUMU za id Ba aero 58 BICO command parameiers a 61 Communication parameters 65 SEWON SOUCO aa onore tendi olia tus iria ege cada baa Ou era 70 Fixed TreailellCleS veces veu Ko cosas A 72 Moto
38. 755 MOP setpoint MOP setpoint MOP setpoint MOP setpoint MOP setpoint MOP setpoint MOP setpoint Analog setpoint Analog setpoint Analog setpoint Analog setpoint Analog setpoint Analog setpoint Analog setpoint Fixed frequency Fixed frequency Fixed frequency Fixed frequency Fixed frequency Fixed frequency Fixed frequency USS on BOP link USS on BOP link USS on BOP link USS on BOP link USS on BOP link USS on BOP link USS on BOP link USS on COM link USS on COM link USS on COM link USS on COM link USS on COM link USS on COM link on COM link on COM link on COM link on COM link on COM link on COM link Issue 10 06 Min 0 Unit Def 2 QuickComm Yes Max 66 P1075 Cl Additional setpoint r1050 CO Act Output freq of the MOP P1070 CI Main setpoint r0755 CO Act ADC after scal 4000h MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description Sequence control F i P1000 12 Additonal setpoint USS Setpoint Motor BOP link l channel control USS P1000 12 Main setpoint COM link P CB COM link Caution N Be avvare by changing of parameter P1000 all BICO parameters see table belovv are modified Note Single digits denote main setpoints that have no additional setpoint Changing this parameter sets to default all settings on item selected see table P1000 xy y 2 y 4 gt gt lt P1000 Example P1000 21 gt P107
39. Analog 2 setp Setpoint BICO parameter Setpoint MOP setpoint Setpoint Analog setpoint Setpoint Fixed frequency Setpoint USS on BOP link Setpoint USS on COM link Setpoint Analog 2 setp Setpoint BICO parameter Setpoint MOP setpoint Setpoint Analog setpoint Setpoint Fixed frequency Setpoint USS on BOP link Setpoint CB on COM link Setpoint Analog 2 setp P0719 0 1st Control source Remote P0719 1 2nd Control source Local Using parameter P0719 it is possible to select the command or setpoint sources without changing the BICO connections this is contrary to P0700 P1000 However it is not possible to change the complete connection table refer to PO700 and P1000 Using P0719 depending on the value only the BICO parameters listed in the following table are internally overwritten this means that these BICO parameters are inactive MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 49 Parameter Description Issue 10 06 Command source X BICO parameter active BICO parameter inactive BICO connections made previously remain unchanged r0720 Number of digital inputs Min Datatype U16 Unit Def P Group COMMANDS Max Displays number of digital inputs r0722 CO BO Binary input values Min Datatype U16 Unit Def P Group COMMANDS Max Displays status of digital inputs Bitfields Bit00 Digital input 1 0 OFF 1 ON Bit01 Digital input 2 0 OFF 1 ON Bit02
40. Binector output i e parameter connects as a binary signal CI Connector input i e parameter selects the source of an 999 analog signal CO Connector output i e parameter connects as an analog signal i i CO BO Connector Binector output i e parameter connects as an analog signal and or as a binary signal To make use of BiCo you will need access to the full parameter list At this level many new parameter settings are possible including BiCo functionality BiCo functionality is a different more flexible way of setting and combining input and output functions lt can be used in most cases in conjunction with the simple level 2 settings The BiCo system allows complex functions to be programmed Boolean and mathematical relationships can be set up between inputs digital analog serial etc and outputs inverter current frequency analog output relays etc MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 9 Parameters 10 3 10 11 12 Issue 10 06 CStat Commissioning status of the parameter Three states are possible Commissioning C Run U Ready to run T This indicates when the parameter can be changed One two or all three states may be specilied If all three states are specified this means that it is possible to change this parameter setting in all three inverter states P Group Indicates the functional group of the particular Note Parameter P0004 parameter filter acts as a filte
41. Def 10 0 P Group CONTROL Active Immediately QuickComm No Max 100 0 Defines the FCC starting frequency as a percentage of the rated motor frequency P0310 When FCC is activated using P1300 1 then as a function of the FCC starting frequency plus hysteresis and the actual frequency a changeover is made with a continuous transition between the linear V f characteristic P1300 0 and FCC refer to the diagram PO310 P1333 mo fFcc 10 5g P1333 6 Switch over gt fecc Hys Notice A value that is excessively low can result in instability The constant voltage boost P1310 is continuously de activated essentially the same as when switching in FCC Contrary the voltage boosts P1311 and P1312 remain active over the complete frequency range MICROMASTER 420 Parameter List 104 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description 3 25 1 Slip compensation P1335 Slip compensation Min 0 0 CStat CUT Datatype Float Unit Def 0 0 P Group CONTROL Active Immediately QuickComm No Max 600 0 Dynamically adjusts output frequency of inverter so that motor speed is kept constant independent of motor load In the V f control the motor speed will always be less than the command speed due to the slip speed For a given speed command the speed will drop as load is increased The speed regulation of drive can be improved by the technique known as slip co
42. Digital input 3 0 OFF 1 ON Bit03 Digital input 4 via ADC 0 OFF 1 ON Note Segment is lit when signal is active P0724 Debounce time for digital inputs Min 0 CStat CT Datatype U16 Unit Def 3 P Group COMMANDS Active Immediately QuickComm No Max 3 Defines debounce time filtering time used for digital inputs Possible Settings O Nodebounce time 1 2 5 ms debounce time 2 8 2 ms debounce time 3 12 3 ms debounce time MICROMASTER 420 Parameter List 50 6SE6400 5BA00 0BP0 Issue 10 06 Parameter Description P0725 PNP NPN digital inputs Min 0 CStat CT Datatype U16 Unit Def 1 P Group COMMANDS Active Immediately QuickComm No Max 1 Switches between active high PNP and active low NPN This is valid for all digital inputs simultaneously The following is valid by using the internal supply Possible Settings O NPN mode gt low active 1 PNP mode gt high active Value NPN Terminals 5 6 7 must be connected via terminal 9 O V PNP Terminals 5 6 7 must be connected via terminal 8 24 V 3 7 Digital outputs r0730 Number of digital outputs Min Datatype U16 Unit Def P Group COMMANDS Max Displays number of digital outputs relays MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 51 Parameter Description Issue 10 06 P0731 BI Function of digital output 1 Min 0 0 CStat CUT Datatype U32 Unit Def 52 3 P Group COMMANDS Active first confirm QuickComm No Ma
43. Hg spow 44 81014 210147 91014 e jenbe suono s spow 337 II J 1 7 0 Baws 0 0 1201 1 ZLOLd L Wa 195 418 5 16 44 57 Te 0 0 02014 1 91014 0 1g 1195 44 19 7 0 4g epou 44 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 161 Issue 10 06 Function Diagrams 027 HALSV NOHOLN zin 9007809 ueibepuopounj par aras 008 pepoo 114 4ulodl s qid pextJ 329 05 1uiodieg euJeju Lum Cj un o qno m EE E Y 00 02 2022 00 002 00 002 dies did lt 2 1 G AL dies od p xi i 00 01 2022 194 00 002 00002 MS c dies did 14 O 0 0 0070 LOZZd Ed 00 002 00 002 d s Cid 13 1 8LZ2d ERE z Hg d19s gid xi 1 ZLzZd 7 ug dies did xij fi 1 9LZ2d 5 0 Hg das qid xij 527 Py ZeZZd 1 gizza z Ug lt d1as d d q e Z Hg d s gid xiJ d 0 T 0 0 1222 4ized 119 099 aiaig Ge Hg dies gig xi 0 0 0 0222 ass 099 098 dld 18 0 18 0195 gd xij E MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 162 Function Diagrams Issue 10 06 027 HALSVNOHOIN zin 9002780791 ueibepuopounj par aras oit pepoo Ayeulg julodias dd pextiJ e9oJnog 1uiodieg euJeju Lum E E YE Y j cs TT w UE jq e Jn E A o vaca dies qiq p xiq L440 13 99 0 S SEO JBU jO IIE 104
44. IM Y 1501 os sa9e 19 u1 EH S WO p AI95 1 weba y JO pJOM Zd 15114 Sy ui Jos aq JSNW liq SIY 9 0N Jeuueuo jurod as Ioluo5 eouenbes auueyo jurod as I0nu09 eouenbes 1 o33u09 eouenbes Jeuueuo jurod as jurod as Jeuueuo juriod as suni 101u02 eouenbes euueuo jurod as 0o1 uo9 Bulyesg o quo9 eouenbes 01 uo9 Bulyesg JO4JU0D eouenbes auueyo jurod as 0o1 uo9 Bulyesg Ioluo5 eouenbes ronn C Y ttil LEMN PV Og OO 2 0 ug 500 ON 0 LO UMOP JON 189189uuollu lod 100 ON 0 dn JON 1818uuollu lod 101014 ON 0 p lqes p 0 19 1U10d19S 1d W014 ou09 ON 0 OTd WO ONUOD 48 DOr ON 0 14u ON 1ney ON 0 l qesip julodjas 0 ejgeue jurodjes 944 DJY dois 0 Hes 94H 001 94H 195 0 giqeus HAY e qesip sind e qeue es ng uonipuoo Bunelado dois 158 440 uonipuoo Bunelado umop 515800 10 0UJ Sjqesip asind dojs eou199 3 244 uonpuos amp ugeuedo NO lqesip sind Aq dwes ei uwopinus 14 40 NO FS001 Jo oureJeg 0 0 01804 wax 90 04 SG 19 71 61 92014 4 eIgeu3 ig 81 61 S 0Ld dN dOW a1qeuz 19
45. JnyeJeduio 4010J A 0022 zH 94H dies O2 6 21 6111 96 indino gia PV O R J91P1UOO did WNS DJH Wav SRS 9 lt 6201 lt 8 04 zH deebau s zH dies bey 101 09 Sor MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 176 senj eA ejdsip pue sindino Bojeuy 0008 02 cu 9007809 ASA 3 00 gt E E E E gg p wv E w j e Te 65 177 Function Diagrams Issue 10 06 son eA BOUSIOJOY yy 9e04 A 9PA 19v 02 2008 v no dyno yoy lt som A HOA dino ov lt roc ZH ba dino ov 09 Boe A AA ZH Aousnbey 19y 22001 i uiuu peeds 10101 Joy 02 08 04 00 04 0270 0766666 0 66666 I eos DWO Z amen 1898 OVG Lx anjen ZH 944 esojeq di9s 09 ONSISJOBIeyo Ova ZH dies bey 15v 09 0022 o Joie Sjrejeq sindino anbo euy S niPA ejdsiq MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 Function Diagrams Issue 10 06 MICROMASTER 420 Parameter List 178 6SE6400 5BA00 0BP0 Issue 10 06 5 1 F0001 Faults and Alarms Faults and Alarms Fault messages In the event of a failure the inverter switches off and a fault code appears on the display NOTE To reset the fault code one of three methods listed below can be used 1 Cycle the power
46. MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 Issue 10 06 Parameter Description 3 28 Reference parameters P2000 Reference frequency Min 1 00 CStat CT Datatype Float Unit Hz Def 50 00 P Group COMM Active first confirm QuickComm No Max 650 00 Parameter P2000 represents the reference frequency for frequency values which are displayed transferred as a percentage or a hexadecimal value Where hexadecimal 4000 H gt P2000 e g USS PZD percentage 100 96 gt P2000 e g ADC Example If a BICO connection is made between two parameters or alternatively using P0719 or P1000 the unit of the parameters standardized Hex or physical i e Hz values may differ MICROMASTER implicitly makes an automatic conversion to the target value r0021 5 USS PZD _ r00211Hz gt d BOP link az Hex x Hz y Hex P1070 USS PZD r2015 1 pe 2 gt gt nae one BOP link d er x Hex y Hz Caution N Parameter P2000 represents the reference frequency of the above mentioned interfaces A maximum frequency setpoint of 2 P2000 can be applied via the corresponding interface Unlike parameter P1082 Max Frequency this limits the inverter frequency internally independent of the reference frequency By modification of P2000 it will also adapt the parameter to the new settings f Hex UN PZD Setpoint Motor biz channel f act A f actlimit Control f 96 ADC Normalization Limitation f Hz
47. MOTOR Max Displays calculated rotor time constant ms 40 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description r0386 Total leakage time constant Min Datatype Float Unit ms Def P Group MOTOR Max Displays total leakage time constant of motor r0395 CO Total stator resistance 96 Min Datatype Float Unit 96 Def P Group MOTOR Max Displays the actual stator resistance combined stator cable resistance of the motor as a 96 as a function of the actual stator winding temperature Note Rated motor impedance Zi M ph __Vn___ PO304 _ lt gt 100 lon 43 43 P0305 P0610 Motor 12t reaction Min 0 CStat CT Datatype U16 Unit Def 2 P Group MOTOR Active first confirm QuickComm No Max 2 Defines reaction when motor 121 reaches warning threshold Possible Settings O Warning no reaction no trip 1 Warning Imax reduction trip 0011 2 Warning no reaction trip F0011 Dependency See parameter P061 1 P0614 Note P0610 1 If the max permissible current Imax is reduced this results in a lower output frequency The motor t monitoring function is used to protect the motor against overheating The motor temperature will be dependent on many factors including the size of the motor the ambient temperature the previous history of the motors loading and of course the load current The square of the current actually determines the heating of the
48. Max 4000 0 Selects second source of fault acknowledgement Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 P2106 Bl External fault Min 0 0 CStat CT Datatype U32 Unit Def 1 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Selects source of external faults Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 125 Parameter Description Issue 10 06 r2110 4 CO Warning number Min Datatype U16 Unit Def P Group ALARMS Max Displays warning information A maximum of 2 active warnings indices 0 and 1 and 2 historical warnings indices 2 and 3 may be viewed Index r2110 0 Recent Warnings warning 1 r2110 1 Recent Warnings warning 2 r2110 2 Recent Warnings 1 warning 3 r2110 3 Recent Warnings 1 warning 4 Note Indices and 1 are not stored The keypad will flash while a warning is active The LEDs indicate the warning status in this c
49. O Disabled 1 Identification of Rs with parameter change 2 Identification of Rs without parameter change Dependency No measurement if motor data incorrect P1910 1 Calculated value for stator resistance see P0350 is overwritten P1910 2 2 Values already calculated are not overwritten Issue 10 06 Note n order to that the motor identification routine supplies the correct data before selecting fast commissioning should be carried out Ifthe motor data identification routine is activated e g P1910 1 then at the next ON command the measuring operation is started and alarm A0541 is generated After the measurement is completed both P1910 and the alarm are reset Notice When choosing the setting for measurement observe the following 1 with parameter change means that the value is actually adopted as P0350 parameter setting and applied to the control as well as being shown in the read only parameters below 2 without parameter change means that the value is only displayed i e shown for checking purposes in the read only parameter r1912 identified stator resistance The value is not applied to the control r1912 Identified stator resistance Min Datatype Float Unit Ohm Def P Group MOTOR Max Displays measured stator resistance value line to line in Ohms Note 110 This value is measured using P1910 1 or 2 i e identification of all parameters with without change
50. Oq 0018 DEOH AO G 1l9 iuBu suni sojo p Lig peoneA o JOJON 2118 exeJq Duipjiou Jojo 2118 ZH 10 02 ju Juano Jozo DUILUEAMA 1119 payoea Aouenbey wnwixey onig loli Tz Te C 2400 o4uoo qza 6018 ewel4 q9 Md 0722 4 4 lt 2900 an en joe julodjas uonel eq 8018 LDAWIEIS 10V Og OO BANOE BUIEN SANO LONA AHDE 101 0 1 9019 usuel l Juusupi eme S440 coug 2440 Old AHOE yne 6018 Buiuuni e uqg 2018 uni o peal 1019 pe i Auq 00119 MICROMASTER 420 Parameter List 65E6400 5BA00 OBPO 158 Function Diagrams Issue 10 06 ZH bay dino JON 02 Oc YJ1SVINOYOIN 2 9002809 ueJ6eip uonoun i PSA JON 001 1 0Ld 50 9819591 JON qluu Odd dON Jolluoo en eA yes 1ndino dOIN 0 LEOLd 00 S 07014 LO zH 00099 00 099 Aow w d s JON u10d S JON k M 00 JOIN 189 8luollu lod 10J0 N 399 05 1uiodieg euJeju ZH 00 089 000 Aouenbaut Xe NMQ dON a1qeuz 19 dN dOW a1qeuy 19 0 224 0v80d LH3O NO I8 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 159 Oc YJ1SVINOYOIN 2 9002809 weep uonounj psw 0022 ooJnog 1ulodjegs euJeju _ 8 2 Y Y e R 7j pepoo 110 44 Aouenbej p xi i Issue 10 06 00 01 60014 E ZH 00 099 00 099 S GU 5
51. PID Setpoint 1 Fixed PID setpoint 7 CStat CUT P Group TECH Datatype Float Active Immediately Defines Fixed PID Setpoint 7 Details See P2201 Fixed PID Setpoint 1 Fixed PID setpoint mode Bit 0 CStat CT Datatype U16 P Group TECH Active first confirm Unit QuickComm Unit QuickComm Unit 96 QuickComm Unit 96 QuickComm Unit 96 QuickComm Unit 96 QuickComm Unit QuickComm NO NO NO NO NO NO NO Min Def Max Min Def Max Min Def Max Min Def Max Min Def Max Min Def Max Min Def Max 200 00 10 00 200 00 200 00 20 00 200 00 200 00 30 00 200 00 200 00 40 00 200 00 200 00 50 00 200 00 200 00 60 00 200 00 Issue 10 06 Fixed frequencies for PID setpoint can be selected in three different modes Parameter P2216 defines the mode of selection Bit O Possible Settings 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command Fixed PID setpoint mode Bit 1 CStat CT Datatype U16 P Group TECH Active first confirm BCD or direct selection Bit 1 for PID setpoint Possible Settings 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command Fixed PID setpoint mode Bit 2 CStat CT Datatype U16 P Group TECH Active first confirm BCD or direct selection Bit 2 for PID setpoint P
52. PMID PPV 09 O09 D AH S D AH S 8 ON LO m ney qeul lxzi 0 D AH S D AH S p lqeu exeJq Od ON 0 peigeue did ON 0 z ug Aou nb li p x ON 0 ug p xi i ON 0 0 ug Aov nb li ON 0 56001 19 J9UIe 1ed t S 9 Z 1glusubas 0 1 90 3d HAS 8 8 6 OLIL ZLEL bl SrigiueuDeg Ae dsip juawbas uanas 0 0 02214 Hq Od lq ud 18 0 0 00224 M did Qeuy 8 0 0 2014 218 199 44 19 0 0 12014 Lug q s 44 18 0 0 02014 Old 1195 34 18 MICROMASTER 420 Parameter List 65E6400 5BA00 OBPO 168 Function Diagrams Issue 10 06 0117 027 HALSV NOHOLN zin 9007809 weibeIp uopoun4 Perizon _ 250014 Pom SNIS suonoun J bojouyoa ER E ow E ER E E qp ole 1 20001 snyejs y BulIzi e 1 10 JOMUOD euJaju ay 51 jo1uos eouenbes ay ejejs 1 au ul aq IIIM e 1 y yey sueauiJ uoiuM indino uf e 0 pejoeuuoo JI H3 LSVINOHOIIN Aq peuenui SI AHDE qne euis 0 26001 47 0d 16204 25001 sreuiwa indino ye Buluuns eAuq p lqes p s sind p peo xyui Oq uni o Apea eAug DEOH AO JeueAut ON DEOH AO 1eueAu 0 LO 1y6u uni JOU s op 100 0 1uBu suni 10
53. Selects motor cooling system used Possible Settings 0 Self cooled Using shaft mounted fan attached to motor 1 Force cooled Using separately powered cooling fan Caution The following combination of parameter setting should not be combined P0610 1 and P0335 00r2 When P0335 0 or 2 the inverter cools the motor using a shaft mounted fan If this is used in conjunction with P0610 the cooling of the motor will be inefficient In essence if the i2t calculation reduces the output frequency then the shaft mounted fan will also reduce its cooling effect the motor will then eventually overheat and trip Exception Applications with variable torque the reduction of max current leeds automatically to a reduction of the load output current Notice Motors of series 1LA1 and 1LA8 have an internal fan This internal motor fan must not be confused with the fan at the end of the motor shaft MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 37 Parameter Description Issue 10 06 P0340 Calculation of motor parameters Min 0 CStat CT Datatype U16 Unit Def 0 P Group MOTOR Active first confirm QuickComm No Max 1 Calculates various motor parameters see table below This parameter is required during commissioning to optimize inverter performance Possible Settings O Nocalculation 1 Complete parameterization Note P0340 1 P0344 Motor weight P0346 Magnetization time P0347 Demagnetization time P0350 S
54. act gt setpoint 0 NO 1 YES Bit07 Act Vdc r0026 lt P2172 0 NO 1 YES Bit08 Act Vdc r0026 gt P2172 0 NO 1 YES Bit09 Ramping finished 0 NO 1 YES Bit10 PID output 2294 P2292 PID min 0 NO 1 YES Bit11 PID output 2294 P2291 PID_max 0 NO 1 YES Bit14 Download data set 0 from AOP O NO 1 YES Bit15 Download data set 1 from AOP O NO 1 YES Note r0053 Bit00 gt see parameter P1233 r0053 1 gt see parameter P2167 r0053 Bit02 gt see parameter P1080 r0053 Bit03 gt see parameter P2170 r0053 Bit04 gt see parameter P2155 r0053 Bit05 gt see parameter P2155 r0053 Bit06 gt see parameter P2150 r0053 07 gt see parameter P2172 r0053 Bit08 gt see parameter P2172 MICROMASTER 420 Parameter List 24 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description r0053 Bit09 Ramping finished gt see below Ramping finished r0053 1 Bit09 0 Details See description of seven segment display given in the Introduction to MICROMASTER System Parameters in this manual r0054 CO BO Act control word 1 Min Datatype U16 Unit Def P Group COMMANDS Max Displays first control word of inverter and can be used to diagnose which commands are active Bitfields Bit00 ON OFF1 O NO 1 YES Bit01 OFF2 Electrical stop YES 1 NO Bit02 OFF3 Fast stop 0 YES 1 NO Bit03 Pulses enabled 0 NO 1 YES Bit04 RFG enable 0 NO 1 YES Bit05 RFG start O NO 1 YES Bit06 Setpoint
55. and Terminals 1 1 Block Diagram PE 1 3 AC 200 240 V 1 3 AC 380 480 V S TUL1 N L2 d 40V Ge or L L1 N L2 L3 JENNA or 2 L1 L2 L3 gt 4 7 KQ y Pl 3 A D A 7 External 24 V 0101 0101 5 5 DIN DIN 2 2 IL gt _DINS o DN 7 5 24 V Output 24 V PNP Max 100 mA br D 8 isolated DC c or 8 F max 100 mA O E 9 9 isolated CPU DC t O 30 V DC 5 A resistive 7 250 V AC 2A inductive Relay 10 46 11 j me o PAC T A 9 20 mA 12 D A lt max 500 Q DAC i 3 1 o 3 Not I P l used 50 Hz 14 RS485 COM link m x m N 15 1 gt DIP switch The analog input circuit canbe Y alternatively configured to provide an additional digital b PE U V VV input DIN4 CB C r Option automatic DIN4 i i Y 24 V MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Block Diagram and Terminals Issue 10 06 1 2 Power Terminals You can gain access to the mains and motor terminals by removing the front covers SDP BOP AOP Push the terminal release and remove cover down Fig 1 1 Removing Front Covers Fig 1 2 Power Terminals 1 3 Control Terminals Terminal Designation Function x r 6 Diz ng 0 8 llsolaed output 24 V max 100mA 9
56. are sub divided into groups P Group according to their functionality This increases the transparency and allows a parameter to be quickly searched for Furthermore parameter P0004 can be used to control the ability to be visualized for the operator panel Waw P Group s s ALWAYS Alpaamees 0300 0399 0600 0699 0700 0749 0800 0899 8 TERMINAL Anaoginpusupus 0750 0799 Parameters marked Quick Comm Yes in the parameter header can only be set when P0010 1 Quick Commissioning Display selection Min 2 CStat CUT Datatype U16 Unit Def 21 P Group FUNC Active first confirm QuickComm No Max 4000 Selects display for parameter r0000 drive display Common Settings 21 Actual frequency 25 Output voltage 26 link voltage 27 Output current P0006 Notice These settings refer to read only parameter numbers rxxxx Details See relevant rxxxx parameter descriptions Display mode Min 0 CStat CUT Datatype U16 Unit Def 2 P Group FUNC Active first confirm QuickComm No Max 4 Defines mode of display for r0000 drive display Possible Settings 0 In Ready state alternate between setpoint and output frequency In run display output frequency 1 In Ready state display setpoint In run display output frequency 2 In Ready state alternate between P0005 value and 0020 value In run display P0005 value 3 n Ready state alternate b
57. des standards sont effectifs partir du 09 Mai 2013 Les changements se rapportent la performance de la fonction protection thermique du moteur des variateurs de vitesse en ceci que lorsque le variateur de vitesse est mis hors tension les donn es thermiques du moteur doivent d sormais tre conserv es jusqu la prochaine mise sous tension et utilisation du produit Une mise jour du software sur les produits suivants a t impl ment e afin de se conformer aux nouveaux standards MICROMASTER 420 software V1 3 ou sup rieur Order No 6SE6420 MICROMASTER 430 software V2 2 ou sup rieur Order No 6SE6430 MICROMASTER 440 software V2 2 ou sup rieur Order No 6SE6440 SINAMICS G1 10 software V1 12 ou sup rieur Order No 6SL3211 SINAMICS G110D software V1 3 ou sup rieur Order No 6SL3511 SINAMICS Pool CU 2 software V4 6 ou sup rieur CU230P 2 CU240E 2 CU240B 2 G120C CU240D 2 CU250D 2 e SIMATIC ET200pro FC 2 software V4 7 ou sup rieur D sormais les produits enregistrent par d faut la temp rature du moteur r0034 pour SINAMICS G110 et MICROMASTER 420 r0035 pour SINAMICS G110D et MICROMASTER 430 440 et r utilisent cette valeur d s que la puissance est r tablie sur l quipement Le parametre P0610 a t modifi afin de refl ter ces changements comme indiqu ci dessous La valeur par d faut du parametre P0610 est d sormais 6 et les r glages suivants
58. frequency Setpoint USS on BOP link Setpoint USS on COM link Setpoint CB on COM link Setpoint Analog 2 setp Setpoint BICO parameter Setpoint MOP setpoint Setpoint Analog setpoint Setpoint Fixed frequency Setpoint USS on COM link Setpoint CB on COM link Setpoint Analog 2 setp Setpoint BICO parameter Setpoint MOP setpoint Setpoint Analog setpoint Setpoint Fixed frequency Setpoint USS on BOP link Setpoint USS on COM link Setpoint CB on COM link Setpoint Analog 2 setp Setpoint BICO parameter Setpoint MOP setpoint Setpoint Analog setpoint Setpoint Fixed frequency Setpoint USS on BOP link Setpoint USS on COM link Setpoint Analog 2 setp Setpoint BICO parameter Setpoint MOP setpoint Setpoint Analog setpoint Setpoint Fixed frequency Setpoint USS on BOP link Setpoint CB on COM link Setpoint Analog 2 setp Unit Resets active faults when changed from 0 to 1 Possible Settings O No fault reset 1 Reset fault Automatically reset to 0 Details r3986 2 144 Index See r0947 last fault code Number of parameters P Group Number of parameters on the drive r3986 0 Read only r3986 1 Read amp write Datatype U16 Unit QuickComm No Min Def Max 200 Min Def Max MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Function Diagrams Issue 10 06 Function Diagrams 4 0L SIS H SAH
59. given if the parameter r0034 has reached the value of P0614 In this case the motor will attempt to reduce the motor loading as defined in P0610 motor I2t temperature reaction MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 21 Parameter Description Issue 10 06 r0036 CO Inverter overload utilization Min Datatype Float Unit 96 Def P Group INVERTER Max Displays inverter overload utilization calculated via 12t model The actual 121 value relative to the max possible 121 value supplies utilization in 96 If the current exceeds the threshold for P0294 inverter 121 overload warning alarm A0505 inverter 121 is generated and the output current of the inverter reduced via P0290 inverter overload reaction If 100 96 utilization is exceeded alarm F0005 inverter 12t is tripped Example Normalized output current r0027 r0207 100 Reaction via PO290 Default current reduction i t r0036 P0294 95 A0505 1 0 Dependency r0036 gt 0 If the nominal current of the inverter is exceeded utilization will be displayed Otherwise 0 utilization is displayed r0037 CO Inverter temperature C Min Datatype Float Unit C Def P Group INVERTER Max Displays internal inverter heatsink temperature r0039 CO Energy consumpt meter kWh Min Datatype Float Unit kWh Def P Group INVERTER Max Displays electrical energy used by inverter since display was last rese
60. isolated output 0 Vmax 10mA MICROMASTER 420 Parameter List 8 6SE6400 5BA00 0BP0 Issue 10 06 Parameters 2 Parameters 2 1 Introduction to MICROMASTER System Parameters The layout of the parameter description is as follows 1 Par number 2 Parameter name 9 Min 12 Level index 3 CStat 5 Datatype 7 Unit 10 Def 2 4 P Group 6 active 8 Quick Comm 11 Max 13 Description 1 Parameter number Indicates the relevant parameter number The numbers used are 4 digit numbers in the range 0000 to 9999 Numbers prefixed with an r indicate that the parameter is a read only parameter which displays a particular value but cannot be changed directly by specifying a different value via this parameter number in such cases dashes are entered at the points Unit Min Def and Max in the header of the parameter description All other parameters are prefixed with a P The values of these parameters can be changed directly in the range indicated by the Min and Max settings in the header index indicates that the parameter is an indexed parameter and specifies the number of indices available 2 Parameter name Indicates the name of the relevant parameter Certain parameter names include the following abbreviated prefixes Bl BO CI and CO followed by a colon These abbreviations have the following meanings B A Binector input e parameter selects the source of a binary signal BO
61. time Changeover time b d 2 approx 4 ms jg approx 4 ms CDS active P0719 1 P0719 0 t Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 61 Parameter Description Issue 10 06 P0840 Bl ON OFF1 Min 0 0 CStat CT Datatype U32 Unit Def 722 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Allows ON OFF1 command source to be selected using BICO The first three digits describe the parameter number of the command source the last digit denotes the bit setting for that parameter The default setting ON right is digital input 1 722 0 Alternative source possible only when function of digital input 1 is changed via P0701 before changing value of P0840 act inverter P2168 16 2 I fo tdown OFF1 5 tdown OFF1 P1121 P1082 P1120 A P1121 10052 Bit02 Operation Pulse t cancellation Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 t
62. to be transmitted to serial interface via USS on BOP link SS Ee r0053 EENG TC NGC BEE A r0053 PZD4 2 PZD2 i 2 1 ZSW2 HW ZSVV STX Start of text LGE Length ADR Address PKW Parameter ID value PZD Process data BCC Block check character ZSW Status word HW Main actual value USS telegram PZD mapping from parameter P2016 pelutt USS on BOP link Index P2016 0 Transmitted word 0 P2016 1 Transmitted word 1 P2016 2 Transmitted word 2 P2016 3 Transmitted word 3 Example P2016 0 52 0 default In this case the value of r0052 0 CO BO Status word is transmitted as 1st PZD to the BOP link Note If r0052 not indexed display does not show an index 0 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 117 Parameter Description Issue 10 06 r2018 4 CO PZD from COM link USS Min Datatype U16 Unit Def P Group COMM Max Displays process data received via USS on COM link 2036 2037 204 PZD3 PZD2 PZD1 STW2 HSW STW1 lt P2012 gt STX Start of text 4 LGE Length i ADR Address PZD PKW BCC Process data Parameter hor Los six USS telegram PKVV Parameter ID value PZD Process data BCC Block check character STW Control word HSW Main setpoint USS on COM link
63. trip 1 fault 3 Recent fault trip 1 fault 4 Recent fault trip 2 fault 5 Recent fault trip 2 fault 6 Recent fault trip 3 fault 7 Recent fault trip 3 fault 8 0 PL D lt iFle Undervoltage F0003 10947 1 85 External trip F0085 Active Fault Codes Most recent Fault Codes 1 Most recent Fault Codes 2 Most recent Fault Codes 3 Whenever a fault in index is acknowledged F16 the fault history shifts as indicated in the diagram above Dependency Index 1 used only if second fault occurs before first fault is acknowledged Details See Faults and Warnings MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO r09481121 CO Fault time Min Datatype U16 Def P Group ALARMS Max Time stamp to indicate when the fault has occurred Index ro948 0 Recent fault trip time stamp r0948 1 Recent fault trip time stamp r0948 2 Recent fault trip time stamp ro948 3 Recent fault trip 1 time stamp r0948141 Recent fault trip 1 time stamp r0948 5 Recent fault trip 1 time stamp ro948 6 Recent fault trip 2 time stamp r0948 7 Recent fault trip 2 time stamp ro948 8 Recent fault trip 2 time stamp ro948 9 Recent fault trip 3 time stamp r09481101 Recent fault trip 3 time stamp r0948 11 Recent fault trip
64. 0 1050 0 P1071 1 0 P1075 755 0 P1076 1 0 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 71 Parameter Description Issue 10 06 3 13 Fixed frequencies P1001 Fixed frequency 1 Min 650 00 CStat CUT Datatype Float Unit Hz Def 0 00 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 1 There are three options available for selection of the fixed frequencies 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command 1 Direct selection P0701 P0703 15 n this mode of operation 1 digital input selects 1 fixed frequency f several inputs are active together the selected frequencies are summed E g FF1 FF2 FF3 2 Direct selection ON command P0701 P0703 16 The fixed frequency selection combines the fixed frequencies with an ON command n this mode of operation 1 digital input selects 1 fixed frequency f several inputs are active together the selected frequencies are summed E g FF1 FF2 FF3 3 Binary coded selection ON command P0701 P0703 17 Up to 7 fixed frequencies can be selected using this method The fixed frequencies are selected according to the following table Example Binary coded selection Direct selection of FF P1001 via DIN 1 P0701 15 or PO701 99 P1020 722 0 P1016 1 P0702 15 or P0702 99 P1021 722 1 P1017 1 P1016 DIN2 r0722 1
65. 0 0BPO 135 Parameter Description Issue 10 06 P2235 BI Enable PID MOP UP cmd Min 0 0 CStat CT Datatype U32 Unit Def 19 13 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source of UP command Common Settings 722 0 Digital input 1 requires PO701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 19D Keypad UP button Dependency To change setpoint 1 Use UP DOWN key on BOP or 2 Set P0702 P0703 13 14 function of digital inputs 2 and 3 P2236 BI Enable PID MOP DOWN cmd Min 0 0 CStat CT Datatype U32 Unit Def 19 14 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source of DOWN command Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 19 E Keypad DOWN button Dependency To change setpoint 1 Use UP DOWN key on BOP or 2 Set P0702 P0703 13 14 function of digital inputs 2 and 3 P2240 Setpoint of PID MOP Min 200 00 CStat CUT Datatype Float Unit Def 10 00 P Group TECH Active Immediately QuickComm No Max 200 00 Setpoint of the motor potentiometer Allows user to set a digital PID setpoint in 95
66. 0 19 04 10 0S SSO Bis uo ejeq 28401 A indul Y 00L 0 1920d 01 65 04 0 5 04 0 95 04 A 0170 A 0170 A 01770 0 ulpiA pueqpeep OqV 1225 DAV ZX anea qeos Lx anea 10 d 0 95 04 20 Oqv jo d L N n 0 0 8920d Y 666666 6 66666 eos DQV L anjen 65 04 su 0000 770 07001 09 04 2Qv aun uloous Y 666666 6 66666 eos DQV Z amen OQv indu 6ojeuy s998 19 u eula x3 L ua d E E E s E Y YE E qn b indur Bojeuy I 9 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 150 Function Diagrams Issue 10 06 027 YJLSVINOYOIAN zin 9002780791 ova Indino Bojeuy weep uogounj pswowa 0062 S998 19 U euJa x3 5208 E 4 TT 9 j s qd T e 07 e 1 398 01 lt 9820 PM 1215 OVC 8 4 AA 7 0 12 is m HA indjno Bojeuy o OVQ 19 777 0 2 04 TP 0c 1770 2 LZ0d feos IVA LA PA area qe sui 0001 7 02 08 04 vuij nigA Ova 19v 0270 Teos 9yqrz anjen yu O Y 000p 07001 6 04 0 0 04 066666 0 66666 0 66666 0 66666 eos OVG 2x MIBA eos OVd VX 0 1820d 0 9 04 0646 00 ylpim pueqpeep ovda Ova jo d L MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 151 Issue 10 06 Function Diagrams Oc HALSV NOHOLN zin 9007809 ueibepuopo
67. 000 Defines DC link voltage to be compared to actual voltage as illustrated in the diagram below Vac P2172 Vao act lt P2172 roo53 1 Bit07 0 t Vac act gt P2172 r0053 1 Bit08 P2173 Note This voltage controls bits 7 and 8 in status word 3 r0053 Changing this threshold does not change the threshold of F0002 Overvoltage P2173 Delay time DC link voltage Min 0 CStat CUT Datatype U16 Unit ms Def 10 P Group ALARMS Active Immediately QuickComm No Max 10000 Defines delay time prior to activation of threshold comparison Details See diagram in P2172 threshold DC link voltage MICROMASTER 420 Parameter List 130 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P2179 Current limit for no load ident Min 0 0 CStat CUT Datatype Float Unit Def 3 0 P Group ALARMS Active Immediately QuickComm No Max 10 0 Threshold current for A0922 load missing in 96 relative to PO305 rated motor current as illustrated in the diagram below Load missing act Cur lim no load ID 0 0 10 0 96 ta Pulse enable P2179 3 0 RET Load missing r2197 Bit11 Load missing delay O 10000 ms P2180 2000 V_act 0 Note t may be that the motor is not connected load missing or a phase could be missing f a motor setpoint cannot be entered and the current limit P2179 is not exceeded Alarm A0922 no load applied is issued when delay time P2180 expires
68. 01 26001 cDAWEIS PV Og OO L Z61444 2612 LPM JOHUOW 8 D 800 26001 cDAWEIS PV 8 c 16121 2612 LPM 40140 8 Y S004 S004 ZPMIEIS 19V Og OO zn 01 6 124 sw 0000 0 au 0016 0912 ZH 00 0L 0070 01 99124 sky ba 1s H su 00001 440 aun Aejaq 00 0 SSL d zH 00 0S9 0070 L 1 b li pouseuu L Sa OL 6 124 su 0000 euin OPA 0016 0S LZd zH 00701 000 sky 1 b li 1SAH 00 OSLZd zH 00 01 00 0 s y 4 b li 1S H 00 OSLZd zH 00 01 000 s y 4 b li 1SAH su 0000 0 110 aun ejeq 01 9GL2d 00 0 SS LZd zH 001099 0070 J bay pjoysaxy L 008 2 124 A 0002 pjouseJui 9pA 195 y joe OPA DE J DE J 2L12d lt lioe 9pAl 22124 gt loe 9pAl 0 19E 1 1958 j lt 08 J 1 GGL d gt loe yl V Y SGL d lt le yl MICROMASTER 420 Parameter List 65E6400 5BA00 OBPO 166 Function Diagrams Issue 10 06 027 HALSV NOHOLN zin 9007809 RE SON FS001 pJOM 0 4002 suonoun J bojouyoa o E E qo 49 n E ER EE gn e JE O 10004 Sn s ou Buizi eou 104 9IEMYOS OMJUOD eu19 ut ay 51 jo3u09 eouenbes eu jonuoo eouenbes euueuo 1uiodies Jeuueuo jurodjas euueuo jurod as 2219 snalJoOyd SSN Adwo pileA Buraq se ejep ssoooud ay 1deooe
69. 0757 d P0759 P0757 For scaling of the input the value of y_max and x_min has to be determined This is done by the following equations xu P0760 P0757 P0758 P0759 m n r h P0760 P0758 P0760 P0758 y max Xmax X min P0759 P0757 P0757 P0759 X1 X2 Notice The value x2 of ADC scaling P0759 must be greater than the value x1 of ADC scaling P0757 P0758 Value y1 of ADC scaling Min 99999 9 CStat CUT Datatype Float Unit Def 0 0 P Group TERMINAL Active first confirm QuickComm No Max 99999 9 Sets value of Y1 in as described in P0757 ADC scaling Dependency Affects P2000 to 2002 reference frequency voltage current depending on which setpoint is to be generated P0759 Value x2 of ADC scaling V Min 0 CStat CUT Datatype Float Unit V Def 10 P Group TERMINAL Active first confirm QuickComm No Max 10 oets value of X2 as described in P0757 ADC scaling Notice The value x2 of ADC scaling P0759 must be greater than the value x1 of ADC scaling P0757 P0760 Value y2 of ADC scaling Min 99999 9 CStat CUT Datatype Float Unit Def 100 0 P Group TERMINAL Active first confirm QuickComm No Max 99999 9 Sets value of Y2 in as described in P0757 ADC scaling Dependency Affects P2000 to 2002 reference frequency voltage current depending on which setpoint is to be generated P0761 Width of ADC deadband V Min 0 CStat CUT Datatype Float Unit V
70. 0P 2 CU240E 2 CU240B 2 G120C CU240D 2 CU250D 2 e SIMATIC ET200pro FC 2 software V4 7 o successiva Tali prodotti memorizzano adesso sistematicamente la temperatura del motore r0034 per SINAMICS G110 e MCROMASTER 420 r0035 per SINAMICS G110D e MICROMASTER 430 440 e riutilizzano questo valore alla riaccensione Il parametro P0610 e stato modificato come segue per tenere conto di questo nuovo requisito Il valore predefinito del parametro P0610 e diventato 6 e sono state aggiunte le seguenti impostazioni e Valore 4 solo avviso nessuna reazione nessuna disinserzione memorizzazione della temperatura allo spegnimento Valore5 solo avviso riduzione Imax disinserzione F0011 memorizzazione della temperatura allo spegnimento Valore67 solo avviso nessuna reazione disinserzione F0011 memorizzazione della temperatura allo spegnimento Queste unit presentano impostazioni e valori predefinti differenti Fare riferimento alla lista parametri corrispondente prodotti seguenti non implementeranno l aggiornamento software e di conseguenza non supporteranno i nuovi requisiti e Tutte le varianti MICROMASTER 3 n di ordinazione 6SE32 Tutti i MICROMASTER 410 n di ordinazione 6SE6410 Tutti i MICROMASTER 411 n di ordinazione 6SE6411 Tutti i MICROMASTER 436 n di ordinazione 6SE6436 Tutti i MICROMASTER MMI CM2 n di ordinazione 6SE96 Questi prodott
71. 0V 10 10 47 63Hz 1AC200 240V 10 10 47 63Hz 11 CLA B 1AC200 240V 10 10 47 63Hz 15 CLA B 1AC200 240V 10 10 47 63Hz 22 CLA B 1AC200 240V 10 10 47 63Hz 3AC200 240V 10 10 47 63Hz 3AC200 240V 10 10 47 63Hz 3AC200 240V 10 10 47 63Hz 3AC380 480V 10 10 47 63Hz 3AC380 480V 10 10 47 63Hz 3AC380 480V 10 10 47 63Hz 3AC380 480V 10 10 47 63Hz 3AC380 480V 10 10 47 63Hz 3AC380 480V 10 10 47 63Hz 22 no B 3AC380 480V 10 10 47 63Hz 3 no B 3AC380 480V 10 10 47 63Hz 4 no B 3AC380 480V 10 10 47 63Hz 3AC380 480V 10 10 47 63Hz 3AC380 480V 10 10 47 63Hz 3AC380 480V 10 10 47 63Hz 22 CLA B 3AC380 480V 10 10 47 63Hz 3 CLA B 3AC380 480V 10 10 47 63Hz 4 CLA B 3AC380 480V 10 10 47 63Hz 3AC380 480V 10 10 47 63Hz 3AC380 480V 10 10 47 63Hz Notice Parameter r0200 0 indicates that no power stack has been identified P0201 Power stack code number Min 0 CStat C Datatype U16 Unit Def 0 P Group INVERTER Active first confirm QuickComm No Max 65535 Confirms actual power stack identified MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 29 Parameter Description Issue 10 06 r0203 Act inverter type Min Datatype U16 Unit Def P Group INVERTER Max Type number of actual inverter identified Possible Settings 1 MICROMASTER 420 2 MICROMASTER 440 3 MICRO COM
72. 1 OSZId sw 070001 070 00701 0070 tL 99001 1119 SPA SUIT HIG UI OPA JO ules 2300 L 0 0v LSZLd 1010 1818 09 09 su 0700017 10 1119 OPA SUN Ul 001 rZLd Yo 003 01 198 u p xeuj 9pA MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 171 Issue 10 06 Function Diagrams uoieornuept 10101 04000 VA 027 HALSVNOHOIN z 9007809 uueJ6eip uonoun i ZH 048 aye dies O2 C psA MalA49AQ 000S 99 indino Id PV OO 6221 se V ced c80ld ZH di sb li 101 i 2 27 lt _ 8 011 Ozu uollo l s il Wes WAV Sor 2801 MNS 00 S 6S0 d zH 00 099 00 0 gt fouanbal DOF 00 S 82014 ZH 00 0S9 00 0 lt Ffouanbal O1 UOD JOJO A pue jauueyo julodjas AN LM AQ 1119 did 4603 18 0 992 st co N N A 498Qp391 did 19 0 0 0 0 juiodies did 10 5 o 2 vScod eoJnos 411 did l9 2 LO N a juiodies PPY 410 xX i eos djes ppy 19 0 0 o 2 cO N ix e A O t N Y A dies ppe qesiq ig xO e N k zi A eos dies ule 2 0 992 lt e Y D 5 ureyw 10 LO a gt e qeuy 18 0 0 LO LO a lt 9 8U3 18 MICROMASTER 420 Parameter List 65E6400 5BA00 OBPO 172 Function Diagrams
73. 101N DEOH AO JOJO ON DEOH AO JOJO N 0 co jou exyeJq Burpjou 100 391 98 Duipjou 40101N payyea JOU yu Juano JOIOJA HUN zuana 1040 DuuIEM 0 peuoeai jou ASu nb 1 uinuuixe N 0 peuoeoJ cuanbaJ ulnulxEIN o 1 semje o1uos 024 en eA joe juiodjes UONBInap ON en eA joe 1ulodl s uonei eq 0 BuluJem ON 0 391 98 DUILUEMW ALIQ uo 5 o lqissod 1121 uo ON 1Iqluu NO 64 ON 440 450 ON N 440 Ne ON 0 s sind aaijoe line peigesip sasind 0 uni o peai 104 ALIQ 0 peau jou ALIQ peaJ ALIQ soDesso N soDesso N soDesso N 01Juo9 Bune g soDesso N soDesso N JouJUOD eouenbes soDesso N Buisseooud unejy Iolluo5 eouenbes JO4JUOD eouenbes JO4JU0D eouenbes Joxguoo eouenbes 01u02 eouenbes JoQuoo eouenbes JoQuoo eouenbes 0 L c t S 9 A4 IgiueubDes 8 6 OL LL 2161 PL SL ugiueuDes Aejdsip juawbas uanas senn 29001 LEMES PV 09 09 I 265004 19 J9U1e 1ed MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 169 Issue 10 06 027 HALSV NOHOLN zin 9ooz s09L weibeIp uopun4 erzwsz em 5004 Z snieis suonoun bojouyoa L uw E E ESOS LE E RS E e JL c E 5007 20004 sny
74. 1242 The Compound Brake is an overlay of the DC brake function with regenerative braking effective braking at the ramp after OFF1 or OFF3 This enables braking with controlled motor frequency and a minimum of energy returned to the motor Through optimization of the ramp down time and the compound braking an efficient braking without additional HW components is possible P1236 0 P1236 gt 0 Without Compound braking With Compound braking f set f set u DC link Value P1236 0 Compound braking disabled P1236 1 250 Level of DC braking current defined as a of rated motor current P0305 Dependency Compound braking depends on the DC link voltage only see threshold above It will be active with OFF1 OFF3 and at regenerating conditions It is disabled when DC braking is active Flying start is active Notice Increasing the value will generally improve braking performance however if you set the value too high an overcurrent trip may result If used with dynamic braking enabled as well compound braking will take priority If used with the Vdc max controller enabled the drive behaviour whilst braking may be worsened paticularly with high values of compound braking MICROMASTER 420 Parameter List 96 6SE6400 5BAO0 0BPO Issue 10 06 Parameter Description 3 23 Vdc controller P1240 Configuration of Vdc controller Min 0 CStat CT Datatype U16 Unit Def 1 P Group FUNC Active Immediately Qu
75. 2 OFF3 Min 0 0 CStat CT Datatype U32 Unit Def 1 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines second source of OFF3 The first three digits describe the parameter number of the command source and the last digit denotes the bit setting for that parameter If one of the digital inputs is selected for OFF3 the inverter will not run unless the digital input is active Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 19 0 ON OFF1 via BOP Dependency In contrast to P0848 first source of OFF3 this parameter is always active independent of P0719 selection of command and frequency setpoint Details See parameter P0848 MICROMASTER 420 Parameter List 64 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P0852 Bl Pulse enabling Min 0 0 CStat CT Datatype U32 Unit Def 1 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source of pulse enable disable signal Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to
76. 2 of output characteristic in 96 Dependency Affects P2000 to P2002 referency frequency voltage current depending on which setpoint is to be generated P0780 Value y2 of DAC scaling Min 0 CStat CUT Datatype Float Unit Def 20 P Group TERMINAL Active first confirm QuickComm No Max 20 Defines y2 of output characteristic P0781 Width of DAC deadband Min 0 CStat CUT Datatype Float Unit Def 0 P Group TERMINAL Active first confirm QuickComm No Max 20 Sets width of dead band in mA for analog output mA E H P0780 Y2 P0781 P0778 yl O x PO777 PO779 100 0 X4 X r0785 CO BO Status vvord of DAC Min Datatype U16 Unit Def P Group TERMINAL Max Displays status of analog output Bit O indicates that the value of analog output 1 is negative Bitfields Bit00 Analog output 1 ve 0 NO 1 YES MICROMASTER 420 Parameter List 60 6SE6400 5BAO0 0BPO Issue 10 06 Parameter Description 3 10 BICO command parameters P0800 Bl Download parameter set 0 Min 0 0 CStat CT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source of command to start download of parameter set 0 from attached AOP Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO Dependency 1 The
77. 22 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 19 0 ON OFF1 via BOP Details See parameter P0844 MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 63 Parameter Description Issue 10 06 P0848 Bl 1 OFF3 Min 0 0 CStat CT Datatype U32 Unit Def 1 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines first source of OFF3 The first three digits describe the parameter number of the command source and the last digit denotes the bit setting for that parameter If one of the digital inputs is selected for OFF3 the inverter will not run unless the digital input is active f act inverter P2167 P2168 A 1 f 5 t P1135 2 4 tdown OFF3 down OFF3 P1082 qa P1135 pp r0052 2 Operation Pulse t cancellation Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 19 0 ON OFF1 via BOP Dependency Active only when P0719 lt 10 See parameter P0719 Selection of command setpoint source Note means fast ramp down to Hz through P1135 OFFS is low active Priority of all OFF commands OFF2 OFF3 OFF 1 P0849 Bl
78. 3 time stamp Details Parameter r2114 runtime counter is a possible source of the time stamp When using the runtime counter the time is entered into the first two indices of the fault trip shutdown essentially the same as for r2114 Time 7 when using r2114 Refer to parameter r2114 r0948 0 Last fault trip system time seconds upper word r0948 1 Last fault trip system time seconds lower word ro948 2 0 ro948 3 Last fault trip system time seconds upper word r0948 4 Last fault trip system time seconds lower word r0948 5 r0948 6 Last fault trip system time seconds upper word r0948 7 Last fault trip system time seconds lower word ro948 8 0 r0948 9 Last fault trip system time seconds upper word r0948 10 Last fault trip system time seconds lower word r0948 11 0 Parameter P2115 AOP real time clock is an additional possible source of the time stamp When using the real time counter instead of the system runtime r2114 0 and r2114 1 the value of the real time clock P2115 0 to P2115 2 is read in If the contents of parameter P2115 0 then the system assumes that there was no synchronization with the real time In this case if there is a fault values are transferred from parameter r2114 into parameter P0948 If the contents of parameter P2115 are not equal to zero then a synchronization with real time has taken place In this case if there is a fault the valu
79. 4000H Example If a BICO connection is made between two parameters the unit of the parameters standardized Hex or physical i e A values may differ MICROMASTER implicitly makes an automatic conversion to the target value r0027 USS PZD r0027 A gt NON Hex 4000 Hex BOP link yiTexl CC Hex BO y Hex MICROMASTER 420 Parameter List 112 6SE6400 5BA00 0BP0 Issue 10 06 Parameter Description 3 29 Communication parameters USS CB P2009 2 USS denormalization Min 0 CStat CT Datatype U16 Unit Def 0 P Group COMM Active first confirm QuickComm No Max 1 Enables denormalization for USS Possible Settings O Disabled 1 Enabled Index P2009 0 Serial interface COM link P2009 1 Serial interface BOP link Note If denormalization is enabled the main setpoint word 2 in PZD is not interpreted as 100 4000H but as absolute instead e g 4000H 16384 means 163 84 Hz if this is a frequency Denormalization P2009 1 only works for frequencies and is intended for backwards compatibility with MM3 P2010 2 USS baudrate Min 3 CStat CUT Datatype U16 Unit Def 6 P Group COMM Active first confirm QuickComm No Max 9 Sets baud rate for USS communication Possible Settings 3 1200 baud 2400 baud 4800 baud 9600 baud 19200 baud 38400 baud 57600 baud YO O1 Index P2010 0 Serial interface COM link P2010 1 Serial interface B
80. 50 E V AccBoost 100 V AccBoost 50 ES 5 2 Note See parameter P1310 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 101 Parameter Description Issue 10 06 P1312 Starting boost Min 0 0 CStat CUT Datatype Float Unit Def 0 0 P Group CONTROL Active Immediately QuickComm No Max 250 0 Applies a constant linear offset in relative to PO305 rated motor current to active V f curve either linear or quadratic after an ON command and is active until 1 ramp output reaches setpoint for the first time respectively 2 setpoint is reduced to less than present ramp output This is useful for starting loads with high inertia Setting the starting boost P1312 too high will cause the inverter to limit the current which will in turn restrict the output frequency to below the setpoint frequency lt Boost voltage Validity range 0 Boost end fn fmax P1316 P0310 P1082 where voltage values are given P1312 V StartBoost 100 P0305 P0350 V StartBoost 1 00 V StartBoost 50 2 Example Setpoint 50Hz Ramping up with starting boost During ramp up setpoint changed to 20Hz As soon as setpoint changed starting boost removed because setpoint smaller than present ramp output Note See parameter P1310 r1315 CO Total boost voltage Min Datatype Float Unit V Def P Group CONTROL Max Displays total value of voltage boost in volts P1316 Boost end frequency Min 0 0 CS
81. BIMASTER 411 4 MICROMASTER 410 5 Reserved 6 MICROMASTER 440 PX 7 MICROMASTER 430 r0204 Power stack features Min Datatype U32 Unit Def P Group INVERTER Max Displays hardware features of power stack Bitfields Bit00 DC input voltage 0 NO 1 YES BitOl RFI filter 0 NO 1 YES Note Parameter r0204 0 indicates that no power stack has been identified r0206 Rated inverter power kW hp Min Datatype Float Unit Def P Group INVERTER Max Displays nominal rated motor power from inverter Dependency Value is displayed in KW or hp depending on setting for P0100 operation for Europe North America 0206 hp 0 75 r0206 KW r0207 2 Rated inverter current Min Datatype Float Unit A Def P Group INVERTER Max Displays rated output current of inverter r0207 0 Rated inverter current r0207 1 Rated motor current r0208 Rated inverter voltage Min Datatype U32 Unit V Def P Group INVERTER Max Displays nominal AC supply voltage of inverter Value r0208 230 200 240 V 10 r0208 400 380 480 V 10 r0208 575 500 600 V 10 r0209 Maximum inverter current Min Datatype Float Unit A Def P Group INVERTER Max Displays maximum output current of inverter Dependency Parameter r0209 depends on the derating which is affected by pulse frequency P1800 ambient temperature and altitude The data of deration is given in the Operating In
82. COM link r2030 1 Serial interface BOP link r2031 2 USS length error Min Datatype U16 Unit Def P Group COMM Max Displays number of USS telegrams with incorrect length Index r2031 0 Serial interface COM link r2031 1 Serial interface BOP link r2032 BO CtrIWrd1 from BOP link USS Min Datatype U16 Unit Def P Group COMM Max Displays control word 1 from BOP link word 1 within USS Bitfields Bit00 ON OFF1 O NO 1 YES Bit01 OFF2 Electrical stop O YES 1 NO Bit02 OFF3 Fast stop 0 YES 1 NO Bit03 Pulses enabled 0 NO 1 YES Bit04 RFG enable 0 NO 1 YES Bit05 RFG start O NO 1 YES Bit06 Setpoint enable 0 NO 1 YES Bit07 Fault acknovledge 0 NO 1 YES Bit08 JOG right 0 NO 1 YES Bit09 JOG left 0 NO 1 YES Bit10 Control from PLC NO 1 YES Bit11 Reverse setpoint inversion 0 NO 1 YES 1 13 Motor potentiometer MOP up 0 NO 1 YES Bit14 Motor potentiometer MOP down 0 NO 1 YES Bit15 Local Remote 0 NO 1 YES MICROMASTER 420 Parameter List 120 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description r2033 BO CtrIWrd2 from BOP link USS Min Datatype U16 Unit Def P Group COMM Max Displays control word 2 from BOP link i e word 4 within USS Bitfields Bit00 Fixed frequency Bit 0 0 NO 1 YES Bit01 Fixed frequency Bit 1 0 NO 1 YES Bit02 Fixed frequency Bit 2 0 NO 1 YES Bit08 PID enabled 0 NO 1 YES Bit09 DC brake enabled 0 NO YES Bit13 External fault 1 0 YES 1 NO Dependency P0700
83. CT Datatype U16 Active first confirm Selects frequency setpoint source The selection of settings is detailed in the following table of possible settings in which the Main setpoint is given by the least significant digit right hand position and the Additional setpoint is given by the most significant digit left hand position Possible Settings Example Setting 12 selects main setpoint 2 derived from analog input with additional setpoint 1 taken from the motor potentiometer Example P1000 12 70 P1000 12 II P1075 1050 No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link USS on COM link CB on COM link No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link USS on COM link CB on COM link No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link USS on COM link CB on COM link No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link USS on COM link CB on COM link No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link USS on COM link CB on COM link No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link USS on COM link No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link CB on COM link 2 ip P y 5 P1000 12 II P1070
84. Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO r2224 CO Act fixed PID setpoint Min Datatype Float Unit Def P Group TECH Max Displays total output of PID fixed setpoint selection Note r2224 100 corresponds to 4000 hex P2231 Setpoint memory of PID MOP Min 0 CStat CUT Datatype U16 Unit Def 0 P Group TECH Active Immediately QuickComm No Max 1 Setpoint memory Possible Settings O PID MOP setpoint will not be stored 1 PID MOP setpoint will be stored P2240 is updated Dependency If O selected setpoint returns to value set in P2240 setpoint of PID MOP after an OFF command If 1 is selected active setpoint is remembered and P2240 updated with current value Details See P2240 setpoint of PID MOP P2232 Inhibit neg PID MOP setpoints Min 0 CStat CT Datatype U16 Unit Def 1 P Group TECH Active first confirm QuickComm No Max 1 This parameter suppresses negative setpoints of the PID MOP output r2250 Possible Settings O Neg PID MOP setpoint is allowed 1 Neg PID MOP setpoint inhibited Note Setting O enables a change of motor direction using the motor potentiometer setpoint increase decrease frequency either by using digital inputs or motor potentiometer up down buttons MICROMASTER 420 Parameter List 6SE6400 5BA0
85. DEOH AO JOJOW 2118 exeJq DUIDIOU JOJON 2118 ZH OY Uu puan 1030 BulWeM 1118 peuoeaJ Aouenbey wnuixey 0116 xis 391 uav C 28004 joe jurodjes uogeeq 8018 LEMES PV 08 BUIUIEM AUQ 2008 101401 NO 9018 1 5 en CO coug 24 8 jneje Aug 6018 Buiuuni e ug 2018 uni o peal SAG 1011g 0018 MICROMASTER 420 Parameter List 65E6400 5BA00 OBPO 156 Function Diagrams Issue 10 06 00Z 027 HALSV NOHOLN zin 9007809 ueJ6eip uonoun J DPSAVNOOUOGO 0022 Bulnis99y Yull NOD uo gO s998 19 u eula x3 L um E E E E E E YY EAS 118 SAD 16s puewwoD ne eula x3 ojuo9 enbJo doaiq pajqeus eyeiq oq Pa qeus id ig SQQ 195 eiep anug 0 ug SQQ 19S ejep anug ug cuanba1 pexi4 z ug cuanba1 pexiJ ug p xi i 0 ug cuanba1 pexiJ ajoway e907 0 ug 500 UMOP JON 189189ulollu lod 1010JA dn JON 418189uuonu lod Joo UOISIOAUI jurodies esje eH Td W014 fonuo2 H l Dor 1yBu xor 9Bpa mouy9e ney 1ulodi s HEM 94H e qgue 94H o qeue asind dois 1s 4 14O 0015 e9u199 3 2440 14 S Lg Hg c Hg Lg 6018 8019 9019 vould 6018 colg 1088 0019 S Lg v Hg Hg Vd 0118 6019 8018 2018 9019 9019 vould 6018 colg 1088 0018 0 s Lpozd
86. Def 0 P Group TERMINAL Active first confirm QuickComm No Max 10 Defines width of deadband on analog input The diagrams below explain its use Example The below example produces a 2 to 10 V analog input to 50 Hz ADC value 2 to 10 V O to 50 Hz P2000 50 Hz P0759 8V P0760 75 96 P0757 2V P0758 096 761 2 756 Oor 1 MICROMASTER 420 Parameter List 56 6SE6400 5BAO0 0BPO Issue 10 06 Parameter Description P0761 and 0 lt P0758 P0760 or gt P0758 gt P0760 100 ASPmax P0760 P0758 V 10V 10026 LL 0767 Po7s9 P0761 LS Ka f P0757 P0761 oer ae geen P0757 lt P0761 The below example produces a 0 to 10 V analog input 50 to 50 Hz with center zero and a holding point 0 2 V wide 0 1 V to each side of center ADC value 0 to 10 V 50 to 50 Hz P2000 50 Hz P0759 8V 760 75 P0757 2V P0758 75 96 P0761 01 P0756 Oor 1 P0761 and P0758 lt 0 lt P0760 100 96 ASPmax P0760 P0758 ASPmin Note P0761 x 0 No deadband active Deadband starts from 0 V to value of P0761 if both values of P0758 and P0760 y coordinates of ADC scaling are positive or negative respectively However deadband is active in both directions from point of intersection x axis with ADC scaling curve if sign of P0758 and P0760 are opposite Min frequency P1080 should be zero when using
87. Def 4 P Group INVERTER Active Immediately QuickComm No Max 16 Sets pulse frequency of power switches in inverter The frequency can be changed in steps of 2 kHz Dependency Minimum pulse frequency depends on P1082 maximum frequency and P0310 rated motor frequency see derating in P1082 P1800 gt 30 P0310 Note If the pulse frequency is increased max inverter current r0209 can be reduced derating The derating characteristic depends on the type and power of the inverter see manuall OPERATING INSTRUCTION If silent operation is not absolutely necessary lower pulse frequencies may be selected to reduce inverter losses and radio frequency emissions Under certain circumstances the inverter may reduce the switching frequency to provide protection against over temperature see P0290 r1801 CO Act pulse frequency Min Datatype U16 Unit kHz Def P Group INVERTER Max Actual pulse frequency of power switches in inverter Notice Under certain conditions inverter overtemperature see P0290 this can differ from the values selected in P1800 pulse frequency P1802 Modulator mode Min 0 CStat CUT Datatype U16 Unit Def 0 P Group INVERTER Active first confirm QuickComm No Max 2 Selects inverter modulator mode Possible Settings SVM ASVM automatic mode 1 Asymmetric SVM 2 Space vector modulation Notice Asymmetric space vector modulation ASVM produces lower
88. Defines the de magnetization time for the connected induction motor The de magnetization time is the time that must expire between powering down the drive OFF2 or a drive inverter fault error and powering up again The drive inverter is prevented from being powered up again within this time interval The flux in the induction motor is reduced to a low value during this de magnetization time ON OFF1 LI t OFF2 inactive active f OFF2 Motor coasts down paspa rro o M A M lt P0347 Note The de magnetization time is approximately 250 of the rotor time constant r0384 in seconds The pre assignment default value depends on the drive inverter type and its rated nominal values t is not active after a normal ramp down i e after OFF1 or OFFS If this time is excessively shortened then the drive inverter will be tripped shut down due to an overcurrent condition If a synchronous motor is connected the de magnetization time should be set to P0350 Stator resistance line to line Min 0 00001 CStat CUT Datatype Float Unit Ohm Def 4 00000 P Group MOTOR Active Immediately QuickComm No Max 2000 00000 Stator resistance value in Ohms for connected motor from line to line The parameter value includes the cable resistance P0350 2 asas Ro There are three ways to determine the value for th
89. F2 0 1 0 P2203 PID FF3 0 4 1 P2204 PID FF4 1 0 O P2205 PID FFS 1 0 1 P2206 PID FF6 1 1 0 Direct selection of PID FF1 P2201 via DIN 1 P0701 15 or P0701 99 P2220 722 0 P2216 1 Dependency P2200 1 required in user access level 2 to enable setpoint source Note You may mix different types of frequencies however remember that they will be summed if selected together P2201 100 corresponds to 4000 hex MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 133 Parameter Description P2202 P2203 P2204 P2205 P2206 P2207 P2216 P2217 P2218 Fixed PID setpoint 2 CStat CUT P Group TECH Datatype Float Active Immediately Defines Fixed PID Setpoint 2 Details See P2201 Fixed PID Setpoint 1 Fixed PID setpoint 3 CStat CUT P Group TECH Datatype Float Active Immediately Defines Fixed PID Setpoint 3 Details See P2201 fixed PID setpoint 1 FF PID 1 Fixed PID setpoint 4 CStat CUT P Group TECH Datatype Float Active Immediately Defines Fixed PID Setpoint 4 Details See P2201 Fixed PID Setpoint 1 Fixed PID setpoint 5 CStat CUT P Group TECH Datatype Float Active Immediately Defines Fixed PID Setpoint 5 Details See P2201 Fixed PID Setpoint 1 Fixed PID setpoint 6 CStat CUT P Group TECH Datatype Float Active Immediately Defines Fixed PID Setpoint 6 Details See P2201 Fixed
90. Federal Republic of Germany Email documentation sd siemens com User Documentation From Name Order number 6SE6400 5BA00 0BPO Date of Issue 10 06 Company Service Department Should you come across any printing Address Cs errors when reading this publication please notify us on this sheet Suggestions for improvement are also welcome Phone Fax MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO0 193 MICROMASTER 420 Parameter List 194 6SE6400 5BA00 0BPO MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 195 Siemens AG Automation and Drives Group A amp D Standard Drives SD Division Postfach 3269 D 91050 Erlangen Federal Republic of Germany Siemens Aktiengesellschaft O Siemens AG 2001 2002 2004 2006 Subject to change without prior notice Order No 6SE6400 5BA00 OBPO Excellence in Automation amp Drives Siemens al
91. HALSV NOHOLN zin 9007809 ueibepuopounj verosrous 11 uonoun dwey euueu jurodjas L s YE y z T TT 4 NO H3MOd 019Z 01 HAY 195 0 Ozu 9 1q8u3 9 qeua zd 18 0 1 27114 dies ajgeua 4 IInspue s e o 944 Pung 944 0015 92991 0 1 4 HET Ozu 418 SLL 7 ZH 944 910jeq dee Oo Se MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 175 Issue 10 06 Function Diagrams 027 HALSV NOHOLN zin 9007809 urejDeip uonounj psi 0019 01007 YA OJ1UO2 J A JO A IA AO L um E E E xu h E Y E gt JOje npouu 01 1indino eBejoA lt seti A HOA 011012 OJJUOD xeu u Jo ge npouu o 1ndino 3t 2004 ZH bau dino joy 09 dn p nq oDeyoA 06214 A dinoA 1119 xew oo 19 01JUO9 CU 9900 xew 17614 HIOLOW 1819 08 0 214 ZH dyno Ho xew oo ZH 944 199 00 7908d 5 ues Bulk diis XELPA 8 id SEE Ld 07214 1814 7 01214 1sooq SBRIOA 993 onsuejoeJeuo VA 00 Ld sz 6 S0C0d V 0000001 100 142 Jou pajey v wu ino dino 09 2900 07091 OF90d d X 0 00p 0701 juiodies 19 041u09 xeuu 95 198 AO 1010 N J9J19AUI 11 JnjyeJeduue
92. Hex Gonm 20 P2000 f_act limit min P1082 f act 4000 Hex 100 Notice Reference variables are intended as an aid to presenting setpoint and actual value signals in a uniform manner This also applies to fixed settings entered as a precentage A value of 100 USS CB corresponds to a process data value of 4000H or 4000 0000H in the case of double values In this respect the following parameters are available P2000 Reference frequency P2001 Reference voltage KS P2002 Reference current A MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 111 Parameter Description Issue 10 06 P2001 Reference voltage Min 10 CStat CT Datatype U16 Unit V Def 1000 P Group COMM Active first confirm QuickComm No Max 2000 Full scale output voltage i e 100 used over serial link corresponds to 4000H Example P2001 230 specifies that 4000H received via USS denotes 230 V If a BICO connection is made between two parameters the unit of the parameters standardized Hex or physical i e V values may differ MICROMASTER implicitly makes an automatic conversion to the target value r0026 P0771 r0026 V P Hex 4000 Hex LO 2 T pac yiHex Foon 0001Hexl x V y Hex P2002 Reference current Min 0 10 CStat CT Datatype Float Unit A Def 0 10 P Group COMM Active first confirm QuickComm No Max 10000 00 Full scale output current used over serial link corresponds to
93. Index 2 Parameter settings for input do not correspond to ADC type A0921 DAC parameters not set properly Cause DAC parameters P0777 and P0779 have identical values OR DAC parameters P0778 and P0780 have identical values Identical values would produce illogical results Diagnosis amp Remedy Check the following Output parameter settings Ensure P0777 and P0779 are not identical Input parameter settings Ensure P0778 and P0780 are not identical A0922 No load at the inverter Cause no load is connected to the inverter therefore several functions can run differently than under normal load conditions A0923 JOG counter clockwise as well as JOG clockwise are requested Cause both JOG clockwise and JOG counter clockwise P1055 P1056 have been requested This is the reason that the RFG output frequency has been frozen to the actual value MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 187 Faults and Alarms Issue 10 06 MICROMASTER 420 Parameter List 188 6SE6400 5BAO0 0BPO Abbreviations Abbreviations AG Alternating current AD Analog digital converter ADC Analog digital converter ADR Address AFM Additional frequency modification AIN Analog input AOP Advanced operator panel AOUT Analog output ASP Analog setpoint ASVM Asymmetric space vector modulation BCC Block check character BCD Binary coded decimal code Bl Binector input BICO Binector connector BO Binector output BOP Basic oper
94. Min Def Max Min Def Max Min Def Max 0 NO YES 0 YES NO 0 YES 1 NO 0 NO YES 0 NO YES 0 NO YES 0 NO YES 0 NO YES 0 NO YES 0 NO YES 0 NO YES 0 NO YES 0 NO YES 0 NO YES 0 NO YES MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description r0968 Status word 1 Min Datatype U16 Unit Def P Group COMM Max Displays active status word of inverter in binary and can be used to diagnose which commands are active Bitfields Bit00 Drive ready 0 NO 1 YES Bit01 Drive ready to run 0 NO 1 YES Bit02 Drive running 0 NO 1 YES Bit03 Drive fault active 0 NO 1 YES Bit04 OFF2 active O YES 1 NO Bit05 OFF3 active O YES 1 NO Bit06 ON inhibit active 0 NO YES B1L07 Drive warning active 0 NO 1 YES Bit08 Deviation setpoint act value 0 YES NO Bit09 PAD control 0 NO 1 YES Bit10 Maximum frequency reached 0 NO 1 YES Bit11 Warning Motor current limit 0 YES 1 NO Bit12 Motor holding brake active 0 NO 1 YES Bit13 Motor overload 0 YES 1 NO Bit14 Motor runs right 0 NO 1 YES Bit15 Inverter overload O YES 1 NO P0970 Factory reset Min 0 CStat C Datatype U16 Unit Def 0 P Group PAR RESET Active first confirm QuickComm No Max 1 P0970 1 resets all parameters to their default values Possible Settings O Disabled 1 Parameter reset Dependency A First set P0010 30 factory settings Stop drive i e dis
95. OFF1 2 ON reverse OFF1 3 OFF2 coast to standstill 4 OFF3 quick ramp down 9 Fault acknowledge 10 JOG right 11 JOG left 12 Reverse 13 MOP up increase frequency 14 MOP down decrease frequency 15 Fixed setpoint Direct selection 16 Fixed setpoint Direct selection ON 17 Fixed setpoint Binary coded selection ON 21 Local remote 25 DC brake enable 29 External trip 33 Disable additional freq setpoint 99 Enable BICO parameterization Details oee P0701 function of digital input1 P0703 Function of digital input 3 Min 0 CStat CT Datatype U16 Unit Def 9 P Group COMMANDS Active first confirm QuickComm No Max 99 Selects function of digital input 3 Possible Settings O Digital input disabled 1 ON OFF1 2 ON reverse OFF1 3 OFF2 coast to standstill 4 OFF3 quick ramp down 9 Fault acknowledge 10 JOG right 11 JOG left 12 Reverse 13 MOP up increase frequency 14 MOP down decrease frequency 15 Fixed setpoint Direct selection 16 Fixed setpoint Direct selection ON 17 Fixed setpoint Binary coded selection ON 21 Local remote 25 DC brake enable 29 External trip 33 Disable additional freq setpoint 99 Enable BICO parameterization Details See P0701 function of digital input 1 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 47 Parameter Description Issue 10 06 P0704 Function of digital input 4 Min 0 CStat CT Datatype U16 Unit Def 0 P Group COMMANDS Active first confirm QuickC
96. OHOL zin 9002780791 Dumiusuei dog uo SSN ueJ6eip uonoun J psw qoguossn orsz S OEH lUI eula x3 L uw dn om E E EE YY Y Y e Y 7 Jk gt Issue 10 06 0 21 v LOZd sw gess9 yo weba SSN 421 e 2 024 1210 ulSu l MAd SSN yul dog lt xapul 2 z 21024 sjojeure Jed LANE Iv ul u l qzd SSN uomneanBijuoo st o z L Lozd le 0 ssojppe 9901 9 EI dOV WO Jas ejep peojumog slg 6 dOW W03 0 19S ejep peojumog tig SIEIBHES SSN xew did 6224 veceindino did Lug uw did 26224 y6zci indino did og SL 2604 peusiuy Buidwey 6019 G 0 Set 2112 92001 9PA PY 8018 ein Jed aBueyo KE 21124 gt 9200 9PA 10 2018 l juiodjes lt 2001 Dau JOY 9018 s um s ynejap ale S004 L j 96 24 gt 12001 bey Joy sold es loune S001 1 4924 12001 ba Joy volg iz 1191024 ZPMS PV Og OO OLb2d 2200 Juano jov 6018 es 0191024 uw J 08014 12001 bey mv 2018 Ho y 9124 2001 b l joy owg exeJq Oq 0018 peo ie o 19 iuBu suni JOJON p Lig pEOH AO 1010 N 2114 4 12001 eAnoe ayeiq Duipjou 100W 2114 ZH 19v o juu Juano JOJOJA DUuILUEM LUS Kee peuoeaJ wnwixeyy og 2600 o4u09 424 6018 oAnoe Pe DANE S 19v Og OO 27007 NY oe UO gt QXL 1 IlUISUEJ 644 SON 2440 rog Q nej aAUO 2018 Buiuu
97. ON OFF and P1124 is active MICROMASTER 420 Parameter List 78 6SE6400 5BA00 0BP0 Issue 10 06 3 16 P1070 Setpoint channel Cl Main setpoint CStat CT P Group SETPOINT Datatype U32 Active first confirm Defines source of main setpoint Common Settings P1071 755 Analog input 1 setpoint 1024 Fixed frequency setpoint 1050 Motor potentiometer MOP setpoint CI Main setpoint scaling CStat CT Datatype U32 P Group SETPOINT Active first confirm Defines source of the main setpoint scaling Common Settings P1074 755 Analog input 1 setpoint 1024 Fixed frequency setpoint 1050 Motor potentiometer MOP setpoint BI Disable additional setpoint CStat CUT Datatype U32 P Group COMMANDS Active first confirm Disables additional setpoint Common Settings P1075 P1076 Unit QuickComm No Unit QuickComm No Unit QuickComm No 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 Cl Additional setpoint CStat CT Datatype U32 Unit P Group SETPOINT Active first confirm QuickComm No Defines source of the additional setpoint to be added to main setpoint Common Settings 755 Analog input 1 setpoint 1024 Fixed frequency setpoint 1050 Motor
98. OP link P2011 2 USS address Min 0 CStat CUT Datatype U16 Unit Def 0 P Group COMM Active first confirm QuickComm No Max 31 Sets unique address for inverter Index P2011 0 Serial interface COM link P2011 1 Serial interface BOP link Note You can connect up to a further 30 inverters via the serial link i e 31 inverters in total and control them with the USS serial bus protocol MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 113 Parameter Description Issue 10 06 P2012 2 USS PZD length Min 0 CStat CUT Datatype U16 Unit Def 2 P Group COMM Active first confirm QuickComm No Max 4 Defines the number of 16 bit words in PZD part of USS telegram Index P2012 0 Serial interface COM link P2012 1 Serial interface BOP link Notice USS protocol consists of PZD and PKW which can be changed by the user via parameters P2012 and P2013 respectively USS telegram Parameter Process data we pum e PKE IND PWE PZDi PZD2 PZD3 PZD4 STX Start of text PKE Parameter ID LGE Length IND Sub index ADR Address PWE Parameter value PKW Parameter ID value PZD Process data BCC Block check character PZD transmits a control word and setpoint or status word and actual values The number of PZD words in a USS telegram are determined by parameter P2012 where the first two words P2012 2 are either control word and main setpoint or status word and actual value Restrictions
99. Operating Instructions on the Docu CD delivered with your inverter If the CD is lost it can be ordered via your local Siemens department under the Order No 65E6400 5AB00 1APO Information about MICROMASTER 420 is also available from Regional Contacts Please get in touch with your contact for Technical Support in your Region for questions about services prices and conditions of Technical Support Central Technical Support The competent consulting service for technical issues with a broad range of requirements based services around our products and systems Europe Africa Tel 49 0 180 5050 222 Fax 49 0 180 5050 223 Email adsupport siemens com America Tel 1 423 262 2522 Fax 1 423 262 2589 Email simatic hotline sea siemens com Asia Pacific Tel 86 1064 757 575 Fax 86 1064 747 474 Email adsupport asia siemens com Online Service amp Support The comprehensive generally available information system over the Internet from product support to service amp support to the support tools in the shop http www siemens com automation service amp support Internet Address Customers can access technical and general information under the following address http www siemens com micromaster Approved Siemens Quality for Software and Training is to DIN ISO 9001 Reg No 2160 01 The reproduction transmission or use of this document or its contents is not permitted unless authorized in writing
100. P1082 f max r0052 1 Bit 10 9 Dependency The maximal value of motor frequency P1082 is limited to pulse frequency P1800 P1082 is dependent on the derating characteristic as followed P1800 2 kHz 4 kHz 6 kHz 8 16 kHz fam P1082 0 133 3Hz 0 266 6 Hz 0 400 Hz 0 650 Hz The maximum output frequency of inverter can be exceeded if one of the following is active p1335 20 Slip compensation active p1336 r0330 100 100 fmax p1335 fmax fslip max p1082 p0310 p1200 20 Flying restart active r0330 100 fmax p1200 fmax 2 fslip nom p1082 2 p0310 Note When using the setpoint source Analog Input USS CB e g PROFIBUS The setpoint frequency in Hz is cyclically calculated using a percentage value e g for the analog input r0754 or a hexadecimal value e g for the USS r2018 1 and the reference frequency P2000 If for example P1082 80 Hz P2000 50 Hz and the analog input is parameterised with P0757 0 V P0758 0 96 P0759 10 V P0760 100 a setpoint frequency of 50 Hz will be applied at 10 V of the analog input MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 81 Parameter Description Issue 10 06 P1091 Notice P1092 Skip frequency 1 Min 0 00 CStat CUT Datatype Float Unit Hz Def 0 00 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines skip frequency 1 which avoids effects of mechanical resonance and sup
101. P1132 P1133 iP1132 P1133 f i Setpoint reached f T EE Setpoint not reached P1134 1 A t ON OFF1 t Possible Settings O Continuous smoothing 1 Discontinuous smoothing Dependency No effect until P1132 Ramp down initial rounding time or P1133 Ramp down final rounding time O s MICROMASTER 420 Parameter List 86 6SE6400 5BAO0 0BPO Issue 10 06 Parameter Description P1135 OFF3 ramp down time Min 0 00 CStat CUT Datatype Float Unit s Def 5 00 P Group SETPOINT Active first confirm QuickComm Yes Max 650 00 Defines ramp down time from maximum frequency to standstill for OFF3 command f act motor mexa s c gt gt act inverter P2167 q 0 L e P2168 x f a town orro tdownoFF3 1139 57082 a P1135 0052 Bit02 9 Operation Pulse t cancellation Note This time may be exceeded if the VDC max level is reached P1140 Bl RFG enable Min 0 0 CStat CT Datatype U32 Unit Def 1 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines command source of RFG enable command RFG ramp function generator If binary input is equal to zero then the RFG output will be set immediately to O P1141 Bl RFG start Min 0 0 CStat CT Datatype U32 Unit Def 1 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines command source of RFG start command RFG ramp function generator If binary input is equal to z
102. P2180 Delay time for load missing Min 0 CStat CUT Datatype U16 Unit ms Def 2000 P Group ALARMS Active Immediately QuickComm No Max 10000 Delay time to identify that the current is less than the threshold defined in P2179 Details See diagram in P2179 current limit for no load identification 12197 CO BO Monitoring word 1 Min Datatype U16 Unit Def P Group ALARMS Max Monitoring word 1 which indicates the state of monitor functions Each bit represents one monitor function Bitfields Bit00 f act lt P1080 CE mim 0 NO 1 YES Bit01 f act lt P2155 f 1 0 NO 1 YES Bit02 f_act gt P2155 f 1 0 NO 1 YES Bit03 ESA ys zero 0 NO 1 YES Bit04 SE Getbo Cp set 0 NO 1 YES Bit05 f_act lt P2167 f off 0 NO 1 YES Bit06 E act gt P1082 GE max 0 NO 1 YES Bit07 Dueb es Setp ENEL 0 NO 1 YES Bit08 Act current 20027 P2170 0 NO 1 YES Bit09 Act unfilt Vdc lt P2172 0 NO 1 YES Bit10 Act unfilt Vdc gt P2172 0 NO 1 YES Bit11 Load missing 0 NO 1 YES MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 131 Parameter Description Issue 10 06 3 31 P2200 132 Technology controller PID controller BI Enable PID controller Min 0 0 CStat CUT Datatype U32 Unit Def 0 0 P Group TECH Active first confirm QuickComm No Max 4000 0 Allovvs user to enable disable the PID controller P2200 settings PID controller de activated PID controller permanently activated BICO parameters
103. PID when the inverter is started Once the limits have been reached the PID controller output is instantaneous These ramp times are used whenever a RUN command is issued Note If an OFF1 or OFF 3 are issued the inverter output frequency ramps down as set in P1121 ramp down time or P1135 OFF3 ramp down time r2294 CO Act PID output Min Level Datatype Float Unit Def 2 P Group TECH Max Displays PID output in 96 Note 142 r2294 100 corresponds to 4000 hex MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description 3 32 Inverter parameters P3900 End of quick commissioning Min 0 CStat C Datatype U16 Unit Def 0 P Group QUICK Active first confirm QuickComm Yes Max 3 Performs calculations necessary for optimized motor operation After completion of calculation P3900 and P0010 parameter groups for commissioning are automatically reset to their original value 0 Possible Settings O No quick commissioning 1 Start quick commissioning with factory reset 2 Start quick commissioning 3 Start quick commissioning only for motor data Dependency Changeable only when P0010 1 quick commissioning Note P3900 1 When setting 1 is selected only the parameter settings carried out via the commissioning menu Quick commissioning are retained all other parameter changes including the l O settings are lost Motor calculations are also performed P3900 22 When
104. Possible Settings Cmd BICO parameter 1 Cmd BICO parameter 2 md BICO parameter 3 Cmd BICO parameter 4 BICO parameter 5 Cmd BICO parameter 6 Cmd BICO parameter 7 md BICO parameter 10 Cmd BOP 11 Cmd BOP 12 Cmd BOP 13 Cmd BOP 15 Cmd BOP 16 Cmd BOP 17 Cmd BOP 40 Cmd USS on BOP link 41 Cmd USS on BOP link 42 Cmd USS on BOP link 43 Cmd USS on BOP link 44 Cmd USS on BOP link 45 Cmd USS on BOP link 46 Cmd USS on BOP link 47 Cmd USS on BOP link 50 Cmd USS on COM link 51 Cmd USS on COM link 52 Cmd USS on COM link 53 Cmd USS on COM link 54 Cmd USS on COM link 55 Cmd USS on COM link 57 Cmd USS on COM link 60 Cmd CB on COM link 61 Cmd CB on COM link 62 Cmd CB on COM link 63 Cmd CB on COM link 64 Cmd on COM link 66 Cmd CB on COM link 67 Cmd CB on COM link Setpoint BICO parameter Setpoint MOP setpoint Setpoint Analog setpoint Setpoint Fixed frequency Setpoint USS on BOP link Setpoint USS on COM link Setpoint CB on COM link Setpoint Analog 2 setp Setpoint BICO parameter Setpoint MOP setpoint Setpoint Analog setpoint Setpoint Fixed frequency Setpoint USS on COM link Setpoint CB on COM link Setpoint Analog 2 setp Setpoint BICO parameter Setpoint MOP setpoint Setpoint Analog setpoint Setpoint Fixed frequency Setpoint USS on BOP link Setpoint USS on COM link Setpoint CB on COM link Setpoint
105. Quit Refer to F0001 Cause No Load is applied to the inverter Issue 10 06 STOP Il STOP Il STOP Il STOP Il STOP Il STOP Il STOP Il As a result some functions may not work as under normal load conditions MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Faults and Alarms F0450 Failure BIST tests STOP Il Quit Refer to F0001 Cause Self test routine unsuccessful refer to fault value r0949 10949 1 Self test routine for power module components unsuccessful 10949 2 Self test routine for closed loop control module components unsuccessful 0949 4 Several function tests were unsuccessful 10949 8 Several tests carried out at the I O module were unsuccessful only MICROMASTER 420 10949 16 Failure of the internal RAM at the switch on test Diagnosis amp Remedy the drive is functional but several functions are not correctly executed replace the drive MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 183 Faults and Alarms Issue 10 06 5 2 Alarm Messages Alarm messages are stored in parameter r2110 under their code number e g A0503 503 and can be read out from there A0501 Current limit value Cause the motor power rating does not correspond to the inverter power rating motor cables are too long ground fault Diagnosis amp Remedy Please check the following does the motor power rating P0307 match the inverter power rating r0206 are the
106. R 420 Parameter List 6SE6400 5BA00 0BP0 164 Function Diagrams Issue 10 06 027 HALSV NOHOLN zin 9002780791 weibeIp uopoun4 Perizws oie 07001 0 124 0 00 0 0 01 LZLZd uano pjoysaly L su 0000 0 1 aun Aejaq C 8 6121 LPM JOHUON Og OO 800 CPMIEIS 19V Og OO joe 00 0S LZd zH 00701 0070 sky 1 b li 1s H C 0 26121 lzi LPM JOHUON Og OO c S004 S004 yore 1 CPMIEIS PV Og OO 00 0 080Ld ZH 00 0S9 00 0 Aouenbeu um pajoajaes ayeJg ou q 7 6Lc4 26144 LPM 4OHUO N Og OO joe Leen z J S001 L J CPMIEIS 19V Og OO umop due uo OL 89124 pesojo exeJg 0011 9124 suu 00001 ZH 0001 0070 Ho aun Aejaq yo 1 b HOMS BuliolluolA suonoun J Bojouuo Lom E E EE E Y E E gt a 439 0 124 lt lioe utu J 08014 lt 108 yl HO 4 9124 lt 1 6 yl MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 165 BuliolluolA 027 HALSV NOHOLN zin 9002809 DEER suonoun J bojouyoa 2 7 EE 0 E E E E SS ERA Issue 10 06 Function Diagrams OL Z61444 26144 LPM 1OlluoW Og OO g S001 S004 ZPMIEIS 19V Og OO 6 16121 26144 LPM JOHUOW Og OO Z 800 S004 cPMIEIS PV Og OO 6121 26144 LPM JOHUOW 8 FU S004 S004 CPMIEIS PV Og OO t 16121 26144 LPM JOHUOW Og OO 9 ES0
107. RMS Active Immediately QuickComm No Max 10000 Sets delay time prior to threshold frequency f 1 comparison P2155 Details See diagram in P2155 threshold frequency f 1 MICROMASTER 420 Parameter List 128 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P2164 Hysteresis frequency deviation Min 0 00 CStat CUT Datatype Float Unit Hz Def 3 00 P Group ALARMS Active Immediately QuickComm No Max 10 00 Hysteresis frequency for detecting permitted deviation from setpoint This frequency controls bit 8 in status word 1 r0052 and bit 6 in status word 2 r0053 f act f set f act f set r2197 7 0052 Bit08 0053 Bit06 Hyster freq deviat 0 00 10 00 Hz P2164 D 3 00 P2167 Switch off frequency f off Min 0 00 CStat CUT Datatype Float Unit Hz Def 1 00 P Group ALARMS Active Immediately QuickComm No Max 10 00 Defines the threshold of the monitoring function f act lt P2167 f off P2167 influences following functions Ifthe actual frequency falls below this threshold and the time delay has expired bit 1 in status word 2 r0053 is reset Ifa OFF1 or OFF3 was applied and bit 1 is reset the inverter will disable the pulse OFF2 Restriction The monitoring function f lt P2167 f off is not updated and pulses are not disabled if motor holding brake MHB P1215 1 is enabled ON OFF1 OFF3 t if fy OFFWOFFS P2167 If act gt P2167
108. able all pulses before you can reset parameters to default values Note The following parameters retain their values after a factory reset P0014 Store mode 10039 CO Energy consumption meter kWh P0100 Europe North America P0918 CB address P2010 USS baud rate P2011 USS address P0971 Transfer data from RAM to EEPROM Min 0 CStat CUT Datatype U16 Unit Def 0 P Group COMM Active first confirm QuickComm Max 1 Transfers values from RAM to EEPROM when set to 1 Possible Settings O Disabled 1 Start transfer Note All values in RAM are transferred to EEPROM Parameter is automatically reset to O default after successful transfer The storage from RAM to EEPROM is accomplished via P0971 The communications are reset if the transfer was successful During the reset process communications will be interrupted This creates the following conditions PLC e g SIMATIC S7 enters Stop mode Starter automatically recovers communications once they are re established Drivemonitor is displayed NC not connected in the status line or drive busy BOP displays busy After completion of the transfer process the communication between the inverter and the PC tools e g Starter or BOP is automatically re established MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 69 Parameter Description 3 12 P1000 Setpoint source Selection of frequency setpoint CStat P Group SETPOINT
109. al mA P0777 P0779 100 X1 X2 Where Points P1 x1 y1 and P2 x2 y2 can be chosen freely Example The default values of the scaling block provides a scaling of P1 0 0 96 0mA P2 100 0 20 mA Dependency Affects P2000 to P2002 referency frequency voltage current depending on which setpoint is to be generated Note The DAC linear characteristic is described by 4 coordinates based on a two point equation y P0778 P0780 P0778 x P0777 P0779 P0777 For calculations the point gradient form offset and gradient is more advantageous y M X yo The transformation between these two forms is given by _ P0780 P0778 _ P0778 P0779 P0777 P0780 _ 200 P0779 P0777 P0779 P0777 For scaling of the input the value of y_max and x_min has to be determined This is done by the following equations _ P0780 P0777 P0778 P0779 i P0780 P0778 Xmin P0780 P0778 P0779 P0777 y max X min PO777 PO779 X1 X MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO0 59 Parameter Description Issue 10 06 P0778 Value y1 of DAC scaling Min 0 CStat CUT Datatype Float Unit Def 0 P Group TERMINAL Active first confirm QuickComm No Max 20 Defines y1 of output characteristic P0779 Value x2 of DAC scaling Min 99999 0 CStat CUT Datatype Float Unit Def 100 0 P Group TERMINAL Active first confirm QuickComm Max 99999 0 Defines x
110. alue r0313 1 2 pole motor r0313 2 4 pole motor etc Dependency Recalculated automatically when P0310 rated motor frequency or P0311 rated motor speed is changed r0313 60 550 P0311 P0320 Motor magnetizing current Min 0 0 CStat CT Datatype Float Unit Def 0 0 P Group MOTOR Active Immediately QuickComm Yes Max 99 0 Defines motor magnetization current in 96 relative to P0305 rated motor current Dependency Setting P0320 0 causes calculation by P0340 1 data entered from rating plate or by P8900 1 3 end of quick commissioning The calculated value is displayed in parameter r0331 r0330 Rated motor slip Min Datatype Float Unit 96 Def P Group MOTOR Max Displays nominal motor slip in relative to P0310 rated motor frequency and P0311 rated motor speed P0310 HE r0313 r0330 N lt 100 96 P0310 r0331 Rated magnetization current Min Datatype Float Unit A Def P Group MOTOR Max Displays calculated magnetizing current of motor in A r0332 Rated power factor Min Datatype Float Unit Def P Group MOTOR Max Displays power factor for motor Dependency Value is calculated internally if P0308 rated motor cosPhi set to 0 otherwise value entered in P0308 is displayed P0335 Motor cooling Min 0 CStat CT Datatype U16 Unit Def 0 P Group MOTOR Active first confirm QuickComm Yes Max 1
111. and down ramp times respectively for jogging P1059 JOG frequency left Min 0 00 CStat CUT Datatype Float Unit Hz Def 5 00 P Group SETPOINT Active Immediately QuickComm No Max 650 00 While JOG left is selected this parameter determines the frequency at which the inverter will run Dependency P1060 and P1061 set up and down ramp times respectively for jogging MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 77 Parameter Description Issue 10 06 P1060 JOG ramp up time Min 0 00 CStat CUT Datatype Float Unit s Def 10 00 P Group SETPOINT Active first confirm QuickComm No Max 650 00 Sets jog ramp up time This is the time used while jogging is active 0 1 tn JM t s x tup s P1058 EE 4 P1060 i tup P1082 Notice Ramp times will be used as follows P1060 P1061 JOG mode is active P1120 P1121 Normal mode ON OFF is active P1060 P1061 Normal mode ON OFF and P1124 is active P1061 JOG ramp down time Min 0 00 CStat CUT Datatype Float Unit s Def 10 00 P Group SETPOINT Active first confirm QuickComm No Max 650 00 Sets ramp down time This is the time used while jogging is active 0 te t s x ob P1061 tdown 54082 Notice Ramp times will be used as follows P1060 P1061 JOG mode is active P1120 P1121 Normal mode ON OFF is active 1060 1061 Normal mode
112. antes de MICROMASTER 3 Ref 6SE32 Todos los MICROMASTER 410 Ref 65E6410 Todos los MICROMASTER 411 Ref 6SE6411 Todos los MICROMASTER 436 Ref 6SE6436 Todos los MICROMASTER MMI CM2 Ref 6SE96 Estos productos no han sufrido cambios respecto a su dise o original pero ya no cumplen los nuevos requisitos Estos productos todav a pueden llevar el s mbolo UL pero ahora es responsabilidad de los usuarios finales proporcionar una protecci n homologada contra sobrecarga del motor externa al convertidor Para la protecci n del motor recomendamos al usuario final dispositivos como el rel de sobrecarga de la serie 3RU de Siemens en el lado del motor del convertidor Puede encontrar informaci n detallada en el enlace siguiente http www automation siemens com mcms industrial controls en protection equipment overload relays pages default aspx A 5 E 3167 4 14 5A SINAMICS SIMATIC and MICROMASTER inverters 5 Product Information A5E31674145A Edition 08 2013 SIEMENS Block Diagram and Terminals Parameter List MICROMASTER 420 Function Diagrams Parameter List User Documentation Faults and Alarms Abbreviations Valid for Issue 10 06 Inverter Type Software Version MICROMASTER 420 v1 2 Issue 10 06 Parameters MICROMASTEH NN Warning Issue 10 06 Please refer to all Definitions and Warnings contained in the Operating Instructions You will find the
113. arameter List 6SE6400 5BA00 0BPO b Parameter Description P0307 Rated motor power Min CStat C Datatype Float Unit Def P Group MOTOR Active first confirm QuickComm Yes Nominal motor power kW hp from rating plate Dependency f P0100 1 values will be in hp see diagram P0304 rating plate Changeable only when P0010 1 quick commissioning Default value is depending on inverter type and its rating data P0308 Rated motor cosPhi Min CStat C Datatype Float Unit Def P Group MOTOR Active first confirm QuickComm Yes Nominal motor power factor cosPhi from rating plate see diagram P0304 Dependency Changeable only when P0010 1 quick commissioning Visible only when P0100 0 or 2 motor power entered in kVV Default value is depending on inverter type and its rating data Setting causes internal calculation of value Calculated value see 0332 P0309 Rated motor efficiency Min CStat C Datatype Float Unit Def P Group MOTOR Active first confirm QuickComm Yes Max Nominal motor efficiency in from rating plate Dependency Changeable only when P0010 1 quick commissioning Visible only when P0100 1 i e motor power entered in hp Default value is depending on inverter type and its rating data Setting causes internal calculation of value Calculated value see 0332 Note P0309 100 corresponds to superconducting De
114. ariations in the mains are also not initially taken into account P1254 0 Automatic Detection disabled The above thresholds are calculated via P0210 if automatic detection is disabled 98 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 Issue 10 06 Parameter Description 3 24 Control mode P1300 Control mode Min 0 CStat CT Datatype U16 Unit Def 0 P Group CONTROL Active first confirm QuickComm Yes Max 3 Controls relationship between speed of motor and voltage supplied by inverter as illustrated in the diagram below V V max 0071 Vidhi a otro sb toria dota P0304 P 225 beb P1329 m piss been P1310 fO f1 12 13 f Tax 0 Hz P1320 P1322 P1324 P0310 P1082 Possible Settings O V f with linear characteristic 1 V fwith FCC 2 V T with parabolic characteristic 3 V f with programmable characteristic Note P1300 1 V f with FCC flux current control Maintains motor flux current for improved efficiency f FCC is chosen linear V f is active at low frequencies P1300 2 V f with a quadratic characteristic Suitable for centrifugal fans pumps P1300 2 3 V f with a programmable characteristic User defined characteristic see P1320 For synchronous motors e g SIEMOSYN motors The following table presents an overview of control parameters V f that can be modify in relationship to P1300 dependencies Vit r o lt D ParNo Parameter name Continuous boos
115. ase Ifan AOP is in use the display will show number and text of the active warning P2111 Total number of warnings Min 0 Level CStat CUT Datatype U16 Unit Def 0 P Group ALARMS Active first confirm QuickComm No Max Displays number of warning up to 4 since last reset Set to O to reset the warning history r2114 2 Run time counter Min Datatype U16 Unit Def P Group ALARMS Max Displays run time counter It is the total time the drive has been powered up When power goes value is saved then restored on powerup The run time counter r2114 will be calculate as followed Multiply the value in r2114 0 by 65536 and then add it to the value in r2114 1 resultant answer will be in seconds When AOP is not connected the time in this parameter is used by r0948 to indicate when a fault has occured Index r2114 0 System Time Seconds Upper Word r2114 1 System Time Seconds Lower Word Example If r2114 0 1 8 r2114 1 20864 We get 1 65536 20864 86400 seconds which equals 1 day MICROMASTER 420 Parameter List 126 6SE6400 5BA00 0BP0 Issue 10 06 Parameter Description P2115 3 AOP real time clock Min 0 CStat CT Datatype U16 Unit Def 0 P Group ALARMS Active Immediately QuickComm No Max 65535 Displays AOP real time All of the frequency inverters have an internal time generator function which is used to time stamp and log erroneous conditions Therefore there is no batter
116. at CUT Datatype Float Unit Hz Def 25 00 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 6 See parameter P1001 fixed frequency 1 Fixed frequency 7 Min 650 00 CStat CUT Datatype Float Unit Hz Def 30 00 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 7 See parameter P1001 fixed frequency 1 Fixed frequency mode Bit 0 Min 1 CStat CT Datatype U16 Unit Def 1 P Group SETPOINT Active first confirm QuickComm No Max 3 Fixed frequencies can be selected in three different modes Parameter P1016 defines the mode of selection Bit 0 e Settings 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command oee table in P1001 fixed frequency 1 for description of how to use fixed frequencies Fixed frequency mode Bit 1 Min 1 CStat CT Datatype U16 Unit Def 1 P Group SETPOINT Active first confirm QuickComm No Max 3 Fixed frequencies can be selected in three different modes Parameter P1017 defines the mode of selection Bit 1 e Settings 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command See table in P1001 fixed frequency 1 for description of how to use fixed frequencies MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 73 Parameter Description Issue 10 06 P1018 Fixed frequency mode Bit 2 Min 1 CStat CT Datatyp
117. at Unit Def 100 00 P Group TECH Active Immediately QuickComm No Max 100 00 Gain factor for PID setpoint The PID setpoint input is multiplied by this gain factor to produce a suitable ratio between setpoint and trim P2256 PID trim gain factor Min 0 00 CStat CUT Datatype Float Unit Def 100 00 P Group TECH Active Immediately QuickComm No Max 100 00 Gain factor for PID trim This gain factor scales the trim signal which is added to the main PID setpoint MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 137 Parameter Description Issue 10 06 P2257 Ramp up time for PID setpoint Min 0 00 CStat CUT Datatype Float Unit s Def 1 00 P Group TECH Active Immediately QuickComm No Max 650 00 Sets the ramp up time for the PID setpoint PID Setpoint X4 t s _ G HE m t12 xe x l SH P2257 Lt P2257 gt gt 100 Dependency P2200 1 PID control is enabled disables normal ramp up time P1120 PID ramp time effective only on PID setpoint and only active when PID setpoint is changed or when RUN command is given Notice Setting the ramp up time too short may cause the inverter to trip on overcurrent for example P2258 Ramp down time for PID setpoint Min 0 00 CStat CUT Datatype Float Unit s Def 1 00 P Group TECH Active Immediately QuickComm No Max 650 00 Sets ramp down time for PID setpoint PID Setpoint 100 X2 X4 n x x t s
118. atatype U16 Unit Def P Group COMM Max Displays identification data of the communication board CB The different CB types r2053101 are given in the Enum declaration Possible Settings O No CB option board 1 PROFIBUS DP 2 DeviceNet 256 not defined Index r2053 0 CB type PROFIBUS 1 r2053 1 Firmware version r2053 2 Firmware version detail r2053 3 Firmware date year r2053 4 Firmware date day month r2054 7 CB diagnosis Min Datatype U16 Unit Def P Group COMM Max Displays diagnostic information of communication board CB Index r2054 0 CB diagnosis O r2054 1 CB diagnosis 1 r2054 2 CB diagnosis 2 r2054 3 CB diagnosis 3 r2054 4 CB diagnosis 4 r2054 5 CB diagnosis 5 r2054 6 CB diagnosis 6 Details See relevant communications board manual MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 123 Parameter Description Issue 10 06 r2090 BO Control word 1 from CB Min Datatype U16 Unit Def P Group COMM Max Displays control word 1 received from communication board CB Bitfields Bit00 ON OFF1 O NO 1 YES Bit01 OFF2 Electrical stop 0 YES 1 NO Bit02 OFF3 Fast stop 0 YES 1 NO Bit03 Pulses enabled 0 NO 1 YES Bit04 RFG enable 0 NO 1 YES Bit05 RFG start O NO 1 YES Bit06 Setpoint enable 0 NO 1 YES B1L07 Fault acknowledge 0 NO 1 YES Bit08 JOG right 0 NO 1 YES Bit09 JOG left O NO 1 YES Bit10 Control from PLC 0 NO 1 YES Bit11 Reverse s
119. ation air conditioning Input and output Commissioning Insulated gate bipolar transistor Sub index Jog Kinetic buffering Liguid crystal display Light emitting diode Length Motor holding brake MICROMASTER 4th Generation Motor potentiometer Normally closed Normally open Operating instructions Power drive system PID controller proportional integral derivative Parameter ID Parameter ID value Programmable logic controller Parameter list Parameter process data object Positive temperature coefficient Parameter value Pulse width modulation Power extension Process data Quick commissioning Random access memory Residual current circuit breaker Residual current device Ramp function generator Radio frequency interference Revolutions per minute MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 Issue 10 06 Abbreviations SCL Scaling SDP Status display panel SLVC Sensorless vector control STW Control word STX Start of text SVM Space vector modulation TTL Transistor transistor logic USS Universal serial interface VC Vector control VT Variable torque ZSW Status word MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 191 Abbreviations Issue 10 06 MICROMASTER 420 Parameter List 192 6SE6400 5BA00 0BP0 Suggestions and or Corrections Siemens AG Corrections For Publication Manual Automation amp Drives Group MICROMASTER 420 SD SPA PM4 Parameter List P O Box 3269 D 91050 Erlangen
120. ation value is deemed 100 when this maximum tolerable period is reached Dependency That the output current of the inverter has been reduced and that the value of 12t does not exceed 100 Note P0294 100 corresponds to stationary nominal load P0295 Inverter fan off delay time Min 0 CStat CUT Datatype U16 Unit s Def 0 P Group TERMINAL Active first confirm QuickComm No 3600 Defines inverter fan switch off delay time in seconds after drive has stopped Note Setting to 0 inverter fan will switch off when the drive stops that is no delay MICROMASTER 420 Parameter List 32 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description 3 4 Motor parameters P0300 Select motor type Min 1 CStat C Datatype U16 Unit Def 1 P Group MOTOR Active first confirm QuickComm Yes Max 2 Selects motor type This parameter is required during commissioning to select motor type and optimize inverter performance Most motors are asynchronous if in doubt use the formula below 60 x P0310 P0311 x 1 2 n Synchronous motor x z 1 2 n Asynchronous motor If the result is a whole number the motor is synchronous Possible Settings 1 Asynchronous motor 2 Synchronous motor Dependency Changeable only when P0010 1 quick commissioning If synchronous motor is selected the following functions are not available P0308 Power factor P0309 Motor efficiency P0346 Magneti
121. ator panel C Commissioning CB Communication board CCW Counter clockwise CDS Command data set CFM Cubic feet per minute 1 l s 2 1 CFM CI Connector input CM Configuration management CMD Commando CMM Combimaster CO Connector output CO BO Connector output Binector output COM Common terminal that is connected to NO or NC COM Link Communication link CT Commissining ready to run CT Constant torque CUT Commissining run ready to run CW Clockwise DA Digital analog converter DAC Digital analog converter DC Direct current DDS Drive data set DIN Digital input DIP DIP switch DOUT Digital output DS Drive state EEC European Economic Community EEPROM Electrical erasable programmable read only ELCB Earth leakage circuit breaker EMC Electro magnetic compatibility MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 189 Abbreviations 190 EMF EMI FAQ FCC FCL FF FFB FOC FSA GSG GUI ID HIW HSW HTL HVAC I O IBN IGBT IND JOG KIB LCD LED LGE MHB MM4 MOP NC NO OPI PDS PID PKE PKW PLC PLI PPO PTC PWE PWM PX PZD QC RAM RCCB RCD RFG RFI RPM Issue 10 06 Electromotive force Electro magnetic interference Frequently asked questions Flux current control Fast current limit Fixed frequency Free function block Field orientated control Frame size A Getting started guide Global unique identifier Main actual value Main setpoint High threshold logic heating ventil
122. ault reactions P2101 3 Stop reaction value Min 0 CStat CT Datatype U16 Unit Def 0 P Group ALARMS Active first confirm QuickComm No Max 4 Sets drive stop reaction values for fault selected by P2100 alarm number stop reaction This indexed parameter specifies the special reaction to the faults warnings defined in P2100 indices 0 to 2 Possible Settings O Noreaction no display 1 OFF1 stop reaction 2 OFF2 stop reaction 3 stop reaction 4 No reaction warning only Index P2101 0 Stop reaction value 1 P2101 1 Stop reaction value 2 P2101 2 Stop reaction value 3 Note Settings O 3 only are available for fault codes Settings O and 4 only are available for warnings Index 0 P2101 refers to fault warning in index 0 P2100 P2103 Bl 1 Faults acknowledgement Min 0 0 CStat CT Datatype U32 Unit Def 7222 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines first source of fault acknowledgement e g keypad DIN etc depending on setting Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 P2104 Bl 2 Faults acknowledgement Min 0 0 CStat CT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No
123. be set to 99 Dependency Active only when P0719 10 See parameter P0719 Selection of command setpoint source 3 11 Communication parameters P0918 CB address Min 0 Level CStat CT Datatype U16 Unit Def 3 P Group COMM Active first confirm QuickComm No Max 65535 Defines address of CB communication board or address of the other option modules There are two ways to set the bus address via DIP switches on the PROFIBUS module via a user entered value Note Possible PROFIBUS settings 1 125 126 127 are not allowed The following applies when a PROFIBUS module is used DIP switch 0 Address defined in P0918 CB address is valid DIP switch not 0 DIP switch setting has priority and P0918 indicates DIP switch setting P0927 Parameter changeable via Min 0 CStat CUT Datatype U16 Unit Def 15 P Group COMM Active first confirm QuickComm Max 15 opecifies the interfaces which can be used to change parameters This parameter allows the user to easily protect the inverter from unauthorized modification of parameters Annotation Parameter P0927 is not password protected Bitfields Bit00 PROFIBUS CB 0 NO 1 YES Bit01 BOP 0 NO 1 YES Bit02 USS on BOP link 0 NO 1 YES Bit03 USS on COM link O NO 1 YES Example Bits 1 2 and 3 set The default setting allows parameters to be changed via any interface If all bits are set the parameter is displayed on BOP as follows BOP
124. center zero setup There is no hysteresis at the end of the deadband P0762 Delay for loss of signal action Min 0 CStat CUT Datatype U16 Unit ms Def 10 P Group TERMINAL Active Immediately QuickComm No Max 10000 Defines time delay between loss of analog setpoint and appearance of fault code F0080 Note Expert users can choose the desired reaction to F0080 default is OFF2 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 57 Parameter Description Issue 10 06 3 9 r0770 Analog outputs Number of DACs Min Datatype U16 Unit Def P Group TERMINAL Max Displays number of analog outputs available CI DAC Min 0 0 P0771 P0773 r0774 P0775 P0776 CStat CUT Datatype U32 Unit P Group TERMINAL Active first confirm QuickComm No Defines function of the 0 20 mA analog output Common Settings 21 CO Act frequency scaled to P2000 24 CO Act output frequency scaled to P2000 25 CO Act output voltage scaled to P2001 26 CO Act filtered DC link volt scaled to P2001 27 CO Act output current scaled to P2002 GEES DAC channel SOOO wes a BL a n Function DAC XXX scaling Smooth time DAC Min CStat CUT Datatype U16 Unit ms Def P Group TERMINAL Active first confirm QuickComm No Max Defines smoothing time ms for analog output signal This parameter enables smoothing for DAC using a PT1 filter Dependency P0773 0 Deactivates fil
125. cted Bit04 Motor excitation finished Bit05 Starting boost active Bit06 Acceleration boost active Bit07 Frequency is negative Bit08 Field weakening active Bit09 Volts setpoint limited Bit10 Slip frequency limited Bit11 F out gt F max Freq limited Bit12 Phase reversal selected Bit13 I max controller active Bit14 Vdc max controller active Brtl5 KIB Vdc min control active oee description of seven segment display given in the introduction CO Act output current limit Datatype Float Unit A P Group CONTROL Displays valid maximum output current of inverter Parameter r0067 is influenced determined by the following factors Rated motor current P0305 Motor overload factor P0640 Motor protection in dependency of P0610 r0067 is less than or equal to maximum inverter current r0209 Inverter protection in dependency of P0290 P0305 P0640 Motor Motor protection 2 0209 3 Inverter Inverter protection NO NO NO NO O NO NO NO NO CO O NO NO NO NO O O NO NO NO NO O A reduction of r0067 may indicate an inverter overload or a motor overload Min Def Max YES YES YES YES B R m YES YES YES YES B m m YES YES YES YES B m kh YES YES YES YES B R m MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 Issue 10 06 Parameter Description r0071 CO Max output vol
126. ctual compensated motor slip as 96 Dependency Slip compensation P1335 active 3 25 2 Resonance damping P1338 Resonance damping gain V f Min 0 00 CStat CUT Datatype Float Unit Def 0 00 P Group CONTROL Active Immediately QuickComm No Max 10 00 Defines resonance damping gain for V f Here di dt of the acitve current will be scaled by P1338 see diagram below If di dt increases the resonance damping circuit decreases the inverter output frequency P1338 l active f res damping Note The resonance damping function is used to dampen oscillations in the active current These especially occur when rotating field motors are operating under no load conditions The parameter is not used to optimize the stabilizing behavior Inthe V f control modes refer to P1300 the resonance damping controller is activate in a range from approximately 5 up to 70 of the rated motor frequency P0310 An excessively high value results in instability positive feedback MICROMASTER 420 Parameter List 106 6SE6400 5BAO0 0BPO Issue 10 06 Parameter Description 3 25 3 Imax controller P1340 Imax controller prop gain Min 0 000 CStat CUT Datatype Float Unit Def 0 000 P Group CONTROL Active Immediately QuickComm No Max 0 499 Proportional gain of the max frequency controller Dynamically controls the inverter if the output current exceeds the maximum motor current r0067 It does this by first li
127. cuit diagram phase value as a at the ambient temperature temperature rise of the stator winding Note Rated motor impedance Za LL L1 0994 A dg pe lon 43 3 5 r0374 Rotor resistance 96 Min Datatype Float Unit 96 Def P Group MOTOR Max Displays the rotor resistance of the motor equivalent circuit diagram phase value as a 96 at the ambient temperature in the cold state Note Rated motor impedance Zn _ V ph lt gt 100 96 lon 43 v3 P0305 r0376 Rated rotor resistance 96 Min Datatype Float Unit 96 Def P Group MOTOR Max Displays the nominal rotor resistance of the motor equivalent circuit diagram phase value as a 96 at the ambient temperature temperature rise of the rotor winding Note Rated motor impedance Zn _ V ph 22 P0304 lt gt 100 96 lon d V3 P0305 r0377 Total leakage reactance Min Datatype Float Unit Def P Group MOTOR Max Displays standardized total leakage reactance of the motor equivalent circuit phase value in Note Rated motor impedance Z _ V ph PME NEL NS lt gt 100 lon 43 v3 P0305 r0382 Main reactance 96 Min Datatype Float Unit 96 Def P Group MOTOR Max Displays standardized main reactance of the motor equivalent circuit phase value in 95 Note Rated motor impedance Zn _ V ph EE lt gt 100 96 lon d V3 P0305 r0384 Rotor time constant Min Datatype Float Unit ms Def P Group
128. d via the link The telegramm off time defines the time within which a valid telegram must be received If no valid telegram is received within that time the inverter trips with F0070 Dependency Setting O 2 watchdog disabled MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 121 Parameter Description Issue 10 06 CB parameter Min 0 CStat CT Datatype U16 Unit Def 0 P Group COMM Active first confirm QuickComm No Max 65535 Configures a communication board CB P2041 0 CB parameter 0 P2041 1 CB parameter 1 P2041 2 CB parameter 2 P2041 3 CB parameter 3 P2041 4 CB parameter 4 See relevant communication board manual for protocol definition and appropriate settings CO PZD from CB Min Datatype U16 Unit Def P Group COMM Max Displays PZD received from communication board CB E NTC NOD r2091 PZD4 PZD3 i PZD2 PZD1 STW2 HSW STW1 3 i i PZD PKW PKW Parameter ID value CB Frame Process data Parameter CB Frame PZD Process data STW Control word 1 HSW Main setpoint P2041 0 i CB telegram CB on COM link pe PZD mapping to parameter r2050 r2050 0 Received word 0 r2050 1 Received word 1 r2050 2 Received word 2 r2050 3 Received word 3 The control words can be viewed as bit parameters r2090 and r2091 Restrictions Ifthe above serial interface controls the
129. e U16 Unit Def 1 P Group SETPOINT Active first confirm QuickComm No Max 3 Fixed frequencies can be selected in three different modes Parameter P1018 defines the mode of selection Bit 2 Possible Settings 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command Details oee table in P1001 fixed frequency 1 for description of how to use fixed frequencies P1020 Bl Fixed freq selection Bit 0 Min 0 0 CStat CT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines origin of fixed frequency selection Common Settings P1020 722 0 gt Digital input 1 P1021 722 1 gt Digital input 2 P1022 722 2 gt Digital input 3 Dependency Accessible only if P0701 P0703 99 function of digital inputs BICO P1021 Bl Fixed freq selection Bit 1 Min 0 0 CStat CT Datatype U32 Unit Def P Group COMMANDS Active first confirm QuickComm No Defines origin of fixed frequency selection Dependency Accessible only if P0701 P0703 99 function of digital inputs BICO Details See P1020 fixed frequency selection Bit 0 for most common settings P1022 Bl Fixed freq selection Bit 2 Min 0 0 CStat CT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines origin of fixed frequency selection Dependency Accessible only if P0701 P0703 99 function of digital inp
130. e 10 06 2 6 2 7 Parameters Connector Output Parameters r0027 CO Act output current r0067 CO Act output current limit CO Act active current ws ro949 8 CO Fault value 41 Pao Parameter name 5 o AS CO Imax controller volt output CE r2110 4 CO Warning number 0 CO PID filtered feedback Connector Binector Output Parameters Parno Parameter name r0054 CO BO Act control word 1 r0055 CO BO Act control word 2 Pao Parameter name r0056 CO BO Status of motor control MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 2197 CO BO Monitoring word 1 15 Parameter Description Issue 10 06 3 1 r0000 r0002 P0003 P0004 16 Note Parameter Description Note Level 4 Parameters are not visible with BOP or AOP They are only for service purposes Common parameters Drive display Min Datatype U16 Unit Def P Group ALWAYS Max Displays the user selected output as defined in P0005 Pressing the Fn button for 2 seconds allows the user to view the values of DC link voltage output frequency output voltage output current and chosen r0000 setting defined in P0005 Drive state Min Datatype U16 Unit Def P Group COMMANDS Max Displays actual drive state Possible Settings Commissioning mode P0010 0 Drive ready Drive fault active Drive starting DC link precharging D
131. e following is the pulse frequency P1800 set to the factory setting If required reset P1800 does the ambient temperature lie within the permissible limits reduce the load and or ensure adequate cooling Please check the following does the fan rotate if the inverter is operational Inverter 12 STOP II Quit Refer to F0001 Cause inverter overloaded load duty cycle too high the motor power rating P0307 is greater than that of the inverter r0206 100 overload reached refer to utilization 0036 Diagnosis amp Remedy Please check the following does the load duty cycle lie within the permissible limits use a motor with a lower rating motor power P0307 is greater than Is inverter power 0206 Motor overtemperature 12 STOP Il Quit Refer to F0001 Cause Motor overloaded Diagnosis 8 Remedy Please check the following Is the load cycle correct is the thermal motor time constant P0611 correct is the motor I2t alarm threshold correct Restart after n STOP II Quit reset fault memory or Power On Stop Cause restart fault after n attempts refer to P1211 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Faults and Alarms F0041 Failure motor data identification STOP II Quit Refer to F0001 Cause Motor data identification run unsuccessful refer to fault value r0949 10949 0 Load missing 10949 1 Current limit value reached during identificat
132. e s eu Buizi eau 104 QseMIYOS OMUOD Jeu4ejut eui S jojuoo eouenbes eu d V W01 195 eyep peoj uMo d V W01 0 195 eByep peoj uMo peAJeseJ peAJeseJ xew did L6ZZd yezzi 1ndino did utu Id 26224 6221 1ndino did paysiuy Buidwey cl Lcd 92004 95pA PV cl Lcd gt 92004 9PA PV juiodies DE 1 49124 gt Pe J 1 SSIZd pe 171 OZ led lt 26001 1ueuno joy utu J 08014 lt e y HO 9124 e J jou axe1q Od axe1q 90 Kee w y ye q LEE BEBE Ioluo5 eouenbes Iolluo5 eouenbes soBessan soDesso N Iolluo5 eouenbes BuisseooJd uue v soDesso N soDesso N soDesso N soDesso N BuisseooJd uue v soDesso N BuisseooJd uue v 043uoo Bulyesg 0 L c t S 9 4 ugiueuDes 9 6 OLIL 2121 tL SL a luaubas Aeyds p juaubas usnas MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 Function Diagrams L een lt 6S001 GDAMES 19V Og OO G00 1o1oureJed 170 Function Diagrams Issue 10 06 m 027 H31SVINOHOIW zin 9002809 OJUOD xeu OPA weep uogounj pPswoogp suonoun 4 AGojouyoe Lm E E YE EY qp s E Y Jj x 9 C u A 9 NO Xeu 9pA 09 0019 d4 p 0 o O SA m M 92001 A 9PA PV 09 01 ESZLd zH 009 0 1 oyzla dino 1119 170 1 01 U09 9pA 0 1 zsz d 00
133. ed as it was not able to keep the DC link voltage r0026 within the limit values refer to r0026 and P1240 This occurs if the line supply voltage is permanently too high if the motor is driven by an active load which means that the motor goes into regenerative operation while decelerating short down ramps P1121 for extremely high load torques Diagnosis amp Remedy Please check the following ig the input voltage P0756 within the permissible range are load duty cycle and load limits within the permissible limits A0911 Vdc max controller active Cause max controller is active the ramp down times are automatically increased in order to keep the DC link voltage r0026 within the limit values refer to r0026 and P1240 MICROMASTER 420 Parameter List 186 6SE6400 5BAO0 0BPO Issue 10 06 Faults and Alarms A0912 Vdc min controller active Cause min controller is activated if the DC link voltage r0026 falls below the minimum value refer to r0026 or P1240 the kinetic energy of the motor is used to buffer the DC link voltage and therefore to slow down the drive therefore brief line failures no longer automatically result in an undervoltage trip A0920 ADC parameters not correctly set Cause ADC parameters should not be set to identical values as this would lead to illogical results Index 0 Parameter settings for output identical Index 1 Parameter settings for input identical
134. ef 1 00 P Group FUNC Active Immediately QuickComm No Max 10 00 Enters gain for Vdc controller MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 97 Parameter Description P1251 Integration time Vdc controller CStat CUT Datatype Float P Group FUNC Active Immediately Enters integral time constant for Vdc controller P1252 Differential time Vdc controller CStat CUT Datatype Float P Group FUNC Active Immediately Enters differential time constant for Vdc controller P1253 Vdc controller output limitation CStat CUT Datatype Float P Group FUNC Active Immediately Limits maximum effect of Vdc max controller P1254 Auto detect Vdc switch on levels CStat CT Datatype U16 P Group FUNC Active Immediately Unit ms QuickComm No Unit ms QuickComm No Unit Hz QuickComm No Unit QuickComm No Min Def Max Min Def Max Min Def Max Min Def Max Enables disables auto detection of switch on levels for Vdc control functionalities Following switch on levels are calculated Switch on level compound brake Switch on level Vdc max controller r1242 Possible Settings O Disabled 1 Enabled Note Issue 10 06 0 1 40 0 1000 0 The switch on thresholds are only calculated during the start up of the inverter after connection to the mains An online adaption is not performed during operation This means that modification of P1254 does not immediately take effect and v
135. eing controlled via the AOP select USS with the corresponding interface for the Command Source If the AOP is connected to the BOP Link Interface then set Parameter P0700 to the value 4 P0700 4 Note Changing this parameter sets to default all settings on item selected see table EE 4 Poo Poroo a P roo s P0700 6 mem lo Il lo lo mme a lo Je lo Je P0704 P0800 1000 oo on oo 00 jo Posor Ion joo joo joo oo foo X PO840 1722 0 722 0 2032 0 2036 0 2090 0 MICROMASTER 420 Parameter List 44 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description mus o oo oo foo lo oo me oo oo oo foo lo o Pos oo fos oo 20358 aos me oo oo oo aen 20389 aos ms oo oo oo oo Ju Jo P oo oo o Ju oo ives oo fo fo fo fo jo preso foo joo foo oo foo fo P2103 122 2 122 2 122 2 722 2 722 2 722 2 P2200 0 0 P2200 foo 1000 100 100 foo foo P2220 00 000 100 100 foo P2221 joo oo 100 100 og foo P2222 o0 100 100 100 foo joo The following parameters are not overwritten when changing P0700 P0810 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 45 Parameter Description Issue 10 06 3 6 Digital inputs P0701 Function of digital input 1 Min 0 CStat CT Datatype U16 Unit Def 1 P Group COMMANDS Active first confirm QuickComm No Max 99 Selects function of digital input 1 DIN channel e g DIN1 PNP P0725 1
136. enable O NO 1 YES Bit07 Fault acknovledge 0 NO YES Bit08 JOG right 0 NO 1 YES Bit09 JOG left 0 NO 1 YES Bit10 Control from PLC 0 NO 1 YES Bit11 Reverse setpoint inversion 0 NO 1 YES Bit13 Motor potentiometer MOP up 0 NO 1 YES Bit14 Motor potentiometer MOP down 0 NO 1 YES Bit15 Local Remote 0 NO 1 YES Details See description of seven segment display given in the Introduction to MICROMASTER System Parameters in this manual r0055 CO BO Act control word 2 Min Datatype U16 Unit Def P Group COMMANDS Max Displays additional control word of inverter and can be used to diagnose which commands are active Bitfields Bit00 Fixed frequency Bit 0 0 NO 1 YES Bit01 Fixed frequency Bit 1 0 NO 1 YES Bit02 Fixed frequency Bit 2 0 NO 1 YES Bit08 PID enabled 0 NO 1 YES Bit09 DC brake enabled 0 NO 1 YES Bit13 External fault 1 O YES 1 NO Details See description of seven segment display given in the Introduction to MICROMASTER System Parameters in this handbook MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 25 Parameter Description r0056 r0067 26 Details Note CO BO Status of motor control Datatype U16 Unit P Group CONTROL Min Def Max Issue 10 06 Displays status of motor control MM420 V f status which can be used to diagnose inverter status Bitfields Bit00 Imit control finished Bit01 Motor demagnetizing finished Bit02 Pulses enabled Bit03 Voltage soft start sele
137. equency for this time This means that the brake can reliably close before the motor is switched into a no current condition P1217 gt Application time of the brake relay closing time Details See parameter P1215 MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 93 Parameter Description Issue 10 06 3 21 DC braking P1230 Bl Enable DC braking Min 0 0 CStat CUT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Enables DC braking via a signal applied from an external source Function remains active while external input signal is active DC braking causes the motor to stop rapidly by applying a DC braking current current applied also holds shaft stationary When the DC braking signal is applied the inverter output pulses are blocked and the DC current is not applied until the motor has been sufficiently demagnetized Bl Enable DC br P1230 C 1 i P0347 DC braking active r0053 1 Bit00 0 Note DC brake can be applied in drive states r0002 1 4 5 The level of DC braking is set in P1232 DC braking current relative to the rated motor current vvhich is set to 100 by default Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be se
138. erial interface BOP link Example Data type U16 16 Bit U32 32 Bit Float 32 Bit P2013 3 X Parameter access fault Parameter access fault P2013 4 X X X P2013 127 X X X Notice USS protocol consists of PZD and PKW which can be changed by the user via parameters P2012 and P2013 respectively Parameter P2013 determines the number of PKW words in a USS telegram Setting P2013 to 3 or 4 determines the length of the PKW 3 three words and 4 four words When P2013 set to 127 automatically adjusts the length of the PKW words are required P2013 3 2013 3 IND PWE SS word each 16 Bit P2013 4 6 P2013 PKE IND PWE Parameter ID IND Sub index PWE Parameter value If a fixed PKW length is selected only one parameter value can be transferred In the case of indexed parameter you must use the variable PKW length if you wish to have the values of all indices transferred in a single telegram In selecting the fixed PKW length it is important to ensure the value in question can be transferred using this PKW length P2013 3 fixes PKW length but does not allow access to many parameter values A parameter fault is generated when an out of range value is used the value will not be accepted but the inverter state will not be affected Useful for applications where parameters are not changed but MM3s are also used Broadcast mode is not possible with this setting
139. ero then the RFG output is held at it present value P1142 Bl RFG enable setpoint Min 0 0 CStat CT Datatype U32 Unit Def 1 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines command source of RFG enable setpoint command RFG ramp function generator If binary input is equal to zero then the RFG input will be set to zero and the RFG output will be ramp down to zero r1170 CO Frequency setpoint after RFG Min Datatype Float Unit Hz Def P Group SETPOINT Max Displays overall frequency setpoint after ramp generator MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 87 Parameter Description Issue 10 06 3 18 Flying restart P1200 Flying start Min 0 CStat CUT Datatype U16 Unit Def 0 P Group FUNC Active first confirm QuickComm No Max 6 Starts inverter onto a spinning motor by rapidly changing the output frequency of the inverter until the actual motor speed has been found Then the motor runs up to setpoint using the normal ramp time fmax 55 Zfstip nom ramps to set point with normal ramp AMI d out dc t mm o T Vn j as per v f characteristic V out t motor speed found Possible Settings 0 Flying start disabled 1 Flying start is always active start in direction of setpoint 2 Flying start is active if power on fault OFF2 start in direction of setpoint 3 Flying start is active
140. es from parameter P2115 are transferred into parameter P0948 Time Semp when using P2115 Refer to parameter P2115 AOP real time clock r0948 0 Last fault trip fault time seconds minutes r0948 1 Last fault trip fault time hours days r0948 2 Last fault trip fault time month year r0948 3 Last fault trip 1 fault time seconds minutes ro948 4 Last fault trip 1 fault time hours days r0948 5 Last fault trip 1 fault time month year ro948 6 Last fault trip 2 fault time seconds minutes r0948 7 Last fault trip 2 fault time hours days ro948 8 Last fault trip 2 fault time month year r0948191 Last fault trip 3 fault time seconds minutes r0948 10 Last fault trip 3 fault time hours days r0948 11 Last fault trip 3 fault time month year r0949 8 CO Fault value Min Datatype U16 Unit Def P Group ALARMS Max Displays drive fault values It is for service purposes and indicate the type of fault reported The values are listed in the code where faults are reported Index ro949 0 Recent fault trip fault value 1 r0949111 Recent fault trip fault value 2 r0949121 Recent fault trip 1 fault value 3 r0949131 Recent fault trip 1 fault value 4 r0949141 Recent fault trip 2 fault value 5 r0949 5 Recent fault trip 2 fault value 6 ro9g49 6 Recent fault trip 3 fault value 7 r0949 7 Recent fault trip 3 fault value 8 67 Para
141. et to 99 BICO 19 B Reverse via BOP Dependency Active only when P0719 lt 10 See parameter P0719 Selection of command setpoint source Note P1113 0 gt Reverse disabled via AOP BOP Reverse key r1114 CO Freq setp after dir ctrl Min Datatype Float Unit Hz Def P Group SETPOINT Max Displays setpoint frequency after change of direction MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 83 Parameter Description Issue 10 06 3 17 r1119 P1120 P1121 84 Note Notice Notice Ramp function generator CO Freq setpoint before RFG Min Datatype Float Unit Hz Def P Group SETPOINT Max Displays output frequency after modification by other functions e g P1110 BI Inhibit neg freq setpoint P1091 P1094 skip frequencies P1080 Min frequency P1082 Max frequency limitations elc Ramp up time Min 0 00 Level CStat CUT Datatype Float Unit s Def 10 00 1 P Group SETPOINT Active first confirm QuickComm Yes Max 650 00 Time taken for motor to accelerate from standstill up to maximum motor frequency P1082 when no rounding is used f Hz ili E ty fe nl i P1120 pr 20 Setting the ramp up time too short can cause the inverter to trip overcurrent If an external frequency setpoint with set ramp rates is used e g from a PLC The best way to achieve optimum drive perf
142. etpoint inversion 0 NO 1 YES Bit13 Motor potentiometer MOP up 0 NO 1 YES Bit14 Motor potentiometer MOP down 0 NO 1 YES Bit15 Local Remote 0 NO 1 YES Details See relevant communication board manual for protocol definition and appropriate settings r2091 BO Control word 2 from CB Min Datatype U16 Unit Def P Group COMM Max Displays control word 2 received from communication board CB Bitfields Bit00 Fixed frequency Bit 0 0 NO 1 YES Bit01 Fixed frequency Bit 1 0 NO 1 YES Bit02 Fixed frequency Bit 2 0 NO 1 YES Bit08 PID enabled 0 NO 1 YES Bit09 DC brake enabled 0 NO 1 YES Bit13 External fault 1 0 YES 1 NO Details See relevant communication board manual for protocol definition and appropriate settings MICROMASTER 420 Parameter List 124 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description 3 30 Faults Alarms Monitoring P2100 3 Alarm number selection Min 0 CStat CT Datatype U16 Unit Def 0 P Group ALARMS Active first confirm QuickComm No Max 65535 Selects up to 3 faults or warnings for non default reactions Index P2100 0 Fault Number 1 P2100 1 Fault Number 2 P2100 2 Fault Number 3 Example If you want F0005 to perform an OFF3 instead of an OFF2 set P2100 0 5 then select the desired reaction in P2101 0 in this case set P2101 0 3 Note All fault codes have a default reaction to OFF2 Some fault codes caused by hardware trips e g overcurrent cannot be changed from the def
143. etween 0002 value and r0020 value In run display r0002 value 4 Inall states just display P0005 Note When inverter is not running the display alternates between the values for Not Running and Running Per default the setpoint and actual frequency values are displayed alternately P0007 Backlight delay time Min 0 CStat CUT Datatype U16 Unit Def 0 P Group FUNC Active first confirm QuickComm No Max 2000 Defines time period after which the backlight display turns off if no operator keys have been pressed Value P0007 0 Backlight always on default state P0007 1 2000 Number of seconds after which the backlight will turn off MICROMASTER 420 Parameter List 6SE640 0 5BAO0 0BPO 17 Parameter Description Issue 10 06 P0010 Commissioning parameter Min 0 CStat CT Datatype U16 Unit Def 0 P Group ALWAYS Active first confirm QuickComm No Max 30 Filters parameters so that only those related to a particular functional group are selected Possible Settings O Ready 1 Quick commissioning 2 Inverter 29 Download 30 Factory setting Dependency Note P0011 Details P0012 Details P0013 20 18 Reset to 0 for inverter to run P0003 user access level also determines access to parameters P0010 1 The inverter can be commissioned very quickly and easily by setting P0010 1 After that only the important parameters e g P0304 P0305 etc are visib
144. from the PROFIBUS master Diagnosis amp Remedy Check setpoints from the PROFIBUS master Switch SIMATIC CPU to RUN A0704 CB alarm 5 Cause Atleast one configured internode transmitter is not yet active or has failed Diagnosis amp Remedy Activate internode transmitter A0705 CB alarm 6 Cause No actual values received from inverter Diagnosis amp Remedy fault is in inverter MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 185 Faults and Alarms Issue 10 06 A0706 CB alarm 7 Cause PROFIBUS DP communication board Software error Diagnosis amp Remedy fault on the PROFIBUS DP communication board for details see diagnostic parameter A0707 CB alarm 8 Cause CB Communications module specific Diagnosis amp Remedy refer to the CB User Manual A0708 CB alarm 9 Cause CB Communications module specific Diagnosis amp Remedy refer to the CB User Manual A0709 CB alarm 10 Cause CB Communications module specific Diagnosis amp Remedy refer to the CB User Manual A0710 CB communications error Cause loss of communications with the CB communications module Diagnosis amp Remedy check the CB hardware A0711 CB communications error Cause CB communications module signals a communications error Diagnosis amp Remedy check the CB parameters A0910 Vdc max controller disabled switched out Cause max controller was de activat
145. g Possible Settings 0 Unipolar voltage input 0 to 10 V 1 Unipolar voltage input with monitoring 0 to 10 V Notice When monitoring is enabled and a deadband defined P0761 a fault condition will be generated F0080 if the analog input voltage falls below 50 of the deadband voltage Details See P0757 to P0760 ADC scaling P0757 Value x1 of ADC scaling V Min 0 CStat CUT Datatype Float Unit V Def 0 P Group TERMINAL Active first confirm QuickComm No Max 10 Parameters P0757 P0760 configure the input scaling as shown in the diagram P0761 0 100 96 4 AsPmax P0760 P0758 AsPmin VVhere Analog setpoints represent a of the normalized frequency in P2000 Analog setpoints may be larger than 100 ASPmax represents highest analog setpoint this may be at 10 V ASBPmin represents lowest analog setpoint this may be at V Default values provide a scaling of OV 96 and 10 V 100 96 MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 55 Parameter Description Issue 10 06 Note The ADC linear characteristic is described by 4 coordinates based on a two point equation y P0758 P0760 P0758 x P0757 P0759 P0757 For calculations the point gradient form offset and gradient is more advantageous y m x yo The transformation between these two forms is given by P0760 P0758 S P0758 P0759 P0757 P0760 P0759 P
146. git denotes the bit setting for that parameter If one of the digital inputs is selected for OFF2 the inverter will not run unless the digital input is active f P1082 fma X aci f act motor r0052 2 f act inverter Operation Pulse t cancellation Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 19 0 ON OFF1 via BOP 19 1 OFF2 Electrical stop via BOP Dependency Active only when P0719 lt 10 See parameter P0719 Selection of command setpoint source Note OFF2 means an immediate pulse inhibit the motor coasts down 2 is low active The following applies for the priority of all of the OFF commands OFF2 OFF3 OFF1 P0845 Bl 2 OFF2 Min 0 0 CStat CT Datatype U32 Unit Def 19 1 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines second source of OFF2 The first three digits describe the parameter number of the command source and the last digit denotes the bit setting for that parameter If one of the digital inputs is selected for OFF2 the inverter will not run unless the digital input is active Common Settings 722 0 Digital input 1 requires PO701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 7
147. hermischen Motorschutz nicht Alle MICROMASTER 3 Varianten Bestell Nr 6SE32 Alle MICROMASTER 410 Bestell Nr 6SE6410 Alle MICROMASTER 411 Bestell Nr 6SE6411 Alle MICROMASTER 436 Bestell Nr 6SE6436 Alle MICROMASTER MMI CM2 Bestell Nr 6SE96 Me A m Am Original Design dieser Produkte hat sich nichts ge ndert aber sie erf llen nicht mehr die neuen UL Vorschriften Diese Produkte d rfen am Typenschild ein UL Symbol zeigen aber es ist in der Verantwortung des Endkunden einen gelisteten externen Motor berlastschutz einzubauen Wir empfehlen dem Endkunden ein Siemens berlastrelais der Serie 3RU motorseitig am Frequenzumrichter zu installieren um den Motorschutz zu gewahrleisten Weitere Informationen zu den Sirius 3RU berlastrelais finden Sie unter folgendem Link http www automation siemens com mcms industrial controls de schutzgeraete ueberlastrelais Seiten default aspx A 5 E 3 16 7 4 14 5 2 SINAMICS SIMATIC and MICROMASTER inverters Product Information A5E31674145A Edition 08 2013 Francais Changement de la fonction de protection thermique du moteur des variateurs de vitesse MICROMASTER amp SINAMICS Le 09 Novembre 2010 Underwriters Laboratories Inc UL ont r vis les standards sur la s curit des convertisseurs de puissance safety of power conversion equipment qui s appliquent aux variateurs de vitesse Siemens Ces changements
148. i restano invariati rispetto alla loro progettazione originale ma non sono piu compatibili con nuovi requisiti Questi prodotti possono mantenere il simbolo UL ma compete all utente finale assicurare la protezione esterna contro i sovraccarichi del motore richiesta dalla norma per il convertitore di frequenza Per assicurare la protezione del motore si consiglia all utente finale di ricorrere a dispositivi come i rele di sovraccarico Siemens della serie 3RU sul lato motore del convertitore di frequenza Per i dettagli fare riferimento al link seguente http www automation siemens com mcms industrial controls en protection equipment overload relays pages default aspx A5E31674145_A 4 SINAMICS SIMATIC and MICROMASTER inverters Product Information A5E31674145A Edition 08 2013 Espa ol Cambios en la funci n de protecci n t rmica del motor de los convertidores MICROMASTER SIMATIC y SINAMICS El 9 de noviembre de 2010 Underwriters Laboratories Inc UL revis el est ndar de seguridad de los equipos convertidores de energ a que afecta a los convertidores de Siemens Estos cambios en el est ndar entraron en vigor el 9 de mayo de 2013 Los cambios est n relacionados con el rendimiento de la protecci n del motor por software ofrecida por el convertidor por la cual cuando el convertidor se apaga y se vuelve a encender debe conservar los datos sobre la temperatura del motor para utilizarlos al volver a arrancar Para cum
149. ickComm No Max 1 Enables disables Vdc controller The Vdc controller dynamically controls the DC link voltage to prevent overvoltage trips on high inertia systems Possible Settings 0 Vdc controller disabled 1 Vdc max controller enabled Note Vdc max controller automatically increases ramp down times to keep the DC link voltage r0026 within limits r1242 r1242 CO Switch on level of Vdc max Min Datatype Float Unit V Def P Group FUNC Max Displays switch on level of Vdc max controller Vpc A O n QE t Vpc max controller active A0911 r0056 Bit14 i pp j eee 0 t f Following equation is only valid if P1254 0 1242 1 15 V2 Vmains 1 15 2 PO210 otherwise r1242 is internally calculated Note Parameter r1242 switch in threshold is determined by each power cycle when precharging of the DC link is finished P1243 Dynamic factor of Vdc max Min 10 CStat CUT Datatype U16 Unit Def 100 P Group FUNC Active Immediately QuickComm No Max 200 Defines dynamic factor for DC link controller in 96 Dependency P1243 100 means parameters P1250 P1251 and P1252 gain integration time and differential time are used as set Otherwise these are multiplied by P1243 dynamic factor of Vdc max Note Vdc controller adjustment is calculated automatically from motor and inverter data P1250 Gain of Vdc controller Min 0 00 CStat CUT Datatype Float Unit D
150. ied by parameter P1232 Value P1233 0 00 Not active following OFF1 OFF3 P1233 0 01 250 00 Active for the specified duration Caution N With the DC braking the kinetic energy of the motor is converted into heat in the motor The drive could overheat if the remains in this status for an exessive period of time DC braking is not possible when using a synchronous motor i e PO300 2 Notice The DC braking function causes the motor to stop rapidly by applying a DC braking current the current applied also holds the shaft stationary When the DC braking signal is applied the inverter output pulses are blocked and the DC current not applied until the motor has been sufficiently demagnetized Demagnetization time is calculated automatically from motor data The inverter will not restart if an ON command is given during this period MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 95 Parameter Description Issue 10 06 3 22 Compound braking P1236 Compound braking current Min 0 CStat CUT Datatype U16 Unit Def 0 P Group FUNC Active Immediately QuickComm No Max 250 Defines DC level superimposed on AC waveform after exeeding DC link voltage threshold of compound braking The value is entered in 96 relative to rated motor current P0305 If P1254 2 0 Compound braking switch on level Unc Gan 1 13 42 Vmains 1 193 J2 P0210 otherwise Compound braking switch on level Unc an 0 98 r
151. if fault OFF2 start in direction of setpoint 4 Flying start is always active only in direction of setpoint 5 Flying start is active if power on fault OFF2 only in direction of setpoint 6 Flying start is active if fault OFF2 only in direction of setpoint Note Useful for motors with high inertia loads Settings 1 to 3 search in both directions Settings 4 to 6 search only in direction of setpoint Flying start must be used in cases where the motor may still be turning e g after a short mains break or can be driven by the load Otherwise overcurrent trips will occur P1202 Motor current Flying start Min 10 CStat CUT Datatype U16 Unit Def 100 P Group FUNC Active first confirm QuickComm No Max 200 Defines search current used for flying start Value is in 76 based on rated motor current P0305 Note Ifthe search current is reduced the flying restart behavior can be improved if the system inertia is not very high MICROMASTER 420 Parameter List 88 6SE6400 5BAO0 0BPO Issue 10 06 Parameter Description P1203 Search rate Flying start Min 10 CStat CUT Datatype U16 Unit Def 100 P Group FUNC Active first confirm QuickComm No Max 200 Sets factor by which the output frequency changes during flying start to synchronize with turning motor This value is entered in defines the reciprocal initial gradient in the search sequence see curve below Parameter P1203 influences the time taken to search f
152. ines the upper limit at which resonance damping is active for V f The resonance circuit damps oscillations of the active current which frequently occur during no load operation see P1338 The limit is defined as a percentage of rated motor frequency P0310 There is a 5 band below the upper limit through which the gain decreases in a linear fashion from full gain to zero gain Soft starting Voltage soft start Min 0 CStat CUT Datatype U16 Unit Def 0 P Group CONTROL Active first confirm QuickComm No Max 1 Selecting the soft starting function With soft starting the flux in the motor is established with some delay This ensures that the motor only rotates in the required direction of rotation even with existing residual magnetism When activated at powered on the output voltage is ramped up to the value of the characteristic voltage within the magnetizing time P0346 P1350 P0346 V f characteristic Possible Settings Note 108 0 OFF 1 ON The settings for this parameter bring benefits and drawbacks P1350 0 jump to boost voltage Benefit flux is built up quickly Drawback motor may move P1350 1 smooth voltage build up Benefit motor less likely to move Drawback flux build up takes longer MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description 3 26 Inverter parameters Modulator P1800 Pulse frequency Min 2 CStat CUT Datatype U16 Unit kHz
153. inverter P0700 or P0719 then the 1st control word must be transferred in the 1st PZD word If the setpoint source is selected via P1000 or P0719 then the main setpoint must be transfered in the 2nd PZD word When P2012 is equal to 4 the additional control word 2nd control word must transferred in the 4th PZD word if the above serial interface controls the inverter P0700 or P0719 MICROMASTER 420 Parameter List P2041 5 Index Details r2050 4 Index Note 122 65E6400 5BA00 OBPO Issue 10 06 Parameter Description P2051 4 Cl PZD to CB Min 0 0 CStat CT Datatype U32 Unit Def 52 0 P Group COMM Active Immediately QuickComm No Max 4000 0 Selects signals process data PZD to be transmitted via CB on COM link E Ce Se SS A lt lt lt PZD3 PZD2 2 1 ZSW2 HW ZSW1 i I PKW Parameter ID value PZD PKW ZSW Status word i I I i P2041 0 x 4 USS telegram sf HIW Main actual value PZD mapping from parameter P2051 p t CB on COM link Index P2051 0 Transmitted word 0 P2051 1 Transmitted word 1 P2051 2 Transmitted word 2 P2051 3 Transmitted word 3 Common Settings Status word 1 52 CO BO Act status word 1 see r0052 Actual value 1 21 inverter output frequency see 0021 Other BICO settings are possible r2053 5 CE identification Min D
154. ion 10949 2 Identified stator resistance less than 0 1 or greater than 100 10949 30 Current controller at voltage limit value 70949 40 Identified data set inconsistent at least one identification run unsuccessful NOTE Percentage values based on the impedence Zb Vmot rated sqrt 3 Imot rated Diagnosis amp Remedy Please check the following 10949 0 Is the motor connected to the inverter 0949 1 40 15 the motor data in P0304 P0311 correct 10949 1 40 Motor circuit configuration correct star delta configuration F0051 Parameter EEPROM fault STOP II Quit Refer to F0001 Cause read or write operation while saving parameters in the EEPROM was unsuccessful Diagnosis amp Remedy reset to factory setting and then re parameterize if required change the drive F0052 Power stack fault STOP II Quit Refer to F0001 Cause read error power data or invalid power module data Diagnosis amp Remedy change the drive F0060 Asic time slice overflow STOP II Quit Refer to F0001 Cause internal communications failure error Diagnosis amp Remedy if the error still occurs replace the inverter contact customer service F0070 CB setpoint fault STOP Il Quit Refer to F0001 Cause no setpoints received via the communications bus during the telegram failure time Triggered by A0702 A0703 A0704 Diagnosis amp Remedy check the communications module CB and communicati
155. ion CStat T P Group Datatype U16 Active first confirm Unit QuickComm No Issue 10 06 Min 0 Det 0 Max 67 Toggles command and setpoint sources between freely programmable BICO parameters and fixed command setpoint profiles for commissioning The command and setpoint sources can be changed independently The tens digit selects the command source the ones digit the setpoint source e Settings Cmd BICO parameter 1 Cmd BICO parameter 2 parameter 3 Cmd BICO parameter 4 BICO parameter 5 Cmd BICO parameter 6 Cmd BICO parameter 7 md BICO parameter 10 Cmd BOP 11 Cmd BOP 12 Cmd BOP 13 Cmd BOP 15 Cmd BOP 16 Cmd BOP 17 Cmd BOP 40 Cmd USS on BOP link 41 Cmd USS on BOP link 42 Cmd USS on BOP link 43 Cmd USS on BOP link 44 Cmd USS on BOP link 45 Cmd USS on BOP link 46 Cmd USS on BOP link 47 Cmd USS on BOP link 50 Cmd USS on COM link 51 Cmd USS on COM link 52 Cmd USS on COM link 53 Cmd USS on COM link 54 Cmd USS on COM link 55 Cmd USS on COM link 57 Cmd USS on COM link 60 Cmd CB on COM link 61 Cmd CB on COM link 62 Cmd CB on COM link 63 Cmd CB on COM link 64 Cmd CB on COM link 66 Cmd CB on COM link 67 Cmd CB on COM link Reset active fault CStat CT P Group ALARMS Datatype U16 Active first confirm Setpoint BICO parameter Setpoint MOP setpoint Setpoint Analog setpoint Setpoint Fixed
156. is exceeded refer to utilization r0036 the pulse frequency and or the output frequency is reduced as a function of the setting of parameter P0290 Diagnosis amp Remedy check whether the load duty cycle lies within the permissible limits A0511 Motor overtemperature I2T Cause motor is overloaded load duty cycle is exceeded Diagnosis amp Remedy Please check the following value P0611 motor 121 time constant suitable is P0614 motor I2t overload alarm set to a suitable value MICROMASTER 420 Parameter List 184 6SE6400 5BA00 0BPO Issue 10 06 Faults and Alarms A0541 Motor data identification routine active Cause motor data identification routine P1910 selected and is active A0571 Auto restart after fault present A0600 RTOS data loss alarm Cause time slice overflow was identified Diagnosis amp Remedy use lower baud rate for USS de activate inverter functions A0700 CB alarm 1 Cause The parameter or configuring settings by the PROFIBUS master are invalid Diagnosis amp Remedy Correct the PROFIBUS configuration A0701 CB alarm 2 Cause CB communications module specific Diagnosis amp Remedy refer to the CB User Manual A0702 CB alarm 3 Cause The link to the PROFIBUS is interrupted Diagnosis amp Remedy Check connector cable and PROFIBUS master A0703 CB alarm 4 Cause setpoints or invalid setpoints control word are being received
157. is parameter 1 Calculate using P0340 1 data entered from rating plate or P0010 1 P3900 1 2 or 3 end of quick commissioning 2 Measure using P1910 1 motor data identification value for stator resistance is overwritten 3 Measure manually using an Ohmmeter Note Since measured line to line this value may appear to be higher up to 2 times higher than expected The value entered in P0350 stator resistance is the one obtained by the method last used Default value is depending on inverter type and its rating data r0370 Stator resistance 96 Min Datatype Float Unit 56 Def P Group MOTOR Max Displays standardized stator resistance of motor equivalent circuit phase value in as a function of the actual stator winding temperature Note Rated motor impedance 2 cee UM ul EE Io JD v3 P0305 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 39 Parameter Description r0372 Cable resistance Datatype Float Unit P Group MOTOR Issue 10 06 Min Def Max Displays standardized cable resistance of motor equivalent circuit phase value in It is estimated to be 20 of the stator resistance Note Rated motor impedance Zn _ V ph VN 0304 lt gt 100 95 lon V3 V3 P0305 r0373 Rated stator resistance Min Datatype Float Unit Def P Group MOTOR Max Displays the nominal stator resistance of the motor equivalent cir
158. isabling automatic pulse frequency reduction at output frequencies below 2 Hz The benefit is to reduce the noises at frequencies below 2 Hz Bitfields Bit00 Pulse frequency reduced below 2Hz 0 NO 1 YES Bit03 Enable fan 0 NO 1 YES IN Caution P0291 Bit 00 0 No automatic pulse frequency is applied at frequencies below 2 Hz There is a risk of damage to the inverter if DC braking or greater boost are used respectively Details oee P0290 inverter overload reaction P0292 Inverter temperature warning Min 0 CStat CUT Datatype U16 Unit C Def 15 P Group INVERTER Active first confirm QuickComm No Max 25 Defines the temperature difference in C between the Overtemperature trip threshold and the warning threshold of the inverter The trip threshold is stored internally by the inverter and cannot be changed by the user Temperature warning threshold of inverter T T T warm warm sip P0292 110 C P0292 If the actual inverter temperature r0037 exceeds the corresponding threshold a warning A0504 if the temperature still increases then a fault F0004 will be displayed P0294 Inverter 121 overload warning Min 10 0 CStat CUT Datatype Float Unit Def 95 0 P Group INVERTER Active first confirm QuickComm No Max 100 0 Defines the 96 value at which alarm A0505 inverter 12t is generated Inverter Dt calculation is used to determine a maximum tolerable period for inverter overload The 121 calcul
159. it s Def 0 000 P Group TECH Active Immediately QuickComm No Max 60 000 Sets integral time constant for PID controller Details See P2280 PID proportional gain P2291 PID output upper limit Min 200 00 CStat CUT Datatype Float Unit Def 100 00 P Group TECH Active Immediately QuickComm No Max 200 00 Sets upper limit for PID controller output in Dependency If F max P1082 is greater than P2000 reference frequency either P2000 or P2291 PID output upper limit must be changed to achieve F max Note P2291 100 corresponds to 4000 hex as defined by P2000 reference frequency P2292 PID output lower limit Min 200 00 CStat CUT Datatype Float Unit Def 0 00 P Group TECH Active Immediately QuickComm No Max 200 00 Sets lower limit for the PID controller output in 96 Dependency A negative value allows bipolar operation of PID controller Note P2292 100 corresponds to 4000 hex MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 141 Parameter Description Issue 10 06 P2293 Ramp up down time of PID limit Min 0 00 CStat CUT Datatype Float Unit s Def 1 00 P Group TECH Active Immediately QuickComm No Max 100 00 Sets maximum ramp rate on output of PID When Pl is enabled the output limits are ramped up from 0 to the limits set in P2291 PID output upper limit and P2292 PID output lower limit Limits prevent large step changes appearing on the output of the
160. ital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO P1124 does not have any impact when JOG mode is selected In this case jog ramp times P1060 P1061 will be used all the time Ramp times will be used as follows P1060 P1061 JOG mode is active P1120 P1121 Normal mode ON OFF is active P1060 P1061 Normal mode ON OFF and P1124 is active P1130 Ramp up initial rounding time Min 0 00 Level CStat CUT Datatype Float Unit s Def 0 00 2 P Group SETPOINT Active first confirm QuickComm No Max 40 00 Defines initial rounding time in seconds as shown on the diagram below AS P1130 P1131 P1132 P1133 t tup tdown where for 2 P1120 x P1130 P1131 P1082 2 tap P1130 P1131 2 11 p1120 2 P1082 for 2 4 11212 1P1132 P1133 P1082 2 1 fo fi P1132 P1133 P1121 tdown 3 1082 Note If short or zero ramp times P1120 P1121 lt P1130 P1131 P1132 P1133 are set the total ramp up time t up or ramp down time t down will not depend on P1130 See equations above for valid conditions to calculate t up and t down Rounding times are recommended since they prevent an abrupt response thus avoiding detrimental effects on the mechanics Rounding times are not recommended when analog inputs are used since they would result in overshoot undershoot in the i
161. l to Not equal to Logical operators amp amp AND logic operation MICROMASTER 420 6SE6400 5BA00 0BP0 OR logic operation Parameter List 11 Parameters Issue 10 06 2 2 Quick commissioning P0010 1 The following parameters are necessary for quick commissioning P0010 1 Quick commissioning P0010 1 Par No Name Access level Cstat P0100 Europe North America 1 C P0300 Select motor type 2 C P0304 Motor voltage rating 1 C P0305 Motor current rating 1 C P0307 Motor power rating 1 C P0308 Motor cosPhi rating 1 C P0309 Motor efficiency rating 1 C P0310 Motor frequency rating 1 C P0311 Motor speed rating 1 C P0320 Motor magnetizing current 3 CT P0335 Motor cooling 2 CT P0640 Motor overload factor 2 CUT P0700 Selection of command source 1 CT P1000 Selection of frequency setpoint 1 CT P1080 Min frequency 1 CUT P1082 Max frequency 1 CT P1120 Ramp up time 1 CUT P1121 Ramp down time 1 CUT P1135 OFF3 ramp down time 2 CUT P1300 Control mode 2 CT P1910 Select motor data identification 2 CT P3900 End of quick commissioning 1 C When P0010 1 is chosen P0003 user access level can be used to select the parameters to be accessed This parameter also allows selection of a user defined parameter list for quick commissioning At the end of the quick commissioning sequence set P3900 1 to carry out the necessary motor calculations and clear all other parameters not included in P0010 1 to their default settings
162. le The value of these parameters must be entered one after the other The end of quick commissioning and the start of internal calculation will be done by setting P3900 1 3 Afterward parameter P0010 and P3900 will be reset to zero automatically P0010 22 For service purposes only P0010 29 To transfer a parameter file via PC tool eg DriveMonitor STARTER parameter P0010 will be set to 29 by the PC tool When download has been finished PC tool resets parameter P0010 to zero P0010 30 When resetting the parameters of inverter P0010 must be set to 30 Resetting of the parameters will be started by setting parameter P0970 1 The inverter will automatically reset all its parameters to their default settings This can prove beneficial if you experience problems during parameter setup and wish to start again Duration of factory setting will take about 60 s Lock for user defined parameter Min 0 CStat CUT Datatype U16 Unit Def 0 P Group FUNC Active first confirm QuickComm No Max 65535 oee parameter P0013 user defined parameter Key for user defined parameter Min 0 CStat CUT Datatype U16 Unit Def 0 P Group FUNC Active first confirm QuickComm No Max 65535 See parameter P0013 user defined parameter User defined parameter Min 0 CStat CUT Datatype U16 Unit Def 0 P Group FUNC Active first confirm QuickComm No Max 65535 Defines a limited set of parameters to which the end user will have access
163. limit values for the cable lengths maintained does the motor cable or motor have a short circuit or ground fault do the motor parameters correspond to those of the motor being used stator resistance value P0350 correct is the motor overloaded or is the rotor locked cannot rotate ramp up time P1120 too low A0502 Overvoltage limit value Cause the overvoltage limit value has been reached actual value of the DC link voltage r0026 greater than r1242 Diagnosis 8 Remedy if this alarm is permanently displayed check the inverter input voltage ig the DC link voltage controller Vdc max controller de activated refer to parameter P1240 short ramp times and or large flywheel masses moment of inertia A0503 Undervoltage limit value Cause line supply has failed line voltage and therefore also the DC link voltage r0026 below the defined limit value refer to parameter r0026 Diagnosis amp Remedy check the line voltage A0504 Inverter overtemperature Cause alarm threshold of the inverter heatsink temperature P0614 was exceeded this results in a reduction of the pulse frequency and or the output frequency dependent on the parameterization in P0610 Diagnosis amp Remedy Please check the following is the ambient temperature within the permissible limits are the load and load duty cycle within the permissible limits A0505 Inverter 12 Cause overload alarm limit P0294
164. ltage threshold refer to parameter 0026 ground fault Diagnosis amp Remedy Please check the following is the line supply voltage within the permissible range has the DC current DC link monitoring been enabled P1240 and correctly parameterized extend the deceleration ramp ramp down time P1121 P1135 remove the ground fault is the required braking power within the permissible limits NOTE a higher moment of inertia requires longer deceleration times if required use a braking resistor overvoltage can either be caused by an excessively high line supply voltage or by the fact that the motor is generating regenerative mode the motor can be generating as it is decelerating quickly or due to the fact that an active load is driving the motor MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 179 Faults and Alarms Issue 10 06 F0003 F0004 F0005 F0011 F0035 180 Undervoltage STOP Il Quit Refer to F0001 Cause line voltage failed shock stressing outside the permissible limits Diagnosis amp Remedy Please check the following Is the line supply voltage within the permissible range Is the line supply voltage stable with respect to sporadic failures and voltage dips brown outs Inverter overtemperature STOP Il Quit Refer to F0001 Cause inadequate cooling ambient temperature is too high ambient temperature is too high Diagnosis amp Remedy Please check th
165. meter Description P0952 Total number of faults CStat CUT P Group ALARMS Datatype U16 Active first confirm Unit QuickComm No Displays number of faults stored in r0947 last fault code Dependency Setting O resets fault history changing to 0 also resets parameter r0948 fault time r0964 5 Firmware version data Datatype U16 Unit P Group COMM Firmware version data Index r0964 0 Company Siemens 42 ro964 1 Product type ro964 2 Firmware version r0964 3 Firmware date year r0964 4 Firmware date day month Example No Meaning r0964 0 SIEMENS r096411 MICROMASTER 420 MICROMASTER 440 MICRO COMBIMASTER 411 MICROMASTER 410 reserved MICROMASTER 440 PX MICROMASTER 430 096412 Firmware V1 05 ro9e4 3 27 10 2001 096414 r0965 Profibus profile Datatype U16 Unit P Group COMM Identification of profile number and version for PROFIDrive r0967 Control word 1 Datatype U16 Unit P Group COMM Displays control word 1 Bitfields Bit00 ON OFF1 Bit01 OFF2 Electrical stop Bit02 OFF3 Fast stop Bit03 Pulses enabled Bit04 RFG enable B1t05 RFG start Bit06 Setpoint enable Bit07 Fault acknowledge Bit08 JOG right Bit09 JOG left Brtilo Control from PLC Bit11 Reverse setpoint inversion Bit13 Motor potentiometer MOP up Bit14 Motor potentiometer MOP down Bit15 Local Remote 68 Issue 10 06 Min 0 Def 0 Max 8
166. meter Description Issue 10 06 P2150 Hysteresis frequency f_hys Min 0 00 CStat CUT Datatype Float Unit Hz Def 3 00 P Group ALARMS Active Immediately QuickComm No Max 10 00 Defines hysteresis level applied for comparing frequency and speed to threshold as illustrated in the diagram below f act 0 f act H f act 0 r2197 r0052 Bit14 Hyst freq f hys 0 00 10 00 Hz P2150 D 3 00 f set de f_act gt f_set Es r2197 Bit04 r0053 Bit06 Hyst freq f hys 0 00 10 00 Hz f act gt f set P2150 D 3 00 P2155 Threshold frequency f 1 Min 0 00 CStat CUT Datatype Float Unit Hz Def 30 00 P Group ALARMS Active Immediately QuickComm No Max 650 00 Sets a threshold for comparing actual frequency or frequency to threshold values f_1 This threshold controls status bits 4 and 5 in status word 2 r0053 Threshold freq f_1 f EE 0 00 650 00 Hz Delay time of f_1 f act f 1 P2155 D 30 00 0 10000 ms P2156 D 10 f act lt f 1 f act Threshold freq f 1 r2197 Bit01 0 00 650 00 Hz r0053 Bit05 P2155 D 30 00 Wt heq Clive 0 00 10 00 Hz P2150 D 3 00 f act f 1 r2197 Bit02 Delay time of 1 0053 Bit04 Hyst freq f hys O 10000 ms 0 00 10 00 Hz P2156 D 10 P2150 D 3 00 P2156 Delay time of threshold freq f_1 Min 0 CStat CUT Datatype U16 Unit ms Def 10 P Group ALA
167. minimum motor frequency Hz at which motor will run irrespective of frequency setpoint The minimum frequency P1080 represents a masking frequency of O Hz for all frequency target value sources e g ADC MOP FF USS with the exception of the JOG target value source analogous to P1091 Thus the frequency band P1080 is run through in optimum time by means of the acceleration deceleration ramps Dwelling in the frequency band is not possible see example Furthermore an undershoot of the actual frequency f act below min frequency P1080 is output by the following signal function Example ON OFF P1080 P2150 P1080 If act gt f min r0053 Tan Bit 02 o Note Value set here is valid both for clockwise and for anticlockwise rotation Under certain conditions e g ramping current limiting motor can run below minimum frequency MICROMASTER 420 Parameter List 80 6SE6400 5BA00 0BP0 Issue 10 06 Parameter Description P1082 Max frequency Min 0 00 CStat CT Datatype Float Unit Hz Def 50 00 P Group SETPOINT Active first confirm QuickComm Yes Max 650 00 Sets maximum motor frequency Hz at which motor will run irrespective of the frequency setpoint The value set here is valid for both clockwise and anticlockwise rotation Futhermore the monitoring function f_act gt P1082 r0052 Bit10 see example below is affected by this parameter Example f act P1082 P1082 3Hz f act gt
168. miting the inverter output frequency to a possible minimum of the nominal slip frequency If this action does not successfully remove the overcurrent condition the inverter output voltage is reduced When the overcurrent condition has been removed successfully frequency limiting is removed using the ramp up time set in P1120 Motor current t t t P1341 Imax controller integral time Min 0 000 CStat CUT Datatype Float Unit s Def 0 300 P Group CONTROL Active Immediately QuickComm No Max 50 000 Integral time constant of the max controller P1341 controller disabled 1340 0 and 1 41 0 enhanced integral P1340 gt 0 and P1341 0 normal Pl control See description in parameter P1340 for further information r1343 CO Imax controller freq output Min Datatype Float Unit Hz Def P Group CONTROL Max Displays effective frequency limitation Dependency If 1 max controller not in operation parameter normally shows max frequency P1082 r1344 CO Imax controller volt output Min Datatype Float Unit V Def P Group CONTROL Max Displays amount by which the max controller is reducing the inverter output voltage MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 107 Parameter Description Issue 10 06 P1349 Note 3 29 4 P1350 Resonance damping limit Min 80 0 CStat CUT Datatype Float Unit Def 80 0 P Group CONTROL Active Immediately QuickComm No Max 100 0 Def
169. motor and the temperature rises with time hence Pt Because most motors are cooled by fans integrated in the motor and running at the motor speed the speed of the motor is also important Clearly a motor running with a high current maybe due to boost and a low speed will overheat more quickly than one running at 50 or 60 Hz full load The MM4 take account of these factors MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 41 Parameter Description Issue 10 06 P0611 Motor 12t time constant Min 0 CStat CT Datatype U16 Unit s Def 100 P Group MOTOR Active Immediately QuickComm No Max 16000 Thermal Time constant for the motor The time until the thermal limit of a motor is reached is calculated via the thermal time constant A higher value increases the time at which the motor thermal limit is reached The value of P0611 is estimated according to the motor data during quick commissioning or is calculated using P0340 Calculating of the motor parameters When the calculation of motor parameters during quick commission is complete the stored value can be replaced by the value given by the motor manufacturer Example For a 2 pole 1LA7063 motor the value is 8 min see table The value for P0611 is calculated as follows P0611 8 min 60 480s min For Siemens standard motors 1LA7 the thermal time constant values are given in minutes see following
170. mpensation Increasing the load from M1 to M2 see diagram will decrease the motor speed from f1 to f2 due to the slip The inverter can compensate for this by increasing the output frequency slightly as the load increases The inverter measures the current and increases the output frequency to compensate for the expected slip Without slip compensation With slip compensation M AT Afi 1 fa fi fo fil fouw out M1 Value P1335 0 Slip compensation disabled P1335 50 70 Full slip compensation at cold motor partial load P1335 100 Full slip compensation at warm motor full load Range of slip compensation fout 7b N with slip compensation without eee ee slip compensation fout set 6 10 100 N 6 10 N Notice The applied value of the slip compensation scaled by P1335 is limited by following equation P1 x P1336 7 Tote comp max P1335 Slip comp max 100 r0330 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 105 Parameter Description Issue 10 06 P1336 Slip limit Min 0 CStat CUT Datatype U16 Unit Def 250 P Group CONTROL Active Immediately QuickComm No Max 600 Compensation slip limit in relative to r0330 rated motor slip which is added to frequency setpoint Dependency Slip compensation P1335 active r1337 CO V f slip frequency Min Datatype Float Unit 56 Def P Group CONTROL Max Displays a
171. n vary from min analog setpoint ASPmin to a max analog setpoint ASPmax as shown in P0757 ADC scaling The largest magnitude value without sign of ASPmin and ASPmax defines the scaling of 16384 By associating parameter r0755 with an internal value e g frequency setpoint a scaled value is calculated internally by the MM4 The frequency value is calculated using the following equation r0755 Hex r0755 Hz max ASP max ASP mi r0755 Hz 10755 Hexl 55000 max ASP ASPmin _ 4000 Hex 100 Example Case a ASPmin 300 96 ASPmax 100 then 16384 represents 300 This parameter will vary from 5461 to 16384 Case b ASPmin 200 ASPmax 100 then 16384 represents 200 96 This parameter will vary from 16384 to 8192 4000 h max ASPmax ASPmin 300 ASP min ASP max 100 100 0 0 200 ASP min 200 7FFF h 16383 dez Note This value is used as an input to analog BICO connectors ASPmax represents the highest analog setpoint this may be at 10 V ASPmin represents the lowest analog setpoint this may be at V Details See parameters P0757 to P0760 ADC scaling MICROMASTER 420 Parameter List 54 6SE6400 5BAO00 0BPO Issue 10 06 Parameter Description P0756 Type of ADC Min 0 CStat CT Datatype U16 Unit Def 0 P Group TERMINAL Active first confirm QuickComm No Max 1 Defines type of analog input and also enables analog input monitorin
172. nalog input V P0761 0 5 P0761 0 t Signal loss 10751 es es a 0 t lt P0762 gt d Fault acknowl TA s m F0080 0 t Act ADC after scaling 0755 1 0752 Act input of ADC V Min Datatype Float Unit Def P Group TERMINAL Max Displays smoothed analog input value in volts before the characteristic block ADC channel P0756 P0753 PO757 P0758 P0759 o 0754 1000 n P0761 d o Setpoint O ADO 7 BOG dead 0755 XYP UK type scaling 2 lt ADC r0752 l P0756 0761 P0762 Wire breakage sensing r0722 3 Pxxxx 0 3 9 V P0704 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO b3 Parameter Description Issue 10 06 P0753 Smooth time ADC Min 0 CStat CUT Datatype U16 Unit ms Def 3 P Group TERMINAL Active first confirm QuickComm No Max 10000 Defines filter time PT1 filter in ms for analog input Note Increasing this time smooth reduces jitter but slows down response to the analog input P0753 0 No filtering r0754 Act ADC value after scaling 96 Min Datatype Float Unit 96 Def P Group TERMINAL Max Shows smoothed value of analog input in V6 after scaling block Dependency P0757 to P0760 define range ADC scaling r0755 CO Act ADC after scal 4000h Min Datatype 116 Unit Def P Group TERMINAL Max Displays analog input scaled using ASPmin and ASPmax Analog setpoint ASP from the analog scaling block ca
173. nce damping and frequency limitation Act rotor speed Min Datatype Float Unit 1 min Def P Group CONTROL Max Displays calculated rotor speed based on inverter output frequency Hz x 120 number of poles r0022 1 min r0021 Hz 0313 Note This calculation makes no allowance for load dependent slip CO Act Inv output frequency Min Datatype Float Unit Hz Def P Group CONTROL Max Displays actual output frequency Slip compensation resonance damping and frequency limitation are included MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description r0025 CO Act output voltage Min Datatype Float Unit V Def P Group CONTROL Max Displays rms voltage applied to motor r0026 CO Act DC link volt Min Datatype Float Unit V Def P Group INVERTER Max Displays DC link voltage Mains 200 240 V 380 480 V Ubc_max_trip F0002 410 V 820 V mintrip FO003 205 V 410 V UDC max warn A0502 UDc max 1 P1240 Une comp P1236 0 98 r1242 r0027 CO Act output current Min Datatype Float Unit A Def P Group CONTROL Max Displays rms value of motor current A r0034 CO Motor temperature i2t Min Datatype Float Unit 96 Def P Group MOTOR Max Displays calculated motor temperature 12t model as 9e of the maximum permissible value Note The maximum permissible operating temperature i2t of the motor is
174. ni eAug 2018 G uni o Apeas 101g bz peal 0018 S LL MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 154 Function Diagrams Issue 10 06 027 19 zin 9002 80 91 Mu WOD uo SSN uonounj psawoouossn 0092 998 9 u euJa x3 0 2 v LOZd su sess9 0 yo weba SSN 421 e eL0zd 1210 ulSu MAd SSN ul lt 2 z 1 02d 3 pco DO 024 F H SJojeurejed y 18 1 Sy u JBUBAUOD y O p Juj SUB1 eq 1snul ul u l qzd SSN p40M OJ1UOO y 9 siy 104 pirea Bulag se ejep ssoeooud ay 1deooe ssn JIM J9340AUO9 l 181 OS SSN BIA D AI95 91 Weipa 0 a JO pJOM Zd 15 1 y u 195 eq ISNU OL 18 SSN 910N I ig SG 18s ejep Spg 9 z 0L0zd Linej eule x4 2115 6786 o3u09 enbjo 2118 dooiq g 9jeJpned ssn pejqeue eye1q Od 6018 21 2604 did 8018 ein _ Lug Sad 195 ep 9018 688 BIA Jed eDueu5 0188 saa 198 erp eAUQ pong L Jee g 6018 WOD gt ZPMIO 09 z ig Aouenbey pexi4 2018 16 pexi4 Log 01g ouenbejj pexi4 00118 6001 019 900 SHA UMOP JON J9 jawonuajod 10 1 v Lug dn qON 4 l ulonu qod sojo 2118 uolisi Au lulod1 s SsJ A L LUG OTd WO 04u02 OLE H l oor 6018 IUDU 8018 9602
175. nverter response P1131 Ramp up final rounding time Min 0 00 CStat CUT Datatype Float Unit s Def 0 00 P Group SETPOINT Active first confirm QuickComm No Max 40 00 Defines rounding time at end of ramp up as shown in P1130 ramp up initial rounding time Details See parameter P1130 P1132 Ramp down initial rounding time Min 0 00 CStat CUT Datatype Float Unit s Def 0 00 P Group SETPOINT Active first confirm QuickComm No Max 40 00 Defines rounding time at start of ramp down as shown in P1130 ramp up initial rounding time Details See parameter P1130 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 85 Parameter Description Issue 10 06 P1133 Ramp down final rounding time Min 0 00 CStat CUT Datatype Float Unit s Def 0 00 P Group SETPOINT Active first confirm QuickComm No Max 40 00 Defines rounding time at end of ramp down as shown in P1130 ramp up initial rounding time Details See parameter P1130 P1134 Rounding type Min 0 CStat CUT Datatype U16 Unit Def 0 P Group SETPOINT Active Immediately QuickComm No Max 1 Defines the smoothing which is active by setpoint modifications during acceleration or deceleration e g new setpoint OFF1 OFF3 REV This smoothing is applied if the motor is ramped up or ramped down and P1134 0 P1132 0 P1133 and the setpoint is not yet reached P1132 gt 0 P1133 gt 0 f Setpoint not reached P1134 0 t i
176. nverter type and its rating data MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description Caution N The input of rating plate data must correspond with the wiring of the motor star delta This means if delta wiring is used for the motor delta rating plate data has to be entered IEC Motor U1 U1 W1 W1 Delta connection Star connection e g Volts 230 V Delta connection 400 V Star connection NEMA Motor Connected o i Ta To Te e g Volts 230 V YY low 460 V Y high o l s 2 Connected together high T Ta Ts TeT T T lT T i A P0305 Rated motor current Min 0 01 CStat C Datatype Float Unit A Def 3 25 P Group MOTOR Active first confirm QuickComm Yes Max 10000 00 Nominal motor current A from rating plate see diagram in P0304 Dependency Changeable only when P0010 1 quick commissioning Default value is depending on inverter type and its rating data Depends also on P0320 motor magnetization current Note The maximum value of P0305 depends on the maximum inverter current r0209 and the motor type Asynchronous motor P0305 max asyn r0209 Synchronous motor P0305 max syn 2 0209 It is recommanded that the ratio of P0305 rated motor current and r0207 rated inverter current should not be lower than The absolut minimum value of P0305 is defined as 1 32 times inverter rated current r0207 MICROMASTER 420 P
177. o be set to 99 19 0 ON OFF1 via BOP Dependency Active only when P0719 lt 10 See parameter P0719 Selection of command setpoint source Note OFF1 means a ramp stop down to O using P1121 OFF1 is low active For the priority of all soft commands the following applies OFF2 OFF3 OFF1 P0842 Bl ON reverse OFF1 Min 0 0 CStat CT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Allows ON OFF1 reverse command source to be selected using BICO Normally in this case at a positive frequency setpoint it is getting approached ccw negative frequency setpoint The first three digits describe the parameter number of the command source and the last digit denotes the bit setting for that parameter Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 19 00 ON OFF1 via BOP Details See parameter P0840 MICROMASTER 420 Parameter List 62 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P0844 Bl 1 OFF2 Min 0 0 CStat CT Datatype U32 Unit Def 1 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines first source of OFF2 The first three digits describe the parameter number of the command source and the last di
178. ocess data received via USS on BOP link RS232 USS 20000 r2032 SE P E 8 E EE EE e i 12033 PZD4 i PZD3 PZD2 PZD1 STW2 HSW STW1 P2012 i ZE ST Start of text MEN T eg LGE Length MEN ng i ADR Address PKW Parameter ID value PZD PKW BCC Process data Parameter ADR LGE STX PZD Process data BCC Block check character STW Control word 8 4 USS telegram b HSW Main setpoint USS on BOP link SR PZD mapping to parameter r2015 Index r2015 0 Received word 0 r2015 1 Received word 1 r2015 2 Received word 2 r2015 3 Received word 3 Note The control words can be viewed as bit parameters r2032 and r2033 Restrictions Ifthe above serial interface controls the inverter P0700 or P0719 then the 1st control word must be transferred in the 1st PZD word If the setpoint source is selected via P1000 or P0719 then the main setpoint must be transfered in the 2nd PZD word When P2012 is equal to 4 the additional control word 2nd control word must transferred in the 4th PZD word if the above serial interface controls the inverter P0700 or P0719 MICROMASTER 420 Parameter List 116 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P2016 4 Cl PZD to BOP link USS Min 0 0 CStat CT Datatype U32 Unit Def 52 0 P Group COMM Active Immediately QuickComm No Max 4000 0 Selects signals process data PZD
179. ode number ADR of the received telegram can be evaluated the telegram is rejected if the address byte ADR does not correspond to the node number for slave or the expected slave node number for the master Index r2025 0 Serial interface COM link r2025 1 Serial interface BOP link r2026 2 USS character frame error Min Datatype U16 Unit Def P Group COMM Max Displays number of USS character frame errors Index r2026 0 Serial interface COM link r2026 1 Serial interface BOP link MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 119 Parameter Description Issue 10 06 r2027 2 USS overrun error Min Datatype U16 Unit Def P Group COMM Max Displays number of USS telegrams with overrun error Index r2027 0 Serial interface COM link r2027 1 Serial interface BOP link r2028 2 USS parity error Min Datatype U16 Unit Def P Group COMM Max Displays number of USS telegrams with parity error Index r2028 0 Serial interface COM link r2028 1 Serial interface BOP link r2029 2 USS start not identified Min Datatype U16 Unit Def P Group COMM Max Displays number of USS telegrams with unidentified start Index r2029 0 Serial interface COM link r2029 1 Serial interface BOP link r2030 2 USS BCC error Min Datatype U16 Unit Def P Group COMM Max Displays number of USS telegrams with BCC error Index r2030 0 Serial interface
180. omm No Max 99 Selects function of digital input 4 via analog input Possible Settings O Digital input disabled 1 ON OFF1 2 ON reverse OFF1 3 OFF2 coast to standstill 4 OFF3 quick ramp down 9 Fault acknowledge 10 JOG right 11 JOG left 12 Reverse 13 MOP up increase frequency 14 MOP down decrease frequency 21 Local remote 25 DC brake enable 29 External trip 33 Disable additional freq setpoint 99 Enable BICO parameterization Details See P0701 function of digital input 1 MICROMASTER 420 Parameter List 48 6SE6400 5BAO0 0BPO Issue 10 06 P0719 2 Index Note Selection of cmd amp freq setp CStat CT P Group COMMANDS Datatype U16 Unit Active first confirm Central switch to select control command source for inverter Min O Def 0 Max 67 QuickComm No Parameter Description Switches command and setpoint source between freely programmable BICO parameters and fixed command setpoint profiles Command and setpoint sources can be changed independently The tens digit chooses the command source and the units digit chooses the setpoint source The two indices of this parameter are used for local remote switching The local remote signal switches between these settings The default setting is O for the first index i e normal parameterization is active The second index is for control via BOP i e activating the local remote signal will then switch to BOP
181. onfirm QuickComm No Max 4000 0 Selects the source of the PID feedback signal Common Settings Parameter Fett sen jem BI Enable PID controller 0 PID controller de activated Note When analog input is selected offset and gain can be implemented using parameters P0756 to P0760 P2265 PID feedback filter timeconstant Min 0 00 CStat CUT Datatype Float Unit s Def 0 00 P Group TECH Active Immediately QuickComm No Max 60 00 Defines time constant for PID feedback filter r2266 CO PID filtered feedback Min Datatype Float Unit 96 Def P Group TECH Max Displays PID feedback signal in 96 Note r2266 100 corresponds to 4000 hex P2267 Max value for PID feedback Min 200 00 CStat CUT Datatype Float Unit Def 100 00 P Group TECH Active Immediately QuickComm No Max 200 00 Sets the upper limit for the value of the feedback signal in l Note P2267 100 corresponds to 4000 hex When PID is enabled P2200 1 and the signal rises above this value the inverter will trip with F0222 P2268 Min value for PID feedback Min 200 00 CStat CUT Datatype Float Unit Def 0 00 P Group TECH Active Immediately QuickComm No Max 200 00 Sets lower limit for value of feedback signal in 96 Note P2268 100 corresponds to 4000 hex When PID is enabled P2200 1 and the signal rises below this value the inverter will trip with F0221 MICROMASTER 420 Parameter Lis
182. ons partner Check connection to communication partners and ensure valid control word see A0702 A0703 A0704 F0071 USS BOP link setpoint fault STOP Il Quit Refer to F0001 Cause no setpoint was received via the USS during the telegram off time Diagnosis amp Remedy check USS master MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 181 Faults and Alarms F0072 F0080 F0085 F0101 F0221 F0222 F0422 182 USS COMM link setpoint fault Quit Refer to F0001 Cause no setpoints received via the USS during the telegram off time Diagnosis 8 Remedy check USS master ADC input signal lost Quit Hefer to F0001 Cause wire breakage signal outside the limit values External fault Quit Refer to F0001 Cause external fault as a result of command input via terminals Diagnosis amp Remedy inhibit terminal input to initiate fault Stack overflow Quit Refer to F0001 Cause software error or processor failure Diagnosis amp Remedy carry out self test routines PID feedback below the minimum value Quit Refer to F0001 Cause PID feedback below the minimum value P2268 Diagnosis amp Remedy change value of P2268 set feedback gain PID feedback above maximum value Quit Refer to F0001 Cause PID feedback above maximum value P2267 Diagnosis amp Remedy change value of P2267 set the feedback gain No load applied to inverter
183. ont t ajout s Value 4 Avertissement uniquement temp rature enregistr e lors de la mise hors tension e Value5 7 Avertissement et r duction Imax arr t F0011 temp rature enregistr e lors de la mise hors tension Value67 Avertissement pas r action arr t F0011 temp rature enregistr e lors de la mise hors tension Ces appareils ont d autres possibilit s de r glage et d autres r glages usine Tenir compte des tables de parametres Les versions de software des produits suivants n int grent pas les modifications pour r pondre aux nouveaux standards UL tous les MICROMASTER 3 variants N de r f 6SE32 tous les MICROMASTER 410 N de r f 6SE6410 tous les MICROMASTER 411 N de r f 6SE6411 tous les MICROMASTER 436 N de r f 6SE6436 tous les MICROMASTER MMI CM2 N de r f 6SE96 Ces produits restent inchang s de leur conception d origine et ne sont pas conforme ce nouveau standards UL Bien que ces produits aient toujours le marquage UL les utilisateurs finaux sont maintenant responsables de la mise en place sur le variateur d quipement externe de protection thermique moteur list s Nous recommandons aux utilisateurs externes d utiliser des relais de protection thermique c t moteur de type Siemens Sirius 3RU Plus d informations sur ces relais sont disponibles sous le lien suivant http www automation siemens com mcms ind
184. or ON OFF1 respectively gt see below Power ON Drive ready r0052 Bit00 ON OFF1 d Drive ready to run r0052 Bit01 Pulse enable 1 0 Drive running r0052 2 Ramping finished r0053 Bit09 r0052 Bit03 Drive fault active Output of Bit3 Fault will be inverted on digital output Low Fault High No Fault r0052 Bit08 Deviation setpoint act value gt see parameter P2164 r0052 Bit10 f act gt P1082 f max see parameter P1082 0052 Bit12 Motor holding brake active see parameter P1215 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 23 Parameter Description Issue 10 06 r0052 Bit14 Motor runs right gt see below ON OFF1 r0054 ON Bit00 t Reverse r0054 Bit1 1 Drive running 0052 Bit02 Motor runs right r0052 Bit14 not defined last state is displayed left Details The 7 segment display of the bit parameters binary parameters is explained in the Introduction of the Parameter List r0053 CO BO Act status word 2 Min Datatype U16 Unit Def P Group COMMANDS Max Displays second status word of inverter in bit format Bitfields Bit00 DC brake active 0 NO 1 YES BitO0l f act P2167 off 0 NO 1 YES Bit02 act lt P1080 f min 0 NO 1 YES Brt03 Act current r0027 gt P2170 0 NO 1 YES Bit04 f act gt P2155 f 1 0 NO 1 YES Bit05 act lt P2155 1 O NO 1 YES Bit06 L
185. or the motor frequency The search time is the time taken to search through all frequencies between max frequency P1082 2 x f_slip to O Hz r0330 fmax 2 fslip nom 2 P1082 4 2 100 P0310 fmotor aims bescht au apa 200 21 0330 P1203 PO310 P1203 100 is defined as giving a rate of 2 of f_slip nom ms P1203 200 would result in a rate of frequency change of 1 96 of f slip nom ms Example For a motor with 50 Hz 1350 rpm 100 96 would produce a maximum search time of 600 ms If the motor is turning the motor frequency is found in a shorter time Note A higher value produces a flatter gradient and thus a longer search time A lower value has the opposite effect r1204 CO BO Status vvord Flying start Min Datatype U16 Unit Def P Group FUNC Max Bit parameter for checking and monitoring states during search if V f control mode is selected see P1300 Bitfields Bit00 Current applied 0 NO 1 YES Bit01 Current could not be applied 0 NO 1 YES Bit02 Voltage reduced 0 NO 1 YES Bit03 Slope filter started 0 NO 1 YES Bit04 Current less threshold 0 NO 1 YES B1t05 Current minimum 0 NO 1 YES Bit07 Speed could not be found 0 NO 1 YES Bit08 Flying start active 0 NO 1 YES Bit09 Flying start selected 0 NO YES MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO0 89 Parameter Description Issue 10 06 3 19 Automatic restart P1210 Automatic restart Min 0 CStat
186. ormance is to set ramp times in P1120 and P1121 slightly shorter than those of the PLC Ramp times will be used as follows P1060 P1061 JOG mode is active P1120 P1121 Normal mode ON OFF is active 1060 1061 Normal mode ON OFF and P1124 is active Ramp down time Min 0 00 CStat CUT Datatype Float Unit s Def 10 00 P Group SETPOINT Active first confirm QuickComm Yes Max 650 00 Time taken for motor to decelerate from maximum motor frequency P1082 down to standstill when no rounding is used f Hz H lt ts 3 H t s bn I 1121 dovn rz rees 1121 Setting the ramp down time too short can cause the inverter to trip overcurrent F0001 overvoltage F0002 Ramp times will be used as follows P1060 P1061 JOG mode is active P1120 P1121 Normal mode ON OFF is active P1060 P1061 Normal mode ON OFF and P1124 is active MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 P1124 Parameter Description Bl Enable JOG ramp times Min 0 0 CStat CT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source for switching between jog ramp times P1060 P1061 and normal ramp times P1120 P1121 as applied to the RFG This parameter is valid for normal mode ON OFF only Common Settings Notice 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Dig
187. ossible Settings 134 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command Unit QuickComm Unit No QuickComm No Min Def Max Min Def Max MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P2220 Bl Fixed PID setp select Bit 0 Min 0 0 CStat CT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines command source of fixed PID setpoint selection Bit 0 Common Settings 722 0 Digital input 1 requires PO701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 P2221 Bl Fixed PID setp select Bit 1 Min 0 0 CStat CT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines command source of fixed PID setpoint selection Bit 1 Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO P2222 Bl Fixed PID setp select Bit 2 Min 0 0 CStat CT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines command source of fixed PID setpoint selection Bit 2
188. otor heating especially at standstill MICROMASTER 420 Parameter List 100 6SE6400 5BAO0 0BPO Issue 10 06 Parameter Description P1311 The boost values are combined when continuous boost P1310 used in conjunction with other boost parameters acceleration boost P1311 and starting boost P1312 However priorities are allocated to these parameters as follows P1310 gt P1311 gt P1312 total boost is limited by following equation Mero 97 Ry Ju 73 P0305 P0350 Setting in P0640 motor overload factor limits the boost gt V Boost P0640 P0305 P0350 100 Acceleration boost Min 0 0 CStat CUT Datatype Float Unit Def 0 0 P Group CONTROL Active Immediately QuickComm No Max 250 0 P1311 will only produce boost during ramping and is therefore useful for additional torque during acceleration and deceleration Contrary to P1312 that is only active when an ON command is given p131 1 is active after each acceleration resp deceleration The boost is active if P1311 gt 0 resp if the conditiones given below are fulfilled Applies boost in relative to P0305 rated motor current following a positive setpoint change and drops back out once the setpoint is reached It is activated when the setpoint changes and deactivated when the setpoint is reached V Boost voltage Validity range 0 Boost end fn fmax P1316 PO310 P1082 where voltage values are given P1311 V AccBoost 100 P0305 P03
189. parameter set 0 can only be downloaded in conjunction with the AOP 2 Establish communications between the frequency inverter and AOP 3 The frequency inverter must be selected using the AOP if the AOP is connected at the COM link interface RS485 4 Select the frequency inverter state Ready r0002 1 5 Signal from P0800 0 Do not download 1 Start to download parameter set 0 from the AOP AOP Inverter BI Dwnl par set 0 Parameter set 0 Parameter set 1 Parameter set 9 BOP link l or COM link r0002 1 Drive ready E Transmission of Parameter set 0 from AOP to inverter P0801 BI Download parameter set 1 Min 0 0 CStat CT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines sources of command to start download of parameter set 1 from attached AOP Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO Note See parameter P0800 P0810 Bl CDS bit 0 Local Remote Min 0 0 CStat CUT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No Max 4095 0 Selects command source from which to read Bit O for selecting a command data set CDS Selecting CDS BI CDS b0 loc rem CO BO Act CtriWd1 P081 10054 15 t Changeover
190. play functions gt see parameter r0052 r0053 Motor holding brake see parameter P1215 DC brake gt see parameter P1232 P1233 10747 CO BO State of digital outputs Min Datatype U16 Unit Def P Group COMMANDS Max Displays status of digital outputs also includes inversion of digital outputs via P0748 Bitfields Bit00 Digital output 1 energized 0 NO 1 YES Dependency Bit 0 0 Relay de energized contacts open 1 Relay energized contacts closed P0748 Invert digital outputs Min 0 CStat CUT Datatype U16 Unit Def 0 P Group COMMANDS Active first confirm QuickComm No Max 1 Defines high and low states of relay for a given function Bitfields Bit00 Invert digital output 1 0 NO 1 YES MICROMASTER 420 Parameter List 52 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description 3 8 Analog inputs r0750 Number of ADCs Min Datatype U16 Unit Def P Group TERMINAL Max Displays number of analog inputs available r0751 CO BO Status word of ADC Min Datatype U16 Unit P Group TERMINAL Displays status of analog input Bitfields Bit00 Signal lost on ADC 1 0 NO 1 YES Dependency The following limitations secondary conditions apply for the wire breakage monitoring For P0756 the monitoring must be activated Width of the ADC deadzone P0761 gt 0 Wire breakage signal loss F0080 is detected if the ADC input quantity is less than 0 5 P0761 A
191. plir con los nuevos requisitos se ha actualizado el software de los productos siguientes Software MICROMASTER 420 V1 3 o superior Ref 65E6420 Software MICROMASTER 430 V2 2 o superior Ref 6SE6430 Software MICROMASTER 440 V2 2 o superior Ref 6SE6440 Software SINAMICS G 110 V1 2 o superior Ref 6SL3211 Software SINAMICS G110D V3 6 o superior Ref 65L3511 Software SINAMICS Pool CU 2 V4 6 o superior i CU230P 2 CU240E 2 CU240B 2 G120C CU240D 2 CU250D 2 Software SIMATIC ET200pro FC 2 V4 7 o superior De forma predeterminada estos productos almacenan la temperatura del motor r0034 para SINAMICS G110 y MICROMASTER 420 r0035 para SINAMICS G110D y MICROMASTER 430 440 y reutilizan ese valor al volver a arrancar El par metro P0610 se ha modificado para reflejar este nuevo requisito de la forma siguiente El valor predeterminado del par metro P0610 ahora es 6 y se han a adido los siguientes ajustes e Valor4 5010 aviso sin reacci n sin disparo guardar temperatura al apagar e Valor5 Aviso reducci n Imax disparo F0011 guardar temperatura al apagar e Valor67 X Aviso sin reacci n disparo F0011 guardar temperatura al apagar Estas unidades tienen otros ajustes y valores predeterminados Consulte las listas de par metros pertinentes Los productos siguientes no dispondr n de la actualizaci n de software para cumplir los nuevos requisitos Todas las vari
192. potentiometer MOP setpoint CI Additional setpoint scaling CStat CT Datatype U32 P Group SETPOINT Active first confirm Unit QuickComm No Parameter Description Min 0 0 Def 755 0 Max 4000 0 Min 0 0 Def 1 0 Max 4000 0 Min 0 0 Def 0 0 Max 4000 0 Min 0 0 Def 0 0 Max 4000 0 Min 0 0 Def 1 0 Max 4000 0 Defines source of scaling for additional setpoint to be added to main setpoint Common Settings 1 Scaling of 1 0 100 755 Analog input 1 Setpoint 1024 Fixed Frequency Setpoint 1050 MOP Setpoint r1078 CO Total frequency setpoint Min Datatype Float Unit Hz Def P Group SETPOINT Max Displays sum of main and additional setpoints in Hz r1079 CO Selected frequency setpoint Min Datatype Float Unit Hz Def P Group SETPOINT Max Displays selected frequency setpoint Following frequency setpoints are displayed r1078 Total frequency setpoint P1058 JOG frequency right P1059 JOG frequency left Dependency P1055 BI Enable JOG right or P1056 BI Enable JOG left define command source of JOG right or JOG left respectively Note P1055 0 and P1056 0 gt Total frequency setpoint is selected MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 79 Parameter Description Issue 10 06 P1080 Min frequency Min 0 00 CStat CUT Datatype Float Unit Hz Def 0 00 P Group SETPOINT Active Immediately QuickComm Yes Max 650 00 Sets
193. presses frequencies within P1101 skip frequency bandwidth fout 5 P1101 lt Skip frequency bandwidth fin P1091 Skip frequency Stationary operation is not possible within the suppressed frequency range the range is merely passed through on the ramp For example if P1091 10 Hz and P1101 2 Hz it is not possible to operate continuously between 10 Hz 2 Hz i e between 8 and 12 Hz Skip frequency 2 Min 0 00 CStat CUT Datatype Float Unit Hz Def 0 00 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines skip frequency 2 which avoids effects of mechanical resonance and suppresses frequencies within P1101 skip frequency bandwidth Details P1093 See P1091 skip frequency 1 Skip frequency 3 Min 0 00 CStat CUT Datatype Float Unit Hz Def 0 00 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines skip frequency 3 which avoids effects of mechanical resonance and suppresses frequencies within P1101 skip frequency bandwidth Details P1094 P1101 P1110 82 See P1091 skip frequency 1 Skip frequency 4 Min 0 00 CStat CUT Datatype Float Unit Hz Def 0 00 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines skip frequency 4 which avoids effects of mechanical resonance and suppresses frequencies within P1101 skip frequency bandwidth Details Details See P1091 skip frequency 1
194. ption The parameter description consists of the sections and contents listed below Some of these sections and contents are optional and will be omitted on a case to case basis if not applicable Operators Description Brief explanation of the parameter function Diagram Where applicable diagram to illustrate the effects of parameters on a characteristic curve for example Settings List of applicable settings These include Possible settings Most common settings Index and Bitfields Example Optional example of the effects of a particular parameter setting Dependency Any conditions that must be satisfied in connection with this parameter Also any particular effects which this parameter has on other parameter s or which other parameters have on this one Warning Caution Notice Note Important information which must be heeded to prevent personal injury or damage to equipment specific information which should be heeded in order to avoid problems information which may be helpful to the user More details Any sources of more detailed information concerning the particular parameter The following operators are used in the parameter list to represent mathematical interrelationships Arithmetic operators Addition Subtraction Multiplication Division Comparison operators gt gt lt lt Greater than Greater than equal to Less than Less than equal to Equivalence operators Equa
195. quires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 198 JOG right via BOP Dependency Active only when P0719 lt 10 See parameter P0719 Selection of command setpoint source P1056 Bl Enable JOG left Min 0 0 CStat CT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source of JOG left Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 19 9 JOG left via BOP Dependency Active only when P0719 lt 10 See parameter P0719 Selection of command setpoint source P1058 JOG frequency right Min 0 00 CStat CUT Datatype Float Unit Hz Def 5 00 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Jogging increases the motor frequency by small amounts The JOG buttons uses a non latching switch on one of the digital inputs to control the motor frequency If JOG clockwise jogging clockwise or JOG counter clockwise is selected the speed is increased until the value set in P1058 is reached A0923 A0923 DIN JOG right BOP gt USS BOP link USS COM link CB COM link Dependency P1060 and P1061 set up
196. quunu weed ynejeg e q O 1SquinNd uoreold n y x Dun enea wnwixeyy 77 umuuug ug xen UY 1X9 JOJOWeIed SUENE d uoneujung O suajowesed Dumtae swe Belp uoun ql u pesn sioqui s jo uoneuejdx3 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 145 LO tcc Oct Hd3lSVINOHOIIN in 90028091 N IAJ AO 6 2 a uonoun J 00LL o e 2 e S 2 T m V o LO o o uo od nezuojeulejeg LU LLI 7 o3uoo cu nb s Ka E lt 0122 0022 vu NOD SJo euJeJed 1olouu JO uondepy uonoejoJd pue J010 A dOIN Sn 0076 HE 0192 009Z juiodies Old ull dO oer 4 orsz oogz uoieormuept 101014 041005 geg U SPA 0022 408 J9 011JU09 did 0019 yejsoy Bu lqd 0022 ova juiodies WAS 0009 10 U09 VA Dunpg 001 JON ooz Nod E Buou 0817 0017 0002 BB H Q 99Jnos suonoun julod as see ya ul JOJE NPON 041009 JOJO N 9uueyo 1ulodi s ABojouyos euJaju euJa x3 lt cO 3 LL Function Diagrams Issue 10 06 L 5004 SS004 PPV 8 7001 7001 LEMI PV 8 S004 S004 cDMIEIS 19V Og OO cS004 cS004 VDAME S PV Og OO 0 07114 n lqeu odu I ZG80d 22 9 qeua es ng Ig 2114 OSJOAOH 0 1 e 77 6804 0 01114 440 18 dies Ba
197. r osoz 89 Woy GZd 09 gt 0 z9 vleroed SSN NOO lt dZd 14 S8vSd ul WOO gt O PMID 408 8 en durulg 8 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 147 Issue 10 06 Function Diagrams 222 01 L 122 01 L 0 22 01 A 2201 en dur ug 09 09 027 HALSV NOHOLN zin oooz s09L ueibepuopounj puma 0002 L m9 E a OEA E TER UE jd e j t EE v240d Gen NIG euin 99unoq 04 NIG euin eounoqe e v2Z0d Ga NIG euin 99unoq Lod e Z E 1 gz20d er NIG NdN dNd A ye 14 913 GIy sinduj eubiq S OEH lUI eula x3 619 O 819 yod MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 148 Function Diagrams Issue 10 06 027 H31SVINOHOIIN zin 9002809 s nd no 21619 uonoun4 ps inod pos seoejeju IEN L m E E x 9 Tq e T A jd 5 57 LNO JO 10 18 81 91819 8 s noq H Aul MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 149 Issue 10 06 L 22201 2201 en durulg 09 09 19401 lt 18201 PM 1815 8 y000p 1e9s 0 Giel se 605 eye OGY Function Diagrams 027 HALSV NOHOLN z 9007809 ueibepuopounj ponoay oz 08004 so yeuBis Burue M 01 29 04 sw 00001
198. r Description Issue 10 06 3 3 Inverter parameters HW P0100 Europe North America Min 0 CStat C Datatype U16 Unit Def 0 P Group QUICK Active first confirm QuickComm Yes Max 2 Determines whether power settings e g nominal rating plate power P0307 are expressed in kW or hp The default settings for the nominal rating plate frequency P0310 and maximum motor frequency P1082 are also set automatically here in addition to reference frequency P2000 Possible Settings O Europe kW frequency default 50 Hz 1 North America hp frequency default 60 Hz 2 North America kW frequency default 60 Hz Dependency Where Stop drive first i e disable all pulses before you change this parameter P0100 can only be changed when P0010 1 Commissioning mode via the respective Commissioing interface e g BOP Changing P0100 resets all rated motor parameters as well as other parameters that depend on the rated motor parameters see P0340 calculation of motor parameters Changing P0100 overwrites the settings of the DIP50 60 switch location shown in the diagram below 1 Parameter P0100 has an higher priority than the DIP50 60 switch 2 However after the inverter is powered on again and P0100 2 the DIP50 60 setting will take priority and overwrite P0100 3 The DIP50 60 switch does not have any effect if P0100 2 7 a L P0010 1 yes yes CL O dp O E z
199. r and focuses access to parameters according to the functional group selected Datatype The data types available are shown in the table below Notation Meaning U16 16 bit unsigned U32 32 bit unsigned 116 16 bit integer 132 32 bit integer Float Floating point Active Indicates whether Immediately changes to the parameter values take effective immediately after they have been entered or Confirm the P button on the operator panel BOP or AOP must be pressed before the changes take effect Unit Indicates the unit of measure applicable to the parameter values QuickComm Indicates whether or not Yes or No a parameter can only be changed during quick commissioning i e when P0010 parameter groups for commissioning is set to 1 quick commissioning Min Indicates the minimum value to which the parameter can be set Def Indicates the default value i e the value which applies if the user does not specify a particular value for the parameter Max Indicates the maximum value to which the parameter can be set Level Indicates the level of user access There are four access levels Standard Extended Expert and Service Level 4 parameters are only for service purposes and not visible with BOP AOP The number of parameters that appear in each functional group depends on the access level set in P0003 user access level MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameters 13 Descri
200. r than the min frequency P1080 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 75 Parameter Description r1050 76 CO Act Output freq of the MOP Datatype Float P Group SETPOINT Issue 10 06 Unit Hz Def Displays output frequency of motor potentiometer setpoint Hz 7 5 BOP USS BOP link 2 NEM USS 7777757 COM link 0 CB COM link P1082 F P1080 f Ge oe be SAG 2 b P0719 0 P0700 2 P1000 1 or P0719 1 P0700 2 P0719 0 PO700 1 P1000 1 or P0719 1 P0700 1 or P0719 11 P0719 0 P0700 4 P1000 1 Or P0719 1 P0700 4 Or P0719 41 P0719 0 PO700 5 P1000 1 or P0719 1 P0700 5 or P0719 51 P0719 0 P0700 6 P1000 1 Or P0719 1 PO700 6 Or P0719 61 P0702 13 P0703 14 DIN2 DIN3 DOWN button USS control word USS control word r2032 Bit13 r2032 Bit14 UP button USS control word USS control word r2036 Bit13 r2036 Bit14 CB control word r2090 Bit13 CB control word r2090 Bit14 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description 3 15 JOG P1055 BI Enable JOG right Min 0 0 CStat CT Datatype U32 Unit Def 0 0 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source of JOG right Common Settings 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 re
201. rameters is to set P0012 key to the value in P0011 lock Note A Alternatively set P0010 30 commissioning parameter filter factory setting and P0970 1 factory reset to perform a complete factory reset The default values of P0011 lock and P0012 key are the same P0014 3 Store mode Min 0 CStat UT Datatype U16 Unit Def 0 P Group Active first confirm QuickComm No Max 1 Sets the store mode for parameters volatile RAM or nonvolatile EEPROM Possible Settings O Volatile RAM 1 Nonvolatile EEPROM Index P0014 0 Serial interface COM link P0014 1 Serial interface BOP link P0014 2 PROFIBUS CB Note 1 With the BOP the parameter will always be stored in the EEPROM 2 P0014 itself will always be stored in the EEPROM 3 P0014 will not be changed by performing a factory reset P0010 30 and P0971 1 4 P0014 can be transferred during a DOWNLOAD P0010 29 5 If Store request via USS CB volatile RAM and P001 4 x volatile RAM you can make a transfer of all parameter values into the nonvolatile memory via P0971 6 If Store request via USS CB and P0014 x are not consistent the setting of P14 x store nonvolatile EEPROM has always higher priority Store request via USS CB Value of P0014 x Result EEPROM RAM EEPROM EEPROM EEPROM EEPROM RAM RAM RAM RAM EEPROM EEPROM MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 19
202. rive running Stopping ramping down O1 09 O Dependency State 3 visible only while precharging DC link and when externally powered communications board is fitted User access level Min 0 CStat CUT Datatype U16 Unit Def 1 P Group ALWAYS Active first confirm QuickComm No Max 4 Defines user access level to parameter sets The default setting standard is sufficient for most simple applications Possible Settings O User defined parameter list see P0013 for details on use 1 Standard Allows access into most frequently used parameters 2 Extended Allows extended access e g to inverter I O functions 3 Expert For expert use only 4 Service Only for use by authorized service personal password protected Parameter filter Min 0 CStat CUT Datatype U16 Unit Def 0 P Group ALWAYS Active first confirm QuickComm No Max 22 Filters available parameters according to functionality to enable a more focussed approach to commissioning Possible Settings O All parameters 2 Inverter 3 Motor 7 Commands binary I O 8 ADC and DAC 10 Setpoint channel RFG 12 Drive features 13 Motor control 20 Communication 21 Alarms warnings monitoring 22 Technology controller e g PID Example P0004 22 specifies that only PID parameters will be visible MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P0005 Dependency The parameters
203. rized potentiometer MOP 75 GE 77 Setpoint channel 79 Ramp function generator 84 PVN SS ta anita dida 88 AUTO maceta lalalala 90 Motor ROO Dra Ke sarao 92 DESDE o 94 MICROMASTER 420 Parameter List 6SE6400 5BAO00 0BPO Parameters MICROMASTEH Issue 10 06 3 22 3 23 3 24 3 25 3 25 1 3 25 2 3 25 3 3 25 4 3 26 3 27 3 28 3 29 3 30 3 31 3 32 9 1 9 2 Compound braking nennen nennen 96 WOE elei gel 97 GOTO MOJO adonde 99 VA Control parameters iia 100 IIB COMPENSA EE 105 Kei ele ai lee WEE 106 Ju eet ut ge lianas 107 SOM AUN LE 108 Inverter parameters Modulator 109 Motordata le TE der e In aida dedo 110 Reference parameterg nennen 111 Communication parameters USS CB 113 Faults Alarms asud also daos 125 Technology controller PID controller 132 EE 143 FUNCION BI Lei gl E 145 FAS Alal os usss u b aa a oy 179 Fate mess ugeet ma 179 NE EE 184 ADDFeVIAMHOPS ci pea secede s e 189 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Block Diagram and Terminals 1 Block Diagram
204. rt logs High Byte MSB Low Byte LSB EN Seconds 0 59 Minutes 0 59 EE EE Hours 0 23 Days 1 31 m Month 1 12 Years 00 250 Time is measured from Jan 1st 2000 Values are in binary form Index P2115 0 Real Time Seconds Minutes P2115 1 Real Time Hours Days P2115 2 Real Time Month Year Example P2115 0 13625 P2115 1 2579 P2115 2 516 The conversion into binary quantities U16 results in the following bit pattern Seconds minutes High byte MSB 00110101 corresponding to the number 53 i e seconds 53 Low byte LSB 00111001 corresponding to the number 57 i e minutes 57 Hours days High byte MSB 00001010 corresponding to the number 10 i e hours 10 Low byte LSB 00010011 corresponding to the number 19 i e days 19 Months year High byte MSB 00000010 corresponding to the number 2 i e months 2 Low byte LSB 00000100 corresponding to the number 4 i e years 4 This means that the real time displayed in P2115 is 19 02 2004 10 57 53 P2120 Indication counter Min 0 CStat CUT Datatype U16 Unit Def 0 P Group ALARMS Active Immediately QuickComm No Max 65535 Indicates total number of alarm events This parameter is incremented whenever an alarm event occurs lt also gets incremented when a warning is cleared or faults are cleared This parameter is used by the PC tools MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 127 Para
205. s power cycled it must now retain the motor temperature data for use when power is reapplied The following products have had a software update to comply with the new requirements MICROMASTER 420 software V1 3 or above Order No 6SE6420 MICROMASTER 430 software V2 2 or above Order No 6SE6430 MICROMASTER 440 software V2 2 or above Order No 6SE6440 SINAMICS G110 software V1 2 or above Order No 6SL3211 SINAMICS G110D software V3 6 or above 7 No 6SL3511 SINAMICS Pool CU 2 software V4 6 or above CU230P 2 CU240E 2 CU240B 2 G120C CU240D 2 CU250D 2 e SIMATIC ET200pro FC 2 software V4 7 or above These products now by default store the motor temperature r0034 for SINAMICS 6110 and MICROMASTER 420 r0035 for SINAMICS G110D and MICROMASTER 430 440 and re use this value when power is reapplied Parameter P0610 has been changed to reflect this new requirement as follows The default value of parameter P0610 is now 6 and the following settings have been added e Value 4 Warning Only no reaction no trip save temperature on power down Value5 Warning Imax reduction trip F0011 save temperature on power down e Value6 Warning no reaction trip F0011 save temperature on power down Those units have other settings and default values Please refer to the relevant parameter lists The following products will not have the software update to support the new requirements
206. schalten beibehalten werden Folgende Produkte erf llen die neue Anforderung zum thermischen Motorschutz e MICROMASTER 420 ab Software V1 3 Gestell Nr 6SE6420 MICROMASTER 430 ab Software V2 2 Bestell Nr 6SE6430 MICROMASTER 440 Software V2 2 Bestell Nr 6SE6440 SINAMICS G110 ab Software V1 2 Gestell Nr 65L3211 SINAMICS G110D ab Software v3 6 Gestell Nr 65L3511 SINAMICS Pool CU 2 ab Software V4 6 i CU230P 2 CU240E 2 CU240B 2 G120C CU240D 2 CU250D 2 e SIMATIC ET200pro FC 2 ab Software V4 7 Dabei wird in der Werkseinstellung die Motortemperatur gespeichert r0034 fur SINAMICS G110 und MICROMASTER 420 r0035 fur SINAMICS G110D und MICROMASTER 430 440 und beim Zuschalten der Spannung also nach einem Power Cycle fur die Berechnung der Motortemperatur verwendet Die Anderung wird ber folgende Erweiterung des Parameters P0610 realisiert Neue Einstellmoglichkeiten Wert4 nur Warnung keine Reaktion Temperaturwert beim Ausschalten speichern e Wert5 Warnung Imax reduzieren Abschaltung mit F0011 Temperaturwert beim Ausschalten speichern e Wert6 Warnung keine Reaktion Abschaltung mit F0011 Temperaturwert beim Ausschalten speichern neue Werkseinstellung Bei diesen Geraten gibt es andere Einstellm glichkeiten und Werkseinstellungen Beachten Sie die entsprechenden Listenhandb cher Die folgenden Produkte erf llen die neue Anforderung zum t
207. screened cable length r0231 1 Max allowed screened cable length Notice For full EMC compliance the screened cable must not exceed 25 m in length when an EMC filter is fitted P0290 Inverter overload reaction Min 0 CStat CT Datatype U16 Unit Def 2 P Group INVERTER Active first confirm QuickComm No Max 3 Selects reaction of inverter to an internal over temperature Following physical values influence the inverter overload protection see diagram heat sink temperature inverter t Inverter monitoring Inverter overload reaction control Heat sink temperature f pulse control Possible Settings O Reduce output frequency 1 Trip F0004 2 Reduce pulse frequency and output frequency 3 Reduce pulse frequency then trip F0004 Notice P0290 0 Reduction of output frequency is only effective if the load is also reduced This is for example valid for variable torque applications with a quadratic torque characteristic as pumps or fans A trip will always result if the action taken does not sufficiently reduce internal temperature The pulse frequency P1800 is reduced only if higher than 2 kHz The actual pulse frequency is displayed in parameter r1801 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO T Parameter Description Issue 10 06 P0291 Inverter protection Min 0 CStat CT Datatype U16 Unit Def 1 P Group INVERTER Active Immediately QuickComm No Max 15 Bit 00 for enabling d
208. ses with an increase in motor frequency the PID transducer type should be set to 1 CO PID scaled feedback Min Datatype Float Unit 96 Def P Group TECH Max Displays PID scaled feedback signal in 95 r2273 r2272 100 corresponds to 4000 hex CO PID error Min Datatype Float Unit 96 Def P Group TECH Max Displays PID error difference signal between setpoint and feedback signals in 95 140 r2273 100 96 corresponds to 4000 hex MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P2280 PID proportional gain Min 0 000 CStat CUT Datatype Float Unit Def 3 000 P Group TECH Active Immediately QuickComm No Max 65 000 Allows user to set proportional gain for PID controller The PID controller is implemented using the standard model P2293 7 P2291 Jl P2280 P2285 PID Motor Q 2262 2273 2294 P2267 gt Ge Jl PID feedback r22 2 P2268 gt P2293 For best results enable both P and terms Dependency P2280 0 P term of PID 0 term acts on the square of the error signal P2285 0 I term of PID 0 PID controller acts as a P or PD controller respectively Note fthe system is prone to sudden step changes in the feedback signal P term should normally be set to a small value 0 5 with a faster term for optimum performance P2285 PID integral time Min 0 000 CStat CUT Datatype Float Un
209. setting 2 is selected only those parameters which depend on the parameters in the commissioning menu Quick commissioning P0010 1 are calculated The I O settings are also reset to default and the motor calculations performed P3900 23 When setting 3 is selected only the motor and controller calculations are performed Exiting quick commissioning with this setting saves time for example if only motor rating plate data have been changed Calculates a variety of motor parameters overwriting previous values see parameter P0340 setting P0340 1 P3950 Access of hidden parameters Min 0 CStat CUT Datatype U16 Unit Def 0 P Group ALWAYS Active first confirm QuickComm No Max 255 Accesses special parameters for development expert only and factory functionality calibration parameter r3954 13 CM version and GUI ID Min Datatype U16 Unit Def P Group Max Used to classify firmware only for SIEMENS internal purposes Index r3954 0 CM version major release r3954 1 CM version minor release r3954 2 CM version baselevel or patch r3954 3 GUI ID r3954 4 GUI ID r3954 5 GUI ID r3954 6 GUI ID r3954 7 GUI ID r3954 8 GUI ID r3954 9 GUI ID r3954 10 GUI ID r3954 11 GUI ID major release r3954 12 GUI ID minor release MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 143 Parameter Description P3980 P3981 Possibl Note Commissioning command select
210. srtruction MICROMASTER 420 Parameter List 30 6SE6400 5BAO0 0BPO Issue 10 06 Parameter Description P0210 Supply voltage Min 0 CStat CT Datatype U16 Unit V Def 230 P Group INVERTER Active Immediately QuickComm No Max 1000 Parameter P0210 defines the supply voltage Its default value depends upon the type of inverter If PO210 does not correspond to the supply voltage then it must be modified When P0210 has been modified the following thresholds are changed Vdc_max switch on level 1 15 2 P0210 Compound braking switch on level 1 13 2 P0210 Dependency Optimizes Vdc controller which extends the ramp down time if regenerative energy from motor would otherwise cause DC link overvoltage trips Reducing the value enables controller to cut in earlier and reduce the risk of overvoltage Set P1254 Auto detect switch on levels 0 Cut in levels for Vdc controller and compound braking are then derived directly from P0210 supply voltage Note f mains voltage is higher than value entered automatic deactivation of the Vdc controller may occur to avoid acceleration of the motor An alarm will be issued in this case A0910 Default value is depending on inverter type and its rating data r0231 2 Max cable length Min Datatype U16 Unit m Def P Group INVERTER Max Indexed parameter to display maximum allowable cable length between inverter and motor Index r0231 0 Max allowed un
211. ssary that the ON command is wired via digital input DIN P1210 3 For these settings it is fundamental that the drive only restarts if it has been in a RUN state at the time of the faults F0003 etc The inverter will acknowledge the fault and restarts the drive after a blackout or bronwout It is necessary that the ON command is wired via digital input DIN P1210 4 For these settings it is fundamental that the drive only restarts if it has been in a RUN state at the time of the fault F0003 The inverter will acknowledge the fault and restarts the drive after a blackout or bronwout It is necessary that the ON command is wired via digital input DIN P1210 5 The inverter will acknowledge the faults F0003 etc at power on after blackout and restarts the drive It is necessary that the ON command is wired via digital input DIN P1210 6 The inverter will acknowledge the faults F0003 etc at power on after blackout or brownout and restarts the drive It is necessary that the ON command is wired via digital input DIN Setting 6 causes the motor to restart immediately Following table presents an overview of parameter P1210 and its functionality MICROMASTER 420 Parameter List 90 6SE6400 5BAO0 0BPO Issue 10 06 Parameter Description P1210 Blackout ON always active permanent Fault F0003 on All other faults on Brownout Blackout ON in no voltage condition All faults on Brownout Blackout
212. switching losses than space vector modulation SVM but may cause irregular rotation at very low frequencies Space vector modulation SVM with over modulation may produce current waveform distortion at high output voltages Space vector modulation SVM without over modulation will reduce maximum output voltage available to motor P1803 Max modulation Min 20 0 CStat CUT Datatype Float Unit Def 106 0 P Group INVERTER Active Immediately QuickComm No Max 150 0 Sets maximum modulation index Note P1803 100 Limit for over control for ideal inverter without switching delay P1820 Reverse output phase sequence Min 0 CStat CT Datatype U16 Unit Def 0 P Group INVERTER Active first confirm QuickComm No Max 1 Changes direction of motor rotation without changing setpoint polarity Possible Settings 0 OFF 1 ON Dependency If positive and negative revolution is enabled frequency setpoint is directly used If both positive and negative revolution are disabled reference value is set to zero Details See P1000 select frequency setpoint MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 109 Parameter Description 3 27 P1910 Motor data identification Select motor data identification Min CStat CT Datatype U16 Unit Def P Group MOTOR Active first confirm QuickComm Yes Max Performs a motor data identification Performs stator resistance measuring Possible Settings
213. t QuickComm No Defines source for motor potentiometer setpoint increase frequency Common Settings P1036 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 19 D MOP up via BOP BI Enable MOP DOWN command CStat CT Datatype U32 P Group COMMANDS Active first confirm Unit QuickComm No Defines source for motor potentiometer setpoint decrease frequency Common Settings P1040 722 0 Digital input 1 requires P0701 to be set to 99 BICO 722 1 Digital input 2 requires P0702 to be set to 99 BICO 722 2 Digital input 3 requires P0703 to be set to 99 BICO 722 3 Digital input 4 via analog input requires P0704 to be set to 99 19 E MOP down via BOP Setpoint of the MOP CStat CUT P Group SETPOINT Unit Hz QuickComm No Datatype Float Active Immediately Determines setpoint for motor potentiometer control P1000 1 Min Det Max Min Det Max Min Det Max Note f motor potentiometer setpoint is selected either as main setpoint or additional setpoint the reverse direction will be inhibited by default of P1032 inhibit reverse direction of MOP Tore enable reverse direction set P1032 0 For BOP AOP control P1040 must be greate
214. t Starting boost Programmable V f freq coord 1 Programmable V f volt coord 1 Programmable V f freq coord 2 Programmable V f volt coord 2 Programmable V f freq coord 3 x H E eds pb C E le MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 99 Parameter Description Issue 10 06 3 25 V f control parameters P1310 Continuous boost Min 0 0 CStat CUT Datatype Float Unit Def 50 0 P Group CONTROL Active Immediately QuickComm No Max 250 0 P1310 causes a voltage boost depending on the output frequency see diagran At low output frequencies the output voltage is low to keep the flux level constant However the output voltage may be too low for magnetisation the asynchronous motor to hold the load to overcome losses in the system To compensate these effects the output voltage can be increased using parameter P1310 Defines boost level in 96 relative to P0305 rated motor current applicable to both linear and quadratic V f curves according to the diagram below Linear V f Boost voltage Validity range V conBoost 1 00 0 Boost end fn f max P1316 P0310 P1082 V Quadratic V f Boost voltage Validity range J P0304 V ConBoost 1 00 Boost end fn fmax P1316 P0310 P1082 where voltage values are given P1310 V conBoost 1 00 P0305 P0350 _ V conBoost 1 00 V conBoost 50 2 Note Increasing the boost levels increases m
215. t 6SE6400 5BA00 0BPO 139 Parameter Description Issue 10 06 P2269 P2270 P2271 r2272 Gain applied to PID feedback Min 0 00 CStat CUT Datatype Float Unit Def 100 00 P Group TECH Active Immediately QuickComm No Max 500 00 Allows the user to scale the PID feedback as a percentage value A gain of 100 0 means that feedback signal has not changed from its default value PID feedback function selector Min 0 CStat CUT Datatype U16 Unit Def 0 P Group TECH Active Immediately QuickComm No Max 3 Applies mathematical functions to the PID feedback signal allowing multiplication of the result by P2269 gain applied to PID feedback Possible Settings O Disabled 1 Square root root x 2 Square x x 3 Cube x x x PID transducer type Min 0 CStat CUT Datatype U16 Unit Def 0 P Group TECH Active Immediately QuickComm No Max 1 Allows the user to select the transducer type for the PID feedback signal Possible Settings O Disabled 1 Inversion of PID feedback signal It is essential that you select the correct tranducer type If you are unsure whether 0 or 1 is applicable you can determine the correct type as follows 1 Disable the PID function P2200 0 2 Increase the motor frequency while measuring the feedback signal 3 f the feedback signal increases with an increase in motor frequency the PID transducer type should be 0 4 fthe feedback signal decrea
216. t see P0040 reset energy consumption meter t act t act 0039 Py dt 43 u i cos dt 0 0 Dependency Value is reset when P0040 1 reset energy consumption meter P0040 Reset energy consumption meter Min 0 CStat CT Datatype U16 Unit Def 0 P Group INVERTER Active first confirm QuickComm No Max 1 Resets value of parameter r0039 energy consumption meter to zero Possible Settings O Noreset 1 Heset r0039 to 0 Dependency No reset until P is pressed MICROMASTER 420 Parameter List 22 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description r0052 CO BO Act status word 1 Min Datatype U16 Unit Def P Group COMMANDS Max Displays first active status word of inverter bit format and can be used to diagnose inverter status Bitfields Bit00 Drive ready 0 NO 1 YES Bit01 Drive ready to run 0 NO 1 YES Bit02 Drive running 0 NO 1 YES Bit03 Drive fault active 0 NO 1 YES Bit04 OFF2 active O YES 1 NO Bit05 OFF3 active O YES 1 NO Bit06 ON inhibit active 0 NO YES B1L07 Drive warning active 0 NO 1 YES Bit08 Deviation setpoint act value 0 YES NO Bit09 PAD control 0 NO 1 YES Bit10 Maximum frequency reached 0 NO 1 YES Bit11 Warning Motor current limit YES 1 NO Bit12 Motor holding brake active O0 NO 1 YES Bit13 Motor overload 0 YES 1 NO Bit14 Motor runs right 0 NO 1 YES Bit15 Inverter overload O YES 1 NO Dependency 0052 Bit00 Bit02 State sequence diagram after Power On
217. t to 99 Caution N With the DC braking the kinetic energy of the motor is converted into heat in the motor The drive could overheat if the remains in this status for an exessive period of time DC braking is not possible when using a synchronous motor i e PO300 2 Notice This delay time is set in P0347 demagnetization time If this delay is too short overcurrent trips can occur P1232 DC braking current Min 0 CStat CUT Datatype U16 Unit Def 100 P Group FUNC Active Immediately QuickComm No Max 250 Defines level of DC current in 95 relative to rated motor current P0305 1 P1232 us P0305 r0027pc arake A Be 100 The current of the DC braking is limited by r0067 MICROMASTER 420 Parameter List 94 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P1233 Duration of DC braking Min 0 00 CStat CUT Datatype Float Unit s Def 0 00 P Group FUNC Active Immediately QuickComm No Max 250 00 Defines duration for which DC injection braking is to be active following an OFF1 or OFF3 command Setting this parameter between 0 01 and 250 00 sets the time duration in seconds of the DC injection starting with the OFF1 or OFF3 command Da OFF1 OFF3 t OFF2 f A OFF2 DC braking DC braking active ON OFF1 OFF3 t OFF2 f _ OFF2 DC braking DC braking active Y i The DC current that is impressed during time P1233 is specif
218. tage Min Datatype Float Unit V Def P Group CONTROL Max Displays maximum output voltage V r0071 Vinax Vmax Va MOD max Inverter P0304 Vout Va qM Inverter Motor Field vveakening Dependency The actual maximum output voltage depends on the actual incoming line supply voltage maximum possible output voltage r0071 of the drive inverter is determined by the DC link voltage r0026 and the maximum modulation depth P1803 in the gating unit The maximum output voltage r0071 is tracked with the DC link voltage so that the highest possible value is always and automatically achieved The output voltage only reaches the calculated maximum value under steady state conditions at the rated load n the no load and partial load ranges lower output voltages 0025 are obtained r0078 CO Act current Isq Min Datatype Float Unit A Def P Group CONTROL Max Displays component of torque generating current r0084 CO Act air gap flux Min Datatype Float Unit Def P Group CONTROL Max Displays air gap flux in relative to the rated motor flux r0086 CO Act active current Min Datatype Float Unit A Def P Group CONTROL Max Displays active real part of motor current Dependency Applies when V f control is selected in P1300 control mode otherwise the display shows the value zero MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO 27 Paramete
219. tails oee diagram in P0304 rating plate P0310 Rated motor frequency Min CStat C Datatype Float Unit Hz Def P Group MOTOR Active first confirm QuickComm Yes Max Nominal motor frequency Hz from rating plate Dependency Changeable only when P0010 1 quick commissioning Pole pair number recalculated automatically if parameter is changed Details oee diagram in P0304 rating plate P0311 Rated motor speed Min CStat C Datatype U16 Unit 1 min Def P Group MOTOR Active first confirm QuickComm Yes Max Nominal motor speed rpm from rating plate Dependency Changeable only when P0010 1 quick commissioning Setting O causes internal calculation of value Slip compensation in V f control requires rated motor speed for correct operation Pole pair number recalculated automatically if parameter is changed Default value is depending on inverter type and its rating data Required for vector control and V f control with speed controller Details See diagram in P0304 rating plate Issue 10 06 0 01 0 12 2000 00 0 000 0 000 1 000 0 0 0 0 99 9 12 00 50 00 650 00 0 0 40000 MICROMASTER 420 Parameter List 36 6SE6400 5BA00 0BP0 Issue 10 06 Parameter Description r0313 Motor pole pairs Min Datatype U16 Unit Def P Group MOTOR Max Displays number of motor pole pairs that the inverter is currently using for internal calculations V
220. tat CUT Datatype Float Unit Def 20 0 P Group CONTROL Active Immediately QuickComm No Max 100 0 Defines point at which programmed boost reaches 50 96 of its value This value is expressed in 95 relative to P0310 rated motor frequency The default frequency is defined as follows Boost min 2 5 3 y P motor Note expert user may change this value to alter the shape of the curve e g to increase torque at a particular frequency Default value is depending on inverter type and its rating data Details See diagram in P1310 continuous boost MICROMASTER 420 Parameter List 102 6SE6400 5BA00 0BP0 Issue 10 06 Parameter Description P1320 Programmable V f freq coord 1 Min 0 00 CStat CT Datatype Float Unit Hz Def 0 00 P Group CONTROL Active Immediately QuickComm No Max 650 00 Sets V f coordinates P1320 1321 to P1324 1325 to define V f characteristic V Ma r0071 Vn P0304 WEINS P1323 H P1321 Eun P1310 fo f f2 3 fn fmax f 0 Hz P1320 P1322 P1324 P0310 P1082 P1310 r0395 9 P1310 V 100 100173 PO304 V Example This parameter can be used to provide correct torque at correct frequency and is useful when used with synchronous motors Dependency To set parameter select P1300 3 V f with programmable characteristic Note Linear interpolation will be applied between the individual data points V f with programmable characteristic P1300
221. tator resistance line to line P0611 Motor l2t time constant P1253 Vdc controller output limitation P1316 Boost end frequency P2000 Reference frequency P2002 Reference current P0344 Motor weight Min 1 0 CStat CUT Datatype Float Unit kg Def 9 4 P Group MOTOR Active Immediately QuickComm No Max 6500 0 Specifies motor weight kg Note This value is used in the motor thermal model t is normally calculated automatically from P0340 motor parameters but can also be entered manually Default value is depending on inverter type and its rating data P0346 Magnetization time Min 0 000 CStat CUT Datatype Float Unit s Def 1 000 P Group MOTOR Active Immediately QuickComm No Max 20 000 Sets magnetization time s i e waiting time between pulse enable and start of ramp up Motor magnetization builds up during this time Magnetization time is normally calculated automatically from the motor data and corresponds to the rotor time constant r0384 Note 38 If boost settings are higher than 100 magnetization time may be reduced Default value is depending on inverter type and its rating data An excessive reduction of this time can result in insufficient motor magnetization MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P0347 Demagnetization time Min 0 000 CStat CUT Datatype Float Unit s Def 1 000 P Group MOTOR Active Immediately QuickComm No Max 20 000
222. ter Act DAC value mA Min Datatype Float Unit Def P Group TERMINAL Max Shows value of analog output in mA after filtering and scaling Permit absolute value Min 0 CStat CT Datatype U16 Unit Def 0 P Group TERMINAL Active first confirm QuickComm No Max 1 Decides if the absolute value of the analog output is used If enabled this parameter will take the absolute value of the value to be outputed If the value was originally negative then the corresponding bit in r0785 is set otherwise it is cleared Possible Settings 0 OFF 1 ON Type of DAC Min 0 CStat CT Datatype U16 Unit Def 0 P Group TERMINAL Active first confirm QuickComm No Max 0 Defines type of analog output Possible Settings Note 98 O Current output The analog output is designed as a current output with a range of 0 20 mA For a voltage output with a range of 0 10 V an external resistor of 500 Ohms has to be connected at the terminals 12 13 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P0777 Value x1 of DAC scaling Min 99999 0 CStat CUT Datatype Float Unit Def 0 0 P Group TERMINAL Active first confirm QuickComm No Max 99999 0 Defines x1 output characteristic in 76 Scaling block is responsible for adjustment of output value defined in P0771 DAC connector input Parameters of DAC scaling block P0777 P0781 work as follows Output sign
223. to the drive 2 Press the amp button on the BOP or AOP 3 Via Digital Input 3 default setting Fault messages are stored in parameter r0947 under their code number e g F0003 3 The associated error value is found in parameter r0949 The value 0 is entered if a fault has no error value lt is furthermore possible to read out the point in time that a fault occurred r0948 and the number of fault messages P0952 stored in Parameter r0947 Overcurrent STOP II Quit Remove fault and reset fault memory by disconnecting the drive converter from the line supply and powering up again Press the Fn key on the BOP or AOP Acknowledge fault P2103 P2104 P0952 complete fault memory short circuit at the output ground fault excessively large motor the motor power rating P0307 is greater than the inverter power r0206 defective final stage end stage Diagnosis amp Remedy F0002 Please check the following are the cable lengths within the limit values does the motor cable or motor have either a short circuit or ground fault do the motor parameters correspond to those of the motor being used is the motor overloaded or stalled locked rotor increase the accelerating time reduce the gain use a motor with a lower power rating is the stator resistance value P0350 correct Overvoltage STOP Il Quit Refer to F0001 Cause link voltage r0026 higher than the overvo
224. tor r0330 The rated slip frequency can be calculated using the following formula tampa 29990 pag g Tim y 100 Nsyn The following closed loop control parameters should be observed in conjunction with the motor holding brake P1310 P1311 P1333 P1335 for U f P1216 Holding brake release delay Min 0 0 CStat T Datatype Float Unit s Def 1 0 P Group FUNC Active first confirm QuickComm No Max 20 0 Defines the brake opening time of the motor holding brake MHB When the motor holding brake P1215 is activated then the setpoint enable is delayed by the selected time The time that it takes to open the mechanical brake is subject to certain fluctuations This is the reason that the drive inverter applies the min frequency P1080 to the motor during this time This means that the brake can reliably open before the motor starts P1216 x Release time of the brake relay opening time s Details See parameter P1215 P1217 Holding time after ramp down Min 0 0 CStat T Datatype Float Unit s Def 1 0 P Group FUNC Active first confirm QuickComm No Max 20 0 Defines the brake delay time of the motor holding brake MHB When the motor holding brake P1215 is activated after an off command the pulse inhibit is delayed by this selected time The time that it takes to open the mechanical brake is subject to certain fluctuations This means that after braking to the min frequency P1080 the motor is held at the minimum fr
225. u yu 19 0 1 8780d 402 2 44 L 4185 eouenbes O 1 61 Sv80d 0 cd uonoejes Sor ns cddO 16 0 0 ev80d 95 9491 ddO NO lg 13 I8 027 HALSV NOHOLN z 9007809 welbeip uonoun J pseAe o 216 0021 did C y zul 9 1ndino qiq 15v 09 GL E C 80H ZH dee be 101 09 00 S 6S0Ld ZH 00 0S9 00 0 gt fouanbal DOF 00 S 8S0Id ZH 00 0S9 00 0 lt Ffouanbal sjuiod as euJeju pue eula x3 jo uon599uuoo an dOW dld 18 0 0 00224 0805 HP did deua 18 Z Wa lt dles 0116 0 992 did 0 0 D SE des giqrpexi 02 Leed 49eqpaa did 19 ugq lt dies Old lg 0 0 0 0 22 02224 901108 ulu 1410 0 Na lt dies gid ig 0 0 EGZZd juiodies ld 10 0 SSZ 020 ci ZH 44 19V 02 luiod18s UI 10 L Wa 195 44 4 0 0 0201 Eos dies uley 10 0 18 18S 44 19 0 0 2 14 Sen 1 6 dies ppe gesiq 1g cold 0 L 970 Ld izh basy dino O eos dies ppy 2 0 0 9 014 dON D juiodjes ppv 19 00 990ld gt au 16 00 SS0ld lt 9 dqeu3 18 NMQ dON alqeuz 19 2629 4 8 ssn dOd gt 1 8 0 9 r 19024 g9 01 dZd 19 16034 8 gt cPMIIO O xutl INOO go 89 DM 08
226. ug paxiJ z ug paxiJ 184 pexiJ 0 ug p xi 2907 0 ug 500 UMOP JON 189189uuollu lod 4101014 dn JON 1819uuollu lod 1010 A UOISJOAU 1U10d19 S O ld W014 Olio ye DOF lu u Sor eBpe wouyoe UE jqeu 1uiodiesS uelis 9 qeue es ngd 0019 1884 4JO dois 82110913 244O LHJO NO 027 HALSV NOHOLN z 9007809 welbeip uonoun J psa goguossn oosz 0 21 v LOZd su sess9 HO weba SSN 421 z eLozd 12150 ulBu MAd SSN ul lt z 212102 d 7 HOM QZd r H sJ9 9UIeJed 181 OU u JOUBAUOD y O p u Sue1 eq 1snuu ulBu l qza SSN p4OM OJ1UOO By 09 siy JOY piena Bulag uoneunByguoo se ejep ssoeooud ay 149206 ssn o z LLOzd IW u 181 OS SSN BIA P AH weba 1670 y JO pJOM Zd ISA y U 195 eq ISNU OL Ug ssn 1ON Glu 9 z 0LOZd erg 6 c Hg 9jeJpneg SSN Leg Se 91 2604 Gold L Ziq 6018 dO8 gt cPMIHO 8 cold Lorg 0018 Glug vig e q Leg org 6018 8018 2802 ZU dog gt LPMIMO Og xis 397 dav ol z ie 999 Goud voug 9AI929H axy 6018 cold 1018 0018 Wu dog uo SSN 500 eula x3 MICROMASTER 420 Parameter List 6SE6400 5BA00 0BP0 153 027 HALSV N
227. unj veaos onc 409 Jeueg 101eJedQ oiseg S OEH lu eula x3 e 2 9 sS t 6 2 ff tp 4 NO H3MOd 13S z 13838 uoud 2 dog 1101 L 6100 440 2440 1H3O NO IV 6100 PMID 408 8 O puewwo 19S 13S 13838 uoud S dOg wou uollelol g 6100 JO uonoeup AN SOd g 6100 408 08 Ke dsip juaubes U A S JO uonenjioy SJojouJeJed ssoooy RK juawsbpa mouyoe line ulo1s s Burejado o y dog Wo4 19 9w01 z 61001 U Od JOJOW 19M0 3 61004 PMH dO8 Og OO dog W04 6100 onu lod 10 0W asIey C q 610041 61001 PMID 408 8 S e snjejs uoneJedo au ul si jun y pue y 3 660 ay ui eoe d uaye seu ejdsip enjeA ay O sanoaBueyo e pajoajes 51 00004 Aeidsip Bunesado aui J juo s s ay JAMO pue asie ay JO UOIeAnoy uonejedo pue pajoajas SJON 00004 eldsip Bunesado 104002 eouenbes jo DOO Kay 1 M07 Kay wes6olg Ae por Ae 430 y NO K y Buisi A ti Kay K y asiey Keyds p jJu ui6B s u A 8s dOg eued 101eJedo oiseg MICROMASTER 420 Parameter List 6SE6400 5BAO00 0BPO 152 Function Diagrams Issue 10 06 118 SGD 18s elep puewwog ne peusayxy ojuo9 nbio dooiq p lqeu axe1q Oq p lqeu Id I ug Sad 19S gep eAuq 0 ug SQQ 199 gep eAug
228. ustrial controls en protection equipment overload relays pages default aspx A5E31674145_A SINAMICS SIMATIC and MICROMASTER inverters 3 Product Information A5E31674145A Edition 08 2013 Italiano Modifiche della funzione di protezione termica del motore dei convertitori di frequenza MICROMASTER SIMATIC e SINAMICS In data 9 novembre 2010 Underwriters Laboratories Inc UL ha rivisto lo standard per la sicurezza delle apparecchiature di conversione di potenza safety of power conversion equipment che si applica ai convertitori di frequenza Siemens Queste modifiche della norma sono entrate in vigore il 9 maggio 2013 Le variazioni riguardano le caratteristiche della protezione software del motore offerte dal convertitore di frequenza quando quest ultimo viene spento e riacceso deve ora memorizzare dati termici del motore per riutilizzarli al momento della riaccensione prodotti seguenti hanno implementato un aggiornamento del software per conformarsi ai nuovi requisiti normativi MICROMASTER 420 software V1 3 o successiva n di ordinazione 6SE6420 MICROMASTER 430 software V2 2 o successiva n di ordinazione 6SE6430 MICROMASTER 440 software V2 2 o successiva n di ordinazione 6SE6440 SINAMICS G1 10 software V1 2 o successiva n di ordinazione 6SL3211 SINAMICS G1 10D software V3 6 o successiva n di ordinazione 6SL3511 SINAMICS Pool CU 2 software V4 6 o successiva CU23
229. uts BICO Details See P1020 fixed frequency selection Bit 0 for most common settings r1024 CO Act fixed frequency Min Datatype Float Unit Hz Def P Group SETPOINT Max Displays sum total of selected fixed frequencies MICROMASTER 420 Parameter List 74 6SE6400 5BA00 0BP0 Issue 10 06 3 14 P1031 Note P1032 Motorized potentiometer MOP Setpoint memory of the MOP CStat CUT Datatype U16 P Group SETPOINT Active Immediately Unit QuickComm No Parameter Description Min 0 Def 0 Max 1 Saves last motor potentiometer setpoint MOP that was active before OFF command or power down Possible Settings O MOP setpoint will not be stored 1 MOP setpoint will be stored P1040 is updated On next ON command motor potentiometer setpoint will be the saved value in parameter P1040 setpoint of the MOP Inhibit negative MOP setpoints CStat CT Datatype U16 P Group SETPOINT Active first confirm Unit QuickComm No This parameter suppresses negative setpoints of the MOP output r1050 Possible Settings Note P1035 0 Neg MOP setpoint is allowed 1 Neg MOP setpoint inhibited Min Def Max The reversing functions e g BOP Reverse button if P0700 1 are not affected by the settings of P1032 Use P1110 to fully prevent change of direction in setpoint channel BI Enable MOP UP command CStat CT Datatype U32 P Group COMMANDS Active first confirm Uni
230. x 4000 0 Defines source of digital output 1 DOUT channel Invert DOUTs ad int 24 V P0748 0 CO BO State DOUTs max 100 mA KI 8 BI Fct of DOUT 1 Function P0731 xxxx y NO 1 KI 10 Relay max load capability DC30V 5A KI 9 AC250 V 2A max opening closing time 5 10 ms Common Settings 52 0 Drive ready 52 1 Drive ready to run 52 2 Drive running 52 3 Drive fault active 52 4 OFF2 active 52 5 OFFS active 52 6 Switch on inhibit active 52 7 Drive warning active 52 8 Deviation setpoint actual value 52 9 PZD control Process Data Control 52 A Maximum frequency reached o2 B Warning Motor current limit 52 C Motor holding brake MHB active Closed o2 D Motor overload Closed 0 Closed 0 0 0 1 1 0 0 1 0 0 1 0 1 52 E Motor running direction right 0 Closed 1 0 0 0 0 0 0 0 0 0 0 0 Closed Closed Closed Closed Closed Closed Closed Closed Closed Closed Closed 52 F Inverter overload Closed 53 0 brake active Closed 53 1 Act freq f_act gt P2167 f_off Closed 53 2 Act freq f act P1080 f min Closed 53 3 Act current r0027 gt P2170 Closed 53 4 Act freq f act gt P2155 f_1 Closed 53 5 Act freq f_act lt P2155 f_1 Closed 53 6 Act freq f_act gt setpoint Closed 53 7 Act Vdc 0026 P2172 Closed 53 8 Act Vdc 0026 gt P2172 Closed 53 A PID output r2294 P2292 PID_min Closed 53 B PID output r2294 P2291 PID max Closed Details Dis
231. y activated on the next ON command MICROMASTER 420 Parameter List 6SE6400 5BA00 0BPO Issue 10 06 Parameter Description P2201 Fixed PID setpoint 1 Min 200 00 CStat CUT Datatype Float Unit Def 0 00 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 1 There are three options available for selection of the PID fixed setpoints 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command 1 Direct selection P0701 PO706 15 n this mode of operation 1 digital input selects one PID fixed setpoint f several inputs are active together the selected setpoints are summed E g PID FF1 PID FF2 PID FF3 2 Direct selection ON command P0701 P0706 16 n this mode of operation the PID fixed setpoints are combined with an ON command Description as for 1 except that this type of selection issues an ON command concurrent with any setpoint selection f several inputs are active together the selected setpoints are summed E g PID FF1 PID FF2 PID FF3 3 Binary coded selection ON command P0701 P0706 17 Using this method to select the fixed PID setpoint FF PID allows you to choose up to 8 different PID setpoints The setpoints are selected according to the following table Example Binary coded selection DINS DIN2 DIN o Porro o o 9 P2201 PID FF1 O 1 P2202 PID F
232. y buffered real time clock RTC The frequency inverters can support a software controlled RTC where the RTC must be set from the AOP or via an interface When using the AOP this synchronization is automatic When a serial interface is used a task must be sent from the higher level control to write into the parameter If the AOP is withdrawn during operation or if the bus is interrupted then the real time clock runs further using the runtime counter The real time clock is reset to zero only after power off The time is stored in a word array parameter P2115 This parameter number is common to all invertes Inverters not supporting this feature would respond with parameter not recognised a Master will ignore this The time will be set by USS Protocol standard word array parameter write telegrams Within the AOP while it is acting as a USS Master at each tick of the heartbeat the list of available USS Slaves will be flagged with a time update request As the Master runs around the list of USS slaves on its next USS update cycle if there are no higher priority tasks to perform and the slave still has its time update flag set then an array parameter write telegram will be issued containing the current time The request for that slave is cancelled if the slave responds correctly The AOP will not need to read the time from the slave Time is maintained in a word array parameter and encoded as follows the same format will be used in fault repo
233. zation time P0347 Demagnetization time P1335 Slip compensation P1336 Slip limit P0320 Motor magnetizing current P0330 Rated motor slip P0331 Rated magnetization current P0332 Rated power factor P0384 Rotor time constant P1200 P1202 P1203 Flying start P1230 P1232 P1233 DC braking MICROMASTER 420 Parameter List 6SE6400 5BAO0 0BPO 33 Parameter Description Issue 10 06 P0304 Rated motor voltage Min 10 CStat C Datatype U16 Unit V Def 230 P Group MOTOR Active first confirm QuickComm Yes Max 2000 Nominal motor voltage V from rating plate Following diagram shows a typical rating plate with the locations of the relevant motor data P0310 P0304 S E Wi el N S 3 Mot 1LA70964 4AAT0 lt gt m E0107 471101 01 001 IEC EN 60034 D 91054 Erlangen 16kg IMB3 0901 IP55 Th CLF B Hz 230 400 V A Y 60 Hz 460 VA E 1 5 kW 5 9 3 4 A 1 75 kW 3 4 A 0 81 1420 min cosp 0 81 1720 min 220 24c 380 42 v re 440 480 VA 6 2 5 4 1 6 2 2 3 6 3 3 A P0306 P0311 Line supply voltage 1 AC 110V 1AC230V 3AC230V 3AC400V 3AC 500 V MICROMASTER 410 x 1 X J 11 _ MICROMASTER 411 1 X J Line supply voltage 1 ph 110 V AC is stepped up gt frequency inverter output voltage 3 ph 230 V AC Dependency 34 Changeable only when P0010 1 quick commissioning Default value is depending on i
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