MICROMASTER 430
Contents
1. 0 1 POVVER ON POVVER ON ndex P2840 0 Binector input Set P2840 1 Binector input Reset Dependency P2801 14 is active level for the RS FlipFlop 2841 BO Q RS FF 1 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays output of RS FlipFlop 1 inputs are defined in P2840 0 P2840 1 Dependency P2801 14 is active level for the RS FlipFlop r2842 BO NOT Q RS FF 1 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays Not output of RS FlipFlop 1 inputs are defined in P2840 0 P2840 1 Dependency P2801 14 is active level for the RS FlipFlop P2843 2 BI RS FF2 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2843101 P2843 1 define inputs of RS FlipFlop 2 outputs are P2844 P2845 Index P2843 0 Binector input Set P2843 1 Binector input Reset Dependency P2801 15 is active level for the RS FlipFlop r2844 BO Q RS FF 2 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays output of RS FlipFlop 2 inputs are defined in P2843 0 P2843 1 Dependency P2801 15 is active level for the RS FlipFlop 12845 BO NOT Q RS FF 2 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays Not output of RS FlipFlop 2 inputs are defined in P2843 0 P2843 1 Dependency P2801 15 is active level2. P1015131 Fixed frequency 15 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 65 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 15 Index P1015 0 1st Drive data set DDS P1015 1 2nd Drive data set DDS P1015 2 3rd Drive data set DDS Details See parameter P1001 fixed frequency 1 P1016 Fixed frequency mode Bit 0 Min 1 Level CStat CT Datatype U16 Unit Def 1 3 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 Settings 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command Details See table in P1001 fixed frequency 1 for description of how to use fixed frequencies P1017 Fixed frequency mode Bit 1 Min 1 Level CStat CT Datatype U16 Unit Def 1 3 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 Settings 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command Details See table in P1001 fixed frequency 1 for description of how to use fixed frequencies P1018 Fixed frequency mode Bit 2 Min 1 Level CStat CT Datatype U16 Unit Def 1 3 P Group SETPOINT Active fir
3. P0844131 Bl 1 OFF2 Min 0 0 Level CStat CT Datatype U32 Unit Def 1 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines first source of OFF2 when P0719 0 BICO The first three digits describe the parameter number of the command source and the last digit denotes the bit setting for that parameter 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 19 0 ON OFF1 via BOP 19 1 OFF2 Electrical stop via BOP Index P0844 0 1st Command data set CDS P0844 1 2nd Command data set CDS P0844 2 3rd Command data set CDS Dependency Active only when P0719 0 remote selection of command setpoint source If one of the digital inputs is selected for OFF2 the inverter will not run unless the digital input is active Note OFF2 means immediate pulse disabling the motor is coasting OFF2 is low active i e 0 Pulse disabling 1 Operating condition P0845 3 BI 2 OFF2 Min 0 0 Level CStat CT
4. BI CDS bit 1 CO BO Add CtrlWd co Bl CDS b0 loc rem CO BO Act CtrlVVd1 1 0 0 0 t Switch over time CDS active A hu aprox 4 ms r0050 3 1 0 t The actual active command data set CDS is displayed in parameter r0050 selected active CDS CDS r0055 r0054 r0050 Bit15 Bit15 1 CDS 0 0 0 2 CDS 0 1 1 3 CDS 1 0 2 3 CDS 1 1 2 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 Note P0811 is also relevant for command data set CDS set selection P0811 BI CDS bit 1 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 2 P Group COMMANDS Active first confirm QuickComm No Max 4095 0 Selects command source from which to read Bit 1 for selecting a command data set see P0810 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
5. dog Woy J9jeuon 3 6100 uejod Jojow samo lt 36100 dog woy onuejod Jojoui asiey snjejs uoneJedo eu ui S jun ayy pue y 9 660 u y m eoejd uje seu Aejdsip anjea ay 0 JanoaBueyo e pajoajas 51 00004 Aejdsip Bune1edo ay ji8 n29jJe Auo s sey Jamo pue esie ay jo uoneAnov 8 On 1onuoo eouenbes 1 uone1edo pue papajas 00004 Aejdsip unes do 409 pued Jojesado olseg 2 4 lued Joyesado o1seq seoeyeju 2 Key 1901 Koy Kay oyny Ae pueH Ae aj6Bo 1 oy asiey Aeydsip juauwBas uanas MICROMASTER 430 6SE6400 5AF00 0BPO Parameter List 174 Function Diagrams Issue 03 02 oer 19 oza 20021006 weiSeip raar pl NES A E me 1 qoum ced oq beurdino dOW 02 1 Z OLd 170 2819491 GOW OU lonuoo nIEA es indino JON 0 0 LeOld 00 S q0Y Ld LO zH 007099 00 099 joujeui d s dON jutodjes JOIN dOn 2819 ujonuejod JOJO 9oJnog 1uiodjeg EU 0009 0728014 ZH 007099 0070 XE NMQ dON lqeuz ig V 6L O S 0Ld lqeuzi 19 MICROMASTER 430 Parameter List 175 6SE6400 5AF00 0BPO Issue 03 02 Function Diagrams DC H3I1SVINOMNOIIN OCA 2002 10 0 7201 dd 19v 09 p poo yq 130 bay pasn jou yndyno uonoejes 4441 0 pesn indino uonoejes 34 il ueJBeip
6. BHoOHOHOHOHOHOHOHOHOHOHOHOH mHmM O mo See description of seven segment display given in the Introduction to MICROMASTER System Parameters in this manual Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters r0055 CO BO Add act control vvord Min Level Datatype U16 Unit Def 3 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 AB YES Bit01 Fixed frequency Bit 1 0 NO YES Bit02 Fixed frequency Bit 2 0 NO YES Bit03 Fixed frequency Bit 3 0 NO YES Bit04 Drive data set DDS Bit 0 0 NO Il YES Bit05 Drive data set DDS Bit 1 0 NO YES Bit08 PID enabled 0 NO YES Bit09 DC brake enabled 0 NO 3H YES Bit11 Droop 0 NO 1 YES Bit12 Torque control 0 NO 1 YES Bit13 External fault 1 0 YES 1 NO Bit15 Command data set CDS Bit 1 0 NO 1 YES Details See description of seven segment display given in the Introduction to MICROMASTER System Parameters in this handbook r0056 CO BO Status of motor control Min Level Datatype U16 Unit Def 3 P Group CONTROL Max Displays status of motor control MM420 V f status which can be used to diagnose inverter status Bitfields Bit00 Init control finished 0 NO 1H YES Bit01 Motor demagnetizing finished 0 NO YES Bit02 Pulses en
7. Lower limit threshold value 2 for comparing actual torque Index P2188 0 1st Drive data set DDS P2188 1 2nd Drive data set DDS P2188 2 3rd Drive data set DDS Details See P2182 belt threshold frequency 1 P2189 3 Upper torque threshold 3 Min 0 0 Level CStat CUT Datatype Float Unit Nm Def 99999 0 3 P Group ALARMS Active Immediately QuickComm No Max 99999 0 Upper limit threshold value 3 for comparing actual torque Index P2189 0 1st Drive data set DDS P2189 1 2nd Drive data set DDS P2189 2 3rd Drive data set DDS Details See P2182 belt threshold frequency 1 P2190 3 Lower torque threshold 3 Min 0 0 Level CStat CUT Datatype Float Unit Nm Def 0 0 3 P Group ALARMS Active Immediately QuickComm No Max 99999 0 Lower limit threshold value 3 for comparing actual torque Index P2190 0 1st Drive data set DDS P2190 1 2nd Drive data set DDS P2190 2 3rd Drive data set DDS Details See P2182 belt threshold frequency 1 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 131 Parameters Issue 03 02 P2192 3 Time delay for belt failure Min 0 Level CStat CUT Datatype U16 Unit s Def 10 3 P Group ALARMS Active Immediately QuickComm No Max 65 P2192 defines a delay before warning trip becomes active It is used to eliminate events caused by transient conditions It is used for both methods of fault detectio
8. Allows user to set proportional gain for PID controller The PID controller is implemented using the standard model P2280 P2285 Motor control setpoint PID feedback For best results enable both P and terms Dependency If P term term acts on the square of the error signal If term 0 PID controller acts as a P or PD controller respectively Note If the 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 The D term P2274 multiplies the difference between the present and previous feedback signal thus accelerating the controller reaction to an error that appears suddenly Notice The D term should be used carefully since it can cause the controller output to fluctuate as every change in the feedback signal is amplified by the controller derivative action P2285 PID integral time Min 0 000 Level CStat CUT Datatype Float Unit s Def 0 000 2 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 Level CStat CUT Datatype Float Unit 96 Def 100 00 2 P Group TECH Active Immediately QuickComm No Max 200 00 Sets upper limit for PID controller output in 96 Dependency If F max P1082 is greater than P2000 referenc
9. Control bit 0 for enabling disabling automatic pulse frequency reduction at output frequencies below 2 Hz Bit 2 shows if phase loss dedection input phase of 3 phase inverters is enabled after factory reset Default setting of phase loss is disabled for FSA FSC FSD and greater it is enabled Bitfields Bit00 Pulse frequency reduced belov 2Hz 0 NO 1 YES Bit01 Reserved 0 NO 1 YES Bit02 Phase loss detection enable 0 NO 1 YES ndex P0291 0 1st Drive data set DDS P0291 1 2nd Drive data set DDS P0291 2 3rd Drive data set DDS Details See P0290 inverter overload reaction P0292 Inverter overload warning Min 0 Level CStat CUT Datatype U16 Unit C Def 15 3 P Group INVERTER Active first confirm QuickComm No Max 25 Defines temperature difference in C between inverter over temperature trip and warning thresholds P0295 Inverter fan off delay time Min 0 Level CStat CUT Datatype U16 Unit s Def 0 3 P Group TERMINAL Active first confirm QuickComm No Max 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 P0304 3 Rated motor voltage Min 10 Level CStat C Datatype U16 Unit V Def 230 1 P Group MOTOR Active first confirm QuickComm Yes Max 2000 Nominal motor voltage V from rating plate Following diagram shows a typical rating
10. 2nd Drive data set DDS r0384 2 3rd Drive data set DDS r0395 CO Total stator resistance Min Level Datatype Float Unit Def 3 P Group MOTOR Max Displays stator resistance of motor as of combined stator cable resistance Note P0304 100 means Z o ratedmot P0305 r0396 CO Act rotor resistance Min Level Datatype Float Unit Def 3 P Group MOTOR Max Displays adapted rotor resistance of the motor equivalent circuit phase value in 96 Note P0304 100 means Z o ratedmot P0305 Notice Values greater than 25 tend to produce excessive motor slip Check rated motor speed rpm value P0311 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 29 Parameters Issue 03 02 P0400131 Select encoder type Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group ENCODER Active Immediately QuickComm No Max 2 Selects encoder type Parameter Terminal Track Encoder type P0400 1 A 1 Single ended A 1 Differential AN l l P0400 2 A l 1 Single ended A 1 Differential AN 1 1 e dei Settings 0 Disabled 1 Single channel encoder 2 Quadrature encoder vvithout zero pulse ndex P0400 0 1st Drive data set DDS P0400 1 2nd Drive data set DDS P0400 2 3rd Drive data set DDS Note Encoders with zero pulse can also be connec
11. Def 0 0 3 P Group ALARMS Active Immediately QuickComm No Max 4000 0 Selects speed signal to be compared to threshold Index P2152 0 1st Command data set CDS P2152 1 2nd Command data set CDS P2152 2 3rd Command data set CDS Details See diagrams in P2150 hysteresis frequency f hys and P2151 speed setpoint for monitoring Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 121 Parameters Issue 03 02 P2153 3 Time constant speed filter Min 0 Level CStat CUT Datatype U16 Unit ms Def 5 3 P Group ALARMS Active Immediately QuickComm No Max 1000 Specifies time constant of first order speed filter The filtered speed is then compared to the thresholds as illustrated in the diagram below Min frequency 0 00 650 00 Hz P1080 D 0 00 Cl Mon act speed f_filtered f filtered f min for Msg Threshold freq f_1 0 00 650 00 Hz Delay time of f_1 P2155 D 30 00 O 10000 ms Hyst freq f hys P2156 D 10 0 00 10 00 Hz P2150 D 3 00 Tconst speed filt O 1000 ms P2153 D 5 f filtered lt f 1 Threshold freq f 1 0 00 650 00 Hz P2155 D 30 00 Hyst freq f hys 0 00 10 00 Hz P2150 D 3 00 f filtered gt f 1 Delay time of f 1 see Hyst freq f hys 10000 ms P2157 0 00 10 00 Hz P2156 D 10 P2150 D 3 00 ndex P2153 0 1st Drive data set DDS P
12. Def 50 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 6 Index P2206 0 1st Drive data set DDS P2206 1 2nd Drive data set DDS P2206 2 3rd Drive data set DDS Details See P2201 Fixed PID Setpoint 1 P2207 3 Fixed PID setpoint 7 Min 200 00 Level CStat CUT Datatype Float Unit 96 Def 60 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 7 Index P2207 0 1st Drive data set DDS P2207 1 2nd Drive data set DDS P2207 2 3rd Drive data set DDS Details See P2201 Fixed PID Setpoint 1 P2208 3 Fixed PID setpoint 8 Min 200 00 Level CStat CUT Datatype Float Unit 96 Def 70 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 8 Index P2208 0 1st Drive data set DDS P2208 1 2nd Drive data set DDS P2208 2 3rd Drive data set DDS Details See P2201 Fixed PID Setpoint 1 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 135 Parameters Issue 03 02 P2209 3 Fixed PID setpoint 9 Min 200 00 Level CStat CUT Datatype Float Unit Def 80 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 9 Index P2209 0 1st Drive data set DDS P2209 1 2nd Drive data set DDS P2209 2 3rd Drive data set DDS Details See P2201 Fixed PID Setpoint 1
13. Digital input 1 requires P0701 to be set to 99 BICO Digital input 2 requires P0702 to be set to 99 BICO Digital input 3 requires P0703 to be set to 99 BICO Digital input 4 requires P0704 to be set to 99 BICO Digital input 5 requires P0705 to be set to 99 BICO Digital input 6 requires P0706 to be set to 99 BICO Digital input 7 via analog input 1 requires P0707 to be set to 99 Digital input 8 via analog input 2 requires P0708 to be set to 99 19 E Index P2236 0 1st Command data set CDS P2236 1 2nd Command data set CDS P2236 2 3rd Command data set CDS 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 3 Setpoint of PID MOP Min 200 00 Level CStat CUT Datatype Float Unit 96 Def 10 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Keypad DOWN cursor Setpoint of the motor potentiometer Allows user to set a digital PID setpoint in 96 Index P2240 0 1st Drive data set DDS P2240 1 2nd Drive data set DDS P2240 2 3rd Drive data set DDS Note P2240 100 corresponds to 4000 hex r2250 CO Output setpoint of PID MOP Min Level Datatype Float Unit Def 3 P Group TECH Max Displays output setpoint of motor potentiometer in 96 Note 12250 100 corresponds to 4000 hex Parameter List MICROMASTER 430 140 6SE6400
14. Issue 03 02 Parameters P1910 Select motor data identification Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group MOTOR Active first confirm QuickComm Yes Max 20 Performs a motor data identification Performs stator resistance measuring Settings 0 Disabled 1 Identification of Rs with parameter change 2 Identification of Rs without parameter change 20 Set voltage vector Dependency No measurement if motor data incorrect P1910 1 Calculated value for stator resistance see P0350 is overwritten P1910 2 Values already calculated are not overwritten Note Before selecting motor data identification Quick commissioning has to be performed in advance Once enabled P1910 1 A0541 generates a warning that the next ON command will initiate measurement of motor parameters 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 Level 3 P1911 No of phase to be identified Min 1 CStat CT Datatype U16 Unit Def 3 P Group INVERTER Active Immediately QuickComm
15. Transmitted word 2 P2019 3 Transmitted word 3 P2019 4 Transmitted word 4 P2019 5 Transmitted word 5 P2019 6 Transmitted word 6 P2019 7 Transmitted word 7 Details See r2016 PZD to BOP link r2024121 USS error free telegrams Min Level Datatype U16 Unit Def 3 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 r2025121 USS rejected telegrams Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays number of USS telegrams rejected Index r2025 0 Serial interface COM link r2025 1 Serial interface BOP link r2026121 USS character frame error Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays number of USS character frame errors ndex r2026 0 Serial interface COM link r2026 1 Serial interface BOP link r2027121 USS overrun error Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays number of USS telegrams vvith overrun error ndex r2027 0 Serial interface COM link r2027 1 Serial interface BOP link Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 111 Parameters Issue 03 02 r2028 2 USS parity error Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays number of USS telegrams vvith parity error ndex r2028 0 Serial interface COM link r2028 1 Serial interface
16. Fixed Frequency Setpoint 1050 MOP Setpoint Index P1076 0 1st Command data set CDS P1076 1 2nd Command data set CDS P1076 2 3rd Command data set CDS r1078 CO Total frequency setpoint Min Level Datatype Float Unit Hz Det 3 P Group SETPOINT Max Displays sum of main and additional setpoints in Hz Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 71 Parameters Issue 03 02 P1080 3 Min frequency Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 0 00 1 P Group SETPOINT Active Immediately QuickComm Yes Max 650 00 Sets minimum motor frequency Hz at which motor will run irrespective of frequency setpoint Index P1080 0 1st Drive data set DDS P1080 1 2nd Drive data set DDS P1080 2 3rd Drive data set DDS 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 P1082 3 Max frequency Min 0 00 Level CStat CT Datatype Float Unit Hz Def 50 00 1 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 Index P1082 0 1st Drive data set DDS P1082 1 2nd Drive data set DDS P1082 2 3rd Drive data set DDS Dependency The maximal value of motor frequency P1082 is limited to pulse frequency P180
17. P0844 P0848 first source of OFF2 OFF3 are not effective instead P0845 P0849 second source of OFF2 OFF3 apply and the OFF commands are obtained via the particular source defined BICO connections made previously remain unchanged r0720 Number of digital inputs Level Datatype U16 Unit 3 P Group COMMANDS Displays number of digital inputs Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 39 Parameters Issue 03 02 r0722 CO BO Binary input values Min Level Datatype U16 Unit Def 3 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 Digital input 3 0 OFF 1 ON Bit03 Digital input 4 0 OFF 1 ON Bit04 Digital input 5 0 OFF 1 ON Bit05 Digital input 6 0 OFF i ON Bit06 Digital input 7 via ADC 1 0 OFF 1 ON Bit07 Digital input 8 via ADC 2 0 OFF 1 ON Note Segment is lit when signal is active P0724 Debounce time for digital inputs Min 0 Level CStat CT Datatype U16 Unit Def 3 3 P Group COMMANDS Active Immediately QuickComm No Max 3 Defines debounce time filtering time used for digital inputs Settings 0 No debounce time 1 2 5 ms debounce time 2 8 2 ms debounce time 3 12 3 ms debounce time PNP NPN digital inputs CStat CT Datatype U16 Unit Def 1 3 P Group COMMANDS Active Immediately QuickComm No Max 1 Switches between active high
18. P2210 3 Fixed PID setpoint 10 Min 200 00 Level CStat CUT Datatype Float Unit Def 90 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 10 Index P2210 0 1st Drive data set DDS P2210 1 2nd Drive data set DDS P2210 2 3rd Drive data set DDS Details See P2201 Fixed PID Setpoint 1 P2211 3 Fixed PID setpoint 11 Min 200 00 Level CStat CUT Datatype Float Unit 96 Def 100 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 11 Index P2211 0 1st Drive data set DDS P2211 1 2nd Drive data set DDS P2211 2 3rd Drive data set DDS Details See P2201 Fixed PID Setpoint 1 P2212 3 Fixed PID setpoint 12 Min 200 00 Level CStat CUT Datatype Float Unit 96 Def 110 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 12 Index P2212 0 1st Drive data set DDS P2212 1 2nd Drive data set DDS P2212 2 3rd Drive data set DDS Details See P2201 Fixed PID Setpoint 1 P2213 3 Fixed PID setpoint 13 Min 200 00 Level CStat CUT Datatype Float Unit 96 Def 120 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 13 Index P2213 0 1st Drive data set DDS P2213 1 2nd Drive data set DDS P2213 2 3rd Drive data set DDS Details See P2201 Fixed P
19. dn 40 04 18 MICROMASTER 430 6SE6400 5AF00 0BPO Parameter List 178 Function Diagrams Issue 03 02 ger H31SVWOMOIW oza zooziooe Z PJOM snjejs BULONUOVNV suonouny Bojouyoa p cm E BN ee A quoe ta o on 006 a osLzd ZH 0001 0070 OL 0992 sky bau ein sw 00001 70 eun Aejaq oo 6900 ZPMS PV Og OO 00 a osizd ZH 00701 0070 OL 4992 s u bay 1s H 1541 00001 70 V 110 euin ejeg 000 a ssLzd ZH 007099 0070 V y bey piouseuu L S004 S004 ZPMS PV Og OO 000 U SSLZd zH 007099 7 0070 1 bay pousaut S004 S004 ZPMS PV Og OO 01 08924 sw 00001 0 yo aun Aejoq L em lt esoo ZPMS PY Og OO umop due uo p soj axelg s a estzd su 0001770 Wy peeds 1suoo 0 0 ozgizal peedsoe uo 19 07001 Q 0ZLZd 0700 7 070 01 DLZEZd weu proyseyL su 0000177 jueuno euin Aejaq exeJg ou 001 29124 zH 0010 0070 Ho 1 bay HOMS GGLZd gt joe ul gg 49124 hoe ul y 18 useuu hoe il e 19 Ho u e ul 18 PJOM SNES ESOO MICROMASTER 430 Parameter List 6SE6400 5AF00 0BPO 179 Issue 03 02 Function Diagrams 89001 89001 cPMIEIS PV 09 09 eum lt 5001 ZPMS PV 09 09 en lt eovil ZPMS PV 09 09 Oer YILSVINOYOIAN Oza 00 L00e PSNZZMS OLLY Z PJOM snjejs Buloyuo suon
20. 19 0 1 2 9 0Ld Jeos dies 19 0 0 O v40Ld dies ppe qesiQ Ig 0 1 2 120Ld 1805 djas ule 10 0 897 202014 juiodies ute 10 MICROMASTER 430 Parameter List 185 6SE6400 5AF00 0BPO Issue 03 02 Function Diagrams oer YALSVWONOIN 02A c00c 100 weiberp uonouns he RS We m EEN We es Indjno did PY 09 y cci 00070 sgzzd s 000709 00070 aun Eet Ald 0070 26224 00 00z 00 002 JeMo dino did 007001 L6zzd 00 002 00700 ui Jeddn dino Ald 49qP 1895 qid 09 00 1 66224 s 00001 0070 euin dues ul did 0 LZZZd 10 d sue did 0 0 224 007001 69224 ero 007009 0070 JejjoJjuoo did 9uueyo 1ulod S yesyo Buium Ald 99624 uj amp ue i uln Bulun Aid vsezd ejqeue eunjojne Cid 0SEZd wy se id Loes se Cid 0 epou Cid LSzzd q llonuo ld eigeu3 18 00224 00 0 89224 001002 00 002 EA utu Yoqp Ald 24 xoaprati did 00 rss lt O v9ZZd yoeqp did 1D 0070 99224 JOUJ yoqp Cid web yoeqp aid 007001 9224 00 00z 00 002 s 00709 0070 3suool HY 4OQP4 d n Cid 09 g2cc4 00070 yZzZd s 00009 00070 SUD AH p did 2922 dies did Wl 00 O o E 0 9zzd 170 edA Hp did 000 08224 000 S9 00070 uie doud did 09221
21. 89001 dies eDeyoA 10 yoeqp Juano v yu ano dino 09 EY 2900 11100 95 Xew did PV OO EH llonuoo did Wns 8201 ZH des ban 101 00 MICROMASTER 430 Parameter List 6SE6400 5AF00 0BPO 189 Function Diagrams Issue 03 02 Parameter List MICROMASTER 430 190 6SE6400 5AF00 0BPO Issue 03 02 Faults and Alarms Faults and Alarms 3 1 Fault messages n the event of a failure the inverter svvitches off and a fault code appears on the display NOTE To reset the fault code one of three methods listed belovv can be used 1 Cycle the povver to the drive 2 Press the button on the BOP or AOP 3 Via Digital Input 3 default setting Fault Possible Causes Diagnose amp Remedy Reac tion F0001 gt Motor power P0307 does not Check the follovving Om OverCurrent SE to the inverter power 4 Motor power P0307 must correspond to inverter r0206 power r0206 gt Motor lead short circuit Cable length limits must not be exceeded 4 Motor cable and motor must have short circuits or earth faults Motor parameters must match the motor in use 5 Value of stator resistance P0350 must be correct 6 Motor must not be obstructed or overloaded ncrease the ramp time Reduce the boost level F0002 gt DCHink voltage r0026 exceeds Check the following offi OverVoltage trip level P2172 1 Supply voltag
22. Benefit flux is built up quickly Drawback motor may move P1350 1 ON smooth voltage build up Benefit motor less likely to move Drawback flux build up takes longer Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 101 Parameters Issue 03 02 P1800 Pulse frequency Min 2 Level CStat CUT Datatype U16 Unit kHz Def 4 2 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 Pulse frequencies gt 4 kHz selected on 380 480 V units reduce the maximum continuous motor current Dependency Minimum pulse frequency depends on P1082 maximum frequency and P0310 rated motor frequency The maximal value of motor frequency P1082 is limited to pulse frequency P1800 see P1082 Note At 4 kHz full output current is obtained up to 50 degrees C CT mode over 50 degrees C full output may be obtained at 8 kHz 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 Level Datatype U16 Unit kHz Def 3 P Group INVERTER Max Actual pulse frequency of povver svvitches in inverter Notice Under certain condit
23. Defines command source of RFG enable setpoint command RFG ramp function generator If binary input is equal to zero than the RFG input will be set to zero and the RFG output will be ramp down to zero Index P1142 0 1st Command data set CDS P1142 1 2nd Command data set CDS P1142 2 3rd Command data set CDS r1170 CO Frequency setpoint after RFG Min Level Datatype Float Unit Hz Def 3 P Group SETPOINT Max Displays overall frequency setpoint after ramp generator Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 79 Parameters Issue 03 02 P1200 Flying start Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 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 fax ES Zu n m ramps to set point vvith normal ramp fout t P1202 DI III NV VV UV out H odla L Y i l as per V f characteristic V out motor speed found Settings Flying start disabled Flying start is alvvays active start in direction of setpoint Flying start is active if power on fault OFF2 start in direction of setpoint Flying start is active if fault OFF2 start in direction of setpoint Flying start
24. Fault F0054 1 Wrong IO board is connected gt Check data Off1 Wrong lO 2 No ID detected on IO board No gt Change IO module Board data F0060 Internal communications failure If fault persists change inverter contact Service Off1 Asic Timeout Department Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 193 Faults and Alarms Issue 03 02 Fault Possible Causes Diagnose amp Remedy Reac tion F0070 No setpoint values from CB Check CB and communication partner Off1 CB setpoint communication board during fault telegram off time F0071 No setpoint values from USS during Check USS master Off1 USS BOP telegram off time link setpoint fault F0072 No setpoint values from USS during Check USS master Off1 USS COMM telegram off time link setpoint fault F0080 gt Broken wire Off ADC lost input Signal out of limits signal F0085 External fault triggered via terminal Disable terminal input for fault trigger Off External Fault inputs F0090 Signal from Encoder lost 1 Check encoder fitted If encoder not fitted set Off1 Encoder P400 0 and select SLVC mode P1300 20 or feedback loss 22 2 Check connections between encoder and inverter Check encoder not faulty select P1300 0 run at fixed speed check encoder feedback signal in P66 4 Increase encoder loss threshold in P492 F0101 Software error or processor failure Run self test routines Off1 Stack Overflow F0221 PI
25. Fault Codes miey Fle r0947 2 Aa Most recent r0947 3 d Fault Codes 1 F1e d F r0947 4 Most recent r0947 5 i A Fault Codes 2 Fle r0947 6 4 Most recent r0947 7 Fault Codes 3 Example If the inverter trips on undervoltage and then receives an external trip before the undervoltage is acknowledged you will obtain r0947 0 3 Undervoltage F0003 r0947 1 85 External trip F0085 Whenever a fault in index 0 is acknowledged F1e the fault history shifts as indicated in the diagram above Index r0947 0 Recent fault trip fault 1 r0947 1 Recent fault trip fault 2 r0947 2 Recent fault trip 1 fault 3 r0947 3 Recent fault trip 1 fault 4 r0947 4 Recent fault trip 2 fault 5 r0947 5 Recent fault trip 2 fault 6 r0947 6 Recent fault trip 3 fault 7 r0947 7 Recent fault trip 3 fault 8 Dependency Index 1 used only if second fault occurs before first fault is acknowledged Details See Faults and Warnings r0948 12 Fault time Min Level Datatype U16 Unit Def 3 P Group ALARMS Max Time stamp to indicate when the fault has occurred P2114 run time counter or P2115 real time clock are the possible sources of the time stamp Example The time is taken from P2115 if this parameter has been updated with the real time If not P2114 is used Index r0948 0 Recent fault trip fault time seconds minutes r0948 1 Recent fault trip fault time hourstdays
26. No Max 3 Selects maximum number of motor phases to be identified r1912 3 Identified stator resistance Min Datatype Float Unit Ohm Def P Group MOTOR Max Level Displays measured stator resistance value line to line in Ohms Index r1912 0 U_phase r1912 1 V_phase r1912 2 W_phase Note This value is measured using P1910 1 or 2 i e identification of all parameters with without change r1925 Identified on state voltage Min Level Datatype Float Unit V Def 3 P Group INVERTER Max Displays identified on state voltage of IGBT r1926 Ident gating unit dead time Min Level Datatype Float Unit us Def 3 P Group INVERTER Max Displays identified dead time of gating unit interlock Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 103 Parameters Issue 03 02 P2000 3 Reference frequency Min 1 00 Level CStat CT Datatype Float Unit Hz Def 50 00 2 P Group COMM Active first confirm QuickComm No Max 650 00 Full scale frequency setting used by serial link corresponds to 4000H analog UO and P D controller Index P2000 0 1st Drive data set DDS P2000 1 2nd Drive data set DDS P2000 2 3rd Drive data set DDS Notice Reference variables are intended as an aid to presenting setpoint and actual value signals in a uniform manner This also applies
27. P Group TECH Active first confirm QuickComm No Max 4000 0 Define inputs of Subtracter 1 result is in P2874 P2800 P2802 6 P2873 Sei pie Index P2873 0 Connector input 0 CI 0 P2873 1 Connector input 1 CI 1 Result x1 x2 If x1 x2 gt 200 gt Result 200 x1 x2 lt 200 gt Result 200 Dependency P2802 6 is active level for the Subtracter r2874 CO SUB 1 Min Level Datatype Float Unit Def 3 P Group TECH Max Result of Subtracter 1 Dependency P2802 6 is active level for the Subtracter Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 165 Parameters Issue 03 02 P2875 2 Cl SUB 2 Min 0 0 Level CStat CUT Datatype U32 Unit Def 755 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 Define inputs of Subtracter 2 result is in P2876 Index P2875 0 Connector input 0 CI 0 P2875 1 Connector input 1 CI 1 Dependency P2802 7 is active level for the Subtracter r2876 CO SUB 2 Min Level Datatype Float Unit Def 3 P Group TECH Max Result of Subtracter 2 Dependency P2802 7 is active level for the Subtracter P2877 2 Cl MUL 1 Min 0 0 Level CStat CUT Datatype U32 Unit Def 755 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 Define inputs of Multiplier 1 result is in P2878 P2800 P2802 8 x
28. P1035 2 3rd Command data set CDS P1036 3 Bl Enable MOP DOWN command Min 0 0 Level CStat CT Datatype U32 Unit Def 19 14 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source for motor potentiometer setpoint decrease frequency 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 19 E MOP down via BOP Index P1036 0 1st Command data set CDS P1036 1 2nd Command data set CDS P1036 2 3rd Command data set CDS P1040 3 Setpoint of the MOP Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 5 00 2 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Determines setpoint for motor potentiometer control P1000 1 Index P1040 0 1st Drive data set DDS P1040 1 2nd Drive data set DDS P1040 2 3rd Drive data set DDS Note If motor potentiometer setpoint is selected either as main setpoint or additional setpoint the reverse direction will be inhibited by default of P1032 inhibit reverse
29. P1133 0 1st Drive data set DDS P1133 1 2nd Drive data set DDS P1133 2 3rd Drive data set DDS Note Rounding times are recommended since they prevent an abrupt response thus avoiding detrimental effects on the mechanics Notice Rounding times are not recommended when analog inputs are used since they would result in overshoot undershoot in the inverter response P1134 3 Rounding type Min 0 Level CStat CUT Datatype U16 Unit Def 0 2 P Group SETPOINT Active Immediately QuickComm No Max 1 Defines smoothing response to OFF1 command or setpoint reduction If parameter P1134 0 it aviods sudden changes in setpoint frequency Moreover it gives smoother torque no jerk Settings 0 Continuous smoothing 1 Discontinuous smoothing Index P1134 0 1st Drive data set DDS P1134 1 2nd Drive data set DDS P1134 2 3rd Drive data set DDS Dependency No effect until total rounding time P1130 gt s Notice P1134 0 Rounding acts at all times At a sudden reduction of the input value overshoot can occur P1134 1 Rounding does not act upon sudden reduction of input value during acceleration process Rounding times are not recommended when analog inputs are used They would result in overshoot undershoot in the inverter response Parameter List MICROMASTER 430 78 6SE6400 5AF00 0BPO Issue 03 02 Parameters P1135 3 OFF3 ramp down time Min
30. Selects source of display for PZD signals Index POO95 0 1st PZD signal P0095 1 2nd PZD signal P0095 2 3rd PZD signal POO95 3 4th PZD signal P0095141 5th PZD signal P0095 5 6th PZD signal P0095 6 7th PZD signal P0095 7 8th PZD signal P0095 8 9th PZD signal POO95 9 10th PZD signal r0096 10 PZD signals Min Level Datatype Float Unit Def 3 P Group CONTROL Max Displays PZD signals in 96 Index r0096 0 1st PZD signal r0096 1 2nd PZD signal r0096 2 3rd PZD signal r0096 3 4th PZD signal r0096 4 5th PZD signal r0096 5 6th PZD signal r0096 6 7th PZD signal r0096 7 8th PZD signal r0096 8 9th PZD signal r0096 9 10th PZD signal Note r0096 100 corresponds to 4000 hex P0100 Europe North America Min 0 Level CStat C Datatype U16 Unit Def 0 1 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 Settings 0 Europe kW frequency default 50 Hz 1 North America hp frequency default 60 Hz 2 North America KW frequency default 60 Hz Dependency The setting of DIP switch 2 under the UO board determines the validity of settings O and 1
31. Stator resistance value in Ohms for connected motor from line to line The parameter value includes the cable resistance There are three ways to determine the value for this 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 Index P0350 0 1st Drive data set DDS P0350 1 2nd Drive data set DDS P0350 2 3rd Drive data set DDS 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 P0352 3 Cable resistance Min 0 0 Level CStat CUT Datatype Float Unit Ohm Def 0 0 3 P Group MOTOR Active Immediately QuickComm No Max 120 0 Describes cable resistance between inverter and motor for one phase The value corresponds to the resistance of the cable between the inverter and the motor relative to the rated impedance Index P0352 0 1st Drive data set DDS P0352 1 2nd Drive data set DDS P0352 2 3rd Drive data set DDS r0384131 Rotor time constant Min Level Datatype Float Unit ms Def 3 P Group MOTOR Max Displays calculated rotor time constant ms Index r0384 0 1st Drive data set DDS r0384 1
32. inverter is running at low setpoint Note that this is an independent function from staging although it can be used together with staging P2391 Energy saving timer Min 0 Level CStat CT Datatype U16 Unit s Def 0 3 P Group TECH Active Immediately QuickComm No Max 254 When the energy saving timer P2391 has expired the inverter is ramped down to stop and enters energy saving mode see description and diagram of P2390 Parameter List MICROMASTER 430 152 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2392 Energy saving restart setpoint Min 200 00 Level CStat CT Datatype Float Unit Def 0 3 P Group TECH Active Immediately QuickComm No Max 200 00 While in energy saving mode the PID controller continues to generate the error P2273 once this reaches the restart point P2392 the inverter immediately ramps to the setpoint calculated by the PID controller see description and diagram of P2390 P2800 Enable FFBs Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group TECH Active first confirm QuickComm No Max 1 Free function blocks FFB are enabled in two steps 1 Parameter P2800 enables all free function blocks normally P2800 1 2 Parameters P2801 and P2802 respectively enable each free function block individually P2801 x gt 0 oder P2802 x gt 0 Settings 0 Disable 1 Enable Dependency Parameter List All active function blocks will be calculated in every
33. or a phase could be missing Notice If 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 P2180 Delay time for load missing Min 0 Level CStat CUT Datatype U16 Unit ms Def 2000 3 P Group ALARMS Active Immediately QuickComm No Max 10000 128 Delay time load missing Note It may be that the motor is not connected load missing or a phase could be missing Notice If 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 Details See diagram in P2179 current limit for no load identification Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2181131 Belt failure detection mode Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group ALARMS Active first confirm QuickComm No Max 6 Sets belt failure detection mode This function allows detection of mechanical failure of the drive train e g a broken drive belt It can also detect conditions which cause an overload such as a jam Two methods are provided of detecting the failure The fist is achieved by comparing the actual frequency torque curve with a programmed envelope see P2182 P2190 If the curve falls outside the envelope a warning or trip is generated The second uses a pulse train from a
34. 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No 4000 0 Define input signal of timer 3 P2859 P2860 P2861 are the inputs of the timer outputs are P2862 2863 Dependency P2802 2 is active level for the timer Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 163 Parameters Issue 03 02 P2860 Delay time of timer 3 Min 0 0 Level CStat CUT Datatype Float Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 6000 0 Defines delay time of timer 3 P2859 P2860 P2861 are the inputs of the timer outputs are P2862 P2863 Dependency P2802 2 is active level for the timer P2861 Mode timer 3 Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group TECH Active first confirm QuickComm No Max 3 Selects mode of timer 3 P2859 P2860 P2861 are the inputs of the timer outputs are P2862 P2863 Settings 0 ON delay 1 OFF delay 2 ON OFF delay 3 Pulse generator Dependency P2802 2 is active level for the timer r2862 BO Timer 3 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays output of timer 3 P2859 P2860 P2861 are the inputs of the timer outputs are P2862 P2863 Dependency P2802 2 is active level for the timer 2863 BO Nout timer 3 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays Not output of time
35. 0 3 P Group COMM Active Immediately QuickComm No Max 65535 Defines a time T_off after which a fault will be generated F0070 if no telegram is received via the USS channels 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 8 CO PZD from BOP link USS Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays process data received via USS on BOP link RS232 USS r2015 0 r2032 r2015 1 r2015 2 r2015 3 r2033 201 i PZD2 PZD3 PZD4 STW1 HSW STW2 r2015 7 P2012 i R i STX Start of text nk i LGE Length 5 9 ADR Address FE PKW Parameter ID value se Le ADR FE mem data PZD Process data BCC Block check character USS telegram i STW Control word a HSVV Main setpoint USS on BOP link 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 r2015 4 Received word 4 r2015 5 Received word 5 r2015 6 Received word 6 r2015 7 Received word 7 Note The control words can be viewed as bit parameters r2032 and r2033 Parameter List MICROMASTER 430 108 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2016 8 Cl PZD to BOP link USS Min 0 0 Level CStat CT Datatype U32 Unit Def 52 0 3 P Group COMM Active Imme
36. 00 Defines fixed frequency setpoint 11 Index P1011 0 1st Drive data set DDS P1011 1 2nd Drive data set DDS P1011 2 3rd Drive data set DDS Details See parameter P1001 fixed frequency 1 P1012 3 Fixed frequency 12 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 55 00 3 P Group SETPOINT Active Immediately QuickComm Max 650 00 Defines fixed frequency setpoint 12 Index P1012 0 1st Drive data set DDS P1012 1 2nd Drive data set DDS P1012 2 3rd Drive data set DDS Details See parameter P1001 fixed frequency 1 P1013 3 Fixed frequency 13 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 60 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 13 Index P1013 0 1st Drive data set DDS P1013 1 2nd Drive data set DDS P1013 2 3rd Drive data set DDS Details See parameter P1001 fixed frequency 1 P1014 3 Fixed frequency 14 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 65 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 14 Index P1014 0 1st Drive data set DDS P1014 1 2nd Drive data set DDS P1014 2 3rd Drive data set DDS Details See parameter P1001 fixed frequency 1 Parameter List MICROMASTER 430 66 6SE6400 5AF00 0BPO Issue 03 02 Parameters
37. 00 psa JA OLZE zH 9 zH Sg zH v zH L 6L0Ld 910143 00 99 Q SLO0Ld 007099 00 0S9 p xi i 00 SZ 90014 007099 00 0S9 Aouenbau p xi i 00702 Q S00Ld 007099 00 0S9 pexi4 00 91 OronLd 00 0S9 00 0S9 pexi4 0070 a Lo0Ld 007099 00 0S9 pexi4 p po Asyeulg 44 cuanbaly p xi i eoJnog juiodjeg jeujeju 5s 1 6L0ld EL ilg epou 44 1 gold e Ziq epou 44 1 21014 eno 18 epow 44 1 gb kd ep 0 118 epow 44 O EZOLd Hg Ies 44 18 0 0 O Zz0Ld 218 Ies 44 18 0 0 212014 Hg q s 44 18 0 0 2 02014 018 195 343 18 MICROMASTER 430 Parameter List 6SE6400 5AF00 0BPO 177 Issue 03 02 Function Diagrams oer dH41SV NOMO N D n 2002 0106 uonoun i ps dowWald 007 dies dno JON 00 DER dOW did 1 zezza 170 31 GOW Ald 0141 103u02 enjeA uejs indino dOW did 1 a LEZZd 00701 Q OvZZd 170 001002 00 00z weu 5 dOW Gld dOW dld Jo d s dOW Gld JOJO Old 99Jnog 1uiodies eu ajul 00709 a z8otd ZH 007099 0070 Aouenbau xe 00 00709 0 0L 0d ZH 007099 oct payey 296224 NMQ dOW Gld 18 V 6L O SEZZA
38. 00 3 P Group ALARMS Active Immediately QuickComm No Max 650 00 Hysteresis speed or frequency for overspeed detection as illustrated in the diagram below f act f max Max frequency 0 00 650 00 Hz P1082 D 50 00 f_act gt f_max f_act Overspd hyst freq 0 00 650 00 Hz P2162 D 20 00 Index P2162 0 1st Drive data set DDS P2162 1 2nd Drive data set DDS P2162 2 3rd Drive data set DDS Parameter List MICROMASTER 430 124 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2163131 Entry freq for perm deviation Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 3 00 3 P Group ALARMS Active Immediately QuickComm No Max 20 00 Threshold for detecting speed deviation from setpoint as illustrated in the diagram below f act f set Entry freq deviat 0 00 20 00 Hz P2163 D 3 00 Delay T perm dev 0 10000 ms P2165 D 10 f_act f_set Ramp up completed active high Hyster freq deviat 0 00 10 00 Hz P2164 D 3 00 Delay T rampUpCmpl O 10000 ms P2166 D 10 Priority 1 RESET 2SET HLG active T_act gt T thresh T_actNoAcc gt T_thresh T_actNoAcc gt T_thresh Delay time torque O 10000 ms P2176 D 10 Torque threshold T_act gt T_thresh 0 0 99999 0 Nm P2174 D 5 13 Index P2163 0 1st Drive data set DDS P2163 1 2nd Drive da
39. 03 02 Index USS on COM link CB on COM link Analog setpoint 2 No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link USS on COM link Analog setpoint 2 No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link CB on COM link Analog setpoint 2 No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link USS on COM link CB on COM link Analog setpoint 2 EE EE E EE EE E EE 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 USS on COM link CB on COM link CB on COM link CB on COM link CB on COM link CB on COM link CB on COM link CB on COM link Analog setpoint 2 Analog setpoint 2 Analog setpoint 2 Analog setpoint 2 Analog setpoint 2 Analog setpoint 2 Analog setpoint 2 Analog setpoint 2 P1000 0 1st Command data set CDS P1000 1 2nd Command data set CDS P1000 2 3rd Command data set CDS Parameters Note Parameter List Single digits denote main setpoints that have no additional setpoint MICROMASTER 430 6SE6400 5AF00 0BPO 63 Parameters Issue 03 02 P1001131 Fixed frequency 1 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 0 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 1 There are 3 types of f
40. 14 15th user parameter P0013 15 16th user parameter P00131161 17th user parameter P0013 17 18th user parameter P0013 18 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 parameters is to set P0012 key to the value in P0011 lock Note 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 r0018 Firmware version Min Level Datatype Float Unit Def 3 P Group INVERTER Max 14 Displays version number of installed firmvvare Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters r0019 CO BO BOP control vvord Min Level Datatype U16 Unit Def 3 P Group COMMANDS Max 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
41. 3 Rated magnetization current Min Level Datatype Float Unit A Def 3 P Group MOTOR Displays calculated magnetizing current of motor in A Index r0331 0 1st Drive data set DDS r0331 1 2nd Drive data set DDS r0331 2 3rd Drive data set DDS r0332 3 Rated power factor Min Level Datatype Float Unit Def 3 P Group MOTOR Max Displays povver factor for motor ndex r0332 0 1st Drive data set DDS r0332 1 2nd Drive data set DDS r0332 2 3rd Drive data set DDS Dependency Value is calculated internally if PO308 rated motor cosPhi set to 0 otherwise value entered in P0308 is displayed P0335 3 Motor cooling Min CStat CT Datatype U16 Unit Def 0 P Group MOTOR Active first confirm QuickComm Yes Max 3 Selects motor cooling system used Settings 0 Self cooled Using shaft mounted fan attached to motor 1 Force cooled Using separately powered cooling fan 2 Self cooled and internal fan 3 Force cooled and internal fan Index P0335 0 1st Drive data set DDS P0335 1 2nd Drive data set DDS P0335 2 3rd Drive data set DDS Notice Parameter List 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 430 6SE6400 5AF00 0BPO 27 Parameters Issue 03 02 P0340131 Calculation of motor parameters Min 0 Level CStat
42. 4 dies id 09 0070 9224 s 00709 0070 uoo yy dy9s did xeu yoqp did 00 1 89224 007099 0070 dwe des E ag 007001 SSZZd 00001 0070 yor uie6 djes aid 0 0922 O SZZd 0071 9224 s 007099 0070 dn dwes dies Gld ulu 01412 007001 99224 0070017 00 0 joe ure l did MICROMASTER 430 6SE6400 5AF00 0BPO Parameter List 186 Function Diagrams Issue 03 02 oer d41SV NOMOLAN O zA 2002 0106 PSA WAV 0029 Wav suoHeoyipoy jeuonippy Jeuueuo jurodj9s c9 c4 m PEE ES EEES TS 2 7 0010 080 4 ZH 00 099 0070 UIN 94 e10jeq 4195 00 POOL ZH julodjas bay xew 00 0S 0128014 ZH 007099 0070 Aouenbau XE 0072 a Lor ZH 00 01 ulpimpueg baydiyg 1010 1 0 95 00 ld 00 0 ouanba dis ypimpueg gt i 0070 a 60Ld ZH 007099 0070 Aouanbay dils 0070 G v60ld 0070 ZH 007099 000 ZH 001 FAouenbau de 0070 L60Ld ZH 007099 0070 fouanbau dils 026014 099 0010 z Aouenbau de id t q Bunyemsny autey llonuo did ZH dies bau 301 09 Old dies Bou uu1 218 MICROMASTER 430 Parameter List 6SE6400 5AF00 0BPO 187 Issue 03 02 Function Diagrams oer H3 LSVINOSOIIN O ZA ce00c LOD 9 0065 JojeJeuec dwey 9uueyo julodj
43. 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 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 19 0 ON OFF1 via BOP Index PO0849 0 1st Command data set CDS P0849 1 2nd Command data set CDS P0849 2 3rd Command data set CDS Dependency In contrast to P0848 first source of OFF3 this parameter is always active independent of P0719 selection of command and frequency setpoint If one of the digital inputs is selected for OFF3 the inverter will not run unless the digital input is active Note 56 OFF3 means fast ramp down to 0 OFF3 is low active i e 0 Ramp down 1 Operating condition MICROMASTER 430 6SE6400 5AF00 0BPO Parameter List Issue 03 02 Parameters P0852 3 BI Pulse enable Min 0 0 Level CStat CT Datatype U32 Unit Def 1 0 3 P Group COMMANDS Active first
44. 5 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 Settings 0 No reaction no display OFF1 stop reaction OFF2 stop reaction OFF3 stop reaction No reaction warning only Goto fixed frequency 15 akRWN Index P2101 0 Stop reaction value 1 P2101 1 Stop reaction value 2 P2101 2 Stop reaction value 3 Note Settings 0 3 only are available for fault codes Settings 0 and 4 only are available for warnings Setting 5 is only available for the following fault codes 70 71 72 80 It is used when a source of setpoint is lost allowing the drive to run to fixed frequency 15 Index 0 P2101 refers to fault warning in index 0 P2100 P2103 3 Bi 1 Faults acknowledgement Min 0 0 Level CStat CT Datatype U32 Unit Def 722 2 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source of fault acknowledgement e g keypad DIN etc depending on setting Settings 722 0 722 1 722 2 722 3 722 4 722 5 722 6 722 7 Index P2103 0 1st Command data set CDS P2103 1 2nd Command data set CDS P2103 2 3rd Command data set CDS Digital input 1 requires P0701 to be set to 99 BICO Digital input 2 requires P0702 to be set to 99 BICO Digital input 3 requires P0703 to be set to 99 BICO Digital input 4 re
45. 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 Index P1266 0 1st Command data set CDS P1266 1 2nd Command data set CDS P1266 2 3rd Command data set CDS Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 91 Parameters Issue 03 02 P1300131 Control mode Min 0 Level CStat CT Datatype U16 Unit Def 1 3 P Group CONTROL Active first confirm QuickComm Yes Max 23 Controls relationship betvveen speed of motor and voltage supplied by inverter as illustrated in the diagram belovv V V f with linear characteristic 1 V f with FCC 2 V f with parabolic characteristic 3 V f with programmable characteristic 4 Reserved 5 V f for textile applications 6 V f with FCC for textile applications 19 V f control with independent voltage setpoint 20 reserved 21 reserved 22 reserved 23 reserved Index P1300 0 1st Drive data set DDS P1300 1 2nd Drive data set DDS P1300 2 3rd Drive data set DDS Note V f mode P1300 1 V f with FCC flux current control Maintains motor flux current for improved efficiency If FCC is chosen linear V f is active at low frequencies P1300 2 V f with a quadratic curve Suitable for centrifugal fans pumps The following table
46. Active first confirm QuickComm No Max 2 direct selection or direct selection ON for bit 5 Settings 1 Direct selection 2 Direct selection ON command Details See parameter P1001 for description of how to use fixed frequencies P1028 3 Bl Fixed freq selection Bit 5 Min 0 0 Level CStat CT Datatype U32 Unit Def 722 5 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines origin of fixed frequency selection Index P1028 0 1st Command data set CDS P1028 1 2nd Command data set CDS P1028 2 3rd Command data set CDS Dependency Accessible only if P0701 P0706 99 function of digital inputs BICO Details See P1020 fixed frequency selection Bit 0 for most common settings P1031 3 Setpoint memory of the MOP Min O0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group SETPOINT Active Immediately QuickComm No Max 1 Saves last motor potentiometer setpoint MOP that was active before OFF command or power down Settings 0 MOP setpoint will not be stored 1 MOP setpoint will be stored P1040 is updated Index P1031 0 1st Drive data set DDS P1031 1 2nd Drive data set DDS P1031 2 3rd Drive data set DDS Note On next ON command motor potentiometer setpoint will be the saved value in parameter P1040 setpoint of the MOP P1032 Inhibit reverse direction of MOP Min 0 Level CStat CT Datatype U16 Unit Def 1 3 P
47. Asyn Nn Nsyn un Notice If used to hold the motor at a certain frequency against a mechanical brake i e you are using a relay to control mechanical brake it is important that min frequency P1080 5 Hz otherwise the current drawn may be too high and the relay may not open P1217 Holding time after ramp down Min 0 0 Level CStat T Datatype Float Unit s Def 1 0 2 P Group FUNC Active first confirm QuickComm No Max 20 0 Defines time for which inverter runs at minimum frequency P1080 after ramping down at point 2 Details See diagram P1215 holding brake enable P1230 3 Bl Enable DC braking Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 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 The level of DC braking is set in P1232 DC braking current relative to the rated motor current which is set to 100 96 by default Settings 722 0 722 1 722 2 722 3 722 4 722 5 722 6 722 7 Index P1230 0 1st Command data set CDS P1230 1 2nd Command dat
48. BOP link r2029121 USS start not identified Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays number of USS telegrams vvith unidentified start ndex r2029 0 Serial interface COM link r2029 1 Serial interface BOP link r2030 2 USS BCC error Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays number of USS telegrams vvith BCC error ndex r2030 0 Serial interface COM link r2030 1 Serial interface BOP link r2031121 USS length error Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays number of USS telegrams vvith incorrect length ndex r2031101 Serial interface COM link r2031 1 Serial interface BOP link r2032 BO CtrIWrd1 from BOP link USS Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays control vvord 1 from BOP link vvord 1 vvithin USS Bitfields Bit00 ON OFF1 0 NO 1 YES Bit01 OFF2 Electrical stop 0 YES d NO Bit02 OFF3 Fast stop 0 YES NO Bit03 Pulse enable 0 NO 1 YES Bito4 RFG enable 0 NO 1 YES Bit05 RFG start 0 NO 1 YES Bit06 Setpoint enable 0 NO 1 YES Bit07 Fault acknovledge 0 NO 1 YES Bit08 UOG 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 Bit
49. Digital input 4 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 Note P0810 is also relevant for command data set CDS selection 52 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters P0819131 Copy drive data set DDS Min 0 Level CStat CT Datatype U16 Unit Def 0 2 P Group COMMANDS Active first confirm QuickComm No Max 2 Calls Copy drive data set function Index P0819 0 Copy from DDS P0819 1 Copy to DDS P0819 2 Start copy Note Start value in index 2 is automatically reset to O after execution of function P0820 BI DDS bit 0 Min 0 0 Level CStat CT Datatype U32 Unit Def 0 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4095 0 Selects command source from which to read Bit 0 for selecting a drive data set DDS A Drive running O 5 Drive ready mt Selection of DDS BI DDS bit 1 3 CO BO Add CtrlVVd P0821 To 24 E EEA 1 BI DDS bit O CO BO Add CtrlWd 0 0 j 0 gt t i Switch over time DDS active A aprox 50 ms g
50. Drive data set DDS P1323 2 3rd Drive data set DDS P1324 3 Programmable V f freq coord 3 Min 0 00 Level CStat CT Datatype Float Unit Hz Def 0 00 3 P Group CONTROL Active Immediately QuickComm No Max 650 00 See P1320 programmable V f freq coord 1 Index P1324 0 1st Drive data set DDS P1324 1 2nd Drive data set DDS P1324 2 3rd Drive data set DDS P1325 3 Programmable V f volt coord 3 Min 0 0 Level CStat CUT Datatype Float Unit V Def 0 0 3 P Group CONTROL Active Immediately QuickComm No Max 3000 0 See P1320 programmable V f freq coord 1 Index P1325 0 1st Drive data set DDS P1325 1 2nd Drive data set DDS P1325 2 3rd Drive data set DDS P1330 3 Cl Voltage setpoint Min 0 0 Level CStat T Datatype U32 Unit Def 0 0 3 P Group CONTROL Active first confirm QuickComm No Max 4000 0 BICO parameter for selecting source of voltage setpoint for independent V f control Index P1330 0 1st Command data set CDS P1330 1 2nd Command data set CDS P1330 2 3rd Command data set CDS P1333 3 Start frequency for FCC Min 0 0 Level CStat CUT Datatype Float Unit Def 10 0 3 P Group CONTROL Active Immediately QuickComm No Max 100 0 Defines start frequency at which FCC flux current control is enabled as of rated motor frequency P0310 Index P1333 0 1st Drive data set DDS P1333 1 2nd Drive data set DDS P1333 2 3rd Drive data set DD
51. FF12 Active Active Inactive Inactive P1013 FF13 Active Active Inactive Active P1014 FF14 Active Active Active Inactive P1015 FF15 Active Active Active Active Index P1001 0 1st Drive data set DDS P1001 1 2nd Drive data set DDS P1001 2 3rd Drive data set DDS Dependency Select fixed frequency operation using P1000 Inverter requires ON command to start in the case of direct selection P0701 P0706 15 Note Fixed frequencies can be selected using the digital inputs and can also be combined with an ON command P1002 3 Fixed frequency 2 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 5 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 2 Index P1002 0 1st Drive data set DDS P1002 1 2nd Drive data set DDS P1002 2 3rd Drive data set DDS Details See parameter P1001 fixed frequency 1 Parameter List MICROMASTER 430 64 6SE6400 5AF00 0BPO Issue 03 02 Parameters P1003131 Fixed frequency 3 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 10 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 3 Index P1003 0 1st Drive data set DDS P1003 1 2nd Drive data set DDS P1003 2 3rd Drive data set DDS Details See parameter P1001 fixed f
52. Fixed PID Setpoint 2 P2202 0 1st Drive data set DDS P2202 1 2nd Drive data set DDS P2202 2 3rd Drive data set DDS Details See P2201 Fixed PID Setpoint 1 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2203131 Fixed PID setpoint 3 Min 200 00 Level CStat CUT Datatype Float Unit Def 20 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 3 Index P2203 0 1st Drive data set DDS P2203 1 2nd Drive data set DDS P2203 2 3rd Drive data set DDS Details See P2201 fixed PID setpoint 1 FF PID 1 P2204 3 Fixed PID setpoint 4 Min 200 00 Level CStat CUT Datatype Float Unit 96 Def 30 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 4 Index P2204 0 1st Drive data set DDS P2204 1 2nd Drive data set DDS P2204 2 3rd Drive data set DDS Details See P2201 Fixed PID Setpoint 1 P2205 3 Fixed PID setpoint 5 Min 200 00 Level CStat CUT Datatype Float Unit 96 Def 40 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 5 Index P2205 0 1st Drive data set DDS P2205 1 2nd Drive data set DDS P2205 2 3rd Drive data set DDS Details See P2201 Fixed PID Setpoint 1 P2206 3 Fixed PID setpoint 6 Min 200 00 Level CStat CUT Datatype Float Unit
53. Gro 982 opu L v98Zd vS8cd 0 0 0 s 0700097700070 6120824 00824 s 0 0009 000 0 1120824 00824 0 99824 000 0 9824 0 99824 00070 9824 Cessez ez ECH zoezi oeu 6982 EH SE le 9poW 070009 700070 2120824 00824 apo s 070009 700070 10120824 0082 0 198 d 000 0 09824 0 9824 00070 09824 S 010009 0 SISWIL y 183 MICROMASTER 430 6SE6400 5AF00 0BPO Parameter List Issue 03 02 OZA 00 100 ul Buas s1ojeJeduloo suapiniq sad ny sajoe qns sieppy syoo g 99 4 MICROMASTER 430 6SE6400 5AF00 0BPO Function Diagrams TT p EI Ce H amo Pn 89zd Be 16120824 008 d Zx Zx n0 9887 06824 TT Ge 68829 12112082 008Zd ovizogzd ooezd ul Buas ejedujo pJOM L SISPING Z SES EI ux 91824 2824 1182 6 82 698cd 18 20824 00824 19 20824 00824 blzogzd 008Zd 1 sJeudniniw Z pJ0M sinduj z ui sjejyoeaqns 2 POM L s ndul 2 uim sjeppy Z Parameter List 184 Function Diagrams Issue 03 02 oer YALSVNIOXOIN uonouny uoneornuep 40101 OCA c00c1070 psA M HM AQ 000G mano did Y 09 92014 ZH dies 301 09 JO JUOD JOJOJA pue jJeuueuo julodjes 9224 eo1nos WI dld l siz 0 0922 0 69224 qulodyes 014 10 0 0 2 S 0ld jurodyes ppy
54. Group SETPOINT Active first confirm QuickComm No Max 1 Inhibits reverse setpoint selection Settings 0 Reverse direction is allowed 1 Reverse direction inhibited Dependency Motor potentiometer P1040 must be chosen as main setpoint or additional setpoint using P1000 Note It is possible to change motor direction using the motor potentiometer setpoint increase decrease frequency either by using digital inputs or BOP AOP keypad up down Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 69 Parameters Issue 03 02 P1035131 Bl Enable MOP UP command Min 0 0 Level CStat CT Datatype U32 Unit Def 19 13 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source for motor potentiometer setpoint increase frequency 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 19 D MOP up via BOP Index P1035 0 1st Command data set CDS P1035 1 2nd Command data set CDS
55. Issue 03 02 P0848131 BI 1 OFF3 Min 0 0 Level CStat CT Datatype U32 Unit Def 1 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines first source of OFF3 when P0719 0 BICO The first three digits describe the parameter number of the command source and the last digit denotes the bit setting for that parameter 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 19 0 ON OFF1 via BOP Index PO0848 0 1st Command data set CDS P0848 1 2nd Command data set CDS P0848 2 3rd Command data set CDS Dependency Active only when P0719 0 remote selection of command setpoint source If one of the digital inputs is selected for OFF3 the inverter will not run unless the digital input is active Note OFF3 means fast ramp down to 0 OFF3 is low active i e 0 Ramp down 1 Operating condition P0849131 Bl 2 OFF3 Min 0 0 Level CStat CT Datatype U32 Unit Def 1 0 3 P Group COMMANDS Active first confirm QuickComm No Max
56. List MICROMASTER 430 6SE6400 5AF00 0BPO 25 Parameters Issue 03 02 P0310 3 Rated motor frequency Min 12 00 Level CStat C Datatype Float Unit Hz Def 50 00 1 P Group MOTOR Active first confirm QuickComm Yes Max 650 00 Index Nominal motor frequency Hz from rating plate P0310 0 1st Drive data set DDS P0310 1 2nd Drive data set DDS P0310 2 3rd Drive data set DDS Dependency Details Changeable only when P0010 1 quick commissioning Pole pair number recalculated automatically if parameter is changed See diagram in P0304 rating plate P0311 3 Rated motor speed Min 0 Level CStat C Datatype U16 Unit 1 min Def 0 1 P Group MOTOR Active first confirm QuickComm Yes Max 40000 Index Nominal motor speed rpm from rating plate P0311 0 1st Drive data set DDS P0311 1 2nd Drive data set DDS P0311 2 3rd Drive data set DDS Dependency Details Changeable only when P0010 7 1 quick commissioning Setting 0 causes internal calculation of value Required for vector control and V f control with speed controller Slip compensation in V f control requires rated motor speed for correct operation Pole pair number recalculated automatically if parameter is changed See diagram in P0304 rating plate r0313 3 Motor pole pairs Min Level Datatype U16 Unit Def 3 P Group MOTOR Max Value Index Displays numb
57. MICROMASTER 430 6SE6400 5AF00 0BPO 199 Faults and Alarms Issue 03 02 Parameter List MICROMASTER 430 200 6SE6400 5AF00 0BPO Suggestions and or Corrections To Siemens AG Automation amp Drives Group SD VM 4 P O Box 3269 D 91050 Erlangen Federal Republic of Germany Suggestions for technical documentation From Name Company Service Department Address Phone Fax Suggestions Corrections For Publication Manual MICROMASTER 430 Parameter List User Documentation Order number 6SE6400 5AF00 0BPO Date of Issue 03 02 Should you come across any printing errors when reading this publication please notify us on this sheet Suggestions for improvement are also welcome Siemens AG Automation and Drives Group A amp D Standard Drives SD Division Postfach 3269 D 91050 Erlangen Federal Republic of Germany Siemens Aktiengesellschaft Siemens AG 2001 Subject to change without prior notice Order No 6SE6400 5AF00 OBPO Date 03 02 Excellence in Automation amp Drives Siemens
58. OO 20 CO CO 0 0 00 CO NIN IN INI CNE ONE ONE AN ONE CNE CN ONE CNL CN IN ONE ONE CNE IN ONE amp R n In amp amp In amp in in a a a R n IR amp in R a a a a a jajajajaja Example P2801 3 2 P2801 4 2 P2802 3 3 P2802 4 2 FFBs will be calculated in following order P2802 3 P2801 3 P2801 4 P2802 4 Settings 0 Not Active 1 Level 1 2 Level 2 3 Level 3 Index P2801 0 Enable AND 1 P2801 1 Enable AND 2 P2801 2 Enable AND 3 P2801 3 Enable OR 1 P2801 4 Enable OR2 P2801 5 Enable OR 3 P2801 6 Enable XOR 1 P2801 7 Enable XOR 2 P2801 8 Enable XOR 3 P2801 9 Enable NOT 1 P2801 10 Enable NOT 2 P2801 11 Enable NOT 3 P2801 12 Enable D FF 1 P2801 13 Enable D FF 2 P2801 14 Enable RS FF 1 P2801 15 Enable RS FF 2 P2801 16 Enable RS FF 3 Dependency Set P2800 to 1 to enable function blocks All active function blocks will be calculated in every 132 ms Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters Level P28021141 Activate FFBs Min 0 CStat CUT Datatype U16 Unit Def 0 P Group TECH Active first confirm QuickComm No Max 3 Free function blocks FFB are enabled in two steps 1 Parameter P2800 enables all free function blocks normally P2800 1 2 Parameters P2801 and P2802 re
59. P0762 0 Analog input 1 ADC 1 P0762 1 Analog input 2 ADC 2 Note Expert users can choose the desired reaction to F0080 default is OFF2 r0770 Number of DACs Min Level Datatype U16 Unit Def 3 P Group TERMINAL Max Displays number of analog outputs available P0771121 Cl DAC Min 0 0 Level CStat CUT Datatype U32 Unit Def 21 0 2 P Group TERMINAL Active first confirm QuickComm No Max 4000 0 Defines function of the 0 20 mA analog output 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 DC link voltage scaled to P2001 27 CO Act output current scaled to P2002 Index P0771 0 Analog output 1 DAC 1 P0771 1 Analog output 2 DAC 2 Parameter List MICROMASTER 430 48 6SE6400 5AF00 0BPO Issue 03 02 Parameters P0773121 Smooth time DAC Min 0 Level CStat CUT Datatype U16 Unit ms Def 2 3 P Group TERMINAL Active first confirm QuickComm No Max 1000 Defines smoothing time ms for analog output signal This parameter enables smoothing for DAC input using a PT1 filter ndex P0773 0 Analog output 1 DAC 1 P0773 1 Analog output 2 DAC 2 Dependency P0773 0 Deactivates filter r0774 2 Act DAC value V or mA Min Level Datatype Float Unit Def 3 P Group TERMINAL Max Shows va
60. P2850 P2851 3 Pulse Generator P2850 Dependency P2802101 is active level for the timer P2850 Delay time of timer 1 Min 0 0 Level CStat CUT Datatype Float Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 6000 0 Defines delay time of timer 1 P2849 P2850 P2851 are the inputs of the timer outputs are P2852 P2853 Dependency P2802 0 is active level for the timer Parameter List MICROMASTER 430 162 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2851 Mode timer 1 Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group TECH Active first confirm QuickComm No Max 3 Selects mode of timer 1 P2849 P2850 P2851 are the inputs of the timer outputs are P2852 P2853 Settings 0 ON delay 1 OFF delay 2 ON OFF delay 3 Pulse generator Dependency P2802 0 is active level for the timer r2852 BO Timer 1 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays output of timer 1 P2849 P2850 P2851 are the inputs of the timer outputs are P2852 P2853 Dependency P2802 0 is active level for the timer 12853 BO Nout timer 1 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays Not output of timer 1 P2849 P2850 P2851 are the inputs of the timer outputs are P2852 P2853 Dependency P2802 0 is active level for the timer P2
61. PNP and active low NPN This is valid for all digital inputs simultaneously The following is valid by using the internal supply Value NPN Terminals 5 6 7 8 16 17 must be connected via terminal 28 O V PNP Terminals 5 6 7 8 16 17 must be connected via terminal 9 24 V Settings 0 NPN mode gt low active 1 PNP mode gt high active r0730 Number of digital outputs Min Level Datatype U16 Unit Def 3 P Group COMMANDS Max Displays number of digital outputs relays Parameter List MICROMASTER 430 40 6SE6400 5AF00 0BPO Issue 03 02 Parameters P0731131 Bi Function of digital output 1 Min 0 0 Level CStat CUT Datatype U32 Unit Def 52 3 2 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source of digital output 1 Settings 52 0 Drive ready 0 Closed 52 1 Drive ready to run 0 Closed 52 2 Drive running 0 Closed 52 3 Drive fault active 0 Closed 524 OFF2 active 1 Closed 52 5 OFF3 active 1 Closed 52 6 Switch on inhibit active 0 Closed 52 7 Drive warning active 0 Closed 52 8 Deviation setpoint actual value 1 Closed 52 9 PZD control Process Data Control 0 Closed 52 A Maximum frequency reached 0 Closed 52 B Warning Motor current limit 1 Closed 52 C Motor holding brake MHB active 0 Closed 52 D Motor overload 1 Closed 52 E Motor running direction right 0 Closed 52 F Inverter overload 1 Closed 53 0 DC brake active 0 Closed 53 1 Act freq r0021 gt
62. SE dies did p xiu 09 yoeqp did 10 eouUnos uJu 1412 0 0sze juiodjes Qld 10 dd PV 0 julodjes ule 10 eos djes ule 10 0 0 71014 djes ppe qesiq 18 OSOL 99401 bey tino don 02 Jeos dyas ppy 10 jutodjes ppy D 71 61 2 96228 NMQ dOW Gld 18 61 wo e N N R amp 2 a o 2 a n m 6 221 o N N N a 1g di s q d 0 0 22222 z 8 dies did ld 0 0 2222 18 lt djas d d g 0 0 m 2 0ccc 0 1g di s d d g m 6 221 D EZO la les 44 0 0 m O ZZ0Ld Z8 les 44 0 0 m d 2120 ug q s 44 0 0 2 02014 Ng q s 44 18 d o ZE 61 296014 NMQ dOW lqeuz lg l 61 O S 0Ld an don lqeuz 18 2 og loo SSN dog aza 10 zezsy 6iur aog 408 gt 2010 08 dOV ssn 408 gt LPMHIO 08 lt gl soz ssn dOg gt dZd 09 gt ozo gl Lsoza 89 9 Zd 10 QUIFNOD 89 gt ZPAAM O 08 ao 82 gt LPMALIO OS 181 0802 80 Woy 424 09 gt ozo 8 910zd SSN dog aza 10 sevsy QUIFNOD WOOD gt ZPAHO 8 ssn WOOD gt LPAAUIO O8 8 Loc SSN WOO gt dZd 09 PMID 408 08 02 2 022 zl 12204 zlsszosl uooov ieos Dav 09 k noc Jo 393 18 en dur ug 08 02 MICROMASTER 430 6SE6400 5AF00 0BPO Parameter List 170 Function Diagrams Issue 03 02 oer H3 LS VINOSOIIN C sez lt
63. TECH Max Displays PID output in Note 12294 100 corresponds to 4000 hex P2370 3 Motor staging stop mode Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group TECH Active Immediately QuickComm No Max 1 Selects stop mode for external motors when motor staging is in use Settings 0 Normal stop 1 Sequence stop 146 Index P2370 0 1st Drive data set DDS P2370 1 2nd Drive data set DDS P2370 2 3rd Drive data set DDS Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2371131 Motor staging configuration Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group TECH Active Immediately QuickComm No Max 8 Selects configuration of external motors M1 M2 M3 used for motor staging feature Settings 0 Motor staging disabled 1 1 1 2 M3 2 M1 1X M2 1X M3 3 M1 1X M2 2X M3 4 M1 1X M2 1X M3 1X 5 M1 1X M2 1X M3 2X 6 M1 1X M2 2X M3 3X 7 M1 1X M2 1X M3 3X 8 M1 1X M2 2X M3 3X Index P2371 0 1st Drive data set DDS P2371 1 2nd Drive data set DDS P2371 2 3rd Drive data set DDS Caution1 For this kind of motor application it is mandatory to disable negative frequency setpoint Details Motor staging allows the control of up to 3 additional staged pumps or fans based on a PID control system The complete system consists of one pump controlled by the inverter wit
64. WAS 104 u02 4030IN 9uueyo julod as sx9010 uoun 3814 0087 Burnes A s uz BuiDejs 1010IA uonoejep eunjiej 198 ssed g JO U0D IPA uelis Du peysoy Buou Olly 0017 suojouny ABojouyoe jurodjas did xi 0062 eounos julodjes eusaju EJeuec EE A 9 UI NOD go ull NOD ssn ull dog dov ssn o amp n m o o e N o N N o N seoejiejul Jeuieya3 MICROMASTER 430 Parameter List 169 6SE6400 5AF00 0BPO Oer H31SVINOHOIIN Och Z0077100 LUEIDEIp uonouny ODI 00Z1 sjulodjes jeuJeu pue JeuJejx3 jo 4 2 Issue 03 02 Function Diagrams Jo uoo PPY 09 09 VPAAHID 19V 09 09 ZPMS Pv 8 LPANEIS PV Og OO 0 1 zeen e qeue sind Iq 0 1 O 6r80d 440 7 18 o O ergod 440 1 lg jjuoo xeu 903 YN zu 2 Sv80d WAV 240 7 18 O vve0d Z440 I8 0 0 O Zv80d 13 30 09 NO I8 222 O Org0d V440 NO 18 o C 0 9 qeua 933 I8 zzz O Ellld SH A M Ig 0 1 O 0LLLd d s Dou uu 1g Jejouoo did 9 ndino 1430 09 ZH des bai 101 09 dies dino JON 02 o0 00224 did 4603 18 lt zzz
65. as illustrated in the diagram below Vac A pota 505 45 V de ac P2172 A r0053 1 Bit 7 0 V P2172 j ROS dc act x Lei P2173 P2172 0 1st Drive data set DDS P2172 1 2nd Drive data set DDS P2172 2 3rd Drive data set DDS r0053 1T j Bit 8 i 0 t Note This voltage controls bits 7 and 8 in status word 3 r0053 P2173 3 Delay time DC link voltage CStat CUT Datatype U16 Unit ms P Group ALARMS Active Immediately QuickComm No Min Def Max 0 10 10000 Level Index Details Defines delay time prior to activation of threshold comparison P2173 0 1st Drive data set DDS P2173 1 2nd Drive data set DDS P2173 2 3rd Drive data set DDS See diagram in P2172 threshold DC link voltage P2174 3 Torque threshold T thresh CStat CUT Datatype Float Unit Nm P Group ALARMS Active Immediately QuickComm No Min Def Max 0 00 5 13 99999 00 Level Index Defines torque threshold for comparing actual torque P2174 0 1st Drive data set DDS P2174 1 2nd Drive data set DDS P2174 2 3rd Drive data set DDS P2176 3 Delay time for torque threshold CStat CUT Datatype U16 Unit ms P Group ALARMS Active Immediately QuickComm No Min Def Max 10 10000 Level Index Parameter List Delay time for comparing actual torque to threshold P2176
66. deviation Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 125 Parameters Issue 03 02 P2167 3 Switch off frequency f off Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 1 00 3 P Group ALARMS Active Immediately QuickComm No Max 10 00 Sets frequency threshold below which inverter switches off If the frequency falls below this threshold bit 1 in status word 2 r0053 is set Delay time T_off 10000 ms f act lt f off P2168 D 10 Brake closed on ramp down f act lt f off n act no Brake selected SvvOff freq f off 0 00 10 00 Hz P2167 D 1 00 Index P2167 0 1st Drive data set DDS P2167 1 2nd Drive data set DDS P2167 2 3rd Drive data set DDS Dependency Switched off only if OFF1 or OFF3 active P2168 3 Delay time T off Min O0 Level CStat CUT Datatype U16 Unit ms Def 10 3 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 ndex P2168 0 1st Drive data set DDS P2168 1 2nd Drive data set DDS P2168 2 3rd Drive data set DDS Dependency Active if holding brake P1215 not parameterized Details See diagram in P2167 switch off frequency r2169 CO Act filtered frequency Min Level Datatype Float Unit Hz Def 3 P Group ALARMS Max Filtered speed or fr
67. direction of MOP To re enable reverse direction set P1032 0 r1050 CO Act Output freq of the MOP Min Level Datatype Float Unit Hz Def 3 P Group SETPOINT Max Displays output frequency of motor potentiometer setpoint Hz P1070 3 Cl Main setpoint Min 0 0 Level CStat CT Datatype U32 Unit Def 755 0 3 P Group SETPOINT Active first confirm QuickComm No Max 4000 0 Defines source of main setpoint Settings 755 Analog input 1 setpoint 1024 Fixed frequency setpoint 1050 Motor potentiometer MOP setpoint Index P1070 0 1st Command data set CDS P1070 1 2nd Command data set CDS P1070 2 3rd Command data set CDS Parameter List MICROMASTER 430 70 6SE6400 5AF00 0BPO Issue 03 02 Parameters P1071 3 Cl Main setpoint scaling Min 0 0 Level CStat CT Datatype U32 Unit Def 1 0 3 P Group SETPOINT Active first confirm QuickComm No Max 4000 0 Defines source of the main setpoint scaling Settings 755 Analog input 1 setpoint 1024 Fixed frequency setpoint 1050 Motor potentiometer MOP setpoint Index P1071 0 1st Command data set CDS P1071 1 2nd Command data set CDS P1071 2 3rd Command data set CDS P1074 3 Bl Disable additional setpoint Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Disables additional setpoint Settings 722 0 Digital
68. 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 It 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 3 CStat Commissioning status of the parameter Three states are possible Commissioning Ready to run Run This indicates when the parameter can be changed One two or all three states may be specified If all three states are specified this means that it is possible to change this parameter setting in all three inverter states dco Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 7 Parameters 10 11 12 13 Issue 03 02 P Group Indicates the functional group of the particular Note Parameter P0004 parameter filter acts as a filter 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
69. etc P1120 3 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 f max P1082 Setting the ramp up time too short can cause the inverter to trip overcurrent Index P1120 0 1st Drive data set DDS P1120 1 2nd Drive data set DDS P1120 2 3rd Drive data set DDS Note If an external frequency setpoint with set ramp rates is used e g from a PLC The best way to achieve optimum drive performance is to set ramp times in P1120 and P1121 slightly shorter than those of the PLC 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 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 75 Parameters Issue 03 02 P1121 3 Ramp down time Min 0 00 Level CStat CUT Datatype Float Unit s Def 30 00 1 P Group SETPOINT Active first confirm QuickComm Yes Max 650 00 76 Index Time taken for motor to decelerate from maximum motor frequency P1082 down to standstill when no rounding is used f Hz f max P1082 le ena al 2 P1121 0 1st Drive data set DDS P1121 1 2nd Drive data set DDS P1121 2 3rd Drive da
70. first confirm QuickComm No Max 4 Defines mode of display for r0000 drive display 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 r0020 value In run display P0005 value 3 In Ready state alternate between r0002 value and r0020 value In run display r0002 value 4 In all 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 Level CStat CUT Datatype U16 Unit Def 0 3 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 Parameter List MICROMASTER 430 12 6SE6400 5AF00 0BPO Issue 03 02 Parameters P0010 Commissioning parameter Min 0 Level CStat CT Datatype U16 Unit Def 0 1 P Group ALWAYS Active first confirm QuickComm No Max 30 Filters parameters so that only those related to a particular functional group are selected Settings 0 Ready 1 Quick commissioning 2 Inverter 29 Downloa
71. input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO Index P2222 0 1st Command data set CDS P2222 1 2nd Command data set CDS P2222 2 3rd Command data set CDS P2223131 BI Fixed PID setp select Bit 3 Min 0 0 Level CStat CT Datatype U32 Unit Def 722 33 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines command source of fixed PID setpoint selection Bit 3 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO Index P2223 0 1st Command data set CDS P2223 1 2nd Command data set CDS P2223 2 3rd Command data set CDS r2224 CO Act fixed PID setpoint Min Level Datatype Float Unit Def 3 P Group TECH Max Displays total output of PID fixed setpoint selection Note 12224 100 corresponds to 4000 hex P2225 Fixed PID setpoint mode Bit 4 Min 1 Level CStat CT Datatype U16 Unit Def 1 3 P Group TECH Active first confirm QuickComm No Max 2 Direct selection or direct selection ON Bit 4 for PID setpoint Settings 1 Direct
72. is alvvays active only in direction of setpoint Flying start is active if povver on fault OFF2 only in direction of setpoint Flying start is active if fault OFF2 only in direction of setpoint OO oh Note Useful for motors vvith high inertia loads Settings 1 to 3 search in both directions Settings 4 to 6 search only in direction of setpoint Notice Flying start must be used in cases vvhere the motor may still be turning e g after a short mains break or can be driven by the load Othervvise overcurrent trips vvill occur Parameter List MICROMASTER 430 80 6SE6400 5AF00 0BPO Issue 03 02 Parameters P1202131 Motor current Flying start Min 10 Level CStat CUT Datatype U16 Unit Def 100 3 P Group FUNC Active first confirm QuickComm No Max 200 Defines search current used for flying start Value is in based on rated motor current P0305 Index P1202 0 1st Drive data set DDS P1202 1 2nd Drive data set DDS P1202 2 3rd Drive data set DDS Note Reducing the search current may improve performance for flying start if the inertia of the system is not very high P1203 3 Search rate Flying start Min 10 Level CStat CUT Datatype U16 Unit Def 100 3 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 defin
73. of D FlipFlop 1 inputs are defined in P2834 0 P2834111 P2834 2 P2834 3 Dependency P2801 12 is active level for the D FlipFlop P2837 4 Bl D FF2 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2837 0 P2837 1 P2837 2 P2837 3 define inputs of D FlipFlop 2 outputs are P2838 2839 Index P2837 0 Binector input Set P2837 1 Binector input D input P2837 2 Binector input Store pulse P2837 3 Binector input Reset Dependency P2801 13 is active level for the D FlipFlop r2838 BO Q D FF 2 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays output of D FlipFlop 2 inputs are defined in P2837 0 P2837 1 P2837 2 P2837 3 Dependency P2801 13 is active level for the D FlipFlop Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 159 Parameters Issue 03 02 r2839 BO NOT Q D FF 2 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays Not output of D FlipFlop 2 inputs are defined in P2837 0 P2837111 P2837 2 P2837 3 Dependency P2801 13 is active level for the D FlipFlop P2840 2 Bl RS FF 1 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2840 0 P2840 1 define inputs of RS FlipFlop 1 outputs are P2841 P2842 P2800 P2801 14 SET Q P2840
74. only see threshold above This will happen on OFF1 OFF3 and any regenerative condition 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 brake 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 P1240 3 Configuration of Vdc controller Min 0 Level CStat CT Datatype U16 Unit Def 1 3 P Group FUNC Active Immediately QuickComm No Max 1 Enables disables Vdc controller The Vdc controller dynamically controls the DC link voltage to prevent overvoltage trips on high inertia systems Settings 0 Vdc controller disabled 1 Vdc max controller enabled Index P1240 0 1st Drive data set DDS P1240 1 2nd Drive data set DDS P1240 2 3rd Drive data set DDS Note Vdc max automatically increases ramp down times to keep the DC link voltage r0026 within limits P2172 r1242 CO Switch on level of Vdc max Min Level Datatype Float Unit V Def 3 P Group FUNC Max Displays svvitch on level of Vdc max controller The formula is only valid if auto detection is not activated P1254 0 Following equation is only valid if P1254 0 11242 1 15 42
75. presents an overview of control parameters V f that can be modify in relationship to P1300 dependencies Parameter List MICROMASTER 430 92 6SE6400 5AF00 0BPO Issue 03 02 Parameters 112 516119 P1300131 Control mode 2 xixix x x x P1310 3 Continuous boost 2 x x x x x x P1311 3 Acceleration boost 2 x x x x x x x x x x x x P1320 3 rogrammable V f freq coord 1 P Programmable V f volt coord 1 Programmable V f freq coord 2 Programmable V f volt coord 2 P 3 P 3 C P1324 3 rogrammable V f freq coord P1325 3 rogrammable V f volt coord P1330 3 I Voltage setpoint P1333 3 Start frequency for FCC P1335 3 Slip compensation P1336 3 Slip limit P1338 3 Resonance damping gain V f x lt xx ix gt lt gt lt gt lt gt x lt gt lt gt lt gt lt x x xixixixix gt lt lt lt lt bx x x x x ix lx gt lt gt x lt x Xx r x bx ix x x P1341131 Imax controller integral time P1345 3 Imax controller prop gain P1346 3 Imax controller integral time P1350 3 Voltage soft start x x lt x x bx ix bx x x x bx ix bx x x x P1310 3 Continuous boost Min 0 0 Level CStat CUT Datatype Float Unit Def 50 0 3 P Group CONTROL Active Immediately QuickComm No Max 250 0 A
76. r0948 2 Recent fault trip fault time month year r0948 3 Recent fault trip 1 fault time seconds minutes r0948 4 Recent fault trip 1 fault time hours days r0948 5 Recent fault trip 1 fault time month year r0948 6 Recent fault trip 2 fault time seconds minutes r0948 7 Recent fault trip 2 fault time hours days r0948 8 Recent fault trip 2 fault time month year r0948 9 Recent fault trip 3 fault time seconds minutes r0948 10 Recent fault trip 3 fault time hours days r0948 11 Recent fault trip 3 fault time month year Note P2115 can be updated via AOP Starter DriveMonitor etc Parameter List MICROMASTER 430 58 6SE6400 5AF00 0BPO Issue 03 02 Parameters r0949181 Fault value Min Level Datatype U16 Unit Def 3 P Group ALARMS Max Displays drive fault values t is for service purposes and indicate the type of fault reported The values are not documented They are listed in the code vvhere faults are reported ndex r0949 0 Recent fault trip fault value 1 r0949 1 Recent fault trip fault value 2 r0949 2 Recent fault trip 1 fault value 3 r0949 3 Recent fault trip 1 fault value 4 r0949 4 Recent fault trip 2 fault value 5 r0949 5 Recent fault trip 2 fault value 6 r0949 6 Recent fault trip 3 fault value 7 r0949 7 Recent fault trip 3 fault value 8 P0952 Total numb
77. r1050 CO Act Output freq of the MOP MOP 1 1 FF P1000 12 Additonal setpoint USS 1 Setpoint Motor BOP link channel control 1 USS 1 P1000 12_ Main setpoint COM link 62 Settings OO Go AO CB COM link ADC2 No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link USS on COM link CB on COM link Analog setpoint 2 No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link USS on COM link CB on COM link Analog setpoint 2 No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link USS on COM link CB on COM link Analog setpoint 2 No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link USS on COM link CB on COM link Analog setpoint 2 No main setpoint MOP setpoint Analog setpoint Fixed frequency USS on BOP link DEE EE E EE E EE E EE EE EE EE E EE EE MOP setpoint 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 Analog setpoint Fixed frequency 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 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue
78. 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 P1092 3 Skip frequency 2 Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 0 00 3 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 Index P1092 0 1st Drive data set DDS P1092 1 2nd Drive data set DDS P1092 2 3rd Drive data set DDS Details See P1091 skip frequency 1 P1093 3 Skip frequency 3 Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 0 00 3 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 Index P1093 0 1st Drive data set DDS P1093 1 2nd Drive data set DDS P1093 2 3rd Drive data set DDS Details See P1091 skip frequency 1 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 73 Parameters Issue 03 02 P1094 3 Skip frequency 4 Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 0 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines skip frequency 4 which avoids
79. s 22401 en durulg 08 02 Y cc401 y 2220 en duruig 09 09 C 22201 lt 622101 en duruig 09 09 TZZLO lt 2 22204 en duruig 09 09 C Ce lt 22204 en durulg 08 02 0 2220 lt 0 22201 en durulg 09 09 O ZA c00c LOD vz40d ER NIG eut sunoq q vz40d 0 euim eounoqeg vc20d ero euin eounoqegq vc20d 7 1011 eounoqeq vz40d 7 oun eounoqeq vz40d eo euin eounoqegq 1 gz20d p 750 MIO NdN dNd sindu jey amp iq SeoeJ19ju o gz1w jo 60 An vd MICROMASTER 430 Parameter List 171 6SE6400 5AF00 0BPO Issue 03 02 Function Diagrams oer d41SV NOMOTA Och 2002 L0 0 De 20 0022 oqv mdu Soreuy s998 9 u BUJ9 X3 E E RL ME dc 2210 lt 2201 en dur ulg 08 02 08003 1801 eubis Burue M lt zl seo kl 01 121 29 04 1 su 0000177 0 19 04 JO 09 0 2 99 0 sso Bis uo ejeq as siki 2 29401 vwa 2av1ov 1400071 205 oav oo 4 000 121 v6401 eos jeye OAV 070 21 89204 1941 6 66666 6 66666 1899 Odv 1 e zl 65 04 sw 0000170 07001 21 09204 Sav eum yoows 666666 6 66666 Vul gc MUOZ AOL 1898 DOV Z enjgA 001 0 z 19204 OL 121 69
80. set CDS 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 P0702 3 Function of digital input 2 Min 0 Level CStat CT Datatype U16 Unit Def 12 2 P Group COMMANDS Active first confirm QuickComm No Max 99 Selects function of digital input 2 Settings 0 Digital input disabled 1 ON OFF 1 2 ON reverse OFF1 3 OFF2 coast to standstill 4 OFF3 quick ramp down 9 Fault acknovvledge 10 reserved 11 reserved 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 25 DC brake enable 26 Enable Essential Service 27 Enable PID 28 Bypass mode command input 29 External trip 33 Disable additional freq setpoint 99 Enable BICO parameterization Index P0702 0 1st Command data set CDS P0702 1 2nd Command data set CDS P0702 2 3rd Command data set CDS Details See P0701 function of digital input Parameter List MICROMASTER 430 34 6SE6400 5AF00 0BPO Issue 03 02 Parameters P0703131 Function of digital input 3 Min 0 Level CStat CT Datatype U16 Unit Def 9 2 P Group COMMANDS Active first confirm QuickComm No Max 99 Sel
81. side of center P2000 50 Hz P0759 8V P0760 75 P0757 2V P0758 75 P0761 0 1 V P0756 0 or 1 P0761 gt 0 P0758 lt 0 lt P0760 10 V or 20 mA 4000H P0759 20 mA P0761 P0758 ASPmin ADC value 10 to 10 V 50 to 50 Hz Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 47 Parameters Issue 03 02 The below example produces a 10 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 P0756 4 P0761 gt 0 P0758 lt 0 P0760 100 y T ASPmax 10V d P0758 ASPmin Index P0761 0 Analog input 1 ADC 1 P0761 1 Analog input 2 ADC 2 Note P0761 x 0 No deadband active Notice Deadband starts from 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 center zero setup There is no hysteresis at the end of the deadband P0762 2 Delay for loss of signal action Min 0 Level CStat CUT Datatype U16 Unit ms Def 10 3 P Group TERMINAL Active Immediately QuickComm No Max 10000 Defines time delay between loss of analog setpoint and appearance of fault code F0080 Index
82. switch setting P0927 Parameter changeable via Min 0 Level CStat CUT Datatype U16 Unit Def 15 3 P Group COMM Active first confirm QuickComm No Max 15 Specifies the interfaces which can be used to change parameters Example b nn bits 1 2 and 3 set in the default setting means that parameters can be changed via any interface b r n bits O 1 and 3 set would specify that parameters can be changed via PROFIBUS CB BOP and USS on COM link RS485 USS but not via USS on BOP link RS232 Bitfields Bit00 PROFIBUS CB 0 NO 1 YES BitOl BOP 0 NO 1 YES Bit02 USS on BOP link 0 NO 1 YES Bit03 USS on COM link 0 NO 1 YES Details The seven segment display is explained in the Introduction to MICROMASTER System Parameters in this handbook Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 57 Parameters Issue 03 02 r0947181 Last fault code Min Level Datatype U16 Unit Def 3 P Group ALARMS Max Displays fault history according to the diagram belovv 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 This moves the value in the 2 indices down to the next pair of indices where they are stored Indices 0 amp 1 contain the active faults When faults are acknowledged indices 0 amp 1 are reset to 0 r0947 0 F Active r0947 1
83. to fixed settings entered as a precentage A value of 100 correspondes 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 1 Reference frequency Hz P2001 1 Reference voltage V P2002 Reference current A P2003 Reference torque Nm P2004 1 Reference power pu f P0100 P2001131 Reference voltage Min 10 Level CStat CT Datatype U16 Unit V Def 1000 3 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 Index P2001 0 1st Drive data set DDS P2001 1 2nd Drive data set DDS P2001 2 3rd Drive data set DDS P2002 3 Reference current Min 0 10 Level CStat CT Datatype Float Unit A Def 0 10 3 P Group COMM Active first confirm QuickComm No Max 10000 00 Full scale output current used over serial link corresponds to 4000H Index P2002 0 1st Drive data set DDS P2002 1 2nd Drive data set DDS P2002 2 3rd Drive data set DDS P2003 3 Reference torque Min 0 10 Level CStat CT Datatype Float Unit Nm Def 0 75 3 P Group COMM Active first confirm QuickComm No Max 99999 00 Full scale reference torque used over the serial link corresponds to 4000H Index P2003 0 1st Drive data set DDS P2003 1 2nd Drive data set DDS P2003 2 3rd Dri
84. 0 1st Drive data set DDS P2176 1 2nd Drive data set DDS P2176 2 3rd Drive data set DDS MICROMASTER 430 6SE6400 5AF00 0BPO 127 Parameters Issue 03 02 P2177 3 Delay time for motor is blocked Min 0 Level CStat CUT Datatype U16 Unit ms Def 10 3 P Group ALARMS Active Immediately QuickComm No Max 10000 Delay time for identification that motor is blocked Index P2177 0 1st Drive data set DDS P2177 1 2nd Drive data set DDS P2177 2 3rd Drive data set DDS P2178 3 Delay time for motor pulled out CStat CUT Datatype U16 Unit ms Def 10 3 P Group ALARMS Active Immediately QuickComm No Max 10000 Delay time for identification that motor is pulled out Index P2178 0 1st Drive data set DDS P2178 1 2nd Drive data set DDS P2178 2 3rd Drive data set DDS P2179 Current limit for no load ident Min 0 0 Level CStat CUT Datatype Float Unit Def 3 0 3 P Group ALARMS Active Immediately QuickComm No Max 10 0 Threshold current for A0922 load missing in relative to P0305 rated motor current as illustrated in the diagram below Load missing act modulus Cur lim no load ID 0 0 10 0 96 pulse enable P2179 3 0 Load missing Delay T no load ID 0 10000 ms P2180 2000 Vact modulus from modulator 0 Note It may be that the motor is not connected load missing
85. 0 P1082 is dependent on the derating characteristic as followed Max frequency P1082 pulse x P1800 fu Hz A fmax P1082 x 15 15 A a SY 5 wed S area AN A vi NAA lone Ve CC B frequency 10 16 fouse KHz 1800 When P1300 20 control mode VF or FCC modes then max output frequency is limited to smallest of 650 Hz or maximum pulse frequency 15 The value is displayed in r0209 maximum frequency Note The value set here is valid for both clockvvise and anticlockvvise rotation The maximum output frequency of inverter can be exceeded if one of the following is active Slip compensation f max fslipcomp max or Flying restart f max fslipnom Notice Maximum motor speed is subject to mechanical limitations Parameter List MICROMASTER 430 72 6SE6400 5AF00 0BPO Issue 03 02 Parameters P1091131 Skip frequency 1 Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 0 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines skip frequency 1 which avoids effects of mechanical resonance and suppresses frequencies within P1101 skip frequency bandwidth f out P1101 Skip frequency bandwidth P1091 fin Skip frequency Index P1091 0 1st Drive data set DDS P1091 1 2nd Drive data set DDS P1091 2 3rd Drive data set DDS Notice Stationary operation is not possible within the suppressed frequency
86. 0 00 650 00 Hz P2157 D 30 00 l f filtered lt f 2 See drawing in P2153 5 Threshold freq f 2 BitO 0 00 650 00 Hz P2157 D 30 00 Delay time off 2 0 10000 ms P2158 D 10 f filtered gt f 2 Hyst freq f hys 0 00 10 00 Hz P2150 D 3 00 Threshold freq f 3 0 00 650 00 Hz P2159 D 30 00 Delay time of f 2 Hyst freq f hys O 10000 ms 0 00 10 00 Hz P2158 D 10 P2150 D 3 00 f filtered f 3 Threshold freq f_3 0 00 650 00 HZ er time of f 3 O 10000 ms P2160 D 10 f filtered gt f 3 0 00 10 00 Hz P2150 D 3 00 Delay time of f 3 Hyst freq f hys 0 10000 ms 0 00 10 00 Hz P2160 D 10 P2150 D 3 00 Index P2157 0 1st Drive data set DDS P2157 1 2nd Drive data set DDS P2157 2 3rd Drive data set DDS Details See also diagram in P2153 time constant speed filter P2158 3 Delay time of threshold freq f 2 Min O0 Level CStat CUT Datatype U16 Unit ms Def 10 3 P Group ALARMS Active Immediately QuickComm No Max 10000 When comparing speed or frequency to threshold f 2 P2157 This is the time delay before status bits are cleared Index P2158 0 1st Drive data set DDS P2158 1 2nd Drive data set DDS P2158 2 3rd Drive data set DDS Details See diagram in P2157 threshold frequency f 2 P2159 3 Threshold frequ
87. 0 00 Level CStat CUT Datatype Float Unit s Def 5 00 2 P Group SETPOINT Active first confirm QuickComm Yes Max 650 00 Defines ramp down time from maximum frequency to standstill for OFF3 command Index P1135 0 1st Drive data set DDS P1135 1 2nd Drive data set DDS P1135 2 3rd Drive data set DDS Note This time may be exceeded if the VDC_max level is reached P1140 3 Bl RFG enable Min 0 0 Level CStat CT Datatype U32 Unit Def 1 0 3 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 than the RFG output will be set immediately to 0 Index P1140 0 1st Command data set CDS P1140 1 2nd Command data set CDS P1140 2 3rd Command data set CDS P1141131 Bl RFG start Min 0 0 Level CStat CT Datatype U32 Unit Def 1 0 3 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 zero than the RFG output is held at it present value Index P1141 0 1st Command data set CDS P1141 1 2nd Command data set CDS P1141 2 3rd Command data set CDS P1142 3 Bl RFG enable setpoint Min 0 0 Level CStat CT Datatype U32 Unit Def 1 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0
88. 0 NO 1 YES Bit01 Invert digital output 2 0 NO 1 YES Bit02 Invert digital output 3 0 NO 1 YE r0750 Number of ADCs Min Level Datatype U16 Unit Def 3 P Group TERMINAL Max Displays number of analog inputs available Parameter List MICROMASTER 430 42 6SE6400 5AF00 0BPO Issue 03 02 Parameters r0752 2 Act input of ADC V or mA Min Level Datatype Float Unit Def 2 P Group TERMINAL Max Displays smoothed analog input value in volts before the characteristic block ndex r0752 0 Analog input 1 ADC 1 r0752 1 Analog input 2 ADC 2 P0753 2 Smooth time ADC Min 0 Level CStat CUT Datatype U16 Unit ms Def 3 3 P Group TERMINAL Active first confirm QuickComm No Max 10000 Defines filter time PT1 filter in ms for analog input Index P0753 0 Analog input 1 ADC 1 P0753 1 Analog input 2 ADC 2 Note Increasing this time smooth reduces jitter but slows down response to the analog input P0753 0 No filtering r0754 2 Act ADC value after scaling Min Level Datatype Float Unit Def 2 P Group TERMINAL Max Shows smoothed value of analog input in 96 after scaling block Index r0754 0 Analog input 1 ADC 1 r0754 1 Analog input 2 ADC 2 Dependency P0757 to P0760 define range ADC scaling r0755 2 CO Act ADC after scal 4000h Min Level Datatype 116 Unit Def 3 P Group TERMINAL Max Displays ana
89. 0100 operation for Europe North America r0207 Rated inverter current Min Level Datatype Float Unit A Def 3 P Group INVERTER Max Displays maximum continuous output current of inverter r0208 Rated inverter voltage Min Level Datatype U32 Unit V Def 3 P Group INVERTER Max Displays nominal AC supply voltage of inverter Value r0208 230 200 240 V 10 96 r0208 400 380 480 V 10 96 r0208 575 500 600 V 10 r0209 Maximum inverter current Min Level Datatype Float Unit A Def 3 P Group INVERTER Max Displays maximum output current of inverter P0210 Supply voltage Min 0 Level CStat CT Datatype U16 Unit V Def 230 3 P Group INVERTER Active Immediately QuickComm No Max 1000 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 Dependency Set P1254 Auto detect Vdc switch on levels 0 Cut in levels for Vdc controller and compound braking are then derived directly from P0210 supply voltage Vdc max switch on level 1 15 2 P0210 Compound braking switch on level 1 13 42 P0210 Note If 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
90. 012 Key for user defined parameter Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group FUNC Active first confirm QuickComm No Max 65535 Details Parameter List 6SE6400 5AF00 0BPO See parameter P0013 user defined parameter MICROMASTER 430 13 Parameters Issue 03 02 P0013 20 User defined parameter Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 Index P Group FUNC Active first confirm QuickComm No Max 65535 Defines a limited set of parameters to which the end user will have access Instructions for use Step 1 Set P0003 3 expert user Step 2 Go to P0013 indices 0 to 16 user list Step 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 Step 4 Set P0003 0 to activate the user defined parameter POO13 0 1stuser parameter P0013 1 2nd user parameter P0013 2 3rd user parameter P0013131 4th user parameter P0013141 5th user parameter P0013 5 6th user parameter P0013 6 7th user parameter P0013 7 8th user parameter POO13 8 9th user parameter P0013191 10th user parameter P0013 10 11th user parameter P0013 11 12th user parameter P0013 12 13th user parameter P0013 13 14th user parameter P0013
91. 0BPO 191 Faults and Alarms Issue 03 02 Fault Possible Causes Diagnose amp Remedy Reac tion Motor Over 1 Load duty cycle must be correct Temperature 2 Motor nominal overtemperatures P0626 P0628 must be correct 3 Motor temperature vvarning level P0604 must match F0012 VVire breakage of inverter Off1 Inverter temp temperature heatsink sensor signal lost F0015 Open or short circuit of motor Off1 Motor temperature sensor If signal loss is detected temperature monitoring t t GEM svvitches over to monitoring with the ig motor thermal model F0020 Fault occurs if one of the three input check the input wiring of the mains phases ot Mains Phase Phases are missed and the pulses Missing are enabled and drive is loaded F0021 Fault occurs if the sum of the phase ot Earth fault currents is higher than 5 of the nominal inverter current NOTE This fault only occurs on inverters that have 3 current sensors Framesizes D to F F0022 That hardware fault P0947 22 and Check the I O board It has to be fully pressed home Off1 Powerstack P0949 1 caused by the following fault events 1 DC link overcurrent short circuit of IGBT 2 2 Short circuit of chopper 3 3 Earth fault 4 4 I O board is not poperly inserted Framesizes A to C 1 2 3 4 gt Framesizes D to E 1 2 4 gt FramesizeF 2 4 gt Since all these faults are assigned to one signal
92. 1 x2 Result 100 gt indexo x1 x2 E rom d t rg gt 200 Result 200 x1 x2 100 lt 200 gt Result 200 Index P2877101 Connector input 0 CI 0 P2877 1 Connector input 1 CI 1 Dependency P2802 8 is active level for the Multiplier r2878 CO MUL 1 Min Level Datatype Float Unit Def 3 P Group TECH Max Result of Multiplier 1 Dependency P2802 8 is active level for the Multiplier P2879 2 Cl MUL 2 Min 0 0 Level CStat CUT Datatype U32 Unit Def 755 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 Define inputs of Multiplier 2 result is in P2880 Index P2879 0 Connector input 0 CI 0 P2879 1 Connector input 1 CI 1 Dependency P2802 9 is active level for the Multiplier r2880 CO MUL 2 Min Level Datatype Float Unit Def 3 P Group TECH Max Result of Multiplier 2 Dependency P2802 9 is active level for the Multiplier Parameter List 166 MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2881 2 Cl DIV 1 Min 0 0 Level CStat CUT Datatype U32 Unit Def 755 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 Define inputs of Divider 1 result is in P2882 P2800 P2802 10 x1 100 x2 gt 200 gt Result 200 Result P2881 S e s x1 10076 If r2882 x2 1 10096 9 12100
93. 1023 2 3rd Command data set CDS Dependency Accessible only if P0701 P0706 99 function of digital inputs BICO Details See P1020 fixed frequency selection Bit 0 for most common settings r1024 CO Act fixed frequency Min Level Datatype Float Unit Hz Def 3 P Group SETPOINT Max Displays sum total of selected fixed frequencies P1025 Fixed frequency mode Bit 4 Min 1 Level CStat CT Datatype U16 Unit Def 1 3 P Group SETPOINT Active first confirm QuickComm No Max 2 Direct selection or direct selection ON for bit 4 Settings 1 Direct selection 2 Direct selection ON command Details See parameter P1001 for description of how to use fixed frequencies Parameter List MICROMASTER 430 68 6SE6400 5AF00 0BP0 Issue 03 02 Parameters P1026 3 Bl Fixed freq selection Bit 4 Min 0 0 Level CStat CT Datatype U32 Unit Def 722 4 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines origin of fixed frequency selection Index P1026 0 1st Command data set CDS P1026 1 2nd Command data set CDS P1026 2 3rd Command data set CDS Dependency Accessible only if P0701 P0706 99 function of digital inputs BICO Details See P1020 fixed frequency selection Bit 0 for most common settings P1027 Fixed frequency mode Bit 5 Min 1 Level CStat CT Datatype U16 Unit Def 1 3 P Group SETPOINT
94. 13 Motor potentiometer MOP up 0 NO 1 YES Bit14 Motor potentiometer MOP down 0 NO 1 YES Bit15 CDS Bit 0 Local Remote 0 NO 1 YES Details See r2033 control word 2 from BOP link Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 113 Parameters Issue 03 02 12037 BO CtrIWrd2 from COM link USS Min Level Datatype U16 Unit Def 3 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 1 YES Bit01 Fixed frequency Bit 1 0 NO 1 YES Bit02 Fixed frequency Bit 2 0 NO 1 YES Bit03 Fixed frequency Bit 3 0 NO 1 YES Bit04 Drive data set DDS Bit 0 0 NO 1 YES Bit05 Drive data set DDS Bit 1 0 NO 1 YES Bit08 PID enabled 0 NO 1 YES Bit09 DC brake enabled 0 NO 1 YES Bit11 Droop 0 NO 1 YES Bit12 Torque control 0 NO 1 YES Bit13 External fault 1 0 YES 1 NO Bit15 Command data set CDS Bit 1 0 NO 1 YES Details See r2033 control word 2 from BOP link P2040 CB telegram off time Min 0 Level CStat CT Datatype U16 Unit ms Def 20 3 P Group COMM Active Immediately QuickComm No Max 65535 Defines time after which a fault will be generated F0070 if no telegram is received via the link Dependency Setting 0 watchdog disabled P2041 5 CB parameter Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group COMM Active first confirm QuickComm No Max 65535 Configures a communi
95. 132 ms MICROMASTER 430 6SE6400 5AF00 0BPO 153 Parameters Issue 03 02 P28011171 Activate FFBs 154 Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group TECH Active first confirm QuickComm No Max 3 Free function blocks FFB are enabled in two steps 1 Parameter P2800 enables all free function blocks normally P2800 1 2 P2801 x gt oder P2802 x gt Parameters P2801 and P2802 respectively enable each free function block individually In addition Parameters P2801 and P2802 determine the chronological order of each function block The following table shows that the priority increases from left to right and from bottom to top Level 3 Level 2 Level 1 Not active 0 COIN Ay ara a EO ie ew omNT oN le aqa 1 1 1 3 100 lala 99090lLL L umt mk IE ox Joe Joe ala zzil22525525anSE5EEEoouW tt toooooomxrmrJmuzzlz OOO AIS xl o EE EEE mizi qiq zizizix x iXIO OO x PS E cod E y n o IO Fo IEN e E l m iz oks 2 M m s iii o M l s Ni NINININININININININININI NIN e fe fe le le le le le le le len le len Le Les DIO 19 10 90 iss is 190 19 iss Ass 1O O O1O1O O O O O O O O O O O Ass ss ts CO 100 00 CO 100 160 OO CO CO 00 160 OO OO 00 CO 100 160 OO CO 00 CO
96. 15 CDS Bit 0 Local Remote 0 NO 1 YES Parameter List MICROMASTER 430 112 6SE6400 5AF00 0BPO Issue 03 02 Parameters r2033 BO CtrIWrd2 from BOP link USS Min Level Datatype U16 Unit Def 3 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 ag YES Bitol Fixed frequency Bit 1 0 NO 1 YES Bit02 Fixed frequency Bit 2 0 NO YES Bit03 Fixed frequency Bit 3 0 NO YES Bit04 Drive data set DDS Bit 0 0 NO Il YES Bit05 Drive data set DDS Bit 1 0 NO YES Bit08 PID enabled 0 NO YES Bit09 DC brake enabled 0 NO 3H YES Bit11 Droop 0 NO 1 YES Bit12 Torque control 0 NO 1 YES Bit13 External fault 1 0 YES 1 NO Bit15 Command data set CDS Bit 1 0 NO 1 YES Dependency P0700 5 USS on COM link and P0719 0 Cmd Setpoint BICO parameter r2036 BO CtrIWrd1 from COM link USS Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays control word 1 from COM link i e word 1 within USS Bitfields Bit00 ON OFF1 0 NO 4 YES Bit01 OFF2 Electrical stop 0 YES Ll NO Bit02 OFF3 Fast stop 0 YES 1 NO Bit03 Pulse enable 0 NO 1 YES Bit04 RFG enable 0 NO YES Bit05 RFG start 0 NO YES Bit06 Setpoint enable 0 NO YES Bit07 Fault acknovledge 0 NO d YES Bit08 UOG right 0 NO RH YES Bit09 JOG left 0 NO YES Bit10 Control from PLC 0 NO YES Bit11 Reverse setpoint inversion 0 NO 1 YES Bit
97. 2 Parameters P1234131 DC braking start frequeney Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 650 00 3 P Group FUNC Active Immediately QuickComm No Max 650 00 Sets start frequency for DC braking When an OFF1 or OFF3 command is received by the drive the output frequency starts to ramp to 0 Hz When the output frequency reaches the value set in start frequency of DC braking P1234 the drive injects a DC braking current P1232 for the time duration set in P1233 Index P1234 0 1st Drive data set DDS P1234 1 2nd Drive data set DDS P1234 2 3rd Drive data set DDS Details See P1232 DC braking current and P1233 duration of DC braking P1236 3 Compound braking current Min 0 Level CStat CUT Datatype U16 Unit 96 Det 0 3 P Group FUNC Active Immediately QuickComm No Max 250 Defines DC level superimposed on AC waveform after OFF1 OFF3 command The value is entered in 96 relative to rated motor current P0305 If P1254 2 0 Compound braking switch on level 21 13 42 Vmains 1 13 42 P0210 otherwise Compound braking switch on level 0 98 1242 Value P1236 20 Compound braking disabled P1236 1 250 Level of DC braking current defined as a 96 of rated motor current P0305 Index P1236 0 1st Drive data set DDS P1236 1 2nd Drive data set DDS P1236 2 3rd Drive data set DDS Dependency Compound braking depends on the DC link voltage
98. 204 0 21 29204 0 z 99404 0270 027 02 02 7 02 vo pim pueqpe p OAY 105 0 2 anjen eos DOV xenjen J0 adh Jejodiun Jejodiq Bulyoyims indui Boyeuy 0 2 96204 OQV ad L MICROMASTER 430 6SE6400 5AF00 0BPO Parameter List 172 Function Diagrams Issue 03 02 0er YILSYWONOIN oza 200Z71070 ova mdino Bojeuy ipuogounj pswoveo0ez SES ES SECH S oa 116 e ECH 1 e VUOZIAO Ly mm 2 i L ll 12204 3 indio Bojeuy Z 8220d 0270 2 121 6 0 leos OVQ 1 anea sw 0001770 Z 7220 oz 121 08404 OVC eum uloous vuV A TEA Ov qv 0270 leos 2 enieA vu 0z 10 A OL 2 y 0007 07001 121 62204 0 0 21 22204 066666 0766666 1961 0766666 0 66666 1898 9VQ ZX IEA 1898 OVA LN anjen 0 21 1804 0 121 94204 02770 170 20 ova yo ad L MICROMASTER 430 Parameter List 173 6SE6400 5AF00 0BPO Issue 03 02 Function Diagrams oer MALSV NOMOLNA oza 2002 1006 13S 2 13938 AOL dog wo V 61004 440 2430 1440 NO V 61001 puewwod jes 13S 2 13s38 Dua 07 1 Saa am C g zoal uonoejes om puen 91704 oiny pueH Og OO Aejdsip juauBas U A S jo uonenjoy PJOM 0J UOO jueuie6pe VAOUYOE ynej uiejs s o Aen POM 0J1u09 O jueureBpe VAOUYOE ynej uiejs s o Aen
99. 211 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 Caution1 P1210 gt 2 can cause the motor to restart automatically without toggling the ON command Notice 82 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 necessary 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 bronvvout t is necessary that the ON command is wired v
100. 2153 1 2nd Drive data set DDS P2153 2 3rd Drive data set DDS Details See also diagram in P2157 threshold frequency f_2 P2155 3 Threshold frequency f_1 Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 30 00 3 P Group ALARMS Active Immediately QuickComm No Max 650 00 Sets a threshold for comparing actual speed or frequency to threshold values f_1 This threshold controls status bits 4 and 5 in status word 2 r0053 Index P2155 0 1st Drive data set DDS P2155 1 2nd Drive data set DDS P2155 2 3rd Drive data set DDS Details See diagram in P2153 time constant speed filter P2156 3 Delay time of threshold freq f_1 Min 0 Level CStat CUT Datatype U16 Unit ms Def 10 3 P Group ALARMS Active Immediately QuickComm No Max 10000 Sets delay time prior to threshold frequency f_1 comparison P2155 Index P2156 0 1st Drive data set DDS P2156 1 2nd Drive data set DDS P2156 2 3rd Drive data set DDS Details See diagram in P2153 time constant speed filter Parameter List MICROMASTER 430 122 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2157 3 Threshold frequency f 2 Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 30 00 3 P Group ALARMS Active Immediately QuickComm No Max 650 00 Threshold 2 for comparing speed or frequency to thresholds as illustrated in the diagram below f filtered lt gt f x Threshold freq f 2
101. 262 P1262 Note Flying start P1200 should be enabled in cases where the motor may still be turning after switch over from bypass mode to inverter mode r1261 BO Bypass status word Min Level Datatype U16 Unit Def 2 P Group FUNC Max Output vvord from the bypass feature that allovvs external connections to be made Bitfields Bit00 Motor supplied by inverter 0 NO 1 YES Bit01 Motor supplied by mains 0 NO 1 YES P1262 3 Bypass dead time Min 0 Level CStat CUT Datatype Float Unit s Def 1 000 2 P Group FUNC Active first confirm QuickComm No Max 20 000 P1262 is the interlock time between switching one contator OFF and the other ON Its minimum value should not be smaller than the motor demagnetisation time P0347 Index P1262 0 1st Drive data set DDS P1262 1 2nd Drive data set DDS P1262 2 3rd Drive data set DDS P1263 3 De Bypass time Min 0 Level CStat CUT Datatype Float Unit s Def 1 0 2 P Group FUNC Active first confirm QuickComm No Max 300 0 This delay timer is used as a delay for all sources of switchover from bypass to inverter control If the condition for switching from bypass is removed then this timer is reset and must run through again before bypass will occur Index P1263 0 1st Drive data set DDS P1263 1 2nd Drive data set DDS P1263 2 3rd Drive data set DDS P1264 3 Bypass time Min 0 Level CStat CUT Datatype Floa
102. 27 the length will be changed automatically P2013 3 pt P2013 SS i PKE IND PVE gt i i 1 word each 16 Bit P2013 4 P2013 PKE IND PWE PKE Parameter ID IND Sub index PWE Parameter value 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 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 22BC 0000 0005 22BC 0000 0000 0005 22BC 0000 0005 0000 MM4 gt Master 12BC 0000 0005 12BC 0000 0000 0005 12BC 0000 0005 MICROMASTER 430 6SE6400 5AF00 0BPO 107 Parameters Issue 03 02 P2014121 USS telegram off time Min 0 Level CStat CT Datatype U16 Unit ms Def
103. 430 6SE6400 5AF00 0BPO 167 Parameters Issue 03 02 P2887 2 Cl CMP 2 Min 0 0 Level CStat CUT Datatype U32 Unit Def 755 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 Defines inputs of Comparator 2 output is P2888 Index P2887 0 Connector input 0 CI 0 P2887 1 Connector input 1 CI 1 Dependency P2802 13 is active level for the Comparator r2888 BO CMP2 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays result bit of Comparator 2 Dependency P2802 13 is active level for the Comparator P2889 CO Fixed setpoint 1 in 95 Min 200 00 Level CStat CUT Datatype Float Unit 96 Def 0 00 3 P Group TECH Active first confirm QuickComm No Max 200 00 Fixed percent setting 1 Connector Setting in P2889 P2890 Range 200 200 P2890 CO Fixed setpoint 2 in Min 200 00 Level CStat CUT Datatype Float Unit Def 0 00 3 P Group TECH Active first confirm QuickComm No Max 200 00 Fixed percent setting 2 P3900 End of quick commissioning Min 0 Level CStat C Datatype U16 Unit Def 0 1 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 Settings 0 No quick commissioning 1
104. 5AF00 0BPO Issue 03 02 Parameters P2253 3 Cl PID setpoint Min 0 0 Level CStat CUT Datatype U32 Unit Def 2250 0 2 P Group TECH Active first confirm QuickComm No Max 4000 0 Defines setpoint source for PID setpoint input This parameter allows the user to select the source of the PID setpoint Normally a digital setpoint is selected either using a fixed PID setpoint or an active setpoint PID MOP ADC PID FF USS BOP link USS COM link CB COM link Motor control ADC2 Settings 755 Analog input 1 2224 Fixed PI setpoint see P2201 to P2207 2250 Active PI setpoint see P2240 Index P2253 0 1st Command data set CDS P2253 1 2nd Command data set CDS P2253 2 3rd Command data set CDS P2254 3 Cl PID trim source Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 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 Settings 755 Analog input 1 2224 Fixed PI setpoint see P2201 to P2207 2250 Active PI setpoint see P2240 Index P2254 0 1st Command data set CDS P2254 1 2nd Command data set CDS P2254 2 3rd Command data set CDS P2255 PID setpoint gain factor Min 0 00 Level CStat CUT Datatype Float Unit Def 100 00 3 P Group TECH Active Immediately QuickComm No Max 100 00 Gain fac
105. 7 Fault acknowledge 0 NO 3H YES Bit08 UOG right 0 NO YES Bit09 JOG left 0 NO YES Bit10 Control from PLC 0 NO 1 YES Bitit Reverse setpoint inversion 0 NO 1 YES Bit13 Motor potentiometer MOP up 0 NO dE YES Bit14 Motor potentiometer MOP down 0 NO 1 YES Bit15 CDS Bit 0 Local Remote 0 NO YES r0968 Status vvord 1 Min Level Datatype U16 Unit Def 3 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 AB YES Bit01 Drive ready to run 0 NO YES Bit02 Drive running 0 NO YES Bit03 Drive fault active 0 NO YES Bit04 OFF2 active 0 YES NO Bit05 OFF3 active 0 YES NO Bit06 ON inhibit active 0 NO YES Bit07 Drive varning active 0 NO 1H YES Bit08 Deviation setpoint act value 0 YES NO Bit09 PZD control 0 NO YES Bit10 Maximum frequency reached 0 NO YES Bit11 Warning Motor current limit 0 YES RB NO Bit12 Motor holding brake active 0 NO d YES Bit13 Motor overload 0 YES 1 NO Bit14 Motor runs right 0 NO 1 YES Bit15 Inverter overload 0 YES 1 NO 60 MICROMASTER 430 6SE6400 5AF00 0BPO Parameter List Issue 03 02 Parameters P0970 Factory reset Min 0 Level CStat C Datatype U16 Unit Def 0 1 P Group PAR RESET Active first confirm QuickComm No Max 1 P0970 1 resets all parameters to their default values Settings 0 Disabled 1 Parameter r
106. 77 0 Analog output 1 DAC 1 P0777 1 Analog output 2 DAC 2 Dependency Affects P2000 to P2003 referency frequency voltage current or torque depending on which setpoint is to be generated P0778 2 Value y1 of DAC scaling Min 0 Level CStat CUT Datatype Float Unit Def 0 2 P Group TERMINAL Active first confirm QuickComm No Max 20 Defines y1 of output characteristic Index P0778 0 Analog output 1 DAC 1 P0778 1 Analog output 2 DAC 2 P0779 2 Value x2 of DAC scaling Min 99999 0 Level CStat CUT Datatype Float Unit Def 100 0 2 P Group TERMINAL Active first confirm QuickComm No Max 99999 0 Defines x2 of output characteristic in 96 Index P0779 0 Analog output 1 DAC 1 P0779 1 Analog output 2 DAC 2 Dependency Affects P2000 to P2003 referency frequency voltage current or torque depending on which setpoint is to be generated P0780121 Value y2 of DAC scaling Min 0 Level CStat CUT Datatype Float Unit Def 20 2 P Group TERMINAL Active first confirm QuickComm No Max 20 Defines y2 of output characteristic Index P0780 0 Analog output 1 DAC 1 P0780 1 Analog output 2 DAC 2 Parameter List MICROMASTER 430 50 6SE6400 5AF00 0BPO Issue 03 02 Parameters P0781121 Width of DAC deadband Min 0 Level CStat CUT Datatype Float Unit Def 0 3 P Group TERMINAL Active first confirm
107. 8 x RPM max 60 P0492 3 Allowed speed difference Min 0 00 Level CStat CT Datatype Float Unit Hz Def 10 00 3 P Group ENCODER Active Immediately QuickComm No Max 100 00 Used for high speed encoder loss detection Selects the allowable difference in calculated speed signals between samples before it is considered to have lost the speed signal feedback Dependency This parameter is updated when motor start up time P0345 is changed or when a speedloop optimisation is performed P1960 1 There is a fixed delay of 40 ms before acting upon loss of encoder at high speeds Caution1 When allowed speed difference is set to 0 both the high speed and low speed encoder loss detection is disabled thus encoder loss will not be detected If encoder loss detection is disabled and encoder loss occurs then operation of the motor may become unstable P0494 3 Delay speed loss reaction Min 0 Level CStat CUT Datatype U16 Unit ms Def 10 3 P Group ENCODER Active first confirm QuickComm No Max 65000 Used for low speed encoder loss detection If the motor shaft speed is less than the value in P0492 then encoder loss is detected using a low speed encoder loss detection algorithm This parameter selects the delay between loss of encoder at low speed and reaction to the encoder loss Index P0494 0 1st Drive data set DDS P0494 1 2nd Drive data set DDS P0494 2 3rd Drive data set DDS Dependency This param
108. 85 Upper torque threshold 1 P2186 Lower torque threshold 1 Frequency P2183 Hz P2182 Threshold frequency 2 P2184 Threshold frequency 1 Threshold frequency 3 The allowed frequency torque region is defined by the shaded area When the torque falls outside the area shown a trip or warning occurs see parameter P2181 Index P2182 0 1st Drive data set DDS P2182 1 2nd Drive data set DDS P2182 2 3rd Drive data set DDS Note The torque is unlimited below P2182 and above P2184 Normally P2182 lt lower torque limit P1521 and P2184 gt upper torque limit P1520 P2183 3 Belt threshold frequency 2 Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 30 00 3 P Group ALARMS Active Immediately QuickComm No Max 650 00 Sets a threshold F2 for comparing actual torque to torque the envelope for belt failure detection Index P2183 0 1st Drive data set DDS P2183 1 2nd Drive data set DDS P2183 2 3rd Drive data set DDS Details See P2182 belt threshold frequency 1 P2184 3 Belt threshold frequency 3 Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 50 00 3 P Group ALARMS Active Immediately QuickComm No Max 650 00 Sets a threshold F3 for comparing actual torque to torque the envelope for belt failure detection Index P2184 0 1st Drive data set DDS P2184 1 2nd Drive data set DDS P2184 2 3rd Drive data set DDS Details See P2182 belt threshold frequency 1 Paramet
109. 854 BI Timer 2 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 Define input signal of timer 2 P2854 P2855 P2856 are the inputs of the timer outputs are P2857 P2858 Dependency P2802 1 is active level for the timer P2855 Delay time of timer 2 Min 0 0 Level CStat CUT Datatype Float Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 6000 0 Defines delay time of timer 2 P2854 P2855 P2856 are the inputs of the timer outputs are P2857 P2858 Dependency P2802 1 is active level for the timer P2856 Mode timer 2 Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group TECH Active first confirm QuickComm No Max 3 Selects mode of timer 2 P2854 P2855 P2856 are the inputs of the timer outputs are P2857 P2858 Settings 0 ON delay 1 OFF delay 2 ON OFF delay 3 Pulse generator Dependency P2802 1 is active level for the timer 12857 BO Timer 2 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays output of timer 2 P2854 P2855 P2856 are the inputs of the timer outputs are P2857 P2858 Dependency P2802 1 is active level for the timer 2858 BO Nout timer 2 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays Not output of timer 2 P2854 P2855 P2856 are the inputs of the timer outputs are P2857 P2858 Dependency P2802 1 is active level for the timer P2859 BI Timer 3 Min
110. 9 External trip 33 Disable additional freq setpoint 99 Enable BICO parameterization Index P0707 0 1st Command data set CDS P0707 1 2nd Command data set CDS P0707 2 3rd Command data set CDS Note Signals above 4 V are active signals below 1 6 V are inactive Details See P0701 function of digital input 1 P0708 3 Function of digital input 8 Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group COMMANDS Active first confirm QuickComm No Max 99 Selects function of digital input 8 via analog input Settings 0 Digital input disabled 1 ON OFF 1 2 ON reverse OFF1 3 OFF2 coast to standstill 4 OFF3 quick ramp down 9 Fault acknovvledge 10 reserved 11 reserved 12 Reverse 13 MOP up increase freq 14 MOP dovvn decrease freq 25 DC brake enable 26 Enable Essential Service 28 Bypass mode command input 29 External trip 33 Disable additional freq setpoint 99 Enable BICO parameterization Index P0708 0 1st Command data set CDS P0708 1 2nd Command data set CDS P0708 2 3rd Command data set CDS Note Signals above 4 V are active signals below 1 6 V are inactive Details See P0701 function of digital input 1 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 37 Parameters Issue 03 02 P0718 CO BO Hand Auto Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group COMMANDS Active Immediately QuickComm No Max 1 F
111. 96 lt 200 Result 200 x2 X Index P2881 0 Connector input 0 CI 0 P2881 1 Connector input 1 CI 1 Dependency P2802 10 is active level for the Divider r2882 CO DIV 1 Min Level Datatype Float Unit Def 3 P Group TECH Max Result of Divider 1 Dependency P2802 10 is active level for the Divider P2883 2 Cl DIV 2 Min 0 0 Level CStat CUT Datatype U32 Unit Def 755 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 Define inputs of Divider 2 result is in P2884 Index P2883 0 Connector input 0 CI 0 P2883 1 Connector input 1 CI 1 Dependency P2802 11 is active level for the Divider 12884 CO DIV 2 Min Level Datatype Float Unit Def 3 P Group TECH Max Result of Divider 2 Dependency P2802 11 is active level for the Divider P2885 2 Cl CMP 1 Min 0 0 Level CStat CUT Datatype U32 Unit Def 755 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 Defines inputs of Comparator 1 output is P2886 P2800 P2802 12 P2885 x12x2 gt Out 1 x1 x2 gt Out 0 Index P2885 0 Connector input 0 CI 0 P2885 1 Connector input 1 CI 1 Dependency P2802 12 is active level for the Comparator r2886 BO CMP 1 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays result bit of Comparator 1 Dependency P2802 12 is active level for the Comparator Parameter List MICROMASTER
112. ADC scaling P0759 must be greater than the value x1 of ADC scaling P0757 P0760121 Value y2 of ADC scaling Min 99999 9 Level CStat CUT Datatype Float Unit Def 100 0 2 P Group TERMINAL Active first confirm QuickComm No Max 99999 9 Sets value of Y2 in 96 as described in P0757 ADC scaling Index P0760 0 Analog input 1 ADC 1 P0760 1 Analog input 2 ADC 2 Dependency Affects P2000 to P2003 reference frequency voltage current or torque depending on which setpoint is to be generated Parameter List MICROMASTER 430 46 6SE6400 5AF00 0BPO Issue 03 02 Parameters P0761 2 Width of ADC deadband V mA Min 0 Level CStat UT Datatype Float Unit Def 0 3 P Group TERMINAL Active first confirm QuickComm No Max 20 Defines width of deadband on analog input The diagrams below explain its use Example ADC value 2 to 10 V 0 to 50 Hz The below example produces a 2 to 10 V analog input 0 to 50 Hz P2000 50 Hz P0759 8V POT6O 7596 P0757 2V 0758 0 P0761 2V P0756 0 or 1 P0761 0 0 P0758 lt P0760 0 gt P0758 gt P0760 96 10 V or 20 mA b r 4000H 10V 009 P0759 20 mA ss P0757 P0761 ASPmin ADC value 0 to 10 V 50 to 50 Hz Y H Y H H 1 7 P0757 P0761 The below example produces a 0 to 10 V analog input 50 to 450 Hz with center zero and a holding point 0 2 V wide 0 1 V to each
113. ALWAYS Active first confirm QuickComm No Max 22 Filters available parameters according to functionality to enable a more focussed approach to commissioning Example P0004 22 specifies that only PID parameters will be visible Settings 0 All parameters 2 Inverter 3 Motor 4 Speed sensor 5 Technol application units 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 Dependency Parameters marked Quick Comm Yes in the parameter header can only be set when P0010 1 Quick Commissioning Note Parameter List The inverter will start with any setting of P0004 MICROMASTER 430 6SE6400 5AF00 0BPO 11 Parameters Issue 03 02 P0005131 Display selection Min 2 Level CStat CUT Datatype U16 Unit Def 21 2 P Group FUNC Active first confirm QuickComm No Max 2890 Selects display for parameter r0000 drive display Settings 21 Actual frequency 25 Output voltage 26 DC link voltage 27 Output current Index PO0005101 1st Drive data set DDS P0005 1 2nd Drive data set DDS P0005121 3rd Drive data set DDS Notice These settings refer to read only parameter numbers rxxxx Details See relevant rxxxx parameter descriptions P0006 Display mode Min 0 Level CStat CUT Datatype U16 Unit Def 2 3 P Group FUNC Active
114. CONTROL Active Immediately QuickComm No Max 100 0 Defines point at which programmed boost reaches 50 of its value This value is expressed in relative to P0310 rated motor frequency The default frequency is defined as follows 153 v Pmotor P1316 0 1st Drive data set DDS P1316 1 2nd Drive data set DDS P1316 2 3rd Drive data set DDS fBoost min 2 3 Note The expert user may change this value to alter the shape of the curve e g to increase torque at a particular frequency Details See diagram in P1310 continuous boost P1320 3 Programmable V f freq coord 1 Min 0 00 Level CStat CT Datatype Float Unit Hz Def 0 00 3 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 V max WV M hiad P1325 P1323 P1321 P1310 IO f1 f2 D fn fmax f 0 Hz P1320 P1322 P1324 P0310 P1082 P1310 r0395196 1 PO3041V 1001961 100196 P1310 V Example Index This parameter can be used to provide correct torque at correct frequency and is useful when used with synchronous motors P1320 0 1st Drive data set DDS P1320 1 2nd Drive data set DDS P1320 2 3rd Drive data set DDS Dependency To set parameter select P1300 3 V f with programmable characteristic Note Parameter List Linear interpolation will be applied betwee
115. CT Datatype U16 Unit Def 0 3 P Group MOTOR Active first confirm QuickComm No Max 4 Calculates various motor parameters including P0344 Motor weight P0346 Magnetization time P0347 Demagnetization time P0350 Stator resistance P0611 Motor I2t time constant P1253 Vdc controller output limitation P1316 Boost end frequency P2000 Reference frequency P2002 Reference current Settings Index No calculation Complete parameterization Calculation of equivalent circuit data Calculation of V f data Calculation of controller settings only 0 AC P0340 0 1st Drive data set DDS P0340 1 2nd Drive data set DDS P0340 2 3rd Drive data set DDS Note This parameter is required during commissioning to optimize inverter performance P0344131 Index Motor weight Min 1 0 Level CStat CUT Datatype Float Unit kg Def 9 4 3 P Group MOTOR Active Immediately QuickComm No Max 6500 0 Specifies motor weight kg P0344 0 1st Drive data set DDS P0344 1 2nd Drive data set DDS P0344 2 3rd Drive data set DDS 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 P0346131 Index Magnetization time Min 0 000 Level CStat CUT Datatype Float Unit s Def 1 000 3 P Group MOTOR Active Immediately QuickComm No Max 20 000 Sets magnetization tim
116. Command data set CDS P2220 1 2nd Command data set CDS P2220 2 3rd Command data set CDS Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 137 Parameters Issue 03 02 P2221 3 Bi Fixed PID select Bit 1 Min 0 0 Level CStat CT Datatype U32 Unit Def 0 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines command source of fixed PID setpoint selection Bit 1 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO Index P2221 0 1st Command data set CDS P2221 1 2nd Command data set CDS P2221 2 3rd Command data set CDS P2222 3 BI Fixed PID setp select Bit 2 Min 0 0 Level CStat CT Datatype U32 Unit Def 0 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines command source of fixed PID setpoint selection Bit 2 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 requires P0704 to be set to 99 BICO 722 4 Digital
117. D Feedback belovv min value Change value of P2268 Off1 PID Feedback P2268 Adjust feedback gain below min value F0222 PID feedback above max value Change value of P2267 Off1 PID Feedback P2267 Adjust feedback gain above max value F0450 Fault value Drive may run but some features will not work Off1 BIST Tests 1 Some power section tests have properly Failure failed Replace drive 2 Some control board tests have failed Some functional tests have failed 8 Some IO module tests have failed MM 420 only 16 Internal RAM failed on power up check 194 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Fault Possible Causes Faults and Alarms Diagnose amp Remedy Reac tion F0452 Belt Failure Detected Load conditions on motor indicate belt failure or mechanical fault Check the following 1 2 No breakage seizure or obstruction of drive train If using an external speed sensor check for correct function Check parameters P0409 pulse per min at rated speed P2191 Belt failure speed tolerance P2192 delay time for permitted deviation If using the torque envelope check parameters P2182 threshold frequency f1 P2183 threshold frequency f2 P2184 threshold frequency f3 P2185 upper torque threshold 1 P2186 lower torque threshold 1 P2187 upper torque threshold 2 P2188 lower torque threshold 2 P2189 upper torque threshol
118. DDS P0307 1 2nd Drive data set DDS P0307 2 3rd Drive data set DDS Dependency If P0100 1 KW frequency default 50 Hz values will be in hp see diagram P0304 rating plate Changeable only when P0010 7 1 quick commissioning P0308 3 Rated motor cosPhi Min 0 000 Level CStat C Datatype Float Unit Def 0 000 3 P Group MOTOR Active first confirm QuickComm Yes Max 1 000 Nominal motor power factor cosPhi from rating plate see diagram P0304 Index P0308 0 1st Drive data set DDS P0308 1 2nd Drive data set DDS P0308 2 3rd Drive data set DDS Dependency Changeable only when P0010 1 quick commissioning Visible only when P0100 0 or 2 motor power entered in KW Setting 0 causes internal calculation of value see r0332 P0309 3 Rated motor efficiency Min 0 0 Level CStat C Datatype Float Unit 96 Def 0 0 3 P Group MOTOR Active first confirm QuickComm Yes Max 99 9 Nominal motor efficiency in 96 from rating plate Index P0309 0 1st Drive data set DDS P0309 1 2nd Drive data set DDS P0309 2 3rd Drive data set DDS Dependency Changeable only when P0010 1 quick commissioning Visible only when P0100 1 i e motor power entered in hp Setting 0 causes internal calculation of value see r0332 Note P0309 100 corresponds to superconducting Details See diagram in P0304 rating plate Parameter
119. Datatype U32 Unit Def 19 1 3 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 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 19 0 ON OFF1 via BOP Index P0845101 1st Command data set CDS P0845 1 2nd Command data set CDS P0845 2 3rd Command data set CDS Dependency In contrast to P0844 first source of OFF2 this parameter is always active independent of P0719 selection of command and frequency setpoint If one of the digital inputs is selected for OFF2 the inverter will not run unless the digital input is active Note Parameter List 6SE6400 5AF00 0BPO OFF2 means immediate pulse disabling the motor is coasting OFF2 is low active i e 0 Pulse disabling 1 Operating condition MICROMASTER 430 55 Parameters
120. Drive data set DDS Details See parameter P1001 fixed frequency 1 P1008 3 Fixed frequency 8 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 35 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 8 Index P1008 0 1st Drive data set DDS P1008 1 2nd Drive data set DDS P1008 2 3rd Drive data set DDS Details See parameter P1001 fixed frequency 1 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 65 Parameters Issue 03 02 P1009 3 Fixed frequency 9 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 40 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 9 Index P1009 0 1st Drive data set DDS P1009 1 2nd Drive data set DDS P1009 2 3rd Drive data set DDS Details See parameter P1001 fixed frequency 1 P1010 3 Fixed frequency 10 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 45 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 10 Index P1010 0 1st Drive data set DDS P1010 1 2nd Drive data set DDS P1010 2 3rd Drive data set DDS Details See parameter P1001 fixed frequency 1 P1011 3 Fixed frequency 11 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 50 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650
121. H Active first confirm QuickComm No 4000 0 Selects the source of the PID feedback signal Settings 755 Analog input 2 setpoint 2224 Fixed PID setpoint 2250 Output setpoint of PID MOP Index P2264 0 1st Command data set CDS P2264 1 2nd Command data set CDS P2264 2 3rd Command data set CDS Note When analog input is selected offset and gain can be implemented using parameters P0756 to P0760 ADC scaling P2265 PID feedback filter timeconstant Min 0 00 Level CStat CUT Datatype Float Unit s Def 0 00 2 P Group TECH Active Immediately QuickComm No Max 60 00 Defines time constant for PID feedback filter 12266 CO PID filtered feedback Min Level Datatype Float Unit Det 2 P Group TECH Max Displays PID feedback signal in Note 12266 100 corresponds to 4000 hex P2267 Max value for PID feedback Min 200 00 Level CStat CUT Datatype Float Unit Def 100 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Sets the upper limit for the value of the feedback signal in 96 Note P2267 100 corresponds to 4000 hex Notice When PID is enabled P2200 1 and the signal rises above this value the inverter will trip with F0222 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 143 Parameters Issue 03 02 P2268 Min value fo
122. ID Setpoint 1 P2214 3 Fixed PID setpoint 14 Min 200 00 Level CStat CUT Datatype Float Unit 96 Def 130 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 14 Index P2214 0 1st Drive data set DDS P2214 1 2nd Drive data set DDS P221412 3rd Drive data set DDS Details See P2201 Fixed PID Setpoint 1 Parameter List MICROMASTER 430 136 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2215 3 Fixed PID setpoint 15 Min 200 00 Level CStat CUT Datatype Float Unit Def 130 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 15 Index P2215 0 1st Drive data set DDS P2215 1 2nd Drive data set DDS P2215 2 3rd Drive data set DDS Details See P2201 Fixed PID Setpoint 1 P2216 Fixed PID setpoint mode Bit 0 Min 1 Level CStat CT Datatype U16 Unit Def 1 3 P Group TECH Active first confirm QuickComm No Max 3 Fixed frequencies for PID setpoint can be selected in three different modes Parameter P1016 defines the mode of selection Bit 0 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 Unit Def 1 3 P Group TECH Active first confirm QuickComm No Max BCD or direct selection Bit 1 for PID setpoint Settings 1 Direct se
123. JOG right 0 NO 1 YES Bit11 Reverse setpoint inversion 0 NO 1 YES Bit12 Hand Operation 0 NO 1 YES Bit13 Motor potentiometer MOP up 0 NO 1 YES Bit14 Motor potentiometer MOP down 0 NO 1 YES Bit15 Auto Operation 0 NO 1 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 r0020 CO Act frequency setpoint Min Level Datatype Float Unit Hz Def 3 P Group CONTROL Max Displays actual frequency setpoint output from ramp function generator r0021 CO Act frequency Min Level Datatype Float Unit Hz Def 3 P Group CONTROL Max Displays actual inverter output frequency r0024 excluding slip compensation resonance damping and frequency limitation r0022 Act rotor speed Min Level Datatype Float Unit 1 min Def 3 P Group CONTROL Max Displays calculated rotor speed based on inverter output frequency Hz x 120 number of poles Note This calculation makes no allowance for load dependent slip r0024 CO Act output frequency Min Level Datatype Float Unit Hz Def 3 P Group CONTROL Max Displays actual output frequency slip compensation resonance damping and frequeney limitation are included r0025 CO Act output voltage Min Level Datatype Float Unit V Def 3 P Group CONT
124. M1 M2 M1 M2 M1 M2 M1 M2 M1 M2 M1 M2 3 M1 M2 M1 M2 M1 M2 M1 M2 M1 M2 M1 M2 4 M1 M1 M2 M1 M2 M3 M1 M2 M3 M1 M2 M3 M1 M2 M3 M1 M2 M3 5 M1 M3 M1 M3 M1 M2 M3 M1 M2 M3 M1 M2 M3 M1 M2 M3 6 M1 M2 M1 M2 M2 M3 M1 M2 M3 M1 M2 M3 M1 M2 M3 7 M1 M1 M2 M3 M1 M3 M1 M2 M3 M1 M2 M3 M1 M2 M3 8 M1 M2 M3 M1 M3 M2 M3 M1 M2 M3 M1 M2 M3 When the inverter is running at minimum frequency and the PID feedback indicates that a lower speed is required the inverter switches off de stages one of the relay controlled motors M1 to M3 In this case the inverter must ramp from minimum frequency to maximum frequency outside of PID control see P2378 and diagram below Destaging of external motors M1 M2 M3 Svvitch off ue 2 E lot P2371 0 E E z 2 1 M1 2 M1 M2 M1 3 M1 M2 M2 M1 4 M1 M2 M3 M2 M1 M1 5 M1 M2 M3 M3 M1 M3 M1 6 M1 M2 M3 M3 M2 M2 M1 M2 M1 7 M1 M2 M3 M3 M1 M3 M2 M1 M1 8 M1 M2 M3 M3 M2 M3 M1 M3 M2 M1 P2372 3 Motor staging cycling Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group TECH Active first confirm QuickComm No Max 1 Enables motor eycling for the motor staging feature VVhen enabled the motor selected for staging destaging is based on the hours run counter P2380 VVhen staging the motor vvith the least hours is svvitched on VVhen destaging the motor vvith most hours is svvitched off f staged motors are different
125. MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2818 2 BI OR2 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2818 0 P2818 1 define inputs of OR 2 element output is P2819 Index P2818 0 Binector input 0 BI 0 P2818 1 Binector input 1 BI 1 Dependency P2801 4 is active level for the OR element r2819 BO OR 2 Min Level Datatype U16 Unit Def 3 P Group TECH Max Output of OR 2 element Displays or logic of bits defined in P2818 0 P2818111 Dependency P2801 4 is active level for the OR element P2820 2 BI OR3 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2820 0 P2820 1 define inputs of OR 3 element output is P2821 Index P2820 0 Binector input 0 BI 0 P2820 1 Binector input 1 BI 1 Dependency P2801 5 is active level for the OR element 2821 BO OR 3 Min Level Datatype U16 Unit Def 3 P Group TECH Max Output of OR 3 element Displays or logic of bits defined in P2820 0 P2820 1 Dependency P2801 5 is active level for the OR element P2822 2 Bl XOR 1 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2822101 P2822 1 def
126. O 1 YES Bit07 Motor pulled out 0 NO 1 YES Bit08 I act r0068 lt P2170 0 NO 1 YES Bit09 T act gt P2174 amp setpoint reached 0 NO 1 YES Bit10 T act gt P2174 0 NO t YES Bit11 Belt failure warning 0 NO 1 YES Bit12 Belt failure trip 0 NO 1 YES Parameter List MICROMASTER 430 132 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2200 3 Bl Enable PID controller Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 2 P Group TECH Active first confirm QuickComm No 4000 0 PID mode Allows user to enable disable the PID controller Setting to 1 enables the PID closed loop controller Index P2200 0 1st Command data set CDS P2200 1 2nd Command data set CDS P2200 2 3rd Command data set CDS Dependency 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 Note 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 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 DIN3 or from any other BiCo source Not
127. OM link 6 Cmd BICO parameter Setpoint CB on COM link 10 Cmd BOP Setpoint BICO parameter 11 Cmd BOP Setpoint MOP setpoint 12 Cmd BOP Setpoint Analog setpoint 13 Cmd BOP Setpoint Fixed frequency 15 Cmd BOP Setpoint USS on COM link 16 Cmd BOP Setpoint CB on COM link 40 Cmd USS on BOP link Setpoint BICO parameter 41 Cmd USS on BOP link Setpoint MOP setpoint 42 Cmd USS on BOP link Setpoint Analog setpoint 43 Cmd USS on BOP link Setpoint Fixed frequency 44 Cmd USS on BOP link Setpoint USS on BOP link 45 Cmd USS on BOP link Setpoint USS on COM link 46 Cmd USS on BOP link Setpoint CB on COM link 50 Cmd USS on COM link Setpoint BICO parameter 51 Cmd USS on COM link Setpoint MOP setpoint 52 Cmd USS on COM link Setpoint Analog setpoint 53 Cmd USS on COM link Setpoint Fixed frequency 54 Cmd USS on COM link Setpoint USS on BOP link 55 Cmd USS on COM link Setpoint USS on COM link 60 Cmd CB on COM link Setpoint BICO parameter 61 Cmd CB on COM link Setpoint MOP setpoint 62 Cmd CB on COM link Setpoint Analog setpoint 63 Cmd CB on COM link Setpoint Fixed frequency 64 Cmd CB on COM link Setpoint USS on BOP link 66 Cmd CB on COM link Setpoint CB on COM link Index P0719 0 1st Command data set CDS P0719 1 2nd Command data set CDS P0719 2 3rd Command data set CDS Note If set to a value other than 0 i e BICO parameter is not the setpoint source
128. OMMANDS Active first confirm QuickComm Yes Max 6 Selects digital command source Settings 0 Factory default setting BOP keypad Terminal USS on BOP link USS on COM link CB on COM link ONA AN Index P0700 0 1st Command data set CDS P0700 1 2nd Command data set CDS P0700 2 3rd Command data set CDS Note Changing this parameter resets to default all settings on item selected For example Changing form 1 to 2 resets all digital inputs to default settings Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 33 Parameters Issue 03 02 P0701131 Function of digital input 1 Min 0 Level CStat CT Datatype U16 Unit Def 1 2 P Group COMMANDS Active first confirm QuickComm No Max 99 Selects function of digital input 1 Settings 0 Digital input disabled 1 ON OFF 1 2 ON reverse OFF1 3 OFF2 coast to standstill 4 OFF3 quick ramp down 9 Fault acknowledge 10 reserved 11 reserved 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 25 DC brake enable 26 Enable Essential Service 27 Enable PID 28 Bypass mode command input 29 External trip 33 Disable additional freq setpoint 99 Enable BICO parameterization Index P0701 0 1st Command data set CDS P0701 1 2nd Command data set CDS P0701 2 3rd Command data
129. P2167 f off 0 Closed 53 2 Act freq r0021 gt P1080 f min 0 Closed 53 3 Act current r0027 gt P2170 0 Closed 53 4 Act freq r0021 gt P2155 f 1 0 Closed 53 5 Act freq r0021 lt P2155 f 1 0 Closed 53 6 Act freq r0021 gt setpoint 0 Closed 53 7 Act Vdc r0026 P2172 0 Closed 53 8 Act Vdc r0026 gt P2172 0 Closed 53 A PID output r2294 P2292 PID min 0 Closed 53 B PID output r2294 P2291 PID max 0 Closed ndex P0731 0 1st Command data set CDS P0731 1 2nd Command data set CDS P0731 2 3rd Command data set CDS P0732 3 Bi Function of digital output 2 Min 0 0 Level CStat CUT Datatype U32 Unit Def 527 2 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source of digital output 2 Settings 52 0 Drive ready 0 Closed 52 1 Drive ready to run 0 Closed 52 2 Drive running 0 Closed 52 3 Drive fault active 0 Closed 524 OFF2 active 1 Closed 52 5 OFF3 active 1 Closed 52 6 Switch on inhibit active 0 Closed 52 7 Drive warning active 0 Closed 52 8 Deviation setpoint actual value 1 Closed 52 9 PZD control Process Data Control 0 Closed 52 A Maximum frequency reached 0 Closed 52 B VVarning Motor current limit 1 Closed 52 C Motor holding brake MHB active 0 Closed 52 D Motor overload 1 Closed 52 E Motor running direction right 0 Closed 52 F Inverter overload 1 Closed 53 0 DC brake active 0 Closed 53 1 Act freq r0021 gt P2167 f off 0 Closed 53 2 Act freq r0021 g
130. P2202 PID FF2 Inactive Inactive Active Inactive P2203 PID FF3 Inactive Inactive Active Active P2204 PID FF4 Inactive Active Inactive Inactive P2205 PID FF5 Inactive Active Inactive Active P2206 PID FF6 Inactive Active Active Inactive P2207 PID FF7 Inactive Active Active Active P2208 PID FF8 Active Inactive Inactive Inactive P2209 PID FF9 Active Inactive Inactive Active P2210 PID FF10 Active Inactive Active Inactive P2211 PID FF11 Active Inactive Active Active P2212 PID FF12 Active Active Inactive Inactive P2213 PID FF13 Active Active Inactive Active P2214 PID FF14 Active Active Active Inactive P2215 PID FF15 Active Active Active Active Index P2201 0 1st Drive data set DDS P2201 1 2nd Drive data set DDS P2201 2 3rd Drive data set DDS Dependency P2000 1 required in user access level 2 to enable setpoint source In mode 1 above ON command required to start motor enable pulses In mode 2 above If inputs programmed to PID fixed setpoint and selected together the selected setpoints are summed Note You may mix different types of frequencies however remember that they will be summed if selected together P2201 100 corresponds to 4000 hex P2202 3 134 Index Fixed PID setpoint 2 Min 200 00 Level CStat CUT Datatype Float Unit 96 Def 10 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines
131. P2832 defines input of NOT 3 element output is P2833 Dependency P2801 11 is active level for the NOT element 12833 BO NOT 3 Min Level Datatype U16 Unit Def 3 P Group TECH Max Output of NOT 3 element Displays not logic of bit defined in P2832 Dependency P2801 11 is active level for the NOT element Parameter List MICROMASTER 430 158 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2834 4 Bl D FF 1 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2834 0 P2834 1 P2834 2 P2834 3 define inputs of D FlipFlop 1 outputs are P2835 P2836 P2800 P2801 12 p D P2834 r2835 RESET D STORE Q Q 1 0 x x 0 0 1 x x 0 1 1 1 x x Qu Qua POWER ON 0 0 1 Es 0 0 0 0 A 1 POWER ON 0 1 Index P2834 0 Binector input Set P2834 1 Binector input D input P2834 2 Binector input Store pulse P2834 3 Binector input Reset Dependency P2801 12 is active level for the D FlipFlop r2835 BO Q D FF 1 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays output of D FlipFlop 1 inputs are defined in P2834 0 P2834 1 P2834 2 P2834 3 Dependency P2801 12 is active level for the D FlipFlop 12836 BO NOT Q D FF 1 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays Not output
132. QuickComm No Max 0 0 Displays hours run for external motors To reset the running hours set the value to zero any other value is ignored Example P2380 0 1 gt 6min P2380 1 0 gt 60 min 1h Index P2380 0 Motor 1 hrs run P2380 1 Motor 2 hrs run P2380 2 Motor 3 hrs run Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 151 Parameters Issue 03 02 P2390 Energy saving setpoint Min 200 00 Level CStat CUT Datatype Float Unit Def 0 3 P Group TECH Active Immediately QuickComm No Max 200 00 When the inverter under PID control drops below energy saving setpoint the energy saving timer P2391 is started When the energy saving timer has expired the inverter is ramped down to stop and enters energy saving mode see diagram below PID setpoint PID feedback 96 PID feedback A Sensor PID setpoint 2392 Ae gt t fA f pip setpoint up 4 f Restart EE P2390 Hg N P1080 i i t P2391 NL y biq active Energy saving mode active PID active 0 frestart P2000 P2990 5 P1080 54997 P1082 P2390 Hz P2000 P2390 y 1490 100 76 P1082 Note If energy saving setpoint is O the energy saving function is disabled Notice Energy saving mode is an added feature to enhance PID functionality and switches of the motor when the
133. QuickComm No Max 20 Sets width of dead band in mA or V for analog output Index P0781 0 Analog output 1 DAC 1 P0781 1 Analog output 2 DAC 2 P0800131 Bl Download parameter set 0 Min 0 0 Level CStat CT Datatype U32 Unit Def 0 0 3 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 The first three digits describe the parameter number of the command source the last digit refers to the bit setting for that parameter 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO Index PO800 0 1st Command data set CDS P0800 1 2nd Command data set CDS PO0800121 3rd Command data set CDS Note Signal of digital input 0 No download 1 Start download parameter set 0 from AOP P0801 3 Bl Download parameter set 1 Min 0 0 Level CStat CT Datatype U32 Unit Def 0 0 3 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 The first three digits describe the parameter number of the command source
134. ROL Active Immediately QuickComm No Max 5 499 Proportional gain of the max voltage controller See parameter P1340 for further information Index P1345 0 1st Drive data set DDS P1345 1 2nd Drive data set DDS P1345 2 3rd Drive data set DDS P1346 3 Imax controller integral time Min 0 000 Level CStat CUT Datatype Float Unit s Def 0 300 3 P Group CONTROL Active Immediately QuickComm No Max 50 000 Integral time constant of the max voltage controller P1341 2 0 1 max frequency and voltage controllers disabled P1345 0 and P1346 gt 0 1 max voltage controller enhanced integral P1345 0 and P1346 0 1 max voltage controller normal PI control See description in parameter P1340 for further information Index P1346 0 1st Drive data set DDS P1346 1 2nd Drive data set DDS P1346 2 3rd Drive data set DDS P1350 3 Voltage soft start Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group CONTROL Active first confirm QuickComm No Max 1 Sets whether voltage is built up smoothly during magnetization time ON or whether it simply jumps to boost voltage OFF P1350 P0346 V f characteristic f Settings 0 OFF 1 ON Index P1350 0 1st Drive data set DDS P1350 1 2nd Drive data set DDS P1350 2 3rd Drive data set DDS Note The settings for this parameter bring benefits and drawbacks P1350 0 OFF jump to boost voltage
135. ROL Max Displays rms voltage applied to motor r0026 CO Act DC link voltage Min Level Datatype Float Unit V Det 3 P Group INVERTER Max Displays DC link voltage Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 15 Parameters Issue 03 02 r0027 CO Act output current Min Level Datatype Float Unit A Def 3 P Group CONTROL Max Displays rms value of motor current A r0031 CO Act filtered torque Min Level Datatype Float Unit Nm Def 3 P Group CONTROL Max Displays motor torque r0032 CO Act power Min Level Datatype Float Unit Def 3 P Group CONTROL Max Displays motor povver Dependency Value is displayed in KW or hp depending on setting for P0100 operation for Europe North America r0035 3 CO Act motor temperature Min Level Datatype Float Unit C Def 3 P Group MOTOR Max Displays measured motor temperature Index r0035 0 1st Drive data set DDS r0035 1 2nd Drive data set DDS r0035 2 3rd Drive data set DDS r0037 2 CO Inverter temperature C Min Level Datatype Float Unit C Def 3 P Group INVERTER Max Displays measured heatsink temperature and calculated junction temperature of IGBTs based on thermal model Index r0037 0 Measured heat sink temperature r0037 1 Chip temperature r0038 CO Act power factor Min Leve
136. S Notice 98 If this value is too low the system may become unstable Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters P1335131 Slip compensation Min 0 0 Level CStat CUT Datatype Float Unit Def 0 0 3 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 Increasing the load from md1 to md2 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 Af N Value 1335 0 Slip compensation disabled P1335 50 96 70 96 Full slip compensation at cold motor partial load P1335 100 96 Full slip compensation at warm motor full load Slip compensation uses the motor data and motor model to add the rated slip frequency rated motor speed and rated motor current Index P1335 0 1st Drive data set DDS P1335 1 2nd Drive data set DDS P1335 2 3rd Drive data set DDS Note Gain adjustment enables fine tuning of the actual motor speed see P1460 gain speed control 100 standard setting for warm stator P1336 3 Slip limit Min 0 Level CStat CUT Datatype U16 Unit Def 250 3 P Grou
137. SIEMENS MICROMASTER 430 User Documentation 6SE6400 5AF00 0BPO SIEMENS Getting Started Guide weona aal Is for quick commissioning with SDP and BOP 2 Operating Instructions Gives information about features of the MICROMASTER 430 Installation Commissioning Control modes System Parameter structure Troubleshooting Specifications and available options of the MICROMASTER 430 SIEMENS Betriebe anieitung Ausgabe AT MICROMASTER 430 Anuenderdotamenta on Parameter List The Parameterlist containes the description of all Parameters structured in functional order and a detailed description The Parameter list also includes a series of function plans MICROMASTER 430 Parameteriste Ausgabe AT Anwenderdolumentton Catalogues In the catalogue you will find all needs to select a certain inverter as well as filters chokes operator panels or communications options SIEMENS Umrichter MICROMASTER 420 440 0 12 kW bis 90 kW Katalog DA 51 2 2001 5 H 2 Parameter List 1 SIEMENS Function Diagrams 2 Alarms and 3 VVarnings MICROMASTER 430 Parameter List User Documentation Valid for ssue 03 02 Converter Type MICROMASTER 430 Software V2 0 Issue 03 02 Parameters Issue 03 02 VVarning Please
138. 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 I O settings are lost Motor calculations are also performed P3900 2 When 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 3 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 These include P0344 motor weight P0350 demagnetization time P2000 reference frequency P2002 reference current Parameter List MICROMASTER 430 168 6SE6400 5AF00 0BPO Function Diagrams Issue 03 02 Function Diagrams 2 oer M3lSVINOMO W oza 2002 1006 uonezuejeueJed Jo33uoo eouenbegs SJejeuJeJed Jojou jo uondepy uonoejoJd JeyeAut pue JO O Jojejhpo N uoneoynuept Jej onuoo oors Qld julodjes 101002 VA poos
139. T Datatype Float Unit Hz Def 3 00 3 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 Cl Mon act speed f_src gt 0 Hyst freq f_hys 0 00 10 00 Hz Cl Mon speed setp P2150 D 3 00 f src gt f_set Hyst freq f_hys 0 00 10 00 Hz P2150 D 3 00 Index P2150 0 1st Drive data set DDS P2150 1 2nd Drive data set DDS P2150 2 3rd Drive data set DDS Parameter List MICROMASTER 430 120 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2151 3 Cl Monitoring speed setpoint Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group ALARMS Active Immediately QuickComm No Max 4000 0 Selects speed setpoint signal to be compared to threshold as illustrated in the diagram below f set lt f min Setp min threshold 0 00 10 00 Hz P2161 D 3 00 Cl Mon speed setp f set lt f min Hyst freq f hys 0 00 10 00 Hz P2150 D 3 00 f set 0 Hyst freq f hys 0 00 10 00 Hz P2150 D 3 00 Index P2151 0 1st Command data set CDS P2151 1 2nd Command data set CDS P2151 2 3rd Command data set CDS Details See also diagram in P2150 hysteresis frequency f hys P2152 3 Cl Act monitoring speed Min 0 0 Level CStat CUT Datatype U32 Unit
140. Vmains 1 15 4 2 P0210 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 87 Parameters Issue 03 02 P1243131 Dynamic factor of Vdc max Min 10 Level CStat CUT Datatype U16 Unit Def 100 3 P Group FUNC Active Immediately QuickComm No Max 200 Defines dynamic factor for DC link controller in Index P1243 0 1st Drive data set DDS P1243 1 2nd Drive data set DDS P1243 2 3rd Drive data set DDS 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 P1253 3 Vdc controller output limitation Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 10 00 3 P Group FUNC Active Immediately QuickComm No Max 600 00 Limits maximum effect of Vdc max controller Index P1253 0 1st Drive data set DDS P1253 1 2nd Drive data set DDS P1253 2 3rd Drive data set DDS P1254 Auto detect Vdc switch on levels Min 0 Level CStat CT Datatype U16 Unit Def 1 3 P Group FUNC Active Immediately QuickComm No Max 1 Enables disables auto detection of switch on levels for Vdc max controller Settings 0 Disabled 1 Enabled Parameter List MICROMASTER 430 88 6SE6400 5AF00 0BPO Issue 03 02 Parameters P1260131 Bypass co
141. When P2012 is greater or equal to 4 the additional control word is transferred as the 4th PZD word default setting STW HSW i ZSW i HW i STW2 PZD1 i PZD2 PZD3 i PZD4 PZD5 PZD6 P2012 gt STW Control word HSW Main setpoint ZSVV Status word HIVV Main actual value PZD Process data Parameter List MICROMASTER 430 106 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2013121 USS PKVV length Min 0 Level CStat CUT Datatype U16 Unit Def 127 3 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 area 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 Example Data type U16 16 Bit U32 32 Bit Float 32 Bit P2013 3 v Parameter access fault Parameter access fault P2013 4 v v v P2013 127 v v v Settings 0 No words 3 3 words 4 4 words 127 Variable Index P2013 0 Serial interface COM link P2013 1 Serial interface BOP link Notice Parameter List 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 3 or 4 will determine the number of PZD words which are fixed during P2013 1
142. a set CDS P1230 2 3rd Command data set CDS Caution2 Frequent use of long periods of DC braking can cause the motor to overheat Notice This delay time is set in P0347 demagnetization time If this delay is too short overcurrent trips can occur Digital input 1 requires P0701 to be set to 99 BICO Digital input 2 requires P0702 to be set to 99 BICO Digital input 3 requires P0703 to be set to 99 BICO Digital input 4 requires P0704 to be set to 99 BICO Digital input 5 requires P0705 to be set to 99 BICO Digital input 6 requires P0706 to be set to 99 BICO Digital input 7 via analog input 1 requires P0707 to be set to 99 Digital input 8 via analog input 2 requires P0708 to be set to 99 DC braking is not possible when using a synchronous motor i e P0300 2 P1232 3 DC braking current Min 0 Level CStat CUT Datatype U16 Unit 96 Det 100 3 P Group FUNC Active Immediately QuickComm No Max 250 Defines level of DC current in relative to rated motor current P0305 Index P1232 0 1st Drive data set DDS P1232 1 2nd Drive data set DDS P1232 2 3rd Drive data set DDS Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 85 Parameters Issue 03 02 P1233131 Duration of DC braking Min 0 Level CStat CUT Datatype U16 Unit s Def 0 3 P Group FUNC Active Immediately QuickComm No Max 250 Defines duration for which DC injection braking is to be active f
143. abled 0 NO YES Bit03 Voltage soft start select 0 NO YES Bit04 Motor excitation finished 0 NO HH YES Bit05 Starting boost active 0 NO YES Bit06 Acceleration boost active 0 NO YES Bit07 Frequency is negative 0 NO 1 YES Bit08 Field veakening active 0 NO 1 YES Bit09 Volts setpoint limited 0 NO YES Bit10 Slip frequency limited 0 NO 1 YES Bit11 F out s F max Freq limited 0 NO YES Bit12 Phase reversal selected 0 NO YES Bit13 I max controller active 0 NO ib YES Bitl4 Vdc max controller active 0 NO YES Bit15 KIB Vdc min control active 0 NO t YES Details See description of seven segment display given in the introduction Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 19 Parameters Issue 03 02 r0061 CO Act rotor speed Min Level Datatype Float Unit Hz Def 3 P Group CONTROL Max Displays current speed detected by encoder r0065 CO Slip frequency Min Level Datatype Float Unit Def 3 P Group CONTROL Max Displays slip frequency of motor in relative to the rated motor frequency P0310 Details For V f control see also P1335 slip compensation r0067 CO Act output current limit Min Level Datatype Float Unit A Def 3 P Group CONTROL Max Displays valid maximum output current of inverter This value is influenced by P0640 max output current the derating characteristi
144. amp up initial rounding time Index P1131 0 1st Drive data set DDS P1131 1 2nd Drive data set DDS P1131 2 3rd Drive data set DDS Note Rounding times are recommended since they prevent an abrupt response thus avoiding detrimental effects on the mechanics Notice Rounding times are not recommended when analog inputs are used since they would result in overshoot undershoot in the inverter response P1132 3 Ramp down 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 rounding time at start of ramp down as shown in P1130 ramp up initial rounding time Index P1132 0 1st Drive data set DDS P1132 1 2nd Drive data set DDS P1132 2 3rd Drive data set DDS Note Rounding times are recommended since they prevent an abrupt response thus avoiding detrimental effects on the mechanics Notice Parameter List Rounding times are not recommended when analog inputs are used since they would result in overshoot undershoot in the inverter response MICROMASTER 430 6SE6400 5AF00 0BPO 77 Parameters Issue 03 02 P1133 3 Ramp down final 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 rounding time at end of ramp down as shown in P1130 ramp up initial rounding time Index
145. ar offset in relative to P0305 rated motor current to active V f curve either linear or quadratic after an ON command and is active until setpoint is reached for the first time 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 V Linear V f NMax ee SEN QQ SS RX S Vn NO WO SE OO P0304 i ASS 1 OYAN i AO actual Vas x i V StartBoost 100 A geg S o On NN SOI RAMA AQ W I E RQ A e v RANN StartBoost 50 ANN 1 i NSN i S ND 1 1 1 f 0 Ticost nd fn fmax P1316 P0310 P1082 where voltage values are given V StartBoost 100 rated motor current P0305 Stator resistance P0350 Starting boost P1312 V StartBoost 50 V StartBoost 100 2 Index P1312 0 1st Drive data set DDS P1312 1 2nd Drive data set DDS P1312 2 3rd Drive data set DDS Dependency Setting in P0640 motor overload factor 1961 limits boost Notice Increasing the boost levels increases motor heating Boosts x 300 Rs Imot Details 96 See note in P1310 for boost priorities MICROMASTER 430 6SE6400 5AF00 0BPO Parameter List Issue 03 02 Parameters P1316131 Index Boost end frequency Min 0 0 Level CStat CUT Datatype Float Unit Def 20 0 3 P Group
146. arameter 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 BI BO Cl and CO followed by a colon These abbreviations have the following meanings BI Binector input i e parameter selects the source of a binary signal BO z Binector output i e parameter connects as a binary signal CI Connector input i e parameter selects the source of an 9999 analog signal CO Connector output i e parameter connects as an analog signal CO BO Connector Binector output i
147. arameters should not be set to Off1 DAC identical values since this would parameters produce illogical results not set Index 0 Parameter settings for properly output identical Index 1 Parameter settings for input identical Index 2 Parameter settings for output do not correspond to DAC type A0922 gt No Load is applied to the Off1 No load inverter applied to gt Asaresult some functions may inverter not work as under normal load conditions A0923 Both JOG right and JOG left Off1 Both JOG Left P1055 P1056 have been requested and JOG Right This freezes the RFG output frequency at its current value are requested A0952 Load conditions on motor indicate Apply lubrication if required Off1 Belt Failure belt failure or mechanical fault Check the following Detected 1 No breakage seizure or obstruction of drive train 2 using an external speed sensor check for correct function Check parameters P0409 pulse per min at rated speed P2191 Belt failure speed tolerance P2192 delay time for permitted deviation 3 If using the torque envelope check parameters P2182 threshold frequency f1 P2183 threshold frequency f2 P2184 threshold frequency f3 P2185 upper torque threshold 1 P2186 lower torque threshold 1 P2187 upper torque threshold 2 P2188 lower torque threshold 2 P2189 upper torque threshold 3 P2190 lower torque threshold 3 P2192 delay time for permitted deviation 4 Apply lubrication if required Parameter List
148. atatype U16 Unit Def 3 P Group COMMANDS Max Displays second status vvord of inverter in bit format Bitfields Bit00 DC brake active 0 NO 1 YES Bit01 Act freq r0021 gt P2167 f off 0 NO YES Bit02 Ac freq r0021 gt P1080 f min 0 NO 1 YES Bit03 Ac current r0027 gt P2170 0 NO X YES Bit04 Act freq r0021 gt P2155 f 1 0 NO 1 YES Bit05 Act freq r0021 lt P2155 f 1 0 NO 1 YES Bit06 Act freq r0021 gt setpoint 0 NO YES Bit07 Act Vdc r0026 P2172 0 NO 1 YES Bit08 Ac Vdc r0026 gt P2172 0 NO 1 YES Bit09 Ramping finished 0 NO 1 YES Bit10 PID output r2294 P2292 PID min 0 NO 1 YES Bit11 PID output r2294 P2291 PID max 0 NO 1 YES Bitl4 Dovnload data set 0 from AOP 0 NO 1 YES Bit15 Download data set 1 from AOP 0 NO 1 YES 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 Level Datatype U16 Unit Def 3 P Group COMMANDS Max 18 Details Displays first control word of inverter and can be used to diagnose which commands are active Bitfields Bi too tol t02 ON OFF1 OFF2 Electrical OFF3 Fast stop Pulse enable RFG enable RFG start Setpoint enable Fault acknowledge JOG right JOG left Control from PLC Reverse setpoint stop inversion Motor potentiometer MOP up Motor potentiometer MOP down CDS Bit 0 Local Remote
149. ble 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 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters 1 2 Quick commissioning P0010 1 The following parameters are necesarry for quick commissioning P0010 1 No Name Access level Cstat P0100 Europe North America 1 C P0205 Inverter application 3 C P0300 Select motor type 2 C P0304 Motor voltage rating 1 C P0305 Motor current rating il C P0307 Motor power rating 1 C P0308 Motor cosPhi rating 2 C P0309 Motor efficiency rating 2 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 96 2 CUT P0700 Selection of command source 1 CT P1000 S
150. cation board CB Index 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 Details See relevant communication board manual for protocol definition and appropriate settings Parameter List MICROMASTER 430 114 6SE6400 5AF00 0BPO Issue 03 02 Parameters r2050181 CO PZD from CB Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays PZD received from communication board CB r2050 0 r2090 r2050 1 r2050 2 r2050 3 r2091 201 PZD2 PZD3 i PZD4 i STW1 HSW r2050 7 j PKW Parameter ID value PKW PZD m PZD Process data ES Parameter Process data STW Control word P2041 0 i HSW Main setpoint La CB telegram y CB on COM link PZD mapping to parameter r2050 Index r2050 0 Received word 0 r2050 1 Received word 1 r2050 2 Received word 2 r2050 3 Received word 3 r2050 4 Received word 4 r2050 5 Received word 5 r2050 6 Received word 6 r2050 7 Received word 7 Note The control words can be viewed as bit parameters r2090 and r2091 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 115 Parameters Issue 03 02 P2051181 Cl PZD to CB Min 0 0 Level CStat CT Datatype U32 Unit Def 52 0 3 P Group COMM Active Immediately QuickComm No Max 4000 0 Connects PZD to CB This parameter allo
151. command causes motor to run in the normal direction as described above P1113 3 Bl Reverse Min 0 0 Level CStat CT Datatype U32 Unit Def 722 1 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source of reverse command used when P0719 0 remote selection of command setpoint source 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 19 B Reverse via BOP Index P1113 0 1st Command data set CDS P1113 1 2nd Command data set CDS P1113 2 3rd Command data set CDS r1114 CO Freq setp after dir ctrl Min Level Datatype Float Unit Hz Def 3 P Group SETPOINT Max Displays setpoint frequency after change of direction Parameter List MICROMASTER 430 74 6SE6400 5AF00 0BPO Issue 03 02 Parameters r1119 CO Freq setpoint before RFG Min Level Datatype Float Unit Hz Def 3 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
152. confirm QuickComm No Max 4000 0 Defines source of pulse enable disable signal 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 Index P0852 0 1st Command data set CDS P0852 1 2nd Command data set CDS P0852 2 3rd Command data set CDS Dependency Active only when P0719 0 remote selection of command setpoint source P0918 CB address Min 0 Level CStat CT Datatype U16 Unit Def 3 2 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 1 via DIP switches on the PROFIBUS module 2 via a user entered value Note Possible PROFIBUS settings 1 125 0 126 127 are not allowed The following applies when a PROFIBUS module is used DIP switch Address defined in P0918 CB address is valid DIP switch not DIP switch setting has priority and P0918 indicates DIP
153. confirm QuickComm No Max 99 Selects function of digital input 6 via analog input Settings 0 Digital input disabled 1 ON OFF 1 2 ON reverse OFF1 3 OFF2 coast to standstill 4 OFF3 quick ramp down 9 Fault acknowledge 10 reserved 11 reserved 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 25 DC brake enable 26 Enable Essential Service 27 Enable PID 28 Bypass mode command input 29 External trip 33 Disable additional freq setpoint 99 Enable BICO parameterization Index P0706 0 1st Command data set CDS P0706 1 2nd Command data set CDS P0706 2 3rd Command data set CDS Details See P0701 function of digital input 1 Parameter List MICROMASTER 430 36 6SE6400 5AF00 0BPO Issue 03 02 Parameters P0707131 Function of digital input 7 Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group COMMANDS Active first confirm QuickComm No Max 99 Selects function of digital input 7 via analog input Settings 0 Digital input disabled 1 ON OFF 1 2 ON reverse OFF1 3 OFF2 coast to standstill 4 OFF3 quick ramp down 9 Fault acknovvledge 10 reserved 11 reserved 12 Reverse 13 MOP up increase freq 14 MOP down decrease freq 25 DC brake enable 26 Enable Essential Service 28 Bypass mode command input 2
154. controller will reduce motor speed to correct this Settings 0 Disabled 1 Inversion of PID feedback signal Notice 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 If the feedback signal increases with an increase in motor frequency the PID transducer type should be 0 4 If the feedback signal decreases with an increase in motor frequency the PID transducer type should be set to 1 2272 CO PID scaled feedback Min Level Datatype Float Unit Def 2 P Group TECH Max Displays PID scaled feedback signal in Note 12272 100 corresponds to 4000 hex 12273 CO PID error Min Level Datatype Float Unit Def 2 P Group TECH Max Displays PID error difference signal between setpoint and feedback signals in 96 Note 12273 100 corresponds to 4000 hex P2274 PID derivative time Min 0 000 Level CStat CUT Datatype Float Unit s Def 0 000 2 P Group TECH Active Immediately QuickComm No Max 60 000 144 Sets PID derivative time Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2280 PID proportional gain Min 0 000 Level CStat CUT Datatype Float Unit Def 3 000 2 P Group TECH Active Immediately QuickComm No Max 65 000
155. cs and the thermal motor and inverter protection Dependency P0610 motor I2t temperature reaction defines reaction when limit is reached Note Normally current limit rated motor current P0305 x motor current limit P0640 It is less than or equal to maximum inverter current r0209 The current limit may be reduced if the motor thermal model calculation indicates that overheating will occur r0071 CO Max output voltage Min Level Datatype Float Unit V Def 3 P Group CONTROL Max Displays maximum output voltage VA r0071 Van ina MOD na Inverter P0304 Voie V op Inverter Motor SA gt i P0310 f Motor A P y Power 5 i Field weakening Dependency Actual maximum output voltage depends on the actual input supply voltage r0080 CO Actual torque Min Level Datatype Float Unit Nm Def 3 P Group CONTROL Max 20 Displays actual torque MICROMASTER 430 6SE6400 5AF00 0BPO Parameter List Issue 03 02 Parameters r0086 CO Act active current Min Level Datatype Float Unit A Def 3 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 P0095 10 Cl Display PZD signals Min 0 0 Level CStat CT Datatype U32 Unit Def 0 0 3 P Group CONTROL Active first confirm QuickComm No Max 4000 0
156. cy as a percentage of max frequency During a de staging event as the inverter ramps from maximum to minimum frequency or vice versa this is the frequency at which the relay DOUT is switched This is illustrated by the following diagrams Staging f 1082 P P1082 2978 100 HA P2373 P2374 P1121 Condition for staging E a P2378 f 2 P1082 O App 2 P2373 tag gt P2374 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters Destaging f A P1082 P2378 f 4 1080 AA P2373 1 12379 4 P2375 wa 14 Bit2 o x 1 Bit1 04 j an 14 BitO ol l gt t Condition for destaging P2378 P1080 P1120 f P1080 100 P1082 pp lt P2373 tao gt P2375 Index P2378 0 1st Drive data set DDS P2378 1 2nd Drive data set DDS P2378 2 3rd Drive data set DDS 12379 CO BO Motor staging status word Min Level Datatype U16 Unit Def 3 P Group TECH Max Output vvord from the motor staging feature that allovvs external connections to be made Bit 0 svvitches on Motor 1 Bit 1 switches on Motor 2 Bit 2 switches on Motor 3 Bitfields Bit00 Start motor 1 0 NO 1 YES Bit01 Start motor 2 0 NO 1 YES Bit02 Start motor 3 0 NO i YES P2380 3 Motor staging hours run Min 0 0 Level CStat CUT Datatype Float Unit h Def 0 0 3 P Group TECH Active first confirm
157. d 30 Factory setting Dependency Reset to 0 for inverter to run P0003 user access level also determines access to parameters Note 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 visible 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 will be reset to zero automatically P0010 2 For service purposes only P0010 29 To transfer a parameter file via PC tool e g 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 If P3900 is not 0 0 is the default value this parameter is automatically reset to 0 P0011 Lock for user defined parameter Min O0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group FUNC Active first confirm QuickComm No Max 65535 Details See parameter P0013 user defined parameter P0
158. d 3 P2190 lower torque threshold 3 P2192 delay time for permitted deviation Apply lubrication if required Off1 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 195 Faults and Alarms 3 2 Alarm messages Issue 03 02 Fault Possible Causes Diagnose amp Remedy Reac tion A0501 gt Motor power does not Check the following Off1 Current Limit correspond to the inverter power 14 Motor power P0307 must correspond to inverter gt Motor leads are too long power r0206 gt Earth faults Cable length limits must not be exceeded Motor cable and motor must have no short circuits or earth faults Motor parameters must match the motor in use 5 Value of stator resistance P0350 must be correct 6 Motor must not be obstructed or overloaded gt Increase the ramp up time gt Reduce the boost A0502 Overvoltage limit is reached If this warning is displayed permanently check drive 1 Off1 Overvoltage gt This warning can occur during P t voltage limit ramp down if the dc link controller is disabled P1240 0 A0503 Main supply failed Check main supply voltage P0210 Off UnderVoltage gt Main supply P0210 and Limit consequently DC link voltage R0026 below specified limit P2172 A0504 Warning level of inverter heat sink Check the following Off1 Inverter temperature P0614 is exceeded 1 Ambient temperature must lie within specified OverTe
159. d active drive data set DDS Settings 0 1st Drive data set DDS 1 2nd Drive data set DDS 2 3rd Drive data set DDS Index r0051 0 Selected drive data set r0051 1 Active drive data set Details See parameter P0820 r0052 CO BO Act status word 1 Min Level Datatype U16 Unit Def 3 P Group COMMANDS Max Displays first active status word of inverter bit format and can be used to diagnose inverter status The display segments for the status word are shown in the Introduction to MICROMASTER System Parameters Bitfields Bit00 Drive ready 0 NO YES Bit01 Drive ready to run 0 NO YES Bit02 Drive running 0 NO YES Bit03 Drive fault active 0 NO YES Bit04 OFF2 active 0 YES dH NO Bit05 OFF3 active 0 YES NO Bit06 ON inhibit active 0 NO YES Bit07 Drive varning active 0 NO YES Bit08 Deviation setpoint act value 0 YES NO Bit09 PZD control 0 NO YES Bit10 Maximum frequency reached 0 NO YES Bit11 Warning Motor current limit 0 YES 1 NO Bit12 Motor holding brake active 0 NO YES Bit13 Motor overload 0 YES ab NO Bitl4 Motor runs right 0 NO 1 YES Bit15 Inverter overload 0 YES NO Note Output of Bit3 Fault will be inverted on digital output Low Fault High No Fault Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 17 Parameters Issue 03 02 r0053 CO BO Act status vvord 2 Min Level D
160. d setpoint source BICO requires P0700 set to 2 enable BICO 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 P0842 3 Bl ON reverse OFF1 Min 0 0 Level CStat CT Datatype U32 Unit Def 0 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Allows ON OFF1 reverse command source to be selected using BICO The first three digits describe the parameter number of the command source and the last digit denotes the bit setting for that parameter 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 19 0 ON OFF1 via BOP Index P0842 0 1st Command data set CDS P0842 1 2nd Command data set CDS P0842 2 3rd Command data set CDS Dependency Active only when P0719 0 remote selection of command setpoint source Parameter List MICROMASTER 430 54 6SE6400 5AF00 0BPO Issue 03 02 Parameters
161. diately QuickComm No 4000 0 Selects signals to be transmitted to serial interface via BOP link i r0052 P2016 0 a L052 P2016 1 0021 2016121 P2016 3 0053 r0053 PZD1 PZD2 PZD3 i PZD4 gt zsw1 HW ZSW2 i P2016 7 La P2012 beac STX Start of text x LGE Length 5 ADR Address PKW Parameter ID value eh 2 2 Process data E ler omg Parameter Process data 22 14 Block check character ZSVV Status word USS telegram c HIW Main actual value USS on BOP link gt lt PZD mapping from parameter P2016 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 Index P2016 0 Transmitted word O P2016 1 Transmitted word 1 P2016 2 Transmitted word 2 P2016 3 Transmitted word 3 P2016 4 Transmitted word 4 P2016 5 Transmitted word 5 P2016 6 Transmitted word 6 P2016 7 Transmitted word 7 Note Parameter List If r0052 not indexed display does not show an index 0 MICROMASTER 430 6SE6400 5AF00 0BPO 109 Parameters Issue 03 02 r2018 8 CO PZD from COM link USS Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays process data received via USS on COM link r2018 0 12036 r2018 1 L4 r2018 2 p r2018 3 72037 PZD1 PZD2 PZD3 PZD4 STW1 HSW STW2 r2018 7 La P2012 gt
162. e P0210 must lie within limits gt Overvoltage be caused indicated on rating plate Se by e man supply 2 DC link voltage controller must be enabled Vonage Ori MOOT ISN P1240 and parameterized properly regenerative mode 1 Sec gt Regenerative mode can be 3 Ramp dovvn time P1121 must match inertia of load cause by fast ramp downs or if the motor is driven from an 4 Required braking power must lie within specified active load limits NOTE Higher inertia requires longer ramp times otherwise apply braking resistor F0003 gt Main supply failed Check the following ot UnderVoltage gt load outside specified 1 Supply voltage P0210 must lie within limits limits indicated on rating plate 2 Supply must not be susceptible to temporary failures or voltage reductions F0004 gt Ventilation inadequate Check the following ott Inverter Over gt Ambient temperature is too high 1 Fan must turn when inverter is running Temperature 2 Pulse frequency must be set to default value 3 Ambient temperature could be higher than specified for the inverter F0005 Inverter overloaded Check the following Off1 Inverter I2T Duty eycle too demanding 1 Load duty eycle must lie vvithin specified limits Motor povver P0307 exceeds 2 Motor povver P0307 must match inverter povver inverter povver capability r0206 70206 F0011 Motor overloaded Check the follovving Off1 Parameter List MICROMASTER 430 6SE6400 5AF00
163. e 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 P0346 0 1st Drive data set DDS P0346 1 2nd Drive data set DDS P0346 2 3rd Drive data set DDS Note Notice If boost settings are higher than 100 96 magnetization may be reduced An excessive reduction of this time can result in insufficient motor magnetization P0347 3 Index Demagnetization time Min 0 000 Level CStat CUT Datatype Float Unit s Def 1 000 3 P Group MOTOR Active Immediately QuickComm No Max 20 000 Changes time allowed after OFF2 fault condition before pulses can be re enabled P0347 0 1st Drive data set DDS P0347 1 2nd Drive data set DDS P0347 2 3rd Drive data set DDS Note Notice 28 The demagnetization time is approximately 2 5 x rotor time constant r0384 in seconds Not active following a normally completed ramp down e g after OFF1 OFF3 or JOG Overcurrent trips will occur if the time is decreased excessively Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters P0350131 Stator resistance line to line Min 0 00001 Level CStat CUT Datatype Float Unit Ohm Def 4 00000 3 P Group MOTOR Active Immediately QuickComm No Max 2000 00000
164. e 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 Level CStat CUT Datatype Float Unit 96 Def 0 00 2 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 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 145 Parameters Issue 03 02 P2293 Ramp up down time of PID limit Min 0 00 Level CStat CUT Datatype Float Unit s Def 1 00 3 P Group TECH Active Immediately QuickComm No Max 100 00 Sets maximum ramp rate on output of PID When PI 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 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 12294 CO Act PID output Min Level Datatype Float Unit Def 2 P Group
165. ects function of digital input 3 Settings 0 Digital input disabled 1 ON OFF 1 2 ON reverse OFF1 3 OFF2 coast to standstill 4 OFF3 quick ramp down 9 Fault acknovvledge 10 reserved 11 reserved 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 25 DC brake enable 26 Enable Essential Service 27 Enable PID 28 Bypass mode command input 29 External trip 33 Disable additional freq setpoint 99 Enable BICO parameterization Index P0703 0 1st Command data set CDS P0703 1 2nd Command data set CDS P0703 2 3rd Command data set CDS Details See P0701 function of digital input 1 P0704 3 X Function of digital input 4 Min O0 Level CStat CT Datatype U16 Unit Def 15 2 P Group COMMANDS Active first confirm QuickComm No Max 99 Selects function of digital input 4 Settings 0 Digital input disabled 1 ON OFF 1 2 ON reverse OFF1 3 OFF2 coast to standstill 4 OFF3 quick ramp down 9 Fault acknowledge 10 reserved 11 reserved 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 25 DC brake enable 26 Enable Essential Service 27 Enable PID 28 Bypass mode command input 29 Ex
166. effects of mechanical resonance and suppresses frequencies within P1101 skip frequency bandwidth Index P1094 0 1st Drive data set DDS P1094 1 2nd Drive data set DDS P1094 2 3rd Drive data set DDS Details See P1091 skip frequency 1 P1101 3 Skip frequency bandwidth Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 2 00 3 P Group SETPOINT Active Immediately QuickComm No Max 10 00 Delivers frequency bandwidth to be applied to skip frequencies in Hz Index P1101 0 1st Drive data set DDS P1101 1 2nd Drive data set DDS P1101 2 3rd Drive data set DDS Details See P1091 skip frequency 1 P1110 3 Bi Inhibit neg freq setpoint Min 0 0 Level CStat CT Datatype U32 Unit Def 1 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Inhibits direction reversal thus preventing a negative setpoint from causing motor from running in reverse Instead it will run at minimum frequency P1080 in the normal direction Settings 0 Disabled 1 Enabled Index P1110 0 1st Command data set CDS P1110 1 2nd Command data set CDS P1110 2 3rd Command data set CDS Note It is possible to disable all reverse commands i e the command is ignored To do this set PO719 0 remote selection of command setpoint source and define the command sources P1113 individually Notice This function does not disable the reverse command function rather a reverse
167. election of frequency setpoint 1 CT P1080 Min speed 1 CUT P1082 Max speed 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 P1500 Selection of torque setpoint 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 PO010 1 to their default settings 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 Reset to Factory default Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 9 Parameters Issue 03 02 Seven segment display The seven segment display is structured as follovvs Segment Bit 15 14 13 12 11 10 9 8 Segment Bit 7 6 5 4 3 2 1 0 The significance of the relevant bits in the display is described in the status and control word parameters Parameter List MICROMASTER 430 10 6SE6400 5AF00 0BPO Issue 03 02 1 3 Parameters Para
168. ency f 3 Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 30 00 3 P Group ALARMS Active Immediately QuickComm No Max 650 00 Threshold 3 for comparing speed or frequency to thresholds Index P2159 0 1st Drive data set DDS P2159 1 2nd Drive data set DDS P2159 2 3rd Drive data set DDS Details See diagram in P2157 threshold frequency f 2 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 123 Parameters Issue 03 02 P2160131 Delay time of threshold freq f 3 Min 0 CStat CUT Datatype U16 Unit ms Def 10 P Group ALARMS Active Immediately QuickComm No Max 10000 Level 3 When comparing speed or frequency to threshold f_3 P2159 This is the time delay before status bits are set Index P2160 0 1st Drive data set DDS P2160 1 2nd Drive data set DDS P2160 2 3rd Drive data set DDS Details See diagram in P2157 threshold frequency f_2 P2161 3 Min threshold for freq setp Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 3 00 3 P Group ALARMS Active Immediately QuickComm No Max 10 00 Minimum threshold value for comparing speed or frequency setpoint Index P2161 0 1st Drive data set DDS P2161 1 2nd Drive data set DDS P2161 2 3rd Drive data set DDS Details See diagram in P2151 speed setpoint for monitoring P2162 3 Hysteresis freq for overspeed Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 20
169. ent a 96 of the normalized frequency in P2000 Analog setpoints may be larger than 100 ASPmax represents highest analog setpoint this may be at 10 V or 20 mA ASPmin represents lowest analog setpoint this may be at 0 V or 20 mA Default values provide a scaling of 0 V or 0 mA 0 96 and 10 V or 20 mA 100 P0756 4 P0761 0 gt H r o i S 10V Tt X100 P0758 Index P0757 0 Analog input 1 ADC 1 P0757 1 Analog input 2 ADC 2 Notice The value x2 of ADC scaling P0759 must be greater than the value x1 of ADC scaling P0757 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 45 Parameters Issue 03 02 P0758121 Value y1 of ADC scaling Min 99999 9 Level CStat CUT Datatype Float Unit Def 0 0 2 P Group TERMINAL Active first confirm QuickComm No Max 99999 9 Sets value of Y1 in 96 as described in P0757 ADC scaling Index P0758 0 Analog input 1 ADC 1 P0758 1 Analog input 2 ADC 2 Dependency Affects P2000 to P2003 reference frequency voltage current or torque depending on which setpoint is to be generated P0759 2 Value x2 of ADC scaling V mA Min 20 Level CStat CUT Datatype Float Unit Def 10 2 P Group TERMINAL Active first confirm QuickComm No Max 20 Sets value of X2 as described in P0757 ADC scaling Index P0759 0 Analog input 1 ADC 1 P0759 1 Analog input 2 ADC 2 Notice The value x2 of
170. equency for monitoring behind first order lovvpass filter P2170 3 Threshold current thresh Min 0 0 Level CStat CUT Datatype Float Unit 96 Def 100 0 3 P Group ALARMS Active Immediately QuickComm No Max 400 0 Defines threshold current in 96 relative to P0305 rated motor current to be used in comparisons of act and Thresh as illustrated in the diagram below act gt 1 thresh gt thresh act Delay time current 0 10000 ms Threshold current P2171 D 10 0 0 400 0 96 P2170 D 100 0 Index P2170 0 1st Drive data set DDS P2170 1 2nd Drive data set DDS P2170 2 3rd Drive data set DDS Note This threshold controls bit 3 in status word 3 r0053 Parameter List MICROMASTER 430 126 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2171131 Delay time current CStat CUT Datatype U16 Unit ms P Group ALARMS Active Immediately QuickComm No Min Def Max 0 10 10000 Level Index Defines delay time prior to activation of current comparison P2171 0 1st Drive data set DDS P2171 1 2nd Drive data set DDS P2171 2 3rd Drive data set DDS Details See diagram in P2170 threshold current thresh P2172 3 Threshold DC link voltage CStat CUT Datatype U16 Unit V P Group ALARMS Active Immediately QuickComm No Min Def Max 0 800 2000 Level Index Defines DC link voltage to be compared to actual voltage
171. er List MICROMASTER 430 130 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2185 3 Upper torque threshold 1 Min 0 0 Level CStat CUT Datatype Float Unit Nm Def 99999 0 3 P Group ALARMS Active Immediately QuickComm No Max 99999 0 Upper limit threshold value 1 for comparing actual torque Index P2185 0 1st Drive data set DDS P2185 1 2nd Drive data set DDS P2185 2 3rd Drive data set DDS Details See P2182 belt threshold frequency 1 P2186 3 Lower torque threshold 1 Min 0 0 Level CStat CUT Datatype Float Unit Nm Def 0 0 3 P Group ALARMS Active Immediately QuickComm No Max 99999 0 Lower limit threshold value 1 for comparing actual torque Index P2186 0 1st Drive data set DDS P2186 1 2nd Drive data set DDS P2186 2 3rd Drive data set DDS Details See P2182 belt threshold frequency 1 P2187 3 Upper torque threshold 2 Min 0 0 Level CStat CUT Datatype Float Unit Nm Def 99999 0 3 P Group ALARMS Active Immediately QuickComm No Max 99999 0 Upper limit threshold value 2 for comparing actual torque Index P2187 0 1st Drive data set DDS P2187 1 2nd Drive data set DDS P2187 2 3rd Drive data set DDS Details See P2182 belt threshold frequency 1 P2188 3 Lower torque threshold 2 Min 0 0 Level CStat CUT Datatype Float Unit Nm Def 0 0 3 P Group ALARMS Active Immediately QuickComm No Max 99999 0
172. er of faults Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group ALARMS Active first confirm QuickComm No Max 8 Displays number of faults stored in P0947 last fault code Dependency Setting 0 resets fault history changing to 0 also resets parameter r0948 fault time r0964 5 Firmware version data Min Level Datatype U16 Unit Def 3 P Group COMM Max Firmvvare version data Example No Value Meaning r0964 0 SIEMENS r0964 1 MICROMASTER 420 MICROMASTER 440 MICRO COMBIMASTER 411 MICROMASTER 410 reserved MICROMASTER 440 PX MICROMASTER 430 r0964 2 Firmware V1 05 r0964 3 27 10 2001 r0964 4 2710 Index r0964 0 Company Siemens 42 r0964 1 Product type r0964 2 Firmware version r0964 3 Firmware date year r0964 4 Firmware date day month r0965 Profibus profile Min Level Datatype U16 Unit Def 3 P Group COMM Max Identification for PROFIDrive Profile number and version Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 59 Parameters Issue 03 02 r0967 Control vvord 1 Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays control vvord 1 Bitfields Bit00 ON OFF1 0 NO Ag YES Bitol OFF2 Electrical stop 0 YES 1 NO Bit02 OFF3 Fast stop 0 YES NO Bit03 Pulse enable 0 NO YES Bit04 RFG enable 0 NO Il YES Bit05 RFG start 0 NO YES Bit06 Setpoint enable 0 NO YES Bit0
173. er of motor pole pairs that the inverter is currently using for internal calculations r0313 z 1 2 pole motor r0313 z 2 4 pole motor etc r0313101 1st Drive data set DDS r0313 1 2nd Drive data set DDS r0313 2 3rd Drive data set DDS Dependency Recalculated automatically when P0310 rated motor frequency or P0311 rated motor speed is changed P0320 3 26 Motor magnetizing current Min 0 0 Level CStat CT Datatype Float Unit 96 Def 0 0 3 P Group MOTOR Active Immediately QuickComm Yes Max 99 0 Index Defines motor magnetization current in 76 relative to PO305 rated motor current P0320 0 1st Drive data set DDS P0320 1 2nd Drive data set DDS P0320 2 3rd Drive data set DDS Dependency Affected by P0366 P0369 magnetizing curve imag 1 4 Setting 0 causes calculation by P0340 1 data entered from rating plate or by P3900 1 3 end of quick commissioning Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters r0330131 Rated motor slip Min Level Datatype Float Unit Def 3 P Group MOTOR Max Displays nominal motor slip in relative to P0310 rated motor frequency and P0311 rated motor speed P0310 gl 10313 r0330 60 100 96 P0310 Index r0330 0 1st Drive data set DDS r0330 1 2nd Drive data set DDS r0330 2 3rd Drive data set DDS r0331
174. es ems cop e rp e ome qo E 1 36 es T xew 0070 G eebld 0070 U ZEL ld s 00 07 0070 s 00 07 7 0070 pul uy ump dwey pull l UMp duley 0070 a LEL Le 000 d o LLd 151 0007 0010 S opp 0070 pus euy dn dwey pul ul dn dwey 0 dyekid 170 1 Y d Buipunoy S 0121 NO HHMOd 039Z 93H 199 938 lqeuz WSpues e o 0 Bung Oz 4015 A 0 1 0211 4 94 18 0 1 2 4 dies ejgeue 94 18 0 1 2 LL Ups 93 4 ZH 933 e10jeq djes 09 Wav woy MICROMASTER 430 6SE6400 5AF00 0BPO Parameter List 188 Function Diagrams Issue 03 02 oer H3 LSVINOSOIIN O ZA 2002 1006 PSA A 0019 104002 JO HA Jojejnpouu o mdino eBeyoA Sc00 HOA djnopy 102 JOJe npouu 0 ndjno 9200 bau dinoqoy 09 joguoo Xeul yu Buidwep eoueuoses 8t ld lt ver dyno H xew op lt even dino4 H xeu 023 Anuanbey 10 M Joye dies o9 1200 uonesu duloo dis Seeld 0201 T Y llonuoo xeupA Oveld dn p lnq BENOA DCL d xeu LPCLd ygs Du 0021 4 RS M 1 a oo Ld S o uo O4 alojaq djes 09 eii ZLELd OLELd ysooq eDeyoA onsuepeieuo VA DEL 0 0 y 1ueuno indino 09 06614
175. es the reciprocal initial gradient in the search sequence see curve below Parameter P1203 influences the time taken to search for the motor frequency fmax 2 fslip nom P1082 2 r0330 P0310 100 fmotor 0 P1203 fslip nom 2 oq A 2 96 r0330 P0310 Af Hz 1 ms 1203 1761 100 The search time is the time taken to search through all frequencies between max frequency P1082 2 x f_slip to 0 Hz 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 of f_slip nom ms Example For a motor with 50 Hz 1350 rpm 100 would produce a maximum search time of 600 ms If the motor is turning the motor frequency is found in a shorter time Index P1203 0 1st Drive data set DDS P1203 1 2nd Drive data set DDS P1203 2 3rd Drive data set DDS Note Parameter List A higher value produces a flatter gradient and thus a longer search time A lower value has the opposite effect MICROMASTER 430 6SE6400 5AF00 0BPO 81 Parameters Issue 03 02 P1210 Automatic restart Min 0 Level CStat CUT Datatype U16 Unit Def 1 3 P Group FUNC Active first confirm QuickComm No Max 6 Configures automatic restart function Settings 0 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 P1
176. eset Dependency First set P0010 30 factory settings Stop drive i e disable all pulses before you can reset parameters to default values Note The following parameters retain their values after a factory reset P0918 CB address P2010 USS baud rate P2011 USS address P0971 Transfer data from RAM to EEPROM Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group COMM Active first confirm QuickComm No Max 1 Transfers values from RAM to EEPROM when set to 1 Settings 0 Disabled 1 Start transfer Note All values in RAM are transferred to EEPROM Parameter is automatically reset to O default after successful transfer Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 61 Parameters Issue 03 02 P1000131 Selection of frequency setpoint Min 0 Level CStat CT Datatype U16 Unit Def 2 1 P Group SETPOINT Active first confirm QuickComm Yes Max 77 Selects frequency setpoint source n the table of possible settings below the main setpoint is selected from the least significant digit i e O to 7 and any additional setpoint from the most significant digit e xO through to x7 Example Setting 12 selects main setpoint 2 derived from analog input with additional setpoint 1 taken from the motor potentiometer Example P1000 12 P1070 Cl Main setpoint P1000 12 P1070 755 r0755 CO Act ADC after scal 4000h P1075 CI Additional setpoint P1000 12 P1075 1050
177. eter is updated when motor start up time P0345 is changed or when a speedloop optimisation is performed P1960 1 Caution1 When the delay in P0494 is set to 0 then low speed encoder loss detection is disabled and low speed encoder loss cannot be detected high speed encoder loss detection will still operate if P0492 gt 0 If low speed encoder loss detection is disabled and encoder should be lost at low speed then operation of motor may become unstable P0500131 Technological application Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group TECH APL Active first confirm QuickComm Yes Max 1 Selects technological application Sets control mode P1300 Settings 0 Constant torque 1 Pumps and fans ndex P0500101 1st Drive data set DDS P0500 1 2nd Drive data set DDS P0500 2 3rd Drive data set DDS Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 31 Parameters Issue 03 02 P0601131 Motor temperature sensor Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group MOTOR Active first confirm QuickComm No Max 2 Selects motor temperature sensor Settings 0 No sensor 1 PTC thermistor 2 KTY84 Index P0601 0 1st Drive data set DDS PO601111 2nd Drive data set DDS PO60112 3rd Drive data set DDS Dependency If no sensor is selected the motor temperature monitoring will be done based on the estimated value of the thermal motor model The
178. for P0100 according to the table below DIP2 P0100 setting Meaning setting Meaning Power kW Power hp OFF frequency default 50 Hz overwrites 1 frequency default 60 Hz Power hp Power kW ON frequency default 60 Hz overwrites 0 frequency default 50 Hz Stop drive first i e disable all pulses before you change this parameter P0010 1 commissioning mode enables changes to be made 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 Notice P0100 setting 2 gt kW frequency default 60 Hz is not overwritten by the setting of DIP switch 2 see table above Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 21 Parameters Issue 03 02 P0199 Equipment system number Min 0 Level CStat UT Datatype U16 Unit Def 0 2 P Group Active first confirm QuickComm No Max 255 Equipment system number This parameter has no operation effect r0200 Act power stack code number Min Level Datatype U32 Unit Def 3 P Group INVERTER Max Identifies hardware variant as shown in table below 2007 sap cnn A m ao ra ssesssv zap r scao 3AC960 480V 10 10 47 6aHe 75 Pao c EE n aa em o ssess v zupsz zpao 3AC380 480v 10 varese 22 no Fm o Ls esc as ucun any occ
179. for the RS FlipFlop Parameter List MICROMASTER 430 160 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2846 2 BI RS FF 3 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No 4000 0 P2846101 P2846 1 define inputs of RS FlipFlop 3 outputs are P2847 P2848 Index P2846 0 Binector input Set P2846 1 Binector input Reset Dependency P2801 16 is active level for the RS FlipFlop 12847 BO Q RS FF 3 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays output of RS FlipFlop 3 inputs are defined in P2846101 P2846 1 Dependency P2801 16 is active level for the RS FlipFlop 2848 BO NOT Q RS FF 3 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays Not output of RS FlipFlop 3 inputs are defined in P2846101 P2846111 Dependency P2801 16 is active level for the RS FlipFlop Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 161 Parameters Issue 03 02 P2849 BI Timer 1 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 Define input signal of timer 1 P2849 P2850 P2851 are the inputs of the timer outputs are P2852 P2853 P2850 0 000 P2851 0 P2800 P2802 0 Delay Time Mode ON Delay 12852 12853 Out P2850 P2851 1 OFF Delay i 4 P2850 4
180. h up to 3 further pumps fans controlled from contactors or motor starters The contactors or motor starter are controlled by outputs from the inverter The diagram below shows a typical pumping system A similar system could be set up using fans and air ducts instead of pumps and pipes Mains Pressure Sensor Inverter Motor Starters To Inverter PID Input By default the motor startes are controlled from relay outputs DOUT In the text below the following terminology will be used MV Variable speed Inverter controlled motor M1 Motor switched with relay 1 DOUT 1 M2 Motor switched with relay 2 DOUT 2 M3 Motor switched with relay 3 DOUT 3 Staging The process of starting one of the fixed speed motors De staging The process of stopping one of the fixed speed motors When the inverter is running at maximum frequency and the PID feedback indicates that a higher speed is required the inverter switches on stages one of the relay controlled motors M1 to M3 At the same time to keep the controlled variable as constant as possible the inverter must ramp down to minimum frequency Therefore during the staging process PID control must be suspended see P2378 and diagram below Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 147 Parameters Issue 03 02 Staging of external motors M1 M2 M3 Switch on 23 2 4 gt 6 LA P2371 0 1 M1 M1 M1 M1 M1 M1 M1 2 M1
181. he signal tos motor thermal model Parameter List MICROMASTER 430 196 6SE6400 5AF00 0BPO Issue 03 02 Faults and Alarms Fault Possible Causes Diagnose amp Remedy Reac tion A0520 Warning level of rectifier heat sink Check the following Off1 Rectifier temperature P is exceeded 1 Ambient temperature must lie within specified OverTemperat limits ure 2 Load conditions and duty cycle must be appropriate 3 Fan must turn when drive is running A0521 Warning level of ambient temperature Check the following Off1 Ambient P is exceeded 1 Ambient temperature must lie within specified OverTemperat limits ure 2 Fan must turn when drive is running 3 fan intake air has to be without any resistance A0523 One phase of output is disconnected 1 Warning can be masked Off1 Output fault A0541 Motor data identification P1910 Off1 Motor Data selected or running Identification Active A0590 Signal from Encoder lost and Inverter Stop inverter and then Off1 Encoder 270 to sensorless vector 1 Check encoder fitted If encoder not fitted set feedback loss COMO P400 0 and select SLVC mode P1300 20 or warning 22 2 Check connections between encoder and inverter Check encoder not faulty select P1300 0 run at fixed speed check encoder feedback signal in P66 4 Increase encoder loss threshold in P492 A0600 Off1 RTOS Overrun VVarning A0700 CB communication board specific See CB u
182. i 7 STX Start of text ee LGE Length 0 ADR Address 1 En PKW Parameter ID value se S ADR EA eom data PZD Process data 1 Block check character USS telegram STW Control word EX HSW Main setpoint USS on COM link 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 r2018 4 Received word 4 r2018 5 Received word 5 r2018 6 Received word 6 r2018 7 Received word 7 Note The control words can be viewed as bit parameters r2036 and r2037 Parameter List MICROMASTER 430 110 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2019 8 Cl PZD to COM link USS Min 0 0 Level CStat CT Datatype U32 Unit Def 52 0 3 P Group COMM Active Immediately QuickComm No 4000 0 Displays process data received via USS on COM link r0052 P2019 0 e 0052 P2019 1 0021 P2019 2 P2019 3 0093 r0053 PZD1 PZD2 PZD3 PZD4 ZSW1 HIW ZSW2 P2019 7 P2012 gt S STX Start of text LGE Length 2 ADR Address Bn c PKW Parameter ID value el ERN PZD Process data E ler mI Parameter Process data mz BCC Block check character ZSVV Status word USS telegram HIW main actual value USS on COM link gt PZD mapping from parameter P2019 Index P2019 0 Transmitted word 0 P2019 1 Transmitted word 1 P2019 2
183. ia 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 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters P1210 Blackout F0003 Brownout F0003 All other faults without power cycle All other faults with power cycle ON command enabled during Power OFF Fault acknowledge Fault acknowledge Fault acknowledge restart Fault acknowledge restart Fault acknowledge restart Fault acknowledge restart Fault acknowledge restart Fault acknowledge restart Fault acknowledge restart Fault acknowledge restart Fault acknowledge restart Fa
184. ice Parameter List 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 MICROMASTER 430 6SE6400 5AF00 0BPO 133 Parameters Issue 03 02 P2201 3 Fixed PID setpoint 1 Min 200 00 Level CStat CUT Datatype Float Unit Def 0 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Defines Fixed PID Setpoint 1 In addition you can set any of the digital input parameters to fixed PID setpoint FF PID via the digital inputs P0701 P0706 There are three selection modes for the PID fixed setpoint 1 Direct selection P0701 15 or P0702 15 etc In this mode of operation 1 digital input selects one PID fixed setpoint 2 Direct selection with ON command P0701 16 or P0702 16 etc Description as for 1 except that this type of selection issues an ON command concurrent with any setpoint selection 3 Binary Coded Decimal selection P0701 P0706 17 Using this method to select the fixed PID setpoint FF PID allows you to choose up to 16 different PID setpoints The setpoints are selected according to the following table Example DIN4 DIN3 DIN2 DIN1 OFF Inactive Inactive Inactive Inactive P2201 PID FF1 Inactive Inactive Inactive Active
185. in Level Datatype U16 Unit Def 3 P Group COMM Max Displays diagnostic information of communication board CB r2054 0 CB diagnosis 0 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 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters r2090 BO Control vvord 1 from CB Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays control word 1 received from communication board CB Bitfields Bit00 ON OFF1 0 NO als YES Bitol OFF2 Electrical stop 0 YES 1 NO Bit02 OFF3 Fast stop 0 YES NO Bit03 Pulse enable 0 NO X YES Bit04 RFG enable 0 NO 1 YES Bit05 RFG start 0 NO 1 YES Bit06 Setpoint enable 0 NO YES Bit07 Fault acknovledge 0 NO 1 YES Bit08 UOG right 0 NO 1 YES Bit09 JOG left 0 NO 1 YES Bit10 Control from PLC 0 NO 1 YES Bitit Reverse setpoint inversion 0 NO 1 YES Bit13 Motor potentiometer MOP up 0 NO 1 YES Bitl4 Motor potentiometer MOP dovn 0 NO 1 YES Bit15 CDS Bit 0 Local Remote 0 NO E YES Details See relevant communication board manual for protocol definition and appropriate settings r2091 BO Control word 2 from CB Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays control word 2 received from c
186. ine inputs of XOR 1 element output is P2823 P2800 P2801161 A B Cc 0 0 0 0 1 1 TRUE B z 1 1 0 Index P2822 0 Binector input 0 BI 0 P2822 1 Binector input 1 BI 1 Dependency P2801 6 is active level for the XOR element 2823 1 Min Level Datatype U16 Unit Def 3 P Group TECH Max Output of XOR 1 element Displays exclusive or logic of bits defined in P2822 0 P2822111 Dependency P2801 6 is active level for the XOR element P2824 2 Bl XOR 2 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2824101 P2824 1 define inputs of XOR 2 element output is P2825 Index P2824 0 Binector input 0 BI 0 P2824 1 Binector input 1 BI 1 Dependency P2801 7 is active level for the XOR element Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 157 Parameters Issue 03 02 2825 2 Min Level Datatype U16 Unit Def 3 P Group TECH Max Output of XOR 2 element Displays exclusive or logic of bits defined in P2824101 P2824111 Dependency P2801 7 is active level for the XOR element P2826 2 BI XOR 3 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2826 0 P2826 1 define inputs of XOR 3 element output is P2827 I
187. 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 Index P1074 0 1st Command data set CDS P1074 1 2nd Command data set CDS P1074 2 3rd Command data set CDS P1075 3 Cl Additional setpoint Min 0 0 Level CStat CT Datatype U32 Unit Def 0 0 3 P Group SETPOINT Active first confirm QuickComm No Max 4000 0 Defines source of the additional setpoint to be added to main setpoint Settings 755 Analog input 1 setpoint 1024 Fixed frequency setpoint 1050 Motor potentiometer MOP setpoint Index P1075 0 1st Command data set CDS P1075 1 2nd Command data set CDS P1075 2 3rd Command data set CDS P1076 3 Cl Additional setpoint scaling Min 0 0 Level CStat CT Datatype U32 Unit Def 1 0 3 P Group SETPOINT Active first confirm QuickComm No Max 4000 0 Defines source of scaling for additional setpoint to be added to main setpoint Settings 1 Scaling of 1 0 100 755 Analog input 1 Setpoint 1024
188. integer Float Floating point Active Indicates whether Immediately changes to the parameter values take effective immediately after they have been entered or first confirm the P button on the operator panel BOP or AOP must be pressed before the changes take effect Unit ndicates 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 The number of parameters that appear in each functional group depends on the access level set in P0003 user access level Description 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 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 applica
189. ions inverter overtemperature see P0290 this can differ from the values selected in P1800 pulse frequency P1802 Modulator mode Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group INVERTER Active first confirm QuickComm No Max 3 Selects inverter modulator mode Settings 0 SVM ASVM automatic mode 1 Asymmetric SVM 2 Space vector modulation 3 SVM ASVM controlled mode Notice Asymmetric space vector modulation ASVM produces lower switching losses than space vector modulation SVM but may cause irregular rotation at very low speeds 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 P1820 3 Reverse output phase sequence Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group INVERTER Active first confirm QuickComm No Max 1 Changes direction of motor rotation without changing setpoint polarity Settings 0 OFF 1 ON Index P1820 0 1st Drive data set DDS P1820 1 2nd Drive data set DDS P1820 2 3rd Drive data set DDS 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 Parameter List MICROMASTER 430 102 6SE6400 5AF00 0BPO
190. ires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 Note P0820 is also relevant for drive data set DDS selection P0840 3 Bl ON OFF1 Min 0 0 Level CStat CT Datatype U32 Unit Def 722 0 3 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 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 19 0 ON OFF1 via BOP Index P0840101 1st Command data set CDS P0840 1 2nd Command data set CDS P0840 2 3rd Command data set CDS Dependency Active only when P0719 0 remote selection of comman
191. is will cause instability forward control effect P1340 3 Imax controller prop gain Min 0 000 Level CStat CUT Datatype Float Unit Def 0 000 3 P Group CONTROL Active Immediately QuickComm No Max 0 499 Proportional gain of the max frequency controller The Imax controller reduces inverter current if the output current exceeds the maximum motor current r0067 In linear V f parabolic V f FCC and programmable V f modes the max controller uses both a frequency controller see parameters P1340 and P1341 and a voltage controller see parameters P1344 and P1345 The frequency controller seeks to reduce current by limiting the inverter output frequency to a minimum of the two times nominal slip frequency If this action does not successfully remove the overcurrent condition the inverter output voltage is reduced using the max voltage controller When the overcurrent condition has been removed successfully frequency limiting is removed using the ramp up time set in P1120 In linear V f for textiles FCC for textiles or external V f modes only the max voltage controller is used to reduce current See parameters P1345 and P1346 Index P1340 0 1st Drive data set DDS P1340 1 2nd Drive data set DDS P1340 2 3rd Drive data set DDS Note The max controller can be disabled by setting the frequency controller integral time P1341 to zero This disables both the frequency and voltage controllers Note that when disab
192. ixed frequencies 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command 1 Direct selection P0701 P0706 15 In this mode of operation 1 digital input selects 1 fixed frequency If several inputs are active together the selected frequencies are summed E g FF1 FF2 FF3 FF4 FF5 FF6 2 Direct selection ON command P0701 P0706 16 The fixed frequency selection combines the fixed frequencies with an ON command In this mode of operation 1 digital input selects 1 fixed frequency If several inputs are active together the selected frequencies are summed E g FF1 FF2 FF3 FF4 FF5 FF6 3 Binary coded selection ON command P0701 P0706 17 Up to 16 fixed frequencies can be selected using this method The fixed frequencies are selected according to the following table Example DIN4 DIN3 DIN2 DIN1 OFF Inactive Inactive Inactive Inactive P1001 FF1 Inactive Inactive Inactive Active P1002 FF2 Inactive Inactive Active Inactive P1003 FF3 Inactive Inactive Active Active P1004 FF4 Inactive Active Inactive Inactive P1005 FF5 Inactive Active Inactive Active P1006 FF6 Inactive Active Active Inactive P1007 FF7 Inactive Active Active Active P1008 FF8 Active Inactive Inactive Inactive P1009 FF9 Active Inactive Inactive Active P1022 FF10 Active Inactive Active Inactive P1011 FF11 Active Inactive Active Active P1012
193. k the following Off1 Vdc max activated since controller is not y Input voltage P0210 must lie within range controller de capable of keeping DC link activated voltage r0026 within limits 2 Load must be match ud P2172 gt Occurs if main supply voltage P0210 is permanently too high gt Occurs if motor is driven by an active load causing motor to goes into regenerative mode gt Occurs at very high load inertias when ramping down A0911 Vdc max controller is active so ramp Off Vdc max down times will be increased troll automatically to keep DC link voltage a er r0026 within limits P2172 A0912 Vdc min controller will be activated if Off1 Vde min DC link voltage r0026 falls below controller minimum level P2172 active The kinetic energy of the motor is used to buffer the DC link voltage thus causing deceleration of the drive So short mains failures do not necessarily lead to an undervoltage trip 198 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Faults and Alarms Fault Possible Causes Diagnose amp Remedy Reac tion A0920 ADC parameters should not be set to Off1 ADC identical values since this would parameters produce illogical results not set Index 0 Parameter settings for properly output identical Index 1 Parameter settings for input identical Index 2 Parameter settings for input do not correspond to ADC type A0921 DAC p
194. l Datatype Float Unit Def 3 P Group CONTROL Max Displays actual power factor Dependency Applies when V f control is selected in P1300 control mode otherwise the display shows the value zero r0039 CO Energy consumpt meter kWh Min Level Datatype Float Unit kWh Def 3 P Group INVERTER Max Displays electrical energy used by inverter since display vvas last reset see P0040 reset energy consumption meter Dependency Value is reset when P0010 1 P3900 1 3 quick commissioning P0010 30 P0970 1 factory reset or P0040 1 reset energy consumption meter P0040 Reset energy consumption meter Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group INVERTER Active first confirm QuickComm No Max 1 Resets value of parameter r0039 energy consumption meter to zero Settings 0 No reset 1 Reset r0039 to 0 Dependency No reset until P is pressed r0050 CO Active command data set Min Level Datatype U16 Unit Def 2 P Group COMMANDS Max Displays currently selected and active command data set CDS Settings 0 1st Command data set CDS 1 2nd Command data set CDS 2 3rd Command data set CDS Details See parameter P0810 Parameter List MICROMASTER 430 16 6SE6400 5AF00 0BPO Issue 03 02 Parameters r0051121 CO Active drive data set DDS Min Level Datatype U16 Unit Def 2 P Group COMMANDS Max Displays currently selected an
195. lection 2 Direct selection ON command 3 Binary coded selection ON command P2218 Fixed PID setpoint mode Bit 2 Min 1 Level CStat CT Datatype U16 Unit Def 1 3 P Group TECH Active first confirm QuickComm No Max BCD or direct selection Bit 2 for PID setpoint Settings 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command P2219 Fixed PID setpoint mode Bit 3 Min 1 Level CStat CT Datatype U16 Unit Def 1 3 P Group TECH Active first confirm QuickComm No Max BCD or direct selection Bit 3 for PID setpoint Settings 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command P2220 3 BI Fixed PID setp select Bit 0 Min 0 0 Level CStat CT Datatype U32 Unit Def 0 0 3 P Group COMMANDS Active first confirm QuickComm No 4000 0 Defines command source of fixed 1 setpoint selection Bit 0 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 Index P2220 0 1st
196. led the max controller will take no action to reduce current but overcurrent warnings will still be generated and the Drive will trip in excessive overcurrent or overload conditions P1341 3 Imax controller integral time Min 0 000 Level CStat CUT Datatype Float Unit s Def 0 300 3 P Group CONTROL Active Immediately QuickComm No Max 50 000 Integral time constant of the max frequency controller P1341 0 1 max frequency and voltage controllers disabled P1340 0 and P1341 gt 0 frequency controller enhanced integral P1340 0 and P1341 0 frequency controller normal PI control See description in parameter P1340 for further information Index 100 P1341 0 1st Drive data set DDS P1341 1 2nd Drive data set DDS P1341 2 3rd Drive data set DDS Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters r1343 CO Imax controller freq output Min Level Datatype Float Unit Hz Def 3 P Group CONTROL Max Displays effective frequency limitation Dependency If _max controller not in operation parameter normally shows max frequency P1082 11344 CO Imax controller volt output Min Level Datatype Float Unit V Def 3 P Group CONTROL Max Displays amount by which the max controller is reducing the inverter output voltage P1345 3 Imax controller prop gain Min 0 000 Level CStat CUT Datatype Float Unit Def 0 250 3 P Group CONT
197. log input scaled using ASPmin and ASPmax Analog setpoint ASP from the analog scaling block can 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 Example ASPmin 300 96 ASPmax 100 96 then 16384 represents 300 96 This parameter will vary from 5461 to 16364 ASPmin 200 96 ASPmax 100 then 16384 represents 200 96 This parameter will vary from 16384 to 8192 Index r0755 0 Analog input 1 ADC 1 r0755 1 Analog input 2 ADC 2 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 0 V Details Parameter List See parameters P0757 to P0760 ADC scaling MICROMASTER 430 6SE6400 5AF00 0BPO 43 Parameters Issue 03 02 P0756121 Type of ADC Min 0 Level CStat CT Datatype U16 Unit Def 0 2 P Group TERMINAL Active first confirm QuickComm No Max 4 Defines type of analog input and also enables analog input monitoring To switch over from voltage to current analog input it is not sufficient to merely modify parameter P0756 Rather the DIPs on the terminal board must also be set to the correct position The DIP settings are as follows OFF voltage input 10 V ON current input 20 mA Allocati
198. lue of analog output in V or mA after filtering and scaling Index r0774 0 Analog output 1 DAC 1 r0774 1 Analog output 2 DAC 2 P0776 2 Type of DAC Min 0 Level CStat CT Datatype U16 Unit Def 0 2 P Group TERMINAL Active first confirm QuickComm No Max 1 Defines type of analog output Settings 0 Current output 1 Voltage output Index P0776 0 Analog output 1 DAC 1 P0776 1 Analog output 2 DAC 2 Note 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 or 26 27 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 49 Parameters Issue 03 02 P0777 2 Value x1 of DAC scaling Min 99999 0 Level CStat CUT Datatype Float Unit Def 0 0 2 P Group TERMINAL Active first confirm QuickComm No Max 99999 0 Defines x1 output characteristic in 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 signal mA 20 mA P0780 P0778 1 P0777 P0779 D o 0 10096 x1 x2 10096 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 0 096 O mA or OV and P2 100 0 96 20 mA or 20 V Index P07
199. meter Description r0000 Drive display Min Level Datatype U16 Unit Def 1 P Group ALVVAYS Max Displays the user selected output as defined in P0005 Note Pressing the Fn button for 2 seconds allovvs the user to vievv the values of DC link voltage output frequency output voltage output current and chosen r0000 setting defined in P0005 r0002 Drive state Min Level Datatype U16 Unit Def 3 P Group COMMANDS Max Displays actual drive state Settings 0 Commissioning mode P0010 0 1 Drive ready 2 Drive fault active 3 Drive starting DC link precharging 4 Drive running 5 Stopping ramping down Dependency State 3 visible only while precharging DC link and when externally powered communications board is fitted P0003 User access level Min 0 Level CStat CUT Datatype U16 Unit Def 1 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 Settings 0 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 P0004 Parameter filter Min 0 Level CStat CUT Datatype U16 Unit Def 0 1 P Group
200. mperat resulting in pulse frequency reduction limits and or output frequency reduction ue depending on parametrization in 2 Load conditions and duty cycle must be P0610 appropriate A0505 Warning level exceeded current will Check that duty cycle lies within specified limits Off1 Inverter I2T be reduced if parameterized P0610 1 A0506 Difference between heatsink and Check that duty cycle and shock loads lie within Off1 Inverter duty IGBT junction temperature exceeds specified limits cycle warning limits A0511 gt Motor overloaded Independently of the kind of temperature Off1 Motor gt Load duty cycle too high determination check OverTemperat 1 P0604 motor temperature warning threshold ure I2T 2 P0625 motor ambient temperature If P601 0 or 1 Check the following 1 Check if name plate data are correct if not perform quick commissioning 2 Accurate equivalent circuit data can be found by performing motor identification P1910 1 3 Check if motor weight P344 is reasonable Change if neccesary 4 Via P626 P627 P628 the standard overtemperatures can be changed if the motor is nota Siemens standard motor If P601 2 Check the following 1 Check if temperature shown in r35 is reasonable 2 Checkifthe sensor is a KTY84 other sensors are not supported A0512 Wire break to motor temperature Off1 Motor sensor If a wire breakage is be detected temperature monitoring t t Sie svvitches over to monitoring vvith t
201. n Index P2192 0 1st Drive data set DDS P2192 1 2nd Drive data set DDS P2192 2 3rd Drive data set DDS 12197 CO BO Monitoring word 1 Min Level Datatype U16 Unit Def 3 P Group ALARMS Max Monitoring vvord 1 vvhich indicates the state of monitor functions Each bit represents one monitor function Bitfields Bit00 Act freq r0021 lt P1080 f min 0 NO 1 YES Bit01 Act freq r0021 lt P2155 f 1 0 NO 1 YES Bit02 Act freq r0021 gt P2155 f 1 0 NO 1 YES Bit03 Act freq r0021 5 zero 0 NO 1 YES Bit04 Act freq r0021 gt setp 0 NO 1 YES Bit05 Act freq r0021 lt P2167 f off 0 NO X YES Bit06 Act freq r0021 gt P1082 f max 0 NO 1 YES Bit07 Act freq r0021 setp 0 NO x YES Bit08 Act current r0068 gt P2170 0 NO 1 YES Bit09 Act unfilt Vdc lt P2172 0 NO 1 YES Bit10 Act unfilt Vdc s P2172 0 NO 1 YES Bit11 No load condition 0 NO 1 YES r2198 CO BO Monitoring word 2 Min Level Datatype U16 Unit Def 3 P Group ALARMS Max Monitoring vvord 2 vvhich indicates the state of monitor functions Each bit represents one monitor function Bitfields Bit00 n filtered r2169 P2157 0 NO 1 YES Bit01 n filtered r2169 gt P2157 0 NO 1 YES Bit02 n filtered r2169 P2159 0 NO 1 YES Bit03 n filtered r2169 5 P2159 0 NO 1 YES Bit04 n set lt P2161 0 NO YES Bit05 n set s 0 0 NO 1 YES Bit06 Motor blocked 0 N
202. n the individual data points V f with programmable characteristic P1300 3 has 3 programmable points The two non programmable points are Continuous boost P1310 at zero 0 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 programmable characteristic MICROMASTER 430 6SE6400 5AF00 0BPO 97 Parameters Issue 03 02 P1321131 Index Programmable V f volt coord 1 Min 0 0 Level CStat CUT Datatype Float Unit V Def 0 0 3 P Group CONTROL Active Immediately QuickComm No Max 3000 0 See P1320 programmable V f freq coord 1 P1321 0 1st Drive data set DDS P1321 1 2nd Drive data set DDS P1321 2 3rd Drive data set DDS P1322 3 Index Programmable V f freq coord 2 CStat CT Datatype Float Unit Hz Def 0 00 3 P Group CONTROL Active Immediately QuickComm No Max 650 00 See P1320 programmable V f freq coord 1 P1322 0 1st Drive data set DDS P1322 1 2nd Drive data set DDS P1322 2 3rd Drive data set DDS P1323 3 Programmable V f volt coord 2 Min 0 0 Level CStat CUT Datatype Float Unit V Def 0 0 3 P Group CONTROL Active Immediately QuickComm No Max 3000 0 See P1320 programmable V f freq coord 1 Index P1323 0 1st Drive data set DDS P1323 1 2nd
203. nable ADD 2 P2802 6 Enable SUB 1 P2802 7 Enable SUB 2 P2802 8 Enable MUL 1 P2802 9 Enable MUL 2 P2802 10 Enable DIV 1 P2802 11 Enable DIV 2 P2802 12 Enable CMP 1 P2802 13 Enable CMP 2 Dependency Set P2800 to 1 to enable function blocks All active function blocks will be calculated in every 132 ms P2810 2 Bl AND 1 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2810 0 P2810 1 define inputs of AND 1 element output is P2811 P2800 P2801101 P2810 Index P2810 0 Binector input 0 BI 0 P2810 1 Binector input 1 BI 1 Dependency P2801 0 is active level for the AND element Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 155 Parameters Issue 03 02 r2811 BO AND 1 Min Level Datatype U16 Unit Def 3 P Group TECH Max Output of AND 1 element Displays and logic of bits defined in P2810101 P2810111 Dependency P2801 0 is active level for the AND element P2812 2 Bl AND 2 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2812 0 2812 1 define inputs of AND 2 element output is P2813 Index P2812 0 Binector input 0 BI 0 P2812 1 Binector input 1 BI 1 Dependency P2801 1 is active level f
204. nd data set CDS Dependency Accessible only if P0701 P0706 99 function of digital inputs BICO P1021 3 BI Fixed freq selection Bit 1 Min 0 0 Level CStat CT Datatype U32 Unit Def 0 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines origin of fixed frequency selection Index P1021 0 1st Command data set CDS P1021 1 2nd Command data set CDS P1021 2 3rd Command data set CDS Dependency Accessible only if P0701 P0706 99 function of digital inputs BICO Details See P1020 fixed frequency selection Bit 0 for most common settings P1022 3 Bl Fixed freq selection Bit 2 Min 0 0 Level CStat CT Datatype U32 Unit Def 0 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines origin of fixed frequency selection Index P1022 0 1st Command data set CDS P1022 1 2nd Command data set CDS P1022 2 3rd Command data set CDS Dependency Accessible only if P0701 P0706 99 function of digital inputs BICO Details See P1020 fixed frequency selection Bit 0 for most common settings P1023 3 Bl Fixed freq selection Bit 3 Min 0 0 Level CStat CT Datatype U32 Unit Def 722 3 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines origin of fixed frequency selection Index P1023 0 1st Command data set CDS P1023 1 2nd Command data set CDS P
205. ndex P2826 0 Binector input 0 BI 0 P2826 1 Binector input 1 BI 1 Dependency P2801 8 is active level for the XOR element 12827 BO XOR 3 Min Level Datatype U16 Unit Def 3 P Group TECH Max Output of XOR 3 element Displays exclusive or logic of bits defined in P2826 0 P2826 1 Dependency P2801 8 is active level for the XOR element P2828 BI NOT 1 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2828 defines input of NOT 1 element output is P2829 P2800 P2801 9 A Cc 0 1 1 0 Dependency P2801 9 is active level for the NOT element r2829 BO NOT 1 Min Level Datatype U16 Unit Def 3 P Group TECH Max Output of NOT 1 element Displays not logic of bit defined in P2828 Dependency P2801 9 is active level for the NOT element P2830 BI NOT 2 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2830 defines input of NOT 2 element output is P2831 Dependency P2801 10 is active level for the NOT element 2831 2 Min Level Datatype U16 Unit Def 3 P Group TECH Max Output of NOT 2 element Displays not logic of bit defined in P2830 Dependency P2801 10 is active level for the NOT element P2832 BI NOT 3 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0
206. ng occurs ndex P2375 0 1st Drive data set DDS P2375 1 2nd Drive data set DDS P2375 2 3rd Drive data set DDS P2376 3 Index Motor staging delay override Min 0 0 CStat CUT Datatype Float Unit 96 Det 25 0 P Group TECH Active Immediately QuickComm No Max 200 0 P2376 as a percentage of PID setpoint When the PID error P2273 exceeds this value a motor is staged destaged irrespective of the delay timers P2376 0 1st Drive data set DDS P2376 1 2nd Drive data set DDS P2376 2 3rd Drive data set DDS P2377 3 Index Motor staging lockout timer Min 0 Level CStat CUT Datatype U16 Unit s Def 30 3 P Group TECH Active Immediately QuickComm No Max 650 Time for which delay override is prevented after a motor has been staged or destaged This prevents a second staging event immediately after a first being caused by the transient conditions after the first staging event P2377 0 1st Drive data set DDS P2377 1 2nd Drive data set DDS P2377 2 3rd Drive data set DDS Note Parameter List The value of this parameter must always be larger than staging hysteresis P2373 MICROMASTER 430 6SE6400 5AF00 0BPO 149 Parameters Issue 03 02 P2378 3 Motor staging frequency f st Min 0 0 Level CStat CUT Datatype Float Unit Def 50 0 3 P Group TECH Active Immediately QuickComm No Max 120 0 150 The frequen
207. ntrol Min 0 Level CStat CT Datatype U16 Unit Def 0 2 P Group FUNC Active first confirm QuickComm No Max 7 Selects the possible sources for contactor changeover control Settings 0 Bypass disabled 1 Controlled by inverter trip 2 Controlled by P1266 3 Controlled by P1266 or inverter trip 4 Controlled by act frequenz P1265 5 Controlled by act frequenz P1265 or inverter trip 6 Controlled by act frequenz P1265 or P1266 7 Controlled by act frequenz P1265 or P1266 or inverter trip Index P1260 0 1st Drive data set DDS P1260 1 2nd Drive data set DDS P1260 2 3rd Drive data set DDS Dependency Parameter List Bypass is used to described the condition when a motor is ran alternatively between a mains supply and the inverter For example the bypass circuit can be used to switch over from the inverter to a mains supply when the inverter is faulty This function can also be used to ramp up a large rotation mass using the inverter and then at the correct speed switching over to the mains supply An example of a bypass circuit is given in the following diagram Mains Isolator Mechanical interlock Relay outputs MICROMASTER 430 6SE6400 5AF00 0BPO 89 Parameters Issue 03 02 Bl Bypass command 4 1 Fo xl 0 0 0 t j j fA nz j P1263 2f aic Mains f inverter r1261 Bit 0 A r1261 1f Bit 1 0 1 s t P1
208. o Max 4 Displays number of warning up to 4 since last reset Set to 0 to reset the warning history Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 119 Parameters Issue 03 02 r2114121 Run time counter Min Level Datatype U16 Unit Def 3 P Group ALARMS Max Displays run time counter t is the total time the drive has been povvered up VVhen povver goes value is saved then restored on povverup The run time counter r2114 vvill be calculate as follovved Multiply the value in r2114101 by 65536 and then add it to the value in r2114111 The resultant answer will be in seconds This means that r2114 0 is not days Total powerup times 65536 r2114 0 r2114 1 Secs When AOP is not connected the time in this parameter is used by r0948 to indicate when a fault has occured Example If r2114 0 1 amp r2114 1 20864 We get 1 65536 20864 86400 seconds which equals 1 day Index r2114 0 System Time Seconds Upper Word r2114 1 System Time Seconds Lower Word Details See r0948 fault time P2115 3 AOP real time clock Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group ALARMS Active Immediately QuickComm No Max 65535 Displays AOP real time Index P2115 0 Real Time Seconds Minutes P2115 1 Real Time Hours Days P2115 2 Real Time Month Year Details See r0948 fault time P2150131 Hysteresis frequency f hys Min 0 00 Level CStat CU
209. ollowing an OFF1 or OFF3 command When an OFF1 or OFF3 command is received by the drive the output frequency starts to ramp to 0 Hz When the output frequency reaches the value set in P1234 the drive injects a DC braking current P1232 for the time duration set in P1233 ON OFF1 OFF3 1 t H P1234 DC braking ON Jr OFF ON OFF1 OFF3 t H P1234 666 OFF ramp braking DC braking ON Ar i OFF Parameter P1232 still controls the level of DC injection Value P1233 0 Not active following OFF1 OFF3 P1233 1 250 Active for the specified duration Index P1233 0 1st Drive data set DDS P1233 1 2nd Drive data set DDS P1233 2 3rd Drive data set DDS Caution2 Frequent use of long periods of DC braking can cause the motor to overheat 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 DC braking is not possible when using a synchronous motor i e P0300 2 Parameter List MICROMASTER 430 86 6SE6400 5AF00 0BPO Issue 03 0
210. ommunication board CB Bitfields Bit00 Fixed frequency Bit 0 0 NO 1 YES Bitol Fixed frequency Bit 1 0 NO 1 YES Bit02 Fixed frequency Bit 2 0 NO 1 YES Bit03 Fixed frequency Bit 3 0 NO 1 YES Bit04 Drive data set DDS Bit 0 0 NO 1 YES Bit05 Drive data set DDS Bit 1 0 NO HE YES Bit08 PID enabled 0 NO 1 YES Bit09 DC brake enabled 0 NO 1 YES Bit11 Droop 0 NO 1 YES Bit12 Torque control 0 NO 1 YES Bit13 External fault 1 0 YES 1 NO Bit15 Command data set CDS Bit 1 0 NO 1 YES Details See relevant communication board manual for protocol definition and appropriate settings Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 117 Parameters Issue 03 02 P2100131 Alarm number selection Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group ALARMS Active first confirm QuickComm No Max 65535 Selects up to 3 faults or warnings for non default reactions Example If you want 0005 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 Index P2100 0 Fault Number 1 P2100 1 Fault Number 2 P2100 2 Fault Number 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 default reactions P2101 3 Stop reaction value Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group ALARMS Active first confirm QuickComm No Max
211. on of DIPs to analog inputs is as follows DIP on left DIP 1 Analog input 1 DIP on right DIP 2 Analog input 2 Settings 0 Unipolar voltage input 0 to 10 V 1 Unipolar voltage input with monitoring 0 to 10 V 2 Unipolar current input 0 to 20 mA 3 Unipolar current input with monitoring 0 to 20 mA 4 Bipolar voltage input 10 V to 10 V Index P0756 0 Analog input 1 ADC 1 P0756 1 Analog input 2 ADC 2 Dependency Function disabled if analog scaling block programmed to output negative setpoints see P0757 to P0760 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 96 of the deadband voltage On account of h w restirction it is not possible to select the bipolar voltage see Enum declaration for analog input 2 P0756 1 4 Details See P0757 to P0760 ADC scaling Parameter List MICROMASTER 430 44 6SE6400 5AF00 0BPO Issue 03 02 Parameters P0757 2 Value x1 of ADC scaling V mA Min 20 Level CStat CUT Datatype Float Unit Def 0 2 P Group TERMINAL Active first confirm QuickComm No Max 20 Parameters P0757 P0760 configure the input scaling as shown in the diagram P0756 0 3 P0761 A lei gt ASPmax o 2 o SCH Sel 6 q I o 1 x A 10V 09 n P0759 20 mA P0758 Ed ASPmin Where Analog setpoints repres
212. on the power stack it is notpossible to establish which one actually occurred gt CE failure was detected when P0947 22 and fault value P0949 12 or 13 or 14 depending on UCE gt 2C Bus read out error when P0947 22 and fault value P0949 21 The power has to be switched off on gt This two faults UCE and I2C occur for MegaMaster only F0023 Fault caused by the following events ott Output fault One phase of output is disconnected F0024 Ventilation inadequate Check the following Off1 Rectifier Over gt Fan inoperative 1 Fan must turn when inverter is running Temperature Ambient temperature is too high 2 Pulse frequency must be set to default value 3 Ambient temperature could be higher than specified for the inverter F0030 Fan no longer working Fault cannot be masked while options module AOP ott Fan has failed or BOP is connected Need a new fan F0035 Auto restart fault after n restart try Off1 Parameter List MICROMASTER 430 192 6SE6400 5AF00 0BPO Issue 03 02 Faults and Alarms Fault Possible Causes Diagnose amp Remedy Reac tion Auto restart after n F0040 MM 440 only Off1 Automatic Calibration Failure F0041 Motor data identification failed 0 Check that the motor is connected to the otf Motor Data Alarm value 0 Load missing inv rter Identification Alarm value 1 Current limit 1 40 Check if motor data in P304 311 are correct Failure level reached du
213. or the AND element 2813 BO AND 2 Min Level Datatype U16 Unit Def 3 P Group TECH Max Output of AND 2 element Displays and logic of bits defined in P2812101 P2812 1 Dependency P2801 1 is active level for the AND element P2814121 Bl AND 3 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2814 0 P2814 1 define inputs of AND 3 element output is P2815 Index P2814 0 Binector input 0 BI 0 P2814 1 Binector input 1 BI 1 Dependency P2801 2 is active level for the AND element r2815 BO AND 3 Min Level Datatype U16 Unit Def 3 P Group TECH Max Output of AND 3 element Displays and logic of bits defined in P2814 0 P2814 1 Dependency P2801 2 is active level for the AND element P2816 2 BI OR 1 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 P2816 0 P2816 1 define inputs of OR 1 element output is P2817 P2800 P2801 3 A B 0100 0 1 1 1 0 1 1 1 1 Index P2816 0 Binector input 0 BI 0 P2816 1 Binector input 1 BI 1 Dependency P2801 3 is active level for the OR element 2817 BO OR 1 Min Level Datatype U16 Unit Def 3 P Group TECH Max Output of OR 1 element Displays or logic of bits defined in P2816 0 P2816 1 Dependency P2801 3 is active level for the OR element Parameter List 156
214. ot output of timer 4 P2864 P2865 P2866 are the inputs of the timer outputs are P2867 P2868 Dependency P2802 3 is active level for the timer Parameter List MICROMASTER 430 164 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2869121 Cl ADD 1 Min 0 0 Level CStat CUT Datatype U32 Unit Def 755 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 Define inputs of Adder 1 result is in P2870 P2800 P2802 4 P2869 Z meo pue Index P2869 0 Connector input 0 CI 0 P2869111 Connector input 1 C 1 Result x1 x2 If x1 x2 gt 200 gt Result 200 x1 2 20096 Result 200 Dependency P2802 4 is the active level for the Adder r2870 CO ADD 1 Min Level Datatype Float Unit Def 3 P Group TECH Max Result of Adder 1 Dependency P2802 4 is active level for the Adder P2871 2 Cl ADD 2 Min 0 0 Level CStat CUT Datatype U32 Unit Def 755 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 Define inputs of Adder 2 result is in P2872 Index P2871 0 Connector input 0 CI 0 P2871 1 Connector input 1 CI 1 Dependency P2802 5 is active level for the Adder r2872 CO ADD 2 Min Level Datatype Float Unit Def 3 P Group TECH Max Result of Adder 2 Dependency P2802 5 is active level for the Adder P2873 2 Cl SUB 1 Min 0 0 Level CStat CUT Datatype U32 Unit Def 755 0 3
215. ouny Bojouyoa ES E SAO A A A SS 01 a 4Lzd su 0000177 euin IPA 01 a 4VZd su 0000177 Sun IPA 01 499 24 su 0000177 0 wed ejeg 008 O 24 L 21124 lt hoe opal 818 111 0002770 Ploysaly 9pA SCT ZL1Zd gt hoe opal zig 00 a v9Lzd ZH 00 0L 0070 jei op Dau Jejs H jos u lt DE u 918 PJOM SNJEIS ESOO MICROMASTER 430 6SE6400 5AF00 0BPO Parameter List 180 Function Diagrams Issue 03 02 oem L 26824 L L Vogza 00824 1011 0824 00824 Cea H O opu 8Z8Zd 6 L08Zd 00824 indu um sjuawaly LON 818Zd 918Zd 161 0824 008Zd syndu z uy sjueule 3 YO Sjueuio 3 LON pue YOX MO INV syoo g 99 4 191 0824 00824 sindu z ui sjueuie 3 YOX lolLogzd 00824 s ndul z uj sjueuie 3 ANY MICROMASTER 430 Parameter List 181 6SE6400 5AF00 0BPO Issue 03 02 Function Diagrams O ZA 91 L08Zd 00824 SL L08 d 008 d pLILogzd 00824 sdo 4dil4 Sy c00c LOD 9v8cd Geen ow L DC new p om 0782 Gesa H 16 1 0824 008Zd 1211 0824 008 d 8001 01 Z exepur_ pem C _seeza seu peu ox pur 58401 011 5400 9 MICROMASTER 430 6SE6400 5AF00 0BPO Parameter List 182 Function Diagrams Issue 03 02 8982 898Z 1982
216. p CONTROL Active Immediately QuickComm No Max 600 Compensation slip limit in relative to r0330 rated motor slip which is added to frequency setpoint Index P1336 0 1st Drive data set DDS P1336 1 2nd Drive data set DDS P1336 2 3rd Drive data set DDS Dependency Slip compensation P1335 active 11337 CO V f slip frequency Min Level Datatype Float Unit Det 3 P Group CONTROL Max Displays actual compensated motor slip as Dependency Slip compensation P1335 active Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 99 Parameters Issue 03 02 P1338 3 Resonance damping gain V f Min 0 00 Level CStat CUT Datatype Float Unit Def 0 00 3 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 active fres damping Index P1338 0 1st Drive data set DDS P1338 1 2nd Drive data set DDS P1338 2 3rd Drive data set DDS Note The resonance circuit damps oscillations of the active current which frequently occur during no load operation In V f modes see P1300 the resonance damping circuit is active in a range from approx 6 to 80 of rated motor frequency P0310 If the value of P1338 is too high th
217. plate with the locations of the relevant motor data 3 Mot EN 60034 1LA7130 4AA10 No UD 0013509 0090 0031 TICIF 1325 IP 55 IMB3 A Y 220 240 380 420 19 7 20 6 11 4 11 9 A P0308 ndex P0304 0 1st Drive data set DDS P0304 1 2nd Drive data set DDS P0304 2 3rd Drive data set DDS Dependency Changeable only when P0010 1 quick commissioning Parameter List MICROMASTER 430 24 6SE6400 5AF00 0BPO Issue 03 02 Parameters P0305131 Rated motor current Min 0 01 Level CStat C Datatype Float Unit A Def 325 1 P Group MOTOR Active first confirm QuickComm Yes Max 10000 00 Nominal motor current A from rating plate see diagram in P0304 ndex P0305 0 1st Drive data set DDS P0305 1 2nd Drive data set DDS P0305 2 3rd Drive data set DDS Dependency Changeable only when P0010 1 quick commissioning Depends also on P0320 motor magnetization current Note For asynchronous motors the maximum value is defined as the maximum inverter current r0209 For synchronous motors the maximum value is defined as twice the maximum inverter current r0209 The minimum value is defined as 1 32 times inverter rated current r0207 P0307 3 Rated motor power Min 0 01 Level CStat C Datatype Float Unit Def 0 75 1 P Group MOTOR Active first confirm QuickComm Yes Max 2000 00 Nominal motor power KW hp from rating plate Index P0307 0 1st Drive data set
218. put 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO Index P2228 0 1st Command data set CDS P2228 1 2nd Command data set CDS P2228 2 3rd Command data set CDS P2231 3 Setpoint memory of PID MOP Min 0 Level CStat CUT Datatype U16 Unit Def 1 3 P Group TECH Active Immediately QuickComm No Max 1 Setpoint memory Settings 0 PID MOP setpoint will not be stored 1 PID MOP setpoint will be stored P2240 is updated Index P2231 0 1st Drive data set DDS P2231 1 2nd Drive data set DDS P2231 2 3rd Drive data set DDS Dependency P2231 0 If O selected setpoint returns to value set in P2240 setpoint of PID MOP after an OFF command P2231 1 If 1 is selected active setpoint is remembered and P2240 updated with current value Details See P2240 setpoint of PID MOP P2232 Inhibit rev direct of PID MOP Min 0 Level CStat CT Datatype U16 Unit Def 1 3 P Group TECH Active first confirm QuickComm No Max 1 Inhibits reverse setpoint selection when PID motor potentiometer is chosen either as a main setpoint of additional setpoint using P1000 Settings 0 Reverse direction is allowed 1 Re
219. quires P0704 to be set to 99 BICO Digital input 5 requires P0705 to be set to 99 BICO Digital input 6 requires P0706 to be set to 99 BICO Digital input 7 via analog input 1 requires P0707 to be set to 99 Digital input 8 via analog input 2 requires P0708 to be set to 99 Parameter List MICROMASTER 430 118 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2104131 Bl 2 Faults acknowledgement Min 0 0 Level CStat CT Datatype U32 Unit Def 0 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Selects second source of fault acknowledgement 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 Index P2104 0 1st Command data set CDS P2104 1 2nd Command data set CDS P2104 2 3rd Command data set CDS P2106 3 BI External fault Min 0 0 Level CStat CT Datatype U32 Unit Def 1 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Selects source of external faults Se
220. r 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 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 105 Parameters Issue 03 02 P2012 2 USS PZD length Min 0 Level CStat CUT Datatype U16 Unit Def 2 3 P Group COMM Active first confirm QuickComm No Max 8 Defines the number of 16 bit words in PZD part of USS telegram In this area process data PZD are continually exchanged between the master and slaves The PZD part of the USS telegram is used for the main setpoint and to control the inverter 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 La USS telegram gt Parameter Process data PKE IND PWE PzDi PZD2 PZD3 PZD4 STX Startof 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 gt 2 are either 8 control word and main setpoint or b status word and actual value
221. r 3 P2859 P2860 P2861 are the inputs of the timer outputs are P2862 P2863 Dependency P2802 2 is active level for the timer P2864 BI Timer 4 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 4000 0 Define input signal of timer 4 P2864 P2865 P2866 are the inputs of the timer outputs are P2867 P2868 Dependency P2802 3 is active level for the timer P2865 Delay time of timer 4 Min 0 0 Level CStat CUT Datatype Float Unit Def 0 0 3 P Group TECH Active first confirm QuickComm No Max 6000 0 Defines delay time of timer 4 P2864 P2865 P2866 are the inputs of the timer outputs are P2867 P2868 Dependency P2802 3 is active level for the timer P2866 Mode timer 4 Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group TECH Active first confirm QuickComm No Max 3 Selects mode of timer 4 P2864 P2865 P2866 are the inputs of the timer outputs are P2867 P2868 Settings 0 ON delay 1 OFF delay 2 ON OFF delay 3 Pulse generator Dependency P2802 3 is active level for the timer 12867 BO Timer 4 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays output of timer 4 P2864 P2865 P2866 are the inputs of the timer outputs are P2867 P2868 Dependency P2802 3 is active level for the timer r2868 BO Nout timer 4 Min Level Datatype U16 Unit Def 3 P Group TECH Max Displays N
222. r PID feedback Min 200 00 Level CStat CUT Datatype Float Unit Def 0 00 3 P Group TECH Active Immediately QuickComm No Max 200 00 Sets lower limit for value of feedback signal in Note P2268 100 corresponds to 4000 hex Notice When PID is enabled P2200 1 and the signal rises below this value the inverter will trip with F0221 P2269 Gain applied to PID feedback Min 0 00 Level CStat CUT Datatype Float Unit Def 100 00 3 P Group TECH Active Immediately QuickComm No Max 500 00 Allows the user to scale the PID feedback as a percentage value 96 A gain of 100 0 means that feedback signal has not changed from its default value P2270 PID feedback function selector Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 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 Settings 0 Disabled 1 Square root root x 2 Square x x 3 Cube x x x P2271 PID transducer type Min 0 Level CStat CUT Datatype U16 Unit Def 0 2 P Group TECH Active Immediately QuickComm No Max 1 Allows the user to select the transducer type for the PID feedback signal Value P2271 0 default If the feedback signal is less than the PID setpoint the PID controller will increase motor speed to correct this P2271 1 If the feedback signal is greater than the PID setpoint the PID
223. reaches warning threshold Settings 0 No reaction warning only 1 Warning and Imax reduction results in reduced output frequency 2 Warning and trip F0011 Index P0610101 1st Drive data set DDS P0610 1 2nd Drive data set DDS P0610 2 3rd Drive data set DDS Dependency Trip level P0604 motor temperature warning level 105 96 Parameter List MICROMASTER 430 32 6SE6400 5AF00 0BPO Issue 03 02 Parameters P0625 3 Ambient motor temperature Min 40 0 Level CStat CUT Datatype Float Unit C Def 20 0 3 P Group MOTOR Active Immediately QuickComm No Max 80 0 Measures ambient temperature of motor at time of motor data identification Index P0625 0 1st Drive data set DDS P0625 1 2nd Drive data set DDS P0625121 3rd Drive data set DDS Motor overload factor Min CStat CUT Datatype Float Unit Def 110 0 P Group MOTOR Active Immediately QuickComm Yes Max 400 0 P0640 3 Defines motor overload current limit in 76 relative to P0305 rated motor current Index PO640 0 1st Drive data set DDS P0640 1 2nd Drive data set DDS P064012 3rd Drive data set DDS Dependency Limited to maximum inverter current or to 400 96 of rated motor current P0305 whichever is the lower Details See function diagram for current limitation P0700131 Selection of command source Min 0 Level CStat CT Datatype U16 Unit Def 2 1 P Group C
224. refer to all Definitiones and Warnings contained in the Operating Instructions You will find the Operating Instructions on the Docu CD delivered with your inverter H the CD is lost it can be ordered via your local Siemens department under the Order No 6SE6400 5FA00 1AGO00 Further information can be obtained from Internet website http www siemens de 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 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 All Rights Reserved MICROMASTERS is a registered trademark of Siemens Order number 685E6400 5AF00 0BPO Printed in the Federal 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 Siemen
225. requency 1 P1004 3 Fixed frequency 4 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 15 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 4 Index P1004 0 1st Drive data set DDS P1004 1 2nd Drive data set DDS P1004 2 3rd Drive data set DDS Details See parameter P1001 fixed frequency 1 P1005 3 Fixed frequency 5 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 20 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 5 Index P1005 0 1st Drive data set DDS P1005 1 2nd Drive data set DDS P1005 2 3rd Drive data set DDS Details See parameter P1001 fixed frequency 1 P1006 3 Fixed frequency 6 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 25 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 6 Index P1006 0 1st Drive data set DDS P1006 1 2nd Drive data set DDS P1006 2 3rd Drive data set DDS Details See parameter P1001 fixed frequency 1 P1007 3 Fixed frequency 7 Min 650 00 Level CStat CUT Datatype Float Unit Hz Def 30 00 3 P Group SETPOINT Active Immediately QuickComm No Max 650 00 Defines fixed frequency setpoint 7 Index P1007 0 1st Drive data set DDS P1007 1 2nd Drive data set DDS P1007 2 3rd
226. ring Check what type of motor wiring is required star identification delta gt Alarm value 2 Identified stator resistance less than 0 1 or greater than 100 gt Alarm value 3 Identified rotorresistance less than 0 1 or greater than 100 gt Alarm value 4 Identified stator reactance less than 50 and greater than 500 Alarm value 5 Identified main reactance less than 50 and greater than 500 gt Alarm value 6 Identified rotor time constant less than 10ms or greater than 5s gt Alarm value 7 Identified total leakage reactance less than 5 and greater than 50 gt Alarm value 8 Identified stator leakage reactance less than 25 and greater than 250 gt Alarm value 9 Identified rotor leakage inductance less than 25 and greater than 250 gt Alarm value 20 Identified IGBT on voltage less than 0 5 or greater than 10V gt Alarm value 30 Current controller at voltage limit gt Alarm value 40 Inconsistence of identified data set at least one identification failed Percentage values based on the impedance Zb Vmot nom sqrt 3 mot nom F0051 Read or write failure while saving Factory Reset and new parameterization Off1 Parameter non volatile parameter Change drive EEPROM Fault F0052 Read failure for power stack Change drive Off1 power stack information or invalid data Fault F0053 Read failure for IO EEPROM gt Check data Off1 10 Eeprom information or invalid data gt Change IO module
227. rom a defaulted drive 0 Auto operation i e the control from the analogue and digital inputs 1 Hand operation i e the control comes from the BOP Using the Hand Auto buttons on the BOP will change this parameter A r0019 44 Bit 12 Hand 0 t r0019 Bit 15 Auto 0 i i jy P0748 4 Hand 17 j j mm Auto 0 t Default P0810 718 0 Hand Auto CDS1 CDS2 0718 0 PO700101 2 Terminal P1000 0 2 ADC 0718 1 P0700 1 21 BOP P1000111 2 1 MOP Note Changeing CDS values will effect the operation of Hand Auto Parameter List MICROMASTER 430 38 6SE6400 5AF00 0BPO Issue 03 02 Parameters P0719131 Selection of cmd amp freq setp Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group COMMANDS Active first confirm QuickComm No Max 66 Central switch to select control command source for inverter 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 Settings 0 Cmd BICO parameter Setpoint BICO parameter 1 Cmd BICO parameter Setpoint MOP setpoint 2 Cmd BICO parameter Setpoint Analog setpoint 3 Cmd BICO parameter Setpoint Fixed frequency 4 Cmd BICO parameter Setpoint USS on BOP link 5 Cmd BICO parameter Setpoint USS on C
228. running direction right 0 Closed 52 F Inverter overload 1 Closed 53 0 DC brake active 0 Closed 53 1 Act freq r0021 gt P2167 f off 0 Closed 53 2 Act freq r0021 gt P1080 f min 0 Closed 53 3 Act current r0027 gt P2170 0 Closed 53 4 Act freq r0021 gt P2155 f 1 0 Closed 53 5 Act freq r0021 lt P2155 f 1 0 Closed 53 6 Act freq r0021 gt setpoint 0 Closed 53 7 Act Vdc r0026 P2172 0 Closed 53 8 Act Vdc r0026 gt P2172 0 Closed 53 A PID output r2294 P2292 PID min 0 Closed 53 B PID output r2294 P2291 PID max 0 Closed ndex P0733 0 1st Command data set CDS P0733 1 2nd Command data set CDS P0733 2 3rd Command data set CDS Note Other settings are possible in Expert mode see P0003 user access level r0747 CO BO State of digital outputs Min Level Datatype U16 Unit Def 3 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 Bit01 Digital output 2 energized 0 NO 1 YES Bit02 Digital output 3 energized 0 NO 1 YES Dependency 20 Relay de energized contacts open BitO 1 Relay energized contacts closed P0748 Invert digital outputs Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group COMMANDS Active first confirm QuickComm No Max 7 Defines high and low states of relay for a given function Bitfields Bit00 Invert digital output 1
229. s 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 430 6SE6400 5AF00 0BPO Parameter List Issue 03 02 Parameters Parameters MICROMASTER 430 This Parameter List must only be used together with the Operating Instructions or the Reference Manual of the MICROMASTER 430 Please pay special attention to the Warnings Cautions Notices and Notes contained in these manuals Table of Contents 1 1 1 2 1 3 3 1 3 2 Parameter List 6SE6400 5AF00 0BPO Parameters pM 7 Introduction to MICROMASTER 430 System Parameters 7 Quick commissioning 10 1 2 9 Parameter DescriptiOh tiet EHE eure e e UR HE I M Ee 11 Function Diagrams cc2ee cen ecc recen aaa aaa adam add 169 Faultsand Alarms erret Ee ee ees 191 Fault messages c xo ene odo Ed e te P he EH d 191 Alarm MESAS aaa trenta utate ad emt bt dde E 196 MICROMASTER 430 Parameters Issue 03 02 Parameter List MICROMASTER 430 6 6SE6400 5AF00 0BPO Issue 03 02 Parameters 1 Parameters 1 1 Introduction to MICROMASTER 430 System Parameters The layout of the parameter description is as follows 1 Par number 2 P
230. s 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 OFF2 respectively Notice Setting the ramp down time too short can cause the inverter to trip on overvoltage F0002 overcurrent F0001 Parameter List MICROMASTER 430 142 6SE6400 5AF00 0BPO Issue 03 02 Parameters r2260 CO PID setpoint after PID RFG Min Level Datatype Float Unit Def 2 P Group TECH Max Displays total active PID setpoint after PID RFG in Note r2260 100 corresponds to 4000 hex P2261 PID setpoint filter timeconstant Min 0 00 Level CStat CUT Datatype Float Unit s Def 0 00 3 P Group TECH Active Immediately QuickComm No Max 60 00 Sets a time constant for smoothing the PID setpoint Note 0 no smoothing 12262 CO Filtered PID setp after RFG Min Level Datatype Float Unit Def 3 P Group TECH Max Displays filtered PID setpoint after PID RFG in 96 Note 12262 100 corresponds to 4000 hex P2263 PID controller type Min 0 Level CStat T Datatype U16 Unit Def 0 3 P Group TECH Active Immediately QuickComm No Max 1 Sets the PID controller type Settings 0 D component on feedback signal 1 D component on error signal P2264131 Cl PID feedback Min 0 0 Level CStat CUT Datatype U32 Unit Def 755 1 2 P Group TEC
231. selection 2 Direct selection ON command Parameter List MICROMASTER 430 138 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2226 3 BI Fixed PID setp select Bit 4 Min 0 0 Level CStat CT Datatype U32 Unit Def 722 4 3 P Group COMMANDS Active first confirm QuickComm No 4000 0 Defines command source of fixed PID setpoint selection Bit 4 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO Index P2226 0 1st Command data set CDS P2226 1 2nd Command data set CDS P2226 2 3rd Command data set CDS P2227 Fixed PID setpoint mode Bit 5 Min 1 Level CStat CT Datatype U16 Unit Def 1 3 P Group TECH Active first confirm QuickComm No Max 2 Direct selection direct selection ON Bit 5 for PID setpoint Settings 1 Direct selection 2 Direct selection ON command P2228 3 Bl Fixed PID setp select Bit 5 Min 0 0 Level CStat CT Datatype U32 Unit Def 722 5 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines command source of fixed PID setpoint selection Bit 5 Settings 722 0 Digital in
232. ser manual Off1 CB warning 1 see CB manual for details A0701 CB communication board specific See CB user manual Off1 CB warning 2 see CB manual for details A0702 CB communication board specific See CB user manual Off1 CB warning 3 see CB manual for details A0703 CB communication board specific See CB user manual Off1 CB warning 4 see CB manual for details A0704 CB communication board specific See CB user manual Off1 CB warning 5 see CB manual for details A0705 CB communication board specific See CB user manual Off1 CB warning 6 see CB manual for details Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 197 Faults and Alarms Issue 03 02 Fault Possible Causes Diagnose amp Remedy Reac tion A0706 CB communication board specific See CB user manual Off1 CB warning 7 see CB manual for details A0707 CB communication board specific See CB user manual Off1 CB warning 8 see CB manual for details A0708 CB communication board specific See CB user manual Off1 CB warning 9 see CB manual for details A0709 CB communication board specific See CB user manual Off1 CB warning 10 see CB manual for details A0710 Communication with CB Check CB hardware Off1 CB communication board is lost communicatio n error 40711 CB communication board reports a 1 Check CB parameters Off1 CB configuration error configuration error A0910 gt max controller has been de Chec
233. simple sensor on the driven machine connected to the encoder circuit within the drive ASIC via a digital input The pulse train normally detecting one pulse per revolution of the drive machine is converted to a frequency reference and compared with the actual inverter output frequency Settings 0 Belt failure detection disabled 1 Warning Low torque speed 2 Warning High torque speed 3 Warning High low torque speed 4 Trip Low torque speed 5 Trip High torque speed 6 Trip High low torque speed Index P2181 0 1st Command data set CDS P2181 1 2nd Command data set CDS P2181 2 3rd Command data set CDS Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 129 Parameters Issue 03 02 P2182 3 Belt threshold frequency 1 Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 5 00 3 P Group ALARMS Active Immediately QuickComm No Max 650 00 Sets a frequency threshold 1 for comparing actual torque to torque the envelope for belt failure detection The frequency torque envelope is defined by 9 parameters 3 are frequency parameters P2182 P2184 and the other 6 define the low and high torque limits P2185 P2190 for each frequency see diagram below P1082 Torque Nm Max frequency P2189 Upper torque threshold 3 P2190 Lower torque threshold 3 P2187 Upper torque threshold 2 P2188 Lower torque threshold 2 P21
234. sizes the the choice of motor is first based on required motor size and then if there is still a choice on hours run Settings 0 Disabled 1 Enabled Index P2372 0 1st Drive data set DDS P2372 1 2nd Drive data set DDS P2372 2 3rd Drive data set DDS P2373 3 Motor staging hysteresis Min 0 0 Level CStat CUT Datatype Float Unit Def 20 0 3 P Group TECH Active Immediately QuickComm No Max 200 0 P2373 as a percentage of PID setpoint that PID error P2273 must be exceeded before staging delay starts Index P2373 0 1st Drive data set DDS P2373 1 2nd Drive data set DDS P237312 3rd Drive data set DDS Note The value of this parameter must alvvays be smaller than delay override lockout timer P2377 P2374131 Motor staging delay Min 0 Level CStat CUT Datatype U16 Unit s Def 30 3 P Group TECH Active Immediately QuickComm No Max 650 Time that PID error P2273 must exceed motor staging hysteresis P2373 before staging occurs ndex P2374 0 1st Drive data set DDS P2374 1 2nd Drive data set DDS P2374 2 3rd Drive data set DDS Parameter List MICROMASTER 430 148 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2375131 Motor destaging delay Min 0 Level CStat CUT Datatype U16 Unit s Def 30 3 P Group TECH Active Immediately QuickComm No Max 650 Time that PID error P2273 must exceed motor staging hysteresis P2373 before destagi
235. spectively enable each free function block individually P2801 x gt oder P2802 x gt In addition Parameters P2801 and P2802 determine the chronological order of each function block following table shows that the priority increases from left to right and from bottom to top The Level 3 Level 2 Level 1 Not active 0 e ale STE E e e e eme AS 552 5958998822224542526606562 22242 oo nin LS ron o 1414 F m ot ja Z Z Z le le Le O O O e lt lt DIN E S Joa ooo Bo Bo lsr JO IEN e el A x Oe is ONS iii x EA RA iso S A i CN N N N KM M M MN CNL CNL CN SE NEN IN ON ONE ON NE CN GN ONE ONE ONE ONL N ONE CNL ONE ONE ONE ON ONE ON CONI jojo jajojo jo amp jo jajaja amp ja o a jo jaja a jo ja ja jojo a jo jo Example P2801 3 2 P2801 4 2 P2802 3 3 P2802141 2 FFBs will be calculated in following order P2802 3 P2801 3 P2801141 P2802 4 Settings 0 Not Active 1 Level 1 2 Level 2 3 Level 3 Index P2802 0 Enable timer 1 P2802 1 Enable timer 2 P2802 2 Enable timer 3 P2802 3 Enable timer 4 P2802 4 Enable ADD 1 P2802 5 E
236. st MICROMASTER 430 6SE6400 5AF00 0BPO 83 Parameters Issue 03 02 P1215 Holding brake enable Min 0 Level CStat T Datatype U16 Unit Def 0 2 P Group FUNC Active first confirm QuickComm No Max 1 Enables disables holding brake function This function applies the following profile to the inverter Relay switching is also possible at point 1 and point 2 if programmed in P0731 52 C to control a brake ON OFF1 OFF3 OFF1 OFF3 fmin P1080 A EE E r0052 C 1 0 ON OFF2 OFF2 inactive active t OFF1 OFF3 f fmin P1080 r0052 C 1 0 Settings 0 Motor holding brake disabled 1 Motor holding brake enabled Note The brake relay opens at point 1 if enabled using P0731 function of digital output and closes at point 2 Parameter List MICROMASTER 430 84 6SE6400 5AF00 0BPO Issue 03 02 Parameters P1216 Holding brake release delay Min 0 0 Level CStat T Datatype Float Unit s Def 1 0 2 P Group FUNC Active first confirm QuickComm No Max 20 0 Defines period during which inverter runs at min frequency P1080 before ramping up at point 1 as shown in P1215 holding brake enable Inverter starts at min frequency P1080 on this profile i e it does not use a ramp Note A typical value of min frequency P1080 for this type of application is the slip frequency of the motor You can calculate the rated slip frequency by using the following formula
237. st confirm QuickComm No Max 3 Fixed frequencies can be selected in three different modes Parameter P1018 defines the mode of selection Bit 2 Settings 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command Details See table in P1001 fixed frequency 1 for description of how to use fixed frequencies P1019 Fixed frequency mode Bit 3 Min 1 Level CStat CT Datatype U16 Unit Def 1 3 P Group SETPOINT Active first confirm QuickComm No Max 3 Fixed frequencies can be selected in three different modes Parameter P1019 defines the mode of selection Bit 3 Settings 1 Direct selection 2 Direct selection ON command 3 Binary coded selection ON command Details See table in P1001 fixed frequency 1 for description of how to use fixed frequencies Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 67 Parameters Issue 03 02 P1020 3 Bl Fixed freq selection Bit 0 Min 0 0 Level CStat CT Datatype U32 Unit Def 0 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines origin of fixed frequency selection Settings P1020 722 0 gt Digital input 1 P1021 722 1 gt Digital input 2 P1022 722 2 gt Digital input 3 P1023 722 3 gt Digital input 4 P1026 722 4 gt Digital input 5 P1028 722 5 gt Digital input 6 Index P1020 0 1st Command data set CDS P1020 1 2nd Command data set CDS P1020 2 3rd Comma
238. t r0051 1 3 2 E ETE 1 5 0 t The actual active drive data set DDS is displayed in parameter r0051 1 selected active DDS DDS r0055 r0054 r0051 0 r0051 1 Bit05 Bit04 1 DDS 0 0 0 0 2 DDS 0 1 1 1 3 DDS 1 0 2 2 3 DDS 1 1 2 2 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 Note P0821 is also relevant for drive data set DDS selection Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 53 Parameters Issue 03 02 P0821 BI DDS bit 1 Min 0 0 Level CStat CT Datatype U32 Unit Def 0 0 3 P Group COMMANDS Active first confirm QuickComm No Max 4095 0 Selects command source from which Bit 1 for selecting a drive data set is to be read in see parameter P0820 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 requ
239. t P1080 f min 0 Closed 53 3 Act current r0027 gt P2170 0 Closed 53 4 Act freq r0021 gt P2155 f 1 0 Closed 53 5 Act freq r0021 lt P2155 f 1 0 Closed 53 6 Act freq r0021 gt setpoint 0 Closed 53 7 Act Vdc r0026 P2172 0 Closed 53 8 Act Vdc r0026 gt P2172 0 Closed 53 A PID output r2294 P2292 PID_min 0 Closed 53 B PID output r2294 P2291 PID_max 0 Closed Index P0732 0 1st Command data set CDS P0732 1 2nd Command data set CDS P0732 2 3rd Command data set CDS Note Other settings are possible in Expert mode see P0003 user access level Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 41 Parameters Issue 03 02 P0733131 BI Function of digital output 3 Min 0 0 Level CStat CUT Datatype U32 Unit Def 0 0 2 P Group COMMANDS Active first confirm QuickComm No Max 4000 0 Defines source of digital output 2 Settings 52 0 Drive ready 0 Closed 52 1 Drive ready to run 0 Closed 52 2 Drive running 0 Closed 52 3 Drive fault active 0 Closed 52 4 OFF2 active 1 Closed 52 5 OFF3 active 1 Closed 52 6 Switch on inhibit active 0 Closed 52 7 Drive warning active 0 Closed 52 8 Deviation setpoint actual value 1 Closed 52 9 PZD control Process Data Control 0 Closed 52 A Maximum frequency reached 0 Closed 52 B Warning Motor current limit 1 Closed 52 C Motor holding brake MHB active 0 Closed 52 D Motor overload 1 Closed 52 E Motor
240. t Unit s Def 1 0 2 P Group FUNC Active first confirm QuickComm No Max 300 0 This delay timer is used as a delay for all sources of switchover from inverter control to bypass If the condition for switching to bypass is removed then this timer is reset and must run through again before bypass will occur Index P1264 0 1st Drive data set DDS P1264 1 2nd Drive data set DDS P1264 2 3rd Drive data set DDS Parameter List MICROMASTER 430 90 6SE6400 5AF00 0BPO Issue 03 02 Parameters P1265131 Bypass frequency Min 12 00 Level CStat CT Datatype Float Unit Hz Def 50 00 2 P Group FUNC Active first confirm QuickComm No Max 650 00 Bypass frequency Index P1265 0 1st Drive data set DDS P1265 1 2nd Drive data set DDS P1265 2 3rd Drive data set DDS P1266 3 Bl Bypass command CStat CT Datatype U32 Unit Def 0 0 2 P Group FUNC Active first confirm QuickComm No Max 4000 0 Bypass Control P1260 can be controlled by an external switch which is connected to the inverter The P1266 BI Bypass command selects the interface e g DIN USS or CB from which the signal originates 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 requires P0704 to be set to 99 BICO 722 4 Digital input
241. t 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 The output voltage can be increased using parameter P1310 Defines boost level in relative to P0305 rated motor current applicable to both linear and quadratic V f curves according to the diagram below V Linear V f VcontBoost 100 0 Teen sg fn f max P1316 P0310 P1082 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 93 Parameters Issue 03 02 V Quadratic V f Vmax Vn P0304 po vue s VcontBoost 00 Jee eng fn fm ax P1316 P0310 P1082 where voltage values are given V_ConBoost 100 rated motor current P0305 Stator resistance P0350 Continous boost P1310 V_ConBoost 50 V ConBoost 100 2 Index P1310 0 1st Drive data set DDS P1310 1 2nd Drive data set DDS P1310 2 3rd Drive data set DDS Dependency Setting in P0640 motor overload factor 1961 limits the boost Note 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 P1311 P1312 Notice Increasing the boost levels increases motor heating especially at standstill Boosts x 300 Rs Imot Parame
242. ta set DDS Notice 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 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters P1130 3 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 where T 1 1 up total m Town total z 130 X P1121 31 133 X is defined as X Af fmax i e X is the ratio between the frequency step and fmax ndex P1130 0 1st Drive data set DDS P1130 1 2nd Drive data set DDS P1130 2 3rd Drive data set DDS Note Rounding times are recommended since they prevent an abrupt response thus avoiding detrimental effects on the mechanics Notice Rounding times are not recommended when analog inputs are used since they would result in overshoot undershoot in the inverter response P1131 3 Ramp up final 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 rounding time at end of ramp up as shown in P1130 r
243. ta set DDS P2163 2 3rd Drive data set DDS P2164 3 Hysteresis frequency deviation Min 0 00 Level CStat CUT Datatype Float Unit Hz Def 3 00 3 P Group ALARMS Active Immediately QuickComm No Max 10 00 Hysteresis frequency for detecting permitted deviation from setpoint or frequency or speed This frequency controls bit 8 in status word 1 r0052 and bit 6 in status word 2 r0053 Index P2164 0 1st Drive data set DDS P2164 1 2nd Drive data set DDS P2164 2 3rd Drive data set DDS Details See diagram in P2163 entry frequency for permissible deviation P2165 3 Delay time permitted deviation Min 0 Level CStat CUT Datatype U16 Unit ms Def 10 3 P Group ALARMS Active Immediately QuickComm No Max 10000 Delay time for detecting permitted deviation of speed or frequency from setpoint Index P2165 0 1st Drive data set DDS P2165 1 2nd Drive data set DDS P2165 2 3rd Drive data set DDS Details See diagram in P2163 entry frequency for permissible deviation P2166 3 Delay time ramp up completed Min 0 Level CStat CUT Datatype U16 Unit ms Def 10 3 P Group ALARMS Active Immediately QuickComm No Max 10000 Delay time for signal that indicates completion of ramp up Index P2166 0 1st Drive data set DDS P2166 1 2nd Drive data set DDS P2166 2 3rd Drive data set DDS Details See diagram in P2163 entry frequency for permissible
244. ted but the zero pulse is not used in MM4 The term quadrature in setting 2 refers to two periodic functions separated by a quarter cycle or 90 degrees r0403 CO BO Encoder status word Min Level Datatype U16 Unit Def 3 P Group COMMANDS Max Displays status word of encoder in bit format Bitfields Bit00 Encoder module active 0 NO 1 YES Bit01 Encoder error 0 NO 1 YES Bit02 Signal o k 0 NO 1 YES Bit03 Encoder lov speed loss 0 NO 1 YES Bit04 HV timer used 0 NO 1 YES Details See description of seven segment display given in the Introduction to MICROMASTER System Parameters in this manual Parameter List MICROMASTER 430 30 6SE6400 5AF00 0BPO Issue 03 02 Parameters P0408 3 Encoder pulses per revolution Min 2 Level CStat CT Datatype U16 Unit Def 1024 3 P Group ENCODER Active Immediately QuickComm No Max 20000 Specifies the number of encoder pulses per revolution Index P0408 0 1st Drive data set DDS P0408 1 2nd Drive data set DDS P0408 2 3rd Drive data set DDS Note The encoder resolution pulses per revolution P0408 which may be entered will be limited by the max pulse frequency of the encoder option board f_max 300 kHz The following equation calculates the encoder frequency depending on the encoder resoulution and the rotational speed rpm The encoder frequency has to be less than the max pulse frequency bz P040
245. temperature of the motor when a thermal sensor is connected is calculated using the thermal motor model When a KTY sensor is fitted the loss of connection can be detected Warning A0512 Using the methods described above the monitoring of the temperature will automatically switch to the thermal model using values derived from the estimated value Using a PTC sensor the temperature of the motor is calculated by the sensor in conjunction with the thermal model This allows for redundancy of the monitoring process Warning P0601 2 loss detection Equivalent circuit data CRAP Thermal r0631 P0604 Power dissipation motor Poss modal r0632 r0633 P0604 3 Threshold motor temperature Min 0 0 Level CStat CUT Datatype Float Unit C Def 130 0 2 P Group MOTOR Active Immediately QuickComm No Max 200 0 Enters warning threshold for motor temperature protection The trip temperature defined always 10 96 higher than the warning level P0604 When act motor temperature exeeds trip temperature than inverter trip as defined in P0610 Index P0604 0 1st Drive data set DDS P0604 1 2nd Drive data set DDS PO60412 3rd Drive data set DDS Note Default value depends on P0300 select motor type P0610 3 Motor I2t temperature reaction Min 0 Level CStat CT Datatype U16 Unit Def 2 3 P Group MOTOR Active first confirm QuickComm No Max 2 Defines reaction when motor temperature
246. ter List MICROMASTER 430 94 6SE6400 5AF00 0BPO Issue 03 02 Parameters P1311 3 Acceleration boost Min 0 0 Level CStat CUT Datatype Float Unit Def 0 0 3 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 Applies boost in relative to P0305 rated motor current following a positive setpoint change and drops back out once the setpoint is reached V Linear V f V AccBoost 100 V AccBoost 50 0 feoostend fn fmax P1316 P0310 P1082 where voltage values are given V_AccBoost 100 rated motor current P0305 Stator resistance P0350 Acceleration boost P1311 V_AccBoost 50 V AccBoost 100 2 Index P1311 0 1st Drive data set DDS P1311 1 2nd Drive data set DDS P1311 2 3rd Drive data set DDS Dependency Setting in P0640 motor overload factor 1961 limits boost Note Acceleration boost can help to improve response to small positive setpoint changes Boosts x 300 Rs Imot Notice ncreasing the boost level increases motor heating Details See note in P1310 for boost priorities Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 95 Parameters Issue 03 02 P1312131 Starting boost Min 0 0 Level CStat CUT Datatype Float Unit Def 0 0 3 P Group CONTROL Active Immediately QuickComm No Max 250 0 Applies a constant line
247. ternal trip 33 Disable additional freq setpoint 99 Enable BICO parameterization Index P0704 0 1st Command data set CDS P0704 1 2nd Command data set CDS P0704 2 3rd Command data set CDS Details See P0701 function of digital input 1 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 35 Parameters Issue 03 02 P0705 3 Function of digital input 5 Min 0 Level CStat CT Datatype U16 Unit Def 15 2 P Group COMMANDS Active first confirm QuickComm No Max 99 Selects function of digital input 5 via analog input Settings 0 Digital input disabled 1 ON OFF 1 2 ON reverse OFF1 3 OFF2 coast to standstill 4 OFF3 quick ramp down 9 Fault acknovvledge 10 reserved 11 reserved 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 25 DC brake enable 26 Enable Essential Service 27 Enable PID 28 Bypass mode command input 29 External trip 33 Disable additional freq setpoint 99 Enable BICO parameterization Index P0705 0 1st Command data set CDS P0705 1 2nd Command data set CDS P0705 2 3rd Command data set CDS Details See P0701 function of digital input 1 P0706 3 Function of digital input 6 Min O0 Level CStat CT Datatype U16 Unit Def 15 2 P Group COMMANDS Active first
248. the last digit refers to the bit setting for that parameter 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO Index PO0801 0 1st Command data set CDS P0801 1 2nd Command data set CDS P0801 2 3rd Command data set CDS Note Signal of digital input 0 No download 1 Start download parameter set 1 from AOP P0809 3 Copy command data set CDS Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group COMMANDS Active first confirm QuickComm No Max 2 Calls Copy command data set function Index PO0809 0 Copy from CDS P0809 1 Copy to CDS P0809 2 Start copy Note Parameter List 6SE6400 5AF00 0BPO Start value in index 2 is automatically reset to O after execution of function MICROMASTER 430 51 Parameters Issue 03 02 P0810 BI CDS bit 0 Local Remote Min 0 0 Level CStat CUT Datatype U32 Unit Def 718 0 3 P Group NDS Active first confirm QuickComm No Max 4095 0 Selects command source from which to read Bit 0 for selecting a command data set CDS Selection of CDS
249. this case A0910 r0231 2 Max cable length Min Level Datatype U16 Unit m Def 3 P Group INVERTER Max ndexed parameter to display maximum allovvable cable length betvveen inverter and motor ndex r0231101 Max allowed unscreened 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 Level CStat CT Datatype U16 Unit Def 2 3 P Group INVERTER Active first confirm QuickComm No Max 3 Selects reaction of inverter to an internal over temperature Settings 0 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 usually 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 eventually if the action taken does not sufficiently reduce internal temperature The pulse frequency is normally reduced only if higher than 2 kHz see P0291 configuration of inverter protection Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 23 Parameters Issue 03 02 P0291 3 Inverter protection Min 0 Level CStat CT Datatype U16 Unit Def 1 3 P Group INVERTER Active Immediately QuickComm No Max 7
250. tor 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 Level CStat CUT Datatype Float Unit Def 100 00 3 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 Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO 141 Parameters Issue 03 02 P2257 Ramp up time for PID setpoint Min 0 00 Level CStat CUT Datatype Float Unit s Def 1 00 2 P Group TECH Active Immediately QuickComm No Max 650 00 Sets the ramp up time for the PID setpoint PI Setpoint 76 100 t s P2257 yil P2200 1 PID control is enabled disable normal ramp up time P1120 Dependency PID ramp time effective only on PID setpoint and only active when PID setpoint is changed or when RUN command is given when PID uses this ramp to reach its value from 0 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 Level CStat CUT Datatype Float Unit s Def 1 00 2 P Group TECH Active Immediately QuickComm No Max 650 00 Sets ramp down time for PID setpoint Setpoint 76 100 0 Le P2258 Dependency P2200 1 PID control is enabled disable
251. ttings 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 722 6 Digital input 7 via analog input 1 requires P0707 to be set to 99 722 7 Digital input 8 via analog input 2 requires P0708 to be set to 99 Index P2106 0 1st Command data set CDS P2106 1 2nd Command data set CDS P2106 2 3rd Command data set CDS r2110141 VVarning number Min Level Datatype U16 Unit Def 3 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 r2110101 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 The keypad will flash while a warning is active The LEDs indicate the warning status in this case If an AOP is in use the display will show number and text of the active warning Notice Indices 0 and 1 are not stored P2111 Total number of warnings Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group ALARMS Active first confirm QuickComm N
252. u crise s m em e 2 ssessso zunsr srao sacaso 46ov 10 10 47 6ariz 75 no Fm F 2s ssessoo zunss arao sAcasp qaov H10 10 arse 90 no Fm F Notice Parameter r0200 0 indicates that no power stack has been identified P0201 Power stack code number Min 0 Level CStat C Datatype U16 Unit Def 0 3 P Group INVERTER Active first confirm QuickComm No Max 65535 Confirms actual power stack identified r0203 Act inverter type Min Level Datatype U16 Unit Def 3 P Group INVERTER Max Type number of actual povver stack identified Settings 1 MICROMASTER 420 2 MICROMASTER 440 3 MICRO COMBIMASTER 411 4 MICROMASTER 410 5 Reserved 6 MICROMASTER 440 PX 7 MICROMASTER 430 r0204 Povver stack features Min Level Datatype U32 Unit Def 3 P Group INVERTER Max Displays hardvvare features of povver 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 Parameter List 22 MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters r0206 Rated inverter power kW hp Min Level Datatype Float Unit Def 3 P Group INVERTER Max Displays nominal rated motor power from inverter Dependency Value is displayed in KW or hp depending on setting for P
253. ult acknowledge restart Fault acknowledge restart Fault acknowledge Fault acknowledge Fault acknowledge Fault acknowledge restart Fault acknowledge 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 P1211 Number of restart attempts Min 0 Level CStat CUT Datatype U16 Unit Def 3 3 P Group FUNC Active first confirm QuickComm No Max 10 Specifies number of times inverter will attempt to restart if automatic restart P1210 is activated P1212 Time to first restart Min 0 Level CStat CUT Datatype U16 Unit s Def 30 3 P Group FUNC Active first confirm QuickComm No Max 1000 Selects the time before the inverter is restarted for the first time if automatic restart P1210 is activated f4 f i 30s Acknowledge active i P f A n Motor 1 i P1212 P1212 P1212 i i 1 i Fault active P1213 2 P1213 A j 11 Y 1 ndi Act restart attempts l P1213 Restart time increment Min 0 Level CStat CUT Datatype U16 Unit s Def 30 3 P Group FUNC Active first confirm QuickComm No Max 1000 Selects the amount the restart time is increment for each restart of the inverter if automatic restart P1210 is activated Parameter Li
254. uonoun Jj psa JW 0026 1 2z0Ld ax S lg epou 44 FE 0 1 szoLd 0 e lg pow 44 1 6L0Ld eno eg epou 34 PER 0 1 8LOLd o 0 EL z 319g pow 44 1 LOLA eus V 18 epoul 44 PES 0 1 gb kd ei 0 18 epou 44 Z 10 8201 4 9ZOld 61014 91014 00 sz a ZH 007099 00 099 9 Aouenbau pexi4 00702 a s00ld ZH 007099 00 0S9 G Aouanbe y pexi4 00 91 q y0014 ZH 007099 00 0S9 y pexi4 00701 G e00ld 007099 00 0S9 Aouenbau pexiJ 00 s a zooLd 00 0S9 00 0S9 p xi i 0070 a Lo0Ld ZH 007099 00 0S9 Aousnbeyy p xi i x 1 22014 GE G 18 epou 44 2207 y yg pow 44 1g Spou 44 1 8L0Ld 1 z Ng epou 44 x 1 ZLOLd Sch 18 SpoW 44 53 1 9LOLd EL 0 18 epow 44 pepoo yq 44 AouenbeJ4 pexi4 99Jnog JUIOd aS euJaju 0 9 221 2 8Z0ld S Jg 195 44 18 9 9c0Ld vg q s 34 18 0 PS DEZOd 68 199 44 18 0 0 0 o zeokd c8 les 44 18 12014 yg q s 44 18 0 0 0 2 0Z0ld 018 199 44 18 MICROMASTER 430 6SE6400 5AF00 0BPO Parameter List 176 Function Diagrams Issue 03 02 oer YALSVNOXOIN uonoun i 33 PV 00 p po euq 1440 NO bay Seseo IIE 10 0 01 ee sq poujeuu uoinoejes 44 Ile pue O ZA 2007
255. ve data set DDS r2004 3 Reference power Min Level Datatype Float Unit Def 3 P Group COMM Max Full scale reference povver used over the serial link corresponds to 4000H ndex 104 r2004 0 1st Drive data set DDS r2004 1 2nd Drive data set DDS r2004 2 3rd Drive data set DDS Parameter List MICROMASTER 430 6SE6400 5AF00 0BPO Issue 03 02 Parameters P2009121 USS normalization Min 0 Level CStat CT Datatype U16 Unit Def 0 3 P Group COMM Active first confirm QuickComm No Max 1 Enables special normalization for USS Settings 0 Disabled 1 Enabled Index P2009 0 Serial interface COM link P2009 1 Serial interface BOP link Note If 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 P2010 2 USS baudrate Min 4 Level CStat CUT Datatype U16 Unit Def 6 3 P Group COMM Active first confirm QuickComm No Max 12 Sets baud rate for USS communication Settings 4 2400 baud 5 4800 baud 6 9600 baud 7 19200 baud 8 38400 baud 9 57600 baud 10 76800 baud 11 93750 baud 12 115200 baud Index P2010 0 Serial interface COM link P2010 1 Serial interface BOP link P2011 2 USS address Min 0 Level CStat CUT Datatype U16 Unit Def 0 3 P Group COMM Active first confirm QuickComm No Max 31 Sets unique address for inverte
256. verse direction inhibited Note Parameter List 6SE6400 5AF00 0BPO 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 430 139 Parameters Issue 03 02 P2235 3 Bl Enable PID MOP UP cmd Min 0 0 Level CStat CT Datatype U32 Unit Def 19 13 3 P Group COMMANDS Active first confirm QuickComm No 4000 0 Defines source of UP command 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 requires P0704 to be set to 99 BICO 722 4 Digital input 5 requires P0705 to be set to 99 BICO 722 5 Digital input 6 requires P0706 to be set to 99 BICO 19 D Keypad UP cursor Index P2235 0 1st Command data set CDS P2235 1 2nd Command data set CDS P2235 2 3rd Command data set CDS 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 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 4000 0 2236131 Defines source of DOWN command Settings 722 0 722 1 722 2 722 3 722 4 722 5 722 6 722 7
257. ws the user to define the source of status words and actual values for the reply PZD _ 10052 i P2051 0 e L10052 P2051 1 10021 P2051 2 P2051 3 UE r0053 PZD1 PZD2 ZSW1 HIW PZD3 P2051 7 2 PKVV Parameter ID value rame CB Frame CB Frame PZD Process data Parameter Process data ZSW Status word P2041 0 1 HIW Main actual value ie CB telegram gt CB on COM link PZD mapping from parameter P2051 Settings Index Status word 1 Actual value 1 52 CO BO Act status word 1 see r0052 21 inverter output frequency see r0021 Other BICO settings are possible P2051 0 Transmitted word 0 P2051 1 Transmitted word 1 P2051 2 Transmitted word 2 P2051 3 Transmitted word 3 P2051 4 Transmitted word 4 P2051 5 Transmitted word 5 P2051 6 Transmitted word 6 P2051 7 Transmitted word 7 r2053 5 CB identification Min Level Datatype U16 Unit Def 3 P Group COMM Max Displays identification data of the communication board CB The different CB types r2053 0 are given in the Enum declaration Settings Index 0 No CB option board 1 PROFIBUS DP 2 DeviceNet 256 not defined 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 7 116 Index CB diagnosis M
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