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Closed-loop control application for a Ward-Leonard block
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1. p20046 0 20031 Output AND 0 r20031 at input IO of OR 0 p20046 1 20035 Output AND 1 r20035 at input 11 of OR 0 p20046 2 Low signal at I2 and I3 of ORO p20046 3 0 Closed loop control application for a Ward Leonard block 14 C98130 A7066 A51 1 01 7619 04 2011 Parameter p20048 1 Meaning Runtime group 1 for OR 0 p20049 1080 Run sequence for OR 0 Tachometer failure monitoring External Fault 3 FO7862 Parameter Meaning Free multiplier MUL 1 for scaling the EMF for the tachometer monitoring p20114 0 20129 EMF r20129 at input XO of MUL 1 p20114 1 52403 Multiplication with the field weakening range r52403 set in p50403 0 at input X1 of MUL 1 p20114 2 1 p20114 3 1 100 as X2 and X3 from MUL 1 p20116 1 Runtime group 1 for MUL 1 P20117 1090 Run sequence of MUL 1 p50403 0 Enter the field weakening range for monitoring the EMF 1 field weakening ratio x 100 set 100 without field weakening e g for field weakening range 3 1 1 3 x 100 33 Free subtractor SUB 1 for EMF scaled minus n act p20106 0 20115 Output MUL 1 r20115 as X1 at SUB 1 p20106 1 20134 n act absolute S r20134 as X2 at SUB 1 p20108 1 p20109 2000 Runtime group 1 for SUB 1 Run sequence for SUB 1 Free limit monitor LVM 1 as monitoring EMF n act p20275 20107 Output SUB 1 r20107 as input X for LVM 1 p20276
2. Closed loop control application for a Ward Leonard block C98130 A7066 A51 1 01 7619 04 2011 5 For 460 500 V line voltage the following overvoltage protection is recommended up to 400 Ws Varistor SIOV B32K550 up to 2000 Ws Varistor SIOV B80K550 gt 2000 Ws E89110 B2350 L1 overvoltage protection for 1Q with thyristor from Siemens for 4Q two of these are used anti parallel 6 Semiconductor protection fuses and line reactors The types of semiconductor fuses and line reactors are specified in catalog D23 1 Closed loop control application for a Ward Leonard block 6 C98130 A7066 A51 1 01 7619 04 2011 5 Block diagram for closed loop control of the SINAMICS DCM for the generator field AND 0 Mx Run AND 1 Mx n gt 0 SUB 1 C IS ORO AS a Analog speed setpoint input c from the isolating amplifier armature current motor 1 Setpoint enable from Run signal 3 Speed controller 5 Armature current controller as field current controller A For gating unit C Actual EMF value absolute D To generate the field current setpoint generation for the motor field F Tachometer monitoring to External fault 3 S Measured motor speed R Motor resistance in n gt 0 of the limit monitor n gt zero query Closed loop control application for a Ward Leonard block C98130 A7066 A51 1 01 7619 04 2011 B C E AS IS A D from the isolating amplifier generator voltage from the
3. Parameter p50370 0 200 00 Meaning Boost n lt nmin message This is required for correct functioning of OFF1 for this application The ON function is connected via terminal X177 12 Control Fault acknowledgement Parameter p2102 53010 06 Meaning Terminal X177 14 acknowledge r53010 06 as source for all faults This parameter is in DO1 Parameters for peer to peer connection Parameter Meaning p50790 5 Select peer to peer p50791 2 Two words via peer to peer p50793 13 Recommended baud rate 187 5 kBd p50795 1 Activate bus termination p50797 0 3 Telegram failure time peer to peer 50794 0 52268 Selects the motor field current setpoint as the 1st send word via peer to peer 50612 0 52601 Selects motor field actual current value of the 1st receive word via peer to peer This applies for monitoring of the motor field If field current for motor fails F60105 is output p51117 0 898 0 p51117 1 2138 07 ON OFF1 to binector connector converter bit 0 r02138 07 fault acknowledgment to binector connector converter bit 1 50794 1 52620 152620 from binector connector converter as 2nd send word via peer to peer Parameters for the binary outputs Parameter p50771 899 02 p50772 2139 03 Meaning Operation signal via terminal X177 19 in the Operation state SINAMICS DCM produces current high signal is output Fault signal via terminal X177 20 if an er
4. p50616 20129 Absolute value of actual EMF value of AVA 0 output r20129 as actual value for the EMF controller p50615 0 52402 Fixed value r52402 setting via p50402 0 as the setpoint for the EMF controller p50402 0 96 Set EMF setpoint to rated motor voltage minus IxR typically 96 100 corresponds to rated motor voltage setting depending on system conditions p50693 0 0 Disable EMF controller and perform field weakening only via the field characteristic recommended setting since the EMF of the motor voltage does not depend on the actual EMF value of the device Closed loop control application for a Ward Leonard block C98130 A7066 A51 1 01 7619 04 2011 13 Field weakening characteristic Parameter Meaning p50117 0 Control word Field characteristic included in case of manual characteristic curve recording after setting characteristic curve p50117 to 1 p50118 0 Rated motor EMF The value is not correct for this application because it is derived from p50078 0 in the device p50119 0 Rated speed in of nmax set value nrated x 100 nmax 50120 0 to p50139 0 Points of the field characteristic curve include field characteristic manually Speed zero signal n gt 0 Parameter Meaning Absolute value generator for the measured actual speed value with AVA 1 p20133 From measured motor speed as input for AVA 1 r0061 0 For pulse encoder operatio
5. parameter p50079 must be set to 1 The rated current of the SINAMICS DCM should be designed for the maximum field current of the generator Additional alpha W pulses are required to ensure that the field current is brought to zero before a change of torque direction is carried out P50179 3 to 7 depending on the inductance of the field winding This ensures that the current of the active torque direction is brought to zero before a torque direction changeover is carried out and thus ensures that no circulating current occurs The firmware version of the SINAMICS DCM must be Version 1 2 or higher 2 SINAMICS DCM for motor field If a separate SINAMICS DCM is required for the motor field a 2Q device is used Since the direction of rotation of the motor is determined by a bipolar armature voltage the field supply unit for the motor field can be a 2Q device 3 Isolating amplifier Isolating amplifiers are required to match the armature current signal and the armature voltage of the motor generator block to the SINAMICS DCM The isolating amplifiers must supply a 10 V signal for the rated values of the drive unit Isolating amplifiers for the armature current A faster isolating amplifier without high filtering for dynamic closed loop armature current control should be used for the armature current This isolating amplifier is used together with a shunt in the armature circuit The insulation resistance must be designed to accommodate the full
6. 0 1 10 as interval mean value M for LVM 1 p20277 0 0 0 as interval limit L for LVM 1 p20278 0 03 3 hysteresis for LVM 1 p20282 1 Runtime group 1 for LVM 1 p20283 2010 Run sequence for LVM 1 Tachometer failure monitoring via External fault 3 p02108 0 20281 p03110 100 QL LVM 1 input signal below threshold high signal F07862 trips above threshold LVM 1 low signal 100 ms ON delay for the error signal Fault suppression Parameter p2118 0 60042 Meaning Selects that the error message Tachometer fault is suppressed The Tachometer fault error message implemented in the basic unit must be hidden here p2119 0 3 Suppresses the error message Tachometer fault p2108 0 1 Tachometer fault of the free function blocks F07862 does not occur if necessary Scaling the analog inputs Parameter p50701 0 100 Meaning Scaling input speed setpoint terminal X177 25 26 10 V 100 p50711 0 125 Scaling for Al 1 for 100 at r52015 if 8 V is present at terminal X177 27 28 armature current p50731 0 125 Scaling for Al 3 for 100 at r52019 if 8 V is present at terminal X177 1 2 generator voltage p50731 1 125 Scaled Al 4 to 100 at r52021 if 8 V present at terminal X177 3 4 motor voltage Closed loop control application for a Ward Leonard block C98130 A7066 A51 1 01 7619 04 2011 15 Control ON OFF1
7. OFF2 2 OFF2 OFF 1 has same effect as OFF2 for this application 3 OFF3 OFF3 quick stop cannot be used for this application Remedy Cancel Run and switch the ramp function generator to the desired deceleration ramp for quick stop generator 4 Run From terminal X177 11 corresponds to setpoint enable upstream of the ramp function Closed loop control application for a Ward Leonard block C98130 A7066 A51 1 01 7619 04 2011 Function Fault acknowledgement Comments From terminal X177 14 Is forwarded peer to peer to the SINAMICS DCM for the motor for common acknowledgment After acknowledging specify OFF1 to achieve Ready for switching on status Feedback signal from armature circuit circuit breaker via terminal X177 15 Mx High is circuit breaker ON Mx Low switches to generator voltage control blocks the ramp function generator RFG output becomes zero for zero volt generator voltage control Switchover to actual speed value Takes place when Mx High and Run are present or if Mx High and n gt zero are present AS signal n zero Because of the special OFF 1 function for this application the n lt nmin signal may not be used threshold for nmin boost A separate limit monitor is used for n gt zero Error message If there is an error message in the SINAMICS DCM for the generator its current becomes zero and can no longer be controlled This may result in an impe
8. armature voltage of the block The scaling of the isolating amplifier should be 8 VDC for motor limiting current this provides a certain amount of reserve for transient harmonics Isolating amplifiers for motor and generator voltage These isolating amplifiers are designed for the maximum armature voltage of the block The scaling should be 8 V for rated motor and generator voltage so that a certain reserve is available for transient overvoltages 4 Resistance parallel to field winding If the holding current is undershot disable the thyristors To prevent tripping of the overvoltage protection it is recommended to insert a resistor 1 KQ parallel to the field winding The power of the resistor is calculated from the rated voltage of the generator or motor field Pv UxU R 5 Protective circuit in parallel with the field circuit At the output of the SINAMICS DCM devices for field supply a protective circuit must be configured to prevent overvoltage This is active particularly in the event of a power failure on the line side Dimensioning is carried out according to the energy content of the field L IxI 2 For 230 400 V line voltage we recommend the following overvoltage protection depending on the energy content of the field winding up to 400 Ws Varistor SIOV B32K460 manufacturer Epcos www epcos com up to 2000 Ws Varistor SIOV B80K460 gt 2000 Ws E89110 F2439 L1 overvoltage protection for 4Q with thyristor from Siemens
9. generator p50078 0 Rated voltage of supply network for 1U1 1V1 1W1 p50079 1 Long pulses selected p50083 0 4 Free actual speed value wiring p50609 0 0 Set only for the current controller optimization run will be changed later to the system value p50086 0 There is no automatic restart p50082 21 External field supply unit for the motor field setpoint input to the motor field after an ON command p50097 0 In the case of an error message specify current setpoint 0 at motor field p50100 0 Rated current of the generator field p50102 0 Rated current of the motor field p50171 0 100 Positive current limit 100 of p50100 p50172 0 100 Negative current limit 100 of p50100 p51838 The value of r50072 1 of the SINAMICS DCM for the motor field must be set here p50179 0 3 to 7 depending on the inductance of the generator field Generator field controller Parameter Meaning p50110 0 Resistance of the generator field is set during the current controller optimization run p50111 0 Inductance of the generator field is set during the current controller optimization run p50155 0 Kp current controller is set by the current controller optimization run p50156 0 Tn current controller is set during the current controller optimization run p50153 0 3 50601 2 2294 EMF pre control for field supply Technology controller output as cur
10. isolating amplifier motor voltage Ramp function generator enable from Mx signal Technology controller as armature current controller for the motor current EMF controller for field weakening motor field Actual EMF value Scaled absolute actual EMF value for tachometer monitoring EMF setpoint Signal for switching over to measured speed Measured absolute motor speed Actual current value in Analog to digital converter 6 Start stop function and device control 1 Proposed start sequence Action 1 Close ON OFF1 contact Comments The field controllers for motor and generator are switched on This starts the controller and regulates to zero volts generator voltage For the specified setting the actual value for the speed controller is the armature voltage of the generator and the main setpoint for the speed is zero 2 Close the armature circuit breaker M This closes the control circuit for the armature voltage while the generator voltage is regulated to zero so that no current flows 3 Close the RUN contact This enables the speed setpoint upstream of the ramp function generator and selects the actual value for the speed controller The motor should start to rotate via the selected ramp function generator 4 Change the speed setpoint to the required value The motor will follow the speed setpoint 2 Proposed stop function Action 1 Either bring the external speed setpoint
11. the motor The armature voltage of the generator was controlled using a low power field supply This enabled the motor to be driven at variable speeds In some cases the system is modernized by omitting the synchronous motor and the DC generator and feeding the motor armature via a thyristor set For other cases where the motor generator block produces sufficient performance and is in good condition a low cost version that modernizes only the control is often requested For these applications a4Q SINAMICS DCM can be configured using the standard functions of the technology controller and of the free function blocks to provide full control for a motor generator block The following closed loop control functions are implemented e Control of the generator field e Control of the armature current e Control of the motor speed e with an additional SINAMICS DCM also control of the motor field The complete control structure consists of 3 closed loop control loops The innermost control loop uses the normal armature current controller for controlling the generator field The 2nd control loop uses the technology controller to control the armature current for the generator The 3rd control loop uses the normal speed controller to control the motor speed If in addition a field weakening control is required an additional 2Q SINAMICS DCM must be used for field control of the motor This application paper describes the parameter settings required t
12. to zero or open the RUN contact 2 At any time when the armature circuit switch opens the generator control switches over to zero volt control This is necessary for generator safety Comments If the RUN contact is open the speed setpoint upstream of the ramp function generator is set to zero and the drive is decelerated to zero via the ramp function generator When the speed reaches zero voltage control is selected Voltage feedback is selected if the Mx contact is open which indicates that the armature voltage switch is open Then the system is brought to zero generator voltage 3 Open ON OFF 1 contact This switches the controllers off and inhibits the firing pulses generator field zero The motor field is deactivated via peer to peer 4 Open the armature circuit main switch M This opens the armature circuit and prevents current from flowing via the retentivity of the generator 3 Control and monitoring functions Function Comments ON OFF 1 a controller disable 1 ON OFF 1 From terminal X177 12 For PROFIBUS terminal X177 12 amp bit from PROFIBUS Is forwarded peer to peer to the SINAMICS DCM for the motor at the same time as ON simultaneously issues the controller enable A separate controller enable should not be used for this application Terminal X177 13 to High OFF 1 will cause immediate current decay to zero of the SINAMICS DCM and result in Do not use
13. 0 Adjust to 100 for r52019 using p50731 0 On reversal of polarity of the test signal r52019 should display 100 Remove the test voltage and restore the wiring to the armature voltage Isolating amplifiers for motor voltage Remove the wiring between the motor armature and the isolating amplifier and apply a test voltage that is equal to the rated armature voltage The polarity of the test voltage must match the motor armature voltage for forward rotation Adjust the isolating amplifier to 8 VDC output Terminal X177 3 must be positive against terminal X177 4 r52021 should then show 100 Adjust p50731 1 so that r52021 displays 100 Reverse the polarity of the test signal r52021 should display 100 Restore the isolating amplifier wiring to the motor armature Closed loop control application for a Ward Leonard block C98130 A7066 A511 01 7619 04 2011 17 4 Input of parameters After establishing the necessary wiring enter the parameters Enter only the general parameters and the parameters for the generator field controller initially followed by those for the current controller for the motor field and the generator field To optimize the armature controller for the generator and speed controller enter all of the other parameters first The following information provides assistance for proper commissioning 5 Optimizing the motor and generator fields To do this shut down the generator and open circuit breaker M Self
14. 1 0 for pulse encoder r52013 for analog tachometer Optimization of the speed controller must be performed manually This can be done using the test generator as described under field current optimization In order to optimize the speed control loop the armature voltage switch must be closed and the motor generator block must be in operation the motor and generator fields must also be in operation Closed loop control application for a Ward Leonard block 18 C98130 A7066 A51 1 01 7619 04 2011 Specify a low setpoint and verify that the speed is not integrated to nothing Compare the speed setpoint and actual speed value Adjust the gain p50225 and the integral time p50226 The rise time for the speed control loop should be approx 250 ms Empirical values are p50225 10 and p50226 0 5 s The function of the closed loop control at zero volts armature voltage with armature circuit switch closed must be verified 8 EMF controller for the motor field weakening control The field characteristic must be recorded manually The actual EMF value is the connector r20129 in this case More at FAQ http support automation siemens com WW view en 41 165031 With field weakening a tachometer generator or pulse encoder are always required 9 Closed loop control to Zero volt armature voltage when circuit breaker M of armature circuit is open Verify that the zero volt control is working properly when the circuit breaker for the armature circuit i
15. 1 2 52601 Current setpoint of the 1st receive word via peer to peer p50790 5 Select peer to peer p50791 2 2 words via peer to peer p50793 13 Recommended baud rate 187 5 kBd p50794 0 52116 Absolute current actual value as the 1st send word via peer to peer p50795 1 Activate bus termination p50797 0 3 Telegram failure time peer to peer 0 3 s 0840 0 52607 0 ON OFF 1 via peer to Receive word 2 bit 0 amp terminal X177 12 P0852 0 52607 0 Enable via peer to peer amp terminal X177 13 p02102 52607 1 Fault acknowledgment from peer to peer word 2 bit 1 This parameter is in DO1 10 Closed loop control application for a Ward Leonard block C98130 A7066 A511 01 7619 04 2011 8 SINAMICS DCM parameter assignment for generator field After Setting general parameters and parameters for Generator field controller perform a current controller optimization run with p50051 25 before entering the other parameters The current controller optimization run is possible only with the factory settings for the wiring of the controller structure Do not perform the rewiring in the controller structure required for this application until after the current controller optimization run has been completed Setting general parameters Parameter Meaning p0003 3 Set key parameter to 3 to enable modification of all parameters p50076 0 Adaptation of the rated unit armature current excitation current
16. 2253 0 52134 Speed controller output selected as armature current controller setpoint generator 02264 0 52015 Selected as actual armature current value signal via terminal X177 27 28 r52015 for armature current controller input 02200 0 899 02 Enable technology controller for status Enable operation r0899 02 p02257 0 00 Set ramp function generator ramp up time for setpoint to zero p02258 0 00 Set ramp function generator ramp down time for setpoint to zero p02261 0 1 Filtering time for the setpoint input is 0 1 s Set according to system condition Speed setpoint and ramp function generator Parameter p50433 0 Meaning p50433 52011 Speed setpoint via a terminal X177 25 26 factory setting p1140 0 53010 08 For Mx High from terminal X177 15 r53010 08 the ramp function generator is enabled p1142 0 53010 00 Setpoint enable prior to the ramp function generator by Run terminal X177 11 r53010 00 P50303 0 20 50304 0 10 Ramp up time for ramp function generator set according to system conditions Ramp down time for ramp function generator set according to system conditions p50305 0 2 Initial rounding for ramp function generator set according to system conditions 50306 0 2 Speed controller Parameter p50083 0 4 Final rounding for ramp function generator set according to system conditions Meaning Selects actual speed value of the f
17. EREPEEETTEFFEEPFFEETFLUREREEPLEUREFHEEPEPEPBLTNEREEPTRFEHENFELRETFEFPETELELLTERFEFER 4 4 Selection of the components nenn mn 5 5 Block diagram for closed loop control of the SINAMICS DCM for the generator field 24444000444n nenn 7 6 Start stop function and device control 440uuu44HRnnnnnnnnnnnnnnnnnennnnnnnnnnnnennnnnnnnnnnnnnnnnnnnnnnrennnnnn nennnnnnnnnnnennnsnnnnnnrnn 8 7 SINAMICS DCM parameter assignment for motor field urr44444sn0nnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnon nrnnnannnnn 10 8 SINAMICS DCM parameter assignment for generator field 4 444404444Hn0nnnnnnnnnnnnnnnnnnnnnannnnnnnnnnnnnennnn 11 9 COMMISSIONING VePREREPBRARRERFENTIPRRSERFFEPEHFPRRRFEFRHRCRERNRFERGEEHEACFIUFERRELHEEBENSETERFERTEHEESROIFFAFFTEFFEPRERETFFSEFRTEREFHFRTENFERRESPRERRTLRREREFEENF 17 1 Instructions Note This application document does not claim to contain all details and versions of units or to take into account all conceivable operational cases and applications The standard applications do not represent specific customer solutions but are only intended to provide support in the implementation of typical applications The operator is responsible for the correct operation of the products described Should you require further information or encounter specific problems which have not been handled in enough detail please contact your local Siemens office The contents of this applicat
18. SINAMICS DCM DC converters from 6 kW to 2500 kW for variable speed direct current drives Closed loop control application for a Ward Leonard block Edition 01 04 2011 Beuc SINAMICS drives SIEMENS SIEMENS SINAMICS DCM Closed loop control application for a Ward Leonard block Compact User Manual Legal information Warning notice system This manual contains notices you have to observe in order to ensure your personal safety as well as to prevent damage to property The notices referring to your personal safety are highlighted in the manual by a safety alert symbol notices referring only to property damage have no safety alert symbol These notices shown below are graded according to the degree of danger indicates that death or severe personal injury will result if proper precautions are not taken A WARNING indicates that death or severe personal injury may result if proper precautions are not taken AXCAUTION with a safety alert symbol indicates that minor personal injury can result if proper precautions are not taken CAUTION without a safety alert symbol indicates that property damage can result if proper precautions are not taken NOTICE indicates that an unintended result or situation can occur if the corresponding information is not taken into account If more than one degree of danger is present the warning notice representing the highest degree of danger wi
19. Speed setpoint 2 Connections Deactivate the Ward Leonard block b c d Disconnect the existing wiring and rewire a new SINAMICS DCM according to Section 3 Typical connections 3 Adjusting the isolating amplifiers The isolating amplifiers must be adjusted before use and their polarity checked To do this use appropriate test voltages to simulate the actual values Isolating amplifiers for armature current An mV signal that corresponds to the maximum value of the current should be applied instead of the shunt The polarity and adjustment of the amplifier must be checked The output value of the isolating amplifier must be positive for driving forward Adjust the isolating amplifiers so that 8 VDC are present when the mV of the test signal corresponds to the current limit maximum required generator current Terminal X177 27 must be positive against terminal X177 28 r52015 should show 100 Adjust value to precisely 100 using p50711 On reversal of the test signal r52015 should display 100 Remove the test voltage and connect the shunt Isolating amplifiers for generator voltage Remove the cable from isolating amplifier and apply a test voltage equal to the rated generator voltage The polarity of the test voltage must match the polarity of the generator voltage for forward rotation Adjust the isolating amplifier to 8 VDC at the output Terminal X177 1 must be positive against terminal X177 2 Parameter r52019 should now show 10
20. epare the armature current control 6 Optimizing the armature current controller The armature current controller must be optimized manually This can be carried out using the test generator described under field current control In order to synchronize the armature current the motor generator block must be running and the armature voltage switch must be closed The field current controller for the motor must be switched off with p50082 0 in the field supply unit for the generator In this way only a very low torque is produced The motor should be braked firmly so that it does not turn above the field retentivity Be careful Specify a small current setpoint of 0 to 1 Verify that the current does not rise to a high value A polarity fault at the isolating amplifier can cause high generator current Adjust the gain via p02280 and the integral time via p02285 The rise time should be approx 50 ms Empirical values are p2280 0 1 p2285 0 5 s The ramp function generator for the setpoint is thereby set to zero 92257 0 When optimization has been performed set p50082 in the field supply unit for the generator to the correct value and activate the SINAMICS DCM for the motor field 7 Optimizing the speed controller Note Tachometer monitoring with free function blocks does not monitor the tachometer for pole faults Therefore first set operation without tachometer and check the polarity of the actual value encoder via the connectors r006
21. ibed in this application document for motor generator blocks should be used and commissioned by trained personnel only Closed loop control application for a Ward Leonard block C98130 A7066 A51 1 01 7619 04 2011 3 3 Typical connections SIOV 1kQ Trennverstarker Isolator Impulsgeber Pulse Generator 12 Ein Aus1 On Off1 13 Freigabe Enable SINAMICS DCM Generatorfeld Generator Field X177 31 P10 1C1 25 n soll speed reference 6 1D1 32 N10 33 M X177 A 9 P24 2 a 12 Ein Aus1 On Off1 27 13 Freigabe Enable 28 11 Run I 14 St rquittierung Acknowledge 3 I 15 Mx Leistungsschalter M Ein 4 from Contactor M on 37 Peer to Peer M 38 r 39 48 40 SINAMICS DCM Motorfeld Motor Field X177 o 38 Peer to Peer 101 31 o 40 39 1D1 m o 9 P24 SIOV 1kOQ Closed loop control application for a Ward Leonard block C98130 A7066 A51 1 01 7619 04 2011 4 Selection of the components 1 SINAMICS DCM for generator field The SINAMICS DCM for the generator field should be a 4Q device The 4Q version is required to obtain both polarities in the generator voltage Operation of the motor is therefore possible in both directions of rotation The SINAMICS DCM devices are also designed for long pulses Long pulses enable reliable operation at high inductances For long pulses
22. ion document are not part of an earlier or existing contract agreement or legal relationship nor do they change such contracts agreements or legal relationships The contract of sale in each case outlines all the obligations of the DT Drive Technologies Division of Siemens AG The warranty conditions specified in the contract between the parties are the only warranty conditions accepted by the DT Drive Technologies Division Any statements contained herein neither create new warranties nor modify the existing warranty h warnine The units listed here contain dangerous electric voltages dangerous rotating machine parts fans and control rotating mechanical parts drives Failure to follow the relevant Operating Instructions may result in death serious injury or extensive material damage Technical Support You can also find help for technical issues through our Technical Support www siemens de automation support request German www siemens com automation support request English Siemens 2011 2 C98130 A7066 A511 01 7619 04 2011 2 Introduction Until the early 1960s a motor generator block the Ward Leonard block was used for variable speed drives A DC generator driven by a synchronous motor was used to supply a DC motor The generator armature voltage was controlled by changing the field to obtain a variable armature voltage to supply the motor The generator thus acted as a variable high power voltage source for
23. l parameters p50076 0 Adaptation of the rated unit armature current excitation current motor p50078 0 Rated voltage of supply network for 1U1 1V1 1W1 p50079 1 Long pulses selected p50082 0 Internal field not used the armature circuit is used to supply the field p50083 0 4 Speed actual value can be freely connected P50086 0 There is no automatic restart p50100 0 Nominal field current p50171 0 100 Positive current limit 100 of p50100 p50172 0 100 Negative current limit 100 of p50100 p50110 0 Resistance of the motor field is set by the current controller optimization run p50111 0 Inductance of the motor field is set by the current controller optimization run p50153 0 3 EMF pre control for field supply p50155 0 Kp current controller is set by the current controller optimization run p50156 0 Tn current controller is set by the current controller optimization run p50179 0 Additional alpha W pulses 3 to 7 depending on the inductance for the motor field P50609 0 0 Source actual speed value p2118 0 60042 Select tachometer fault error message to be suppressed p2118 1 60035 Select Motor blocked error message to suppress p2119 0 3 Suppress tachometer fault error message p2119 1 3 Suppress Motor blocked error message Setting the other parameters Parameter Meaning p50084 2 Current controlled operation p5060
24. ll be used A notice warning of injury to persons with a safety alert symbol may also include a warning relating to property damage Qualified Personnel The product system described in this documentation may be operated only by personnel qualified for the specific task in accordance with the relevant documentation for the specific task in particular its warning notices and safety instructions Qualified personnel are those who based on their training and experience are capable of identifying risks and avoiding potential hazards when working with these products systems Proper use of Siemens products Note the following WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation If products and components from other manufacturers are used these must be recommended or approved by Siemens Proper transport storage installation assembly commissioning operation and maintenance are required to ensure that the products operate safely and without any problems The permissible ambient conditions must be adhered to The information in the relevant documentation must be observed Siemens 2011 C98130 A7066 A511 01 7619 04 2011 1 Table of contents 1 Instr cti ns 2 2 2 2 eh ee ne ee ae dvenluecupe de Beh nan nis Jun ar een anne nur 2 2 WTP QUCEION REE ETETETT ATA 3 3 Typical c nnetti NS SEMBERBEUPEPEREESERUPPEERFEREFHEORFFEFEFEEPELEERPENLENEIFE
25. n 152013 For analog tachometer 120103 For EMF control operation without tachometer from SUB 0 p20136 1 AVA 1 calculated in runtime group 1 p20137 1040 Run sequence for AVA 1 Limit monitor LMV 0 for the n gt 0 message p20266 20134 Absolute measured speed as X input of LVM 0 p20267 0 Interval mean value M for LVM 0 0 p20268 0 005 0 03 Speed threshold as interval limit L for LVM 0 speed n gt 0 message for 0 5 to 3 for operation without tachometer at higher values p20269 0 003 LVM 0 hysteresis 0 3 p20273 1 LVM 0 in runtime group 1 calculated p20274 1050 Run sequence for LVM 0 Control Signal AS changeover to measured actual speed value Parameter P20030 0 53010 08 Meaning AND element AND 0 Signal Mx from terminal X177 15 r53010 08 at input 10 of AND 0 p20030 1 53010 00 Signal Run from terminal X177 11 r53010 00 at input 11 of AND O p20030 2 1 20030 3 1 High signal at 12 and I3 of AND 0 p20032 1 Runtime group 1 for AND 0 p20033 1060 Run sequence for AND 0 AND element AND 1 p20034 0 53010 08 Signal Mx from terminal X177 15 r53010 08 at input 10 of AND 1 p20034 1 20270 Signal n gt 0 r20270 at input 11 of AND 1 p20034 2 1 p20034 3 1 High signal at I2 and I3 of AND 1 p20036 1 Runtime group 1 for AND 1 p20037 1070 Run sequence for AND 1 Or element OR 0
26. o perform motor generator block control with the free function blocks and the technology controller of the SINAMICS DCM available from firmware V1 2 This application paper defines general guidelines to support the user with typical motor generator block control but does not describe every conceivable case of application Unused function blocks of the controller can be used for other functions Restrictions 1 The automatic optimization runs except that of the armature current controller for field current control cannot be used for this application 2 In the event of a fault in the SINAMICS DCM monitoring should be used in the motor generator circuit If an error occurs in the SINAMICS DCM for the generator field its current is brought to zero If the motor rotates a higher armature current can occur Under fault conditions on the converter for the generator field this armature current from the SINAMICS DCM cannot be controlled In this case the current setpoint at the SINAMICS DCM for the motor field is also brought to zero when an error message occurs in the generator control 3 The SINAMICS DCM was developed to control the armature current Due to the versatility of the software however it can also be used to control a motor generator block but this requires a certain knowledge of the customer requirements The armature circuit of the SINAMICS DCM is used to control the field of the generator and motor 4 Closed loop control descr
27. optimization run The field current controller for generator and motor must be optimized This can be performed at standstill of generator and motor circuit breaker for the armature voltage must be open using the current controller optimization run with p50051 25 After the optimization run the rise time of the field current should be checked in borderline cases re optimize manually The dynamics of the overall system require that the inner control loop and the field current controller exhibit good transition characteristics Manual adjustment Set p50601 4 to the desired setpoint input temporarily to obtain a basic field current value of 25 of the rated field Supply additional 2 current steps Then adjust p50155 and p50156 to obtain a rise time of approx 20 100 ms Typical values are p50155 10 and p50156 0 1 s The following test arrangement in the parameterization can be used for the step signal p50601 4 52208 from square wave generator see List Manual Chapter 2 Sheet 3120 for test setpoint Check the step response of the current using the trace function in the STARTER When optimization of the field current controller has been completed check whether the current reversal in the generator field operates correctly when the field current setpoint is reversed set p50179 so that no circulating current occurs Verify the polarity of the armature current for driving forward Shut down the SINAMICS DCM and for the next step Pr
28. r voltage via X177 3 4 r52021 as input X1 at SUB 0 20102 1 20111 IxR drop calculated by multiplier MUL 0 r20111 as input X2 at SUB 0 p20104 0 SUB 0 is calculated in runtime group 0 p20105 1010 Run sequence for SUB 0 Free multiplier MUL O for IxR calculation p20110 0 52015 The armature current of X177 27 28 r52015 is applied to input XO of MUL 0 20110 1 52401 The resistance value of r52401 which can be set in p50401 0 is applied to the input X1 of MUL 0 p20110 2 1 p20110 3 1 Input X2 and X3 from MUL 0 100 50401 0 4 Typical value 4 6 armature resistance factor in of the IxR drop set according to system conditions p20112 0 MUL 0 is calculated in runtime group 0 p20113 1000 Run sequence of MUL 0 Absolute value generation of the EMF by AVA 0 p20128 20103 EMF actual value r20103 as input of AVA 0 p20131 1 AVA 0 is calculated in runtime group 1 p20132 1030 Run sequence of AVA 0 Closed loop control for field weakening of the motor Parameter p50081 Meaning P50081 0No EMF dependent field weakening the following parameters for field weakening and field weakening characteristic are irrelevant Set P50081 1 after manual field characteristic curve plotting if EMF dependent field weakening is required p50275 0 0 6 P gain for motor EMF controller p50276 0 0 2 Motor EMF controller integral time
29. reely wired value via p50609 pP50169 0 0 p50180 p50181 acts as a current limit p50180 0 Positive armature current limit 100 is positive actual rated value from shunt p50181 0 Negative armature current limit 100 is negative actual rated value from shunt 50200 0 20 Filter time for actual speed value 20 ms setting according to system conditions p50225 0 10 P gain for speed controller optimize manually p50226 0 0 5 Integral time for speed controller optimize manually p50609 0 20220 Selects actual speed value of output NSW 0 free changeover switch Free changeover switch NSW 0 for the actual speed value p20218 0 52019 Armature generator voltage of terminal X177 1 2 r52019 as input XO NSW 0 12 Closed loop control application for a Ward Leonard block C98130 A7066 A51 1 01 7619 04 2011 Parameter p20218 1 Meaning of measured motor speed as X1 for NSW 0 r0061 0 For pulse encoder operation r52013 For analog tachometer r20103 For EMF control operation without tachometer from SUB 0 p20219 20047 p20221 0 From signal AS r20047 switching to measured speed NSW 0 is calculated in runtime group 0 p20222 1020 NSW 0 run sequence EMF calculation for operation without tachometer and for monitoring tachometer failure Parameter Meaning Free subtractor SUB 0 for EMF calculation 20102 0 52021 Moto
30. rent setpoint for controller generator field armature current controller SINAMICS DCM Do not set the generator with p50051 5 until after the optimization run has been completed Select a function module next item beforehand Selection of technology controller and free function blocks Parameter Meaning These parameters are in DO1 can also be set with BOP20 p003 3 Expert p009 2 Define the drive type function module p108 1 Bit 16 Technology controller Bit 18 Free function blocks Bit 31 PROFINET 00050000 Hex Bit 16 bit 18 80050000 Hex Bit 16 bit 18 bit 31 p009 0 The device is now reinitialized Closed loop control application for a Ward Leonard block C98130 A7066 A51 1 01 7619 04 2011 11 Parameter Meaning The following parameters are in DO2 P20000 0 4 Runtime group 0 is calculated with 4 ms P20000 1 1002 Runtime group 1 is calculated with 16 ms Armature current controller for generator by technology controller Parameter Meaning p02280 0 1 Proportional gain for armature current controller Should be optimized manually p02285 0 5 Integral time for armature current controller Should be optimized manually p02291 Positive generator field current limit Scaling 100 r50072 1 current p02291 p50100 r50072 1 x 100 p02292 Negative generator field current limit Scaling 100 r50072 1 current 02292 p50100 r50072 1 x 100 0
31. rmissible generator current In this state zero setpoint is therefore specified for the SINAMICS DCM for the motor field 10 Operation signal In Operation a high signal is output via terminal X177 19 11 Fault signal In the case of an error message in the SINAMICS DCM a low signal is output via terminal X177 20 In the case of an error message in the SINAMICS DCM for the motor field the actual current value signaled to the generator control becomes zero and the generator switches off with F60105 12 Tachometer fault The limit monitor LVM 1 is used to implement tachometer monitoring When LVM 1 triggers External fault 3 is output 13 PROFIBUS The 1st PZD word from the PROFIBUS must always be control word 1 Bit 10 must be set in the control word to ensure that the process data in the SINAMICS DCM are evaluated Set p0922 999 Closed loop control application for a Ward Leonard block C98130 A7066 A51 1 01 7619 04 2011 7 _SINAMICS DCM parameter assignment for motor field After Setting general parameters the current controller optimization run p50051 25 should be performed Only when this has been completed should you perform Settings for the further parameters Use terminal X177 12 for ON OFF1 for the current controller optimization run Setting general parameters Parameter Meaning p0003 3 Set key parameter to 3 to enable modification of al
32. ror message is present a low signal is output p50770 1 1 Inversion of the fault bit for output of a low signal at terminal X177 20 in the event of a fault BICO parameters Parameter Meaning r52015 Armature current generator r52019 Generator voltage armature r52021 Motor voltage armature r52193 Speed setpoint before setpoint enable r52192 Speed setpoint after setpoint enable at input for ramp function generator r52170 Speed setpoint at the speed controller input r52167 Speed actual value before filtering P200 r52141 Armature current setpoint generator after limitation p50180 102262 Armature current controller generator setpoint 102272 Armature current controller generator actual value 102294 Field current setpoint generator after setpoint limitation r52120 Field current setpoint of generator field after limitation p50171 120103 Actual EMF value 16 Closed loop control application for a Ward Leonard block C98130 A7066 A51 1 01 7619 04 2011 Parameter Meaning r20129 Actual EMF value absolute r52268 Current setpoint for the motor field r20270 n gt 0 120047 AS signal changeover to measured speed 9 Commissioning 1 Check the old existing system Run the old system and note the polarities and rated values a Polarity and rated current of generator and motor field Armature voltage Armature current Actual speed value e
33. s open Trademarks All names identified by are registered trademarks of the Siemens AG The remaining trademarks in this publication may be trademarks whose use by third parties for their own purposes could violate the rights of the owner Disclaimer of Liability We have reviewed the contents of this publication to ensure consistency with the hardware and software described Since variance cannot be precluded entirely we cannot guarantee full consistency However the information in this publication is reviewed regularly and any necessary corrections are included in subsequent editions Siemens AG Industry Sector Postfach 48 48 90026 NURNBERG Closed loop control application for a Ward Leonard block C98130 A7066 A51 1 01 7619 04 2011 Siemens AG Subject to change Industry Sector C98130 A7066 A511 01 7619 P O Box 48 48 Siemens AG 2011 90026 NUREMBERG GERMANY www siemens com automation
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