movidrive edition constant tension center winder · center winder" application module. the...
TRANSCRIPT
MOVIDRIVE®
Constant Tension Center Winder
Edition
07/2001
Manual1051 0710 / EN
10510710.book Seite 1 Freitag, 7. September 2001 3:33 15
SEW-EURODRIVE
10510710.book Seite 2 Freitag, 7. September 2001 3:33 15
MOVIDRIVE® MD_60A, Constant Tension Center Winder 3
1 Important Notes...................................................................................................... 4
2 System Description................................................................................................ 52.1 Application fields ............................................................................................ 52.2 Application example....................................................................................... 62.3 Program identification .................................................................................... 7
3 Project Planning..................................................................................................... 93.1 Pre-requisites ................................................................................................. 93.2 Functional description .................................................................................. 103.3 Measuring the web speed............................................................................ 123.4 Process data assignment............................................................................. 14
4 Installation ............................................................................................................ 164.1 Software....................................................................................................... 164.2 MDV/MDS60A with "terminal expansion board DIO11A" option.................. 174.3 MOVIDRIVE® MDV/MDS60A bus installation.............................................. 184.4 MOVIDRIVE® compact MCV/MCS4_A........................................................ 27
5 Startup................................................................................................................... 295.1 General information ..................................................................................... 295.2 Preliminary work........................................................................................... 295.3 Starting the "Constant tension center winder" program ............................... 305.4 Parameters .................................................................................................. 415.5 Starting the drive.......................................................................................... 425.6 Jog mode ..................................................................................................... 435.7 Teach-in run, determining friction curve....................................................... 445.8 Automatic mode, constant torque ................................................................ 455.9 Automatic mode, constant web tension ....................................................... 46
6 Operation and Service ......................................................................................... 476.1 Timing diagrams........................................................................................... 476.2 Fault information .......................................................................................... 516.3 Error messages............................................................................................ 52
00
I
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4 MOVIDRIVE® MD_60A, Constant Tension Center Winder
1 Important Notes
Documentation • Read this manual carefully before you commence installation and startup ofMOVIDRIVE® drive inverters with this application module.
• This manual assumes that the user has access to and is familiar with theMOVIDRIVE® documentation, in particular the MOVIDRIVE® system manual.
• In this manual, cross references are marked with "→". For example, (→ Sec. X.X)means: Further information can be found in section X.X of this manual.
• A requirement of fault-free operation and fulfillment of any rights to claim underguarantee is that the documentation is observed.
Safety and warning instructions
Always follow the safety and warning instructions contained in this publication!
• This manual does not replace the detailed operating instructions!
• Installation and startup only by trained personnel observing applicableaccident prevention regulations and the MOVIDRIVE ® operating instructions!
Electrical hazardPossible consequences: Severe or fatal injuries.
Hazard Possible consequences: Severe or fatal injuries.
Hazardous situationPossible consequences: Slight or minor injuries.
Harmful situationPossible consequences: Damage to the unit and the environment.
Tips and useful information.
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 5
Application fields
2 System Description2.1 Application fields
The "Constant tension center winder" application module is particularly suited toapplications in which endless material has to be wound or unwound.
The "Constant tension center winder" application module is especially suited for thefollowing sectors:
• Paper, cardboard
• Plastic
• Textiles
• Sheet metal
The "Constant tension center winder" offers the following advantages in theseapplications:
• User-friendly user interface
• You only have to enter the parameters required for the "Constant tension centerwinder" (ratios, diameters, tensile force)
• User-friendly application programs guide you through the process of settingparameters, so there is no need for complicated programming
• Monitor mode for optimum diagnosis
• You do not need any programming experience
• It does not take long to get to know the system
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6 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Application example
2.2 Application example
Winder/Unwinder A winder or unwinder represents a typical application example of the "Constant tensioncenter winder" application module. The following illustration shows an unwinder with onedrive each for the take-up roller and the pull-off roller. Normally speaking, the pull-offroller operates with speed control, in which case the material is unwound at a constantweb speed. The winder determines the tensile force, while the speed signal from thepull-off roller functions as a control signal.
Rewinder A rewinder represents another field of application. The endless material is unwound forprocessing and rewound immediately.
04864AXXFig. 1: Application example of a winder
05015AXXFig. 2: Application example of a rewinder
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 7
Program identification
2.3 Program identification
There are two ways in which you can identify the application program last loaded intothe MOVIDRIVE® unit.
1. With PC and MOVITOOLS:
• Connect MOVIDRIVE® to the PC via the serial port.• Start MOVITOOLS.• Select "Execute Program/Compiler."• In Compiler, select "Display/Program Information".
• The "Program Information" window appears. The entries here tell you whichapplication software is saved in the MOVIDRIVE® unit. The version number isalso displayed.
04920AENFig. 3: Starting the program information function
04921AENFig. 4: "Program Information" window
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8 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Program identification
2. Using the DBG11A keypad, no PC required:
• Select parameter P940 "Edit IPOS variables."• Set parameter P940 to ON. The keypad now displays "000V."• Press the ↑ key to increment the numbers and the → key to move the cursor to
the right. Set "128V."• The keypad now displays the content of variable H128 in decimal and
hexadecimal notation.
• The meaning of the decimal value in the first line is as follows:
04926AXXFig. 5: Variable H128
0 2 0 0 0 1 0 1 0 0
Program version
00001 = Table positioning00002 = Table positioning via fieldbus00003 = Positioning via bus00004 = Extended positioning via bus00005 = Absolute positioning00006 = Reserved00007 = Reserved00008 = Reserved00009 = Reserved00010 = Constant tension center winder00011 = Reserved00012 = Reserved...00100 = Crane control...
1 = Positioning2 = Winding technology3 = Sequence control system4 = Multi-axis application...
1 2 V 0 2 0 0 0 1 0 1 0 0= 0 B E B E 9 7 4 H E X8
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 9
Pre-requisites
3 Project Planning3.1 Pre-requisites
PC and software The "Constant tension center winder" application module is implemented as anIPOSplus® program and forms part of the SEW MOVITOOLS software package. In orderto use MOVITOOLS, you must have a PC with one of the following operating systems:Windows® 95, Windows® 98, Windows NT® version 4.0 or Windows® 2000.
Inverters, motors and encoders
• Inverters
The "Constant tension center winder" can only be implemented on MOVIDRIVE®
units with technology version (...-0T). The inverter can be controlled using eitherterminals or a bus with MOVIDRIVE® MDV/MDS. Terminal control is not possiblewith MOVIDRIVE® compact. You can use the system bus provided as standard orthe PROFIBUS-DP interface. You have to use MOVIDRIVE® compact MCV/MCS41A for PROFIBUS-DP.
It is essential for the "Constant tension center winder" to have encoder feedback, i.e.it can only be implemented on MOVIDRIVE® MDV/MDS or MOVIDRIVE® compactMCV/MCS, not on MOVIDRIVE® MDF or MOVIDRIVE® compact MCF.
• Motors and encoders
– For operation on MOVIDRIVE® MDV or MOVIDRIVE® compact MCV:Asynchronous servomotors CT/CV (encoder installed as standard) or AC motorsDR/DT/DV/D with encoder option.
– For operation on MOVIDRIVE® MDS or MOVIDRIVE® compact MCS:Synchronous servomotors DS/DY, resolver installed as standard.
Control viaPossible with MOVIDRIVE®
compact MCV/MCS40A compact MCV/MCS41A MDV/MDS60A
Terminals No No Yes, with DIO11A option
System bus Yes, without option Yes, without option Yes, without option
PROFIBUS-DP No Yes, without option Yes, with option DFP21A or DFP11A
PROFIBUS-FMS, INTERBUS, CAN, DeviceNet
No No
Yes, with DFP11A, DFI11A, DFI21A,
DFC11A, DFO11A or DFD11A option
MOVIDRIVE® MDV/MDS with bus control: The optional "terminal expansion boardtype DIO11A" is not allowed to be connected for operation with bus control. If theDIO11A option is connected, the virtual terminals cannot be addressed via the bus.
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10 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Functional description
3.2 Functional description
Functional characteristics
The "Constant tension center winder" application offers the following characteristics:
• Calculating the winding diameter: For this function, it is necessary for either amaster encoder or a MOVIDRIVE® drive with speed feedback to be installed on thepull-off roller.
The speed of the take-up roller n1, the speed of the pull-off roller or the masterencoder n2 and the diameter of the pull-off roller d0 are known. The winding diameterd is then calculated as follows: d = n2/n1 × d0
• Adjustable winding curve: With many materials, it is necessary to reduce thetensile stress as the winding diameter increases. You can set the windingcharacteristics in accordance with your requirements using a user-friendly editor.This is done either in a freely defined fashion with a table or using a hyperbolicfunction.
• Determining friction coefficients: The speed-dependent friction coefficients of themechanism and the gear unit are ascertained during a teach-in run. The frictioncoefficients are needed in order to calculate the tensile force accurately.
• Calculating tensile force: It must be possible to set the tensile force extremelyaccurately in order for the winder to function correctly. The following parameters aretaken into account when calculating the tensile force setpoint value:
– Current winding diameter– Winding characteristics– Friction coefficients of the mechanical components
• Extensive diagnostics: During operation, the monitor displays all the importantdata, e.g. current diameter, web speed, current tensile force and material length.
• Simple connection to the machine control (PLC).
Operating modes The functions are implemented with three operating modes:
• Jog mode (DI1Ø = "0" and DI11 = "0")
– As seen onto the drive side of the motor: The motor turns clockwise (= winding tothe right) when there is a "1" signal at binary input DIØ1, the motor turnscounterclockwise (= winding to the left) when there is a "1" signal at binary inputDIØ2. Bear in mind whether you are using a 2 or 3-stage gear unit.
– The drive is moved at a fixed speed setting in jog mode.– The drive turns with the maximum possible torque in jog mode (= 150 % IN),
regardless of the set tensile force value.
04880AXXFig. 6: Jog mode: Definition of winding to the right and winding to the left
CW = Motor turns clockwise, DIØ1 = "1"
CCW = Motor turns counterclockwise, DIØ2 = "1"
CCWCW
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 11
Functional description
• Teach-in, determining the friction curve (DI1Ø = "1" and DI11 = "0")
Start the teach-in run with DIØ1 = "1." During this teach-in run, the drive automaticallydetermines the speed-dependent friction coefficients of the gear unit and themechanical components. These friction coefficients are needed for calculating thetensile force setpoints accurately.
• Automatic mode, constant torque (DI1Ø = "0" and DI11 = "1")
The torque is kept constant irrespective of the current diameter. Consequently, theweb tension reduces reciprocally to the winding diameter.
The winding characteristics are not evaluated in this operating mode.
Start automatic mode with DIØ1 (winding to the right) = "1" or DIØ2 (winding to theleft) = "1".
• Automatic mode, constant web tension (DI1Ø = "1" and DI11 = "0")
The torque is set in relation to the winding diameter, the friction coefficients and thewinding characteristics. Consequently, the web tension, i.e. the tensile stress in thematerial, is kept constant.
The winding characteristics are evaluated in this operating mode.
Start automatic mode with DIØ1 (winding to the right) = "1" or DIØ2 (winding to theleft) = "1".
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12 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Measuring the web speed
3.3 Measuring the web speed
The web speed has to be measured in order to calculate the current diameter of thewinding roller. This is done by either using a master encoder or a second MOVIDRIVE®
drive with speed feedback on the pull-off roller.
Master encoder The schematic illustration below shows the configuration with a master encoder on thereversing roller:
04881AXXFig. 7: Configuration with master encoder
Keep the following points in mind for correct function:
• The reversing roller must be located as close to the winding roller as possible.
• There must not be any slip between the material and the reversing roller.
• The diameter of the reversing roller is not allowed to change.
• Use an incremental encoder for 24 VDC voltage supply as the master encoder, withsignals according to RS-422 (5 V TTL).
• The relationship between the travel resolution of the motor encoder and thetravel resolution of the master encoder must not be greater than 15:1.
• Connect the master encoder signal to MOVIDRIVE® input X14 of the winding drive.
04979AXXFig. 8: Motor encoder on X15 and master encoder on X14
X13
4
5
6
7
8
9
10
11
8
9
10
X14 X15ENCODER IN/OUT ENCODER IN
(RESOLVER IN)
SUPPLY OUT 24V=
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 13
Measuring the web speed
Pull-off roller with drive
The schematic illustration below shows the configuration with a second MOVIDRIVE®
drive on the pull-off roller:
04882AXXFig. 9: Configuration with drive on the pull-off roller
X14 Slave
X14 Master
815 355 8
The following points must be borne in mind for correct function:
• The pull-off roller must be located as close to the take-up roller as possible.
• There must not be any slip between the material and the pull-off roller.
• The diameter of the pull-off roller is not allowed to change.
• Use the "Encoder connection master X14 → slave X14" cable (part number 815 3558) to connect the two MOVIDRIVE® invertersr. Note the master/slave assignmentof the cable.
• X14-X14 connection: Connect a maximum of three slaves to one master.
04980AXXFig. 10: Motor encoder on X15 and X14-X14 connection
X13
4
5
6
7
8
9
10
11
8
9
10
X14 X15ENCODER IN/OUT ENCODER IN
(RESOLVER IN)
SUPPLY OUT 24V=
X13
4
5
6
7
8
9
10
11
8
9
10
X14 X15ENCODER IN/OUT ENCODER IN
(RESOLVER IN)
SUPPLY OUT 24V=
Slave Master
Slave Master815 355 8
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14 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Process data assignment
3.4 Process data assignment
You can also start the "Constant tension center winder" application module via a bus.All MOVIDRIVE® fieldbus options are supported, as is the system bus (SBus) which isprovided as standard. The virtual terminals in control word 2 are used for bus control (→MOVIDRIVE® Fieldbus Unit Profile).
Process output data
The assignment of the process output data words is as follows:
• PO1: Control word
• PO2: Tensile stress setpoint
Please note: The MOVIDRIVE® option of "terminal expansion board type DIO11A" isnot allowed to be installed for bus control!
04427AXXFig. 11: Data exchange via process data
PO = Process output data PI = Process input data
PO1 = Control word 2 PI1 = Status word 2
PO2 = Setpoint tensile stress (IPOS PO DATA) PI2 = Actual tensile stress (IPOS PI DATA)
PO3 = Setpoint for the material length to be wound (IPOS PO DATA)
PI3 = Either material length, diameteror web speed (IPOS PI DATA)
E QQ
PE
PA
PA1
PE1
PA2
PE2
PA3
PE3
Virtual input terminals Fixed assignment
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
Virtual terminal 8DI17 → P617
Controller inhibit/enable
Virtual terminal 7DI16 → P616
Enable/rapid stop
Virtual terminal 6DI15 → P615 Enable/stop
Virtual terminal 5DI14 → P614 /Hold control
Virtual terminal 4DI13 → P613
Rampswitchover
Virtual terminal 3DI12 → P612
Parameter set switchover
Virtual terminal 2DI11→ P611 Error reset
Virtual terminal 1DI1Ø → P610 Reserved
PO2 Tensile stress setpoint
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
[N]
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 15
Process data assignment
• PO3: Specification of material length to be wound
Process input data
The assignment of the process input data words is as follows:
• PI1: Status word 2
• PI2: Actual tensile stress
• PI3: Either
– Current material length [m]– Current winding diameter [mm]– Current web speed [m/min]
PO3 Specification of material length to be wound
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
[m]
Virtual output terminals Fixed definition
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
Virtual terminal 8DO17 → P637
Output stageenabled
Virtual terminal 7DO16 → P636
Inverterready
Virtual terminal 6DO15 → P635
PO dataenabled
Virtual terminal 5DO14 → P634
Currentramp generator set
Virtual terminal 4DO13 → P633
Currentparameter set
Virtual terminal 3DO12 → P632 Fault/warning
Virtual terminal 2DO11→ P631
CW limit switchactive
Virtual terminal 1DO1Ø → P630
CCW limit switchactive
PI2 Actual tensile stress
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0
[N]
PI3 Material length, winding diameter or web speed
15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 1 0
[m] or [mm] or [m/min]
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16 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Software
4 Installation4.1 Software
MOVITOOLS The "Constant tension center winder" application module is part of the SEWMOVITOOLS software package (version 2.60 and higher). Proceed as follows to installMOVITOOLS on your computer:
• Insert the MOVITOOLS CD into the CD ROM drive of your PC.
• Select "Start/Run...".
• Type "Drive letter of your CD drive:setup" and press the Enter key.
• The MOVITOOLS setup menu appears. Follow the instructions of the installationwizard.
You can now use Program Manager to start MOVITOOLS. If a MOVIDRIVE® unit isconnected to your PC, select the correct port (PC COM port) and set peer-to-peerconnection. Select <Update> to display the inverter in the "Connected Inverters"window.
Technology version (from version 2.70)
The "Constant tension center winder" application module can be used withMOVIDRIVE® units in the technology version (-0T). The application modules cannot beused with units in the standard version (-00).
04883AENFig. 12: MOVITOOLS window
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 17
MDV/MDS60A with "terminal expansion board DIO11A" option
4.2 MDV/MDS60A with "terminal expansion board DIO11A" option
04884AENFig. 13: Wiring diagram for MOVIDRIVE® MDV/MDS60A basic unit with DIO11A option
X14: (MDV/MDS)
X15: (MDV/MDS)
X13:
X11:
DIØØDIØ1DIØ2DIØ3DIØ4DIØ5
DCOMVO24DGNDST11ST12
REF1AI11AI12
AGNDREF2
123456789
1011
X10:
X22:
X20:
X21:
X23:
TF1DGNDDBØØ
DOØ1-CDOØ1-NODOØ1-NC
DOØ2VO24VI24
DGND
DI1ØDI11DI12DI13DI14DI15DI16DI17
DCOMDGND
AI21AI22
AGNG
AOV1AOC1AGNGAOV2AOC2AGNG
DO1ØDO11DO12DO13DO14DO15DO16DO17DGND
123456789
10
123456789
10
123
123456
123456789
1
5
5
1
6
9
9
6
=
=
+
+
-
-
24 V
24 V
MDV (MDS)
X11
X12
S11S12
X13
X10
1
2
3
4
5
1
2
3
4
5
6
7
8
9
10
11
1
2
3
4
5
6
7
8
9
10
1
2
3
mA V↔R ON OFF↔
MOVIDRIVE®
DIO11A
X14 X15ENCODER IN/OUT ENCODER IN
(RESOLVER IN)
SUPPLY OUT 24V=
DIO
X20
X21
X22
X23
123
123456
123456789
10
123456789
IPOS input: mode 2^0IPOS : mode 2^1IPOS : selection Dmin 2^0IPOS : selection Dmin 2^1IPOS : set DminIPOS : set DmaxIPOS : reservedIPOS : reset length counterReference X22: DI1Ø...DI17Reference potential for binary signals
inputinputinputinputinputinputinput
Setpoint tensile force
Reference potential for analog signals
Actual value diameter (0...10 V)Actual value diameter (0(4)...20 mA)Reference potential for analog signalsPath speed (0...10 V)Path speed (0(4)...20 mA)Reference potential for analog signals
IPOS output: mode 2^0IPOS : mode 2^1IPOS : selection Dmin 2^0IPOS : selection Dmin 2^1IPOS : Dmax reachedIPOS : wrenchedIPOS : friction factor table readIPOS : length reached
outputoutputoutputoutputoutputoutputoutput
Reference potential for binary signals
/Controller inhibitWinding CWWinding CCWEnable/Rapid stopResetNo functionReference X13:DIØØ...DIØ5+24V outputReference potential for binary signalsRS-485+RS-485-
+10 V
Reference potential for analog signals-10 V
Motor encoder:Incremental encoder (MDV) or resolver (MDS)
(Connection MOVIDRIVE
operating instructions)
→®
Input external encoder,Incremental encoder 5 V TTL
(Connection MOVIDRIVE
operating instructions)
→ ®
TF inputReference potential binary signals/Brake
Relay contact/faultNO relay/faultNC relay /fault
Ready for operation+24V output+24V inputReference potential binary signals
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18 MOVIDRIVE® MD_60A, Constant Tension Center Winder
MOVIDRIVE® MDV/MDS60A bus installation
4.3 MOVIDRIVE® MDV/MDS60A bus installation
Overview For the bus installation, please note the information in the relevant fieldbus manualswhich are included with the fieldbus interfaces. Please refer to the operating instructionsfor information on the installation of the system bus (SBus).
02800AXXFig. 14: Bus types
DFPPROFIBUSFMS / DP
DFIINTERBUS-SModule Ident.
227
DFCCAN-Bus
BUS-
S1
BIO
PIO
DFD
Mod/
DEVICE-NET
S2DR(0)DR(1)NA(0)NA(1)
NA(2)NA(3)NA(4)
10NA(5)
X30
OFF
Net
12345
P R O F I
B U S
PROCESS FIELD BUS
Device Net
MDV (MDS)
X11
X12
S11S12
X13
X10
X14 X15ENCODER IN/OUT ENCODER IN
(RESOLVER IN)
12345
1234567891011
12345678910
123
SUPPLY OUT 24V=
mA V↔R ON OFF↔
SBus
DFO
PD(2)PD(1)PD(0)NA(6)
NA(5)NA(4)NA(3)NA(2)
NA(1)NA(0)DR(1)DR(0)
BUSOFF
STATE
GUARD
COMM
S1
11
012
34
CANopen
12
34
12
34
nc
R
S2
X30 CANopen
3
0
12
34
DFIINTERBUS
DFPPROFIBUS
DP
ADRESS
X30PROFIBUS
DP
Please note: The MOVIDRIVE® option of "terminal expansion board type DIO11A" isnot allowed to be installed for bus control!
10510710.book Seite 18 Freitag, 7. September 2001 3:33 15
MOVIDRIVE® MD_60A, Constant Tension Center Winder 19
MOVIDRIVE® MDV/MDS60A bus installation
PROFIBUS (DFP21A)
The PROFIBUS documentation package contains detailed information. This packagecan be ordered from SEW. This documentation package contains the GSD files and typefiles for MOVIDRIVE® in order to help with project planning and to facilitate startup.
Technical data
Pin assignment
Option PROFIBUS fieldbus interface type DFP21A
Part number 823 618 6
Resources for startup/diagnostics MOVITOOLS software and DBG11A keypad
Protocol option PROFIBUS-DP to EN 50170 V2 / DIN E 19245 P3
Supported baud rates Automatic detection of baud rate from9.6 kbaud...12 Mbaud
Connection 9-pin sub D socketAssignment to EN 50170 V2 / DIN 19245 P3
Bus termination Not integrated, must be implemented in the PROFIBUS connector.
Station address 0...125 can be set using DIP switch
GSD file SEW_6003.GSD
DP identity number 6003 hex = 24579 dec
Weight 0.2 kg (0.44 lb)
1. Green LED: RUN2. Red LED: BUS FAULT3. DIP switch for setting the station address.4. 9-pin sub D socket: Bus connection
PROFIBUSDP
RUN
BUSFAULT
2222
0123
222
456
DFP
X30
ON
ADDRESS
nc
PROFIBUSDP
1
2
3
4
04434AXXFig. 15: Assignment of 9-pin sub D plug to EN 50170 V2
(1) 9-pin sub D plug
(2) Twist the signal wires together!
(3) Conductive connection is necessary between plug housing and shield!
3
8
4
5
6
9
RxD/TxD-P (B/ )B
RxD/TxD-N (A/ )A
CNTR-P
DGND (M5V)
VP (P5V)
DGND (M5V)
E QQ
(1)
(2)
(3)
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20 MOVIDRIVE® MD_60A, Constant Tension Center Winder
MOVIDRIVE® MDV/MDS60A bus installation
PROFIBUS (DFP11A)
The PROFIBUS documentation package contains detailed information. This packagecan be ordered from SEW. This documentation package contains the GSD files and typefiles for MOVIDRIVE® in order to help with project planning and to facilitate startup.
Technical data
Pin assignment
Option PROFIBUS fieldbus interface type DFP11A
Part number 822 724 1
Resources for startup/diagnostics MOVITOOLS software and DBG11A keypad
Protocol options• PROFIBUS-DP to EN 50170 V2 / DIN E 19245 P3• PROFIBUS-FMS to EN 50170 V2 / DIN E 19245 P3• Mixed mode PROFIBUS DP/FMS (combi-slave)
Supported baud rates
Automatic detection of baud rate:• 9.6 kbaud• 19.2 kbaud• 93.75 kbaud• 187.5 kbaud• 500 kbaud• 1500 kbaud
Connection 9-pin sub D socketAssignment to EN 50170 V2 / DIN 19245 P3
Bus termination Can be activated for cable type A (up to 1500 kbaud)to EN 50170 V2 / DIN 19245 P3
Station address 0...125 can be set using DIP switch
Default bus parameter Min-TSDR for FMS/DP or DP modeCan be selected via DIP switch
GSD file SEW_6000.GSD
Weight 0.2 kg (0.44 lb)
1. Green LED: RUN2. Red LED: BUS FAULT3. DIP switch for setting the station address and changing from FMS/DP mixed mode to pure DP mode.4. DIP switch for switching the bus terminating resistor on and off5. 9-pin sub D socket: Bus connection
DFPPROFIBUSFMS / DP
1.
2.
3.
4.
5.
04434AXXFig. 16: Assignment of 9-pin sub D plug to EN 50170 V2
(1) 9-pin sub D plug
(2) Twist the signal wires together!
(3) Conductive connection is necessary between plug housing and shield!
3
8
4
5
6
9
RxD/TxD-P (B/ )B
RxD/TxD-N (A/ )A
CNTR-P
DGND (M5V)
VP (P5V)
DGND (M5V)
E QQ
(1)
(2)
(3)
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 21
MOVIDRIVE® MDV/MDS60A bus installation
INTERBUS (DFI11A)
The INTERBUS documentation package contains detailed information. This packagecan be ordered from SEW.
Technical data
Pin assignment Conductor color abbreviations to IEC 757.
Option INTERBUS fieldbus interface type DFI11A
Part number 822 723 3
Resources for startup/diagnostics MOVITOOLS software and DBG11A keypad
Connection
Remote bus input: 9-pin sub D plugRemote bus output: 9-pin sub D socketRS-485 transmission technology, 6-core shielded and twisted-pair cable
Module ID E3hex = 227dec
Weight 0.2 kg (0.44 lb)
1. DIP switch for setting the number of process data items2. 4 × green LED: Diagnostic LEDs3. 1 × red LED: Diagnostic LED4. 9-pin sub D plug: Remote bus input5. 9-pin sub D socket: Remote bus output
DFIINTERBUS-SModule Ident.
227
1.
2.
3.
4.
5.
04435AXXFig. 17: Assignment of the 9-pin sub D socket of the incoming remote bus cable and the
9-pin sub D plug of the outgoing remote bus cable
(1) 9-pin sub D socket of the incoming remote bus cable
(2) Twist the signal wires together!
(3) Conductive connection is necessary between plug housing and shield!
(4) 9-pin sub D plug of the outgoing remote bus cable
(5) Jumper pin 5 with pin 9!
6
1
7
2
3
/DO
DO
/DI
DI
COM
E QQ
(1)
(2)
(3)
6
1
7
2
3
5
9
/DO
DO
/DI
DI
COM
(4)
(2)
(3)
(5)
GN
YE
PK
GY
BN
GN
YE
PK
GY
BN
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22 MOVIDRIVE® MD_60A, Constant Tension Center Winder
MOVIDRIVE® MDV/MDS60A bus installation
INTERBUS with fiber optic cable (DFI21A)
The INTERBUS FO documentation package contains detailed information. Thispackage can be ordered from SEW.
Technical data
Connection assignment
Option INTERBUS fieldbus interface type DFI21A (FO)
Part number 823 093 5
Resources for startup/diagnostics MOVITOOLS software, DBG11A keypad and CMD tool
Supported baud rates 500 kbaud and 2 Mbaud, changeover via DIP switch
ConnectionRemote bus input: 2 F-SMA plugsRemote bus output: 2 F-SMA plugsOptically regulated FO interface
Weight 0.2 kg (0.44 lb)
1. DIP switch for process data length, PCP length and baud rate2. Diagnostic LEDs3. FO: Remote IN4. FO: Incoming remote bus5. FO: Remote OUT6. FO: Continuing remote bus
DFIINTERBUS
1.
2.
3.
4.
5.
6.
Position Signal Direction FO core color
3 FO remote IN Receive data Orange (OG)
4 Incoming remote bus Send data Black (BK)
5 FO remote OUT Receive data Black (BK)
6 Outgoing remote bus Send data Orange (OG)
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 23
MOVIDRIVE® MDV/MDS60A bus installation
CAN bus (DFC11A)
The CAN bus documentation package contains detailed information. This package canbe ordered from SEW.
Technical data
Pin assignment
Option CAN fieldbus interface type DFC11A
Part number 822 725 X
Resources for startup/diagnostics MOVITOOLS software and DBG11A keypad
Supported baud rates
Can be selected via DIP switch:• 125 kbaud• 250 kbaud• 500 kbaud• 1000 kbaud
Connection9-pin sub D plugAssignment to CiA standard2-core twisted cable to ISO 11898
Bus termination Can be switched on using DIP switch (120 Ω)
Address range 0...63 can be selected via DIP switch
Weight 0.2 kg (0.44 lb)
1. Green LED: TxD2. Red LED: RxD3. DIP switch for setting the process data length and baud rate4. DIP switch for setting the base ID and switching the bus terminating resistor on and off5. 9-pin sub D plug: Bus connection
DFCCAN-Bus
1.
2.
3.
4.
5.
04436AXXFig. 18: Assignment of 9-pin sub D socket of the bus cable
(1) 9-pin sub D socket
(2) Twist the signal wires together!
(3) Conductive connection is necessary between plug housing and shield!
6
7
2
3
DGND
CAN High
CAN Low
DGND
E QQ
(1)
(2)
(3)
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24 MOVIDRIVE® MD_60A, Constant Tension Center Winder
MOVIDRIVE® MDV/MDS60A bus installation
CANopen (DFO11A)
The CANopen documentation package contains detailed information. This package canbe ordered from SEW.
Technical data
Pin assignment
Option CANopen fieldbus interface type DFO11A
Part number 823 162 1
Resources for startup/diagnostics MOVITOOLS software and DBG11A keypad
Supported baud rates
Can be selected via DIP switch:• 125 kbaud• 250 kbaud• 500 kbaud• 1000 kbaud
Connection9-pin sub D plugAssignment to CiA standard2-core twisted cable to ISO 11898
Bus termination Can be switched on using DIP switch (120 Ω)
Address range 1...127 can be selected via DIP switch
Weight 0.2 kg (0.44 lb)
1. DIP switch for process data length, module ID and baud rate2. Display and diagnostic LEDs3. DIP switch for switching the bus terminating resistor on and off4. 9-pin sub D plug: bus connection
DFO
PD(2)PD(1)PD(0)NA(6)
NA(5)NA(4)NA(3)NA(2)
NA(1)NA(0)DR(1)DR(0)
BUSOFF
STATE
GUARD
COMM
S1
11
012
34
CANopen
12
34
12
34
nc
R
S2
X30 CANopen
3
0
12
34
1.
2.
3.
4.
04436AXXFig. 19: Assignment of 9-pin sub D socket of the bus cable
(1) 9-pin sub D socket
(2) Twist the signal wires together!
(3) Conductive connection is necessary between plug housing and shield!
6
7
2
3
DGND
CAN High
CAN Low
DGND
E QQ
(1)
(2)
(3)
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 25
MOVIDRIVE® MDV/MDS60A bus installation
DeviceNet (DFD11A)
The DeviceNet documentation package contains detailed information. This package canbe ordered from SEW.
Technical data
Terminal assignment
The assignment of connecting terminals is described in the DeviceNet specificationVolume I, Appendix A.
Option DeviceNet fieldbus interface type DFD11A
Part number 822 887 6
Resources for startup/diagnostics MOVITOOLS software and DBG11A keypad
Supported baud rates
Can be selected via DIP switch:• 125 kbaud• 250 kbaud• 500 kbaud
Connection5-pin Phoenix terminalAssignment to DeviceNet specification(Volume I, Appendix B)
Permitted line cross section According to DeviceNet specification
Bus termination Use of bus connectors with integrated bus terminating resistor (120 Ω) at the start and finish of the bus segment.
Address range which can be set (MAC-ID) 0...63 can be selected using DIP switch
Weight 0.2 kg (0.44 lb)
1. LED display2. DIP switch for setting the node address (MAC-ID) and baud rate3. 5-pin Phoenix terminal: Bus connection
BUS-
S1
BIO
PIO
DFD
Mod/
DEVICE-NET
S2DR(0)DR(1)NA(0)NA(1)
NA(2)NA(3)NA(4)
10NA(5)
X30
OFF
Net
12345
1.
2.
3.
Terminal Meaning Color
X30:1 V- (0V24) Black (BK)
X30:2 CAN_L Blue (BU)
X30:3 DRAIN Bright
X30:4 CAN_H White (WH)
X30:5 V+ (+24 V) Red (RD)
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26 MOVIDRIVE® MD_60A, Constant Tension Center Winder
MOVIDRIVE® MDV/MDS60A bus ins tallation
System bus (SBus) MDV/MDS
The "System bus (SBus)" manual contains detailed information. This manual can beordered from SEW.
Max. 64 CAN bus stations can be interconnected using the system bus (SBus). TheSBus supports transmission systems compliant with ISO 11898.
SBus wiring diagram
Cable specification • Use a 2-core twisted and shielded copper cable (data transmission cable with shieldcomprising copper braiding). The cable must meet the following specifications:
– Conductor cross section 0.75 mm2 (AWG 18)– Cable resistance 120 Ω at 1 MHz– Capacitance per unit length ≤ 40 pF/m (12 pF/ft) at 1 kHz
Suitable cables are CAN bus or DeviceNet cables.
Shield contact • Connect the shield at either end to the electronics shield clamp of the inverter or themaster control and ensure the shield is connected over a large area. Also connectthe ends of the shield to DGND.
Line length • The permitted total cable length depends on the baud rate setting of the SBus(P816):
– 125 kBaud → 320 m (1056 ft)– 250 kBaud → 160 m (528 ft)– 500 kBaud → 80 m (264 ft)– 1000 kBaud → 40 m (132 ft)
Terminating resistor
• Switch on the system bus terminating resistor (S12 = ON) at the start and finish ofthe system bus connection. Switch off the terminating resistor on the other units (S12= OFF).
02205BENFig. 20: System bus connection MOVIDRIVE® MD_60A
X11:REF1AI11AI12
AGNDREF2
12345
X12:DGNDSC11SC12
123
S 12S 11
ON OFF
X11:REF1AI11AI12
AGNDREF2
12345
X12:DGNDSC11SC12
123
S 12S 11
ON OFF
X11:REF1AI11AI12
AGNDREF2
12345
X12:DGNDSC11SC12
123
S 11S 12
ON OFF
y y y y
Control unit Control unit Control unit
System busref.potential
System busref.potential
System busref.potential
system bus high system bus high system bus highsystem bus low system bus low system bus low
system busterminating resistor
system busterminating resistor
system busterminating resistor
• There must not be any potential displacement between the units connected viaSBus. Take suitable measures to avoid a potential displacement, e.g. by connectingthe unit ground connectors using a separate lead.
10510710.book Seite 26 Freitag, 7. September 2001 3:33 15
MOVIDRIVE® MD_60A, Constant Tension Center Winder 27
MOVIDRIVE® compact MCV/MCS4_A
4.4 MOVIDRIVE® compact MCV/MCS4_A
PROFIBUS-DP pin assignment
Refer to the instructions in the MOVIDRIVE® compact MC_41A operating instructions.
04913AENFig. 21: Wiring diagram for MOVIDRIVE® compact MCV/MCS4_A
X14: (MCV/MCS)
X15: (MCV/MCS)
X30: (MCV/MCS41A)
X10:
DIØØDIØ1DIØ2DIØ3DIØ4DIØ5
DCOMVO24DGND
DOØ1-CDOØ2
DOØ1-NODBØØ
DOØ1-NCDGNDVI24
REF1AI11
REF2AI12SC11AI21SC12AGND
123456789
101112131415161718192021222324
1
1
5
5
5
1
6
6
9
9
9
6
MOVIDRIVE® compact
= +-24 V
PR
OF
I
BU
S
PR
OC
ES
SF
IEL
DB
US
SB
us
X10MCV41A
REF1
REF2
SC11
SC12
DIØØ
DIØ2
DIØ4
DCOM
DGND
DOØ2
DBØØ
DGND
AI11
AI12
AI21
AGND
DIØ1
DIØ3
DIØ5
VO24
DOØ1-C
DOØ1-NO
DOØ1-NC
VI24
1
3
5
7
9
11
13
15
17
19
21
23
2
4
6
8
10
12
14
16
18
20
22
24
1
5
6
9
PROFIBUS DPX30
RUN BUSFAULT
1
5
6
9
5
1
9
6
X15ENCODER IN
X14ENCODER I/O
/Controller inhibitWinding CWWinding CCWEnable/Rapid stopResetNo functionReference X10:DIØØ...DIØ5+24V outputRef. potential for binary signalsCommon relay contact /FaultReady for operationContact normally open/BrakeContact normally closed
/Fault
/FaultRef. potential for binary signals+24V input
+10 V
-10 V
System bus highTF/TH inputSystem bus lowRef. potential for analog signals
PROFIBUS-DP connection
(
)
Connection MOVIDRIVE
MCV/MCS41A operating instructions
→®
compact
Motor encoder:Incremental encoder (MDV) or resolver (MDS)
(Connection MOVIDRIVE
MCV/MCS operating instructions)
→®
compact
Input external encoder,Incremental encoder 5 V TTL
(Connection MOVIDRIVE
MCV/MS operating instructions)
→ ®compact
04915AXXFig. 22: Assignment of 9-pin sub D plug to EN 50170 V2
(1) X30: 9-pin sub D plug
(2) Twist the signal wires together!
(3) Conductive connection is necessary between plug housing and shield!
3
8
4
5
6
9
RxD/TxD-P (B/ )B
RxD/TxD-N (A/ )A
CNTR-P
DGND (M5V)
VP (P5V)
DGND (M5V)
(1) (2)
(3)
10510710.book Seite 27 Freitag, 7. September 2001 3:33 15
28 MOVIDRIVE® MD_60A, Constant Tension Center Winder
MOVIDRIVE® compact MCV/MCS4_A
System bus (SBus) MCV/MCS
The "System bus (SBus)" manual contains detailed information. This manual can beordered from SEW.
Max. 64 CAN bus stations can be interconnected using the system bus (SBus). TheSBus supports transmission systems compliant with ISO 11898.
SBus wiring diagram
Cable specification • Use a 2-core twisted and shielded copper cable (data transmission cable with shieldcomprising copper braiding). The cable must meet the following specifications:
– Conductor cross section 0.75 mm2 (AWG 18)– Cable resistance 120 Ω at 1 MHz– Capacitance per unit length ≤ 40 pF/m (12 pF/ft) at 1 kHz
Suitable cables are CAN bus or DeviceNet cables.
Shield contact • Connect the shield at either end to the electronics shield clamp of the inverter or themaster control and ensure the shield is connected over a large area. Also connectthe ends of the shield to DGND.
Line length • The permitted total cable length depends on the baud rate setting of the SBus(P816):
– 125 kbaud → 320 m (1056 ft)– 250 kbaud → 160 m (528 ft)– 500 kbaud → 80 m (264 ft)– 1000 kbaud → 40 m (132 ft)
Terminating resistor
• Switch on the system bus terminating resistor (S12 = ON) at the start and finish ofthe system bus connection. Switch off the terminating resistor on the other units (S12= OFF).
02411AENFig. 23: System bus connection MOVIDRIVE® compact
X10: X10: X10:
17 17 17
S 12S 11
S 12S 11 S 11
S 12ON OFF ON OFF ON OFF
y y y y
1234567
1234567
1234567
SC11
SC12
DGND
SC11
SC12
DGND
SC11
SC12
DGND
Control unit Control unit Control unit
Referencepotential
Referencepotential
Referencepotential
System bus high System bus high System bus high
System bus low System bus low System bus low
System busTerminating resistor
System busTerminating resistor
System busTerminating resistor
• There must not be any potential displacement between the units connected viaSBus. Take suitable measures to avoid a potential displacement, e.g. by connectingthe unit ground connectors using a separate lead.
10510710.book Seite 28 Freitag, 7. September 2001 3:33 15
MOVIDRIVE® MD_60A, Constant Tension Center Winder 29
General information
5 Startup5.1 General information
Correct project planning and installation are the pre-requisites for successful startup.Refer to the MOVIDRIVE® MD_60A and MOVIDRIVE® compact system manuals fordetailed project planning instructions. These system manuals form part of theMOVIDRIVE® MD_60A and MOVIDRIVE® compact documentation packages whichyou can order from SEW.
Check the installation, including the encoder connection, by following the installationinstructions in the MOVIDRIVE® operating instructions and in this manual (→ Sec.Installation).
5.2 Preliminary work
Perform the following steps before startup:
• Connect the inverter to the PC using the serial port (RS-232, USS21A on PC-COM).
• Install the SEW MOVITOOLS software (version 2.60 or higher).
• Start-up the inverter with "MOVITOOLS/Shell".
• Set the following operating modes:
• "0" signal at terminal DIØØ "/CONTROLLER INHIBIT/."
04981AENFig. 24: Inverter startup
InverterMotor type
DR/DT/DV/D CT/CV DS/DY
MOVIDRIVE® MDV60A or MOVIDRIVE® compact MCV4_A CFC CFC -
MOVIDRIVE® MDS60A or MOVIDRIVE® compact MCS4_A - - SERVO
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30 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Starting the "Constant tension center winder" program
5.3 Starting the "Constant tension center winder" program
General information
• Start "MOVITOOLS/Shell".
• Select "Startup/Constant tension center winder."
Initial startup The startup window appears as soon as the "Constant tension center winder" is startedfor the first time.
04885AENFig. 25: Starting the "Constant tension center winder" program
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 31
Starting the "Constant tension center winder" program
Setpoints
• Control source and setpoint source
Control source and setpoint source: "FIELDBUS" or "SBUS" is set automatically withbus control. "TERMINALS" and "BIPOL./FIX.SETPT" are set automatically withterminal control.
The setting cannot be changed here.
• Speed jog mode
Set the motor speed for jog mode.
04886AENFig. 26: Setting setpoints
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32 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Starting the "Constant tension center winder" program
Fieldbus parameters and process data assignment
Only with control via fieldbus/system bus:
• Set the fieldbus parameters. Fixed parameters are blocked and cannot be changed.
• Set the value of process input data word PI3. You can set one of the following values:
– Actual diameter [mm]– Actual web speed [m/min]– Actual material length [m]
04887AENFig. 27: Fieldbus parameters and process data assignment
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 33
Starting the "Constant tension center winder" program
Parameters for calculation of the diameter
• Diameter or pull-off roller master drive: Enter the diameter of the pull-off roller. Ifyou are using a master encoder, enter the diameter of the measuring wheel orreversing roller where the master encoder is mounted.
• Total ratio master drive: Enter the total ratio (gear unit × additional gear) betweenmotor shaft and pull-off roller. If you are using a master encoder, enter the total ratiobetween the master encoder and the measuring wheel or reversing roller.
• Total ratio winder: Enter the total ratio (additional gear × gear unit) between motorshaft and take-up roller.
• Resolution master drive: Enter the value given on the nameplate for the resolutionof the motor encoder of the master drive or for the resolution of the master encoder.Make sure that parameter P955 "Encoder scaling" is set to 1.
• "Diameter winding tube [mm]" and "Max. diameter winder [mm]": You can selectif you want to specify the minimum and maximum diameters for 1, 2, 3 or 4 windingtubes. In this way, you can use up to 4 different winders without having to set newprogram parameters. The diameter values of the next data record must be greaterthan or equal to the values of the previous data record. You can select one of the 4data records using 2 binary inputs.
04889AENFig. 28: Setting parameters for calculation of the diameter
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34 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Starting the "Constant tension center winder" program
Parameters for torque calculation
• Maximum speed: Enter the maximum web speed permitted for your application inthe unit [m/min].
• Minimum tensile force: Enter the smallest possible tensile force in the unit [N].
• Maximum tensile force: Enter the largest permitted tensile force in the unit [N].
• Friction compensation: During startup, "Read-in friction table" mode is used todetermine the friction losses within the mechanical components. The data are savedin a table and are used with reference to the current motor speed.
– No compensation for friction takes place if 0 % is entered. The web tensiondeviates from the setpoint at high winder speeds.
– Friction is fully compensated if 100 % is entered.
• Rated motor current, rated motor torque and maximum speed of the speed controllerare set automatically during startup and these values cannot be altered here.
04890AENFig. 29: Parameters for torque calculation
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 35
Starting the "Constant tension center winder" program
Setting the winding characteristics
Only effective, if Dmax - Dmin ≥ 100 mm.
With many materials, it is necessary to reduce the tensile stress as the winding diameterincreases. You can set these winding characteristics in two ways:
1. Formula: You can set the winding characteristics using a hyperbolic function.
2. Import: You can import any table values for the winding characteristics.
The result of the hyperbolic function or the table values is shown in the illustration.
Saving changes The program prompts you to save the entries you have made.
04891AENFig. 30: Setting the winding characteristics
04444AENFig. 31: Saving changes
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36 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Starting the "Constant tension center winder" program
Download By pressing "Download," all necessary settings will automatically made in the inverterand the "Constant tension center winder" IPOS program is started.
Switching to the monitor
After the download, the program asks if you want to switch to the monitor.
Select "Yes" to switch to the monitor and start in the desired operating mode. Select "No"to switch to MOVITOOLS/Shell.
04892AENFig. 32: Download window
04893AENFig. 33: Monitor Yes/No
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 37
Starting the "Constant tension center winder" program
Monitor The monitor appears immediately if the "Constant tension center winder" is restartedafter initial startup has already been performed.
• Only the status is displayed in operation without a bus.
• If operating with the fieldbus/system bus, you can select whether to display thestatus, fieldbus process data 1 or fieldbus process data 2.
Status
Repeating startup Press "Startup" if you want to repeat the startup. The startup windows will appear(→ Initial startup).
04894AENFig. 34: "Constant tension center winder" monitor, status display
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38 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Starting the "Constant tension center winder" program
Operation with fieldbus/system bus
If operating with the fieldbus/system bus, you can also have the fieldbus process datadisplayed in addition to the status display.
Fieldbus process data 1
Only for operation with fieldbus/system bus:
04895AENFig. 35: "Constant tension center winder" monitor, fieldbus process data 1
00
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 39
Starting the "Constant tension center winder" program
Fieldbus process data 2
Only for operation with fieldbus/system bus:
04896AENFig. 36: "Constant tension center winder" monitor, fieldbus process data 2
00
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40 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Starting the "Constant tension center winder" program
Control in the monitor
You can also simulate a control in the "Fieldbus process data 2" display in addition topure monitor operation.
• "0" signal at terminal DIØØ "/CONTROLLER INHIBIT/."
• To do this, activate "Control" for "PO1: Control word."
• You can now activate and deactivate the individual bits of the control word (PO1) andspecify values for the process output data words PO2 (= tensile stress setpoint) andPO3 (= material length to be wound).
• Press "Send PO" to submit these control words to the inverter.
The inverter now performs the travel command in accordance with these specifications.
04897AENFig. 37: Control simulation
• You can only change from "Control" to "Monitor" with DIØØ "/CONTROLLERINHIBIT" = "0".
• "Monitor" must be active to exit the "Constant tension center winder" program.
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 41
Parameters
5.4 Parameters
Startup automatically sets the following parameters:
Parameter number Parameter Setting
P100 Setpoint source BIPOL./FIX.SETPT, FIELDBUS or SBUS
P101 Control word source TERMINALS, FIELDBUS or SBUS
P136 Stop ramp 0 s
P137 Emergency ramp 0 s
P600 Binary input DIØ1 IPOS input
P601 Binary input DIØ2 IPOS input
P602 Binary input DIØ3 Enable/stop
P603 Binary input DIØ4 Error reset
P604 Binary input DIØ5 IPOS input
P610 – P617 Binary inputs DI1Ø – DI17 IPOS input
P819 Fieldbus timeout delay0.5 s
P815 SBus timeout delay
P831 Response FIELDBUS TIMEOUT
No responseDisplay error
Imm. stop/FaultEmerg. stop/FaultRapid stop/Fault
Imm. stop/WarningEmerg. stop/WarningRapid stop/Warning
P870 Setpoint description PO1 Control word 2
P871 Setpoint description PO2 IPOS PO-DATA
P872 Setpoint description PO3 IPOS PO-DATA
P873 Actual value description PI1 Status word 2
P874 Actual value description PI2 IPOS PI-DATA
P875 Actual value description PI3 IPOS PI-DATA
P876 PO data enable On
P300 Start/stop speed 1 0 rpm
P301 Minimum speed 1 0 rpm
P302 Maximum speed 1 0...5500 rpm
P730 Brake function 1 On
These parameters must not be altered after startup!
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42 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Starting the drive
5.5 Starting the drive
Following the download, switch to the "Constant tension center winder" monitor byselecting "Yes." You can set the operating mode using terminals DI1Ø and DI11 interminal control or bits 8 and 9 of "PO1: Control word" in bus control.
Operating modes
• Jog mode: Direction of rotation as seen onto the drive side of the motor.
– DIØ1 = "1": The drive winds clockwise (= winding to the right).– DIØ2 = "1": The drive winds counterclockwise (= winding to the left).– The speed for jog mode is fixed during startup.– The maximum possible torque is always available in jog mode (= 150% IN).
With regard to the direction of rotation, bear in mind if you are using a 2 or 3-stagegear unit.
• Teach-in run, determining friction curve:
– Start the teach-in run with DIØ1 = "1."– In this teach-in run, the drive automatically determines the speed-dependent
friction coefficients of the gear unit and the mechanical components.– The teach-in run always takes place with the "winding to the right" direction of
rotation.
• Automatic mode, constant torque:
– DIØ1 = "1": Start automatic mode, winding to the right.– DIØ2 = "1": Start automatic mode, winding to the left.– The torque is kept constant regardless of the current diameter. Consequently, the
web tension reduces reciprocally to the winding diameter.
• Automatic mode, constant web tension:
– DIØ1 = "1": Start automatic mode, winding to the right.– DIØ2 = "1": Start automatic mode, winding to the left.– The torque is set in relation to the winding diameter, the friction coefficients and
the winding characteristics. Consequently, the web tension – i.e. the tensile stressin the material – is kept constant.
Note the following points to start the drive. This applies to all operating modes:
• Binary inputs DIØØ "/CONTROLLER INHIBIT/" and DIØ3 "ENABLE/RAPID STOP"must get a "1" signal.
• Only with control via fieldbus/system bus: Set the control bit PO1:0"CONTROLLER INHIBIT/ENABLE" = "0" and the control bits PO1:1 "ENABLE/RAPID STOP" and PO1:2 "ENABLE/STOP" = "1".
Operating modeTerminal (in bus mode, virtual terminal in control word PO1)
DI1Ø (PO1:8) DI11 (PO1:9)
Jog mode "0" "0"
Teach-in run, determining friction curve "1" "0"
Automatic mode, constant torque "0" "1"
Automatic mode, constant web tension "1" "1"
00
I
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 43
Jog mode
5.6 Jog mode
• DI1Ø (PO1:8) = "0" and DI11 (PO1:9) = "0"
DIØ1 = "1" = winding to the right (CW) and DIØ2 = "1" = winding to the left (CCW).
The speed is fixed during startup.
The maximum possible torque is always available in jog mode (= 150% IN).
04880AXXFig. 38: Winding to the right (CW) and winding to the left (CCW)
04904AENFig. 39: Jog mode
CCWCW
00
I
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44 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Teach-in run, determining friction curve
5.7 Teach-in run, determining friction curve
• DI1Ø (PO1:8) = "1" and DI11 (PO1:9) = "0"
DIØ1 = "1" starts the teach-in run.
The drive automatically determines all speed-dependent friction values.
Important: The drive turns automatically at various speeds during the teach-in run.Consequently, decouple the driven machine so that only the motor and the gear unit areturning.
04905AENFig. 40: Teach-in run
00
I
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 45
Automatic mode, constant torque
5.8 Automatic mode, constant torque
• DI1Ø (PO1:8) = "0" and DI11 (PO1:9) = "1"
DIØ1 = "1" = Start automatic mode, winding to the right.
DIØ2 = "1" = Start automatic mode, winding to the left.
The torque is kept constant regardless of the current diameter. Consequently, the webtension reduces reciprocally to the winding diameter.
The winding characteristics are not evaluated in this operating mode.
04906AENFig. 41: Automatic mode, constant torque
00
I
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46 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Automatic mode, constant web tension
5.9 Automatic mode, constant web tension
• DI1Ø (PO1:8) = "1" and DI11 (PO1:9) = "1"
DIØ1 = "1" = Start automatic mode, winding to the right.
DIØ2 = "1" = Start automatic mode, winding to the left.
The torque is set in relation to the winding diameter, the friction coefficients and thewinding characteristics. Consequently, the web tension – i.e. the tensile stress in thematerial – is kept constant.
The winding characteristics are evaluated in this operating mode.
04907AENFig. 42: Automatic mode, constant web tension
00
I
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 47
Timing diagrams
6 Operation and Service6.1 Timing diagrams
The following prerequisites apply to the timing diagrams:
• Startup performed correctly
• DIØØ "/CONTROLLER INHIBIT" = "1" (no inhibit)
• DIØ3 "ENABLE/RAPID STOP" = "1"
Jog mode
The following bits have to be set in control word PO1 for control via fieldbus/system bus:
• PO1:0 = "0" (CONTROLLER INHIBIT/ENABLE)
• PO1:1 = "1" (ENABLE/RAPID STOP)
• PO1:2 = "1" (ENABLE/STOP)
04908AXXFig. 43: Timing diagram of jog mode
DIØØ = /Controller inhibit (1) = Start jog mode, winding to the right
DIØ3 = Enable/rapid stop (2) = Start jog mode, winding to the left
DI1Ø = Mode selection
DI11 = Mode selection
DIØ1 = Winding to the right n1 = Fixed speed for jog mode
DIØ2 = Winding to the left Set during startup
DBØØ = /Brake
n [1/min]
n1
0
-n1
DIØØ
DIØ3
DI1Ø
DI11
DIØ1
DIØ2
DBØØ
(1) (2)
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48 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Timing diagrams
Teach-in run, determining friction curve
Important: The drive turns automatically at various speeds.
04909AXXFig. 44: Timing diagram of referencing mode
DIØØ = /Controller inhibit (1) = Start teach-in run
DIØ3 = Enable/rapid stop (2) = Teach-in run finished
DI1Ø = Mode selection
DI11 = Mode selection
DIØ1 = Winding to the right
DIØ2 = Winding to the left
DBØØ = /Brake
n [1/min]
0
DIØØ
DIØ3
DI1Ø
DI11
DIØ1
DIØ2
DBØØ
(1) (2)
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 49
Timing diagrams
Automatic mode, constant torque
04910AXXFig. 45: Automatic mode timing diagram, constant torque
DIØØ = /Controller inhibit (1) = Start winding to the right = unwinding
DIØ3 = Enable/rapid stop (2) = Start winding to the left = winding
DI1Ø = Mode selection |T| = Torque value
DI11 = Mode selection |F| = Web tension value
DIØ1 = Winding to the right d = Winding diameter
DIØ2 = Winding to the left
DBØØ = /Brake = unwind
= wind up
n [1/min]
|T|
d
|F|
0
DIØØ
DIØ3
DI1Ø
DI11
DIØ1
DIØ2
DBØØ
(1) (2)
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50 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Timing diagrams
Automatic mode, constant web tension
04911AXXFig. 46: Automatic mode timing diagram, constant web tension
DIØØ = /Controller inhibit (1) = Start winding to the right = unwinding
DIØ3 = Enable/rapid stop (2) = Start winding to the left = winding
DI1Ø = Mode selection |T| = Torque value
DI11 = Mode selection |F| = Web tension value
DIØ1 = Winding to the right d = Winding diameter
DIØ2 = Winding to the left
DBØØ = /Brake = unwind
= wind up
n [1/min]
|T|
d
|F|
0
DIØØ
DIØ3
DI1Ø
DI11
DIØ1
DIØ2
DBØØ
(1) (2)
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 51
Fault information
6.2 Fault information
The error memory (P080) saves the last five error messages (errors t-0 – t-4). The errormessage of longest standing is deleted whenever more than five fault messages haveoccurred. The following information is saved in case of a malfunction:
Error that occurred • Status of the binary inputs/outputs • Operating status of the inverter• Inverter status • Heat sink temperature • Speed • Output current • Active current • Unitutilization • DC link circuit voltage • ON hours • Enable hours • Parameter set • Motorutilization.
There are three switch-off responses, depending on the fault; the inverter is inhibitedwhen in fault status:
• Immediate switch-off:
The unit can no longer brake the drive; the output stage goes to high resistance inthe event of an error and the brake is applied immediately (DBØØ "/Brake" = "0").
• Rapid stop:
The drive is braked with the stop ramp t13/t23. Once the stop speed is reached, thebrake is applied (DBØØ "/Brake" = "0"). The output stage goes to high-resistanceafter the brake reaction time has elapsed (P732 / P735).
• Emergency stop:
The drive is braked with the emergency ramp t14/t24. Once the stop speed isreached, the brake is applied (DBØØ "/Brake" = "0"). The output stage goes to high-resistance after the brake reaction time has elapsed (P732 / P735).
Reset An error message can be acknowledged by:
• Switching the power supply off and on again.
Recommendation: Observe a minimum switch-off time of 10 s for the mainscontactor K11.
• Reset by binary input DIØ4. Startup of the "Constant tension center winder" causesthis binary input to be assigned the "Reset" function.
• Only with control via fieldbus/system bus: "0"→"1"→"1" signal at bit PO1:6 in controlword PO1.
• Press the reset button in the MOVITOOLS manager.
• Manual reset in MOVITOOLS/Shell (P840 = "YES" or [Parameter] / [Manual reset]).
• Manual reset using the DBG11A (pressing the <E> key in the event of an error givesdirect access to parameter P840).
Timeout active If the inverter is controlled via a communications interface (fieldbus, RS-485 or SBus)and the power was switched off and back on again or an error reset was performed, thenthe enable remains ineffective until the inverter once again receives valid data via theinterface which is monitored with a timeout.
02771AENFig. 47: Reset with MOVITOOLS
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52 MOVIDRIVE® MD_60A, Constant Tension Center Winder
Error messages
6.3 Error messages
Display The error or warning code is displayed in BCD format. The following display sequenceis adhered to:
The display switches over to the operating display following a reset or if the error orwarning code resumes the value "0" once again.
List of errors The following table shows a selection from the complete list of errors (→ MOVIDRIVE®
MD_60A operating instructions). It lists only those errors which can occur specificallywith this application.
A dot in the "P" column means that the response is programmable (P83_ Errorresponse). The factory-set error response is listed in the "Response" column.
01038AXX
Flashes, approx. 1 s
Display off, approx. 0.2 s
Tens, approx. 1 s
Display off, approx. 0.2 s
Ones, approx. 1 s
Display off, approx. 0.2 s
Fault code Name Response P Possible cause Action
00 No error -
07 DC link overvoltage
Immediate switch-off DC link voltage too high
• Extend deceleration ramps• Check connecting harness
for braking resistor• Check technical data of
braking resistor
10 IPOS-ILLOP Emergency stop
• Incorrect command detected during running of IPOS program
• Incorrect conditions during running of program
• Check program memory content and correct if necessary
• Load correct program into program memory
• Check program sequence (→ IPOS manual)
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MOVIDRIVE® MD_60A, Constant Tension Center Winder 53
Error messages
14 Encoder Immediate switch-off
• Encoder cable or shield not connected correctly
• Short circuit/open circuit in encoder cable
• Encoder defective
Check encoder cable and shield for correct connection, short circuit and open circuit.
28 Fieldbus timeout Rapid stop •
No master-slave communication took place within the configured response monitoring period.
• Check master communication routine
• Extend fieldbus timeout time (P819) or switch off monitoring
31 TF sensor Noresponse •
• Motor too hot, TF sensor has tripped
• TF sensor of motor not connected or not connected properly
• MOVIDRIVE® connection and TF connection on motor interrupted
• No link between X10:1 and X10:2. With MDS: X15:9 –X15:5 connection missing.
• Let motor cool down and reset fault
• Check connections/link between MOVIDRIVE® and TF
• If no TF is connected: Jumper X10:1 to X10:2. With MDS: Jumper X15:9 to X15:5.
• Set P834 to "No response"
36 No option Immediate switch-off
• Type of option card not allowed
• Setpoint source, control source or operating mode not approved for this option card
• Incorrect encoder type set for DIP11A
• Use correct option card• Set correct setpoint source
(P100)• Set correct control signal
source (P101)• Set correct operating mode
(P700 or P701)• Set the correct encoder type
99IPOS ramp calculation error
Immediate switch-off
In IPOS operating mode only:Attempt made to alter ramp times and traveling velocities when the inverter is enabled, with a sine or squared positioning ramp.
Rewrite the IPOS program so that ramp times and traveling velocities can only be altered when the inverter is inhibited.
Fault code Name Response P Possible cause Action
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10/2000
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10/2000
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Startpaket – Feldbusschnittstelle UFP11A 29
SEW-EURODRIVE GmbH & Co · P.O. Box 3023 · D-76642 Bruchsal/Germany · Phone +49-7251-75-0Fax +49-7251-75-1970 · http://www.sew-eurodrive.com · [email protected]
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