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Wieland podis CON System Manual

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podis
system manual
Part 1: podis
CON - Energy bus
Part 2: podis
DRIVE – Distributed motor control units
Ref. no:
00.000.0059.0
Version:
1.03
Issue date:
08.01.2001
Last modified: 28.03.2001
Wieland podis
system
Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001

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Summary of Contents for Wieland podis CON

  • Page 1 Part 1: podis CON - Energy bus  Part 2: podis DRIVE – Distributed motor control units Ref. no: 00.000.0059.0 Version: 1.03 Issue date: 08.01.2001 Last modified: 28.03.2001  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...

  • Page 2: About This Manual

    You require both sections of the manual to  operate podis DRIVE. User-friendly At WIELAND ELECTRIC GmbH, your satisfaction with our products is of primary importance. If you have any ideas or suggested improvements for this manual, we would be happy to receive them. Contact address If you have any queries about the manual or parts of the ...

  • Page 3: Using This Manual

    Emphasises an important piece of information which affects the handling of the devices or the NOTE respective section of the manual.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 4 (new) 08.01.2001 podis manual part 1 1 (draft) 18.01.2001 podis manual part 1 1 (draft) 12.03.2001 podis manual part 1 1 (draft) 28.03.2001 podis manual part 1  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 5 Wieland products, third-party products or persons when the notes in this manual are disregarded. Changes of any type to Wieland products as regards hardware or software are excluded from liability on the part of WIELAND ELECTRIC GmbH.

  • Page 6: Overview Of The Contents

    Disconnection and emergency stop 3.1.6 Maintenance and service     Appendix: podis CON components     Part 2: podis DRIVE motor control units  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 7     of the podis CON system with connected loads PROFIBUS DP Devices from other manufacturers with PROFIBUS DP capability DP slave: ricos DP slave: podis  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 8     prerequisite for the operation of podis CON is the availability of a three-phase system with an earthed infeed and separate N and PE conductor (TN-S system).  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 9 During operation, unused flat cable outlets should either be sealed using a cover (order no. 07.409.7256.0 for connectors) or using a cover and a dummy screwed gland at the round cable outlet.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 10 PE conductor. The minimum diameter of the PE conductor must be 4 mm . The PE conductor may not be looped through via the loads.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 11 In principle, all three-phase asynchronous motors can be used as loads. Please read section 2.4 when designing the system (number of loads, power consumption etc.).     Wieland supplies podis DRIVE motor control units which are     specially tailored to podis CON.

  • Page 12: Specifications

    Test with gauge plug according to compartment IEC 947-1, insulated wire ends Nominal cross section 2.5 mm Mounting position As required Approvals (in UL, CSA, VDE, SEV preparation)  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 13 IP 65. Due to the required creepage distances and     clearances, podis flat cables must always be WARNING terminated at both ends with sealing ends.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 14 Securing against removal should install two cable clips right next to each other so that they are attached to opposite sides of the flat cable (see sketch, variant B).  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 15 Screw the module in position on the sub-floor using suitable screws. Only use the slots provided. Open up the top and insert the flat cable.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 16 If you are not connecting a round cable, you must seal the round cable outlet for operation CARE with a blanking plug. You can then clip on the trimming strip to cover the screws.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 17 The loads should be earthed. The earthed cable may not be looped through to other loads on the same circuit.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 18 ”Components”). It has an end stop that has been specially designed for Wieland flat cable and enables the process to be carried out cleanly. If you do not wish to remove the sheath using the...

  • Page 19: Commissioning And Maintenance

    In order to use the energy bus system as stipulated, please observe the instructions regarding the mechanical and electrical configuration, commissioning and operation as described in this manual.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 20 Uncontrolled and undefined initialisation processes such start-up after deactivation of the emergency stop device start-up of the control system without the DP slave being addressed by the DP master may not occur.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 21 (withdraw the mains plug or open the isolating switch). When replacing fuses, only the types that are specified in the technical data may be used.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 22 9-16 mm Screwed gland M25 x 1.5 Z5.507.14553.0 Suitable for 75.016.0053.2 and 75.016.0053.2, for one cable with overall dimensions 13-18 mm  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 23 (new) 08.01.2001 podis manual part 2 1 (draft) 18.01.2001 podis manual part 2 1 (draft) 12.03.2001 podis manual part 2 1 (draft) 28.03.2001 podis manual part 2  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 24 Wieland products, third-party products or persons when the notes in this manual are disregarded. Changes of any type to Wieland products as regards hardware or software are excluded from liability on the part of WIELAND ELECTRIC GmbH.
  • Page 25 Allocating the input and output bytes 6.5.1 MC2M 6.5.1.1 Input bytes 6.5.1.2 Output bytes 6.5.2 6.5.2.1 Input bytes 6.5.2.2 Output bytes 6.5.3 6.5.3.1 Input bytes 6.5.3.2 Output bytes  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 26 Start-up and operation 6.9.1 Complete system start-up 6.9.2 Switching on MRC 6.9.3 Switching on MC2M 6.9.4 Switching on MFI     Appendix: podis DRIVE components  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 27 The power electronics (motor starter) as well as the bus interface electronics (bus coupler) can likewise be plugged The setting of the motor parameters is described in section 6.6 ”Parameterisation”.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 28 Digital inputs Digital inputs Bus coupler Diagnostic and extension bus Diagnostic and extension bus Motor feeder socket M1 Motor feeder socket M2 Circuit diagram Motor control unit MC2M  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 29 0.5 A per output (short-circuit-proof) General data Ambient temperature 0° … +40°C (50°C) Storage temperature -25° … +55°C Connection type of input (flat cable) podis CON Connection type of output podis CON (motor connector) Wire range 2.5 mm (flat cable) Mounting location...
  • Page 30 Digital input/output Digital input/output Digital inputs Digital inputs Bus coupler Diagnostic and extension bus Diagnostic and extension bus Motor feeder socket Circuit diagram Motor control unit MRC  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 31 0.5 A per output (short-circuit-proof) General data Ambient temperature 0° … +40°C (50°C derating) Storage temperature -25° … +55°C Connection type of input (flat cable) podis CON Connection type of output podis CON (motor connector) Wire range 2.5 mm (flat cable) Mounting location...
  • Page 32 Digital input/output Digital input/output Digital inputs Digital inputs Bus coupler Diagnostic and extension bus Diagnostic and extension bus Motor feeder socket Circuit diagram Motor control unit MFI  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 33 0.5 A per output (short-circuit-proof) General data Ambient temperature 0° … +40°C (50°C derating) Storage temperature -25° … +55°C Connection type of input (flat cable) podis CON Connection type of output podis CON (motor connector) Wire range 2.5 mm (flat cable)
  • Page 34 GD-ALSI 9 Cu 3 Storage temperature -25° … +55°C Relative humidity (Class F 10 … 95% according to DIN 40040) (no moisture condensation) Weight approx. 0.4 kg  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 35 GD-ALSI 9 Cu 3 Storage temperature -25° … +55°C Relative humidity (Class F 10 … 95% according to DIN 40040) (no moisture condensation) Weight approx. 0.3 kg  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 36 < 100 µs Binary outputs Nominal operating voltage 24 V DC Output voltage Input voltage – 0.5 V DC Nominal current max. 0.5 A per output (short-circuit-proof) Residual current  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 37 If the I/Os are placed at greater distances from the automation system, the installation can become very extensive and confusing. Increased electromagnetic interference also effects the reliability of the application.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 38     Structure of the GSD file for podis     Wieland has a GSD file available for all types of podis devices. The GSD file describes a modular system with a maximum of 5 modules (1 PROFIBUS slave module and 4 extension modules).
  • Page 39     system is carried out solely via the energy bus podis CON. All the relevant data can be found in part 1 of the manual.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 40 If a short circuit occurs, uncontrolled energy can be released in spite of a suppressor circuit. The protective conductor should not be looped through between the loads. CAUTION  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 41 The sub-floor must be flat and portable. It must also be prepared if necessary for attaching the motor starter.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 42 The maximum torque of 1 Nm may not be WARNING exceeded. It is not permitted to use a screw that has snapped off.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 43 2. Replace the damaged flat cable with a new one. 3. Replace the flat cable connection of the base plate (order no. Z1.458.2953.0) and reinstall the base plate.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 44 (see diagram, the base plate and motor starter     podis MFI were selected in the example). Assignment Motor starter – base plate  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 45 The current norms (VDE 0100) etc. should be observed. The control units are described in detail in the following sections. Please take the relevant advice into account.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 46 Asynchronous motor without brake, without thermistor X30 podis motor feeder connector X31 podis motor feeder connector Motor, without brake without thermistor 4-core connecting cable (3 cores + PE)  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 47 Motor, with brake, without high-speed contact, with thermistor Brake coil in motor Brake rectifier Wiring jumper for d.c. brake circuit 4-core connecting cable (3 cores + PE)  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 48 X30 podis motor feeder connector     podis This type of connection is not permitted Motor with brake Bild: Nicht zulässige Brake coil in motor Anschlußart Brake rectifier  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 49 Brake coil in motor Brake rectifier Wiring jumper for d.c. brake circuit 4-core connecting cable (3 cores + PE) Note: The brake cannot be electrically ventilated in this configuration.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 50 Wiring jumper for d.c. brake circuit 4-core connecting cable (3 cores + PE) Note: The brake cannot be electrically ventilated in this configuration. The thermistor is not evaluated.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 51 X30 podis motor feeder connector Motor with brake, with high-speed contact, with thermistor Brake coil in motor Brake rectifier 8-core connecting cable (7 cores + PE)  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 52 Damage to the motor or brake cannot be excluded. Further information should be taken from the description for your motor.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 53 Motor with brake, without high-speed contact, with thermistor Brake coil in motor Brake rectifier Wiring jumper for d.c. brake circuit 8-core connecting cable (7 cores + PE)  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 54 X30 podis motor feeder connector Motor with brake, with high-speed contact, with thermistor Brake coil in motor Brake rectifier 10-core connecting cable (9 cores + PE)  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...

  • Page 55: Bus Coupler

    49 – 32 = 17 = 16 17 – 16 = 1 1 – 1 = 0 You must therefore set switches S7, S6, S5 and S1 to ”ON”.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...

  • Page 56: Installation

    Supply reference potential RxDT (TxD)-N Send signal (receive) Shield Only use plugs with metal housing in accordance with the PROFIBUS norm. The NOTE shield is laid on the housing.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 57 The shield runs on the metal part of the plug or socket. b) Cables, sockets and plugs correspond to the PROFIBUS norm. c) The connecting cables to the extension modules have a max. length of 1 m.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 58 Connection to the header or extension module Connect the extension modules together with the relevant connecting cables via the extension plugs X21 or X22 or connect them with the header module.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 59 X12 – Pin 4 IN_2 Input only X12 – Pin 2 IN_6 Input only X13 – Pin 4 IN_3 Input only X13 – Pin 2 IN_7 Input only  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 60 IP 65, you must mount protective caps on all unoccupied inputs or outputs. CARE These protective caps are supplied for all I/O sockets and for the extension plugs on the base plate.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 61 In order to use the podis DRIVE motor control units as stipulated, please observe the instructions regarding the mechanical and electrical configuration, commissioning and operation as described in this manual.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 62 89/392/EEC must be observed by the manufacturer and user of the machine. In specific cases, national accident regulations apply such as VBG 4.0.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 63     during start-up of podis DRIVE after disruption of the bus communication.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 64 VBG 4.0 should be observed. A suitable electronic tool should be used. Repairs to controller components may only be carried out by authorised Wieland workshops. Unauthorised opening and improper operation or repairs can lead to personal injury or damage to the device.
  • Page 65 Step7 configuration software is valid. The GSD file can be easily installed in the SIMATIC Manager. Selection of the installation menu Selection of the GSD file  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 66 SIMATIC Step7 software. The following installation configuration serves as an example: Header module Energy bus     (podis CON)  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 67 PROFIBUS DP network as you wish to use it. Press the ”New” button and select the baud rate that is to be used. A subsystem is defined when you exit this dialog.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 68 ”PROFIBUS interface” from the submenu ”I/O” (see screenshot on left-hand side).     You insert a podis DRIVE bus coupler into the PROFIBUS system by double clicking on the PODIS components.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 69     The individual podis DRIVE motor control units are now inserted. The device with the PROFIBUS interface, the MRC, is the first device to be inserted.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 70 PROFIBUS slave via the local bus are inserted in the same way. The configuration menu has automatically assigned input     and output addresses for the configured podis DRIVE devices.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 71 The start address must be defined. The end address is produced from the control functionality used (MFI, MRC, MC2M) and its specified I/O byte size. The respective sizes are listed and explained in section 6.6.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 72 Once all the data has been entered, the network configuration and parameterisation is complete. Store all the data and return to the project menu.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 73 ERRCRRNT_2 Overcurrent disconnection. If the energy level specified by ”Max. current” and ”Max. time” is exceeded, the motor is disconnected and the brake is applied  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 74 Not used, always 0 ENABLE_2 Enable / delete error, motor 2 MOT_EIN_2 Motor 2 ON (direction dependent on phase of supply) Not used, always 0 ERR_QUITT Acknowledge error  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 75 LEFT Anti-clockwise rotation (direction dependent on phase of supply) Not used, always 0 BRAKE Ventilate brake Not used, always 0 Not used, always 0 ERR_QUITT Acknowledge error  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 76 63.75 Hz (e.g. 240 => 60 Hz) T_RAMPE Setting for ramp time in s, range 0-255 => factor (1 bit = 0.552 s e.g. 240 => 132.48 s)  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 77 • The ramp can be modified during operation. It is therefore possible to set different acceleration and braking times (e.g. acceleration in 6 seconds, braking in 3 seconds).  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 78 • The ramp can be modified during operation. It is therefore possible to set different acceleration and braking times (e.g. acceleration in 6 seconds, braking in 3 seconds).  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 79 If the nominal current is exceeded, it is reset and the speed is not reached.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 80 925 U/min (25 Hz)? Parameter value dec = (50 – 0.674) / 0.465 x 1850/925 = 212.15 This figure is rounded up to 212 and becomes the ramp value.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 81 DRIVE devices (MRC-IN, MC2M-IN, MFI- IN). 6.6.1 Parameter description for MRC and MC2M     Screenshot of default parameters for podis MC2M  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 82 MRC and MC2M. Current as a function of the set digital value (MRC, MC2M) Load current in A/AC Digital value Dec Bild: (PDF) Kennlin_MRC_MC2M_Dezimal wert_vs_Lastrom_01  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 83 Factor for the overcurrent protection is required to calculate the t characteristic curve and the maximum current. The trigger time for the protective device is influenced via the parameter ”Disconnection time” according to the diagram.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 84 If the current deviates by more than the given percentage value, the error bit ”ERRPHASE” (phase failure) is set in the input range.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 85 A connected thermistor (PTC) is evaluated depending on this setting. guarantee motor protection, thermistor must be connected and this CAUTION parameter must be set to ”Enable PTC”.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 86 The boost factor influences the U/f characteristic curve of the frequency inverter. When the motor is started, the motor voltage is increased until the motor current exceeds the nominal motor current by the figure indicated here.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 87 50 Hz or 60 Hz Recommended values Europe: 50 Hz (default) USA: 60 Hz The setting of the mains frequency is used for adaptation to country-specific conditions.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 88 CPU, the bus operation is immediately started, provided that the     podis DRIVE devices have been connected properly. The fault LEDs on the bus coupler and CPU are extinguished.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 89 The following derating curve shows this dependency factor.     Derating curve for frequency inverter podis Shaft output in kW Ambient temperature in °C Bild: Kennlinie_MFI_Derating_PWM  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 90 4. Connection to the master has 4. Check the bus cable been physically interrupted (short circuit, wire breakage). No diagnostics have been assigned Diagnostics data is being transferred  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 91 MC2M, MRC Overcurrent monitoring has been triggered Flashing MC2M, MRC, MFI Address ZERO (0) has been set on the PROFIBUS bus coupler (invalid address). Set address > 0  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...

  • Page 92: Reset Button

    0…6 Reserved ext_diag_overflow Master or slave has too much diagnostics data Byte Description Master address according to parameterisation ID number High Byte ID number Low Byte  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 93 Extension module 4 Status of module slot location 5 The extended diagnostics function is activated via the menu Activation of the extended item ”Edit/Object properties”: diagnostics function  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 94 Caution: The start-up time (from when the 24 V power supply is switched on) of the respective bus coupler is approx. 16 seconds.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 95 (+ RDY on if one or several master or header module CANLOCAL extension established modules are present) See chapter 6.8 ”Diagnostics” for possible error messages and corrective measures.  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 96 Digital output Digital output has a short circuit Remove short circuit has short circuit Error display is automatically reset once the fault has been rectified  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 97 Digital output Digital output has a short circuit Remove short circuit has short circuit Error display is automatically reset once the fault has been rectified  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 98 Remove short circuit circuit Error display is automatically reset once the fault has been rectified Braking relay error 11X0 0000 Error with braking relay Check motor connection/cable 1000 0000  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 99 Motor connector for MFI with PVC cable attached, unshielded 8 x 1.5 mm finely stranded ÖLFLEX 75.011.6803.0 8 x 1.5 mm finely stranded ÖLFLEX 10 m 75.011.6805.0  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...
  • Page 100 Motor starter MFI, 400 V AC, up to 0.75 kW 83.100.0020.0 PROFIBUS DP bus coupler 83.100.0430.0 Extension bus coupler 83.100.0130.0 Left and right covers Z7.425.2253.0 2 x 1  Wieland podis system Manual V 1.03 / ref. no. 00.000.0059.0 / 28.03.2001...

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Podis drive