Siemens G115D Drive

Siemens G115D Drive Fault Codes:

Fault Code and Meaning	Cause and Remedy
F01000 Internal software error	Cause: An internal software error has occurred. Fault value (r0949, interpret hexadecimal): Only for internal Siemens troubleshooting. Remedy: Evaluate fault buffer (r0945). Carry out a POWER ON (switch-off/switch-on) for all components. If required, check the data on the non-volatile memory (e.g. memory card). Upgrade firmware to later version. Contact Technical Support. Replace the Control Unit.
F01001 FloatingPoint exception	Cause: An exception occurred for an operation with the FloatingPoint data type. The error may be caused by the basic system or an OA application (e.g. FBLOCKS, DCC). Fault value (r0949, interpret hexadecimal): Only for internal Siemens troubleshooting. Refer to r9999 for further information about this fault. r9999[0]: Fault number. r9999[1]: Program counter at the time when the exception occurred. r9999[2]: Cause of the FloatingPoint exception. Bit 0 = 1: Operation invalid Bit 1 = 1: Division by zero Bit 2 = 1: Overflow Bit 3 = 1: Underflow Bit 4 = 1: Inaccurate result Remedy: Carry out a POWER ON (switch-off/switch-on) for all components. Check configuration and signals of the blocks in FBLOCKS. Check configuration and signals of DCC charts. Upgrade firmware to later version. Contact Technical Support.
F01002 Internal software error	Cause: An internal software error has occurred. Fault value (r0949, interpret hexadecimal): Only for internal Siemens troubleshooting. Remedy: Carry out a POWER ON (switch-off/switch-on) for all components. Upgrade firmware to later version. Contact Technical Support.
F01003 Acknowledgment delay when accessing the memory	Cause: A memory area was accessed that does not return a “READY”. Fault value (r0949, interpret hexadecimal): Only for internal Siemens troubleshooting. Remedy: Carry out a POWER ON (switch-off/switch-on) for all components. Contact Technical Support.
N01004 (F, A) Internal software error	Cause: An internal software error has occurred. Fault value (r0949, hexadecimal): Only for internal Siemens troubleshooting. Remedy: Read out diagnostics parameter (r9999). Contact Technical Support. See also: r9999 (Software error internal supplementary diagnostics)
F01005 File upload/download error	Cause: The upload or download of EEPROM data was unsuccessful. Fault value (r0949, interpret hexadecimal): yyxxxx hex: yy = component number, xxxx = fault cause xxxx = 000B hex = 11 dec: Power unit component has detected a checksum error. xxxx = 000F hex = 15 dec: The selected power unit will not accept the content of the EEPROM file. xxxx = 0011 hex = 17 dec: Power unit component has detected an internal access error. xxxx = 0012 hex = 18 dec: After several communication attempts, no response from the power unit component. xxxx = 008B hex = 140 dec: EEPROM file for the power unit component not available on the memory card. xxxx = 008D hex = 141 dec: An inconsistent length of the firmware file was signaled. It is possible that the download/upload has been interrupted. xxxx = 0090 hex = 144 dec: When checking the file that was loaded, the component detected a fault (checksum). It is possible that the file on the memory card is defective. xxxx = 0092 hex = 146 dec: This SW or HW does not support the selected function. xxxx = 009C hex = 156 dec: Component with the specified component number is not available (p7828). xxxx = Additional values: Only for internal Siemens troubleshooting. Remedy: Save a suitable firmware file or EEPROM file for upload or download in folder “/ee_sac/” on the memory card.
A01009 (N) CU: Control module overtemperature	Cause: The temperature (r0037[0]) of the control module (Control Unit) has exceeded the specified limit value. Remedy: Check the air intake for the Control Unit. Check the Control Unit fan. Note: The alarm is automatically withdrawn once the limit value has been fallen below.
F01010 Drive type unknown	Cause: An unknown drive type was found. Remedy: Replace Power Module. Carry out a POWER ON (switch-off/switch-on). Upgrade firmware to later version. Contact Technical Support.
F01015 Internal software error	Cause: An internal software error has occurred. Fault value (r0949, interpret decimal): Only for internal Siemens troubleshooting. Remedy: Carry out a POWER ON (switch-off/switch-on) for all components. Upgrade firmware to later version. Contact Technical Support.
A01016 (F) Firmware changed	Cause: At least one firmware file in the directory was illegally changed on the non-volatile memory (memory card/device memory) with respect to the version when shipped from the factory. Alarm value (r2124, interpret decimal): 0: Checksum of one file is incorrect. 1: File missing. 2: Too many files. 3: Incorrect firmware version. 4: Incorrect checksum of the back-up file. Remedy: For the non-volatile memory for the firmware (memory card/device memory), restore the delivery condition. Note: The file involved can be read out using parameter r9925. The status of the firmware check is displayed using r9926. See also: r9925 (Firmware file incorrect), r9926 (Firmware check status)
A01017 Component lists changed	Cause: On the memory card, one file in the directory /SIEMENS/SINAMICS/DATA or /ADDON/SINAMICS/DATA has been illegally changed with respect to that supplied from the factory. No changes are permitted in this directory. Alarm value (r2124, interpret decimal): zyx dec: x = Problem, y = Directory, z = File name x = 1: File does not exist. x = 2: Firmware version of the file does not match the software version. x = 3: File checksum is incorrect. y = 0: Directory /SIEMENS/SINAMICS/DATA/ y = 1: Directory /ADDON/SINAMICS/DATA/ z = 0: File MOTARM.ACX; z = 1: File MOTSRM.ACX; z = 2: File MOTSLM.ACX z = 3: File ENCDATA.ACX; z = 4: File FILTDATA.ACX; z = 5: File BRKDATA.ACX z = 6: File DAT_BEAR.ACX; z = 7: File CFG_BEAR.ACX Remedy: For the file on the memory card involved, restore the status originally supplied from the factory.
F01018 Booting has been interrupted several times	Cause: Module booting was interrupted several times. As a consequence, the module boots with the factory setting. Possible reasons for booting being interrupted: – power supply interrupted. – CPU crashed. – parameterization invalid. Remedy: Carry out a POWER ON (switch-off/switch-on). After switching on, the module reboots from the valid parameterization (if available). Restore the valid parameterization. Examples: a) Carry out a first commissioning, save, carry out a POWER ON (switch-off/switch-on). b) Load another valid parameter backup (e.g. from the memory card), save, carry out a POWER ON (switch-off/switch-on).
A01019 Writing to the removable data medium unsuccessful	Cause: The write access to the removable data medium was unsuccessful. Remedy: Check the removable data medium and if required replace. Disconnect any existing USB connection. Repeat the data backup.
A01020 Writing to RAM disk unsuccessful	Cause: A write access to the internal RAM disk was unsuccessful. Remedy: Adapt the file size for the system logbook to the internal RAM disk (p9930). See also: p9930 (System logbook activation)
A01021 Removable data medium as USB data storage medium from the PC used	Cause: The removable data medium is used as USB data storage medium from a PC. As a consequence, the drive cannot access the removable data medium. When backing up, the configuration data cannot be saved on the removable data medium. Alarm value (r2124, interpret decimal): 1: The know-how protection as well as the copy protection for the removable data medium is active. Backup is inhibited. 2: The configuration data are only backed up in the Control Unit. Remedy: Deactivate the USB connection to the PC and back up the configuration data. Note: The alarm is automatically canceled when disconnecting the USB connection or when removing the removable data medium.
F01023 Software timeout (internal)	Cause: An internal software timeout has occurred. Fault value (r0949, interpret decimal): Only for internal Siemens troubleshooting. Remedy: Carry out a POWER ON (switch-off/switch-on) for all components. Upgrade firmware to later version. Contact Technical Support.
A01028 (F) Configuration error	Cause: The parameterization that was downloaded was generated with a different module type (Order No., MLFB). Remedy: Save parameters in a non-volatile fashion (p0971 = 1).
F01029 DIP switch and parameter inconsistent	Cause: Different settings between the parameters and the DIP switch were identified. Fault value (r0949, interpret decimal): 0: The setting for 87 Hz operation using DIP switch DIP1.6 is different for the configuration using parameter p0133.1. The setting of DIP switch DIP1.6 was transferred into p0133.1. 1: The setting for the motor type using DIP switch DIP1.5 differs from the configuration using parameter p0300/p0301. The setting of DIP switch DIP1.5 was transferred into p0300/p0301. Remedy: If required, change the setting of DIP switch DIP1. If required, save parameters in a non-volatile fashion (p0971 = 1).
F01030 Sign-of-life failure for master control	Cause: For active PC master control, no sign-of-life was received within the monitoring time. The master control was returned to the active BICO interconnection. Remedy: Set the monitoring time higher at the PC or, if required, completely disable the monitoring function. For the commissioning software, the monitoring time is set as follows: -> Commissioning -> Control panel -> Button “Fetch master control” -> A window is displayed to set the monitoring time in milliseconds.
F01033 Units changeover: Reference parameter value invalid	Cause: When changing over the units to the referred representation type, it is not permissible for any of the required reference parameters to be equal to 0.0 Fault value (r0949, parameter): Reference parameter whose value is 0.0. Remedy: Set the value of the reference parameter to a number different than 0.0. See also: p0304, p0305, p0310, p0596, p2000, p2001, p2002, p2003, r2004
F01034 Units changeover: Calculation parameter values after reference value change unsuccessful	Cause: The change of a reference parameter meant that for an involved parameter the selected value was not able to be re-calculated in the per unit representation. The change was rejected and the original parameter value restored. Fault value (r0949, parameter): Parameter whose value was not able to be re-calculated. Remedy: Select the value of the reference parameter such that the parameter involved can be calculated in the per unit representation. Technology unit selection (p0595) before changing the reference parameter p0596, set p0595 = 1.
A01035 (F) ACX: Parameter back-up file corrupted	Cause: When the Control Unit is booted, no complete data set was found from the parameter back-up files. The last time that the parameterization was saved, it was not completely carried out. It is possible that the backup was interrupted by switching off or withdrawing the memory card. Alarm value (r2124, interpret hexadecimal): ddccbbaa hex: aa = 01 hex: Power up was realized without data backup. The drive is in the factory setting. aa = 02 hex: The last available internal backup data record was loaded. The parameterization must be checked. It is recommended that the parameterization is downloaded again. aa = 03 hex: The last available data record from the memory card was loaded. The parameterization must be checked. aa = 04 hex: An invalid data backup was loaded from the memory card into the drive. The drive is in the factory setting. Remedy: Download the project again with the commissioning software. Save all parameters (p0971 = 1 or “copy RAM to ROM”).
F01036 (A) ACX: Parameter back-up file missing	Cause: When downloading the device parameterization, a parameter back-up file PSxxxyyy.ACX associated with a drive object cannot be found. Fault value (r0949, interpret hexadecimal): Byte 1: yyy in the file name PSxxxyyy.ACX (yyy = 000 –> consistency back-up file; yyy = 001 … 062 –> drive object number; yyy = 099 –> PROFIBUS parameter back-up file). Remedy: If you have saved the project data using the commissioning software, carry out a new download for your project. Save using the function “Copy RAM to ROM” or with p0971 = 1.
F01038 (A) ACX: Loading the parameter back-up file unsuccessful	Cause: An error has occurred when downloading PSxxxyyy.ACX or PTxxxyyy.ACX files from the non-volatile memory. Fault value (r0949, interpret hexadecimal): Byte 1: yyy in the file name PSxxxyyy.ACX. Byte 2: 255 (Incorrect drive object type) or 254 (Topology comparison unsuccessful). Remedy: If you have saved the project data using the commissioning software, download the project again. Save using the function “Copy RAM to ROM” or with p0971 = 1. Replace the memory card or Control Unit.
F01039 (A) ACX: Writing to the parameter back-up file was unsuccessful	Cause: Writing to at least one parameter back-up file PSxxxyyy.*** in the non-volatile memory was unsuccessful. – in the directory /USER/SINAMICS/DATA/ at least one parameter back-up file PSxxxyyy.*** has the “read only” file attribute and cannot be overwritten. – there is not sufficient free memory space available. – the non-volatile memory is defective and cannot be written to. Remedy: Check the file attribute of the files (PSxxxyyy.***, CAxxxyyy.***, CCxxxyyy.***) and, if required, change from “read only” to “writeable”. Check the free memory space in the non-volatile memory. Approx. 80 kbyte of free memory space is required for every drive object in the system. Replace the memory card or Control Unit.
F01040 Save parameter settings and carry out a POWER ON	Cause: A parameter has been changed that requires the parameters to be backed up and the Control Unit to be switched OFF and ON again. Remedy: Save parameters (p0971). Carry out a POWER ON (switch-off/switch-on) for the Control Unit.
F01042 Parameter error during project download	Cause: An error was detected when downloading a project using the commissioning software (e.g. incorrect parameter value). For the specified parameter, it was detected that dynamic limits were exceeded that may possibly depend on other parameters. Fault value (r0949, interpret hexadecimal): ccbbaaaa hex (aaaa = Parameter, bb = Index, cc = fault cause). 0: Parameter number illegal. 1: Parameter value cannot be changed. 2: Lower or upper value limit exceeded. (See manual for full list of fault causes 3-108). Remedy: Enter the correct value in the specified parameter. Identify the parameter that restricts the limits of the specified parameter.
F01043 Fatal error at project download	Cause: A fatal error was detected when downloading a project using the commissioning software. Fault value (r0949, interpret decimal): 1: Device status cannot be changed to Device Download (drive object ON?). 2: Incorrect drive object number. 8: Maximum number of drive objects that can be generated exceeded. (See manual for full list of fault values 11-100). Remedy: Use the current version of the commissioning software. Modify the offline project and download again. Change the drive state (is a drive rotating or is there a message/signal?). Carefully note any other messages/signals and remove their cause. Boot from previously saved files (switch-off/switch-on or p0970).
F01044 CU: Descriptive data error	Cause: An error was detected when loading the descriptive data saved in the non-volatile memory. Remedy: Replace the memory card or Control Unit.
A01045 Configuring data invalid	Cause: An error was detected when evaluating the parameter files PSxxxyyy.ACX, PTxxxyyy.ACX, CAxxxyyy.ACX, or CCxxxyyy.ACX saved in the non-volatile memory. Because of this, under certain circumstances, several of the saved parameter values were not able to be accepted. Also see r9406 up to r9408. Remedy: Check the parameters displayed in r9406 up to r9408, and correct these if required. Restore the factory setting using (p0970 = 1) and re-load the project into the drive unit. Then save the parameterization in STARTER using the function “Copy RAM to ROM” or with p0971 = 1.
A01049 It is not possible to write to file	Cause: It is not possible to write into a write-protected file (PSxxxxxx.acx). The write request was interrupted. Alarm value (r2124, interpret decimal): Drive object number. Remedy: Check whether the “write protected” attribute has been set for the files in the non-volatile memory under …/USER/SINAMICS/DATA/… When required, remove write protection and save again (e.g. set p0971 to 1).
F01054 CU: System limit exceeded	Cause: At least one system overload has been identified. Fault value (r0949, interpret decimal): 1: Computing time load too high (r9976[1]). 5: Peak load too high (r9976[5]). Remedy: Reduce the computing time load of the drive unit (r9976[1] and r9976[5]) to under 100%. Check the sampling times and adjust if necessary (p0115, p0799, p4099). Deactivate function modules. Deactivate drive objects. Remove drive objects from the target topology.
A01064 (F) CU: Internal error (CRC)	Cause: A checksum error (CRC error) has occurred in the Control Unit program memory. Remedy: Carry out a POWER ON (switch-off/switch-on) for all components. Upgrade firmware to later version. Contact Technical Support.
A01066 Buffer memory: 70% fill level reached or exceeded	Cause: The non-volatile buffer memory for parameter changes is filled to at least 70%. This can also occur if the buffer memory is active (p0014 = 1) and parameters are continually changed via a fieldbus system. Remedy: If required, deactivate and clear the buffer memory (p0014 = 0). If required, clear the buffer memory (p0014 = 2). In the following cases, the entries in the buffer memory are transferred into the ROM and then the buffer memory is cleared: p0971 = 1 or switch-off/switch-on Control Unit.
A01067 Buffer memory: 100% fill level reached	Cause: The non-volatile buffer memory for parameter changes is filled to 100%. All additional parameter changes will no longer be taken into account in the non-volatile buffer memory. However, parameter changes can still be made in the volatile memory (RAM). Remedy: If required, deactivate and clear the buffer memory (p0014 = 0). If required, clear the buffer memory (p0014 = 2). Transfer entries to ROM (p0971 = 1) or switch-off/switch-on Control Unit.
F01068 CU: Data memory memory overflow	Cause: The utilization for a data memory area is too large. Fault value (r0949, interpret binary): Bit 0 = 1: High-speed data memory 1 overloaded Bit 1 = 1: High-speed data memory 2 overloaded Bit 2 = 1: High-speed data memory 3 overloaded Bit 3 = 1: High-speed data memory 4 overloaded Remedy: Deactivate the function module. Deactivate drive object. Remove the drive object from the target topology.
A01069 Parameter backup and device incompatible	Cause: The parameter backup on the memory card and the drive unit do not match. The module boots with the factory settings. Remedy: Insert a memory card with compatible parameter backup and carry out a POWER ON. Insert a memory card without parameter backup and carry out a POWER ON. If required, withdraw the memory card and carry out POWER ON. Save the parameters (p0971 = 1).
F01072 Memory card restored from the backup copy	Cause: The Control Unit was switched-off while writing to the memory card. This is why the visible partition became defective. After switching on, the data from the non-visible partition (backup copy) were written to the visible partition. Remedy: Check that the firmware and parameterization is up-to-date.
A01073 (N) POWER ON required for backup copy on memory card	Cause: The parameter assignment on the visible partition of the memory card has changed. In order that the backup copy on the memory card is updated on the non-visible partition, it is necessary to carry out a POWER ON or hardware reset (p0972) of the Control Unit. Remedy: Carry out a POWER ON (power off/on) for the Control Unit. Carry out a hardware reset (RESET button, p0972).
N01101 (A) CU: memory card not available	Cause: The memory card is not available for the drive. Remedy: Insert a memory card. If Starter is not active, interrupt the USB connection to the PC.
F01105 (A) CU: Insufficient memory	Cause: Too many data sets are configured on this Control Unit. Remedy: Reduce the number of data sets.
F01107 Save to memory card unsuccessful	Cause: A data save to the memory card was not able to be successfully carried out. – Memory card is defective. – Insufficient space on memory card. Fault value (r0949, interpret decimal): 1: The file on the RAM was not able to be opened. 2: The file on the RAM was not able to be read. 3: A new directory could not be created on the memory card. 4: A new file could not be created on the memory card. 5: A new file could not be written on the memory card. Remedy: Try to save again. Replace the memory card or Control Unit.
F01112 CU: Power unit not permissible	Cause: The connected power unit cannot be used together with this Control Unit. Fault value (r0949, interpret decimal): 1: Power unit is not supported (e.g. PM340). Remedy: Replace the power unit that is not permissible by a component that is permissible.
F01120 (A) Terminal initialization has failed	Cause: An internal software error occurred while the terminal functions were being initialized. Remedy: Carry out a POWER ON (switch-off/switch-on) for all components. Upgrade firmware to later version. Contact Technical Support. Replace the Control Unit.
F01122 (A) Frequency at the measuring probe input too high	Cause: The frequency of the pulses at the measuring probe input is too high. Fault value (r0949, interpret decimal): 1: DI 1 (term. 6) 2: DI 3 (term. 8) Remedy: Reduce the frequency of the pulses at the measuring probe input.
F01152 CU: Invalid constellation of drive object types	Cause: It is not possible to simultaneously operate drive object types SERVO, VECTOR and HLA. A maximum of 2 of these drive object types can be operated on a Control Unit. Remedy: Switch off the unit. Restrict the use of drive object types SERVO, VECTOR, HLA to a maximum of 2. Re-commission the unit.
F01205 CU: Time slice overflow	Cause: Insufficient computation time. Remedy: Contact Technical Support.
F01250 CU: CU-EEPROM incorrect read-only data	Cause: Error when reading the read-only data of the EEPROM in the Control Unit. Remedy: Carry out a POWER ON. Replace the Control Unit.
A01251 CU: CU-EEPROM incorrect read-write data	Cause: Error when reading the read-write data of the EEPROM in the Control Unit. Remedy: For alarm value r2124 < 256: Carry out a POWER ON or replace the Control Unit. For alarm value r2124 >= 256: Clear the fault memory (p0952 = 0) or replace the Control Unit.
F01257 CU: Firmware version out of date	Cause: The Control Unit firmware is too old. Fault value (r0949, interpret hexadecimal): bbbbbbaa hex: aa = unsupported component. aa = 01 hex = 1 dec: The firmware being used does not support the Control Unit. aa = 02 hex = 2 dec: The firmware being used does not support the Control Unit. aa = 03 hex = 3 dec: The firmware being used does not support the Power Module. aa = 04 hex = 4 dec: The firmware being used does not support the Control Unit. Remedy: Upgrade the firmware of the Control Unit. For fault value = 3: Replace the Power Module by a component that is supported.
F01340 Topology: Too many components on one line	Cause: For the selected communications clock cycle, too many DRIVE-CLiQ components are connected to one line of the Control Unit. Fault value (r0949, interpret hexadecimal): xyy hex: x = fault cause, yy = component number or connection number. 1yy: The communications clock cycle of the DRIVE-CLiQ connection on the Control Unit is not sufficient for all read transfers. 2yy: The communications clock cycle of the DRIVE-CLiQ connection on the Control Unit is not sufficient for all write transfers. 3yy: Cyclic communication is fully utilized. 4yy: The DRIVE-CLiQ cycle starts before the earliest end of the application. 5yy: Internal buffer overflow for net data of a DRIVE-CLiQ connection. 6yy: Internal buffer overflow for receive data of a DRIVE-CLiQ connection. 7yy: Internal buffer overflow for send data of a DRIVE-CLiQ connection. 8yy: The component clock cycles cannot be combined with one another. 900: The lowest common multiple of the clock cycles in the system is too high to be determined. 901: The lowest common multiple of the clock cycles in the system cannot be generated with the hardware. Remedy: Check the DRIVE-CLiQ wiring. Reduce the number of components on the DRIVE-CLiQ line. Increase sampling times (p0112, p0115, p4099). Reduce function modules (r0108). See manual (pages 15-16) for detailed clock cycle settings specific to fault values.
F01505 (A) BICO: Interconnection cannot be established	Cause: A PROFIdrive telegram has been set (p0922). An interconnection contained in the telegram was not able to be established. Remedy: Establish another interconnection.
F01510 BICO: Signal source is not float type	Cause: The requested connector output does not have the correct data type. This interconnection is not established. Remedy: Interconnect this connector input with a connector output having a float data type.
F01511 (A) BICO: Interconnection with different scalings	Cause: The requested BICO interconnection was established. However, a conversion is made between the BICO output and BICO input using the reference values. – the BICO output has different normalized units than the BICO input. – message only for interconnections within a drive object. Remedy: Not necessary.
F01512 BICO: No scaling available	Cause: An attempt was made to determine a conversion factor for a scaling that does not exist. Remedy: Apply scaling or check the transfer value.
F01513 (N, A) BICO: Interconnection cross DO with different scalings	Cause: The requested BICO interconnection was established. However, a conversion is made between the BICO output and BICO input using the reference values. An interconnection is made between different drive objects and the BICO output has different normalized units than the BICO input. Remedy: Not necessary.
A01514 (F) BICO: Error when writing during a reconnect	Cause: During a reconnect operation (e.g. while booting or downloading – but can also occur in normal operation) a parameter was not able to be written to. Remedy: Not necessary.
F01515 (A) BICO: Writing to parameter not permitted as the master control is active	Cause: When changing the number of CDS or when copying from CDS, the master control is active. Remedy: If required, return the master control and repeat the operation.
A01590 (F) Drive: Motor maintenance interval expired	Cause: The selected service/maintenance interval for this motor was reached. Remedy: Carry out service/maintenance and reset the service/maintenance interval (p0651).
F01600 SI P1 (CU): STOP A initiated	Cause: The drive-integrated “Safety Integrated” function on processor 1 has detected an error and initiated a STOP A. – forced checking procedure (test stop) of the safety switch-off signal path on processor 1 unsuccessful. – subsequent response to fault F01611 (defect in a monitoring channel). Fault value (r0949, interpret decimal): 0: Stop request from processor 2. 1005: Pulses suppressed although STO not selected and there is no internal STOP A present. 1010: Pulses enabled although STO is selected or an internal STOP A is present. 1011: Internal fault for the pulse enable in the Power Module. 9999: Subsequent response to fault F01611. Remedy: Select Safe Torque Off and de-select again. Carry out a POWER ON (switch-off/switch-on) for all components. Replace Power Module involved. For fault value = 9999: Carry out diagnostics for fault F01611.
F01611 (A) SI P1 (CU): Defect in a monitoring channel	Cause: The drive-integrated “Safety Integrated” function on processor 1 has detected a fault in the data cross-check between the two monitoring channels and has initiated a STOP F. Fault F01600 (SI P1: STOP A initiated) is output as a consequence of this fault. Fault value (r0949, interpret decimal): 0: Stop request from the other monitoring channel. 1…999: Number of the cross-compared data that resulted in this fault. (See r9795). 1000: Watchdog timer has expired. 1001, 1002: Initialization error, change timer / check timer. 2000: Status of the STO selection for both monitoring channels different. 6000…6166: PROFIsafe fault values. Remedy: Check the cross data comparison that resulted in a STOP F (values 1…999). Carry out a POWER ON (switch-off/switch-on). For value 1000: Check wiring of F-DI, check discrepancy time (p9650/p9850). For value 2000: Check discrepancy time, check wiring of F-DI. For value 6000: Upgrade firmware or replace Control Unit. For value 6064-6166: Check PROFIsafe settings (F_Dest_Add, F_Source_Add, F_WD_Time, F_SIL, F_CRC_Length). Check if fault occurs after powering up or inserting PROFIBUS/PROFINET cable.
N01620 (F, A) SI P1 (CU): Safe Torque Off active	Cause: The “Safe Torque Off” (STO) function has been selected on processor 1 using the input terminal and is active. Note: This message does not result in a safety stop response. Remedy: Not necessary. Note: STO: Safe Torque Off
F01625 SI P1 (CU): Sign-of-life error in safety data	Cause: The drive-integrated “Safety Integrated” function on processor 1 has detected an error in the sign-of-life of the safety data and initiated a STOP A. there is a communication error between processor 1 and processor 2 or communication has failed. a time slice overflow of the safety software has occurred. Fault value (r0949, interpret decimal): Only for internal Siemens troubleshooting. Remedy: select Safe Torque Off and de-select again. carry out a POWER ON (switch-off/switch-on). check whether additional faults are present and if required, perform diagnostics. check the electrical cabinet design and cable routing for EMC compliance. check whether an impermissible voltage is connected at one of the digital outputs. check whether a digital output is loaded with an impermissible current.
F01640 SI P1 (CU): component replacement identified and acknowledgment/save required	Cause: The “Safety Integrated” function integrated in the drive has identified that a component has been replaced. It is no longer possible to operate the drive. When safety functions are active, after a component has been replaced it is necessary to carry out a partial acceptance test. Fault value (r0949, interpret binary): Bit 0 = 1: It has been identified that the Control Unit has been replaced. Bit 1 = 1: It has been identified that the Motor Module/Hydraulic Module has been replaced. Bit 2 = 1: It has been identified that the Power Module has been replaced. Bit 3 = 1: It has been identified that the Sensor Module channel 1 has been replaced. Bit 4 = 1: It has been identified that the Sensor Module channel 2 has been replaced. Bit 5 = 1: It has been identified that the sensor channel 1 has been replaced. Bit 6 = 1: It has been identified that sensor channel 2 has been replaced. Remedy: acknowledge component replacement (p9702 = 29). save all parameters (p0977 = 1 or p0971 = 1 or “copy RAM to ROM”). acknowledge fault (e.g. BI: p2103). Note: In addition to the fault, diagnostics bits r9776.2 and r9776.3 are set. See also: r9776 (SI diagnostics).
F01641 SI P1 (CU): component replacement identified and save required	Cause: The “Safety Integrated” function integrated in the drive has identified that a component has been replaced. No additional fault response is initiated, therefore operation of the particular drive is not restricted. When safety functions are active, after a component has been replaced it is necessary to carry out a partial acceptance test. Fault value (r0949, interpret binary): Bit 0 = 1: Control Unit replaced. Bit 1 = 1: Motor Module/Hydraulic Module replaced. Bit 2 = 1: Power Module replaced. Bit 3 = 1: Sensor Module channel 1 replaced. Bit 4 = 1: Sensor Module channel 2 replaced. Bit 5 = 1: Sensor channel 1 replaced. Bit 6 = 1: Sensor channel 2 replaced. Remedy: save all parameters (p0977 = 1 or p0971 = 1 or “copy RAM to ROM”). acknowledge fault (e.g. BI: p2103). See also: r9776 (SI diagnostics)
F01649 SI P1 (CU): Internal software error	Cause: An internal error in the Safety Integrated software on processor 1 has occurred. Note: This fault results in a STOP A that cannot be acknowledged. Fault value (r0949, interpret hexadecimal): Only for internal Siemens troubleshooting. Remedy: carry out a POWER ON (switch-off/switch-on). re-commission the “Safety Integrated” function and carry out a POWER ON. contact Technical Support. replace Control Unit.
F01650 SI P1 (CU): Acceptance test required	Cause: The drive-integrated “Safety Integrated” function on processor 1 requires an acceptance test. Fault value (r0949, interpret decimal): 130: Safety parameters for processor 2 not available. 1000: Reference and actual checksum on processor 1 are not identical (booting). (at least one checksum-checked piece of data is defective or safety parameters set offline and loaded into the Control Unit). 2000: Reference and actual checksum on processor 1 are not identical (commissioning mode). 2001: Reference and actual checksum on processor 2 are not identical (commissioning mode). 2002: Enable of safety-related functions between the processor 1 and processor 2 differ. 2003: Acceptance test is required as a safety parameter has been changed. 2004: An acceptance test is required because a project with enabled safety-functions has been downloaded. 2005: The Safety logbook has identified that a functional safety checksum has changed. An acceptance test is required. 2020: Error when saving the safety parameters for the processor 2. 9999: Subsequent response of another safety-related fault that occurred when booting that requires an acceptance test. Remedy: For fault value = 130: carry out safety commissioning routine. For fault value = 1000: again carry out safety commissioning routine. replace the memory card or Control Unit. Using STARTER, activate the safety parameters for the drive involved. For fault value = 2000: check the safety parameters on processor 1 and adapt the reference checksum (p9799). For fault value = 2001: check the safety parameters on processor 2 and adapt the reference checksum (p9899). For fault value = 2002: enable the safety-related functions on processor 1 and check processor 2 (p9601 = p9801). For fault value = 2003, 2004, 2005: carry out an acceptance test and generate an acceptance report. For fault value = 2020: again carry out safety commissioning routine. replace the memory card or Control Unit. For fault value = 9999: carry out diagnostics for the other safety-related fault that is present.
F01651 SI P1 (CU): Synchronization safety time slices unsuccessful	Cause: The “Safety Integrated” function requires synchronization of the safety time slices between processor 1 and processor 2. This synchronization routine was unsuccessful. Note: This fault results in a STOP A that cannot be acknowledged. Remedy: Carry out a POWER ON (switch-off/switch-on).
F01653 SI P1 (CU): PROFIBUS/PROFINET configuration error	Cause: There is a PROFIBUS/PROFINET configuration error for using Safety Integrated monitoring functions with a higher level control. Fault value (r0949, interpret decimal): 200: A safety slot for receive data from the control has not been configured. 210, 220: The configured safety slot for the receive data from the control has an unknown format. 230: The configured safety slot for the receive data from the F-PLC has the incorrect length. 250: A PROFIsafe slot is configured in the higher-level F control, however PROFIsafe is not enabled in the drive. 300: A safety slot for the send data to the control has not been configured. 310, 320: The configured safety slot for the send data to the control has an unknown format. 330: The configured safety slot for the send data to the F-PLC has the incorrect length. Remedy: The following generally applies: check and, if necessary, correct the PROFIBUS/PROFINET configuration of the safety slot on the master side. upgrade the Control Unit software. For fault value = 250: remove the PROFIsafe configuring in the higher-level F control or enable PROFIsafe in the drive. For fault value = 231, 331: configure PROFIsafe telegram 30 in the F-PLC.
A01654 (F) SI P1 (CU): Deviating PROFIsafe configuration	Cause: The configuration of a PROFIsafe telegram in the higher-level control (F-PLC) does not match the parameterization in the drive. Alarm value (r2124, interpret decimal): 1: A PROFIsafe telegram is configured in the higher-level control, however PROFIsafe is not enabled in the drive (p9601.3). 2: PROFIsafe is parameterized in the drive; however, a PROFIsafe telegram has not been configured in the higher-level control. Remedy: check and, if necessary, correct the PROFIsafe configuration in the higher-level control. For alarm value = 1: remove the PROFIsafe configuring in the higher-level F control or enable PROFIsafe in the drive. For alarm value = 2: configure the PROFIsafe telegram to match the parameterization in the higher-level F-control.
F01655 SI P1 (CU): Align monitoring functions	Cause: An error has occurred when aligning the Safety Integrated monitoring functions on processor 1 and processor 2. No common set of supported SI monitoring functions was able to be determined. – there is a communication error between processor 1 and processor 2 or communication has failed. Note: This fault results in a STOP A that cannot be acknowledged. Remedy: carry out a POWER ON (switch-off/switch-on). check the electrical cabinet design and cable routing for EMC compliance.
F01656 SI P1 (CU): Parameter processor 2 error	Cause: When accessing the Safety Integrated parameters for the processor 2 in the non-volatile memory, an error has occurred. Fault value (r0949, interpret decimal): 129: Safety parameters for processor 2 corrupted. 131: Internal software error. 132: Communication errors when uploading or downloading the safety parameters. 255: Internal software error on the Control Unit. Remedy: re-commission the safety functions. replace the memory card or Control Unit. For fault value = 129: activate the safety commissioning mode (p0010 = 95). adapt the PROFIsafe address (p9610). start the copy function for SI parameters (p9700 = D0 hex). acknowledge data change (p9701 = DC hex). exit the safety commissioning mode (p0010 = 0). save all parameters. carry out a POWER ON. For fault value = 132: check the electrical cabinet design and cable routing for EMC compliance.
F01658 SI P1 (CU): PROFIsafe telegram number differ	Cause: The PROFIsafe telegram number in p60022 is unsuitable for the enabled safety functions. Possible causes: When PROFIsafe is not enabled (p9601.3 = 0), then it is not permissible to select a PROFIsafe telegram in p60022. When PROFIsafe is enabled (p9601.3 = 1), then a PROFIsafe telegram must be selected in p60022. Remedy: Select the telegram number that matches the Safety functions that have been enabled.
F01659 SI P1 (CU): Write request for parameter rejected	Cause: The write request for one or several Safety Integrated parameters on processor 1 was rejected. Fault value (r0949, interpret decimal): 1: The Safety Integrated password is not set. 2: A reset of the drive parameters was selected but SI parameters were not reset. 3: The interconnected STO input is in the simulation mode. 10: Attempt to enable STO function not supported. 14: Attempt to enable PROFIsafe communications not supported. 18: Attempt to enable PROFIsafe function for Basic Functions not supported. 20: Attempt to simultaneously enable both drive-integrated motion monitoring (F-DI) and STO via terminals. 26: At a digital input used by SI, attempt made to activate simulation mode. 28: Attempt to enable “STO via terminals at Power Module” not supported. Remedy: For fault value = 1: set the Safety Integrated password (p9761). For fault value = 2: inhibit Safety Integrated (p9501, p9601) or reset safety parameters (p0970 = 5), then reset the drive parameters again. For fault value = 3: end the simulation mode for the digital input (p0795). For fault value = 10, 14, 15, 18: check for faults in safety function alignment (F01655, F30655). use a Control Unit that supports the required function. For fault value = 20: correct the enable setting (p9601). For fault value = 26: deactivate the simulation mode for the set signal source for STO (p9620) (p0795). For fault value = 28: use the power unit with the feature “STO via terminals at the Power Module”.
F01660 SI P1 (CU): Safety-related functions not supported	Cause: The Power Module does not support the safety-related functions. Safety Integrated cannot be commissioned. Remedy: Use a Power Module that supports the safety-related functions.
F01662 Error internal communications	Cause: A module-internal communication error has occurred. Remedy: carry out a POWER ON (switch-off/switch-on). check the electrical cabinet design and cable routing for EMC compliance. check whether an impermissible voltage is connected at one of the digital outputs. check whether a digital output is loaded with an impermissible current. upgrade firmware to later version. contact Technical Support.
F01663 SI P1 (CU): Copying the SI parameters rejected	Cause: In p9700, the value 208 is saved or was entered offline. An attempt is made to copy Safety Integrated parameters from processor 1 to processor 2. However, no safety-relevant function has been selected on processor 1 (p9601 = 0). Remedy: set p9700 to 0. Check p9601 and if required, correct. restart the copying function by entering the corresponding value into p9700.
F01665 SI P1 (CU): System is defective	Cause: A system defect was detected before the last boot or in the actual one. The system might have been rebooted (reset). Fault value (r0949, interpret hexadecimal): 200000 hex, 400000 hex, 8000yy hex (yy any): fault in the actual booting/operation. Remedy: carry out a POWER ON (switch-off/switch-on). upgrade firmware to later version. contact Technical Support. For fault value = 200000 hex, 400000 hex, 8000yy hex: ensure that the Control Unit is connected to the Power Module.
F01690 SI Motion: Data save problem for the NVRAM	Cause: There is not sufficient memory space in the NVRAM on the drive to save parameters r9781 and r9782 (safety logbook). Fault value: 0: There is no physical NVRAM available in the drive. 1: There is no longer any free memory space in the NVRAM. Remedy: For fault value = 0: use a Control Unit NVRAM. For fault value = 1: de-select functions that are not required and that take up memory space in the NVRAM. contact Technical Support.
A01693 (F) SI P1 (CU): Safety parameter setting changed, POWER ON required	Cause: Safety parameters have been changed; these will only take effect following a POWER ON. Remedy: execute the function “Copy RAM to ROM”. carry out a POWER ON (switch-off/switch-on).
A01698 (F) SI P1 (CU): Commissioning mode active	Cause: The commissioning of the “Safety Integrated” function is selected. This message is withdrawn after the safety functions have been commissioned. Remedy: Not necessary.
A01699 (F) SI P1 (CU): Test stop for STO required	Cause: The time set in p9659 for the forced checking procedure (test stop) for the “STO” function has been exceeded. A new forced checking procedure is required. Remedy: Select STO and then de-select again.
A01788 SI: Automatic test stop waits for STO deselection via motion monitoring functions	Cause: The automatic test stop (forced checking procedure) was not able to be carried out after powering up. Possible causes: the STO function is selected via safe motion monitoring functions. a safety message is present, that resulted in a STO. Remedy: deselect STO via safe motion monitoring functions. remove the cause of the safety messages and acknowledge the messages.
A01796 (F, N) SI P1 (CU): Wait for communication	Cause: The drive waits for communication to be established to execute the safety-relevant motion monitoring functions. Alarm value (r2124): 3: Wait for communication to be established to PROFIsafe F-Host. Remedy: If, after a longer period of time, the message is not automatically withdrawn: check any other PROFIsafe communication messages/signals present. check the operating state of the F-Host. check the communication connection to the F Host.
F01910 (N, A) Fieldbus: setpoint timeout	Cause: The reception of setpoints from the fieldbus interface has been interrupted. bus connection interrupted. communication partner switched off. Remedy: Ensure bus connection has been established and switch on communication partner. if required, adapt p2040.
A01945 PROFIBUS: Connection to the Publisher failed	Cause: For PROFIBUS peer-to-peer data transfer, the connection to at least one Publisher has failed. Remedy: Check the PROFIBUS cables.
F01946 (A) PROFIBUS: Connection to the Publisher aborted	Cause: The connection to at least one Publisher for PROFIBUS peer-to-peer data transfer in cyclic operation has been aborted. Remedy: check the PROFIBUS cables. check the state of the Publisher that has the aborted connection.
F01951 CU SYNC: Synchronization application clock cycle missing	Cause: Internal synchronization of the application cycles unsuccessful. Remedy: carry out a POWER ON (switch-off/switch-on) for all components. upgrade the Control Unit software.
A01953 CU SYNC: Synchronization not completed	Cause: After the drive system was switched on, synchronization between the basic clock cycle and application clock cycle was started but was not completed within the selected time tolerance. Remedy: Carry out a POWER ON (switch-off/switch-on).
A01991 AS-i: parameter setting inconsistent	Cause: Settings have been made using parameter p2013, which conflict with the setting made via p0015. 1, 4: AS-i parameter assignment inconsistent (values in processor do not correspond to p2013). 2, 5: AS-i parameter assignment inconsistent (p2013 and p0015 differ). 3, 6: AS-i parameter assignment inconsistent (values in processor do not correspond to p2013 and p2013/p0015 differ). Remedy: correct parameter p2013 corresponding to the setting of p0015. if required, change the setting of p0015. Depending on the alarm value perform the remedy (see manual for detailed bit/value mappings for Single/Dual slave).
A02050 Trace: Start not possible	Cause: The trace has already been started. Remedy: Stop the trace and, if necessary, start again.
A02051 Trace: recording not possible as a result of know-how protection	Cause: TRACE recording is not possible as at least one signal or trigger signal being used is under know-how protection. Remedy: Temporarily activate or deactivate know-how protection (p7766). include the signal in the OEM exception list (p7763, p7764). Where relevant do not record the signal.
A02055 Trace: Recording time too short	Cause: The trace duration is too short. The minimum is twice the value of the trace clock cycle. Remedy: Check the selected recording time and, if necessary, adjust.
A02056 Trace: Recording cycle too short	Cause: The selected recording clock cycle is lower than the basic clock cycle 500µs. Remedy: Increase the value for the trace cycle.
A02057 Trace: Time slice clock cycle invalid	Cause: The time slice clock cycle selected does not match any of the existing time slices. Remedy: Enter an existing time slice clock cycle. The existing time slices can be read out via p7901.
A02058 Trace: Time slice clock cycle for endless trace not valid	Cause: The selected time slice clock cycle cannot be used for the endless trace. Remedy: Enter the clock cycle of an existing time slice with a cycle time >= 2 ms for up to 4 recording channels or >= 4 ms from 5 recording channels per trace.
A02059 Trace: Time slice clock cycle for 2 x 8 recording channels not valid	Cause: The selected time slice clock cycle cannot be used for more than 4 recording channels. Remedy: Enter the clock cycle of an existing time slice with a cycle time >= 4 ms or reduce the number of recording channels to 4 per trace.
A02060 Trace: Signal to be traced missing	Cause: a signal to be traced was not specified. the specified signals are not valid. Remedy: specify the signal to be traced. check whether the relevant signal can be traced.
A02061 Trace: Invalid signal	Cause: the specified signal does not exist. the specified signal can no longer be traced (recorded). Remedy: specify the signal to be traced. check whether the relevant signal can be traced.
A02062 Trace: Invalid trigger signal	Cause: a trigger signal was not specified. the specified signal does not exist. the specified signal is not a fixed-point signal. the specified signal cannot be used as a trigger signal for the trace. Remedy: Specify a valid trigger signal.
A02063 Trace: Invalid data type	Cause: The specified data type to select a signal using a physical address is invalid. Remedy: Use a valid data type.
A02070 Trace: Parameter cannot be changed	Cause: The trace parameter settings cannot be changed when the trace is active. Remedy: stop the trace before parameterization. if required, start the trace.
A02075 Trace: Pretrigger time too long	Cause: The selected pretrigger time must be shorter than the trace time. Remedy: Check the pretrigger time setting and change if necessary.
F02080 Trace: Parameterization deleted due to unit changeover	Cause: The trace parameterization in the drive unit was deleted due to a unit changeover or a change in the reference parameters. Remedy: Restart trace.
A02095 MTrace 0: multiple trace cannot be activated	Cause: The following functions or settings are not permissible in conjunction with a multiple trace (trace recorder 0): measuring function long-time trace trigger condition “immediate recording start” (IMMEDIATE) trigger condition “start with function generator” (FG_START) Remedy: if required, deactivate the multiple trace (p4840[0] = 0). deactivate function or setting that is not permissible.
A02096 MTrace 0: cannot be saved	Cause: It is not possible to save the measurement results of a multiple trace on the memory card (trace recorder 0). 1: Memory card cannot be accessed. 3: Data save operation to slow. 4: Data save operation canceled. Remedy: insert or remove the memory card. use a larger memory card. configure a longer trace time or use an endless trace. avoid saving parameters while a multiple trace is running.
A02097 MTrace 1: multiple trace cannot be activated	Cause: The following functions or settings are not permissible in conjunction with a multiple trace (trace recorder 1): (measuring function, long-time trace, etc). Remedy: if required, deactivate the multiple trace (p4840[1] = 0). deactivate function or setting that is not permissible.
A02098 MTrace 1: cannot be saved	Cause: It is not possible to save the measurement results of a multiple trace on the memory card (trace recorder 1). (Same causes as A02096). Remedy: (Same remedies as A02096).
A02099 Trace: Insufficient Control Unit memory	Cause: The memory space still available on the Control Unit is no longer sufficient for the trace function. Remedy: Reduce the memory required, e.g. as follows: reduce the trace time. increase the trace clock cycle. reduce the number of signals to be traced.
A02150 OA: Application cannot be loaded	Cause: The system was not able to load an OA application. Alarm value (r2124): 16: The interface version in the DCB user library is not compatible to the DCC standard library. Remedy: carry out a POWER ON (switch-off/switch-on). upgrade firmware to later version. Load a compatible DCB user library.
F02151 (A) OA: Internal software error	Cause: An internal software error has occurred within an OA application. Remedy: carry out a POWER ON. upgrade firmware to later version. contact Technical Support. replace the Control Unit.
F02152 (A) OA: Insufficient memory	Cause: Too many functions have been configured on this Control Unit. Remedy: change the configuration on this Control Unit (e.g. fewer drives, function modules). use an additional Control Unit.
F03000 NVRAM fault on action	Cause: A fault occurred during execution of action p7770 = 1 or 2 for the NVRAM data. Fault value: yy=1: Action not supported. yy=2: Data length mismatch. yy=3: Data checksum incorrect. yy=4: No data available to load. Remedy: Perform the remedy according to the results of the troubleshooting. if necessary, start the action again.
F03001 NVRAM checksum incorrect	Cause: A checksum error occurred when evaluating the non-volatile data (NVRAM) on the Control Unit. The NVRAM data affected was deleted. Remedy: Carry out a POWER ON (switch-off/switch-on) for all components.
F03505 (N, A) Analog input wire breakage	Cause: The wire-break monitoring for an analog input has responded. The input value has undershot the threshold value. Remedy: Check the connection to the signal source for interruptions. check the magnitude of the injected current – it is possible that the infed signal is too low.
A03510 (F, N) Calibration data not plausible	Cause: During booting, the calibration data for the analog inputs is read and checked with respect to plausibility. At least one calibration data point was determined to be invalid. Remedy: switch-off/switch-on the power supply for the Control Unit. If it reoccurs, then replace the module.
A03560 LRC: keyswitch in the off position	Cause: The drive cannot be moved as a result of a local remote control feedback signal. Alarm value: 0: Keyswitch in “Off” position. 5: Cover of Wiring Module removed. 6: Local remote control not identified. Remedy: For alarm value = 0: Set the keyswitch to another position. For alarm value = 5: Attach the cover of the Wiring Module. For alarm value = 6: Carry out a POWER ON. Replace local remote control.
A03561 LRC: keyswitch in the manual operation position	Cause: For local remote control, the keyswitch is in the “Manual operation” position. Remedy: For alarm value = 0: If required, set the keyswitch into the “Remote operation” position. For alarm value = 1: Manual operation: withdraw the drive inhibit. Master control from SAM/Startdrive: set the keyswitch to the “Remote operation” position.
A05000 (N) Power unit: Overtemperature heat sink AC inverter	Cause: The alarm threshold for overtemperature at the inverter heat sink has been reached. Remedy: Check the following: is the ambient temperature within the defined limit values? have the load conditions and the load duty cycle been appropriately dimensioned? has the cooling failed?
A05001 (N) Power unit: Overtemperature depletion layer chip	Cause: Alarm threshold for overtemperature of the power semiconductor in the AC converter has been reached. Remedy: Check the following: is the ambient temperature within the defined limit values? have the load conditions and the load duty cycle been appropriately dimensioned? has the cooling failed? pulse frequency too high?
A05002 (N) Power unit: Air intake overtemperature	Cause: The alarm threshold for the air intake overtemperature has been reached. Remedy: Check the following: is the ambient temperature within the defined limit values? has the fan failed? Check the direction of rotation.
A05004 (N) Power unit: Rectifier overtemperature	Cause: The alarm threshold for the overtemperature of the rectifier has been reached. Remedy: Check the following: is the ambient temperature within the defined limit values? have the load conditions and the load duty cycle been appropriately dimensioned? has the fan failed? Check the direction of rotation. has a phase of the line supply failed?
A05006 (N) Power unit: Overtemperature thermal model	Cause: The temperature difference between the chip and heat sink has exceeded the permissible limit value (blocksize power units only). Remedy: Not necessary. The alarm disappears automatically once the limit value is undershot.
A05065 (F, N) Voltage measured values not plausible	Cause: The voltage measurement does not supply any plausible values and is not used. Remedy: The following parameterization must be made in order to deactivate the alarm: Deactivate voltage measurement (p0247.0 = 0). Deactivate flying restart with voltage measurement (p0247.5 = 0) and deactivate fast flying restart (p1780.11 = 0).
F05118 (A) Precharging contactor simultaneity monitoring time exceeded	Cause: A feedback signal for the precharging contactor (ALM, SLM, BLM diode) or the line contactor (BLM thyristor) interconnected and the simultaneity monitoring activated. Remedy: check the monitoring time setting (p0255[4, 6]). check the contactor wiring and activation. if required, replace the contactor.
F05119 (A) Bypass contactor simultaneity monitoring time exceeded	Cause: A feedback signal for the bypass contactor is interconnected and the simultaneity monitoring (p0255[5, 7]) activated. After opening or closing a contactor of the parallel connection, after a monitoring time has elapsed, not all of the contactors have assumed the same state. Fault value (r0949, interpret binary): Bit 0 = 1: simultaneity error when closing the contactors. Bit 1 = 1: simultaneity error when opening the contactors. Bit 16 = 1: PDS0 contactor is closed. Bit 17 = 1: PDS1 contactor is closed. Bit 18 = 1: PDS2 contactor is closed. Bit 19 = 1: PDS3 contactor is closed. Bit 20 = 1: PDS4 contactor is closed. Bit 21 = 1: PDS5 contactor is closed. Bit 22 = 1: PDS6 contactor is closed. Bit 23 = 1: PDS7 contactor is closed. Note: PDS: Power unit Data Set Remedy: Check the monitoring time setting (p0255[5, 7]). Check the wiring and control of the contactor. If required, replace the contactor.
F06310 (A) Supply voltage (p0210) incorrectly parameterized	Cause: The measured DC voltage lies outside the tolerance range after precharging has been completed. Permissible range: 1.16 * p0210 < r0070 < 1.8 * p0210 Note: The fault can only be acknowledged when the drive is switched off. See also: p0210 (Drive unit line supply voltage) Remedy: Check the parameterized supply voltage and if required change (p0210). Check the line supply voltage.
A06921 (N) Braking resistor phase asymmetry	Cause: The three resistors of the braking chopper are not symmetrical. DC link voltage oscillations caused by fluctuating loads of the connected drives. Remedy: Check the feeder cables to the braking resistors. If required, increase the value for detecting asymmetry (p1364).
F06922 Braking resistor phase failure	Cause: A phase failure for the brake resistor was detected. Fault value (r0949, interpret decimal): 11: Phase U 12: Phase V 13: Phase W See also: p3235 (Phase failure signal motor monitoring time) Remedy: Check the feeder cables to the braking resistors.
F07011 Drive: Motor overtemperature	Cause: KTY84/PT1000: The motor temperature has exceeded the fault threshold (p0605) or the timer (p0606) after the alarm threshold was exceeded (p0604) has expired. The response parameterized in p0610 becomes active. The alarm is withdrawn if the response threshold for wire breakage or sensor not connected is exceeded (R > 2120 Ohm). PTC or bimetallic NC contact: The response threshold of 1650 Ohm was exceeded or the NC contact opened and the timer (p0606) has expired. The response parameterized in p0610 becomes active. Possible causes: – motor is overloaded. – motor ambient temperature too high. – wire breakage or sensor not connected. Fault value (r0949, interpret decimal): 200 (Motor temperature model 1 (I2t): temperature too high). Remedy: Reduce the motor load. Check the ambient temperature and the motor ventilation. Check the wiring and the connection of the PTC or bimetallic NC contact. See also: p0604, p0605, p0606, p0612, p0625, p0626, p0627, p0628
A07012 (N) Drive: Motor temperature model 1/3 overtemperature	Cause: The motor temperature model 1/3 identified that the alarm threshold was exceeded. Hysteresis: 2K. Alarm value (r2124, interpret decimal): 200: Motor temperature model 1 (I2t): temperature too high. 300: Motor temperature model 3: temperature too high. See also: r0034, p0605, p0611, p0612, p0613 Remedy: Check the motor load and if required, reduce. Check the motor ambient temperature. Check activation of the motor temperature model (p0612). Motor temperature model 1 (I2t): Check the thermal time constant (p0611) and alarm threshold. Motor temperature model 3: Check the motor type, alarm threshold, and model parameters.
A07014 (N) Drive: Motor temperature model configuration alarm	Cause: A fault has occurred in the configuration of the motor temperature model. Alarm value (r2124, interpret decimal): 1: All motor temperature models: It is not possible to save the model temperature. See also: p0610 (Motor overtemperature response) Remedy: Set the response for motor overtemperature to “Alarm and fault, no reduction of I_max” (p0610 = 2). See also: p0610 (Motor overtemperature response)
A07015 Drive: Motor temperature sensor alarm	Cause: An error was detected when evaluating the temperature sensor set in p0601. With the fault, the time in p0607 is started. If the fault is still present after this time has expired, then fault F07016 is output; however, at the earliest, 50 ms after alarm A07015. Possible causes: – wire breakage or sensor not connected (KTY: R > 2120 Ohm, PT1000: R > 2120 Ohm). – measured resistance too low (PTC: R < 20 Ohm, KTY: R < 50 Ohm, PT1000: R < 603 Ohm). Remedy: Make sure that the sensor is connected correctly. Check the parameterization (p0601). See also: r0035, p0601, p0607
F07016 Drive: Motor temperature sensor fault	Cause: An error was detected when evaluating the temperature sensor set in p0601. Possible causes: – wire breakage or sensor not connected (KTY: R > 2120 Ohm, PT1000: R > 2120 Ohm). – measured resistance too low (PTC: R < 20 Ohm, KTY: R < 50 Ohm, PT1000: R < 603 Ohm). Note: If alarm A07015 is present, the time in p0607 is started. If the fault is still present after this time has expired, then fault F07016 is output. Remedy: Make sure that the sensor is connected correctly. Check the parameterization (p0601). Induction motors: Deactivate temperature sensor fault (p0607 = 0).
F07080 Drive: Incorrect control parameter	Cause: The closed-loop control parameters have been parameterized incorrectly (e.g. p0356 = L_spread = 0). Fault value (r0949, interpret decimal): The fault value includes the parameter number involved. See also: p0310, p0311, p0341, p0344, p0350, p0354, p0356, p0357, p0358, p0360, p0400, p0408, p0640, p1082, p1300 Remedy: Modify the parameter indicated in the fault value (r0949) (e.g. p0640 = current limit > 0).
F07082 Macro: Execution not possible	Cause: The macro cannot be executed. Fault value (r0949, interpret hexadecimal): ccccbbaa hex (cccc = preliminary parameter number, bb = supplementary information, aa = fault cause). Fault causes for the trigger parameter itself: 19-23: Called file is not valid for various parameters. 24: Data type of a TAG is incorrect. Fault causes for the parameters to be set: 25-61: Various parameter setting errors (e.g., undefined value, value not “DEFAULT”, trigger recursively called, write permission denied). Remedy: Check the parameter involved. Check the macro file and BICO interconnection. See also: p0015, p1000, p1500
F07083 Macro: ACX file not found	Cause: The ACX file (macro) to be executed was not able to be found in the appropriate directory. Fault value (r0949, interpret decimal): Parameter number with which the execution was started. Remedy: Check whether the file is saved in the appropriate directory on the memory card.
F07084 Macro: Condition for WaitUntil not fulfilled	Cause: The WaitUntil condition set in the macro was not fulfilled in a certain number of attempts. Fault value (r0949, interpret decimal): Parameter number for which the condition was set. Remedy: Check and correct the conditions for the WaitUntil loop.
F07086 Units changeover: Parameter limit violation due to reference value change	Cause: A reference parameter was changed in the system. This resulted in the fact that for the parameters involved, the selected value was not able to be written in the per unit notation. The values of the parameters were set to the corresponding violated minimum limit/maximum limit or to the factory setting. Possible causes: The steady-state minimum limit/maximum limit or that defined in the application was violated. Remedy: Check the adapted parameter value and if required correct.
F07088 Units changeover: Parameter limit violation due to units changeover	Cause: A changeover of units was initiated. This resulted in a violation of a parameter limit. Possible causes: When rounding off a parameter corresponding to its decimal places, the steady-state minimum limit or maximum limit was violated. Inaccuracies for the data type “FloatingPoint”. Fault value (r0949, interpret decimal): Diagnostics parameter r9451 to display all parameters whose value had to be adapted. Remedy: Check the adapted parameter values and if required correct. See also: r9451 (Units changeover adapted parameters)
A07089 Changing over units: Function module activation is blocked because the units have been changed over	Cause: An attempt was made to activate a function module. This is not permissible if the units have already been changed over. See also: p0100 (IEC/NEMA Standards), p0505 (Selecting the system of units) Remedy: Restore units that have been changed over to the factory setting.
A07092 Drive: moment of inertia estimator still not ready	Cause: The moment of inertia estimator still has no valid values. The acceleration cannot be calculated. The moment of inertia estimator is ready, if the frictional values (p1563, p1564) as well as the moment of inertia value (p1493) have been determined (r1407.26 = 1). Remedy: Repeat the operation when the moment of inertia estimator is ready (r1407.26 = 1).
A07094 General parameter limit violation	Cause: As a result of the violation of a parameter limit, the parameter value was automatically corrected. Minimum limit violated –> parameter is set to the minimum value. Maximum limit violated –> parameter is set to the maximum value. Alarm value (r2124, interpret decimal): Parameter number, whose value had to be adapted. Remedy: Check the adapted parameter values and if required correct.
A07200 Drive: Master control ON command present	Cause: The ON/OFF1 command is present (no 0 signal). The command is either influenced via binector input p0840 (current CDS) or control word bit 0 via the master control. Remedy: Switch the signal via binector input p0840 (current CDS) or control word bit 0 via the master control to 0.
F07220 (N, A) Drive: Master control by PLC missing	Cause: The “master control by PLC” signal was missing in operation. – interconnection of the binector input for “master control by PLC” is incorrect (p0854). – the higher-level control has withdrawn the “master control by PLC” signal. – data transfer via the fieldbus (master/drive) was interrupted. Remedy: Check the interconnection of the binector input for “master control by PLC” (p0854). Check the “master control by PLC” signal and, if required, switch in. Check the data transfer via the fieldbus (master/drive).
F07300 (A) Drive: Line contactor feedback signal missing	Cause: The line contactor was not able to be closed within the time in p0861. The line contactor was not able to be opened within the time in p0861. The line contactor dropped out during operation. The line contactor has closed although the drive converter is switched off. Remedy: Check the setting of p0860. Check the feedback circuit from the line contactor. Increase the monitoring time in p0861.
F07320 Drive: Automatic restart interrupted	Cause: The specified number of restart attempts (p1211) has been completely used up. The monitoring time for the power unit has expired (p0857). When exiting commissioning or at the end of motor identification, the drive is not automatically switched on again. Remedy: Increase the number of restart attempts (p1211). Increase the delay time in p1212 and/or the monitoring time in p1213. Either increase or disable the monitoring time of the power unit (p0857). Reduce the delay time to reset the start counter (p1213[1]).
A07321 Drive: Automatic restart active	Cause: The automatic restart (AR) is active. When the line supply returns and/or the causes of the existing faults are removed the drive is automatically restarted. The pulses are enabled and the motor starts to rotate. Remedy: The automatic restart (AR) should, if required, be inhibited (p1210 = 0). An automatic restart can be directly interrupted by withdrawing the switch-on command (BI: p0840). For p1210 = 26: by withdrawing the OFF2- / OFF3 command.
F07330 Flying restart: Measured search current too low	Cause: During a flying restart, it was identified that the search current reached is too low. It is possible that the motor is not connected. Remedy: Check the motor feeder cables.
F07331 Flying restart: Function not supported	Cause: It is not possible to power up with the motor rotating (no flying restart). Remedy: Deactivate the “flying restart” function (p1200 = 0).
F07332 Flying restart: maximum speed reduced	Cause: The maximum speed that can be reached is reduced; at very high speeds problems associated with the flying restart can be encountered. Possible causes: power ratio, power unit/motor too high. Remedy: Parameter changes are not required. Note: A flying restart at speeds above 3000 rpm should be avoided.
A07352 Drive: Stop sensor not plausible	Cause: The stop sensors are not plausible. Possible causes: – BICO interconnections are not OK (p3384, p3385, p3386). – sensors are not supplying a valid signal (both supply a 0 signal or a 1 signal). Remedy: Check the BICO interconnections for the stop sensors. Check the sensors. See also: p3384, p3385, p3386
A07353 Drive: DC quantity control deactivated	Cause: The DC quantity control has deactivated itself. The manipulated variable of the DC quantity control was at its limit. Remedy: Optimize the DC quantity controller (Kp, Tn, bandwidth, PT2 filter).
A07400 (N) Drive: DC link voltage maximum controller active	Cause: The DC link voltage controller has been activated because the upper switch-in threshold has been exceeded (r1242, r1282). The ramp-down times are automatically increased in order to maintain the DC link voltage (r0070) within the permissible limits. When the DC link voltage controller is switched out (disabled), this is the reason that the ramp-function generator output is set to the speed actual value. Remedy: If the controller is not to intervene: increase the ramp-down times or switch off the Vdc_max controller (p1240 = 0, p1280 = 0). If the ramp-down times are not to be changed: use a chopper or regenerative feedback unit.
A07401 (N) Drive: DC link voltage maximum controller deactivated	Cause: The Vdc_max controller can no longer maintain the DC link voltage (r0070) below the limit value (r1242, r1282) and was therefore switched out (disabled). – the line supply voltage is permanently higher than specified for the power unit. – the motor is permanently in the regenerative mode as a result of a load that is driving the motor. Remedy: Check whether the input voltage is within the permissible range. Check whether the load duty cycle and load limits are within the permissible limits.
A07402 (N) Drive: DC link voltage minimum controller active	Cause: The DC link voltage controller has been activated as the lower switch-in threshold has been undershot (r1246, r1286). The kinetic energy of the motor is used to buffer the DC link. The drive is therefore braked. Remedy: The alarm disappears when power supply returns.
F07404 Drive: DC link voltage monitoring Vdc_max	Cause: The monitoring of the DC link voltage p1284 has responded (only U/f control). Remedy: Check the line supply voltage. Check the braking module. Adapt the device supply voltage (p0210). Adapt the DC link voltage monitoring (p1284).
F07405 (N, A) Drive: Kinetic buffering minimum speed fallen below	Cause: During kinetic buffering the speed fell below minimum speed (p1257 or p1297) and the line supply did not return. Remedy: Check the speed threshold for the Vdc_min controller (kinetic buffering) (p1257, p1297).
F07406 (N, A) Drive: Kinetic buffering maximum time exceeded	Cause: The maximum buffer time (p1255 and p1295) has been exceeded without the line supply having returned. Remedy: Check the time threshold for Vdc-min controller (kinetic buffering) (p1255, p1295).
A07409 (N) Drive: U/f control, current limiting controller active	Cause: The current limiting controller of the U/f control was activated because the current limit was exceeded. Remedy: Increase current limit (p0640). Reduce the load. Slow down the ramp up to the setpoint speed.
F07410 Drive: Current controller output limited	Cause: The condition “I_act = 0 and Uq_set_1 longer than 16 ms at its limit” is present. – motor not connected or motor contactor open. – motor data and motor configuration (star-delta) do not match. – no DC link voltage present. – power unit defective. – the “flying restart” function is not activated. Remedy: Connect the motor or check the motor contactor. Check the motor parameterization and the connection type. Check the DC link voltage (r0070). Check the power unit. Activate the “flying restart” function (p1200).
F07411 Drive: Flux setpoint not reached when building up excitation	Cause: When quick magnetizing is configured (p1401.6 = 1) the specified flux setpoint is not reached although 90% of the maximum current is specified. – incorrect motor data. – motor data and configuration do not match. – current limit set too low. – induction motor in I2t limiting. – power unit too small. – magnetizing time too short. Remedy: Correct the motor data. Perform motor data identification. Check the motor configuration. Correct the current limits (p0640). Reduce the induction motor load. If necessary, use a larger power unit. Check motor supply cable and power unit. Increase p0346.
A07416 Drive: Flux controller configuration	Cause: The configuration of the flux control (p1401) is contradictory. Fault value (r2124, interpret hexadecimal): ccbbaaaa hex (cc = fault cause). 1: Quick magnetizing (p1401.6) for soft starting (p1401.0). 2: Quick magnetizing for flux build-up control (p1401.2). 3: Quick magnetizing (p1401.6) for Rs identification after restart (p0621 = 2). Remedy: Fault cause 1: Shut down soft start (p1401.0 = 0) or quick magnetizing (p1401.6 = 0). Fault cause 2: Switch-on flux build-up control (p1401.2 = 1) or shut down quick magnetizing (p1401.6 = 0). Fault cause 3: Re-parameterize Rs identification (p0621 = 0, 1) or shut down quick magnetizing (p1401.6 = 0).
F07426 (A) Technology controller actual value limited	Cause: The actual value for the technology controller has reached a limit. Fault value (r0949): 1 (upper limit), 2 (lower limit). Remedy: Adapt the limits to the signal level (p2267, p2268). Check the actual value normalization (p0595, p0596).
A07428 (N) Technology controller parameterizing error	Cause: The technology controller has a parameterizing error. Alarm value (r2124): 1 (Upper output limit in p2291 is set lower than the lower output limit in p2292). Remedy: Set the output limit in p2291 higher than in p2292.
F07435 (N) Drive: Setting the ramp-function generator for sensorless vector control	Cause: During operation with sensorless vector control (r1407.1) the ramp-function generator was stopped (p1141). An internal setting command of the ramp-function generator output caused the set setpoint speed to be frozen. Remedy: Deactivate the holding command for the ramp-function generator (p1141). Suppress the fault (p2101, p2119).
A07530 Drive: Drive Data Set DDS not present	Cause: The selected drive data set is not available (p0837 > p0180). Remedy: Select the existing drive data set. Set up additional drive data sets.
A07531 Drive: Command Data Set CDS not present	Cause: The selected command data set is not available (p0836 > p0170). Remedy: Select the existing command data set. Set up additional command data sets.
F07754 Drive: Incorrect shutoff valve configuration	Cause: An incorrect shutoff valve configuration was detected. Fault value (r0949, interpret decimal): 100: Enable Safety Integrated, but p0218.0 = 0. 101: Manipulated variable inhibit time less than wait time for feedback (shutoff valve open). 102: Manipulated variable inhibit time less than wait time for feedback (shutoff valve closed). Remedy: For fault value = 100: Check the enable of Safety Integrated and the shutoff valve. For fault value = 101/102: Set the manipulated variable inhibit time higher than the wait time to evaluate the feedback signal contacts (p0230 > p9625/p9825).
F07800 Drive: No power unit present	Cause: The power unit parameters cannot be read or no parameters are stored in the power unit. Remedy: Carry out a POWER ON (switch-off/switch-on) for all components. Check the power unit and replace if necessary. Check the Control Unit, and if required replace it. After correcting the topology, the parameters must be again downloaded.
F07801 Drive: Motor overcurrent	Cause: The permissible motor limit current was exceeded. – effective current limit set too low. – current controller not correctly set. – U/f operation: Up ramp was set too short or the load is too high. – Short-circuit in the motor cable or ground fault. – Motor current does not match current of power unit. – Switch to rotating motor without flying restart function. Remedy: Check the current limits (p0640). Vector control: Check the current controller (p1715, p1717). U/f control: Check the current limiting controller (p1340 … p1346). Increase the up ramp (p1120) or reduce the load. Check the motor and motor cables for short-circuit and ground fault. Choose “flying restart” function (p1200) if switched to rotating motor.
F07802 Drive: Infeed or power unit not ready	Cause: After an internal switch-on command, the infeed or drive does not signal ready. – monitoring time is too short. – DC link voltage is not present. – associated infeed or drive of the signaling component is defective. – supply voltage incorrectly set. Remedy: Increase the monitoring time (p0857). Ensure that there is a DC link voltage. Check the DC link busbar. Enable the infeed. Replace the associated infeed or drive of the signaling component. Check the line supply voltage setting (p0210).
A07805 (N) Drive: Power unit overload I2t	Cause: Alarm threshold for I2t overload (p0294) of the power unit exceeded. The response parameterized in p0290 becomes active. Remedy: Reduce the continuous load. Adapt the load duty cycle. Check the assignment of the motor and power unit rated currents.
F07807 Drive: Short-circuit/ground fault detected	Cause: A phase-phase short-circuit or ground fault was detected at the motor-side output terminals of the converter. Fault value (r0949, interpret decimal): 1-3: Short-circuit phase UV, UW, VW. 4: Ground fault with overcurrent. 5-7: Motor cable phase U, V, W interrupted. 8: Short-circuit with hardware shutdown. See also: interchanging line and motor cables, ground fault test. Remedy: Check the motor-side converter connection for a phase-phase short-circuit. Rule-out interchanged line and motor cables. Check for a ground fault and motor cable connections. Do not enable the pulses when connecting to a rotating motor without “Flying restart”. Increase de-energization time (p0347). Increase pulse cancellation delay time (p1228).
F07810 Drive: Power unit EEPROM without rated data	Cause: No rated data are stored in the power unit EEPROM. Remedy: Replace the power unit or inform Siemens Customer Service.
A07850 (F) External alarm 1	Cause: The condition for “External alarm 1” is satisfied. The “External alarm 1” is initiated by a 1/0 edge via binector input p2112. Remedy: Eliminate the causes of this alarm.
A07851 (F) External alarm 2	Cause: The condition for “External alarm 2” is satisfied. The “External alarm 2” is initiated by a 1/0 edge via binector input p2116. Remedy: Eliminate the causes of this alarm.
A07852 (F) External alarm 3	Cause: The condition for “External alarm 3” is satisfied. The “External alarm 3” is initiated by a 1/0 edge via binector input p2117. Remedy: Eliminate the causes of this alarm.
F07860 (A) External fault 1	Cause: The condition for “External fault 1” is satisfied. The “External fault 1” is initiated by a 1/0 edge via binector input p2106. Remedy: Eliminate the causes of this fault. Acknowledge fault.
F07861 (A) External fault 2	Cause: The condition for “External fault 2” is satisfied. The “External fault 2” is initiated by a 1/0 edge via binector input p2107. Remedy: Eliminate the causes of this fault. Acknowledge fault.
F07862 (A) External fault 3	Cause: The condition for “External fault 3” is satisfied. The “External fault 3” is initiated by a 1/0 edge via the following parameters: AND logic operation, binector input p2108, p3111, p3112. Remedy: Eliminate the causes of this fault. Acknowledge fault.
A07891 Drive: Load monitoring pump/fan blocked	Cause: The load monitoring is configured for a pump or fan (p2193 = 4, 5). The monitoring function detects when the pump/fan is blocked. Remedy: Check whether the pump/fan is blocked, and if blocked, then resolve the problem. Check that the fan can freely move. Adapt the parameterization corresponding to the load (p2165, p2168).
A07892 Drive: Load monitoring pump/fan no load condition	Cause: The monitoring function detects when the pump/fan is operating under no load conditions. The pump is running in the dry state or the fan has a broken belt. Remedy: For a pump, check the medium being pumped, and if required, provide the medium. For a fan, check the belt, and if required, replace. If necessary, increase the detection torque threshold (p2191).
A07893 Drive: Load monitoring pump leakage	Cause: The monitoring function detects a leak in the pump circuit. The pump requires a torque that is lower than in normal operation. Remedy: Remove the leak in the pump circuit. For a nuisance trip, reduce the torque thresholds of the leakage characteristic (p2186, p2188, p2190).
F07894 Drive: Load monitoring pump/fan blocked	Cause: The monitoring function detects when the pump/fan is blocked. It is possible that the blocking torque threshold (p2168) is set too low (e.g. heavy duty starting). Remedy: Check whether the pump/fan is blocked. Check that the fan can freely move. Adapt the parameterization corresponding to the load (p2165, p2168).
F07895 Drive: Load monitoring pump/fan no load condition	Cause: The monitoring function detects when the pump/fan is operating under no load conditions. The pump is running in the dry state or the fan has a broken belt. Remedy: For a pump, check the medium being pumped. For a fan, check the belt. If necessary, increase the detection torque threshold (p2191).
F07896 Drive: Load monitoring pump leakage	Cause: The monitoring function detects a leak in the pump circuit. Remedy: Remove the leak in the pump circuit. For a nuisance trip, reduce the torque thresholds of the leakage characteristic (p2186, p2188, p2190).
F07900 (N, A) Drive: Motor blocked	Cause: Motor has been operating at the torque limit longer than the time specified in p2177 and below the speed threshold set in p2175. Can also be triggered if speed is oscillating or by thermal monitoring reducing current limit. Remedy: Check that the motor can freely move. Check the effective torque limit (r1538, r1539). Check the parameter “Motor blocked” (p2175, p2177). Check the direction of rotation enable signals. For U/f control: check current limits and acceleration times.
F07901 Drive: Motor overspeed	Cause: The maximum permissible speed was either positively or negatively exceeded. Remedy: Check r1084, r1087 and if required, correct p1082, CI:p1085 and p2162. Activate precontrol of the speed limiting controller (p1401.7 = 1). Increase the hysteresis for the overspeed signal p2162.
F07902 (N, A) Drive: Motor stalled	Cause: The system has identified that the motor has stalled for a time longer than is set in p2178. Remedy: Ensure motor data identification was carried out. Check if drive is in open-loop speed control range or if load caused stall. Increase ramp-up/down times (p1120, p1121) and current setpoint (p1610, p1611). Check for line phase failure or disconnected motor cables. Check current limits.
A07903 Drive: Motor speed deviation	Cause: The absolute value of the speed difference from the setpoint (p2151) and the speed actual value (r2169) exceeds the tolerance threshold (p2163) longer than tolerated (p2164, p2166). Remedy: Increase p2163 and/or p2166. Increase the torque/current/power limits. For closed-loop torque control: The speed setpoint should track the speed actual value. Deactivate alarm with p2149.0 = 0.
A07910 (N) Drive: Motor overtemperature	Cause: KTY84/PT1000: Motor temperature exceeded alarm threshold. PTC or bimetallic NC contact: Response threshold exceeded or NC contact opened. Alarm value (r2124): 11 (output current reduction), 12 (output current reduction active). Remedy: Check the motor load. Check the motor ambient temperature. Check KTY84/PT1000 or PTC/bimetallic NC contact. Check overtemperatures of the motor temperature model 2.
A07920 Drive: Torque/speed too low	Cause: The torque deviates from the torque/speed envelope characteristic (too low) or speed signal deviates from the speed (too low). Remedy: Check the connection between the motor and load. Adapt the parameterization corresponding to the load.
A07921 Drive: Torque/speed too high	Cause: The torque deviates from the torque/speed envelope characteristic (too high) or speed signal deviates from the speed (too high). Remedy: Check the connection between the motor and load. Adapt the parameterization corresponding to the load.
A07922 Drive: Torque/speed out of tolerance	Cause: The torque deviates from the torque/speed envelope characteristic or speed signal deviates from the speed. Remedy: Check the connection between the motor and load. Adapt the parameterization corresponding to the load.
F07923 Drive: Torque/speed too low	Cause: The torque deviates from the torque/speed envelope characteristic (too low) or speed signal deviates from the speed (too low). Remedy: Check the connection between the motor and load. Adapt the parameterization corresponding to the load.
F07924 Drive: Torque/speed too high	Cause: The torque deviates from the torque/speed envelope characteristic (too high) or speed signal deviates from the speed (too high). Remedy: Check the connection between the motor and load. Adapt the parameterization corresponding to the load.
F07925 Drive: Torque/speed out of tolerance	Cause: For p2193 = 1: The torque deviates from the torque/speed envelope characteristic. For p2193 = 2: The speed signal from the external encoder (refer to p3230) deviates from the speed (r2169). Remedy: check the connection between the motor and load. adapt the parameterization corresponding to the load.
A07926 Drive: Envelope curve parameter invalid	Cause: Invalid parameter values were entered for the envelope characteristic of the load monitoring. The following rules apply for the speed thresholds: p2182 < p2183 < p2184 The following rules apply for the torque thresholds: p2185 > p2186, p2187 > p2188, p2189 > p2190 Alarm value (r2124, interpret decimal): Number of the parameter with the invalid value. Remedy: set the parameters for the load monitoring according to the applicable rules. if necessary, deactivate the load monitoring (p2181 = 0, p2193 = 0).
A07927 DC braking active	Cause: The motor is braked with DC current. DC braking is active. 1) A message with response DCBRK is active. The motor is braked with the braking current set in p1232. 2) DC braking has been activated at binector input p1230 with the DC braking set. Remedy: Not necessary. The alarm automatically disappears once DC braking has been executed.
A07929 (F) Drive: No motor detected	Cause: The absolute current value is so small after enabling the inverter pulses that no motor is detected. Note: in the case of vector control and an induction motor, this alarm is followed by fault F07902. Remedy: check the motor feeder cables. reduce the threshold value (p2179), e.g. for synchronous motors. check the voltage boost of the U/f control (p1310). carry out a standstill measurement to set the stator resistance (p0350).
F07936 Drive: load failure	Cause: The load monitoring has detected a load failure. Remedy: check the sensor. if necessary, deactivate the load monitoring (p2193).
F07950 (A) Motor parameter incorrect	Cause: The motor parameters were incorrectly entered while commissioning (e.g. p0300 = 0, no motor). Fault value (r0949, interpret decimal): Parameter number involved. Remedy: Compare the motor data with the rating plate data and if required, correct.
A07960 Drive: Incorrect friction characteristic	Cause: The friction characteristic is incorrect. Alarm value (r2124, interpret decimal): 1538: The friction torque is greater than the maximum from the upper effective torque limit (p1538). 1539: The friction torque is less than the minimum from the lower effective torque limit (p1539). 3820 … 3829: Incorrect parameter number. The speeds entered do not correspond to the condition 0.0 < p3820 < p3821 < ... 3830 … 3839: Incorrect parameter number. The torques entered do not correspond to the condition 0 <= p3830... Remedy: Fulfill the conditions for the friction characteristic. For alarm value = 1538: Check the upper effective torque limit (e.g. in the field weakening range). For alarm value = 1539: Check the lower effective torque limit. For alarm value = 3820 … 3839: Fulfill the conditions to set the parameters of the friction characteristic.
A07961 Drive: Friction characteristic record activated	Cause: The automatic friction characteristic record is activated. The friction characteristic is recorded at the next switch-on command. Remedy: Not necessary. The alarm disappears automatically after the friction characteristic record has been successfully completed or deactivated.
F07963 Drive: Friction characteristic record interrupted	Cause: The conditions to record the friction characteristic are not fulfilled. Fault value (r0949): 0046: Missing enable signals. 1082, 1084, 1087: Highest speed value to be approached is greater than maximum speed. 1110: Negative direction selected and inhibited. 1111: Positive direction selected and inhibited. 1198: Selected direction inhibited. 1300: Control mode (p1300) not set to closed-loop speed control. 1910: Motor data identification activated. 3840: Friction characteristic incorrect. Remedy: Fulfill the conditions to record the friction characteristic. For fault value = 0046: establish missing enable signals. For fault value = 1082…1087: Select the highest speed value to be approached (p3829) less than maximum speed. For fault value = 1110, 1111, 1198: Enable the permitted direction. For fault value = 3845: Activate the friction characteristic record (p3845).
F07967 Drive: Incorrect pole position identification	Cause: A fault has occurred during the pole position identification routine. Remedy: Carry out a POWER ON.
F07968 Drive: Lq-Ld measurement incorrect	Cause: A fault has occurred during the Lq-Ld measurement. Fault value (r0949): 10: Stage 1: Ratio between measured current and zero current too low. 12: Stage 1: Maximum current exceeded. 15: Second harmonic too low. 16: Drive converter too small for measuring technique. 17: Abort due to pulse inhibit. Remedy: For fault value = 10: Check motor connection, replace power unit, deactivate technique (p1909). For fault value = 12: Check whether motor data is correct, deactivate technique. For fault value = 16: Deactivate technique. For fault value = 17: Repeat technique.
F07969 Drive: Incorrect pole position identification	Cause: A fault has occurred during the pole position identification routine. Fault value (r0949): 1: Current controller limited. 2: Motor shaft locked. 10, 11: Ratio between measured current and zero current too low. 12, 13: Maximum current exceeded. 16: Drive converter too small. 20: Pole position identification requested with motor shaft rotating. Remedy: For fault value = 1: Check motor connection/data, replace power unit. For fault value = 2: Bring motor to no-load condition. For fault value = 10, 11: Increase value for p0325/p0329, check motor connection. For fault value = 12: Reduce value for p0325/p0329. For fault value = 20: Ensure motor shaft is absolutely stationary.
A07980 Drive: Rotating measurement activated	Cause: The rotating measurement (automatic speed controller optimization) is activated and carried out at next switch-on. Note: During rotating measurement, parameters cannot be saved (p0971). Remedy: Not necessary. The alarm disappears automatically after completion.
A07981 Drive: Enable signals for the rotating measurement missing	Cause: The rotating measurement cannot be started due to missing enable signals. Enable signals for ramp-function generator or speed controller integrator missing. Remedy: acknowledge faults that are present. establish missing enable signals.
F07983 Drive: Rotating measurement saturation characteristic	Cause: A fault has occurred while determining the saturation characteristic. Fault value (r0949): 1: Speed did not reach steady-state. 2: Rotor flux did not reach steady-state. 5: Field weakening active. 6, 7, 8: Speed setpoint not able to be approached (limitings active). 10: Load torque too high. Remedy: For fault value = 1: De-select rotating measurement, enter moment of inertia p0342, re-calculate speed controller. For fault value = 1…4: Increase measuring speed, check motor parameters. For fault value = 9, 10: Measurement carried out where load torque is too high. Select more suitable operating point.
F07984 Drive: Speed controller optimization, moment of inertia	Cause: A fault has occurred while identifying the moment of inertia. Fault value (r0949): 1 (Speed not steady), 2-7 (Setpoint not reached due to limits), 8 (Torque difference too low), 11 (Identified inertia not plausible). Remedy: For fault value = 1: Check motor parameters, moment of inertia. For fault value = 8: Total drive moment of inertia is far higher than that of the motor. For fault value = 11: Reduce moment of inertia (p0341).
F07985 Drive: Speed controller optimization (oscillation test)	Cause: A fault has occurred during the vibration test. Fault value (r0949): 1 (Speed not steady), 2-4 (Limits active), 5 (Torque limits too low). Remedy: For fault value = 1: Check motor parameters, moment of inertia, carry out motor data ID. For fault value = 5: Increase torque limits (p1520, p1521). For fault value = 6: Reduce dynamic factor (p1967), disable vibration test.
F07986 Drive: Rotating measurement ramp-function generator	Cause: During rotating measurements, problems with the ramp-function generator occurred (e.g. directions inhibited). Remedy: Enable the direction (p1110 or p1111).
F07988 Drive: Rotating measurement, no configuration selected	Cause: When configuring the rotating measurement (p1959), no function was selected. Remedy: Select at least one function for automatic optimization of the speed controller (p1959).
F07990 Drive: Incorrect motor data identification	Cause: A fault has occurred during the identification routine. Fault value (r0949): 1 (Current limit), 2-9 (Resistance/Reactance outside expected range), 10 (Incorrect connection), 11 (Shaft rotates), 12 (Ground fault), 40 (Identification errors). Remedy: Check motor data entry (p0300..p0311). Check connection type (star-delta). For value 11: Deactivate oscillation monitoring. For value 12: Check power cable connections, check motor.
A07991 (N) Drive: Motor data identification activated	Cause: The motor data identification routine is activated and carried out at next switch-on. Remedy: Not necessary.
A07994 (F, N) Drive: motor data identification not performed	Cause: The “vector control” mode has been selected and a motor data identification has still not been performed. Remedy: Perform motor data identification (see p1900). if required, parameterize “U/f control” (p1300 < 20).
F08010 (N, A) CU: Analog-to-digital converter	Cause: The analog-to-digital converter on the Control Unit has not supplied any converted data. Remedy: check the power supply. replace Control Unit.
F08501 (N, A) PROFINET: Setpoint timeout	Cause: The reception of setpoints from PROFINET has been interrupted (bus connection, controller switched off/STOP). Remedy: Restore the bus connection and set the controller to RUN. if error repeated, check update time set in bus configuration.
F08502 (A) PROFINET: Monitoring time sign-of-life expired	Cause: The monitoring time for the sign-of-life counter has expired. Connection interrupted. Remedy: carry out a POWER ON (switch-off/switch-on). contact Technical Support.
A08511 (F) PROFINET: Receive configuration data invalid	Cause: The drive unit did not accept the receive configuration data. Alarm value: 2 (Too many PZD data words), 3 (Uneven bytes), 501 (PROFIsafe parameter error), 502 (PROFIsafe telegram mismatch). Remedy: For alarm value = 2: check the number of data words. For alarm value = 501: check the set PROFIsafe address (p9610). For alarm value = 502: Check the enable of F-DI (p9501.30).
A08526 (F) PROFINET: No cyclic connection	Cause: There is no connection to a PROFINET controller. Remedy: Establish the cyclic connection and activate the controller. Check “Name of Station” and “IP of Station”.
A08564 PN/COMM BOARD: syntax error in the configuration file	Cause: A syntax error has been detected in the ASCII configuration file for the Communication Board Ethernet. Remedy: correct the PROFINET interface configuration (p8920 and following) and activate (p8925 = 2). reinitialize the station.
A08565 PROFINET: Consistency error affecting adjustable parameters	Cause: A consistency error was detected when activating the configuration (p8925). Alarm value: 0 (general), 1 (IP config error), 2 (Station name error), 3 (DHCP error). Remedy: check the required interface configuration (p8920 and following). reconfigure the station via the “Edit Ethernet node” screen form.
A08800 PROFIenergy energy-saving mode active	Cause: The PROFIenergy energy-saving mode is active. Remedy: The alarm is automatically withdrawn when the energy-saving mode is exited (command received, or higher-level control STOP).
F13009 Licensing OA application not licensed	Cause: At least one OA application which is under license does not have a license. Remedy: enter and activate the license key (p9920, p9921). deactivate unlicensed OA applications (p4956).
F13100 Know-how protection: Copy protection error	Cause: The know-how protection with copy protection for the memory card is active. Error checking memory card. Fault value: 0 (Not inserted), 1 (Invalid/not Siemens), 12 (OEM input incorrect). Remedy: insert the correct memory card and carry out POWER ON. Deactivate copy protection (p7765).
F13101 Know-how protection: Copy protection cannot be activated	Cause: An error occurred when attempting to activate the copy protection for the memory card. Remedy: insert a valid memory card. Try to activate copy protection again (p7765).
F13102 Know-how protection: Consistency error of the protected data	Cause: An error was identified when checking the consistency of the protected files. Project cannot be run. Fault value xxxx: 1 (Checksum error), 2 (Files not consistent), 3 (Project files inconsistent). Remedy: Replace the project on the memory card. Restore the factory setting and download again.
F30001 Power unit: Overcurrent	Cause: The power unit has detected an overcurrent condition. – closed-loop control incorrectly parameterized. – motor has short-circuit or fault to ground. – power cables not correctly connected or too long. Fault value (r0949): Bit 0 (Phase U), Bit 1 (Phase V), Bit 2 (Phase W), Bit 3 (DC link overcurrent). Remedy: check the motor data. check the motor circuit configuration. check the power cable connections. check the line supply phases.
F30002 Power unit: DC link voltage overvoltage	Cause: The power unit has detected an overvoltage condition in the DC link. – motor regenerates too much energy. – line supply voltage too high. – DC link voltage controller excessive or insufficient. Remedy: increase the ramp-down time (p1121). Activate the DC link voltage controller (p1240, p1280). check the line supply and DC link voltage.
F30003 Power unit: DC link voltage undervoltage	Cause: The power unit has detected an undervoltage condition in the DC link (line supply failure, phase interrupted). Remedy: Check the line supply voltage and phases.
F30004 Power unit: Overtemperature heat sink AC inverter	Cause: The temperature of the power unit heat sink has exceeded the permissible limit value. – insufficient cooling, fan failure. – overload, ambient temperature too high. Remedy: check whether the fan is running. check whether the ambient temperature is in the permissible range. check the motor load. reduce the pulse frequency.
F30005 Power unit: Overload I2t	Cause: The power unit was overloaded (r0036 = 100 %). Permissible rated power unit current exceeded or load duty cycle not maintained. Remedy: reduce the continuous load. adapt the load duty cycle. check the motor and power unit rated currents.
F30011 Power unit: Line phase failure in main circuit	Cause: At the power unit, the DC link voltage ripple has exceeded the permissible limit value. – a line phase has failed. – the 3 line phases are inadmissibly asymmetrical. – fuse ruptured. Remedy: check the main circuit fuses. check the motor feeder cables. Detune the resonant frequency (p1810, p1806).
F30012 Power unit: Temperature sensor heat sink wire breakage	Cause: The connection to a heat sink temperature sensor in the power unit is interrupted. Fault value indicates module slot or specific inverter/rectifier. Remedy: Contact the manufacturer.
F30013 Power unit: Temperature sensor heat sink short-circuit	Cause: The heat sink temperature sensor in the power unit is short-circuited. Remedy: Contact the manufacturer.
F30015 (N, A) Power unit: Phase failure motor cable	Cause: A phase failure in the motor feeder cable was detected (0 A measured in one phase). Remedy: check the motor feeder cables. increase the ramp-up or ramp-down time if drive stalled.
A30016 (N) Power unit: Load supply switched off	Cause: The DC link voltage is too low. Remedy: Under certain circumstances, the AC line supply is not switched on.
F30017 Power unit: Hardware current limit has responded too often	Cause: The hardware current limitation has responded too often. – closed-loop control incorrectly parameterized. – fault in motor or cables. – motor load too high. Remedy: check the motor data and load. check power cable connections. replace power unit.
F30021 Power unit: Ground fault	Cause: The power has detected a ground fault in cables, motor, or CT defective. Remedy: check the power cable connections. check the motor. check the braking resistor.
F30022 Power unit: Monitoring U_ce	Cause: Monitoring of the collector-emitter voltage (U_ce) of the semiconductor has responded (short-circuit, defective semiconductor). Remedy: Check the power unit and replace if necessary.
F30024 Power unit: Overtemperature thermal model	Cause: The temperature difference between the heat sink and chip has exceeded the permissible limit value. – permissible load duty cycle not maintained. – insufficient cooling. Remedy: adapt the load duty cycle. check whether the fan is running. if DC braking is active: reduce braking current.
F30025 Power unit: Chip overtemperature	Cause: The chip temperature of the semiconductor has exceeded the permissible limit value. – permissible load duty cycle not maintained. – insufficient cooling. Remedy: adapt the load duty cycle. check whether the fan is running. check the motor load.
F30027 Power unit: Precharging DC link time monitoring	Cause: The power unit DC link was not able to be precharged within the expected time. 1) There is no line supply voltage connected. 2) The line contactor/line side switch has not been closed. 3) The line supply voltage is too low. 4) Line supply voltage incorrectly set (p0210). 5) The precharging resistors are overheated as there were too many precharging operations per time unit. 6) The precharging resistors are overheated as the DC link capacitance is too high. 7) The DC link has either a ground fault or a short-circuit. 8) Precharging circuit may be defective. Fault value (r0949, interpret binary): yyyyxxxx hex (See manual for detailed bit breakdown). Remedy: In general: check the line supply voltage at the input terminals. check the line supply voltage setting (p0210). wait until the precharging resistors have cooled down. For this purpose, preferably disconnect the infeed unit from the line supply. For 5): carefully observe the permissible precharging frequency (refer to the appropriate Equipment Manual). For 6): check the capacitance of the DC link and, if necessary, reduce it in accordance with the maximum permissible DC link capacitance. For 7): check the DC link for a ground fault or short circuit.
A30030 Power unit: Internal overtemperature alarm	Cause: The temperature inside the drive converter has exceeded the permissible temperature limit. – insufficient cooling, fan failure. – overload. – ambient temperature too high. Remedy: possibly use an additional fan. check whether the ambient temperature is in the permissible range. Notice: This fault can only be acknowledged once the permissible temperature limit minus 5 K has been fallen below.
A30031 Power unit: Hardware current limiting in phase U	Cause: Hardware current limit for phase U responded. The pulsing in this phase is inhibited for one pulse period. – closed-loop control is incorrectly parameterized. – fault in the motor or in the power cables. – the power cables exceed the maximum permissible length. – motor load too high. – power unit defective. Remedy: check the motor data and if required, recalculate the control parameters (p0340 = 3). As an alternative, run a motor data identification (p1910 = 1, p1960 = 1). check the motor circuit configuration (star/delta). check the motor load. check the power cable connections. check the power cables for short-circuit or ground fault. check the length of the power cables.
A30032 Power unit: Hardware current limiting in phase V	Cause: Hardware current limit for phase V responded. The pulsing in this phase is inhibited for one pulse period. – closed-loop control is incorrectly parameterized. – fault in the motor or in the power cables. – the power cables exceed the maximum permissible length. – motor load too high. – power unit defective. Remedy: check the motor data and if required, recalculate the control parameters (p0340 = 3). As an alternative, run a motor data identification (p1910 = 1, p1960 = 1). check the motor circuit configuration (star/delta). check the motor load. check the power cable connections. check the power cables for short-circuit or ground fault. check the length of the power cables.
A30033 Power unit: Hardware current limiting in phase W	Cause: Hardware current limit for phase W responded. The pulsing in this phase is inhibited for one pulse period. – closed-loop control is incorrectly parameterized. – fault in the motor or in the power cables. – the power cables exceed the maximum permissible length. – motor load too high. – power unit defective. Remedy: check the motor data and if required, recalculate the control parameters (p0340 = 3). As an alternative, run a motor data identification (p1910 = 1, p1960 = 1). check the motor circuit configuration (star/delta). check the motor load. check the power cable connections. check the power cables for short-circuit or ground fault. check the length of the power cables.
A30034 Power unit: Internal overtemperature	Cause: The alarm threshold for internal overtemperature has been reached. If the temperature inside the unit continues to increase, fault F30036 may be triggered. – ambient temperature might be too high. – insufficient cooling, fan failure. Remedy: check the ambient temperature. check the fan for the inside of the unit.
F30035 Power unit: Air intake overtemperature	Cause: The air intake in the power unit has exceeded the permissible temperature limit. For air-cooled power units, the temperature limit is at 55 °C. – ambient temperature too high. – insufficient cooling, fan failure. Remedy: check whether the fan is running. check the fan elements. check whether the ambient temperature is in the permissible range.
F30036 Power unit: Internal overtemperature	Cause: The temperature inside the drive converter has exceeded the permissible temperature limit. – insufficient cooling, fan failure. – overload. – ambient temperature too high. Remedy: check whether the fan is running. check the fan elements. check whether the ambient temperature is in the permissible range. Notice: This fault can only be acknowledged once the permissible temperature limit minus 5 K has been fallen below.
F30037 Power unit: Rectifier overtemperature	Cause: The temperature in the rectifier of the power unit has exceeded the permissible temperature limit. – insufficient cooling, fan failure. – overload. – ambient temperature too high. – line supply phase failure. Remedy: check whether the fan is running. check the fan elements. check whether the ambient temperature is in the permissible range. check the motor load. check the line supply phases. Notice: This fault can only be acknowledged after the alarm threshold for alarm A05004 has been undershot.
A30042 Power unit: Fan has reached the maximum operating hours	Cause: The maximum operating time of at least one fan will soon be reached, or has already been exceeded. Alarm value (r2124, interpret binary): Bit 0: heat sink fan will reach the maximum operating time in 500 hours. Bit 1: heat sink fan has exceeded the maximum operating time. Bit 8: internal device fan will reach the maximum operating time in 500 hours. Bit 9: internal device fan has exceeded the maximum operating time. Remedy: For the fan involved, carry out the following: replace the fan. reset the operating hours counter (p0251, p0254).
A30048 Power unit: External fan faulty	Cause: The feedback signal from the external fan indicates a fault. – fan faulty, blocked. – feedback signal inaccurate. Remedy: check the external fan and replace if necessary. if you are using an external fan with feedback signal, check its wiring (X12.2 or X13.2).
A30049 Power unit: Internal fan faulty	Cause: The internal fan has failed. Remedy: Check the internal fan and replace if necessary.
F30051 Power unit: Motor holding brake short circuit detected	Cause: A short-circuit at the motor holding brake terminals has been detected. Remedy: check the motor holding brake for a short-circuit. check the connection and cable for the motor holding brake.
F30052 EEPROM data error	Cause: EEPROM data error of the power unit module. Fault value (r0949, interpret decimal): 0, 2, 3, 4: The EEPROM data read in from the power unit module is inconsistent. 1: EEPROM data is not compatible to the firmware of the Control Unit. Remedy: Replace power unit module.
A30054 (F, N) Power unit: Undervoltage when opening the brake	Cause: When the brake is being opened, it is detected that the power supply voltage is less than 21.4 V. Remedy: Check the 24 V voltage for stability and value.
F30055 Power unit: Braking chopper overcurrent	Cause: An overcurrent condition has occurred in the braking chopper. Remedy: check whether the braking resistor has a short circuit. for an external braking resistor, check whether the resistor may have been dimensioned too small. Note: The braking chopper is only enabled again at pulse enable after the fault has been acknowledged.
A30057 Power unit: Line asymmetry	Cause: Frequencies have been detected on the DC link voltage that would suggest line asymmetry or failure of a line phase. Remedy: check the line phase connection. check the motor feeder cable connections. If there is no phase failure of the line or motor, then line asymmetry is involved. reduce the power in order to avoid fault F30011.
F30059 Power unit: Internal fan faulty	Cause: The internal power unit fan has failed and is possibly defective. Remedy: Check the internal fan and replace if necessary.
A30065 (F, N) Voltage measured values not plausible	Cause: The voltage measurement is not supplying any plausible values. Alarm value (r2124, interpret bitwise binary): Bit 1: Phase U. Bit 2: Phase V. Bit 3: Phase W. Remedy: Deactivate voltage measurement (p0247.0 = 0). Deactivate flying restart with voltage measurement (p0247.5 = 0) and deactivate fast flying restart (p1780.11 = 0).
F30068 Power unit: undertemperature inverter heat sink	Cause: The actual inverter heat sink temperature is below the permissible minimum value. Possible causes: – the power unit is being operated at an ambient temperature that lies below the permissible range. – the temperature sensor evaluation is defective. Remedy: ensure that higher ambient temperatures prevail. replace the power unit.
F30071 No new actual values received from the Power Module	Cause: More than one actual value telegram from the power unit module has failed. Remedy: Check the interface (adjustment and locking) to the power unit module.
F30072 Setpoints can no longer be transferred to the Power Module	Cause: More than one setpoint telegram was not able to be transferred to the power unit module. Remedy: Check the interface (adjustment and locking) to the power unit module.
F30074 (A) Communication error between the Control Unit and Power Module	Cause: Communications between the Control Unit (CU) and Power Module (PM) via the interface no longer possible. The CU may have been withdrawn or is incorrectly inserted. Remedy: For fault value = 0 and 20A hex: Insert the Control Unit on an appropriate Power Module and continue operation. If required, carry out a POWER ON of the Control Unit. For fault value = 1 hex: Carry out a POWER ON of the Control Unit.
F30075 Configuration of the power unit unsuccessful	Cause: A communication error has occurred while configuring the power unit using the Control Unit. The cause is not clear. 0: The output filter initialization was unsuccessful. 1: Activation/deactivation of the regenerative feedback functionality was unsuccessful. Remedy: acknowledge the fault and continue operation. if the fault reoccurs, carry out a POWER ON (switch-off/switch-on). if required, replace the power unit.
F30080 Power unit: Current increasing too quickly	Cause: The power unit has detected an excessive rate of rise in the overvoltage range. – closed-loop control is incorrectly parameterized. – motor has a short-circuit or fault to ground (frame). – U/f operation: Up ramp set too low. – U/f operation: rated current of motor much greater than that of power unit. – power cables are not correctly connected. – power cables exceed the maximum permissible length. – power unit defective. Remedy: check the motor data – if required, carry out commissioning. check the motor circuit configuration (star/delta). U/f operation: Increase up ramp. U/f operation: Check assignment of rated currents of motor and power unit. check the power cable connections. check the power cables for short-circuit or ground fault. check the length of the power cables. replace power unit.
F30081 Power unit: Switching operations too frequent	Cause: The power unit has executed too many switching operations for current limitation. – closed-loop control is incorrectly parameterized. – motor has a short-circuit or fault to ground (frame). – U/f operation: Up ramp set too low. – U/f operation: rated current of motor much greater than that of power unit. – power cables are not correctly connected. – power cables exceed the maximum permissible length. – power unit defective. Remedy: check the motor data – if required, carry out commissioning. check the motor circuit configuration (star/delta) U/f operation: Increase up ramp. U/f operation: Check assignment of rated currents of motor and power unit. check the power cable connections. check the power cables for short-circuit or ground fault. check the length of the power cables. replace power unit.
F30105 PU: Actual value sensing fault	Cause: At least one incorrect actual value channel was detected on the Power Stack Adapter (PSA). The incorrect actual value channels are displayed in the following diagnostic parameters. Remedy: Evaluate the diagnostic parameters. If the actual value channel is incorrect, check the components and if required, replace.
A30502 Power unit: DC link overvoltage	Cause: The power unit has detected overvoltage in the DC link on a pulse inhibit. – device connection voltage too high. – line reactor incorrectly dimensioned. Remedy: check the device supply voltage (p0210). check the dimensioning of the line reactor.
F30600 SI P2: STOP A initiated	Cause: The drive-integrated “Safety Integrated” function on processor 2 has detected an error and initiated a STOP A. – forced checking procedure (test stop) of the safety switch-off signal path on processor 2 unsuccessful. – subsequent response to fault F30611 (defect in a monitoring channel). Remedy: select Safe Torque Off and de-select again. carry out a POWER ON (switch-off/switch-on) for all components. replace Power Module involved. For fault value = 9999: carry out diagnostics for fault F30611.
F30611 (A) SI P2: Defect in a monitoring channel	Cause: The drive-integrated “Safety Integrated” function on processor 2 has detected a fault in the data cross-check between the two monitoring channels and has initiated a STOP F. Remedy: For fault values 1 … 999 described in “Cause”: check the cross data comparison that resulted in a STOP F. carry out a POWER ON (switch-off/switch-on). For fault value = 1000: check the wiring of the F-DI (contact problems). PROFIsafe: Remove contact problems/faults at the PROFIBUS master/PROFINET controller. check the discrepancy time, and if required, increase the value (p9650/p9850). For fault value = 1001, 1002: carry out a POWER ON (switch-off/switch-on). For fault value = 2000, 2001, 2003: check the discrepancy time, and if required, increase the value (p9650/p9850). check the wiring of the F-DI (contact problems). check the causes of the STO selection in r9772. For fault value = 6000 … 6999: Refer to the description of the message values in safety fault F01611. For fault values that are described in “Cause”: carry out a POWER ON (switch-off/switch-on). contact Technical Support. replace Control Unit.
N30620 (F, A) SI P2: Safe Torque Off active	Cause: The “Safe Torque Off” (STO) function has been selected on processor 2 using the input terminal and is active. Note: This message does not result in a safety stop response. Remedy: Not necessary.
F30625 SI P2: Sign-of-life error in safety data	Cause: The drive-integrated “Safety Integrated” function on processor 2 has detected an error in the sign-of-life of the safety data and initiated a STOP A. – there is a communication error between processor 1 and processor 2 or communication has failed. – a time slice overflow of the safety software has occurred. Remedy: select Safe Torque Off and de-select again. carry out a POWER ON (switch-off/switch-on). check whether additional faults are present and if required, perform diagnostics. check the electrical cabinet design and cable routing for EMC compliance.
F30649 SI P2: Internal software error	Cause: An internal error in the Safety Integrated software on processor 2 has occurred. Note: This fault results in a STOP A that cannot be acknowledged. Remedy: carry out a POWER ON (switch-off/switch-on). re-commission the “Safety Integrated” function and carry out a POWER ON. contact Technical Support. replace Control Unit.
F30650 SI P2: Acceptance test required	Cause: The drive-integrated “Safety Integrated” function on processor 2 requires an acceptance test. Note: This fault results in a STOP A that can be acknowledged. Remedy: For fault value = 130: carry out safety commissioning routine. For fault value = 1000: again carry out safety commissioning routine. replace the memory card or Control Unit. Using STARTER, activate the safety parameters for the drive involved. For fault value = 2000: check the safety parameters on processor 2 and adapt the reference checksum (p9899). For fault value = 2003: carry out an acceptance test and generate an acceptance report. For fault value = 2010: check the enable the safety-related brake control on both monitoring channels (p9602 = p9802). For fault value = 9999: carry out diagnostics for the other safety-related fault that is present.
F30651 SI P2: Synchronization with Control Unit unsuccessful	Cause: The drive-integrated “Safety Integrated” function requires synchronization of the safety time slices on processor 1 and processor 2. This synchronization routine was unsuccessful. Note: This fault results in a STOP A that cannot be acknowledged. Remedy: Carry out a POWER ON (switch-off/switch-on).
F30655 SI P2: Align monitoring functions	Cause: An error has occurred when aligning the Safety Integrated monitoring functions on processor 1 and processor 2. No common set of supported SI monitoring functions was able to be determined. – there is a communication error between processor 1 and processor 2 or communication has failed. Note: This fault results in a STOP A that cannot be acknowledged. Remedy: carry out a POWER ON (switch-off/switch-on). check the electrical cabinet design and cable routing for EMC compliance.
F30656 SI P2: Parameter processor 2 parameter error	Cause: When accessing the Safety Integrated parameters for the processor 2 in the non-volatile memory, an error has occurred. Note: This fault results in a STOP A that can be acknowledged. 129: Safety parameters for processor 2 corrupted. 131: Internal software error on processor 1. 255: Internal software error on processor 2. Remedy: re-commission the safety functions. replace the memory card or Control Unit. For fault value = 129: activate the safety commissioning mode (p0010 = 95). start the copy function for SI parameters (p9700 = D0 hex). acknowledge data change (p9701 = DC hex). exit the safety commissioning mode (p0010 = 0). save all parameters (p0971 = 1 or “copy RAM to ROM”). carry out a POWER ON (switch-off/switch-on) for the Control Unit.
F30659 SI P2: Write request for parameter rejected	Cause: The write request for one or several Safety Integrated parameters on processor 2 was rejected. Note: This fault does not result in a safety stop response. Remedy: For fault value = 10, 15, 16, 18: check whether there are faults in the safety function alignment (F01655, F30655) and if required, carry out diagnostics for the faults involved. use a Control Unit that supports the required function. For fault value = 28: use the power unit with the feature “STO via terminals at the Power Module”.
F30662 Error in internal communications	Cause: A module-internal communication error has occurred. Remedy: carry out a POWER ON (switch-off/switch-on). upgrade firmware to later version. contact Technical Support.
F30664 Error while booting	Cause: An error has occurred during booting. Remedy: carry out a POWER ON (switch-off/switch-on). upgrade firmware to later version. contact Technical Support.
F30665 SI P2: System is defective	Cause: A system defect was detected before the last boot or in the actual one. The system might have been rebooted (reset). Fault value (r0949, interpret hexadecimal): 200000 hex, 400000 hex: fault in the actual booting/operation. Remedy: carry out a POWER ON (switch-off/switch-on). upgrade firmware to later version. contact Technical Support. For fault value = 400000 hex: ensure that the Control Unit is connected to the Power Module.
F30682 SI Motion P2: Monitoring function not supported	Cause: The monitoring function enabled in p9301, p9501, p9601 or p9801 is not supported in this firmware version. Note: This message does not result in a safety stop response. Remedy: De-select the monitoring function involved.
A30693 (F) SI P2: Safety parameter settings changed, POWER ON required	Cause: Safety parameters have been changed; these will only take effect following a POWER ON. Notice: All changed parameters of the safety motion monitoring functions will only take effect following a POWER ON. Remedy: execute the function “Copy RAM to ROM”. carry out a POWER ON (switch-off/switch-on).
A30788 Automatic test stop: wait for STO deselection via SMM	Cause: The automatic test stop was not able to be carried out after powering up. Possible causes: – the STO function is selected via Safety Extended Functions. – a safety message is present, that resulted in a STO. Remedy: Deselect STO via Safety Extended Functions. remove the cause of the safety messages and acknowledge the messages. The automatic test stop is performed after removing the cause.
N30800 (F) Power unit: Group signal	Cause: The power unit has detected at least one fault. Remedy: Evaluate the other messages that are presently available.
F30802 Power unit: Time slice overflow	Cause: A time slice overflow has occurred. Remedy: carry out a POWER ON (switch-off/switch-on) for all components. upgrade firmware to later version. contact Technical Support.
F30804 (N, A) Power unit: CRC	Cause: A checksum error (CRC error) has occurred for the power unit. Remedy: carry out a POWER ON (switch-off/switch-on) for all components. upgrade firmware to later version. contact Technical Support.
F30805 Power unit: EEPROM checksum error	Cause: Internal parameter data is corrupted. Fault value (r0949, interpret hexadecimal): 01: EEPROM access error. 02: Too many blocks in the EEPROM. Remedy: Replace the module.
F30809 Power unit: Switching information not valid	Cause: The last switching status word in the setpoint telegram is identified by the end ID. Such an end ID was not found. Remedy: carry out a POWER ON (switch-off/switch-on) for all components. upgrade firmware to later version. contact Technical Support.
A30810 (F) Power unit: Watchdog timer	Cause: When booting it was detected that the cause of the previous reset was an SAC watchdog timer overflow. Remedy: carry out a POWER ON (switch-off/switch-on) for all components. upgrade firmware to later version. contact Technical Support.
F30850 Power unit: Internal software error	Cause: An internal software error has occurred in the power unit. Remedy: replace power unit. if required, upgrade the firmware in the power unit. contact Technical Support.
F30903 Power unit: I2C bus error occurred	Cause: Communications error with an EEPROM or an analog/digital converter. – internal software error. – module fault. Remedy: upgrade firmware to later version. replace the module.
A30920 (F) Temperature sensor fault	Cause: When evaluating the temperature sensor, an error occurred. 1: Wire breakage or sensor not connected. 2: Measured resistance too low. Remedy: make sure that the sensor is connected correctly. replace the sensor.
F30950 Power unit: Internal software error	Cause: An internal software error has occurred. Remedy: if necessary, upgrade the firmware in the power unit to a later version. contact Technical Support.
A30999 (F, N) Power unit: Unknown alarm	Cause: An alarm occurred on the power unit that cannot be interpreted by the Control Unit firmware. This can occur if the firmware on this component is more recent than the firmware on the Control Unit. Remedy: replace the firmware on the power unit by an older firmware version (r0128). upgrade the firmware on the Control Unit (r0018).
F35950 TM: Internal software error	Cause: An internal software error has occurred. Remedy: if necessary, upgrade the firmware in the Terminal Module to a later version. contact Technical Support.
A50001 (F) PROFINET configuration error	Cause: A PROFINET controller attempts to establish a connection using an incorrect configuring telegram. The “Shared Device” function has been activated (p8929 = 2). Remedy: Check the configuration of the PROFINET controllers as well as the p8929 setting.
A50010 (F) PROFINET: Consistency error affecting adjustable parameters	Cause: A consistency error was detected when activating the configuration (p8925) for the PROFINET interface. The currently set configuration has not been activated. 0: general consistency error. 1: error in the IP configuration (IP address, subnet mask or standard gateway). 2: Error in the station names. 3: DHCP was not able to be activated, as a cyclic PROFINET connection already exists. 4: a cyclic PROFINET connection is not possible as DHCP is activated. Remedy: check the required interface configuration (p8920 and following), correct if necessary, and activate (p8925). OR reconfigure the station via the “Edit Ethernet node” screen form (e.g. with STARTER commissioning software).
A50011 (F) Ethernet/IP: configuration error	Cause: An EtherNet/IP controller attempts to establish a connection using an incorrect configuring telegram. The telegram length set in the controller does not match the parameterization in the drive device. Remedy: Check the set telegram length.
A50020 (F) PROFINET: Second controller missing	Cause: The PROFINET function “Shared Device” has been activated (p8929 = 2). However, only the connection to a PROFINET controller is present. Remedy: Check the configuration of the PROFINET controllers as well as the p8929 setting.
F50510 FBLOCKS: Logon of the runtime group rejected	Cause: When the runtime groups of the free function blocks attempted to log on with the sampling time management, the logon of at least one runtime group was rejected. Too many different hardware sampling times may have been assigned to the free function blocks. Remedy: check number of available hardware sampling times (T_sample < 8 ms) (r7903).
F50511 FBLOCKS: Memory no longer available for free function blocks	Cause: When the free function blocks were activated, more memory was requested than was available on the Control Unit. Remedy: Not necessary.
A50513 (F) FBLOCKS: Run sequence value already assigned	Cause: An attempt was made to assign a run sequence value already assigned to a function block on this drive object to another additional function block on the same drive object. Remedy: Set another value that is still available on this drive object for the run sequence.
A50517 FBLOCKS: Int. meas. active	Cause: A Siemens internal measurement has been activated. Remedy: Carry out a POWER ON (switch-off/switch-on) for the Control Unit involved.
F50518 FBLOCKS: Sampling time of free runtime group differs at download	Cause: In the STARTER/SCOUT project that was downloaded, the hardware sampling time of a free runtime group was set to a value that was either too low or too high. Remedy: Correctly set the sampling time of the runtime group. If required, take all of the blocks from the runtime group.