Siemens SIMOCODE 3UF Programming And Operating Manual

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SIMOCODE PRO V PN FDI

Industrial Controls

Motor Management and Control

Devices SIMOCODE 3UF

SIMOCODE PRO V PN FDI

Programming and Operating Manual

05/2020

A5E44499659002A/RS-AA/001

Security information

Information on data

protection

SIMOCODE pro - General

Identification

Device Configuration

Device Parameters

Motor Protection

Motor Control

Monitoring Functions

Inputs

Outputs

Standard Functions

Logic Modules

Operator Panel with Display

PROFIenergy

Analog Value Recording

Online Settings and Displays

Troubleshooting Download

Failures

Table of Contents

Summary of Contents for Siemens SIMOCODE 3UF

Page 1 Security information Information on data protection SIMOCODE pro - General Industrial Controls Identification Device Configuration Motor Management and Control Devices SIMOCODE 3UF Device Parameters SIMOCODE PRO V PN FDI Motor Protection Motor Control Programming and Operating Manual Monitoring Functions Inputs...
Page 2 Note the following: WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems.
Page 3: Table Of Contents
Table of contents Security information ..........................9 Information on data protection ....................... 11 SIMOCODE pro - General ........................13 Identification ............................15 Identification ..........................15 Marking ........................... 15 Device ............................. 15 Device Configuration ..........................17 Device Configuration....................... 17 Module Configuration ......................17 Device Parameters ..........................
Page 4 Table of contents 8.3.3 Auxiliary Control Inputs ......................39 8.3.4 Timings ........................... 40 Monitoring Functions ..........................43 Earth Fault ..........................43 9.1.1 Internal earth-fault monitoring when using a current measuring module or a 1st generation current / voltage measuring module ..............43 9.1.2 Internal earth-fault monitoring when using a current measuring module or a 2nd generation current / voltage measuring module ..............
Page 5 Table of contents 11.6.1 OPC-UA Send Data ........................ 82 11.7 Cyclic Send Data ........................82 11.7.1 Cyclic Send Data ........................82 11.7.2 Cyclic Send Data Byte 0 ......................84 11.7.3 Cyclic Send Data Byte 1 ......................84 11.7.4 Cyclic Send Data Byte 2-3 (4-9) ..................... 84 Standard Functions ..........................
Page 6 Table of contents 13.1.6.2 Input Table 5 (3I - 1O) ......................112 13.1.6.3 Logic Table 5 (3I - 1O) ......................113 13.1.7 Table 6 (3I - 1O) ........................113 13.1.7.1 Table 6 (3I - 1O) ........................113 13.1.7.2 Input Table 6 (3I - 1O) ......................113 13.1.7.3 Logic Table 6 (3I - 1O) ......................
Page 7 Table of contents 13.10 Analog Multiplexer ........................ 129 13.11 Pulse width modulator......................130 Operator Panel with Display ........................ 133 PROFIenergy ............................137 Analog Value Recording........................139 16.1 Analog Value Recording - Settings ..................139 Online Settings and Displays ....................... 141 17.1 Error Buffer - Error Protocol ....................
Page 8 Table of contents SIMOCODE PRO V PN FDI Programming and Operating Manual, 05/2020, A5E44499659002A/RS-AA/001...
Page 9: Security Information
Siemens’ products and solutions undergo continuous development to make them more secure. Siemens strongly recommends that product updates are applied as soon as they are available and that the latest product versions are used. Use of product versions that are no longer supported, and failure to apply the latest updates may increase customer’s exposure...
Page 10 Security information SIMOCODE PRO V PN FDI Programming and Operating Manual, 05/2020, A5E44499659002A/RS-AA/001...
Page 11: Information On Data Protection
Information on data protection Siemens observes standard data protection principles, in particular the principle of privacy by design. For this product this means: This product does not process or store any personal data, only technical function data (e.g. time stamps). If you link this data with other data (e.g. shift schedules) or store personal data on the same storage medium (e.g.
Page 12 Information on data protection SIMOCODE PRO V PN FDI Programming and Operating Manual, 05/2020, A5E44499659002A/RS-AA/001...
Page 13: Simocode Pro - General
SIMOCODE pro - General General There is a help topic for every SIMOCODE pro V PN FDI package dialog in the online help. The topics are to some extent very comprehensive. Depiction of preset values: Preset values are underlined or have an additional line: "Defaults". Note Observe the operating instructions/manuals of the components used.
Page 14 SIMOCODE pro - General SIMOCODE PRO V PN FDI Programming and Operating Manual, 05/2020, A5E44499659002A/RS-AA/001...
Page 15: Identification
Overview of the device-specific information. This overview can, for example, be used for system documentation. Information Meaning Manufacturer Name of the manufacturer (SIEMENS) Order number Order number (MLFB) of tn device (MLFB = Maschinen Lesbare Fabrikate-Bezeichnung; corresponds to the order number) Short code...
Page 16 Identification 4.3 Device Information Meaning HW Release Corresponds to the I & M value: Hardware Revision (provided by the manufacturer) FW Release Corresponds to the I & M value: Software Revision (provided by the manufacturer) Revision counter Corresponds to the I & M value: Rev Counter IaM version Corresponds to the I &...
Page 17: Device Configuration
Device Configuration Device Configuration This dialog provides an overview of the device configuration. It can, for example, be used for system documentation. Basic unit SIMOCODE pro V PN as the basic unit. Version Firmware revision level for the selected basic unit: ●...
Page 18 Device Configuration 5.2 Module Configuration ● Temperature module 1/2. Choose here whether or not a temperature module is to be used for temperature monitoring (e.g., for monitoring the motor windings, motor bearings, coolant temperature, or gearbox temperature). Temperature module 2 can only be activated if temperature module 1 has been configured.
Page 19: Device Parameters
Device Parameters Device Parameters PROFINET Parameters MAC address Each PROFINET device is assigned a globally unique device identifier at the factory. This 6- byte long device identifier is the MAC address. The MAC address is divided up as follows: ● 3 bytes manufacturer's ID and ●...
Page 20 Device Parameters 6.1 Device Parameters ● IP address, subnet screen To allow a PROFINET device to be addressed as a node on Industrial Ethernet, this device also requires an IP address that is unique within the network. The IP address is made up of 4 decimal numbers with a range of values from 0 through 255.
Page 21: Diagnosis
Device Parameters 6.2 Diagnosis ● Cyclic update interval: Enter a value for the cyclic update interval when "Activate NTP synchronization" check box is selected: 1... 86400 s (default value: 10 s). ● Time shift: Enter a value for the time shift: -1440 min ... +1440 min (default value: 0 min). If you would like to set up the time in device to UTC time (recommended) please set first +/- offset in NTP Time shift parameter in minutes respective to current time zone and then upload the data to the device.
Page 22 Device Parameters 6.2 Diagnosis SIMOCODE PRO V PN FDI Programming and Operating Manual, 05/2020, A5E44499659002A/RS-AA/001...
Page 23: Motor Protection
Motor Protection Overload Protection Overload Protection SIMOCODE pro protects 3-phase and AC motors in compliance with IEC 60947-4-1. The tripping class can be set to 8 different settings ranging from class 5 to class 40. Therefore, the switch-off time can be adjusted very precisely to the power-up time of the motor which allows the motor to be better used to capacity.
Page 24 Motor Protection 7.1 Overload Protection Transformation Ratio - Active When using an interposing transformer, of if there is multiple looping of the main current cables through the current/voltage measuring module, you can enter the transformation ratio of the interposing transformer. Activate the checkbox if you wish to use this option.
Page 25 Motor Protection 7.1 Overload Protection Transformation Ratio - Active When using an interposing transformer, of if there is multiple looping of the main current cables through the current/voltage measuring module, you can enter the transformation ratio of the interposing transformer. Activate the checkbox if you wish to use this option.
Page 26 Motor Protection 7.1 Overload Protection Response in case of overload The response of SIMOCODE pro can be additionally adjusted in case of overload. Note With motors for EEx e applications the response must remain set to "tripping"! Cooling down period (CiR) The cooling down period is the specified time after which an overload tripping can be reset.
Page 27 Motor Protection 7.1 Overload Protection Response at Pre-Warning Level (I>115%I The response of SIMOCODE pro can be additionally adjusted in case of overload (disabled, signaling, warning). Delay pre-warning (CiR) The "delay" parameter (default: 0.5 s) is used to determine the interval during which the pre- warning level (1.15 x I ) must be constantly exceeded before SIMOCODE pro executes the desired response.
Page 28: Unbalance Protection
Motor Protection 7.2 Unbalance Protection Unbalance Protection Unbalance Protection The extent of the phase unbalance can be monitored and transmitted to the control system. A definable and delayable response can be tripped when an adjustable level is exceeded. If the phase unbalance is greater than 50 %, a reduction of the tripping time according to the overload characteristic curve takes place automatically since the heat development in motors increases with asymmetric conditions.
Page 29: Stalled Rotor
Motor Protection 7.3 Stalled Rotor Stalled Rotor Stalled Rotor After the motor current exceeds an adjustable stall limit (current limit), a definable and delayable response can be parameterized in SIMOCODE pro. For example, the motor can be set to be tripped quickly independently of the overload protection. The stall protection is only active after the parameterized class interval has elapsed, e.g.
Page 30: Thermistor
Motor Protection 7.4 Thermistor Thermistor Thermistor Thermistor protection is based on a direct temperature measurement in the motor via binary PTC thermistors which can be connected to either Basic Unit 1 (BU1) or Basic Unit 2 (BU2). Thermistor protection is used for: ●...
Page 31: Motor Control
Motor Control Motor Control Motor Control You can select and enable control stations according to requirements here. Control Station 8.2.1 Control Station Control Station Control stations are places from which control commands can be given to the motor. The Control Stations function block is used for the management, switching and prioritization of these different control stations.
Page 32: Operation Mode Selector
Motor Control 8.2 Control Station 8.2.2 Operation Mode Selector Operation Mode Selector You can use the control stations either individually or in combination. There are four different operating modes you can switch between: ● Local 1 ● Local 2 ● Local 3 ●...
Page 33: Local Control [Lc]
Motor Control 8.2 Control Station The different operating modes for enabling the control stations can be used to specify the switch authorizations for the individual control stations: ● Local Control [LC] ● PLC/DCS[PN] ● PC/OPC-UA ● Operator Panel [OP]. Only the following are active: ●...
Page 34: Pc - Opc-Ua [Hmi]
Motor Control 8.2 Control Station 8.2.5 PC - OPC-UA [HMI] PC - OPC-UA [HMI] This control station is primarily intended for switching commands on an arbitrary PC that, along with the automation system, is used as a second master on PROFINET or that, as a client, accesses the data made available by SIMOCODE pro, as server, via OPC-UA.
Page 35: Releases
Motor Control 8.2 Control Station 8.2.7 Releases 8.2.7.1 Releases Releases Releases for the control commands "ON" and "OFF", which must be activated, are assigned to each mode of operation for every single control station. This means that depending on the operating mode, it can be specified for each control station whether the motor may only be switched on, off or both on and off.
Page 36: Control Function
Motor Control 8.3 Control Function Control Function 8.3.1 Control Functions Control functions (e.g. direct starters, reversing starters) are used for controlling load feeders. They have the following important features: ● Monitoring the switch-on/switch-off sequence ● Monitoring the ON/OFF status ● Switching off in case of a fault. For monitoring these statuses, SIMOCODE pro uses the auxiliary control input "Feedback ON", which is usually derived directly from the current flow in the main circuit via the current measurement modules.
Page 37: Operating Mode
Motor Control 8.3 Control Function 8.3.2 Operating Mode Operating Mode Parameter Description Non-maintained command mode • Deactivated: The control command on the corresponding input of the control stations "ON <, ON <<, ON >,ON >>" is saved. It can only be revoked by an "OFF" control command from the corresponding control station.
Page 38 Motor Control 8.3 Control Function Parameter Description DM-F LOCAL/DM-F PROFIsafe - • Deactivated: separate function from the control A safety-oriented tripping via the DM-F module also function affects the SIMOCODE pro control function, so that the contactor control is always tripped, too. This setting is selected for applications where a safety-oriented tripping directly affects the motor controlled by SIMOCODE pro.
Page 39: Auxiliary Control Inputs
Motor Control 8.3 Control Function 8.3.3 Auxiliary Control Inputs Auxiliary Control Inputs The auxiliary control input "Feedback ON" is used for monitoring the following operations: ● Switch-on/switch-off sequence ● ON/OFF status ● Switching off in case of a fault ● Additional (advanced) status information for the "Positioner" or "Solenoid Valve" control function: –...
Page 40: Timings
Motor Control 8.3 Control Function 8.3.4 Timings Timings Parameter Description Feedback time (CiR) SIMOCODE pro monitors the status of the feeder (ON or OFF) via FB ON If the status of FB ON changes - without a corresponding switching command - the trip feedback (FB) switches off the feeder.
Page 41 Motor Control 8.3 Control Function Parameter Description Change-over pause (CiR) In the "Dahlander" and "Pole-changing starter" control functions, switching from the fast speed to the slow one can be delayed with the time configured. In the "Star-Delta" control function, the change-over pause time extends the time between switching off the star contactor and switching on the delta contactor by the time configured.
Page 42 Motor Control 8.3 Control Function SIMOCODE PRO V PN FDI Programming and Operating Manual, 05/2020, A5E44499659002A/RS-AA/001...
Page 43: Monitoring Functions
Monitoring Functions Earth Fault 9.1.1 Internal earth-fault monitoring when using a current measuring module or a 1st generation current / voltage measuring module Internal earth-fault monitoring via current measuring modules or current / voltage measuring modules is only possible for motors with a 3-phase connection in networks that are either grounded directly or with low impedance.
Page 44: Internal Earth-Fault Monitoring When Using A Current Measuring Module Or A 2Nd Generation Current / Voltage Measuring Module
Monitoring Functions 9.1 Earth Fault 9.1.2 Internal earth-fault monitoring when using a current measuring module or a 2nd generation current / voltage measuring module Internal earth-fault monitoring via current measuring modules or current / voltage measuring modules is only possible for motors with a 3-phase connection in networks that are either grounded directly or with low impedance.
Page 45: External Earth Fault Monitoring
Monitoring Functions 9.1 Earth Fault Response to trip level Signaling, tripping Delay Setting range: 0 - 25.5 s (0.5 s) Response to warning level Disabled, signaling, warning Delay Setting range: 0 - 25.5 s (0.1 s) 9.1.3 External Earth Fault Monitoring External Earth Fault Monitoring External Earth-fault Monitoring via a residual current transformer and an Earth-fault Module is normally used in the following cases:...
Page 46 Monitoring Functions 9.1 Earth Fault If yes, select: ● The 3UF7500 earth-fault module (in conjunction with the 3UL22 residual current transformer) or ● The 3UF7510 earth-fault module (in conjunction with the 3UL23 residual current transformer) ● The multifunction module (only with SIMOCODE pro S basic unit in conjunction with the 3UL23 residual current transformer).
Page 47 Monitoring Functions 9.1 Earth Fault Trip level (CiR), warning level (CiR) You can parameterize two different response levels (trip level, warning level) for earth-fault current monitoring. If the earth-fault current exceeds the set response level, the earth-fault monitoring function responds. Trip level: 30 mA ...
Page 48 Monitoring Functions 9.1 Earth Fault Response at warning level Here you can set how SIMOCODE pro should respond if the warning level is undershot. Response Warning level Disabled Signaling Warning Tripping Delay 0 - 25.5 s Preset 0.1 s Additional delay of the residual current transformer delay Hysteresis Here you can set the hysteresis for the earth-fault current: Hysteresis earth-fault current...
Page 49: Current Limits
Monitoring Functions 9.2 Current Limits Current Limits 9.2.1 Current Limits Current Limits Current limit monitoring is used for process monitoring, independent of overload. SIMOCODE pro supports two-phase monitoring of the motor current for freely-selectable upper and lower current limits. The response of SIMOCODE pro when an pre-warning or trip level has been reached can be freely parameterized and delayed.
Page 50: I> (Upper Limit)
Monitoring Functions 9.2 Current Limits 9.2.2 I> (upper limit) Trip level (CiR), warning level (CiR) When monitoring Current Limits I> (upper limit), 2 different response levels, I> (upper limit) trip level and I> (upper limit) warning level, can be parameterized and monitored. If the current of one or more phases exceeds the response level, Current Limits monitoring is activated.
Page 51: I< (Lower Limit)
Monitoring Functions 9.2 Current Limits 9.2.3 I< (lower limit) Trip level (CiR), warning level (CiR) When monitoring Current Limits I< (lower limit), two different response levels (trip level/warning level) can be parameterized and monitored. Current Limit monitoring is activated if the current of the phases (Imax) drops below the response level. Trip level 0 to 1020 % of I in 4 % increments...
Page 52: Voltage U< (Lower Limit)
Monitoring Functions 9.3 Voltage U< (lower limit) Voltage U< (lower limit) Monitoring voltage U< (lower limit) SIMOCODE pro supports two-phase undervoltage monitoring of either a three-phase network or a one-phase network for freely selectable limits. The response of SIMOCODE on reaching a pre-warning level or trip level can be freely parameterized and delayed.
Page 53 Monitoring Functions 9.3 Voltage U< (lower limit) Response, Delay (CiR) at trip level Here you can set: ● how SIMOCODE pro should respond when the trip level is undershot ● the delay time. Response Trip level Disabled Signaling Warning Tripping Delay 0 to 25.5 s Preset...
Page 54: Cos-Phi< (Lower Limit)
Monitoring Functions 9.4 Cos-Phi< (lower limit) Cos-Phi< (lower limit) Cos-Phi< (lower limit) Cos phi monitoring monitors the load condition of inductive loads. The main field of application is for asynchronous motors in 1-phase or 3-phase networks with loads that fluctuate significantly. The power factor fluctuates more than either the motor current or the active power does, particularly in the low-end performance area of a motor.
Page 55: Active Power
Monitoring Functions 9.5 Active Power Response at Warning Level Here you can set how SIMOCODE pro should respond if the set Warning Level is undershot: Response Warning level Disabled Signaling Warning Tripping Range 0 to 25.5 s Preset 0.5 s Active Power 9.5.1 Active Power...
Page 56 Monitoring Functions 9.5 Active Power Warning Level 0 to 4294967.295 kW • P> (upper limit) • P< (lower limit) Trip level and warning level activity The trip level/warning level is only effective when the motor is running, the start-up procedure has been completed and there is no Test Position Feedback (TPF) (run+). Response, Delay (CiR) at trip level: Here you can set: ●...
Page 57: P> (Upper Limit)
Monitoring Functions 9.5 Active Power 9.5.2 P> (upper limit) Monitoring Active Power P> (upper limit) SIMOCODE pro can indirectly monitor the state of a device or system via the Active Power. For example, by monitoring the Active Power of a pump motor, conclusions can be drawn from the Active Power level about the flow rate or fluid fill levels.
Page 58: P< (Lower Limit)
Monitoring Functions 9.5 Active Power Response, Delay (CiR) at warning level Here you can set: ● how SIMOCODE pro should respond if the set warning level is overshot ● the delay time. Response Warning level Disabled Signaling Warning Tripping Delay 0 to 25.5 s Preset 0.5 s...
Page 59 Monitoring Functions 9.5 Active Power Response, Delay (CiR) at trip level Here you can set: ● how SIMOCODE pro should respond if the set trip level is undershot ● the delay time. Response Trip level Disabled Signaling Warning Tripping Delay 0 to 25.5 s Preset 0.5 s...
Page 60: 0-20 Ma - 4-20 Ma
Monitoring Functions 9.6 0-20 mA - 4-20 mA 0-20 mA - 4-20 mA 9.6.1 0-20 mA - 4-20 mA Monitoring 0/4-20 mA SIMOCODE pro supports two-phase monitoring of the analog signals of a transducer standard 0/4-20 mA output signal. The analog signals are fed to the "0/4-20mA" function block via the Analog Module: Trip Level (CiR), Warning Level (CiR) With 0/4-20 mA Monitoring, you can parameterize two different response levels (Trip...
Page 61 Monitoring Functions 9.6 0-20 mA - 4-20 mA Response, Delay (CiR) at Trip Level Here you can set: ● how SIMOCODE pro should respond if the set Trip Level is either undershot or overshot ● the delay time. Response Trip level Disabled Signaling Warning...
Page 62: Operating Hours Monitoring
Monitoring Functions 9.7 Operating Hours Monitoring Marking The marking is stored in the device and allocated and displayed in the Faults/Warnings online dialog. Optional marking for designating the signal, e.g. "0/4-20>"; range: up to 10 characters. Hysteresis for 0/4-20 mA Here you can set the fluctuation range for the analog signal: Hysteresis for the analog signal 0 to 15 % in 1% increments...
Page 63: Motor Operating Hours Monitoring
Monitoring Functions 9.7 Operating Hours Monitoring 9.7.2 Motor Operating Hours Monitoring Motor Operating Hours Monitoring The Motor Operating Hours monitoring function enables the operating hours (service life) of a motor to be recorded so that motor maintenance prompts can be generated in good time as applicable.
Page 64: Motor Start Limitation
Monitoring Functions 9.7 Operating Hours Monitoring Response Here you can determine the response for when the Permissible Motor Stop Time is exceeded: Response Level Disabled Signaling Warning Tripping 9.7.4 Motor Start Limitation Motor Start Limitation Motor Start Limitation can protect system parts (motor, switching devices such as soft starters, and converters) from too many start processes within a parameterizable time frame and, thus, prevent damage.
Page 65: Temperature
Monitoring Functions 9.8 Temperature Response at Overshoot Here you can set the response for when the Number of Starts within the Time Range for Starts has been overshot. Response Level Disabled Signaling Warning Tripping Interlocking Time (CiR) Interlocking Time: 0 - 65535 If a new start command is issued within the time range for starts after the last permissible start, this new start command will no longer be executed if the setting "Response at Overshoot Tripping"...
Page 66 Monitoring Functions 9.8 Temperature Temperature Description Response Warning Level T> Set response when the temperature is overshot (see the following table "response") Marking Warning Level T> No parameters. Optional marking for designating the signal, e.g. "Temperature >". Range: up to 10 characters Hysteresis 0 to 255°C in 1°C increments (preset: 5°C) Trip level and warning level activity...
Page 67: Monitoring - Interval For Mandatory Testing
Monitoring Functions 9.9 Monitoring - Interval for Mandatory Testing Monitoring - Interval for Mandatory Testing Monitoring - Interval for Mandatory Testing Function for monitoring the interval between the connection and the tripping of the enabling circuit (actuator tripping). The monitoring time starts anew, every time the enabling circuit closes.
Page 68 Monitoring Functions 9.9 Monitoring - Interval for Mandatory Testing SIMOCODE PRO V PN FDI Programming and Operating Manual, 05/2020, A5E44499659002A/RS-AA/001...
Page 69: Inputs
Inputs 10.1 Digital Inputs Digital Inputs Basic Unit - Inputs SIMOCODE pro has a BU Inputs function block with four binary inputs with common potential. You can connect e.g. the buttons for a Local Control Station to the Inputs. These signals can be used for further processing in SIMOCODE pro by internally connecting the sockets of the BU Inputs function block.
Page 70 Inputs 10.1 Digital Inputs Digital Module Inputs SIMOCODE pro has two DM Inputs function blocks, each with four grouped binary inputs with common potential. You can connect e.g. the buttons for a Local Control Station to the inputs. These signals can be further processed in SIMOCODE pro by internally wiring the sockets of the DM Inputs function blocks.
Page 71: Analog Module Inputs
Inputs 10.2 Analog Module Inputs Digital Module - delay time inputs If necessary, you can set a delay time for the inputs. Range: 6, 16, 26, 36 ms. These values are valid for digital modules with a 24 V DC input supply. For digital modules with a 110 to 240 V AC/DC input supply, the values are about 40 ms higher.
Page 72: Temperature Module Inputs
Inputs 10.3 Temperature Module Inputs Settings Analog Module - Inputs Settings Analog Module - Inputs Input Signal 0-20 mA, 4-20 mA Response at Open Circuit Signaling, Warning, Tripping Active Inputs 1 Input, 2 Inputs Note The value of the Analog Module Inputs is in S7 format. Note The Inputs of the Analog Module are passive inputs i.e.
Page 73: Cyclic Receive
Inputs 10.4 Cyclic Receive Application examples Among other things, you can monitor the following motor components: ● Motor windings ● Motor bearings ● Motor coolant temperature ● Motor gearbox oil temperature. The individual temperatures of the three sensor measuring circuits can be monitored independently of each other by connecting free Limit Monitors.
Page 74: Ethernet - Opc-Ua Receive
Inputs 10.5 Ethernet - OPC-UA Receive 10.5 Ethernet - OPC-UA Receive Ethernet - OPC-UA Receive In addition to "Cyclic Receive" it is possible to transfer further data to SIMOCODE pro via OPC UA. With the "OPC UA Receive" function blocks (only in connection with SIMOCODE pro V PN basic unit), you can specify which information will be further processed in SIMOCODE pro.
Page 75: Outputs
Outputs 11.1 Basis Unit Outputs Basis Unit Outputs SIMOCODE pro has a BU Outputs function block with there relay outputs. You can e.g. switch, contactors or lamps via these Relay Outputs. For this, the inputs (plugs) of the function block must be connected to the respective sockets (usually the QE. Contactor controls of the control function).
Page 76: Operator Panel Leds
Outputs 11.2 Operator Panel LEDs Settings Basic Unit Outputs 1 to 3 Control of the BU Outputs function block via any signal (any sockets, e.g. device inputs, control bits from PROFINET, etc. usually from the QE contactor controls). 11.2 Operator Panel LEDs Operator Panel LEDs SIMOCODE pro has an OP - LED function block for controlling the seven freely-assignable LEDs.
Page 77: Digital Module 1 Outputs
Outputs 11.3 Digital Module 1 Outputs Application examples ● Display of operating states: You can e.g. define which LEDs are to be used for displaying the operating states (FAULT, ON, OFF, FAST, SLOW). For this, connect the desired LED to the respective "QL" Lamp Control of the control function.
Page 78: Digital Module 2 Outputs
Outputs 11.4 Digital Module 2 Outputs Application examples ● Controlling the motor contactor in the motor feeder: You can e.g. define which relay output is used for controlling the motor contactor in the motor feeder. For this, connect the desired relay output to the respective "QE" contactor control of the control function.
Page 79: Analog Module Outputs
Outputs 11.5 Analog Module Outputs Application examples ● Controlling the motor contactor in the motor feeder: You can e.g. define which relay output is used for controlling the motor contactor in the motor feeder. For this, connect the desired relay output to the respective "QE" contactor control of the control function.
Page 80 Outputs 11.5 Analog Module Outputs Settings Analog Module Outputs Assigned analog output value Any value (1 word/2 byte) in SIMOCODE pro Output signal 0 - 20 mA, 4 - 20 mA Start value of value range 0 - 65535 End value of value range 0 - 65535 Note The outputs of the Analog Module are passive outputs.
Page 81 Outputs 11.5 Analog Module Outputs 2. Output of the Effective Motor Current - only part of the motor current range (overload range). The Motor Current of a motor ranges from 0 to 8 A. The Rated Current I of the motor at nominal load is 2 A. The parameterized Set Current I in Device Integration Manager corresponds to the Rated Current I...
Page 82: Opc-Ua Send Data
Outputs 11.6 OPC-UA Send Data 11.6 OPC-UA Send Data 11.6.1 OPC-UA Send Data In this dialog you can connect each of the inputs (plugs) to a socket. To do so, choose the appropriate socket in the scroll boxes. In addition to "Cyclic Send" it is possible to transfer a further 16 bits of binary information via OPC UA.
Page 83 Outputs 11.7 Cyclic Send Data Settings Byte 0 to 1Bit 0 to bit 7Basic types 1*, 2 Controls of the bits with any signals(any sockets, e.g. Device Inputs, Send Data, etc.). Byte 2/3Basic types 1*, 2 Control of 1 word (2 bytes) with any analog values (any sockets e.g.
Page 84: Cyclic Send Data Byte 0
Outputs 11.7 Cyclic Send Data 11.7.2 Cyclic Send Data Byte 0 Cyclic Send Data Byte 0 Byte 0, Bit 0 to Bit 7, Basic types 1*, 2: Controls of the bits with any signals(any sockets, e.g. Device Inputs, Send Data, etc.). *) For Basic Unit 2 only 11.7.3 Cyclic Send Data Byte 1...
Page 85: Standard Functions
Standard Functions 12.1 Test - Reset 12.1.1 Test - Reset Test - Reset The function of the "TEST/RESET" button on the Basic Unit is generally dependent upon the operating status of the device: ● Reset function: if a fault occurs ●...
Page 86 Standard Functions 12.1 Test - Reset Test Function A SIMOCODE pro function test can also be initialized via the test function. The test function comprises the following steps: ● Lamp/LED test (test function) < 2 s activated ● Testing the device functionality (Test Function activated for 2 s - 5 s) ●...
Page 87: Reset
Standard Functions 12.1 Test - Reset 12.1.3 Reset Reset Carrying out Reset Resetting can be carried out as follows: ● Via the "TEST/RESET" button on the Basic Unit and on the Operator Panel (can be deactivated) as well as via PC with the Device Integration Manager. ●...
Page 88: Test Position Feedback
Standard Functions 12.2 Test Position Feedback ● If a configured module fails, all related faults will be acknowledged automatically. However, a configuration fault will be generated (exception: Operator Panel, if parameterized accordingly). This ensures that a module fault does not cause the general fault to be acknowledged automatically.
Page 89 Standard Functions 12.2 Test Position Feedback Cold starting If the motor feeder is in the test position, its main circuit will be isolated from the network. However, the control voltage will be connected. The "cold starting" function test is carried out in this status. Cold starting means the motor feeder is tested without a current in the main circuit.
Page 90: External Fault
Standard Functions 12.3 External Fault 12.3 External Fault 12.3.1 External Faults External Faults The External Fault 1 - 6 function blocks can be used to monitor any statuses and/or external devices, to generate fault messages and, if necessary, to switch off the motor. To do this, the Inputs (plugs) of the External Fault function blocks must be connected to any sockets (e.g.
Page 91: External Faults 1-6
Standard Functions 12.3 External Fault Reset Acknowledgment the "External Fault" using any signal (any socket , e.g. device inputs, control bits from PROFINET, etc.) Response Specification of the response to an External Fault when activated via the Input (see table response) Reset also by Specification of further (common) acknowledgement options using additional reset types:...
Page 92: External Faults 1-6 Inputs
Standard Functions 12.3 External Fault Settings Type, Activity, Marking Type Specification the input logic: • NO contact (1-active) • NC contact (0-active) Activity To specify in which motor operating state the External Fault to be evaluated: • Always: Always evaluate, regardless of whether the motor is running at a standstill.
Page 93: External Fault 1-6 Reset
Standard Functions 12.4 Operational Protection OFF (OPO) 12.3.2.3 External Fault 1-6 Reset External Fault 1-6 Reset Specification of further (common) acknowledgement options using additional reset types: ● TEST/RESET buttons on the Basic Unit and the Operator Panel (panel reset) ● Remote reset: Acknowledgement via Reset 1-3, control bit "Reset" command ●...
Page 94 Standard Functions 12.4 Operational Protection OFF (OPO) Safety information Note A "Trip - Operational Protection Off (OPO)" fault message is not generated if the "OPO" command attempts to run the Positioner to the end position in which it is already in, or to which it is heading.
Page 95: Power Failure Monitoring (Uvo)
Standard Functions 12.5 Power Failure Monitoring (UVO) 12.5 Power Failure Monitoring (UVO) Power Failure Monitoring (UVO) The Power Failure Monitoring (UVO) function block is activated via the plug. This is carried out via an external voltage relay that is connected to the function block via the binary inputs of SIMOCODE pro.
Page 96: Emergency Start
Standard Functions 12.6 Emergency Start 12.6 Emergency Start Emergency Start The emergency start deletes the thermal memory from SIMOCODE pro each time it is activated. This enables immediate restarting of the motor after an overload trip. This function can be used to: ●...
Page 97: Safety Oriented Tripping
Standard Functions 12.7 Safety Oriented Tripping 12.7 Safety Oriented Tripping 12.7.1 Safety-oriented Tripping Safety-oriented Tripping Note Please note that the information made available for further processing is in the form of non- safety-oriented signals. Note Please note that the "Safe tripping" function block is not a safety-oriented tripping function. The DM-F Local safety function is determined by the DIP switch setting on the module only.
Page 98 Standard Functions 12.7 Safety Oriented Tripping Settings of the DIP switches, DM-F Local Note The set DIP-switch position in the Device Integration Manager user interface (which can be done using the mouse pointer) is transferred to the basic unit as part of the standard download.
Page 99 Standard Functions 12.7 Safety Oriented Tripping DM-F Local Description 1NC contact + 1NO contact In addition to the 2-channel connection of aligned evaluation / 2NC contact evaluation sensor contacts (NC/NC), sensors with opposing contacts (NC/NO) often used for magnetically- operated switches) can also be evaluated. In this case, please ensure that the NC contact is connected to Y12 and the NO contact is connected to Y22.
Page 100 Standard Functions 12.7 Safety Oriented Tripping DM-F Local Description Cascade input automatic start / • Automatic start: monitored start The enabling circuits are switched to the operative position, as soon as the starting condition on cascade input 1 has been fulfilled, i.e. as soon as a static +24 V DC signal is present (e.g.
Page 101 Standard Functions 12.7 Safety Oriented Tripping Settings of the DIP switches, DM-F PROFIsafe Set the PROFIsafe address using the DIP switches on the DM-F PROFIsafe as follows: When one DIP switch is set to ON, the respective value is active. When more than one DIP switch is set to ON, the respective values must be added up.
Page 102: Dm-F Local Digital Module
Standard Functions 12.7 Safety Oriented Tripping Reset "Safe tripping" Here, you can select manual or automatic acknowledging of SIMOCODE pro faults caused by safety-oriented tripping (default: manual). 12.7.2 DM-F LOCAL Digital Module DM-F LOCAL Digital Module The "DM-F Local safe tripping" function block consists of 3 sockets: ●...
Page 103 Standard Functions 12.7 Safety Oriented Tripping DM-F Local Description Without / with cross-circuit Without / with cross-circuit detection Cross-circuit detection detection is only possible with potential-free sensors. In this case, the sensors must be connected between T1 - Y12, Y33 and T2 - Y22. The device anticipates the T1 terminal test signal on terminals Y12 and Y33.
Page 104 Standard Functions 12.7 Safety Oriented Tripping DM-F Local Description Sensor input automatic start / • Automatic start: monitored start The enabling circuits are switched to the operative position, as soon as the starting condition on sensor inputs Y12, Y22, Y34 and 1 have been fulfilled. The start button connection terminal Y33 is not queried.
Page 105 Standard Functions 12.7 Safety Oriented Tripping "Safe tripping" response 1) Here, you set the SIMOCODE pro reaction to a safety-oriented tripping via the DM-F Local or the DM-F PROFIsafe. Note The module response is not affected by this setting. In the event of the conditions for safety- oriented tripping being fulfilled, the enabling circuits are always opened! Response Safe tripping...
Page 106: Watchdog (Plc/Dcs Monitoring)
Standard Functions 12.8 Watchdog (PLC/DCS monitoring) 12.8 Watchdog (PLC/DCS monitoring) Watchdog (PLC/DCS monitoring) The Watchdog function block monitors communication with the PLC via PROFINET, as well as the operating state of the PLC in the "Remote" operating mode. Bus monitoring With this type of monitoring, the "Trip - Bus"...
Page 107 Standard Functions 12.8 Watchdog (PLC/DCS monitoring) Settings PLC/PCS monitoring Bus Monitoring • Activated: If a bus fault occurs, the "Trip - Bus" fault message is generated and must be acknowledged. • Deactivated: No fault message; however, the "Status - Bus o.k." information can be evaluated at anytime. PLC/PCS monitoring - Input Control of the Watchdog function block using the monitored signal (any sockets, e.g.
Page 108 Standard Functions 12.8 Watchdog (PLC/DCS monitoring) SIMOCODE PRO V PN FDI Programming and Operating Manual, 05/2020, A5E44499659002A/RS-AA/001...
Page 109: Logic Modules
Logic Modules 13.1 Truth Tables 13.1.1 Truth Tables Truth Tables You can make the following settings here: ● Truth Tables 1-6 (3I - 1O) ● Truth Tables 10, 11 (3I - 1O) ● Truth Tables 7-8 (2I - 1O) ● Truth Tables 9 (5I - 2O). 13.1.2 Table 1 (3I - 1O) 13.1.2.1...
Page 110: Logic Table 1 (3I - 1O)
Logic Modules 13.1 Truth Tables 13.1.2.3 Logic Table 1 (3I - 1O) Logic Table 1 (3I - 1O) You can choose from the 8 possible input conditions the one with which to generate an output signal. 13.1.3 Table 2 (3I - 1O) 13.1.3.1 Table 2 (3I - 1O) Table 2 (3I - 1O)
Page 111: Input Table 3 (3I - 1O)
Logic Modules 13.1 Truth Tables 13.1.4 Table 3 (3I - 1O) 13.1.4.1 Table 3 (3I - 1O) Table 3 (3I - 1O) The Truth Table for 3I/1O consists of: ● 3 plugs ● 1 logic component ● 1 socket (Truth Table Output). You can choose from the 8 possible input conditions the one with which to generate an output signal.
Page 112: Input Table 4 (3I - 1O)
Logic Modules 13.1 Truth Tables 13.1.5.2 Input Table 4 (3I - 1O) Input Table 4 (3I - 1O) Activate the Truth Table with any signal (any sockets, e.g. device inputs, control bits from PROFINET, etc). 13.1.5.3 Logic Table 4 (3I - 1O) Logic Table 4 (3I - 1O) You can choose from the 8 possible input conditions the one with which to generate an output signal.
Page 113: Logic Table 5 (3I - 1O)
Logic Modules 13.1 Truth Tables 13.1.6.3 Logic Table 5 (3I - 1O) Logic Table 5 (3I - 1O) You can choose from the 8 possible input conditions the one with which to generate an output signal. 13.1.7 Table 6 (3I - 1O) 13.1.7.1 Table 6 (3I - 1O) Table 6 (3I - 1O)
Page 114: Input Table 10 (3I - 1O)
Logic Modules 13.1 Truth Tables 13.1.8 Table 10 (3I - 1O) 13.1.8.1 Table 10 (3I - 1O) Table 10 (3I - 1O) ● 8 Truth Tables (1 to 6, 10, 11) for SIMOCODE pro V PN Basic Unit. 13.1.8.2 Input Table 10 (3I - 1O) Input Table 10 (3I - 1O) Activate the Truth Table with any signal (any sockets, e.g.
Page 115: Input Table 11 (3I - 1O)
Logic Modules 13.1 Truth Tables 13.1.9.2 Input Table 11 (3I - 1O) Input Table 11 (3I - 1O) Activate the Truth Table with any signal (any sockets, e.g. device inputs, control bits from PROFINET, etc). 13.1.9.3 Logic Table 11 (3I - 1O) Logic Table 11 (3I - 1O) You can choose from the 8 possible input conditions the one with which to generate an output signal.
Page 116: Logic Table 7 (2I - 1O)
Logic Modules 13.1 Truth Tables 13.1.10.3 Logic Table 7 (2I - 1O) Logic Table 7 (2I - 1O) You can choose from four possible input conditions the one with which to generate an output signal. 13.1.11 Table 8 (2I - 1O) 13.1.11.1 Table 8 (2I - 1O) Table 8 (2I - 1O)
Page 117: Input Table 9 (5I - 2O)
Logic Modules 13.1 Truth Tables 13.1.12 Table 9 (5I - 2O) 13.1.12.1 Table 9 (5I - 2O) Table 9 (5I - 2O) The Truth Table for 2I/1O consists of: ● 5 plugs ● 1 logic component ● 2 socket (Truth Table Outputs). You can choose from four possible input conditions the one with which to generate an output signal.
Page 118: Logic Output 2 (I1 Is 0)
Logic Modules 13.2 Counter 13.1.12.5 Logic Output 2 (I1 is 0) Logic Output 2 (I1 is 0) If input 1 = 0 you can select the input conditions for which you want to generate an output signal from 16 possible input conditions. 13.1.12.6 Logic Output 2 (I1 is 1) Logic Output 2 (I1 is 1)
Page 119: Counter 1-6
Logic Modules 13.2 Counter In total, 6 counters (1 to 6) for the SIMOCODE pro V PN basic unit are available. Note The time between the events to be counted depends on: • the input delay • the device cycle time. Note The actual value remains the same: •...
Page 120: Timer
Logic Modules 13.3 Timer 13.3 Timer 13.3.1 Timer Timer Timers are integrated in the SIMOCODE pro system. These are activated via the plugs "+" or "-". The Timer output switches to "1" when the timer reaches 0 from the preset limit. The Timer is reset with "Reset".
Page 121: Signal Conditioner
Logic Modules 13.4 Signal Conditioner 13.3.2 Timer 1-6 Timer 1-6 Type Different Output Responses. Range: closing delay, closing delay with memory, closing delay with fleeting closing Limit Time during which the Timer provides an output signal when activated, depending on the output response (type). Range: 0 to 65535, unit 100 ms Input Activation by any signal (any sockets, e.g.
Page 122: Signal Conditioner 1-6
Logic Modules 13.5 Non-volatile Element 13.4.2 Signal Conditioner 1-6 Signal Conditioner 1-6 Type Different output responses. Range: Level not inverted, level inverted, edge rising with memory, edge falling with memory Input Activation by any signal (any sockets, e.g. device inputs, control bits from PROFINET, etc.) Reset Resets the Signal Conditioner to 0.
Page 123: Flashing
Logic Modules 13.6 Flashing 13.5.2 Non-volatile Element 1-4 Non-volatile Element 1-4 Settings: Type Different output responses. Range: Level not inverted, level inverted, edge rising with memory, edge falling with memory Input Activation by any signal (any sockets e.g. device inputs, control bits from PROFINET, etc.
Page 124: Flickering
Logic Modules 13.7 Flickering 13.7 Flickering Flickering You can use the Flickering logic modules to assign the "Flickering" function to the Operator Panel LEDs (for example). If an input signal is pending, the Flickering function block issues an output signal with a frequency of 4 Hz.
Page 125 Logic Modules 13.8 Limit Monitor Functional principle The limit signal issued depends on: ● The operating state of the motor ● The TPF function ● The parameterized "activity". Hysteresis for Limit Monitor You can set the hysteresis for limit monitors here: Range 0 - 15 % of the threshold value in 1 % increments (5 %) Note...
Page 126: Limit Monitor 1-6
Logic Modules 13.8 Limit Monitor 13.8.2 Limit Monitor 1-6 Limit Monitor 1-6 Settings: Input Analog plug of the Limit Monitor to be connected with the analog value (2 bytes) which is to be monitored, (e.g. maximum current I , remaining cooling time, actual value of Timers, etc.).
Page 127: Calculation Modules
Logic Modules 13.9 Calculation Modules 13.9 Calculation Modules 13.9.1 Calculation Modules Calculation Modules Calculation Modules 1 and 2 Both the Calculator 1 and Calculator 2 logic modules integrated in Basic Unit 2 contain the standard calculation modes and enable all analog values that occur in SIMOCODE pro to be adapted, calculated and converted, e.g.
Page 128 Logic Modules 13.9 Calculation Modules Calculation modules 3 and 4 Description The Calculator 3 and Calculator 4 function blocks (for basic unit SIMOCODE pro V PN only) can be used to process analog values according to the following arithmetic: Output = Input 1 [Operator 1] Input 2 [Operator 2] Input 3 [Operator 3] Input 4. You can interconnect corresponding analog signals to the four inputs.
Page 129: Analog Multiplexer
Logic Modules 13.10 Analog Multiplexer Settings Calculator 3/4 Description Input Any analog value Output Calculated analog value Constant 1 to 4 Any analog value Range: 0 - 65535 Operator 1 to 3 • "+": Addition • "-": Subtraction • "*": Multiplication •...
Page 130: Pulse Width Modulator
Logic Modules 13.11 Pulse width modulator Settings Analog Multiplexer Description Control signals S1/S2 Activation by any signal (any sockets , e.g., device inputs, control bits from PROFINET, etc.). Input 1 to 4 Any analog value or "Fixed level" Output Output value according to panel (see below) Constant 1 to 4 Any analog value Range: 0 - 65535...
Page 131 Logic Modules 13.11 Pulse width modulator Formulas Length of 1-signal = PWM period * (PWM Input - PWM input minimum) / (PWM input ● maximum - PWM input minimum) Length of 0-signal = PWM period - Length of 1-signal. ● Note The shortest signal duration for 0 and 1 is 0.1 s in each case.
Page 132 Logic Modules 13.11 Pulse width modulator SIMOCODE PRO V PN FDI Programming and Operating Manual, 05/2020, A5E44499659002A/RS-AA/001...
Page 133: Operator Panel With Display
Operator Panel with Display Operator Panel with Display Setting Value/Range Return to main display (after) • Manual • 3 seconds • 10 seconds • 1 minute • 5 minutes Language • English • German • French • Polish • Spanish •...
Page 134 Operator Panel with Display Profile • IL1, IL2, IL3 [A] • IL1, IL2, IL3 [%] • I_max [A] • I_max [%] • I_max, Cos • I_max, U L1N, Cos, S • I_max, U L1L2, Cos, S • I_max, U L1N, Cos, P •...
Page 135 Operator Panel with Display Lighting automatically OFF (after) • Off (= never) • 3 seconds • 10 seconds • 1 minute • 5 minutes Warnings • Do not display • Display Faults • Display • Do not display SIMOCODE PRO V PN FDI Programming and Operating Manual, 05/2020, A5E44499659002A/RS-AA/001...
Page 136 Operator Panel with Display SIMOCODE PRO V PN FDI Programming and Operating Manual, 05/2020, A5E44499659002A/RS-AA/001...
Page 137: Profienergy
PROFIenergy PROFIenergy Description PROFIenergy, a protocol defined by the PROFINET User Organization, lays the foundations for a vendor-neutral, universal system for flexible, short-term, and intelligent shutdown of individual loads or whole production units. SIMOCODE pro V PN supports the functions defined in the protocol in the form of a switchgear with switching and measuring functions.
Page 138 PROFIenergy SIMOCODE PRO V PN FDI Programming and Operating Manual, 05/2020, A5E44499659002A/RS-AA/001...
Page 139: Analog Value Recording
Analog Value Recording 16.1 Analog Value Recording - Settings Analog Value Recording - Settings Recording is carried out directly in SIMOCODE pro on the basis of the motor feeder and independently of PROFINET or the automation system. Every analog value present at the "allocated analog value"...
Page 140 Analog Value Recording 16.1 Analog Value Recording - Settings SIMOCODE PRO V PN FDI Programming and Operating Manual, 05/2020, A5E44499659002A/RS-AA/001...
Page 141: Online Settings And Displays
Online Settings and Displays 17.1 Error Buffer - Error Protocol 17.1.1 Error Buffer - Error Protocol Error Buffer - Error Protocol See Error Buffer - Error Protocol - Events (Page 141) See Error Buffer - Error Protocol - Events DM-F (Page 142) 17.1.2 Error Buffer - Error Protocol - Events Error Buffer - Error Protocol - Events...
Page 142: Error Buffer - Error Protocol - Events Dm-F
Online Settings and Displays 17.2 Command 17.1.3 Error Buffer - Error Protocol - Events DM-F Error Buffer - Error Protocol - Events DM-F When using a DM-F, the events "Enabling circuit closed" and "Enabling circuit open" are logged for the "DM-F Local" and/or the "DM-F PROFIsafe" in a separate window: ●...
Page 143 Online Settings and Displays 17.2 Command Command Meaning Memory module write protection on All contents of the memory module are write protected. This prevents any inadvertent changes to the contents of the memory module and any parameter changes for the connected SIMOCODE pro V PN basic unit., pro V 3.1 and pro S.
Page 144 Online Settings and Displays 17.2 Command Command Meaning Delete initialization module data With this command: All contents of the initialization module are deleted • The initialization module is reset to the delivery • state. SIMOCODE pro signals the successful deletion with the event "Initialization module deleted".
Page 145: Actual Configuration/Hw-Diagnostics
Online Settings and Displays 17.3 Actual Configuration/HW-Diagnostics 17.3 Actual Configuration/HW-Diagnostics 17.3.1 Actual Configuration/HW-Diagnostic Actual Configuration/HW-Diagnostic See Actual Configuration (Page 145) See HW-Diagnostic (Page 145) 17.3.2 Actual Configuration Actual Configuration In dialogue "Actual Configuration" the existing configuration can be read if a connection has already been established via SIMOCODE pro.
Page 146: Password
Online Settings and Displays 17.4 Password 17.4 Password 17.4.1 Password Password See Set Password (Page 146) See Change Password (Page 146) 17.4.2 Set Password Set Password Password protection: Indicates whether password protection is activated or deactivated. Password: In this field, you can assign a password for SIMOCODE pro. Protection in the basic unit is activated/deactivated with "Set/Remove Password".
Page 147: Measured Values
Online Settings and Displays 17.5 Measured Values 17.5 Measured Values Measured Values In dialogue "Measured Values > Measured Values" the following measured values are shown. Current Range Unit Max. Current I_max 0 to 65535 Current I_L1 0 to 65535 Current I_L2 0 to 65535 Current I_L3 0 to 65535...
Page 148 Online Settings and Displays 17.5 Measured Values SIMOCODE pro V with a current/voltage measurement module is necessary for voltage measurements. Power/Power Factor Range Unit Active Power P 0 to 4294967,295 Apparent Power S 0 to 4294967,295 Cos-phi 0 to 100 % (Power Factor.
Page 149 Online Settings and Displays 17.5 Measured Values When SIMOCODE pro V(PN) is configured and connected with a current/voltage measurement V2 following float values are displayed in addition to available readings. Current (Float Values) Unit Max. Current I_max Current I_L1 Current I_L2 Current I_L3 Average Current Frequency...
Page 150: Service Data - Statistical Data
Online Settings and Displays 17.6 Service Data - Statistical Data 17.6 Service Data - Statistical Data Service Data - Statistical Data The following values are shown in the Motor section: Motor Range Motor operating hours 0 to 1193046 h Number of overload trips 0 to 65535 Number of starts 0 to 4294967295...
Page 151: Control - Status Information
Online Settings and Displays 17.7 Control - Status Information Timer Range Timer 1-6 - actual value 0 to 6554 s Counter Range Counter 1-6 - actual value 0 to 65535 Calculators Range Calculator 1-4 - output 0 to 65535 Note Service Data - Parameters at Statistical Data online menu are read-only if “Motor is in operation”...
Page 152: Control Stations
Online Settings and Displays 17.8 Control Stations 17.8 Control Stations Control Stations Control Stations - Operation Mode Selector See Operation Mode Selector. Control Stations Local Control [LC] See Local Control [LC]. Control Station - PLC-DCS [PN] See PLC-DCS [PN]. Control Stations PC/OPC-UA See PC/OPC-UA Control Stations - Operator Panel See Operator Panel [OP].
Page 153: Faults
Online Settings and Displays 17.10 Faults 17.10 Faults Faults Different warnings are indicated via checkboxes in the "Faults" register of the target system > Faults/Warnings/Events mask. Controlling Indication Meaning/Possible cause/Acknowledgement/Error processing Execution ON command The motor feeder could not be turned on after an ON command. Possible causes: Main circuit is interrupted (fuse, circuit breaker) •...
Page 154 Online Settings and Displays 17.10 Faults Indication Meaning/Possible cause/Acknowledgement/Error processing Test Position Feedback (TPF) Current flows in the motor feeder even though the motor feeder is in the test position (TPF).The main circuit is not interrupted in test operation. Acknowledge with "Reset" respectively OFF command. Power failure monitoring (UVO).
Page 155 Online Settings and Displays 17.10 Faults Protection Indication Meaning/Possible cause/Acknowledgement/Error processing Overload The motor feeder was overloaded. Check the motor and the application which is driven by the motor. The motor can only be switched on again after the cooling down time has expired or after an emergency start is carried out.
Page 156 Online Settings and Displays 17.10 Faults Safety engineering Indication Meaning/Possible cause/Acknowledgement/Error processing DM-F - Safety-oriented tripping The DM-F has tripped the enabling circuit for safety reasons. The motor can only be switched on again after the DM-F module enabling circuits have been closed. Acknowledge with "Reset", if auto-reset is not active.
Page 157 Online Settings and Displays 17.10 Faults Indication Meaning/Possible cause/Acknowledgement/Error processing Trip level P> The real power of the motor has overshot the trip level. Check the application which is driven by the motor. Further information: Active Power Monitoring. Trip level P< The real power of the motor has undershot the trip level.
Page 158 Online Settings and Displays 17.10 Faults Miscellaneous - General Indication Meaning/Possible cause/Acknowledgement/Error processing External Fault 1 to 6 A signal is pending at the input (socket) of the standard function. External fault 1, 2, 3, 4,5 or 6. Check the motor feeder. Acknowledgement depends on parameterization.
Page 159: Warnings
Online Settings and Displays 17.11 Warnings Indication Meaning/Possible cause/Acknowledgement/Error processing Thermistor short circuit A short circuit has occurred in the thermistor sensor cable. Check the thermistor sensor cable and the thermistor. After fault repair acknowledge with "Reset". Further information: Thermistor. Thermistor open circuit A wire break has occurred in the thermistor sensor cable.
Page 160 Online Settings and Displays 17.11 Warnings Protection Indication Meaning/Possible cause/Acknowledgement/Error processing Pre-Warning overload (I > 115%) The motor feeder is in overload operation. It will be tripped within a short period of time due to overloading if this condition continues to persist. Please check the motor and the application which is driven by the motor.
Page 161 Online Settings and Displays 17.11 Warnings Safety engineering Indication Meaning/Possible cause/Acknowledgement/Error processing The DM-F Local / DM-F PROFIsafe enabling circuits have not been opened and closed again within the configured time period. The function of the enabling circuit relay contacts can only be tested when they are switched.
Page 162 Online Settings and Displays 17.11 Warnings Indication Meaning/Possible cause/Acknowledgement/Error processing Warning level P> The real power of the motor has overshot theWarning level. Check the application which is driven by the motor. Further information: Active Power Monitoring (Page 55). Warning level P< The real power of the motor has undershot the Warning level.
Page 163 Online Settings and Displays 17.11 Warnings Indication Meaning/Possible cause/Acknowledgement/Error processing Warning level T> Temperature module 1/2 - warning level overshot. Check the temperature measuring station. Further information: Analog Temperature Monitoring (Page 65). DM-F - Test requirement The DM-F Local / DM-F PROFIsafe enabling circuits have not been opened and closed again within the configured time period.
Page 164: Status Information
Online Settings and Displays 17.12 Status Information 17.12 Status Information Status Information Different events are indicated in the plain language in the "Events" register of the Target system > Faults/Warnings/Status information mask: Indication Meaning/Possible cause/Acknowledgement/Error processing Parameter blocking during startup The start-up parameter block prevents SIMOCODE pro active parameters which could be saved in the controller from being...
Page 165 Online Settings and Displays 17.12 Status Information Indication Meaning/Possible cause/Acknowledgement/Error processing DM-F Safety-oriented tripping The DM-F Local / DM-F PROFIsafe have tripped the enabling circuit for safety reasons. The motor can only be switched on again after the DM-F module enabling circuits have been closed. Further information: See Safety-oriented tripping.
Page 166 Online Settings and Displays 17.12 Status Information Indication Meaning/Possible cause/Acknowledgement/Error processing Initialization module identification The device addressing and the I&M data in the initialization data write-protected module are write-protected. Parameterization will only be accepted by SIMOCODE if the new parameter set is identical to the data stored in the initialization module at that time.
Page 167: Test Online
Online Settings and Displays 17.13 Test Online 17.13 Test Online Test Online Test In this dialog box, you can; ● Select device-internal outputs (sockets) and show logic conditions ● Select device-internal inputs (plugs) and set their input signal 0 or 1 ●...
Page 168: Device - Trend
Online Settings and Displays 17.15 Device - Trend 17.15 Device - Trend Device - Trend With the menu command Device > Trend you can: ● Display the progress of the various measured values once you have already established a connection with SIMOCODE pro. A minimum of one and a maximum of five measured values can be selected.
Page 169: Analog Value Recording
Online Settings and Displays 17.18 Analog value recording 17.18 Analog value recording 17.18.1 Analog Value Recording - Gradient Analog Value Recording - Gradient Gradient of any value (1 word/2 byte) in SIMOCODE pro: ● Y-axis: Analog value ● X-axis: time ●...
Page 170 Online Settings and Displays 17.18 Analog value recording SIMOCODE PRO V PN FDI Programming and Operating Manual, 05/2020, A5E44499659002A/RS-AA/001...
Page 171: Troubleshooting Download Failures
Troubleshooting Download Failures 18.1 Troubleshooting Download Failures In case of download failures, possible causes can be seen in following online menu(s). Faults/warning /status information Device -> (Faults/warning /status-information ) ->Status Information-> parameterizing Parametrizing options shows following flags/status from device which can lead to download failures: ●...
Page 172 Troubleshooting Download Failures 18.1 Troubleshooting Download Failures Cause of download failures ● Password Protection Activated but wrong or no password entered. The SIMOCODE pro parameters are protected by a password. An attempt was made to change the parameters without entering the password or wrong password was entered. To change parameters please use the correct password.

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