Phoenix Contact Axioline AXL F SSDI8/4 1F User Manual
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Phoenix Contact Axioline AXL F SSDI8/4 1F User Manual

Safety module with safe digital inputs
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Summary of Contents for Phoenix Contact Axioline AXL F SSDI8/4 1F

  • Page 1 Axioline F safety module with safe digital inputs User manual...
  • Page 2 User manual Axioline F safety module with safe digital inputs 2016-11-10 Designation: UM EN AXL F SSDI8/4 1F Revision: This user manual is valid for: Designation From HW/FW Order No. revision AXL F SSDI8/4 1F 01/220 2702263 PHOENIX CONTACT 106887_en_01...
  • Page 3 How to contact us Internet Up-to-date information on Phoenix Contact products and our Terms and Conditions can be found on the Internet at: phoenixcontact.com Make sure you always use the latest documentation.
  • Page 4 The receipt of technical documentation (in particular user documentation) does not constitute any further duty on the part of Phoenix Contact to furnish information on modifications to products and/or technical documentation. You are responsible to verify the suitability and intended use of the products in your specific application, in particular with regard to observing the applicable standards and regulations.

  • Page 5: Table Of Contents

    Programming data/configuration data..............23 Integration of the Axioline F local bus ..................25 Supply voltage of the module logic ..............25 Supply voltage U ....................25 DC distribution network according to IEC 61326-3-1 ........... 26 Terminal point assignment................... 27 106887_en_01 PHOENIX CONTACT...
  • Page 6 Two-channel non-equivalent assignment of safe inputs ........60 7.5.1 Notes on errors ..................62 7.5.2 Cross-circuit monitoring enabled, supply through T1 and T2 ....63 7.5.3 Cross-circuit monitoring disabled, supply through a clock output or external supply ..............64 PHOENIX CONTACT 106887_en_01...
  • Page 7 Download data: software ..................83 11.6 Download data: documentation ................84 Appendix: checklists .........................85 Planning ......................86 Assembly and electrical installation ..............87 Startup and parameterization ................. 88 Validation ......................89 Appendix: index ........................91 Appendix: revision history......................93 106887_en_01 PHOENIX CONTACT...
  • Page 8 AXL F SSDI8/4 1F PHOENIX CONTACT 106887_en_01...

  • Page 9: For Your Safety

    The safety of personnel and equipment can only be assured if the module is used correctly: equipment see Section 1.5 “Intended use” on page 11. Error detection Depending on the wiring and the parameterization, the module detects errors within the safety equipment. 106887_en_01 PHOENIX CONTACT...

  • Page 10: Electrical Safety

    In this case, the correct operation of the safety module can no longer be ensured. In the event of an error, send the module to Phoenix Contact or contact Phoenix Contact immediately and engage a service engineer.

  • Page 11: Safety Of The Machine Or System

    Single or two-channel emergency stop equipment or safety door equipment – Applications with enable button – Applications with two-hand control devices – Applications with mode selector switches – As secondary switchgear for safety-related photoelectric barriers – Safety circuits according to EN 60204, Part 1 106887_en_01 PHOENIX CONTACT...

  • Page 12: Documentation

    Table 1-2 General abbreviations Abbreviatio Meaning PELV Protective extra-low voltage according to EN 50178/VDE 0160 Equipment under control Safety hotline Should you have any technical questions, please contact our 24-hour hotline. Phone: + 49 5281 9-46277, e-mail: safety-service@phoenixcontact.com PHOENIX CONTACT 106887_en_01...

  • Page 13: Product Description

    In the SafetyBridge system, the module can be used to achieve safety functions with the following requirements depending on the operating conditions: – Up to SIL 3 according to IEC 61508 – Up to SILCL 3 according to EN 62061 – Up to Cat. 4/PL e according to EN ISO 13849-1 106887_en_01 PHOENIX CONTACT...

  • Page 14: Structure Of The Module

    Connector for connecting the supply voltage Function identification I/O connector Diagnostics and status indicators DIP switch More detailed information on setting the switch: see Section 4.1.3 “Setting the DIP switch” on page 30. Housing dimensions 53,6 Figure 2-2 Housing dimensions (in mm) PHOENIX CONTACT 106887_en_01...

  • Page 15: Safe Digital Inputs

    Use suitable sensors/controlling devices which are described in the applicable safety devices standards, for example. The module's ability to detect errors depends on the parameterization. • Adapt the module parameterization to the relevant sensor/controlling device: see Section 5 “Parameterization of the module” on page 35. 106887_en_01 PHOENIX CONTACT...

  • Page 16: Clock Outputs T1 And T2

    LED. This error must be acknowledged so that the system can be started up again following error removal, see see “Errors: messages and removal” on page 71. As there are two clock outputs for eight inputs, there may be reciprocal effects between the inputs. PHOENIX CONTACT 106887_en_01...
  • Page 17 Inputs for channel 1 (INx_CH1) are assigned to clock output T1. – Inputs for channel 2 (INx_CH2) are assigned to clock output T2. Observe the information on error detection according to clocking: see Section 2.5 “Clock outputs T1 and T2” on page 16. 106887_en_01 PHOENIX CONTACT...

  • Page 18: Connection Options For Sensors Depending On The Parameterization

    – Contact-based – With OSSD outputs Achievable safety integrity SILCL Cat. For connection example, see page Cat. 3 can only be achieved with a redundant sensor. The category that can be achieved depends on the sensor used. PHOENIX CONTACT 106887_en_01...

  • Page 19: Local Diagnostics And Status Indicators

    (Only applies if UI is on or flashing at the same time.) Red on Hardware fault. Communication to the higher-level controller is disabled. The module has entered the safe state (failure state). Flashing red The module is not parameterized. 106887_en_01 PHOENIX CONTACT...
  • Page 20 Acknowledgment: see Section 9.2 “Acknowledging an error” on page 71. 00 - 07 Green Status of each input from 0 - 7 Input at logic “0”. Green on Input at logic “1”. PHOENIX CONTACT 106887_en_01...

  • Page 21: Safe State

    The diagnostic message is transmitted to the logic module: see Section 9 “Errors: messages and removal” on page 71. Information on which errors occur and when: see Section 7 “Connection examples for safe inputs” on page 41. 106887_en_01 PHOENIX CONTACT...

  • Page 22: Device Errors

    The module switches to the safe state following parameterization errors. The FS LED on the module flashes. In the event of faulty parameterization, a diagnostic message is transmitted to the logic module: see Section 9 “Errors: messages and removal” on page 71. PHOENIX CONTACT 106887_en_01...

  • Page 23: Process Data Words

    Access the process data words via the “Operate” function block. 2.10 Programming data/configuration data Phoenix Contact provides device description files for various control systems. The programming data/configuration data is defined in the device description (FDCML, GSD, GSDML, etc.) according to the bus or network used.
  • Page 24 AXL F SSDI8/4 1F PHOENIX CONTACT 106887_en_01...

  • Page 25: Integration Of The Axioline F Local Bus

    Observe the general safety notes: see Section 1.2 “Electrical safety” on page 10. Supply voltage U supplies the input circuits, the clock outputs, and the switching elements on the I/O side. Technical data for supply voltage U : see “Supply voltage U (sensors, clock outputs, I/O)” on page 81. 106887_en_01 PHOENIX CONTACT...

  • Page 26: Dc Distribution Network According To Iec 61326-3-1

    DC voltage and to which any device is connected. A typical system or machine distribution is not a DC distribution network. For devices that are intended for a typical system or machine distribution, the DC connections are viewed and tested as I/O signals according to IEC 61326-3-1. PHOENIX CONTACT 106887_en_01...

  • Page 27: Terminal Point Assignment

    Table 3-1 Terminal point assignment of the voltage connection Terminal point Color Assignment a1, a2 24 V DC (UI) UI: supply of the digital inputs (internally connected) b1, b2 Blue Reference potential of the supply voltage (internally connected) 106887_en_01 PHOENIX CONTACT...
  • Page 28 Blue Function Terminal point Green Function WARNING: Loss of safety function Parasitic voltages can result in the loss of the safety function. • Wire sensors that require a GND to the corresponding slot for 0 V (GND). PHOENIX CONTACT 106887_en_01...

  • Page 29: Assembly, Removal, And Electrical Installation

    Mount the module on a 35 mm DIN rail in a control cabinet or junction box protected from dust and humidity (IP54 or higher). • Secure the control cabinet/junction box to prevent unauthorized opening. • Only connect the cables using the supplied Axioline F connectors. 106887_en_01 PHOENIX CONTACT...

  • Page 30: Setting The Dip Switch

    Remove the marking field and set the address in the switch below it. • Reattach the marking field to the module. The set address is only applied on power up. If the address is adjusted during operation, the module responds with a failure state. PHOENIX CONTACT 106887_en_01...

  • Page 31: Mounting And Removing Modules

    Insert a suitable tool (e.g., bladed screwdriver) into the upper and lower snap- on mechanisms (base latches) of the module one after the other to release it (A). • Remove the module perpendicular to the DIN rail (B). 106887_en_01 PHOENIX CONTACT...
  • Page 32 • Press firmly on the connector. Make sure that the locking latch snaps in. Remove • Release the locking latch (A). • Tilt the connector upwards slightly (B). • Remove the connector from the module (C). PHOENIX CONTACT 106887_en_01...

  • Page 33: Electrical Installation

    I/O devices is fed directly to the module. The sensors are connected via Axioline F connectors. • Wire the connectors according to your application: see Section 3.4 “Terminal point assignment” on page 27. 106887_en_01 PHOENIX CONTACT...
  • Page 34 AXL F SSDI8/4 1F PHOENIX CONTACT 106887_en_01...

  • Page 35: Parameterization Of The Module

    FS LED flashes to indicate that the parameterization is invalid. In addition, the error is reported to the controller. • In this case, check and correct the settings. Information on error messages and troubleshooting: see Section 9 “Errors: messages and removal” on page 71. 106887_en_01 PHOENIX CONTACT...

  • Page 36: Parameterization Of The Safe Inputs

    As soon as cross-circuit monitoring is enabled for an assigned input pair, clock outputs T1 and T2 are clocked. – Cross-circuit monitoring Otherwise the clock outputs are enabled without clocking. – INx_CH1 -> T1 – INx_CH2 -> T2 The default values are shown in bold. PHOENIX CONTACT 106887_en_01...
  • Page 37 Example for a signal change in the parameterized time for symmetry monitoring IN0_Ch1 IN0_Ch1 IN0_Ch2 IN0_Ch2 Diag Diag 76020008 Figure 5-2 Example for a signal change outside the parameterized time for symmetry monitoring, start inhibit due to symmetry violation is disabled 106887_en_01 PHOENIX CONTACT...
  • Page 38 Filter demand Filter Where: Processing time of the input Parameterized filter time Filter Firmware runtime: 1 ms PHOENIX CONTACT 106887_en_01...

  • Page 39: Duration Of A Safety Demand

    38. If the safety module detects a safety demand after the processing time of the input t elapsed, when using SafetyBridge this time is extended by the module until the logic module has received the safety demand. 106887_en_01 PHOENIX CONTACT...
  • Page 40 AXL F SSDI8/4 1F PHOENIX CONTACT 106887_en_01...

  • Page 41: Connection Examples For Safe Inputs

    The examples only describe the options for the electrical connection of sensors to the safe inputs. Should you have any questions regarding your applications, please contact the Phoenix Contact safety hotline: see Section 1.8 “Safety hotline” on page 12. The following are specified for each example: –...

  • Page 42: Measures To Achieve A Specific Safety Integrity

    PFD and PFH depending on the SIL/SILCL Safety integrity SIL 2/SILCL 2 1% of 10 1% of 10 SIL 3/SILCL 3 1% of 10 1% of 10 Performance level Use standard EN ISO 13849-1 to determine the performance level. PHOENIX CONTACT 106887_en_01...
  • Page 43 If single-channel sensors are not available for this category, use two-channel sensors. An accumulation of errors must not result in the loss of the safety function. Following the third error, evaluation can be aborted if the probability of further errors occurring is low. 106887_en_01 PHOENIX CONTACT...

  • Page 44: Single-Channel Assignment Of Safe Inputs

    If an input pair is parameterized as single-channel with cross-circuit monitoring, the fixed assignment is as follows: – INx_Ch1 is permanently assigned to clock output T1 – INx_Ch2 is permanently assigned to clock output T2 IN1_Ch1 Safety switch Figure 7-1 Single-channel assignment of inputs PHOENIX CONTACT 106887_en_01...
  • Page 45 “1” of the input. An unexpected change from “0” to “1” is possible. Make sure that this change in state cannot restart the system unintentionally. Clock output to ground Short circuit No The affected clock output is disabled. SF = safety function 106887_en_01 PHOENIX CONTACT...

  • Page 46: Cross-Circuit Monitoring Disabled, Supply Through T1

    Internally through clock output T1 or T2; cross-circuit monitoring disabled – External (24 V) Achievable SIL 2/SILCL 2/Cat. 2/PL d safety integrity WARNING: Loss of safety function Cross-circuits can result in the loss of the safety function. • Prevent cross-circuits to achieve the specified PL. PHOENIX CONTACT 106887_en_01...
  • Page 47 The error is only detected as a change in state from “1” to “0” in state “1” of the input. An unexpected change from “0” to “1” is possible. Make sure that this change in state cannot restart the system unintentionally. SF = safety function 106887_en_01 PHOENIX CONTACT...

  • Page 48: Supply Through Ossd

    Single-channel OSSD output (with internal testing) Sensor supply External (OSSD sensor) Achievable SIL 2/SILCL 2/Cat. 2/PL d safety integrity WARNING: Loss of safety function Cross-circuits can result in the loss of the safety function. • Prevent cross-circuits to achieve the specified PL. PHOENIX CONTACT 106887_en_01...
  • Page 49 The error is only detected as a change in state from “1” to “0” in state “1” of the input. An unexpected change from “0” to “1” is possible. Make sure that this change in state cannot restart the system unintentionally. SF = safety function 106887_en_01 PHOENIX CONTACT...

  • Page 50: Two-Channel Equivalent Assignment Of Safe Inputs

    Please note that if a delayed change in state at one of the two inputs causes the safety switch to be switched on again, this can result in delayed transmission of state “1” in the process data image of the inputs. PHOENIX CONTACT 106887_en_01...
  • Page 51 “0” if a “0” signal is present at at least one of the two inputs or an error has been detected – “1” if a “1” signal is present at both inputs and no error has been detected and the conditions are met for a change in state according to Figure 7-6 106887_en_01 PHOENIX CONTACT...

  • Page 52: Notes On Errors

    The message must be acknowledged. Following acknowledgment, the current status of the inputs is displayed in the process data image of the inputs. – The message can be used to monitor the wear of the safety switch. PHOENIX CONTACT 106887_en_01...

  • Page 53: Cross-Circuit Monitoring Enabled, Supply Through T1 And T2

    The error is detected in state “1” or on a change in state from “0” to (cable interrupt between clock violation “1”, as the state only changes in one channel. output and sensor or between sensor and input) Cross-circuit Input to input Cross-circuit No The error is detected in state “1” 106887_en_01 PHOENIX CONTACT...
  • Page 54 Typical parameterization Parameterization Parameterized as/value range Comment Input xx channel 1/channel 2 Assignment Two-channel equivalent Filter time (t 3 ms Application-specific Filter Symmetry 100 ms Application-specific Start inhibit due to symmetry Enabled Application-specific violation Cross-circuit monitoring Cross-circuit monitoring PHOENIX CONTACT 106887_en_01...

  • Page 55: Output Or External Supply

    Internally through clock output T1 (or T2) or externally Achievable SIL 3/SILCL 3/Cat. 3/PL d safety integrity Observe the information to understand the change in state: see “Example of correct and incorrect signal change” on page 51. 106887_en_01 PHOENIX CONTACT...
  • Page 56 “0” to “1” is possible. Make sure that this change in state cannot restart the system unintentionally. The error is also detected as a short circuit of the clock output. The affected clock output is disabled. PHOENIX CONTACT 106887_en_01...
  • Page 57 Typical parameterization Parameterization Parameterized as Comment Input xx channel 1/channel 2 Assignment Two-channel equivalent Filter time (t 3 ms Application-specific Filter Symmetry 100 ms Application-specific Start inhibit due to symmetry Disabled Application-specific violation Cross-circuit monitoring No cross-circuit monitoring 106887_en_01 PHOENIX CONTACT...

  • Page 58: External Supply (Ossd)

    Connect the sensor ground directly to terminal point GND of the safety module. An external ground may not be used. Basic specifications Sensor Two-channel OSSD output (with internal testing) Sensor supply External (OSSD sensor) Achievable SIL 3/SILCL 3/Cat. 4/PL e safety integrity PHOENIX CONTACT 106887_en_01...
  • Page 59 The error is detected in state “1” or on a change in state from “0” to violation “1”, as the state only changes in one channel. SF = safety function Only applies when symmetry monitoring is active 106887_en_01 PHOENIX CONTACT...

  • Page 60: Two-Channel Non-Equivalent Assignment Of Safe Inputs

    Please note that if a delayed change in state at one of the two inputs causes the safety switch to be switched on again, this can result in delayed transmission of state “1” in the process data image of the inputs. PHOENIX CONTACT 106887_en_01...
  • Page 61 “1” if a “1” signal is present at channel 1 of the input and a “0” signal is present at channel 2 of the input and no error has been detected and the conditions are met for a change in state according to Figure 7-12. – “0” is transmitted in all other cases. 106887_en_01 PHOENIX CONTACT...

  • Page 62: Notes On Errors

    The message must be acknowledged. Following acknowledgment, the current status of the inputs is displayed in the process data image of the inputs. – The message can be used to monitor the wear of the safety switch. PHOENIX CONTACT 106887_en_01...

  • Page 63: Cross-Circuit Monitoring Enabled, Supply Through T1 And T2

    The error is detected for inputs which are assigned to different clock outputs. Short circuit Input to ground None The error is detected on a change in state at the latest, as the state only changes in one channel. 106887_en_01 PHOENIX CONTACT...

  • Page 64: Cross-Circuit Monitoring Disabled, Supply Through A Clock

    Cross-circuit monitoring disabled, supply through a clock output or external supply S1, S2 IN1_Ch1 Two switching elements IN1_Ch2 T1 (T2) Supply through T1 or T2 T1 (T2) Figure 7-14 Two-channel non-equivalent assignment of inputs, supply through T1 (or T2), cross-circuit monitoring disabled PHOENIX CONTACT 106887_en_01...
  • Page 65 Change in state from “1” to “0”: The faulty input remains at “1”. A “0” is transmitted in the process data image of the affected inputs. Clock output to clock output None The error is not detected. 106887_en_01 PHOENIX CONTACT...
  • Page 66 Parameterization Parameterized as/value range Comment Input xx channel 1/channel 2 Assignment Two-channel non-equivalent Filter time (t 3 ms Application-specific Filter Symmetry 100 ms Application-specific Start inhibit due to symmetry Enabled Application-specific violation Cross-circuit monitoring No cross-circuit monitoring PHOENIX CONTACT 106887_en_01...

  • Page 67: Startup And Validation

    Instructions on how to proceed in the event of an error: see and status indicators to check whether the module has “Errors: messages and removal” on page 71 started up correctly or whether any errors are indicated. 106887_en_01 PHOENIX CONTACT...

  • Page 68: Startup Mode

    The red CM LED indicates that the device is in startup mode. In the Startup+ software, enter the address set on the device. For additional information on the Startup+ software, refer to the documentation for the software. The software can be downloaded free of charge at phoenixcontact.net/products. PHOENIX CONTACT 106887_en_01...

  • Page 69: Restart After Replacing A Module

    The variables used in your application program have been linked to the safe sensors correctly. • Perform a function test and error simulation. Observe the information on validation provided in the checklist: see Section A 4 “Validation” on page 89. 106887_en_01 PHOENIX CONTACT...
  • Page 70 AXL F SSDI8/4 1F PHOENIX CONTACT 106887_en_01...

  • Page 71: Errors: Messages And Removal

    Module replacement following an error If the safety module is replaced in the event of an error, proceed as described in “Assembly, removal, and electrical installation” on page 29 and “Restart after replacing a module” on page 69. 106887_en_01 PHOENIX CONTACT...

  • Page 72: Note About The Error Codes

    4021: no error; the SafetyBridge address is displayed The error codes are listed in ascending order in Table 9-2 “Error codes”. If error codes are indicated by the system which do not appear in the table, please contact Phoenix Contact. PHOENIX CONTACT 106887_en_01...

  • Page 73: Error Codes

    – Acknowledgment deletes the message. “Start inhibit due to symmetry violation” is enabled: – Acknowledgment deletes the message and activates  the input. The states at the input are detected immediately. 106887_en_01 PHOENIX CONTACT...
  • Page 74 Check supply line length SD on voltage range and load – If U < 17 V, a Acknowledgment: diagnostic message is Acknowledgment deletes the generated message and activates the  input. The states at the input are detected immediately. PHOENIX CONTACT 106887_en_01...
  • Page 75 Incorrect SafetyBridge Module is in the safe state 1. Deactivate the “Operate” address block. – The parameterized See message “4YYY” on SafetyBridge address page 76. does not match the Acknowledgment: not address set on the possible safety module 106887_en_01 PHOENIX CONTACT...
  • Page 76 Error description Acknowledgment (hex) 0441 SD on Internal error Module is in the safe state Please contact Phoenix Contact. 0446 Acknowledgment: not possible 0447 SD on Incorrect configuration Module is in the safe state 1. Resend parameter data to...

  • Page 77: 10 Maintenance, Repair, Decommissioning, And Disposal

    In this case, the correct operation of the safety module can no longer be ensured. • In the event of an error, send the module to Phoenix Contact or contact Phoenix Contact immediately and engage a service engineer. 10.3...
  • Page 78 AXL F SSDI8/4 1F PHOENIX CONTACT 106887_en_01...

  • Page 79: 11 Technical Data And Ordering Data

    Gases that may endanger functions according to DIN 40046-36, Not resistant to gas that may endanger functions (sulfur dioxide (SO DIN 40046-37 hydrogen sulfide (H Resistance of the housing material to fungal decay Resistant Ambient compatibility Not resistant to organic chlorine compounds 106887_en_01 PHOENIX CONTACT...
  • Page 80 1% of 10 , maximum (corresponds to 1 x 10 Hardware fault tolerance (HFT) of the module Permissible duration of use 20 years, 25 years with a low demand rate Operation in the error state: 72 h PHOENIX CONTACT 106887_en_01...
  • Page 81 Input design According to the requirements of EN 61131-2 Type 3 Supply Via clock outputs T1 and T2 or external supply Input current Approximately 4.2 mA at 24 V, typical Maximum permissible current for “0” 2 mA 106887_en_01 PHOENIX CONTACT...
  • Page 82 Saturation voltage - 1 V Simultaneity 100% Derating Permissible cable lengths The total length of the connected cables must not exceed 1000 m per clock output Status indicators None Approvals For the latest approvals, please visit phoenixcontact.net/products. PHOENIX CONTACT 106887_en_01...

  • Page 83: Conformance With Emc Directive

    Make sure you always use the latest software. The software can be downloaded free of charge at phoenixcontact.net/products. Description Type Download area for Order SAFECONF Configuration software for SafetyBridge technology and Trisafe SAFECONF 2986119 modules STARTUP+ Software for starting up and parameterizing Axioline stations STARTUP+ 2700636 106887_en_01 PHOENIX CONTACT...

  • Page 84: Download Data: Documentation

    SafetyBridge technology integration package for controllers from SBT_V3_PLC_Integration_Packages_1.8.exe 2702171 Phoenix Contact, Rockwell and Siemens (S7-1200 as of CPU 1214C, S7-1500, S7-300), Schneider as well as CODESYS-based controllers. The SafetyBridge V3 integration package contains various quick start guides for integrating the SafetyBridge system with different controllers.

  • Page 85: A Appendix: Checklists

    Requirement (mandatory) These requirements must be met for a safety application, in order to complete the relevant phase using the checklist. Requirement (optional) These requirements are optional. For points that are not met, please enter a comment. 106887_en_01 PHOENIX CONTACT...

  • Page 86: A 1 Planning

    14 Have specifications for assembly and electrical installation been defined (e.g., EPLAN) and communicated to the relevant personnel? 15 Have specifications for startup been defined and communicated to the relevant personnel? Date Signature (editor) Date Signature (test engineer) PHOENIX CONTACT 106887_en_01...

  • Page 87: A 2 Assembly And Electrical Installation

    4 Does the connection technology correspond to the specifications in the technical data and in the relevant user manual? 5 Is the address switch set correctly according to the specifications? Date Signature (editor) Date Signature (test engineer) 106887_en_01 PHOENIX CONTACT...

  • Page 88: A 3 Startup And Parameterization

    5 Is the assignment to the clock outputs parameterized for the inputs? 6 Are the clock outputs parameterized? No. Requirement (optional) No Comment 7 Have safety distances that must be observed been calculated according to the response and delay times implemented? Date Signature (editor) Date Signature (test engineer) PHOENIX CONTACT 106887_en_01...

  • Page 89: A 4 Validation

    13 Are the specifications for the parameterization for each channel implemented? 14 Has it been ensured that any person intentionally starting hazardous movements can only do so with a direct view of the danger zone? Date Signature (editor) Date Signature (test engineer) 106887_en_01 PHOENIX CONTACT...
  • Page 90 AXL F SSDI8/4 1F PHOENIX CONTACT 106887_en_01...

  • Page 91: B Appendix: Index

    Inputs ..............22 Operating time ............. 21 Serious errors............22 OSSD Diagnostics indicators ..........19 Single-channel ............48 Directives ..............11 Two-channel ............58 Disposal ...............77 Parameterization............ 35, 39 Error codes (table) ............73 Inputs ..............36 Errors Acknowledgment............71 Messages and removal ..........71 106887_en_01 PHOENIX CONTACT...
  • Page 92 Requirements............15 Standards ..............11 Start inhibit due to symmetry violation......36 Startup .................67 Startup mode ...............68 Status indicators ............19 Supply voltage UBUS ..............25 UI................25 Symmetry..............36 tFilter ................38 tFW ................38 tIN ................38 Transmission speed Setting ..............30 Use, intended...............11 Validation ..............69 PHOENIX CONTACT 106887_en_01...

  • Page 93: C Appendix: Revision History

    C Appendix: revision history Revision Date Contents 2016-03-22 First publication 2016-11-10 HW/FW revision updated page 2 Error code 035x and error location revised page 75 EMC Directive updated page 83 106887_en_01 PHOENIX CONTACT...
  • Page 94 AXL F SSDI8/4 1F PHOENIX CONTACT 106887_en_01...

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