turck TBIL-S Series Instructions For Use Manual Download | Manualshive

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Your Global Automation Partner

Instructions for Use

TBIL-S…

Compact IO Hubs with IO-Link

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Summary of Contents for TBIL-S Series

Page 1: ...Your Global Automation Partner Instructions for Use TBIL S Compact IO Hubs with IO Link ...

Page 2: ...2 Hans Turck GmbH Co KG T 49 208 4952 0 F 49 208 4952 264 more turck com www turck com ...

Page 3: ...ating Modes 9 5 Mounting 10 5 1 Grounding the device 10 6 Connecting 11 6 1 Connecting the supply voltage and IO Link 11 6 2 Connecting Digital Sensors and Actuators 12 7 Parameterizing and Configuring 14 7 1 Parameters 14 8 Operating 22 8 1 Process Input Data 22 8 2 Process Output Data 25 8 3 LED Displays 25 8 3 1 IO Link 25 8 3 2 Channel LEDs 25 8 4 Evaluating Diagnostic Data 26 8 5 IO Link Even...

Page 4: ...Table of Contents 4 Hans Turck GmbH Co KG T 49 208 4952 0 F 49 208 4952 264 more turck com www turck com ...

Page 5: ...e injury if not avoided WARNING WARNING indicates a dangerous situation with medium risk of death or severe in jury if not avoided CAUTION CAUTION indicates a dangerous situation of medium risk which may result in minor or moderate injury if not avoided NOTICE NOTICE indicates a situation which may lead to property damage if not avoided NOTE NOTE indicates tips recommendations and useful informati...

Page 6: ...14 30 EU electromagnetic compatibility n 2011 65 EU RoHS II Directive 2 4 Manufacturer and Service Hans Turck GmbH Co KG Witzlebenstraße 7 45472 Muelheim an der Ruhr Germany Turck supports you with your projects from initial analysis to the commissioning of your applic ation The Turck product database contains software tools for programming configuration or commissioning data sheets and CAD files ...

Page 7: ...for connecting digital sensors or 8 digital DXP channels for connecting digital sensors and actuators In the devices with DXP channels each I O channel can be used as digital in or output without additional configuration The device is designed in IP67 IP69K and can be mounted directly in the field The devices may only be used as described in these instructions Any other use is not in accord ance w...

Page 8: ...on n TBIL S4 8DIP 8 digital input channels 4 M12 connectors n TBIL S4 8DXP 8 digital I O 4 M12 connectors each channel can be used as digital in or output without additional configuration The devices are designed in a fully encapsulated housing with degree of protection IP67 IP69K 4 1 Device Overview 16 0 63 22 2 0 87 26 8 1 06 31 6 1 24 132 5 20 6 1 0 24 144 5 67 M12 x 1 Ø 4 3 0 17 Ø 4 3 0 17 C3 ...

Page 9: ...tal input channel or 1 universal digital channel per M8 connector TBIL S4 2 digital input channels or 2 universal digital channels per M12 connector n metal connectors 4 3 Functions and Operating Modes The I O hubs with IO Link of the TBIL S series connect up to 8 digital sensors or 8 digital sensors and actuators with one IO Link master port The device provides diagnostics for power supply and sh...

Page 10: ...h the module to the mounting surface with two M4 screws The maximum tighten ing torque for the screws is 1 3 Nm 31 8 132 M4 2 x max 1 3 Nm Fig 3 Mounting the device to a mounting surface example TBIL S3 5 1 Grounding the device When mounting on a mounting plate fasten the device with an M4 metal screw a The FE connection of the device is connected to the reference potential of the installation via...

Page 11: ...ective power supply unit Danger to life due to dangerous voltages on touchable parts Only use SELV or PELV power supplies in accordance with EN ISO 13849 2 which allow a maximum of 60 VDC or 25 VAC in the event of a fault For the connection to IO Link and the supply voltage a 5 pole M12 connector is available Fig 4 M12 connector for the connection to IO Link Connect the device to the supply voltag...

Page 12: ...onnecting digital sensors and actuators 3 pin M8 connectors are available Fig 6 TBIL S3 M8 connector for connecting digital sensors and actuators Connect the sensors to the device according to the pin assignment 3 1 4 v 1 VAUX 3 GND 4 Signal In C0 C7 Fig 7 Pin assignment TBIL S3 8DIP Connect the sensors and actuators to the device according to the pin assignment 3 1 4 v 1 VAUX 3 GND 4 Signal In Ou...

Page 13: ...onnecting digital sensors and actuators Connect the sensors to the device according to the pin assignment 4 1 3 2 5 v 1 VAUX 2 Signal In 3 GND 4 Signal In 5 FE C0 C3 Fig 10 Pin assignment TBIL S4 8DIP Connect the sensors and actuators to the device according to the pin assignment 4 1 3 2 5 v 1 VAUX 2 Signal In Out 3 GND 4 Signal In Out 5 FE C0 C3 Fig 11 Pin assignment TBIL S4 8DXP ...

Page 14: ...ct name Access Length Byte Meaning default value Comment 0x10 16 Vendor Name read only 16 Turck 0x11 17 Vendor Text read only 32 www turck com 0x12 18 Product Name read only 32 e g TBIL S3 8DXP 0x13 19 Product ID read only 16 Ident no of the device e g 100002595 for TBIL S3 8DXP 0x14 20 Product Text read only 32 I O hub 0x15 21 Serial Number read only 16 Sequential serial number 0x16 22 Hardware I...

Page 15: ...ing Input read write 1 Invert digital input 0x42 66 Activate Output read write 1 Activate output only for TBIL S 8DXP 0x43 67 Impulse Stretching Input read write 8 Pulse stretching input 0x44 68 Short Circuit Recovery read write 1 Manual output reset after overcurrent only for TBIL S 8DXP 0x45 69 Failsafe read write 2 Output After Error only for TBIL S 8DXP 0x46 70 Under Voltage Diagnostics read w...

Page 16: ...he process image Format Length Byte 1 byte 1 bit per channel Default values are shown in bold Value Meaning 0 No 1 Yes Input signal inverted n TBIL S3 8DIP n TBIL S3 8DXP Byte 0 Bit offset 7 6 5 4 3 2 1 0 C7P4 C6P4 C5P4 C4P4 C3P4 C2P4 C1P4 C0P4 n TBIL S4 8DIP n TBIL S4 8DXP Byte 0 Bit offset 7 6 5 4 3 2 1 0 C3P2 C3P4 C2P2 C2P4 C1P2 C1P4 C0P2 C0P4 NOTE This parameter can also be set for all connect...

Page 17: ...bold Value Meaning 0 No Output function deactivated channel can only be used as input 1 Yes Output function activated channel can be used as in or output n TBIL S3 8DXP Byte 0 Bit offset 7 6 5 4 3 2 1 0 C7P4 C6P4 C5P4 C4P4 C3P4 C2P4 C1P4 C0P4 n TBIL S4 8DXP Byte 0 Bit offset 7 6 5 4 3 2 1 0 C3P2 C3P4 C2P2 C2P4 C1P2 C1P4 C0P2 C0P4 NOTE This parameter can also be set for all connectors of the module...

Page 18: ...e detected Format Length Array of Bytes 8 byte 1 byte per channel Default values are shown in bold Value Meaning 0 disabled Pulse stretching deactivated 1 1 255 Pulse stretching input 10 ms n TBIL S3 8DIP n TBIL S3 8DXP Bit offset 0 8 16 24 32 40 48 56 Sub index 8 7 6 5 4 3 2 1 C7P4 C6P4 C5P4 C4P4 C3P4 C2P4 C1P4 C0P4 n TBIL S3 8DIP n TBIL S3 8DXP Bit offset 0 8 16 24 32 40 48 56 Sub index 16 15 14...

Page 19: ...bit per channel Default values are shown in bold Value Meaning 0 No Automatic recovery mode 1 Yes Controlled recovery mode output has to be reset manually n TBIL S3 8DXP Byte 0 Bit offset 7 6 5 4 3 2 1 0 C7P2 C6P4 C5P4 C4P4 C5P2 C2P4 C1P4 C0P4 n TBIL S4 8DXP Byte 0 Bit offset 7 6 5 4 3 2 1 0 C3P2 C3P4 C2P2 C2P4 C1P2 C1P4 C0P2 C0P4 NOTE This parameter can also be set for all connectors of the modul...

Page 20: ...t Length Array of Bytes 2 byte 2 bit per channel Default values are shown in bold Value Meaning 00 0 Set output to 0 01 1 Set output to 1 10 Current value Hold current value 11 reserved n TBIL S3 8DXP Byte 1 Byte 0 Bit offset Bit offset 6 4 2 0 6 4 2 0 C7P4 C6P4 C5P4 C4P4 C3P4 C2P4 C1P4 C0P4 n TBIL S4 8DXP Byte 1 Byte 0 Bit offset Bit offset 6 4 2 0 6 4 2 0 C3P2 C3P4 C2P2 C2P4 C1P2 C1P4 C0P2 C0P4 ...

Page 21: ...he undervoltage diagnostics Format Length Array of Bytes 2 byte 1 bit per module Default values are shown in bold Value Meaning 0 Standard IEC 61131 2 lower threshold 19 2 V upper threshold 20 4 V 1 Extended lower threshold 17 5 V Byte 0 Bit offset 7 6 5 4 3 2 1 0 Threshold Byte 1 Bit offset 7 6 5 4 3 2 1 0 ...

Page 22: ...t C5 Over current C4 Over current C3 Over current C2 Over current C1 Over current C0 TBIL S3 8DXP Byte no Bit offset 7 6 5 4 3 2 1 0 Inputs 0 C7P4 C6P4 C5P4 C4P4 C3P4 C2P4 C1P4 C0P4 Module diagnostics 1 Group dia gnostics Under voltage Over voltage Connector diagnostics overcurrent sensor supply 2 Over current C7 Over current C6 Over current C5 Over current C4 Over current C3 Over current C2 Over ...

Page 23: ... Byte no Bit offset 7 6 5 4 3 2 1 0 Inputs 0 C3P2 C3P4 C2P2 C2P4 C1P2 C1P4 C0P2 C0P4 Module diagnostics 1 Group dia gnostics Under voltage Over voltage Connector diagnostics overcurrent sensor supply 2 Over current C3 Over current C2 Over current C1 Over current C0 Channel diagnostics overcurrent output 3 Over current C3P2 Over current C3P4 Over current C2P2 Over current C2P4 Over current C1P2 Ove...

Page 24: ... to determine the origin of the diagnosctic message undervoltage 0 No diagnostic message 1 Undervoltage of supply voltage Overvoltage 0 No diagnostic message 1 Overvoltage of supply voltage Connector diagnostics overcurrent sensor supply Overcurrent Cx 0 No diagnostic mes sage 1 Overload at the sensor supply at the connector The sensor actuator supply is protected in groups If an overload occurs a...

Page 25: ...O Link IO Link LED Meaning Green flashing IO Link communication error free valid process data are sent Red IO Link communication error or module error Red flashing 1 Hz IO Link communication error free invalid process data or diagnostic mes sage Off no voltage supply 8 3 2 Channel LEDs LED 0 7 Meaning input Meaning output Green Input active Output active Red flashing 0 5 Hz Overload of the sensor ...

Page 26: ...per module n Overcurrent sensor supply VAUX per connector Format Length Array of Bytes 2 byte 0 no diagnostics 1 diagnostic message Byte 0 Bit offset 15 14 13 12 11 10 9 8 Group diagnostics Undervoltage supply Overvoltage supply TBIL S3 Byte 1 Bit offset 7 6 5 4 3 2 1 0 Over current VAUX C7 Over current VAUX C6 Over current VAUX C5 Over current VAUX C4 Over current VAUX C3 Over current VAUX C2 Ove...

Page 27: ...current C3P4 Over current C2P2 Over current C2P4 Over current C1P2 Over current C1P4 Over current C0P2 Over current C0P4 8 5 IO Link Events Event Code Description Event Mode 0x5110 Overvoltage supply 0xF4 appears Supply voltage too high 0xB4 disappears 0x5111 Undervoltage supply 0xF4 appears Supply voltage too low 0xB4 disappears 0x7710 Overcurrent VAUX con nector x or overcurrent output x 0xF4 ap...

Page 28: ... Index not available 0x8023 Accesss denied Index cannot be written 0x8030 Parameter value out of range Parameter value out of range 0x8033 Parameter length overrun Length of data to be written does not match the length defined for this para meter 0x8034 Parameter length underrun 0x8035 Function not available Function not available in the device 0x8041 Inconsistent parameter set Inconsistent parame...

Page 29: ...first check whether ambient interference is present If there is no ambient interference present check the connections of the device for faults If there are no faults there is a device malfunction In this case decommission the device and replace it with a new device of the same type ...

Page 30: ... must be decommissioned if it is faulty Observe our return acceptance conditions when returning the device to Turck 11 1 Returning Devices Returns can only be accepted if a declaration of decontamination is enclosed with the device The declaration can be downloaded from http www turck de de produkt retoure 6079 php and must be completely filled in and affixed securely and weather proof to the outs...

Page 31: ...ssion rate COM 2 38 4 kbit s Transmission physics Corresponds to 3 wire physics PHY2 Standard Directive conformity Vibration test According to EN 60068 2 6 Shock test According to EN 60068 2 27 Drop and topple According to IEC 60068 2 31 IEC 60068 2 32 Electro magnetic compatibility According to EN 61131 2 6 4 Approvals CE cULus General Information Dimensions w l h 31 6 144 26 8 mm Operating tempe...

Page 32: ...l group short circuit protec ted with diagnostics channel groups n TBIL S3 8DIP C0 C3 C4 C7 n TBIL S4 8DIP C0 C1 C2 C3 Total current max 4 A per module Inputs Number of channels 8 digital pnp inputs EN 61131 2 Input voltage 18 30 VDC e g from supply voltage Signal voltage low level 3 5 VDC EN 61131 2 type 1 and 3 Signal voltage high level 11 30 VDC EN 61131 2 type 1 and 3 Input delay 0 010 ms Max ...

Page 33: ...nputs EN 61131 2 Input voltage 18 30 VDC e g from supply voltage Signal voltage low level 3 5 VDC EN 61131 2 type 1 and 3 Signal voltage high level 11 30 VDC EN 61131 2 type 1 and 3 Input delay 0 010 ms Max input current 15 mA Potential isolation Inputs to FE 500 VDC Outputs Number of channels 8 digital pnp outputs Type of output diagnostics Channel diagnostics Output voltage 24 VDC from supply vo...

Page 34: ...ich die Erklärung bezieht den Anforderungen der folgenden EU Richtlinien durch Einhaltung der folgenden Normen genügen to which this declaration relates are in conformity with the requirements of the following EU directives by compliance with the following standards EMV Richtlinie EMC Directive 2014 30 EU 26 02 2014 EN 61131 2 2007 Abschnitte section 8 9 10 RoHS Richtlinie RoHS Directive 2011 65 E...

Page 35: ...Over 30 subsidiaries and over 60 representations worldwide www turck com 100003857 2018 11 100003857 ...

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