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BIS V-6106 Ethernet/IP™
Processor Unit

24

Two buffers are needed to exchange data and commands between the processor unit and the
host control system (input buffer and output buffer). The buffer contents are exchanged using
cyclical polling. The buffer content depends on the cycle in which it is written (for example,
control commands at the beginning of a job).
When writing to the buffer, the transmitted data from the previous cycle is overwritten. Unwritten
bytes are not deleted and retain their data content.

Process data input (Assembly 100, T->0)

Instance

100

Data length

308

Bytes 0…63

RFID head 1, 64 bytes

Bytes 64…127

RFID head 2, 64 bytes

Bytes 128…191

RFID head 3, 64 bytes

Bytes 192…255

RFID head 4, 64 bytes

Byte 256

Pin 4 input data (if port was not configured as IO-Link)

Byte 257

Short circuit status

Byte 258

Overload status (only if port was not configured as standard I/O)

Byte 259

Power status:
Bit 0 = No actuator supply
Bit 1 = Sensor power
Bit 2 = Actuator power

Bytes 260…291

IO-Link process data, 32 bytes

Byte 292

IO-Link status

Byte 293

IO-Link error

Bytes 294…295

IO-Link vendor ID, 2 bytes

Bytes 296…298

IO-Link device ID, 3 bytes

Bytes 299…307

IO-Link 3 events for every 3 bytes

Process data output (Assembly 101, 0->T)

Instance

101

Data length

292

Bytes 0…63

RFID head 1, 64 bytes

Bytes 64…127

RFID head 2, 64 bytes

Bytes 128…191

RFID head 3, 64 bytes

Bytes 192…255

RFID head 4, 64 bytes

Byte 256

IO-Link pin 4 output data (if port was not configured as IO-Link)

Byte 257

IO-Link pin 4 restart output after short circuit

Byte 258

Reserved

Byte 259

IO-Link control:
Bit 0 = Red LED on display on
Bit 1 = Green LED on display on
Bit 2 = Display lock/PLC lock

Bytes 260…291

IO-Link process data, 32 bytes

7.1 Function

Principle of the
BIS V-6106

7

Device Functions

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Summary of Contents for BIS V-6106

Page 1: ...BIS V 6106 Ethernet IP Technical Reference Operating Manual english...

Page 2: ...www balluff com...

Page 3: ...roduct Description 7 3 3 Control Function 8 3 4 Data Integrity 8 3 5 Read Write Heads H1 H4 9 3 6 EtherNet IP 9 3 7 IO Link 10 3 8 USB Port 10 4 Installation 11 4 1 Processor Unit Scope of Delivery 11...

Page 4: ...set in apostrophes e g L Note tip This symbol indicates general notes Warning notes are especially safety relevant and are used for accident avoidance This information must be read thoroughly and fol...

Page 5: ...Equivalent Isotropically Radiated Power EIP EtherNet IP EMC Electromagnetic compatibility EPC Electronic Product Code ERP Effective Radiated Power FCC Federal Communications Commission FE Functional g...

Page 6: ...e processor unit to an external controller observe proper selection and polarity for the connection as well as the power supply see Chapter 4 Installation on page 11 The processor unit may only be use...

Page 7: ...in areas of use are In manufacturing for controlling material flow e g for model specific processes for workpiece transport using conveying systems for acquiring safety related data In warehouse areas...

Page 8: ...d for each R W head If both bit headers are the same then the data has been fully updated and can be transmitted This means that the data for each R W head is only valid if both bit headers are the sa...

Page 9: ...H4 VM 3_ _ VL 3_ _ VU 3_ _ C 3_ _ BIS V 6106 034 C002 H1 H4 YES YES YES NO BIS V 6106 034 C102 H1 H4 YES YES YES YES Note Only shielded cables are to be used for connecting read write heads An adapter...

Page 10: ...ial point to point connection Communication as an add on to the standard I O Standard I O connection technology unshielded 20 m cable length Communication using 24 V pulse modulation standard UART pro...

Page 11: ...chanical connection dimensions in mm Figure 2 Installation examples A attachment to DIN rails B attachment to T slotted framing 1 2 DIN rail Fastening 3 4 T slotted framing Holder for screw mounting S...

Page 12: ...emale 5 pin A coded EIP port 1 2 M12 female 4 pin D coded PIN Function 1 24 V DC 2 A 3 0 V 4 B 5 n c PIN Function 1 Tx 2 Rx 3 Tx 4 Rx IO Link Service M12 female 5 pin A coded IO Link PIN Function 1 VP...

Page 13: ...EIP port 2 M12 female 4 pin D coded EIP port 1 M12 female 4 pin D coded Protection Class IP65 with connectors Weight 800 g Operating Voltage VS 24 V DC 20 LPS Class 2 Ripple 10 Power Consumption 2 A A...

Page 14: ...0 MHz 2000 MHz Severity level 3A 2000 MHz 2700 MHz Severity level 2A Emission as per EN 55016 2 3 EN61000 6 4 EMC BIS V 6106 034 C10_ EN 300330 2 EN 61000 4 2 4 5 6 Severity level 2A 2A 1A 2A EN 61000...

Page 15: ...into a network in different ways DHCP BootP ARP A MAC address provides the basis for integration into a network This hardware address is unique and distinctly identifies network devices such as the pr...

Page 16: ...ad 4 34 59 IO Link Port Configuration of the IO Link port Byte Meaning 00 HMI read only 01 Device LEDs off Byte Meaning 02 CRC 03 Dynamic mode 04 Type serial number 05 Slow tag detection 06 Low antenn...

Page 17: ...ial number 1 58 IOL Serial number 16 59 Parameter server If this function is enabled the IP configuration settings can no longer be changed via the display If this function is enabled the read write h...

Page 18: ...nd identifier If the data carrier does not contain the correct CRC the processor unit sets an error message in the input buffer see Example 7 on page 73 Data carriers as shipped from the factory can b...

Page 19: ...Byte BIS M 1_ _ 15 131072 Byte 114688 Byte BIS M 1_ _ 20 8192 Byte 7168 Byte BIS L 1_ _ 01 192 bytes 168 bytes BIS L 2_ _ 03 5 bytes read only BIS L 1_ _ 05 192 bytes 168 bytes BIS C 1_ _ 04 511 Byte...

Page 20: ...able Meaning Length number of bytes including length Read write head type Data Carrier Type Serial Number BIS VU 3 BIS VM 3_ _ 001 S4 BIS VL 3_ _ 001 S4 BIS C 3 04 03 02 01 For this option the antenna...

Page 21: ...V02P 224 Byte EEPROM BIS M 1_ _ 06 EM EM4135 288 Byte EEPROM BIS M 1_ _ 07 Infineon SRF55V10P 992 Byte EEPROM BIS M 1_ _ 08 NXP SL2ICS530 160 Byte EEPROM BIS M 1_ _ 09 NXP SL2ICS500 32 Byte EEPROM BIS...

Page 22: ...Auto It is recommended that this value be retained The cycle time is stored in the IO Link device slave and is detected automatically Only times that are slower than the automatically selected times c...

Page 23: ...the device when an IO Link device is plugged in Background The automatic upload makes it possible to read in the parameter configuration of a correctly configured device when plugging one in If an IO...

Page 24: ...e 257 Short circuit status Byte 258 Overload status only if port was not configured as standard I O Byte 259 Power status Bit 0 No actuator supply Bit 1 Sensor power Bit 2 Actuator power Bytes 260 291...

Page 25: ...ytes high byte or Data 06hex Data Data Last Byte Bit Header TI KA GR AV Assignment and explanation Subaddress Bit name Meaning Description of Function 00hex last byte TI Toggle Bit In Controller is re...

Page 26: ...operation Identification system can accept additional data MT Multiple Tag More than 1 data carrier is in the R W head s field only in BIS VL and VM AF Job Error A job was processed incorrectly or was...

Page 27: ...must be used 20hex Address assignment of the read write job is outside the memory range of the data carrier 21hex This function is not possible for this data carrier 30hex License key incorrect 31hex...

Page 28: ...nd Identifier 01hex Read from data carrier 02hex Start address low byte Start address for reading 03hex Start address high byte Start address for reading 04hex Number of bytes low byte Number of bytes...

Page 29: ...ader 01hex Command Identifier 01hex Read from data carrier 02hex Start address low byte Start address for reading 03hex Start address middle byte Start address for reading 04hex Start address high byt...

Page 30: ...from 03hex Start address high byte Start address to be written from 04hex Number of bytes low byte Number of bytes to be written starting from the start address 05hex Number of bytes high byte Number...

Page 31: ...from the start address 06hex Number of bytes middle byte Number of bytes to be written starting from the start address 07hex Number of bytes high byte Number of bytes to be written starting from the s...

Page 32: ...data is valid Command Identifier 87hex Save the Start Address for the Auto Read Function with 24 bit addresses When assigning addresses to data carriers with expanded memory the start address and numb...

Page 33: ...Read out type and serial number None No meaning Last byte 2nd Bit Header If the 1st and 2nd bit headers match the data is valid If execution is successful the response is passed to the input buffer i...

Page 34: ...04hex Target start address low byte Copy the start address of the target data carrier for the function from which copying is to start 05hex Target start address high byte Copy the start address of the...

Page 35: ...tart address of the source data carrier for the function from which copying is to start 05hex Target start address low byte Copy the start address of the target data carrier for the function from whic...

Page 36: ...e carried out 04hex Number of bytes low byte Start address from which the CRC_16 data check is to be carried out 05hex Number of bytes high byte Start address from which the CRC_16 data check is to be...

Page 37: ...x Start address low byte Start address from which the CRC_16 data check is to be carried out 03hex Start address middle byte Start address from which the CRC_16 data check is to be carried out 04hex S...

Page 38: ...f bytes to be written starting from the start address None No meaning Last byte 2nd Bit Header If the 1st and 2nd bit headers match the data is valid Data is accepted from the processor unit only afte...

Page 39: ...Command Identifier 32hex Write a constant value to the data carrier 02hex Start address low byte Start address to be written from 03hex Start address middle byte Start address to be written from 04he...

Page 40: ...bytes for the data carrier identifier EPC or TID that is transmitted in subsequent cycles 04hex Reserved Set to 0 05hex Reserved Set to 0 06hex Reserved Set to 0 None No meaning Last byte 2nd Bit Hea...

Page 41: ...Function 00hex 1st Bit Header 01hex Command Identifier 41hex Unselect Undo the data carrier selection None No meaning Last byte 2nd Bit Header If the 1st and 2nd bit headers match the data is valid I...

Page 42: ...mmand Identifier 42hex Read from EPC None No meaning Last byte 2nd Bit Header Valid data is present if the 1st and 2nd bit strings match If execution is successful the response is passed to the input...

Page 43: ...1st Bit Header 01hex Command Identifier 43hex Write to EPC 02hex No of bytes Number of bytes for the EPC to be written None No meaning Last byte 2nd Bit Header If the 1st and 2nd bit headers match the...

Page 44: ...er setting Subaddress Meaning Description of Function 00hex 1st Bit Header 01hex Command Identifier 44hex Read from TID None No meaning Last byte 2nd Bit Header If the 1st and 2nd bit headers match th...

Page 45: ...Function 00hex 1st Bit Header 01hex Command Identifier 45hex Set antenna power 02hex Antenna power Antenna power ERP EIRP in increments of n 0 25 dBm A value of 0 turns off the antenna Example An ante...

Page 46: ...is valid If execution is successful the response is passed to the input buffer in the following format Subaddress Meaning Description of Function 00hex 1st Bit Header 01hex Antenna power Antenna powe...

Page 47: ...g Last byte 2nd Bit Header If the 1st and 2nd bit headers match the data is valid If the EPCs transfer with the length of 12 bytes the response in the input buffer is as follows Subaddress Meaning Des...

Page 48: ...tified and filled with zeros on the left In the following the number of data carriers read number of bytes per EPC are transmitted For 64 bytes per EPC the actual EPC length in ASCII is specified in t...

Page 49: ...ut bit headers EPC 1 Length 48 bytes 34hex 38hex EPC E2 FF 00 00 E2 11 90 22 E2 03 01 27 33 44 55 66 77 88 99 AC 01 02 03 04 05 06 07 08 09 0A 0B 0C 00 00 00 00 00 00 00 00 00 00 00 00 00 00 AA BB EPC...

Page 50: ...nd bit headers match the data is valid Data is accepted from the processor unit only after the command has been accepted by the processor unit and acknowledged Subaddress Meaning Description of Functi...

Page 51: ...uccessful the response is passed to the input buffer in the following format Subaddress Meaning Description of Function 00hex 1st Bit Header 01hex No of bytes Number of bytes of the parameter that is...

Page 52: ...1 Generation 2 UHF RFID and ISO IEC 18000 63 The EPCglobal standard is available online at www gs1 org standards Subaddress Meaning Description of Function 00hex 1st Bit Header 01hex Command Identifi...

Page 53: ...a may occur In which case the data will be marked as invalid via a check byte at the end of the data block and transmitted to the controller Data blocks marked as valid in their check bytes can be use...

Page 54: ...0 Transmission of the 1st byte that was read from the 2nd data carrier Data 2 1 Transmission of the 2nd byte that was read from the 2nd data carrier Data 2 Additional data from the 2nd data carrier Ch...

Page 55: ...match the data is valid Data is accepted from the processor unit only after the command has been accepted by the processor unit and acknowledged Subaddress Meaning Description of Function 00hex 1st B...

Page 56: ...2nd Bit Header If the 1st and 2nd bit headers match the data is valid Numerical parameters consisting of more than 8 bits 1 byte are transmitted with the LSB first Example The 32 bit value 00000602he...

Page 57: ...and 2nd bit headers match the data is valid If execution is successful the response is passed to the input buffer in the following format Subaddress Meaning Description of Function 00hex 1st Bit Heade...

Page 58: ...a RSSI None No meaning Last byte 2nd Bit Header If the 1st and 2nd bit headers match the data is valid The RSSI value is returned in the form of an I component and a Q component as a power level measu...

Page 59: ...hould be processed with respect to its Lock Status 0 Memory area is not affected by the Action field 1 Memory area is affected by the Action field Action Bit Mask 16 Bit used to determine how the Lock...

Page 60: ...State can no longer be changed Subaddress Meaning Description of Function 00hex 1st Bit Header 01hex Command Identifier 57hex Lock 02hex Mask 0 03hex Mask 1 04hex Action 0 05hex Action 1 None No mean...

Page 61: ...nds a command identifier to the processor unit in the output buffer with the AV bit set The AV bit tells the processor unit that a job is starting and that the transmitted data is valid 2 The processo...

Page 62: ...carrier with 16 bytes per block FRAM BIS M 1_ _ 02 20 EEPROM BIS M 1_ _ 03 07 08 Data carrier detection 20 ms 20 ms Write bytes 0 to 15 60 ms 80 ms For each additional 16 byte block started 25 ms 80 m...

Page 63: ...BIS L 2_ _ Writing not possible Read times in static mode Data carrier with 32 bytes per block No of bytes Read time ms 0 to 31 110 For each additional 32 byte block started 120 Data carrier with 64...

Page 64: ...4 bytes per block No of bytes Read time ms 0 to 3 14 For each additional byte 3 5 0 to 63 224 m Highest address to read Formula t m 1 3 5 ms Example Read 11 bytes starting at address 9 This means that...

Page 65: ...vice not turned on Green Static on Device is ready for operation Flashes Stand by Device not configured Red Static on Severe fatal error Flashes Simple non fatal error e g an incorrect configuration R...

Page 66: ...ted Data carrier is being processed The IO port is assigned an LED for displaying the operational status Indicator Function IO Link Output Input Off Ethernet IP not yet started Signal 0 Signal 0 Yello...

Page 67: ...2 Process Input Buffer note sequence 01hex Command designator 01hex 00hex 0Fhex Set AA bit 02hex Start address 0Ahex 01 0Ehex Enter first 14 bytes 03hex Start address 00hex 00hex 0Fhex Invert TO bit...

Page 68: ...1 Process output buffer note sequence 2 Process Input Buffer note sequence If problem occurs immediately 01hex Command designator 01hex 00hex 0Fhex Set AA bit 02hex Start address 0Ahex 01hex Enter sta...

Page 69: ...t buffer note sequence 2 Process Input Buffer note sequence 01hex Command designator 01hex 00hex 0Fhex Set AA bit 02hex Start address 0Ahex 01 0Ehex Enter first 14 bytes 03hex Start address 00hex 00he...

Page 70: ...buffer 01 0Ehex Enter first 14 bytes 01 0Ehex Copy first 14 bytes 00hex 0Fhex Invert TI bit Process input buffer 00hex 0Fhex Invert TO bit 5 Process output buffer 6 Process output buffer 01 0Ehex Ente...

Page 71: ...ng from address 10 of the data carrier are to be copied to the data carrier in front of read write head 3 starting from address 35 Control Identification System 1 Process output buffer note sequence 2...

Page 72: ...1hex Command designator 32hex 00hex 0Fhex Set AA bit invert TO bit 02hex Start address 50hex 03hex Start address 00hex 04hex Number of bytes E8hex 05hex No of bytes 03hex 00hex 0Fhex Set AV Bit 3 Proc...

Page 73: ...bit 02hex Start address 00hex 03hex Start address 00hex 04hex No of bytes 92hex 05hex No of bytes 02hex 00hex 0Fhex Set AV Bit 3 Process output buffer 4 Process output buffer 01 0Ehex Enter first 14...

Page 74: ...Process input buffer 00hex 0Fhex Set GR bit 00hex 0Fhex Reset BB bit R W head is shut off 3 Process output buffer 4 Process input buffer 00hex 0Fhex Reset GR bit 00hex 0Fhex Set BB bit R W head is swi...

Page 75: ...AE bit 3a Process input buffer 4 Process input buffer 01hex Note number of data carriers 01 0Chex Enter second EPC 12 bytes 02hex Save number of bytes 0Dhex 0Ehex Enter third EPC 2 bytes 03hex 0Ehex C...

Page 76: ...it Invert TO bit 02hex Type EPC 00hex 03hex Length of the EPC 0Chex 04hex Reserved 00hex 05hex Reserved 00hex 06hex Reserved 00hex 00hex 0Fhex Set AV Bit 3 Process output buffer 4a Process output buff...

Page 77: ...00hex 0Fhex Set AV Bit 3 Process output buffer 4a Process output buffer 01 0Ehex Enter first 14 bytes 01 0Ehex Copy first 14 bytes 00hex 0Fhex Invert TI bit 4b Process input buffer 00hex 0Fhex Invert...

Page 78: ...0Fhex Set AV Bit 00hex 0Fhex Set AE bit 3a Process input buffer 01hex Copy the number of tags 02hex Copy the number of bytes per tag 03hex 06hex Copy the 4th byte of data for the 1st tag 07hex Read t...

Page 79: ...00hex 0Fhex Set AV Bit 00hex 0Fhex Set AE bit 3a Process input buffer 4 Process input buffer 01hex Read parameter length 00hex 0Fhex Reset AA and AE bits 02hex Copy parameter data 3b Process output b...

Page 80: ...tor 48hex 00hex 0Fhex Set AA bit Invert TO bit 02hex Parameter 02hex 03hex Parameter 10hex 04hex Parameter Length 04hex 00hex 0Fhex Set AV Bit 3 Process output buffer 4a Process output buffer 01hex Pa...

Page 81: ...levels or confirm or cancel an action by pressing the buttons longer Display Gray black text blue backlighting Enter Down button Cancel Up button 1 BALLUFF Cancel or Enter 2 Main IP Set Info Cancel 1...

Page 82: ...4 Info Tag ID Version Enter 1 s 3 Main Setup Info Cancel 1 s Enter Cancel 5 Info Tag ID Version Enter 1 s 6 Vers Info FW 1 00 IOL 010A Cancel 1 s Two versions are displayed the firmware version of th...

Page 83: ...IP Setup IP Conf IP Addr Cancel 1 s Press Enter Down to select the desired configuration Pressing Cancel 1 s cancels the configuration back to 3 Press Enter 1 s to apply the selected value 5 Save new...

Page 84: ...P octet Press Enter 1 s to confirm the configured IP address in the 4th octet 7 Enter 1 s 8 Cancel 1 s Back to 2 Cancel 1 s Enter 1 s Back to 4 9 A device reset is carried out after restart Back to 1...

Page 85: ...the next octet Press Enter 1 s to confirm the configured subnet mask in the 4th octet 8 Enter 1 s 9 Cancel 1 s Back to 3 Cancel 1 s Enter 1 s Back to 5 10 A device reset is carried out after restart B...

Page 86: ...ddress in the 4th octet 9 Enter 1 s 10 Cancel 1 s Back to 3 Cancel 1 s Enter 1 s Back to 6 11 A device reset is carried out after restart Back to 1 Note The display shows the currently set gateway add...

Page 87: ...nd for setting parameters for IO Link For connection setup with the webserver enter the IP address of the module in the address line of the browser Please use Internet Explorer 7 or higher Information...

Page 88: ...ice is visualized by LEDs on this page If an RFID R W head or an IO Link device is connected to the respective ports then additional information on the connected module will be displayed alongside the...

Page 89: ...re shown on this page Every module can be selected individually right side IO Link modules can also be configured using this page Note The connected IO Link module can be configured in this window A s...

Page 90: ...BIS V 6106 Ethernet IP Processor Unit 90 7 Device Functions This page shows the current status of the module and the network as it appears on the module Diagnostic Module...

Page 91: ...tion and module position and the IP address can be edited on this page The device settings can also be reset This function can only be used after entering a username and password Username Balluff Pass...

Page 92: ...BIS V 6106 Ethernet IP Processor Unit 92 7 Device Functions Contact information is shown on this page Contact...

Page 93: ...d USB Flanged female connector M12 internal thread 5 pin A coded Ethernet IP 1 Flanged female connector M12 external thread 4 pin D coded EtherNet IP 2 Flanged female connector M12 internal thread 4 p...

Page 94: ...1 65 e 16 10 Ctrl P DLE 59 3B 102 66 f 17 11 Ctrl Q DC1 60 3C 103 67 g 18 12 Ctrl R DC2 61 3D 104 68 h 19 13 Ctrl S DC3 62 3E 105 69 i 20 14 Ctrl T DC4 63 3F 106 6 A j 21 15 Ctrl U NAK 64 40 107 6B k...

Page 95: ...Bit Header 8 E Electrical Data 13 I Input buffer Bit Header 26 Intended Use 6 IP Address 15 AnyBus IPcon g 15 DHCP 15 M Mechanical Data 13 O Operating conditions 14 Operating Principle 7 11 24 Output...

Page 96: ...balluff com www balluff com No 911292 726 EN 03 122178 D16 Subject to change Replaces K15 Balluff GmbH Schurwaldstra e 9 73765 Neuhausen a d F Germany Tel 49 7158 173 0 Fax 49 7158 5010 balluff balluf...

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