Inductel - Inductive Identification System Catalogue 2005.06

Inductive identification systemInductel®

05CatalogueJune

1

Contents 0 Inductel® inductive identification system

1

Selection guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . pages 2 and 3

b General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . pages 4 to 9

b “Logistic” tags

v Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 10

v References . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 11

b “Automated production” tags


v references . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . page 13

b Inductive heads for read/write stations



b Read/write stations



b Setting up precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . pages 18 to 21

b Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . pages 22 to 24

b Connections. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . pages 25 to 27

b Tags



b Compact read/write stations and stations with

separate inductive head



2

Inductel® inductive identification system

Selection guide

Applications Logistic: traceability, storage and other applications which do not have high memory requirements

Tags Fixed code Read/write

Dimensions Ø 20 x 1 Ø 30 x 4 22 x 45 x12 54 x 85.5 x 1 Ø 20 x 1 Ø 30 x 4 22 x 45 x12 54 x 85.5 x1 (in mm) Ø 30 x 1 Ø 30 x 1

Type of memory Laser encoded ROM EEPROM

Memory 6 bytes (fixed code) 8 bytes (fixed code) + 116 bytes (read/write)

Nominal sensing distance(in mm) depending on 30 or 40 (dep. 40 40 70 30 or 40 (dep. 40 40 70associated inductive head on model) on model)

Number Read Unlimited Unlimitedof cycles

Write – 105

Time Read 45 ms for all 6 bytes 50 or 102 ms + 26 ms per block of 4 bytes

Write – 76 ms + 124 ms per block of 4 bytes

Associated remoteinductive head andstation

p RS 485 serial linkp Standard protocol for all

stations: Uni-TE/Modbusp Network option protocols: XZ-CRppppp XGL-A1ppppp

Fipio, Modbus Plus, Interbus-S, (page 15) (page 15)Uni-Te/Modbus, Ethernet TCP/IP

p c 24 V supplyp Connection, see page 17 XGK-Spppppp

(page 17)

Associated –compact station

XGL-BppFppp XGL-BppEpppTag type

Pages 11 11

3

Automated production: assembly, flexible workshop automation and all applications which have high memory and fast access requirements

Read/write

22 x 45 x 12 40 x 60 x 17 50 x 75 x 15

Ferro-electric

512 bytes 2 or 8 K bytes 8 or 32 K bytes

35 50 50

1010 (virtually unlimited)

1010 (virtually unlimited)

25 ms + 5 ms per byte 0.5 ms + 0.5 ms per byte

25 ms + 5 ms per byte 0.5 ms + 0.5 ms per byte

XGP-A2pppppp XGP-A3ppppp(page 15) (page 15)

p RS 485 serial linkp Standard protocol for all stations: Uni-Te/Modbus XZ-CRpppppp Network option protocols: Fipio, Modbus Plus, Interbus-S, (page 15) Uni-Te/Modbus, Ethernet TCP/IPp c 24 V supply XGK-Sppppppp Connection, see page 17 (page 17)

p RS 485 serial link –p Standard protocol for all stations: Uni-Te/Modbusp Network option protocols: Fipio, Modbus Plus, Interbus-S, Uni-Te/Modbusp c 24 V supplyp Connection, see page 17 XGP-Sppppppp (page 17)

XGP-B2ppppp XGP-B4ppppp XGP-B5ppppp

13 13 13

4

Identificationmethods

Whyidentification?

- - -

Master

- - -

Inductel® inductive identification system 1

Methods of identification

General 0

Station 1 Station 2 Station 3 Station N

Master

Station 1 Station 2 Station 3 Station N

For activity sectors involved in the design and manufacture of products (capital and consumer goods, foodprocessing, chemical, textile industries, etc.), the market demands increasingly broader product ranges and fasterrenewal of these ranges.

In addition to these market constraints, there are those associated with increased productivity:

p reduction of stocks held,p improvements in quality,p reduction of work in progress,p reduction of delivery times.

To meet these new demands, a single tool must be capable of manufacturing a wide variety of products. Productiontools must therefore be flexible and be capable of handling fast changes of production runs.

To optimise production, it is in particular essential to be able to identify products being manufactured (work inprogress) and to improve the management of product data flow.

In the past, two principal methods have been used for identifying work in progress:

p The first method is to record the product in a shift register at the start of the manufacturing process and to track itby means of a series of presence detections.

This solution carries with it a major risk of desynchronisation and errors.

p The second method allocates a fixed code to each product. Actions to be taken are determined by consulting adatabase in the central processing unit.

This solution has the disadvantages of a centralised architecture which can cause problems of availability, poorresponse times and limitations due to processing capacity.

Analysis of the limitations of these two methods has led to the development of a reliable system (to eliminate the risksof desynchronisation and errors), using distributed databases (to optimise data exchange by limiting thevolume of data and enable machines to operate autonomously).

This high level identification system can handle a large quantity of data.

It is known as read/write identification.

Its operating principle is based on attaching, to each product, a contact-free, read/write memory tag which can beaccessed throughout the manufacturing process.

5

Database functionData associated with the product or movingobject

Composition

Principle

Operative functionTechnological medium for contact-free datatransmission

Control functionInterface unit handling the data exchanges

Transmitter: Read/write station

Inductive technology is based on the use of a mid-range frequency electromagnetic signal (carrier wave) forcontact-free transmission of data between two electronic devices.Data is transmitted by each of the devices alternately, by modulating the carrier wave:- modulation of power transmitted, to send data from the transmitter,- modulation of external carrier wave losses by the receiver, to return data to the transmitter.

Transmission of the mid-range frequency carrier wave powers the tags which are attached to the (passive) objectsto be identified.

Modulation of the power transmitted at the station or of the carrier wave losses at the tag enables two-waydata transmission.

Advantages

p No mechanical contact with the object to be identified.p Two-way data exchange between the station and the tag.p Precise dialogue zone.p Fast data exchange rate.p No power supply needed for mobile object to be identified.

Internal database:

p Dialogue zone: area in which transmitter andreceiver can exchange data.

p 2 types of data exchange are possible:

p There are 5 phases in the data exchange procedure:

p Read/write stations: compact or with remoteinductive head.

- fixed code tags,- read/write tags with ferro-electric memory or EEPROM.

- data exchanges on the fly, where the number of bytes which can be exchanged depends solely onthe length of time in the dialogue zone. These exchanges are generally limited to a few bytes, for example for controlling reflex actions (routing),- stationary data exchanges where a large number of bytes can be exchanged. These exchanges enable transmission of data relating to products or the process at various stages during manufacture (usually 1 to 200 bytes)

- phase 1: carrier wave is sensed as soon as tag enters the dialogue zone,

- phase 2: tag sends “tag present” message.- phase 3: read/write instruction is initiated,- phase 4: data is read/written,- phase 5: exchange is checked.


Inductive technology

General 0

Data

Carrier wave

Receiver: Tag

6

Advantages

FunctionIdentification by fixed code

DATADATADATA

Magelis

Altivar

TBX

Premium


Identification concepts

Attachment of a fixed code, read-only tag to objects which are to beidentified.

p Particularly suitable for identification of zones or mobile equipment(trucks, overhead carriers, etc.) where the data does not change.

p Can be used in harsh environments (grease, dust) which are unsuitablefor optical identification systems.

p Identification of bins, palettes, etc….

p In general, any application in which only an identification functionis required.

p Fixed code tag:decentralised memory, read-only tag attached to the product to beidentified.

p Read station (1): one-way communication device for handling data transmitted from thefixed code tag to the processor.

Note: fixed code identification can also be performed using read/write tags.

(1)The read station is a read/write station which is used for reading only.

General 0

Applications

Components

7

Identification by read/write code

DATA DATA

DATA DATA

DATA DATA

DATA DATA

DATA DATA

DATA DATA

DATA DATA

DATA DATA

Magelis

Altivar

TBX

Premium


Identification concepts

Attachment of a read/write tag to objects which are to be identified.

p Reading/writing of a large quantity of data.

p High level identification.

p Reliable data transmission.

p Independent operation.

p Increased flexibility.

p Manufacturing.

p Assembly.

p Conveying.

p In general, any application where decentralisation of data will provideimproved performance and processing of data if required.

p Read/write tag: decentralised memory, read/write tag attached to the product to beidentified

p Read/write station: two-way communication device for handling data transmitted between theread/write tag and the processor.

General 0

Function

Applications

Advantages

Components

8


Component partsDatabase function (data associated with a productor mobile carrier)

Database: fixed code (6 bytes)p Read-only memory.p Read time: 45 ms for all 6 bytes.p Unlimited number of read cycles.p Factory configured.

Database: fixed code on 8 bytes + read/write code on 116 bytes.p Read/write memory.p Read time: 50 or 102 ms + 26 ms per block of 4 bytes.p Write time: 76 + 124 ms per block of 4 bytes.p Unlimited number of read cycles.p Limited number of write cycles (105).

Database: 0.5, 2 or 8 K byte ferro-electric memory.p Read/write memory.p Read/write time 25 ms + 5 ms per byte.p Virtually unlimited number of read/write cycles (1010).

p

Database: 8 or 32 K byte ferro-electric memory.p Read/write memory.p Read/write time 0.5 ms + 0.5 ms per byte.p Virtually unlimited number of read/write cycles (1010).

(1) Tags with polyester casing, specially designed for food processing applications.

General 0

“Logistic” series tagsTags used for traceability, storage and other applications which donot have high memory requirements.

Fixed code tags

Read/write tags

“Automated production” series tagsTags used in assembly, flexibleworkshop automation and anyother applications which have highmemory and fast accessrequirements.

(1)

(1)

Read/write tags, type P

Read/write tags, type F

9

Magelis

Altivar TBX

Premium

Magelis

Altivar

TBX

Premium

The operative and control functions are separate. The station comprises a base unit and a separate inductive head adaptedto the type of tag.The station has a Uni-Telway/Modbus asynchronous serial communicationlink as standard.Models equipped with an optional, additional card allow communicationusing different protocols (Fipio, Modbus Plus, Interbus-S, Ethernet TCP/IP)or have a 2nd Uni-Telway/Modbus link.

User manuals for read/write stations are available separately, see page 11.

The operative and control functions are combined in a single unit.The station has a Uni-Telway/Modbus asynchronous serial communicationlink as standard.Models equipped with an optional, additional card allow communicationusing different protocols (Fipio, Modbus Plus, Interbus-S) or have a 2nd

Uni-Telway/Modbus link.A compact station can only be used with “automated production” read/writetags with a read/write time of 5ms/byte.

User manuals for read/write stations are available separately, see page 11.


Component partsControl function components (interface unit handling data exchange)

General 0

Read/write stations Read/write stations with remote inductive head

Compact read/write stations

10

References:page 11

Setting-up:pages 18 to 21

Dimensions:page 22


“Logistic” tags

(1) Can be cleaned with hot water under pressure.(2) For food and beverage processing applications.

Fixed code tags

Tag type XGL-B21F213 XGL-B31F213 XGL-B34F213 XGL-B45F215 XGL-B90F210

Ambient air For operation °C - 25…+ 85 0…+ 55temperature For storage °C - 40…+ 100 - 10…+ 55

Degree of protection IP 67 IP 68 (1) IP 67Vibration resistance 10…150 Hz, amplitude ± 2 mm, 2 gn max., conforming to IEC 60068-2-6Shock resistance 50 gn, duration 11 ms, conforming to IEC 60068-2-27Resistance to electromagnetic interference Electrostatic discharges: level 3 to IEC 61000-4-2. Radio-frequencies: level 3 to IEC 61000-4-3.

Dimensions mm Ø 20 x 1 Ø 30 x 1 Ø 30 x 4 22 x 45 x 12 54 x 85.5 x 1

Enclosure material Epoxy Polyester (2) Rilsan PVC

Mounting method Glued Screw or clip fixingClips into holder,fixed by screws

–

Memory capacity bytes 6 (48 bits)

Type of memory ROM, factory laser encoded

Type of operation Read

Type of associated inductive head XGL-A112p7p XGL-A112D70

Nominal Read Ø 30 induct. head mm 30 40 – –sensing (Pn)distance

mm 30 40 40 70dpg. on 65 x 100 ind. headinductive head typeNumber of read cycles UnlimitedRead time ms 45 for all 6 bytesData retention time Unlimited

Read/write tags

Tag type XGL-B21E213 XGL-B31E213 XGL-B34E213 XGL-B45E215 XGL-B90E210

Ambient air For operation °C - 25…+ 85 0…+ 55temperature For storage °C - 40…+ 100 - 10…+ 55

Degree of protection IP 67 IP 68 (1) IP 67Vibration resistance 10…150 Hz, amplitude ± 2 mm, 2 gn max., conforming to IEC 60068-2-6Shock resistance 50 gn, duration 11 ms, conforming to IEC 60068-2-27Resistance to electromagnetic interference Electrostatic discharges: level 3 to IEC 61000-4-2. Radio-frequencies: level 3 to IEC 61000-4-3.

Dimensions mm Ø 20 x 1 Ø 30 x 1 Ø 30 x 4 22 x 45 x 12 54 x 85.5 x 1

Enclosure material Epoxy Polyester (2) Rilsan PVC

Mounting method Glued Glued Screw or clip fixingClips into holder, fixed by screws

–

Memory capacity bytes 8 fixed code + 116 read/write

Type of memory EEPROM

Type of operation Read/write

Type of associated inductive head XGL-A112p7p XGL-A112D70

Nominal Read Ø 30 induct. head mm 30 40 – –sensing (Pn)

mm 30 40 40 70distance 65 x 100 ind. headdpg. on ind.

mm 0,5 Pnhead type WriteNumber of read cycles UnlimitedNumber of write cycles 105

Read time msNormal indirect reading: 50 + (26 x number of blocks of 4 bytes)Selective reading: 102 + (26 x number of blocks of 4 bytes)

Write time ms 76 + (124 x number of blocks of 4 bytes)Data retention time 10 years at + 45 °C

Characteristics 0

11


“Logistic” tags

Fixed code tags

Nominal sensing Dimensions Memory Sold in Unit reference Weightdistance capacity lots ofmm mm bytes kg

30 Ø 20 x 1 6 10 XGL-B21F213 0.001whatevertype ofinductive head



40 22 x 45 x 12 6 10 XGL-B45F215 0.018with65 x 100 mminductive head

70 54 x 85.5 x 1 6 10 XGL-B90F210 0.005with65 x 100 mminductive head

Read/write tags

Nominal sensing Dimensions Memory Sold in Unit reference Weightdistance capacity lots ofmm mm bytes kg

30 Ø 20 x 1 8 fixed code 10 XGL-B21E213 0.001whatever + 116 read/writetype ofinductive head



40 22 x 45 x 12 8 fixed code 10 XGL-B45E215 0.018with + 116 read/write65 x 100 mminductive head

70 54 x 85.5 x 1 8 fixed code 10 XGL-B90E210 0.005with + 116 read/write65 x 100 mminductive head

XGL-B21p213

813

425

XGL-B31p213

8134

26

XGL-B34p213

813

427

XGL-B45p215

813

428

XGL-B90p210

813

429

References 0

Characteristics:page 10


Dimensions:page 22

12


“Automated production” tags

(1) Time at each read or write instruction.

Read/write tags

Tag type XGP-B241220 XGP-B462220 XGP-B464220 XGP-B574230 XGP-B576230

Ambient air For operation °C - 25…+ 85temperature

°C - 40...+ 85For storage

Degree of protection IP 65 IP 67

Vibration resistance 10…150 Hz, amplitude ± 2 mm, 2 gn max., conforming to IEC 60068-2-6

Shock resistance 50 gn, duration 11 ms, conforming to IEC 60068-2-27

Resistance to electromagnetic interference

Electrostatic discharges: level 3 to IEC 61000-4-2. Radio-frequencies: level 3 to IEC 61000-4-3.

Dimensions mm 22 x 45 x 12 40 x 60 x 17 40 x 60 x 17 50 x 75 x 15

Enclosure material Rilsan PPS Rilsan

Mounting method Clips into holder,fixed by screws

Screw fixing

Memory capacity bytes 512 2048 8184 8184 32 736

Type of memory Ferro-electric


Type of associated inductive head XGP-A212D70 or compact station XGP-S1p04202 XGP-A312D70

Nominal read/write 65 x 100 ind. head mm 35 50 50distance (Pn)dpg. on inductive

mm 35 50 -head type Compact station

Recommended operating distance 0.4 Pn

Number of read/write cycles 1010 (virtually unlimited)

Read/write time ms 25 (1) + 5 per byte 0.5 (1) + 0.5 per byte

Data retention time years 10

Characteristics 0

References:page 13


Dimensions:page 22

13


“Automated production” tags

Read/write tags (type P)

Nominal sensing Dimensions Memory Reference Weightdistance capacitymm mm K bytes kg

35 22 x 45 x 12 0.5 XGP-B241220 0.018

50 40 x 60 x 17 2 XGP-B462220 0.057

50 40 x 60 x 17 8 XGP-B464220 0.057

Fast read/write tags (type F)

Nominal sensing Dimensions Memory Reference Weightdistance capacitymm mm K bytes kg

50 50 x 75 x 15 8 XGP-B574230 0.075

50 50 x 75 x 15 32 XGP-B576230 0.075

Accessories for tags

Description Sold inlots of

Unit reference Weightkg

Replacement support 10 XGS-Z41 0.003for 22 x 45 x 12 tagsXGP-B241220 or XGL-B45p215

XGP-B241220

8134

31

XGP-B46p220

8134

30

XGP-B57p230

813

432

XGS-Z41

5626

95

References 0



Dimensions:page 22

14


Inductive heads for read/write stations

“Logistic” inductive heads

Inductive head type XGL-A112A71 XGL-A112D70

Ambient air For operation °C - 25…+ 70temperature

For storage °C - 40…+ 85

Degree of protection IP 65

Vibration resistance 10…150 Hz, amplitude ± 2 mm, 2 gn max., conforming to IEC 60068-2-6

Shock resistance 50 gn, duration 11 ms, conforming to IEC 60068-2-27

Resistance to electromagnetic Electrostatic discharges: level 3 to IEC 61000-4-2. Radio-frequencies: level 3 to IEC 61000-4-3.Fast transients: level 1 to IEC 61000-4-4interference

Dimensions mm Ø 30 x 73 65 x 100 x 29

Nickel-plated brass PPSEnclosure material

Threaded M30 x 1.5 Screw fixingMounting method

M12, 5-pin male connector. Maximum length of connecting cable = 2 mConnection method

XGK-S1ppp21Type of associated station

“Logistic” tag XGL-Bppp213 “Logistic” tag XGL-Bppp21pType of associated tag

ms Depending on associated tagRead/write time

Nominal Read Ø 20 tag mm 30 30sensing (Pn)

mm 40 40distance Ø 30 tagdpg. on

mm – 40type of 22 x 45 tagassociated

mm – 70tag 54 x 85 tagWrite mm 0.5 Pn

“Automated production” inductive heads

XGP-A212D70 XGP-A312D70Inductive head type

ms 25 + 5 per byte 0.5 +0.5 per byteRead/write time

°C - 25…+ 70Ambient air For operationtemperature

°C - 40…+ 85 For storage

IP 65Degree of protection

10…150 Hz, amplitude ± 2 mm, 2 gn max., conforming to IEC 60068-2-6Vibration resistance

50 gn, duration 11 ms, conforming to IEC 60068-2-27Shock resistance

Electrostatic discharges: level 3 to IEC 61000-4-2. Radio-frequencies: level 3 to IEC 61000-4-3.Fast transients: level 1 to IEC 61000-4-4

Resistance to electromagneticinterference

Dimensions mm 65 x 100 x 29

PPSEnclosure material

Screw fixingMounting method

M12, 5-pin male connector. Maximum length of connecting cable = 2 mConnection method

XGK-S1ppp21Type of associated station

“Automated production” tag, (type P) XGP-Bppp220 “Automated production” tag, (type F) XGP-B57p230Type of associated tag

Nominal sensing 22 x 45 tag mm 35 –distance for

mm 50 –read/write (Pn) 40 x 60 tagdpg. on type of associated tag mm – 5050 x 75 tag

Characteristics 0

References:page 15


Dimensions:page 22

15


Inductive heads for read/write stations

“Logistic” inductive heads

Nominal sensing Dimensions Associated tag Reference Weightdistancemm mm kg

30 or 40 Ø 30 x 73 XGL-Bppp213 XGL-A112A71 0.110depending onassociated tag

30, 40 or 70 65 x 100 x 29 XGL-Bppp213 XGL-A112D70 0.275depending on XGL-B45p215associated tag XGL-B90p210

“Automated production” inductive heads

Nominal sensing Dimensions Associated tag Reference Weightdistancemm mm kg

35 or 50 65 x 100 x 29 XGP-B241220 XGP-A212D70 0.295depending on XGP-B46p220associated tag (type P)

50 65 x 100 x 29 XGP-B57p230 XGP-A312D70 0.295(type F)

Inductive head-station connection (1)

Description Length Type of female Reference Weightof cable connector kg

Jumper cables L = 1 m Straight XZ-CR1511064D1 0.080 M12-M12, 5-pin

Straight male connector(for connection to station)

L = 2 m Straight XZ-CR1511064D2 0.130

Accessories

Description Reference Weightkg

Fixing clamp for XSZ-B130 0.020Ø 30 mm cylindrical inductive head

(1) Required for connecting a remote inductive head to a read/write station XGK-S1p0p21 (see page 17).

XGL-A112A71

813

433

XGL-A112D70XGP-Ap12D70

813

437

XZ-CR1511064Dp

5225

71

XSZ-B130

813

434

References 0



Dimensions:page 22

16


Read/write stations

Stations with remote inductive head

Station type XGK-S120421 XGK-S130421 XGK-S140421 XGK-S110421 XGK-S110121 XGK-S1715503Ambient air For operation °C - 25…+ 55 0…+ 50temperature For storage °C - 40…+ 85Degree of protection IP 65Vibration resistance 10…15.7 Hz, amplitude ± 2 mm or 37.7 …150 Hz: 2 gn, conforming to IEC 60068-2-6Shock resistance 50 gn, duration 11 ms, conforming to IEC 60068-2-27Conformity to standards UL eResistance to electromagnetic Electrostatic discharges: level 3 to IEC 61000-4-2. Radio-frequencies: level 3 to IEC 61000-4-3.

Fast transients: level 3 to IEC 61000-4-4interferenceEnclosure dimensions mm 120 x 210 x 60Type of associated memories Fixed code or read/write (depending on tag associated with inductive head). Configured by internal linkSupply voltage V c 24Supply voltage limits(including ripple)

V c 21…29 c 21…25 c 21…29

Consumption with inductive head mA < 280 (inrush: 3 A)

< 280 (inrush: 3 A)

< 550 (inrush: 3 A)

< 240 (inrush: 3 A)

< 220 (inrush: 3 A)

< 550 (inrush: 3 A)

Serial Standard Type RS 485links Protocol Uni-Te/Modbus

Speed 2400…19 200 BaudsAdditional Type Depending on protocol –(depending on network option)

Protocol Modbus Plus Fipio Interbus-S Uni-Te/Modbus – Ethernet TCP/IP

Speed 1.2 x 106 Bauds 500 x 103 Bauds 2400…19 200 Bauds

– 10/100 Mbps with automatic recognition

Display Green LED: Power onRed LEDs: faultsYellow LED: tag presentEthernet status window: for station XGK S1715503

Connec- Power supply 1/2" 20UNF, 3-pin male connectortions Inductive head M12, 5-pin female connector.

Serial links Standard M12, 4-pin male connectorNetwork SUB-D, 9-pin

female connector

SUB-D, 9-pin male connector

M23, 9-pin connectors

SUB-D, 9-pin female connector

– RJ45 connector, included (1)option

Compact stations with built-in inductive head

Station type XGP-S1204202 XGP-S1304202 XGP-S1404202 XGP-S1104202Ambient air For operation °C - 25…+ 55temperature For storage °C - 40…+ 85Degree of protection IP 65Vibration resistance 10…15.7 Hz, amplitude ± 2 mm or 37.7 …150 Hz: 2 gn, conforming to IEC 60068-2-6Shock resistance 50 gn, duration 11 ms, conforming to IEC 60068-2-27Conformity to standards UL eResistance to electromagnetic Electrostatic discharges: level 3 to IEC 61000-4-2. Radio-frequencies: level 3 to IEC 61000-4-3.

Fast transients: level 3 to IEC 61000-4-4interferenceEnclosure dimensions mm 120 x 210 x 60Type of associated memories Read/writeType of associated tag “Automated production” tag XGP-Bppp220 (read/write time: 25 ms + 5 ms per byte)Nominal read/write

mm 35distance (Pn) 22 x 45 tagdepending on

mm 50associated tag 40 x 60 tagSupply voltage V c 24Supply voltage limits(including ripple)

V c 21…29 c 21…25 c 21…29

Consumption mA < 280 (inrush: 3 A) < 280 (inrush: 3 A) < 550 (inrush: 3 A) < 240 (inrush: 3 A)Serial Standard Type RS 485links Protocol Uni-Te/Modbus

Speed 2400…19 200 BaudsAdditional Type Depending on protocol(depending on network option)

Protocol Modbus Plus Fipio Interbus-S Uni-Te/Modbus

Speed 1.2 x 106 Bauds 500 x 103 Bauds 2400…19 200 BaudsDisplay Green LED: Power on. Red LEDs: faults. Yellow LED: tag presentConnec- Power supply 1/2" 20UNF, 3-pin male connectortions Serial links Standard M12, 4-pin male connector

Network SUB-D, 9-pin female connector

SUB-D, 9-pin male connector

M23, 9-pin connectors

SUB-D, 9-pin female connectoroption

(1) To ensure an IP 65 degree of protection of the equipment, it is necessary to use the connector included with the Inductel station.

Characteristics 0

References:page 17


Dimensions:page 23

Connections:pages 24 and 25

17


Read/write stations

(1) Stations associated with “Automated production type P” tags, with read/write time of 25 ms + 5 ms per byte,XGP-Bppp220. Sensing distance 35 or 50 mm, depending on associated tag. (2) For other connection components, not shown above and depending on the network option: see cabling exampleson pages 24 and 25.

Stations with remote inductive head

Standard serial Network option Reference Weightlink protocol Additional serial link protocol kg

Uni-Te/Modbus – XGK-S110121 1.050

Uni-Te/Modbus XGK-S110421 1.120

Modbus Plus XGK-S120421 1.120

Fipio XGK-S130421 1.120

Interbus-S XGK-S140421 1.120

Ethernet TCP/IP XGK-S1715503 1.120

Compact stations with built-in inductive head (1)

Standard serial Network option Reference Weightlink protocol Additional serial link protocol kg

Uni-Te/Modbus Uni-Te/Modbus XGP-S1104202 1.230

Modbus Plus XGP-S1204202 1.230

Fipio XGP-S1304202 1.230

Interbus-S XGP-S1404202 1.230

Connections (2)

Application Description Reference Weightkg

For c 24 V 1/2" 20UNF, 3-pin female connector XZ-CC20FDM30B 0.020power supply

Pre-wired female connectors L = 2 m XZ-CP1865L2 0.0801/2" 20UNF, 3-pin

L = 5 m XZ-CP1865L5 0.180

L = 10 m XZ-CP1865L10 0.350

For standard M12, 4-pin female connector XZ-CC12FDM40B 0.020 serial link

For RS 232 C/RS 485 Line adaptor without modem signals, VZ3-N586 0.025line adaptor powered by the station (see page 25)

c 24 V power supply

Description Reference Weightkg

Regulated switch mode supply, ABL-7RE2402 0.480single-phase, 48 W, 2 A, input voltage mains single-phase 100…240 V, 47…63 Hz

XGK-Spppppp

8134

38

XGP-Spppppp

8134

39

XZ-CCppFDMp0B

813

441

XZ-CP1865Lp

522

573

VZ3-N586

813

440

ABL-7RE2402

813

443

References 0



Dimensions:page 23


18

e

ee e

e

e e

ee

e

e

e


Tags, inductive heads and read/write stationsEffect of metal objects

Cylindrical tags

Mounting on non metallic support

Mounting on metal supportProvide an intermediate, non metallic support

“Logistic” rectangular tags XGL-B45p215

“Automated production” rectangular tags

Minimum mounting distances (1)

Cylindrical inductive heads

to avoid affecting sensing distance

Minimum recommended distances for mounting, in relation to metal objects

Mounting on support = correct Mounting in support = incorrect (tags cannot be embedded in support)

XGL- e (mm) Examples of adhesives ensuring assembly resistant to temperatures of - 40 to B21p213 20 + 85°C and to chemical agents (petrol, diesel oil, acids, detergents, cuttingB31p213 10 oils) :B34p213 10 Brand Type NatureB90p210 30 HEXCEL A 10/150 Two-part polyurethane

A 10/200Mounting by gluing for XGL-B21p213 and XGL-B31p213 HENKEL Macroplast Two-part polyurethane Mounting by screw or clip fixing for XGL-B34p213 UK8103

LOCTITE Multi-Bond Monomers composed of methacrylate elastomer,329/330 for applicationPoxycomet Two-part epoxy

Mounting in support = incorrect (tags cannot be embedded) Mounting on metal

No effect on sensing distance

Mounting in metal Mounting on metal


XGP- e (mm)B241220 10B462220 10B464220 10B574230 15 (1) Provided mounting recommendations are complied with, the effect of metal B576230 15 on sensing distances is less than 5%.

Mounting in metal, correct Mounting in metal, incorrect Plate mounting

Tightening torque: 50 N.m

Rectangular inductive heads Compact stationsMounting in metal Mounting on metal Mounting on metal


Recommended minimum distances No effect on sensing distance

e (mm)XGL-A112D70 30XGP-A212D70 30XGP-A312D70 30

Setting up precautions 0

Characteristics : pages 10 to 16

References : pages 11 to 17

Dimensions : pages 22 and 23

Connections : pages 24 and 25

19

d1 d2

d2d1

d1

d2

d1

d1

1 4

2

3

12

4

3

d1 d3

d2

d11 2

3

4

1

4

2

3


Tags, inductive heads and read/write stationsMutual effect of components on each other

Between two cylindrical tags

Between two rectangular tags

Between two separate cylindrical inductive heads

Distances d in mmBetween two separate rectangular inductive heads or two compact read/write stations

Distances d in mm (1) Minimum recommended distances between components with dialogue in progress. Possibility of inhibiting dialogue of an inductive head by the supervisor.(2) The values in brackets take into account secondary lobes (see page 20).(3) The values in brackets are for use of fixed code tags.

Minimum recommended distances between system components (1)

Viewed from top

“Logistic” Associated separate inductive headstags

XGL-A112A71 XGL-A112D70

d1 (2) d2 d1 (2) d2

XGL-B21F213 25 (50) 25 80 (120) 35

XGL-B31F213 35 (60) 30 90 (140) 50

XGL-B34F213 35 (60) 30 90 (140) 50

XGL-B21E213 25 (50) 25 80 (120) 35

1: dialogue in progress XGL-B31E213 35 (60) 30 90 (140) 502, 3, 4: must not interfere withdialogue of 1 Distances d in mm XGL-B34E213 35 (60) 30 90 (140) 50

“Logistic” Associated separate inductive headstags

XGL-A112D70

Viewed from top d1 (2) d2 (2) d3

XGL-B45F215 90 (140) 50 (130) 50

XGL-B45E215 90 (140) 50 (130) 50

“Automated Associated separate inductive heads or compact stationsproduction”tags XGP-A212D70 XGP-A312D70 XGP-S1p04202

d1 d2 (2) d3 d1 d2 (2) d3 d1 d2 (2) d3

XGP-B241220 120 20 (50) 35 – – – 120 20 (50) 351: dialogue in progress2, 3, 4: must not interfere with dialogue of 1 XGP-B462220 150 0 (40) 50 – – – 150 0 (40) 50

XGP-B464220 150 0 (40) 50 – – – 150 0 (40) 50

XGP-B574230 – – – 120 4 (60) 70 – – –

Distances d in mm XGP-B576230 – – – 120 4 (60) 70 – – –

Side by side Face to face

d1 (3) d2 (3)

XGL-A112A71 400 (150) 500 (300)

Side by side Face to face

d1 (3) d2 (3)

XGL-A112D70 500 (150) 700 (400)

XGP-A212D70 1000 1000

XGP-A312D70 500 500

XGP-S1p04202 1000 1000






20

Pn

(1)

Pn

Pn

(1)

(1)

Pn

Pn


Tags, inductive heads and read/write stationsDialogue zones

Component pairs with cylindrical inductive heads

“Logistic” inductive head and tag pairs

Nominal sensing dist. Nominal sensing dist.Components for reading (Pn), in mm for writing

XGL-A112A71 +XGL-B21p213 30 0.5 Pn (2)

XGL-A112A71 +XGL-B31p213 40 0.5 Pn (2)

XGL-A112A71 +XGL-B34p213 40 0.5 Pn (2)

(1) Recommended travel zone (between 0.4 and 0.8 Pn) (2) Write only for pairs with read/write tagsLimited to 0.5 Pn for write function XGL-BppEppp

Component pairs with rectangular inductive head or compact station

“Logistic” inductive head and tag pairs

Nominal sensing dist. Nominal sensing dist.Components for reading (Pn), in mm for writing

XGL-A112D70 +XGL-B21p213 30 0.5 Pn (2)

XGL-A112D70 +XGL-B31p213 40 0.5 Pn (2)

XGL-A112D70 +XGL-B34p213 40 0.5 Pn (2)

XGL-A112D70 +XGL-B45p215 40 0.5 Pn (2)

XGL-A112D70 +XGL-B90p210 70 0.5 Pn (2)

“Automated production” inductive head and tag pairs

XGP-A212D70 +XGP-B241220 35 Pn

XGP-A212D70 +XGP-B462220 50 Pn

XGP-A212D70 +XGP-B464220 50 Pn

XGP-A312D70 +XGP-B574230 50 Pn

XGP-A312D70 +XGP-B576230 50 Pn

XGP-S1p04202 +XGP-B241220 35 Pn

XGP-S1p04202 +XGP-B462220 50 Pn

XGP-S1p04202 +XGP-B464220 50 Pn

(1) Recommended travel zone (between 0.4 and 0.8 Pn) (2) Write only for pairs with read/write tagsLimited to 0.5 Pn for write function of a “logistic” pair XGL-BppEppp






21

αα 0 90

1

K1

α

0,5

8045

0,85

α 0 90

1

K

α

α

1

0,85

0

K2α

0

0,85

1K

α

α


Tags, inductive heads and stationsDirection of movement in the dialogue zone, axial offset

Direction of movementFor cylindrical components, the dialogue zone is omindirectional. There is no optimum orientation between the head and tag when their sensing faces are parallel.

For rectangular components, the direction of movement is indicated by a double arrow on the sensing face of the products.The dimensions of the dialogue zone are at their maximum when the arrows on the 2 products are directly opposite each other in 2 parallel planes.

Axial offset

K = correction coefficient to be applied to the dimensions of the dialogue zone lobes.

Direction of movementThe direction of movement is indicated by a double arrow on the sensing face of the productsThe dimensions of the dialogue zone are at their maximum when the arrows on the 2 products are directly opposite each other in 2 parallel planes.

Example :Optimum travel position: axial offset = 0° with parallel planes

Axial offsetComponents in 2 parallel planes

Components in 2 non-parallel planes

K1, K2 = correction coefficient to be applied to the dimensions of the dialogue zone lobes.

Pairs of cylindrical or rectangular “logistic” components

Cylindrical components Rectangular components

Pairs of rectangular “automated production” components






22

Dimensions 1 Inductel® inductive identification system 1

Cylindrical tagsXGL B21p213 XGL B31p213 XGL B34p213

Rectangular tagsXGL B45p215, XGP B241220 XGL B90p210 XGP B574230, XGP B576230

Base fixing (view with cover removed)

XGP B442220, XGP B464220

Rectangular inductive headsXGP Ap12D70

Cylindrical inductive headXGL A112A71

(1) LED

c 24 V power supplyABL 7RE2402

Cylindrical inductive head fixing clampXSZ B130

(1) 2 elongated holes Ø 4 x 8

22

45 307,

57,

5

= =12

5485

,515

65

10

10

75

50

10

50 60

10

40

==6

17

M12x1

29

10 6615

==

100

17

90

= =

6 (1)

36,764

M30 x 1,5

M12 x 1

13

12027

120

8224

(1)

39

35,5

31

18,5

3,5

39

21,7

Characteristics:pages 10 to 16

References:pages 11 to 17



23

Dimensions (continued) 1 Inductel® inductive identification system 1

Read/write stationsXGK Spppppp, XGP Spppppp

XGK S110121 XGp S11042pp, XGp S12042pp Side view, connector

side Side view, connector side

(1) M12 connector for connecting remote inductive head to XGK Spppppp.(2) 1/2" 20UNF connector for connecting power supply.(3) M12 connector for connection to standard Uni-Telway/Modbus network.(4) SUB-D connector for connection to Uni-Telway/Modbus or Modbus Plus network (network option).

60

(1)

105

120

197

210 13

ConnectorsSee below

according totype of station

(3)

(2)

13

(3)

(4)

(2)

13





24

Dimensions (continued) 1 Inductel® inductive identification system 1

Read/write stationsXGK S1715503

Side view, connector side

XGp S13042pp XGp S14042pp Side view, connector

side Side view, connector side

(1) 1/2" 20UNF connector for connecting power supply.(2) M12 connector for controlling second Inductel station.(3) RJ45 socket for connection to Ethernet network.(4) M12 connector for connection to standard Uni-Telway/Modbus network.(5) SUB-D connector for connection to Fipio network (network option).(6) M23 connectors for connection to Interbus-S network (network option).

(2)

(3)

(1)

13

(4)

(5)

(1)

13

(6)

(6)

24

(1) (4)





25

Connections 1 Inductel® inductive identification system 1

XGK S110121Use of standard serial link on a Uni-Telway bus

1 Inductive head: M12, 5-pin female connector.2 Power supply: 1/2" 20UNF, 3-pin male connector.3 Standard Uni-Telway/Modbus network: M12, 4-pin

male connector.(1) Supply to RS 485/RS 232 adaptor VZ3 N586 (see page 27).XGK S110421, XGP S1104202

Example of cabling for Uni-Telway/Modbus bus

1 Inductive head: M12, 5-pin female connector (for XGK S110421 only).

2 Power supply: 1/2" 20UNF, 3-pin male connector.3 Standard Uni-Telway/Modbus network: M12, 4-pin

male connector.4 Uni-Telway/Modbus network option: SUB-D, 9-pin

female connector.(1) Supply to RS 485/RS 232 adaptor VZ3 N586 (see page 27).

XGK S120421, XGP S1204202Example of cabling for Modbus Plus bus



male connector.4 Modbus Plus network option: SUB-D, 9-pin female

connector.(1) Supply to RS 485/RS 232 adaptor VZ3 N586 (see page 27).

2

3

1

3 4

2 1

5

1

32 1 2

4 3

S

E

0 V A

1 2 30 V+ 24 V + 24 V B0 V

+ 8 V (1)

Premium

XZ CC20FDM30BXZ CC12FDM40B

1

2

3

4

3 4

2 1

5

1

32 1 2

4 3

S

E

0 V A

0 V+ 24 V + 24 V B0 V

+ 8 V (1)

1

2

3

4

5

6

7

8

9

A B

0 V

1 2 3 4

TSX SCY 21601

TSX SCY CU 6530

TSX SCA 62 TSX SCA 62

Premium

XZ CC20FDM30B

(Cable included with station) (Cable included with station)

1

2

3

4

3 4

2 1

5

1

32 1 2

4 3

S

E

0 V A

0 V+ 24 V + 24 V B0 V

+ 8 V (1)

1

2

3

4

5

6

7

8

9

1 2 3 4

Signal 2

Signal 1

Shielding990 NAD 211 10

990 NAD 230 10

990 NAD 230 00

990 NAD 211 10

490 NAA 271

Premium

XZ CC20FDM30B

TSX MBP 100 TSX MBP CE 0 0




Dimensions:pages 22 to 24

26

Connections (continued) 1 Inductel® inductive identification system 1

XGK S130421, XGP S1304202Example of cabling for Fipio bus



male connector.4 Fipio option: SUB-D, 9-pin male connector.

(1) Supply to RS 485/RS 232 adaptor VZ3 N586 (see page 27).XGK S140421, XGP S1404202

Example of cabling for Interbus-S bus



male connector.4 and 5 Interbus-S network option: M23, 9-pin male

and female connectors.(1) Cable supplied by Phoenix Contact, fitted with a SUB-D, 9-pin male connector and an M23,

9-pin female connector. Length to be specified.

(1) Supply to RS 485/RS 232 adaptor VZ3 N586 (see page 27). (2) Cable supplied by Phoenix Contact, fitted with an M23, 9-pin male connector and an M23, 9-pin female connector. Length to be specified.

1

2

3

4

3 4

2 1

5

1

32 1 2

4 3

S

E

0 V A

0 V+ 24 V + 24 V B0 V

+ 8 V (1)

1

2

3

4

5

6

7

8

9

+–

1 2 3 4

TSX FP ACC 7

TSX FP ACC 7

TSX FP ACC 12/ACC 2

TSX FP ACC 3/ACC 4

XZ CC20FDM30B

TSX FP CG 0 0

TSX FP CA

Premium

123

5

4

3 4

2 1

5

1

32 1 2

4 3

S

E

0 V A

0 V+ 24 V + 24 V B0 V

+ 8 V (1)

1 2 3

4

35

2

1 8

9 6

7

/DI

RBST

DO

/DO

DI

COM5

64

7

8 1

93

2

/DI

RBST

DO

/DO

DI

COM

4 5

TSX IBY100

RS 232

24 V 24 V 24 V 24 V

RS 485

990 NAA 263 20

Premium

XZ CC20FDM30B

IBS DSUB9/CCO KONFEK T (1)

IBS CCO R KONFEK T (2)





27

Connections (continued) 1 Inductel® inductive identification system 1

XGK S1715503 Example of cabling for Modbus Ethernet TCP/IP network

Pin n° Signal1 TD +

2 TD -

3 RD +4 unused

5 unused

6 RD -7 unused

8 unused

1 Inductive head: M12, 5-pin female connector.2 Power supply: 1/2" 20UNF, 3-pin male connector.3 Controlling second Inductel station:

M12, 4-pin male connector.4 Modbus Ethernet TCP/IP network option: RJ45

connector.(1) Jumper cable, M12 4-pin female / SUB-D 9-pin female, to be

made up by the user.

Connection of standard RS 232 serial link (with PC etc.)Use adaptor VZ3 N586 Scheme of jumper cable to be made up (view of connectors on pin side)

(1) Jumper cable, M12 4-pin female / SUB-D 9-pin female, to be made up by the user.

1

2

3

4

3 4

2 1

5

1

32 1 2

4 3

S

E

0 V A

0 V+ 24 V + 24 V B0 V

+ 8 V (1)

1 2 3XZ CC20FDM30B

Premium

490NTW000pp

499NESpp100

12345678

4

VZ3-N586 (1)

1

2

3

4

5

6

7

8

93 4

2 1





28

Characteristics 1 Inductel® inductive identification system 1

Tags

Read/write tags with RAM memoryType of tag XGS B6268010 XGS B6362012

Ambient air temperature For operation °C 0…+ 70 - 25…+ 80 (+ 150 limited duration)

For storage °C - 25…+ 70 - 25…+ 80

Degree of protection IP 68 IP 67

Vibration resistance 10…500 Hz, 1.5 mm or 20 gn conforming to IEC 60068-2-6, NF C 20-706

Shock resistance 50 gn for 11 ms conforming to IEC 60068-2-27

Resistance to electromagnetic interference Electrostatic discharges: conforming to IEC 60801-2Radio-frequencies: conforming to IEC 60801-3

Dimensions mm 60 x 40 x 15 100 x 40 x 60

Nominal sensing distance mm 60 50


Memory FRAM (Ferro-electric RAM) 2 Kb, without battery

RAM 2 Kb (with lithium battery back-up)

Number of write/read cycles 1010 per bit Unlimited

Data retention time 10 years 5 years (at all temperatures within range)

Read time ms 12 + 1.5 per byte without parity check6 + 1.5 per byte with parity check

Write time ms 12 + 1.5 per byte without parity check12 + 3 per byte with parity check

Mounting method Screw fixing

Read/write tags with EEPROM memoryType of tag XGS B214403p XGS B314403p XGS B6444034

Ambient air temperature For operation °C 0…+ 70 or - 40…+ 85 (depending on type, see page 29) 0…+ 50For storage °C - 40…+ 85


Vibration resistance 10…500 Hz, 1 or 1.5 mm or 20 gn conforming to IEC 60068-2-6, NF C 20-706

Shock resistance 50 gn for 11 ms conforming to IEC 60068-2-27

Resistance to electromagnetic interference Electrostatic discharges: conforming to IEC 60801-2Radio-frequencies: conforming to IEC 60801-3

Dimensions mm Ø 18, L = 12 Ø 30, L = 18 60 x 40 x 17

Nominal sensing distance (S) mm 8 15 60 or 100 (depending on associated station or inductive head)

Usable sensing distance (Sr)(allowing for all dispersion)

mm 6.5 12 48 or 96 (depending on associated station or inductive head)


Memory (no back-up battery) bytes 256

Number of write cycles 1,000,000 per bit

Data retention time 10 years

Read time ms 7 per word

Write time ms 20 per word

Mounting method Screwed Screw fixing

29

References 1 Inductel® inductive identification system 1

Tags

(1) Depending on associated station or inductive head (see page 30).

Read/write tagsSensing distance

Dimensions Memory Operating temperature

Reference Weight

mm mm °C kg60 60 x 40 x 15 FRAM 2 Kb - 25…+ 70 XGS B6268010 0.050

50 100 x 40 x 60 RAM 2 Kb - 25…+ 80(+ 150 limited duration)

XGS B6362012 0.146

8 Ø 18 (M18 x 1 threaded)

EEPROM256 bytes

0…+ 70 XGS B2144031 0.005

- 40…+ 85 XGS B2144032 0.005

15 Ø 30(M30 x 1.5 threaded)

EEPROM256 bytes

0…+ 70 XGS B3144031 0.024

- 40…+ 85 XGS B3144032 0.024

60 or 100 (1)

60 x 40 x 17 EEPROM 256 bytes

0…+ 50 XGS B6444034 0.050

AccessoriesDescription Unit reference Weight

kgKey for accessing battery of read/write tags XGS B6262010and XGS B6472045(Sold in lots of 5)

XGS Z01 0.020

Battery replacement kit for XGS B6262010 and XGS B6472045, comprising: 5 lithium batteries + 2 keys XGS Z01 + 5 plugs + 5 seals

XGS Z02 0.020

Fixing key for Ø 18 and Ø 30 mm cylindrical tags XGS Z05 0.020

5207

09

XGS B6268010

8173

74

XGS B6362012

8173

73

XGS B3144031

8173

75

XGS B6444034

8066

02

XGS Z01

8066

03

XGS Z05

30

Characteristics 1 Inductel® inductive identification system 1

Compact read/write stations and stations with separate inductive head

Compact stationsType of station XGS K6204321 XGS K6304321 XGS D6204326 XGS D6304326

Ambient air temperature For operation °C - 25…+ 55

For storage °C - 40…+ 85Degree of protection IP 67

Vibration resistance 10…500 Hz, 1.5 mm or 20 gn, conforming to IEC 60068-2-6, NF C 20-706

Shock resistance 50 gn for 11 ms conforming to IEC 60068-2-27Resistance to electromagnetic interference Electrostatic discharges: level 3, conforming to IEC 60801-2

Radio-frequencies: level 2, conforming to IEC 60801-3Fast transients: level 2, conforming to IEC 60801-4

Type of associated tag XGS B6p6p01p (read/write RAM) XGS B6444034Sensing distance mm 60 ± 10

Supply voltage V c 24

Supply voltage limits V c 21…28 (including ripple)Maximum ripple V 4

Consumption mA < 200. Inrush: 3000 < 200

Protocols Uni-Te, Modbus REFLEXE, Open Uni-Te, Modbus REFLEXE, OpenType of link RS 485

Transmission speed Bauds 300…19,200 300…57,600

Stations with separate inductive headType of station XGS D6204316 XGS D6304316

Ambient air temperature For operation °C - 25…+ 55For storage °C - 40…+ 85


Vibration resistance 10…500 Hz, 1.5 mm or 20 gn, conforming to IEC 60068-2-6, NF C 20-706Shock resistance 50 gn for 11 ms conforming to IEC 60068-2-27

Resistance to electromagnetic interference Electrostatic discharges: level 3, conforming to IEC 60801-2Radio-frequencies: level 2, conforming to IEC 60801-3Fast transients: level 2, conforming to IEC 60801-4

Type of associated tag XGS B1pp, XGS B2pp, XGS B3pp, XGS B6444034Supply voltage V c 24

Supply voltage limits V c 21…28 (including ripple)

Maximum ripple V 4Consumption mA < 200

Protocols Uni-Te, Modbus REFLEXE, Open

Type of link RS 485Transmission speed Bauds 300…19,200 300…57,600

Separate inductive headsType of inductive head XGS P181630 XGS P301630 XGS P461631 XGS P701631

Dimensions mm Ø 18 Ø 30 60 x 40 x 17 224 x 40 x 52

Ambient air temperature For operation °C - 25…+ 70 (- 25…+ 50 for XGS P701631)For storage °C - 40…+ 85

Nominal sensing distance mm 8 15 60 100

Usable sensing distance mm 6.5 12 48 80Connection By connector (see extension leads with female connectors on next page)

Degree of protection Depending on associated extension lead (IP 67 for XGS Z0p)

IP 65

31

References 1 Inductel® inductive identification system 1

Compact read/write stations and stations with separate inductive head

(1) Extension lead with 2 m length cable, fitted with a female connector at each end.

Compact stationsExchange protocol

Compatible tags Type oflink

Reference Weightkg

Uni-Te, Modbus XGS B6p6p01p RS 485 XGS K6204321 0.380

XGS B6444034 RS 485 XGS D6204326 0.380

REFLEXE, Open XGS B6p6201p RS 485 XGS K6304321 0.380

XGS B6444034 RS 485 XGS D6304326 0.380

Stations with separate inductive headStationsExchange protocol Type of

linkReference Weight

kgUni-Te, Modbus RS 485 XGS D6204316 0.360

REFLEXE, Open RS 485 XGS D6304316 0.360

Separate inductive heads associated with cylindrical tagsDimensions Reference Weight

kgØ 18 (M18 x 1 threaded) XGS P181630 0.030

Ø 30 (M30 x 1.5 threaded) XGS P301630 0.095

Separate inductive heads associated with rectangular tags60 x 40 x 17 mm XGS P461631 0.058

224 x 40 x 52 mm XGS P701631 0.720

Extension leads for separate inductive head (1)Type of connectors Reference Weight

kgStraight XGS Z06 0.115

Angled 90° XGS Z07 0.130

AccessoriesDescription Reference Weight

kgRS 232C/RS 485 line adaptor without modem signals Power supply: c 18…30 VConsumption: 20 mAMaximum transmission speed: 19200 baudsMounting on 35 mm 7 rail

XGS Z24 0.100

Fixing bracket for station XGS E XUZ A44 0.135

Fixing clamps for separate inductive head Ø 18 mm XSZ B118 0.010

Ø 30 mm XSZ B130 0.020

817

377

XGS K6204321

817

378

XGS P301630

XGS P461631 XGS P701631

81738

0

817

379

8066

05

XGS Z06 XGS Z24

XUZ A44 XSZ B118

8173

81

80660

7

806

606

ART. 034839 06 / 2005 - V2.0

ED

ME

D20

0011

ENSchneider Electric Industries SAS

Head Office89, bd Franklin Roosevelt92506 Rueil-Malmaison CedexFrance

www.schneider-electric.comwww.telemecanique.com

Due to evolution of standards and equipment, the characteristics indicated in texts and images of thisdocument do not constitute a commitment on our part without confirmation.Design: Schneider ElectricPhotos: Schneider ElectricPrinted by:

Simply Smart !

The efficiency of Telemecanique branded solutionsUsed in combination, Telemecanique products provide quality solutions, meeting all your Automation & Control applications requirements.

A worldwide presence

Constantly availableb More than 5 000 points of sale in 130 countries.b You can be sure to find the range of products that are right for you and which complies fully with the standards in the country where they are used.

Technical assistance wherever you areb Our technicians are at your disposal to assist you in finding the optimum solution for your particular needs.b Schneider Electric provides you with all necessary technical assistance, throughout the world.

Inductel - Inductive Identification System Catalogue 2005.06

Documents

Transcript of Inductel - Inductive Identification System Catalogue 2005.06