SICK IDS230, ISD260 and ISD280 IR Data Transmission Systems Operating instructions

Brand: SICK

Model: IDS230, ISD260 and ISD280 IR Data Transmission Systems

Type: Operating instructions

O PERATING INSTRUCTIONS

ISD 230, ISD 260 and ISD 280

IR Data Transmission Systems

Operating Instructions

ISD 230/260/280 IR Data Transmission Systems

Quick Finder

Installation procedure (overview)

Installing the ISD 230 system

Two identical units from the ISD 230 series are required (e.g. 2 x ISD 230-2111).

1. Set the transmission frequency on each unit

See Chapter 5.1.2 Setting the transmission frequencies ...................................Page 22

2. Configure the data interface on each unit

(interface type and transfer rate)

See Chapter 5.1.3 Configuring the data interface.................................................Page 24

3. Connect the units

(data interface and function interfaces)

See Chapter 5.1.4 Connector pin assignment........................................................Page 26

See Chapter 5.1.6 Connecting the data interface ................................................. Page 27

See Chapter 5.1.7 Connecting the functions interfaces......................................Page 30

4. Mount and align the units

See Chapter 4 Installation.............................................................................................. Page 16

5. Apply the 24 V DC supply voltage to both units

6. Check alignment

See Chapter 6.1. Switching on the units/fine adjustment ..................................Page 43

7. Send data on electrical interface

See Chapter 6.2. Functional test of the data transmission................................Page 43

The ISD 230 is ready for operation!

Installing the ISD 260/280 system

Two different units are required from the same series (e.g. 1 x ISD 260-1111 and

1 x ISD 260-1112)

1. Configure the data interface on each unit

(interface type and transfer rate)

See Chapter 5.2.3 Configuring the data interface ................................................Page 33

2. Connect the units

(data interface and function interfaces)

See Chapter 5.2.4 Pin assignment .............................................................................Page 35

See Chapter 5.2.6 Connecting the data interface ................................................ Page 37

See Chapter 5.2.7 Connecting the functions interfaces .....................................Page 40

3. Mount and align the units

See Chapter 4 Installation.............................................................................................. Page 16

4. Apply the 24 V DC supply voltage to both units

5. Check alignment

See Chapter 6.1. Switching on the units/fine adjustment ..................................Page 43

6. Send data on electrical interface

See Chapter 6.2. Functional test of the data transmission................................Page 43

The ISD 260/280 is ready for operation!

ISD 230

ISD 260/ISD 280

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Operating Instructions

ISD 230/260/280

Contents

1 Notes on this document ............................................................................................ 7

1.1 Purpose ....................................................................................................................................... 7

1.2 Target audience ........................................................................................................................ 7

1.2.1 Mounting, electrical installation, maintenance and replacement ............. 7

1.2.2 Configuration and startup ....................................................................................... 7

1.3 Information content ................................................................................................................. 7

1.4 Symbols ....................................................................................................................................... 8

2 Safety Information ....................................................................................................... 9

2.1 Autorized users ......................................................................................................................... 9

2.1.1 Mounting and maintenance ................................................................................... 9

2.1.2 Electrical installation and replacement .............................................................. 9

2.1.3 Startup, operation and configuration .................................................................. 9

2.2 Intended use.............................................................................................................................. 9

2.3 General safety instructions and protection measures ................................................ 9

2.4 Quick stop and quick restart ............................................................................................. 10

2.4.1 Stopping the ISD .................................................................................................... 10

2.4.2 Restarting the ISD .................................................................................................. 10

2.5 Environmental information ................................................................................................. 10

2.5.1 Power requirements .............................................................................................. 10

2.5.2 Disposal after removal from service ............................................................... 10

Product description ..................................................................................................11

3.1 Design ....................................................................................................................................... 11

3.1.1 Scope of delivery .................................................................................................... 11

3.1.2 Variants ...................................................................................................................... 11

3.1.3 System requirements ........................................................................................... 12

3.1.4 Design ........................................................................................................................ 13

3.2 Method of operation ............................................................................................................ 14

3.3 Indicators and control elements ...................................................................................... 15

3.3.1 Control elements .................................................................................................... 15

3.3.2 Function of the LEDs ............................................................................................. 15

4 Installation ................................................................................................................... 16

4.1 Installation sequence........................................................................................................... 16

4.2 Preparations ............................................................................................................................ 16

4.2.1 Configuring the units ............................................................................................. 16

4.2.2 Required components .......................................................................................... 16

4.2.3 Required accessories ........................................................................................... 16

4.2.4 Required auxiliary parts ........................................................................................ 16

4.2.5 Selecting the mounting location......................................................................... 17

4.2.6 Mounting accessories .......................................................................................... 18

4.3 Mounting and adjusting the system ............................................................................... 19

4.3.1 Mounting the ISD on the three-point bracket .............................................. 19

4.3.2 Mounting the AMS 50 Connection Module .................................................. 20

4.3.3 Alignment of the ISD ............................................................................................. 20

4.4 Dismantling the system ...................................................................................................... 21

5 Electrical installation ............................................................................................... 22

5.1 ISD 230 system .................................................................................................................... 22

5.1.1 Installation sequence ............................................................................................ 22

Operating Instructions

ISD 230/260/280 IR Data Transmission Systems

Contents

5.1.2 Setting the transmission frequencies ............................................................. 22

5.1.3 Configuring the data interface ........................................................................... 24

5.1.4 Connector pin assignment .................................................................................. 26

5.1.5 Preparations for electrical installation ............................................................. 26

5.1.6 Connecting the data interface ........................................................................... 27

5.1.7 Connecting the functions interfaces ................................................................ 30

5.1.8 Connecting via the AMS 50 connection module ........................................ 32

5.2 ISD 260 and ISD 280 systems ....................................................................................... 33

5.2.1 Installation sequence ............................................................................................ 33

5.2.2 Transmission frequencies ................................................................................... 33

5.2.3 Configuring the data interface ........................................................................... 33

5.2.4 Pin assignment ........................................................................................................ 35

5.2.5 Preparations for electrical installation ............................................................. 36

5.2.6 Connecting the data interface ........................................................................... 37

5.2.7 Connecting the functions interfaces ................................................................ 40

5.2.8 Connecting via the AMS 50 connection module ........................................ 42

6 Operation ..................................................................................................................... 43

6.1 Switching on the units/fine adjustment ......................................................................... 43

6.2 Functional test of the data transmission ...................................................................... 43

6.3 Note on operation of the sy

stem .................................................................................... 43

6.3.1 Operation in cooling plants ................................................................................. 43

6.4 Management of the system .............................................................................................. 43

7 Maintenance ............................................................................................................... 44

7.1 Cleaning the ISD during operation .................................................................................. 44

7.2 Maintenance ........................................................................................................................... 45

7.3 Disposal .................................................................................................................................... 45

8 Troubleshooting ......................................................................................................... 46

8.1 Overview of the possible errors and malfunctions .................................................... 46

8.1.1 Configuration errors ............................................................................................... 46

8.1.2 Mounting errors ...................................................................................................... 46

8.1.3 Electrical installation errors ................................................................................. 46

8.1.4 Malfunctions ............................................................................................................. 46

8.2 Monitoring errors and malfunctions ................................................................................ 46

8.3 Troubleshooting ..................................................................................................................... 46

8.4 SICK Support .......................................................................................................................... 48

8.5 Replacing a ISD unit ............................................................................................................. 48

9 Technical data ............................................................................................................ 49

9.1 Data sheet ISD....................................................................................................................... 49

9.2 Dimensioned drawing of the ISD ..................................................................................... 50

10 Appendix ......................................................................................................................51

10.1 Accessories ............................................................................................................................. 51

10.1.1 Mounting accessories .......................................................................................... 51

10.1.2 Connection modules ............................................................................................. 51

10.1.3 Cables and plug-in connections ........................................................................ 51

10.2 Dimensioned drawing of the accessories .................................................................... 52

10.3 Supplementary documentation ........................................................................................ 53

10.4 EG Declaration of Conformity ............................................................................................ 54

10.5 Device specification card ................................................................................................... 55

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Operating Instructions

ISD 230/260/280

Figures and Tables

Abbreviations used

AMS Connection module with distributor (signal)/with additional power supply

ISD Infra-red sensor for data transmission

LED Light Emitting Diode

Tables

Table 3-1: ISD 230 variants ...................................................................................................................................... 11

Table 3-2: ISD 260 variants ...................................................................................................................................... 11

Table 3-3: ISD 280 variants ...................................................................................................................................... 11

Table 3-4: Meaning of LEDs ..................................................................................................................................... 15

Table 4-1: Aperture angles ......................................................................................................................................... 17

Table 4-2: Light spot diameter of transmitter .................................................................................................... 18

Table 5-1: ISD 230: Setting of the jumpers ST 12 to ST 15 for transmission frequencies .......... 23

Table 5-2: ISD 230: Setting of the DIL switching blocks S 1 to S 3 ........................................................ 25

Table 5-3: ISD 230: Pin assignment of the 9-pin D-Sub connector ........................................................ 26

Table 5-4: ISD 230: Maximum cables lenghts between the ISD and the host ................................... 26

Table 5-5: ISD 230: Connecting the data interface ........................................................................................ 28

Table 5-6: ISD 230: Characteristic data of the “Light path free“ and “Contamination“

switching outputs ..................................................................................................................................... 31

Table 5-7: ISD 230: Characteristic data of the “Transmitter off“ switching input ............................... 32

Table 5-8: ISD 260/280: Setting of the DIL switching blocks S 1 and S 2 .......................................... 34

Table 5-9: ISD 260/280: Pin assignment of the 5-pin round connector ............................................... 35

Table 5-10: ISD 260/280: Pin assignment of the 9-pin D-Sub socket (data interface).................... 35

Table 5-11: ISD 260/280: Maximum cables lenghts between the ISD and the host ........................ 36

Table 5-12: ISD 260/280: Connecting the data interface ............................................................................. 38

Table 5-13: ISD 260/280: Characteristic data of the “Light path free“ switching output ................. 41

Table 5-14: ISD 260/280: Characteristic data of the “Transmitter off“ switching input .................... 42

Table 8-1: Troubleshooting ........................................................................................................................................ 47

Table 9-1: Technical Specifications of ISD 230/260/280 .......................................................................... 49

Table 10-1: Accessories: mounting accessories ................................................................................................ 51

Table 10-2: Accessories: connection modules ................................................................................................... 51

Table 10-3: Accessories: cables and plug-in connections ............................................................................. 51

able 10-4: Supplementary documentation in English language ................................................................. 53

Figures

Fig. 3-1: Design of an ISD unit ............................................................................................................................. 13

Fig. 3-2: Block diagram: operating principle of the ISD system ............................................................. 14

Fig. 3-3: LED indicators on the top of the housing ...................................................................................... 15

Fig. 4-1: Mount the two units at a distance of 0.2 ... 150/180/200 m ............................................... 17

Fig. 4-2: ISD unit with three-point bracket no. 5 306 369 (accessory) ............................................. 18

Fig. 4-3: Design of the three-point bracket ....................................................................................................... 19

Fig. 4-4: Using the optical adjustment aid (crosshairs) on an unit ........................................................ 20

Fig. 5-1: ISD 230: Position of the jumpers ST 12 to ST 15 and ST 17 on the main board ........ 22

Fig. 5-2: ISD 230: Arrangement with operation of two systems in parallel ........................................ 23

Fig. 5-3: ISD 230: Switching from CL 20 mA passive to CL 20 mA active ........................................ 24

Fig. 5-4: ISD 230-4111: position of the DIL switches for configuring the data interface............ 25

Fig. 5-5: ISD 230: Line termination for the RS 485 interface ................................................................. 30

Operating Instructions

ISD 230/260/280 IR Data Transmission Systems

Figures and Tables

Fig. 5-6: ISD 230: Functionality of the “Light path free“ and “Contamination“ LEDs .................... 31

Fig. 5-7: ISD 230: Wiring of the “Light path free“ and “Contamination“ PNP outputs................... 31

Fig. 5-8: ISD 230: Connection diagram of “Transmitter off“ PNP input .............................................. 31

Fig. 5-9: ISD 230: Terminal assignment of an ISD 230 unit in the AMS 50 Connection

Module ......................................................................................................................................................... 32

Fig. 5-10: ISD 260/280: Arrangement with operation of two systems in parallel ............................ 33

Fig. 5-11: ISD 260/280: Position of the DIL switches for configuring the data interface .............. 34

Fig. 5-12: ISD 260/280: Connection cable for supply voltage and function interfaces ................. 35

Fig. 5-13: ISD 260/280: Electrical isolation principle for the data interface ....................................... 36

Fig. 5-14: ISD 260/280: Line termination for the RS 485 interface ....................................................... 40

Fig. 5-15: ISD 260/280: Functionality of the “Light path free“ LED ......................................................... 41

Fig. 5-16: ISD 260/280: Wiring of the “Light path free“ PNP output ........................................................ 41

ig. 5-17: ISD 260/280: Connection diagram of “Transmitter off“ PNP input .................................... 41

Fig. 5-18: ISD 260/280: Terminals used for one unit in the AMS 50 Connection Module ........... 42

Fig. 5-19: ISD 260/280: Terminal assignment for supply voltage/function interfaces .................. 42

Fig. 7-1: Cleaning the lenses ................................................................................................................................. 44

Fig. 9-1: Dimensions of an ISD unit .................................................................................................................... 50

Fig. 10-1: Dimensions of the three-point bracket no. 5 306 369 ............................................................ 52

Fig. 10-2: Dimensions of the angle bracket no. 2 013 824........................................................................ 53

Fig. 10-3: Dimensions of the connector cover no. 2 016 130 .................................................................. 53

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Operating Instructions

ISD 230/260/280

Notes on this document

Chapter 1

1.1 Purpose

This document is a guide to the operation of the IR Data Transmission Systems

• ISD 230 (0.2 ... 200 m; max. 38.4 kBd)

• ISD 260 (0.2 ... 180 m; max. 0.5 MBd)

• ISD 280 (0.2 ... 150 m; max. 1.5 MBd)

in their variants

• System without heater

• System with heater

This document provides information about

• Configuration

• Mounting and electrical installation

• Startup

• Maintenance

• Exchanging the device

The systems will in this manual be referred to as the “ISD“, except where a dinstinction is

necessary.

1.2 Target audience

This document is intended for persons who are responsible for the following activities:

1.2.1 Mounting, electrical installation, maintenance and replacement

Electricians and service technicians.

1.2.2 Configuration and startup

Technicians and engineers.

1.3 Information content

This document contains all the information required for configuring, mounting, (electrical)

installing and starting up the ISD.

series of step-by-setp instructions is provided for each of these activities.

The ISD is configured by jumpers and DIL switches.

For further information on the design of the system or on the data transfer technology in

general, please contact the Auto Ident devision at SICK AG.

1 Notes on this document

Operating Instructions

ISD 230/260/280 IR Data Transmission Systems

Notes on this document

Chapter 1

Note Indicates special features or characteristics.

Explanation Explanations provide background information on technical features.

Recommendation Recommendations help you carry out certain procedures more effectively.

Default setting Marks a section containing the factory defaults.

This symbol refers to additional technical documentation.

Here you have to do something. This symbol characterizes single-step operating

instructions. Multi-step operating instructions are characterized by sequential numbers.

1.4 Symbols

Some of the information in this document is marked specially so that you can access it

quickly:

Warning!

Warnings are provided to prevent injury to operating personal ar serious damage to the

ISD.

Always read warnings carefully and observe them at all times.

ATTENTION

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Operating Instructions

ISD 230/260/280

Chapter 2

Safety Information

2 Safety Information

2.1 Autorized users

For the ISD to function correctly and safety, it must be mounted and operated by

sufficiently qualified personnel.

The following qualifications are required for the various tasks involved:

2.1.1 Mounting and maintenance

• General technical training

• Knowledge of the standard guidelines relating to safety at the workplace

2.1.2 Electrical installation and replacement

• Practical training in electrical engineering

• Knowledge of the standard safety guidelines relating to electrical engineering

• Experience operating the devices in the relevant application

2.1.3 Startup, operation and configuration

• Knowledge of the hardware and software environment of the relevant application

• Basic understanding of data transfer methods

2.2 Intended use

The ISD 230, 260 and 280 systems are used to establish a cordless link for transferring

serial data in full-duplex mode using infrared light.

The link, in this sense, always comprises a pair of devices (2 units) with different carrier

frequencies. Depending on the type of link, the units are either installed at a fixed and

mobile station (variable link) or at two fixed stations (permanent link).

Any warranty claims vis-à-vis SICK AG will be rendered invalid if the device is used for any

other purpose or if changes are made to the device, also as part of the mounting and

electrical installation procedures.

2.3 General safety instructions and protection measures

Always read the general safety instructions carefully and observe them at all times. This

also applies to the warnings provided for the individual activities described in this

document.

Shock hazard!

Depending on the type of device, the AMS 50 Connection Module (accessory) for the ISD

is connected to a mains voltage of 230 V AC 50 Hz or 115 V AC 50/60 Hz.

When working with electrical equipment, always follow the relevant safety specifications.

WARNING

Operating Instructions

ISD 230/260/280 IR Data Transmission Systems

Chapter 2

Safety Information

Infra-red light can cause blindness!

The ISD 230/260/280 emit infra-red radiation (

λλ

= =

= 860 nm).

LIGHT EMITTING LASER DIODE CLASS 1 according EN 60825-1/prA1:1999.

Looking directly at the beam can seriously damage your eyesight.

The light is not perceptible to the human eye (no eyelid reflex). The emitted radiation is not

dangerous to human skin.

When mounting and aligning the both units switch off the system.

Never look directly into the large lenses on the front of the device at close range

against the direction of transmission!

Observe the most recent laser specifications (DIN EN 60825-1, latest version).

2.4 Quick stop and quick restart

2.4.1 Stopping the ISD

Switch off the power supply.

The ISD stops the data transmission.

2.4.2 Restarting the ISD

Switch on the power supply.

The ISD starts the data transmission.

When operating the system in cooling plants (below 0 °C) and if the system is switched

on when cold, data transmission can only be guaranteed after the warm-up time (max.

approx. 60 min., depending on the startup temperature) has expired.

2.5 Environmental information

The ISD is designed to cause minimum impact on the environment.

2.5.1 Power requirements

The power requirements are low:

• the ISD has a power consumption of max. 0.4 A at 24 V DC

• the ISD with heater has a power consumption of max. 2.5 A at 24 V DC

The values are given for devices with disconnected switching outputs.

2.5.2 Disposal after removal from service

Always dispose irreparable devices in a manner that is not harmful to the environment and

in accordance with the applicable national waste disposal regulations. The ISD can be

separated into recyclable secondary raw materials and special-category waste (electronic

crap).

See also Chapter 7.3 Disposal, Page 45.

SICK AG currently does not accept any unusable or irreparable devices.

WARNING

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Operating Instructions

ISD 230/260/280

Chapter 3

Product description

3 Product description

3.1 Design

3.1.1 Scope of delivery

The ISD is provided with the following in the packing of each unit:

• an ISD unit in the ordered version without connection cables

• an information sheet (notes on device)

Depending on the number of device pairs ordered, one or more of the following:

• These ISD 230/260/280 Operatings Instructions in German or English

Chapter 10.1 Accessories, Page 51 contains an overview of the available mounting

accessories, connection modules, cables and plug-in connectors.

3.1.2 Variants

The ISD is available in the following variants:

ISD 230

retaeHecafretni ataD.oN redrOepyT

onp/a Am 02 LC883 710 11112-032 DSI

ISD 230-4111 1 017 389 RS 232/422/485/CL 20 mA a/p no

on1L CENIS093 710 11115-032 DSI

ISD 230-4121 1 017 543 RS 232/422/485/CL 20 mA a/p yes

sey1L CENIS445 710 11215-032 DSI

Table 3-1: ISD 230 variants

retaeHecafretni ataD.oN redrOepyT

ISD 260-1111 1 017 379 RS 422/485 (2/4), Carrier frequency 1 no

ISD 260-1112 1 017 380 RS 422/485 (2/4), Carrier frequency 2 no

ISD 260-1121 1 017 390 RS 422/485 (2/4), Carrier frequency 1 yes

ISD 260-1122 1 017 544 RS 422/485 (2/4), Carrier frequency 2 yes

Table 3-2: ISD 260 variants

ISD 260

retaeHecafretni ataD.oN redrOepyT

ISD 280-1111 1 017 046 RS 422/485 (2/4), Carrier frequency 1 no

ISD 280-1112 1 017 047 RS 422/485 (2/4), Carrier frequency 2 no

ISD 280-1121 1 017 375 RS 422/485 (2/4), Carrier frequency 1 yes

ISD 280-1122 1 017 376 RS 422/485 (2/4), Carrier frequency 2 yes

Table 3-3: ISD 280 variants

ISD 280

Operating Instructions

ISD 230/260/280 IR Data Transmission Systems

Chapter 3

Product description

3.1.3 System requirements

The following are required to startup and configurate the ISD:

1. ISD without heater:

For each unit a SICK connection module AMS 50 to provide the power supply and

connect the data and function interfaces. Output voltage 24 V DC ±20 % according to

IEC 742, max. 0.75 A. Enclosure rating max. IP 54.

- or -

An operating voltage of 24 V DC ±20 % according to IEC 742 (functional extra-low

voltage). The max. power consumption of the ISD is 0.4 A per unit.

2. ISD with heater:

An operating voltage of 24 V DC +20 %/-5 % according to IEC 742 (functional extra-

low voltage). The max. power consumption of the ISD is 2.5 A per unit.

The AMS 50 is not suitable for supplying units with integrated heater.

3. The following operating voltages for the connection module:

- AMV 50-013 (no. 1 017 137): 230 V AC ±10 % 50 Hz

- AMV 50-012 (no. 1 017 138): 115 V AC ±10 % 50/60 Hz

4. The following connection cables if the connection module is used:

- ISD 230: cable no. 2 013 568 (3 m)

- ISD 260/280: cable no. 6 010 474 (5 m) for function interfaces/power supply.

The data interface will not be connected via the connection module.

5. For each unit a connector cover no. 2 016 130 to match the enclosure rating IP 65.

6. A precise vehicle guidance system if the ISD is to be used in conjunction with rail-

based transportation systems (see T/R angle, Chapter 9 Technical data, Page 49)

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Operating Instructions

ISD 230/260/280

Chapter 3

Product description

3.1.4 Design

Fig. 3-1: Design of an ISD unit

Key:

Optical adjustment aid

(crosshairs)

“Light path interrupted“ LED

Light admission for optical

adjustment aid

Reception lens

Transmission lens

Additional p.c.b. with DIL

switches (type-dependent)

“Power on“, “RxD“ and “TxD“

LEDs

Running nut M 5 (in slot), max.

depth of engagement 10 mm

from surface of housing

ISD 230: 9-pin D Sub

connector (all signals)

ISD 260/280: 9-pin D Sub

socket (data interface)

ISD 260/280 only: 5-pin round

connector (power supply and

function interfaces)

with rear panel removed:

Operating Instructions

ISD 230/260/280 IR Data Transmission Systems

Chapter 3

Product description

3.2 Method of operation

The ISD systems each comprise two units with different carrier frequencies. Each of the

components contains an optical data transmitter and receiver as well as a bidirectional,

electrical data interface (Fig. 3-2).

Fig. 3-2: Block diagram: operating principle of the ISD system

With one pair of devices, data can be transmitter and received simultaneously, i.e. data

transfer is possible in both directions. Different carrier frequencies prevent mutual optical

interference.

The data levels pending at the electrical interface of a transmitter (input) are transferred

optically to the opposite station using the FSK modulation method. The receivers on the

other side then reconvert the optical signals to electrical data levels and output them via

the electrical data interface (output).

If you are using the RS 485 interface, both units are ready to receive (RR) in the idle

state

. The station which first receives data on the electrical interface determines the

direction of transmission until the data string has been transmitted. Both stations are

ready to receive again once transmission has been completed (automatic direction

switching). The data transfer rate must only be set on the ISD if you are using the

RS 485 interface.

The light path between the two units is monitored constantly. An LED on the front of each

unit signals interruptions in the light path and inadequate reception conditions. A

switching output, which is active when the light path is unobstructed (free), is provided in

addition to the LED.

Each of the device units in the ISD 230 system is also equipped with a switching output

which is deactivated under poor transmission conditions (e.g. lenses contaminated). The

transmitter on every unit can be deactivated via a switching input.

Electrical

Interface

Electrical

Interface

Distance:

0.2 ... 150/180/200 m

Light path

Station 1

Station 2

Transmitter

Receiver

Transmitter

Receiver

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Operating Instructions

ISD 230/260/280

Chapter 3

Product description

3.3 Indicators and control elements

3.3.1 Control elements

The ISD is configured via jumpers and DIL switches.

The following can be selected (depending on type):

• Carrier frequency (ISD 230)

• Type of electrical data interface

• Data transfer rate

Chapter 5.1 ISD 230 System, Page 22 and Chapter 5.2 ISD 260 and ISD 280 Systems,

Page 33 describe the configuration.

3.3.2 Function of the LEDs

Four LEDs indicate the operating status, the intensity of received signal on the light path

and data transmitting respectively receiving on the electrical interface. The LEDs (Fig. 3-3)

are located on the top of the housing and on the front. Table 3-4 shows the meaning of

the LEDs.

Fig. 3-3: LED indicators on the top of the housing

LED Display Function

Light Yellow-orange Indicates reception states (indicator for intensity of

path received signal), visible from a distance.

interrupted LED lit: no light received from opposite station

(light path interrupted)

LED blinks: reception intensity too weak

LED off: reception ok

PWO Green LED lights up when the unit is switched on

(Power on)

RxD Red LED off: idle level

LED flickers: unit receiving data on the electrical

interface (input)

TxD Yellow LED off: idle level

LED flickers: unit sending data, which it received across

the optical link, on the electrical interface

(output)

Table 3-4: Meaning of LEDs

PWO RxDTxD

Operating Instructions

ISD 230/260/280 IR Data Transmission Systems

Chapter 4

Installation

4.1 Installation sequence

• Configure the units

• Select the mounting locations for the units

• Mount the units

• Mount the AMS 50 connection modules

• Align the units to each other

4.2 Preparations

4.2.1 Configuring the units

Befor mounting the system, configure the units of ISD 230 as decribed in Chapter

5.1 ISD 230 system, Page 22 or the units of ISD 260/280 system as described in

Chapter 5.2 ISD 260 and ISD 280 systems, Page 33. Also prepare the electrical

connection.

4.2.2 Required components

• 2 units for each ISD system

4.2.3 Required accessories

• For each unit one angle bracket no. 2 013 824 or one three-point bracket

no. 5 306 369 (recommended)

- or -

Alternatively, if the bracket is supplied by the user:

- Stable mounting device that allows the alignment of the units to each other to be varied

in the x and y axes as well as the fine adjustment of the units. The weight of an unit is

approx. 1 kg without connection cable(s)

- Max. 4 screws M 5 for one unit. The screw length depends on the wall thickness of the

bracket used. Depth of engagement in CLV max. 10 mm from housing surface

• 2

srews M 5 x 10 mm to mount an unit on the angle bracket. 3 srews M 5 x 10 mm

(included) to mount an unit on the three-point bracket

• 2 srews M 6 (included) to mount the angle bracket on the base. 4 srews M 6 (included)

to mount the three-point bracket on the base

• AMS 50 connection module (not included in the scope of supply of the ISD)

• Connection cables (not included in the scope of supply of the ISD)

4.2.4 Required auxiliary parts

• Tool

• For large distances a torch for alignment aid

4 Installation

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Operating Instructions

ISD 230/260/280

Chapter 4

Installation

4.2.5 Selecting the mounting location

The system must be mounted in such a way that the straight line of vision between

the two units is unimpaired.

Aligne both units either vertically or horizonally.

Ensure that the adjustment aid (on the top) is easily accessible on both units.

If two ISD systems are operated in parallel, ensure that the units with the same carrier

frequency are mounted diagonally opposite one another.

See also Chapter 5.1.2 Setting the transmission frequencies, Page 22 or Chapter 5.2.2

Transmission frequencies, Page 33.

If the connector cover is used, observe the longer dimensions in summary due to the

cover (see Fig. 10-3, Page 53).

Path length: 0.2 ... 150/180/200 m

Mount the units at an angle of 180° with respect to each other (Fig. 4-1).

The two large lenses must be directly opposite one another.

Fig. 4-1: Mount the two units at a distance of 0.2 ... 150/180/200 m

Path length: 3 ... 150/180/200 m

If the distance between any position on the mobile station and the fixed station is not

less than 3 m, both units can also be mounted in the same plane (device unit not

rotated through 180°).

Table 4-1 shows the transmitter and receiver aperture angle for a device unit. The light

spot diameter of the transmitter depending on the distcance is shown in Table 4-2.

Rotated

through

180° !

Electrical

interface

Electrical

interface

Distance:

0.2 ... 150/180/200 m

Light path

Station 1

Station 2

Transmitter

Receiver

Transmitter

Receiver

Component Aperture angle

Transmitter approx. ± 0.4°

Receiver approx. ± 0.8°

Table 4-1: Aperture angles

Operating Instructions

ISD 230/260/280 IR Data Transmission Systems

Chapter 4

Installation

Fig. 4-2: ISD unit with three-point bracket no. 5 306 369 (accessory)

The bracket can be mounted either directly with the rear plate (panel) or via the angled

flange on the mounting base using the 4 holes provided. The position of the holes and

dimensions of the three-point bracket are shown in Fig. 10-1, Page 52. Two reference

markings allow both brackets to be adjusted vertically and horizontally (x and y direction),

irrespective of the position of the angled flange (can be mounted on the other side of the

unit).

4.2.6 Mounting accessories

The units will be mounted at the transmitter/receiver stations using 3 movable running

nuts. On each longitudinal side there are two of them in a slot (see Fig. 3-1, Page 13). The

maximum depth of engagement in the nuts is 10 mm from the surface of the housing. The

location and dimensions of the nuts are shown in Fig. 9-1, Page 50.

An unit can be mounted using the SICK brackets:

• angle bracket no. 2 013 824

• three-point bracket no. 5 306 369

Three-point bracket

The three-point bracket facilitates mounting and alignment of the units. A separate bracket

is required for each unit (Fig. 4-2).

Distance IR light spot diameter

50 m approx. 0.7 m

100 m approx. 1.4 m

150 m approx. 2.1 m

Table 4-2: Light spot diameter of transmitter

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Operating Instructions

ISD 230/260/280

Chapter 4

Installation

4.3 Mounting and adjusting the system

4.3.1 Mounting the ISD on the three-point bracket

Risk of damage to the housing!

The maximum depth of engagement of the two nuts M 5 is 10 mm from housing surface.

Longer screws will damage the housing.

Use screws with the correct length.

1. Prepare the two three-point brackets for either vertical (angled flange left or right) or

horizontal (angled flange top or bottom) mounting.

2. Ensure that the movable plate is parallel to the fixed plate on each bracket before they

are mounted (if necessary correct the position with the lock nuts using for the fine

adjustment).

3. Align both three-point bracket to each other straight to the eye. The system must be

mounted in such a way that the straight line of vision between the two units is

unimpaired.

4. Attach the two brackets at the required height with the four screws (M 6 x 12 mm) and

washers supplied using the angled flange or the fixed plate. Use the reference

markings as reference points with respect to the common reference (floor). Ensure

that the two brackets are aligned horizontally (devices must be in the same axis).

5. Carefully insert a unit into each bracket. The two top screws on the rear of the housing

facing the cover (optical adjustment aid) must fit into the locking holes of the movable

plate so that the bottom of the device (connector) is flush with the bracket (Fig. 4-3).

Check: the reference marking (horizontal) must be at the same height as the two glass

lenses.

Fig. 4-3: Design of the three-point bracket

Locking hole

Lock nut

w/f 10

Reference marking (vertical)

Angled

flange

Reference marking (horizontal)

Movable

plate

Fixed

plate

Unit mounted on

three-point bracket

ATTENTION

Operating Instructions

ISD 230/260/280 IR Data Transmission Systems

Chapter 4

Installation

6. Secure the units to the brackets with the three screws M 5 x 10 mm and washers. To

do so, move the running nuts.

You can then perform a fine adjustment in the horizontal and vertical planes using the

three lock nuts (self-locking).

7. Align the units as described in Chapter 4.3.3 Alignment of the ISD.

Device units in fixed and mobile stations (variable link)

For large distances the units have to be mounted in such a way, that in case of vibrations

the cone of IR light will reach the receiver area in the opposite station (fixed) in the middle

(and the same in the other direction). The vibrations can be caused by accelerating and

stopping the mobile station.

Prefer to mount both units vertically using the angled flange or the fixed plate of the

three-point brackets. With a stabil base this position provides an operation poor of

vibrations.

If the units can only be mounted horizontal (due to small place in the locations), use the

4 drilling holes on the fixed plate of the three-point bracket.

4.3.2 Mounting the AMS 50 Connection Module

Mount the connection modules near the units. The maximum distance between the

AMS 50 and an unit should not exceed 10 m, in particular when using the ISD 230 with

the RS 232 data interface.

For detailed informationen on installing and wiring, please refer to the operating

instructions “AMV/S 50 Connection Module“ (order no. 8 008 294, English edition).

4.3.3 Alignment of the ISD

Optical adjustment aid

The optical alignment aid facilitates exact alignment of the devices. Crosshairs, which can

be used to focus on the opposite unit, are visible in the opening at the top of the device

(Fig 4-4). At large distances, it also may be useful to attach a torch (with a tape) to the

opposite unit.

The units should be only be aligned (in particular when using the optical adjustment aid)

when the ISD system is switched off.

This is the only way to prevent direct eye contact with the IR beam (eye protection).

Note

Fig. 4-4: Using the optical adjustment aid (crosshairs) on an unit

a) Alignment with the

opposite station (short

distance)

b) Alignment with the

opposite station (large

distance)

PWO TXD RXD

(View from above)

8 008 207/X064/2013-02-15

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SICK IDS230, ISD260 and ISD280 IR Data Transmission Systems Operating instructions

SICK IDS230, ISD260 and ISD280 IR Data Transmission Systems Operating instructions

SICK IDS230, ISD260 and ISD280 IR Data Transmission Systems Operating instructions

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