SICK WGS - Driver assistance system Operating instructions

Brand: SICK

Model: WGS - Driver assistance system

Type: Operating instructions

OPERATING INSTRUCTIONS

WGS

Driver assistance system

Operating instructions

WGS

2 Translation of the original operating instructions | SICK 8019357/2016-10-12

Subject to change without notice

This work is protected by copyright. Any rights derived from the copyright shall be reserved for SICK AG.

Reproduction of this document or parts of this document is only permissible within the limits of the legal

determination of Copyright Law. Alteration or abridgment of the document is not permitted without the explicit

written approval of SICK AG.

Operating instructions

WGS

8019357/2016-10-12 Translation of the original operating instructions | SICK 3

Subject to change without notice

Contents

1 About these operating instructions ............................................................................... 6

1.1 Function of this document .................................................................................... 6

1.2 Target group .......................................................................................................... 6

1.3 Information depth ................................................................................................. 6

1.4 Abbreviations used ............................................................................................... 7

1.5 Symbols used ........................................................................................................ 7

2 Safety ............................................................................................................................... 8

2.1 Qualified safety personnel .................................................................................... 8

2.2 Applications of the system ................................................................................... 8

2.3 Intended use ......................................................................................................... 9

2.4 General safety notes and protective measures ................................................10

2.4.1 Safety notes and symbols ...................................................................10

2.4.2 General safety notes ............................................................................11

2.4.3 Potential sources of danger ................................................................12

2.5 Protection of the environment ............................................................................15

2.5.1 Power consumption .............................................................................15

2.5.2 Disposal after final decommissioning ................................................15

3 System description ...................................................................................................... 16

3.1 Scope of delivery .................................................................................................16

3.2 System components ...........................................................................................18

3.2.1 Laser scanner TiM351 ........................................................................18

3.2.2 CAN/Ethernet converter ......................................................................20

3.2.3 Ethernet switch ....................................................................................20

3.3 System functionality ............................................................................................21

3.3.1 Calculating windrow profiles ...............................................................21

3.3.2 Calculating the windrow position ........................................................23

3.3.3 Windrow volume output .......................................................................24

3.3.4 Tracking the windrow measurements ................................................24

3.3.5 Data traffic in the CAN bus ..................................................................26

3.3.6 Defined output of the tracked windrow position ................................27

3.3.7 Supported operating modes ................................................................28

3.3.8 Transfer strategy and the self-monitoring function of the

system ..................................................................................................29

3.4 GPS tracking and windrow tracking ...................................................................29

3.5 System requirements ..........................................................................................31

3.5.1 Ambient conditions ..............................................................................31

3.5.2 Vehicle requirements ...........................................................................31

3.6 Status indicators .................................................................................................31

4 Mounting ...................................................................................................................... 32

4.1 Mounting the laser scanner ...............................................................................32

4.1.1 General notes for installation ..............................................................32

4.1.2 Test installation ....................................................................................33

4.1.3 Final installation ...................................................................................34

4.2 Installing the CAN/Ethernet converter ...............................................................36

4.3 Mount the Ethernet switch .................................................................................36

Operating instructions

WGS

4 Translation of the original operating instructions | SICK 8019357/2016-10-12

Subject to change without notice

Contents

5 Electrical installation ................................................................................................... 37

5.1 Wiring plan .......................................................................................................... 38

5.2 Connecting the laser scanner ............................................................................ 38

5.2.1 Connection to voltage supply .............................................................. 39

5.2.2 Ethernet connection ............................................................................ 40

5.3 Connecting CAN/Ethernet converter ................................................................. 43

5.3.1 Connection to the power supply ......................................................... 43

5.3.2 Connection to the laser scanner ........................................................ 43

5.3.3 Connection to the CAN bus ................................................................. 44

5.4 Connecting the Ethernet switch ......................................................................... 45

6 Commissioning ............................................................................................................. 46

6.1 Checking the operational readiness of the devices ......................................... 46

6.1.1 Laser scanner ...................................................................................... 46

6.1.2 CAN/Ethernet converter ...................................................................... 46

6.2 CAN protocol specification ................................................................................. 47

6.2.1 WGS inbound messages ..................................................................... 48

6.2.2 WGS outbound messages ................................................................... 49

6.3 Notes on configuration ....................................................................................... 50

6.3.1 Positioning the laser scanner in the vehicle

coordinate system ............................................................................... 50

6.3.2 Determining the windrow position to be

output by the setpoint in the X-direction ............................................ 51

6.3.3 Configuration of the CAN/Ethernet converter.................................... 51

6.4 Test mode ........................................................................................................... 52

6.4.1 Description files for CAN software ...................................................... 52

6.4.2 Overview of CAN messages ................................................................ 53

6.4.3 Visualization of test mode ................................................................... 55

6.5 Implementation .................................................................................................. 58

7 Maintenance ................................................................................................................. 59

7.1 Overview of maintenance tasks ......................................................................... 59

7.2 Maintenance during operation .......................................................................... 59

7.2.1 Cleaning the laser scanners ............................................................... 59

7.2.2 Visual inspection of the cables ........................................................... 60

7.3 Replacing components ....................................................................................... 61

7.3.1 Replacing a laser scanner .................................................................. 61

7.3.2 Replacing CAN/Ethernet converter .................................................... 62

7.3.3 Replacing the Ethernet switch ............................................................ 62

8 Fault diagnosis ............................................................................................................. 63

9 Annex ............................................................................................................................ 64

9.1 Technical data .................................................................................................... 64

9.1.1 System ................................................................................................. 64

9.1.2 Laser scanner TiM351 ........................................................................ 65

9.1.3 CAN/Ethernet converter ...................................................................... 66

9.2 Dimensional drawings ........................................................................................ 67

9.2.1 Dimensional drawings for the TiM351 ............................................... 67

9.2.2 Dimensional drawing for CAN/Ethernet converter ............................ 68

9.2.3 Ethernet switch dimensional drawing ................................................ 69

Operating instructions

WGS

8019357/2016-10-12 Translation of the original operating instructions | SICK 5

Subject to change without notice

Contents

9.3 CAN specification ................................................................................................70

9.3.1 CONFIG_WGS (MUX0) ..........................................................................70

9.3.2 CONFIG_WGS (MUX1) ..........................................................................71

9.3.3 MEASURE_DATA_WGS ........................................................................72

9.3.4 STATUS_WGS .......................................................................................73

9.3.5 GMS_WGS_KMC ..................................................................................74

9.3.6 WBSD_KMC ..........................................................................................75

9.4 CAN/Ethernet converter configuration tool .......................................................76

10 Figures and tables ....................................................................................................... 78

10.1 List of tables ........................................................................................................78

10.2 List of figures .......................................................................................................79

10.3 Keywords index ...................................................................................................81

Chapter 1 Operating instructions

WGS

6 Translation of the original operating instructions | SICK 8019357/2016-10-12

Subject to change without notice

About these operating

instructions

1 About these operating instructions

Please read this chapter carefully before you begin working with this documentation

and the WGS driver assistance system.

1.1 Function of this document

These operating instructions provide manufacturers of agricultural machines or

integrators instructions regarding the safe assembly, electrical installation,

commissioning, operation and maintenance of the WGS driver assistance system.

These operating instructions do not provide information on operating the agricultural

machine in which the WGS is integrated or will be integrated.

For information about this, refer to the respective vehicle's operating instructions.

1.2 Target group

Target group Activities

Manufacturer

Specialized personnel such as

electrical or control engineers,

etc.

Planning and installing the WGS in agricultural

machines.

Project engineering, mounting, electrical installation,

configuration, maintenance, replacement of

components, fault diagnosis, troubleshooting

Integrators

Specialized personnel such as

electrical or control engineers,

etc.

Equipping agricultural machines with WGS

Project engineering, mounting, electrical installation,

configuration, maintenance, replacement of

components, fault diagnosis, troubleshooting

Driver

Specialized personnel for

operating and controlling the

harvesting vehicle

Operating the WGS during operation

Tab. 1: Target group

1.3 Information depth

These operating instructions contain information about the WGS driver assistance system

on the following topics:

• System description and system integration

• Mounting

• Electrical installation

• Commissioning and configuration

• Operation

• Maintenance and repairs

• Fault diagnosis and troubleshooting

• Technical data and dimensioned drawings

Furthermore, when planning and using the WGS driver assistance system, technical skills

regarding control engineering, which are not covered by this document, are also required.

The official and legal regulations for operating the WGS must always be complied with.

Operating instructions Chapter 1

WGS

8019357/2016-10-12 Translation of the original operating instructions | SICK 7

Subject to change without notice

About these operating

instructions

Further information on the 2D laser scanner can be obtained from the department

responsible for automatic detection and position determination at SICK AG or is available

online at www.sick.com.

1.4 Abbreviations used

Controller Area Network = serial bus system

Data bus for agricultural applications

Windrow Guidance System = driver assistance system for harvesting vehicles

1.5 Symbols used

Recommendations are designed to assist you in the decision-making process with respect

to the use of a certain function or technical measure.

Notes provide information about the features of a device, application tips, or other

information that may come in useful.

Instructions that must be carried out in the described order are referred to as step-by-step

instructions and are indicated by numbered lists. Carefully read and follow the instructions

for action.

Instructions for taking action are indicated by an arrow. Carefully read and follow the

instructions for action.

LED symbols describe the status of a diagnostics LED. Examples:

 The LED is illuminated continuously.

 The LED is flashing.

 The LED is off.

CAN bus

ISOBUS

WGS

Recommendation

Note

1. / 2. ...



  , 

Chapter 2 Operating instructions

WGS

8 Translation of the original operating instructions | SICK 8019357/2016-10-12

Subject to change without notice

Safety

2 Safety

This chapter concerns your own safety and the safety of the WGS driver assistance system

users.

 Please read this chapter carefully before you begin working with WGS.

2.1 Qualified safety personnel

The WGS must be installed, commissioned, and maintained only by adequately qualified

personnel.

A qualified person

• has sufficient skills in the field of the respective equipment based on their technical

training and experience and

• has been instructed by the manufacturer in system operation and all applicable safety

guidelines and

• is familiar with all relevant country-specific occupational safety regulations, work safety

regulations, guidelines, and generally accepted technical rules and standards (e.g.,

DIN standards, VDE regulations, country-specific rules) to such an extent that he/she

is able to evaluate the safe condition of the power-operated equipment, and he/she

• has access to and has read the operating instructions.

NOTE

The installation of the WGS requires extensive knowledge of control engineering.

As a result, the WGS driver assistance system can only be integrated into a vehicle by the

vehicle manufacturer or an integrator.

The WGS cannot be integrated and put into operation by the end user.

2.2 Applications of the system

The WGS is a vehicle assistance system for the automated guidance of agricultural

machines for the optimal harvesting of crops from a windrow using conventional pick-up

machines.

Regardless of the windrow's deposit quality, the harvesting of the crops is adapted to the

actual local conditions on the field using WGS.

Current status: conventional windrows at a glance

A regular and lightly formed windrow is critical for the optimal performance and speed

of harvesting machines such as balers or choppers. Accumulated clippings or irregular

windrow stacking positions frequently represent causes for blockages or loss of

performance.

If the tractor driver is driving only by sight, it would be difficult for him or her to take

advantage of the optimum performance of his or her machine. The harvesting machine

can clog if it drives over a thick windrow too quickly. If the machine is driving too slowly,

it is not being used optimally and precious harvesting time is lost.

Operating instructions Chapter 2

WGS

8019357/2016-10-12 Translation of the original operating instructions | SICK 9

Subject to change without notice

Safety

Solution: automated windrow guidance with WGS

WGS does just that. The system determines the exact position of the windrow path in real

time during the harvesting process and also provides information about the respective

material density. During this process, a laser scanner installed on the roof of the tractor

scans the windrow path proactively.

Information about the windrow positions and the respective windrow volumes are

forwarded to the vehicle control system as control information for the longitudinal or

transverse control and for regulating the speed of the agricultural machine via the ISOBUS.

The harvest trailer can subsequently be optimally guided over the windrow (either in the

middle or above the center of an area). Driving over the windrow is slowed down when

a larger volume is present. Crops are harvested at high speeds when there is little volume

in the windrow.

As a result, the WGS makes it possible to increase productivity, while simultaneously

assisting the driver.

WGS only detects areas that are visible for the laser scanner in the measurement plane.

In order for this to take place, the laser scanner must have a free view of the areas to be

monitored.

2.3 Intended use

WGS may only be used as described in section 2.2 Applications of the system. It may

only be used by qualified personnel in the environment in which it was mounted and

initially commissioned by qualified safety personnel in accordance with these operating

instructions.

WGS is a system designed for installation in harvesting vehicles that are ISOBUS

compatible. The harvesting vehicles must have corresponding interfaces for automatic

speed control and for controlling an automatic steering system.

WGS is an auxiliary system. Accordingly, the WGS must be integrated into the harvesting

vehicle so that the driver can override or switch the system off at any time.

The driver bears the full responsibility for safe operation of the harvesting vehicle at all

times, in particular for people who are in the hazardous zones of the harvesting vehicle.

The WGS is not a safety device for human protection and therefore does not comply

with any safety standards. For safety applications, please contact SICK AG.

In the event of any other usage or of modification to the system – including in the context

of mounting and installation – any claims against SICK AG under the warranty will be

rendered void.

Note

Chapter 2 Operating instructions

WGS

10 Translation of the original operating instructions | SICK 8019357/2016-10-12

Subject to change without notice

Safety

2.4 General safety notes and protective measures

2.4.1 Safety notes and symbols

The following safety and hazard notes are used for your own safety, for the safety of third

parties, and for the safety of the machine. You must therefore observe these symbols at all

times.

HAZARD

Denotes an immediate hazard that may result in severe to fatal injuries.

The symbol shown on the left-hand side of the note refers to the type of hazard in question

(the example here shows a risk of injury resulting from electrical current).

WARNING

Denotes a potentially dangerous situation that may result in severe to fatal injuries.

The symbol shown on the left-hand side of the note refers to the type of hazard in question

(the example here shows a risk of damage to the eye by laser beams).

WARNING

Denotes a potentially dangerous situation that may result in minor personal injury or

possible material damage.

NOTE

Denotes a potential risk of damage or functional impairment of the device or the devices

connected to it.

This symbol includes a reference to supplementary technical documentation.

Operating instructions Chapter 2

WGS

8019357/2016-10-12 Translation of the original operating instructions | SICK 11

Subject to change without notice

Safety

2.4.2 General safety notes

WGS has been designed in a way that allows for safe operation. However, a certain level

of risk will always remain.

Awareness of potential sources of danger in the system will help you to work in a safer

manner and thus prevent accidents.

To avoid risks, please also observe the special warnings in each of the individual chapters.

WARNING

Safety notes

Observe the following to ensure the safe use of the system as intended.

• The notes in these operating instructions must be complied with.

• All official and statutory regulations governing the operation of the system must be

complied with.

• The national and international legal specifications apply to the installation and use of

the system, to its commissioning, and to recurring technical inspections, in particular:

– The accident prevention regulations and work safety regulations

– Any other relevant safety regulations

• The checks must be carried out by qualified safety personnel or specially qualified and

authorized personnel, and must be recorded and documented to ensure that the tests

can be reconstructed and retraced at any time.

• These operating instructions must be made available to the operator of the system.

The system operator must be instructed by qualified safety personnel and must read

the operating instructions.

• The driver must follow relevant instructions and conduct inspections in order to ensure

that the screen of the laser scanner is clean and undamaged.

• The laser scanner must have an unobstructed field of view. The sensor head must not

be covered by other objects, for example.

• SICK AG recommends carrying out a system check before commissioning the system.

WARNING

Risk resulting from improper operation

Improper installation and commissioning, damaged components, and unsuitable ambient

conditions such as excessively cold or warm temperatures and high levels of dust, fog or

spray, may cause faults and may result in a complete system crash.

Chapter 2 Operating instructions

WGS

12 Translation of the original operating instructions | SICK 8019357/2016-10-12

Subject to change without notice

Safety

WARNING

System does not comply with safety standards

WGS is not suitable for the protection of persons according to the applicable safety

standards for machines. The system therefore does not comply with safety standards.

WGS is a driver assistance system. The driver bears the full responsibility for safe

operation of the harvesting vehicle at all times, in particular for people who are in the

hazardous zones of the harvesting vehicle.

WGS must be integrated into the system so that the driver can override or switch the

system off at any time.

2.4.3 Potential sources of danger

Laser light

WARNING

Damage to the eye by laser beams

The TiM351 laser scanner used by WGS conforms to laser class 1 (eye-safe) in accordance

with EN 60 825-1 (see laser warning label on the device for publication date). This ensures

compliance with 21 CFR 1040.10 except for the tolerances according to Laser Notice

No. 50 of July 26, 2001.

The laser operates at a γ = 850 nm wavelength (invisible infrared light). The laser beam is

not visible to the human eye.

The radiation emitted in normal operation is harmless to human skin and eyes.

Improper use (e.g., opening the housing and stopping the motor) can result in dangerous

exposure to radiation.

 Never open the laser scanner housing. Opening the housing does not interrupt the

operation of the laser beam.

 Observe the laser safety regulations as per IEC 60 825Q1 (latest version).

• No maintenance is required to ensure compliance with laser class 1.

• The laser output aperture is the front screen on the laser scanner.

WARNING

Important

Operating instructions Chapter 2

WGS

8019357/2016-10-12 Translation of the original operating instructions | SICK 13

Subject to change without notice

Safety

Electrical current

HAZARD

Risk of injury and damage caused by electrical current

Improper handling of live devices may lead to severe personal injury or death by electric

shock.

 Electrical installation and maintenance work must always be carried out by personnel

authorized to do so.

 The power supply must be disconnected when attaching and detaching electrical

connections.

 Select and implement wire cross-sections and their correct fuse protection in

accordance with the applicable standards.

 Do not touch any live components.

 In the event of danger, immediately disconnect the system from the power supply.

 Always use original fuses with the specified current rating.

 Report any damaged cables to the maintenance team without delay.

 Observe the current safety regulations when working on electrical systems.

HAZARD

Risk of injury and damage caused by potential equalization currents

The TiM3xx is designed and tested for electrical safety in accordance with EN 60950-1

(2006-04)/A11 (2009-03).

It is connected to the peripheral devices via shielded cables. The cable shield (e.g.

supply cable) is connected to the metal housing of the TiM351. The device can either be

grounded through the cable shield or through both fastening latches.

If the peripheral devices have metal housings and if the cable shields also are connected

to these housings, it is assumed that all devices contained in the system have the same

ground potential.

This is achieved, for example, by complying with the following conditions:

• Mounting the devices on conductive metal surfaces.

• Properly grounding the devices and metal surfaces in the system.

• Low-impedance and current-carrying equipotential bonding between areas with different

ground potentials, if necessary.

If these conditions are not met, e.g., on devices in a widely distributed system over several

buildings, potential equalization currents may, due to different ground potentials, flow

along the cable shields between the devices and create hazards.

Potential equalization currents between the TiM3xx and other grounded devices in the

system can have the following effects:

• Dangerous voltages on the metal housing, e.g. of the TiM3xx

• Incorrect function or irreparable damage to the devices

• Damage/irreparable damage of the cable shield due to heating and cable fires

 For smaller installations with only slight potential differences, the insulated installation

of the TiM3xx and of peripheral devices may be a sufficient solution.

Chapter 2 Operating instructions

WGS

14 Translation of the original operating instructions | SICK 8019357/2016-10-12

Subject to change without notice

Safety

Specific dangers

WARNING

Risk resulting from incorrect commissioning and configuration

Do not commission without testing by qualified personnel!

Before you operate the system or a device for the first time, you must have it checked and

approved by qualified safety personnel.

NOTE

Claims under the warranty rendered void

Do not open the device housing. The devices are sealed.

If the device is opened, any warranty claims against SICK AG will be void.

WARNING

Risk resulting from faults

Cease operation if the cause of the malfunction has not been clearly identified.

A defect in the system may result in fatal accidents or damage to the system.

 Immediately stop the WGS if you cannot clearly identify the fault and if you cannot safely

remedy the problem.

Operating instructions Chapter 2

WGS

8019357/2016-10-12 Translation of the original operating instructions | SICK 15

Subject to change without notice

Safety

2.5 Protection of the environment

The system has been designed to minimize its impact on the environment. It consumes

very little power.

Always act in an environmentally responsible manner at work. For this reason, please note

the following information regarding disposal.

2.5.1 Power consumption

The system, including its components, typically consumes 3 W.

2.5.2 Disposal after final decommissioning

SICK does not currently take back devices that are unusable or irreparable.

Always dispose of unusable or irreparable devices in an environmentally safe manner in

accordance with the relevant national waste disposal regulations.

 Always dispose of unusable or irreparable devices in an environmentally safe manner in

accordance with the relevant national waste disposal regulations.

 Dispose of all electronic assemblies as hazardous waste. The electronic assemblies are

easy to dismantle.

Chapter 3 Operating instructions

WGS

16 Translation of the original operating instructions | SICK 8019357/2016-10-12

Subject to change without notice

System description

3 System description

This chapter provides information on the special properties of the WGS driver assistance

system. It describes the design and operating principle of the system.

Always read this chapter before you plan, install, integrate and commission the system.

3.1 Scope of delivery

WGS consists of one TiM351 laser scanner with installed firmware and WGS software.

In addition, a CAN/Ethernet protocol converter is required for the system's ISOBUS

integration. An existing device can be used or the already configured CAN/Ethernet

converter can be ordered for the system.

An Ethernet switch and suitable connecting cables can optionally be purchased from SICK.

Fig. 1: WGS scope of delivery

Thorough check for completeness

 It is recommended that you carefully check for and report transport damage of any kind

as soon as possible after receiving the system.

 Also verify that the delivery includes all components listed on the delivery note.

Quantity Part no. Description

1 1076929 TiM351 laser scanner with integrated firmware and

WGS software

USB stick with description files (.dbc files) for test

mode and diagnostics via CAN software as well as

configuration software for the CAN/Ethernet converter

Tab. 2: WGS scope of delivery

Note

Important note

Operating instructions Chapter 3

WGS

8019357/2016-10-12 Translation of the original operating instructions | SICK 17

Subject to change without notice

System description

Necessary accessories

Quantity Part no. Description

6060948

CAN/Ethernet converter

Tab. 3: Necessary accessories

Optional accessories

Quantity Part no. Description

6051544

Ethernet switch

6042735

TiM power connecting cable

6048251

TiM Ethernet connecting cable

Tab. 4: Optional accessories

Chapter 3 Operating instructions

WGS

18 Translation of the original operating instructions | SICK 8019357/2016-10-12

Subject to change without notice

System description

3.2 System components

3.2.1 Laser scanner TiM351

A TiM351 laser scanner installed on the roof of the agricultural machine continuously

monitors the ground in front of the vehicle in a radius of up to 6 m from the sensor during

the harvesting process.

Laser scanners are electro-optical sensors that use non-contact laser beams to scan the

outline of their surroundings in a plane. They measure their surroundings in two-dimensional

polar coordinates.

A rotating mirror is used to deflect the pulsed light in a horizontal area. Due to the rotation

of the mirror, a multitude of single measurements are merged to form an entire scan of an

area. Scanning occurs in a sector up to 270°.

The laser beam is emitted through the front screen. The scan plane position is indicated by

a housing marking next to the front screen.

Fig. 2: Scan plane of the TiM351

Range finding

The 2D laser scanner measurement technology is based on what is known as the time-of-

flight measurement. The laser emits beams pulsed using a laser diode. If a laser pulse hits

an object or person, it is reflected by the surface of the object or person in question. The

reflection is registered by a photo-diode in the laser scanner's receiver. The laser scanner

combines the sender and receiver in a single housing.

With what is known as the pulse time method, the distance between the sensor and the

object is calculated by measuring the time interval between the emission of the laser

pulse and the pulse being received again. Radar systems apply this “pulse time-of-flight

measurement” principle in a similar way.

Fig. 3: Remaining distance measurement of the TiM351

Operating instructions Chapter 3

WGS

8019357/2016-10-12 Translation of the original operating instructions | SICK 19

Subject to change without notice

System description

Direction measurement

The rotating mirror enables radial scanning of the environment. The individual measure-

ments are triggered internally by an encoder in regular angle increments. One complete

rotation represents one measuring process (scan).

The TiM351 works at a scanning frequency of 15 Hz, i.e. it performs 15 measuring

processes per second and makes the measurement results continuously available in real

time via the Ethernet interface.

The measuring procedure uses the averaging from multiple pulses to determine individual

measured values. At an angular resolution of 1°, a measuring point is composed of

an average of 84 measurements. The spot geometry of the submeasuring points is

almost circular, with a measuring point taking the form of a narrow rectangle through

superposition.

Fig. 4: Direction measurement of the TiM351

Firmware and WGS software

The firmware and WGS software pre-installed in the TiM351 laser scanner upon delivery

are inter-coordinated. They are updated together as a part of a program update.

Fig. 5: TiM351 with integrated firmware and WGS software

Chapter 3 Operating instructions

WGS

20 Translation of the original operating instructions | SICK 8019357/2016-10-12

Subject to change without notice

System description

3.2.2 CAN/Ethernet converter

Due to the fact that the TiM351 laser scanner only has one Ethernet port, a CAN/Ethernet

converter is required for the connection of the sensor to the harvesting vehicle’s CAN

communication. For this purpose, the protocol converter provides a LAN connection and a

CAN interface.

The CAN/Ethernet converter makes it possible for the WGS to be integrated into the

vehicle control system via the ISOBUS. The ISOBUS interface is the industry standard for

agriculture applications. It enables ISOBUS-compliant accessory devices to be controlled

via a uniform protocol, regardless of design or manufacturer.

An existing CAN/Ethernet converter can always be used.

If no CAN/Ethernet converter is at hand yet, the CAN/Ethernet converter available as an

accessory is recommended. The converter is preconfigured upon delivery and can directly

be used by the WGS driver assistance system directly.

Fig. 6: CAN/Ethernet converter

3.2.3 Ethernet switch

Optionally, an Ethernet switch connects the laser scanner with the protocol converter.

The connection of the laser scanner via an Ethernet switch enables the analysis of the CAN

communication during operation as well as upgrading the system via a connected

configuration computer.

Fig. 7: Ethernet switch

Page is loading ...

SICK WGS - Driver assistance system Operating instructions

SICK WGS - Driver assistance system Operating instructions

SICK WGS - Driver assistance system Operating instructions

Related papers

Other documents