Leuze electronic AMS 348i SSI Original Operating Instructions

AMS 348i SSI

Optical Laser Measurement System – PROFINET / SSI

de 03-2017/07 50125898

We reserve the right to

make technical changes

Original operating instructions

© 2017

Leuze electronic GmbH + Co. KG
In der Braike 1
D-73277 Owen / Germany
Phone: +49 7021 573-0
Fax: +49 7021 573-199
http://www.leuze.com
info@leuze.com

Leuze electronic AMS 348i SSI

AMS 348i SSI

Stelle löschen

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aufwärts/seitwärts
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abwärts/seitwärts
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ESCAPE

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ENTER

Bestätigen

Geräte-Tasten:

Die Hauptmenüs

Werte-Eingabe

AMS 348i 120 SSI
Leuze electronic

GmbH & Co. KG
SW: V 1.3.0 HW:1
SN: -----------------------

Netzwerk Information
Address: ---.---.---.--­Netmask: - --.---.---.--­Gateway: ---.---.---.--­MAC ID: --.--.--.--.--.-­DevName: ------------------------

IO1 LSR PLB LNK0
IO2 TMP ATT LNK1
ERR SSI

+ 87,000m

Parameter

Parameterverwaltung
PROFINET
SSI
Positionswert
I/O

Hauptmenü Geräteinformation

In diesem Menüpunkt erhalten Sie detaillierte Infor­mationen über

•Gerätetyp,

• Hersteller,

• Softwareversion und Hardwarestand,

• Seriennummer.
Es sind keine Eingaben über das Display möglich.

Hauptmenü Netzwerk Information

Unter diesem Menüpunkt finden Sie detaillierte Infor­mationen zu den Netzwerkadressen.
Es sind keine Eingaben über das Display möglich.

Hauptmenü Status- und Messdaten

• Anzeige von Status-, Warn- und Fehlermel­dungen.

• Zustandsübersicht der Schaltein-/ausgänge.

• Bargraph für den Empfangspegel.

• Aktivierte Schnittstelle.

• Messwert.

Es sind keine Eingaben über das Display möglich.
Siehe "Anzeigen im Display" auf Seite 41.

Hauptmenü Parameter

Die Parametrierung für PROFI NET erfolgt über die
Module der GSDML-Datei.

100

<-|0123456789 save
Standard ----- Maßeinheit
126 | |

Sprachauswahl
o Deutsch

English
o Español
o Français
o Italiano

Service

Zustandsmeldungen

Diagnose

Erweiterte Diagnose

Hauptmenü Sprachauswahl

• Auswahl der Display-Sprache.
Siehe "Sprachauswahlmenü" auf Seite 52.

Hauptmenü Service

• Anzeige von Statusmeldungen.

• Anzeige von Diagnosedaten.
Es sind keine Eingaben über das Display möglich.
Siehe "Servicemenü" auf Seite 52.

Table of contents

1 General information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

1.1 Explanation of symbols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

1.2 Declaration of conformity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

1.3 Description of functions AMS 348i SSI. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

2 Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

2.1 Intended use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

2.2 Foreseeable misuse. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

2.3 Competent persons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8

2.4 Disclaimer. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

2.5 Laser safety notices. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9

3 Fast commissioning / operating principle . . . . . . . . . . . . . . . . . . . 12

3.1 Mounting the AMS 348i SSI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12

3.1.1 Mounting the device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12

3.1.2 Reflector mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12

3.2 Connecting the voltage supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

3.3 Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

3.4 AMS 348i SSI on the PROFINET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

4 Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

4.1 Specifications of the laser measurement system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

4.1.1 General specifications AMS 348i SSI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

4.1.2 Dimensioned drawing AMS 348i SSI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16

4.1.3 Type overview AMS 348i SSI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17

5 Installation and mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18

5.1 Storage, transportation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18

5.2 Mounting the AMS 348i SSI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

5.2.1 Optional mounting bracket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21

5.2.2 Parallel mounting of the AMS 348i SSI. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22

5.2.3 Parallel mounting of AMS 348i SSI and DDLS optical data transmission . . . . . . . . . . . . 23

5.3 Mounting the AMS 348i SSI with laser beam deflector unit . . . . . . . . . . . . . . . . . . . . . 24

5.3.1 Mounting the laser beam deflector unit With integrated mounting bracket . . . . . . . . . . . 24

5.3.2 Dimensioned drawing of US AMS 01 deflector unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25

5.3.3 Mounting the US 1 OMS deflector unit without mounting bracket . . . . . . . . . . . . . . . . . 26

AMS 348i SSI 1

Table of contents

6 Reflectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27

6.1 General information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .27

6.2 Description of the reflective tape. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27

6.2.1 Specifications of the self-adhesive foil . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28

6.2.2 Specifications of the reflective tape on a support plate . . . . . . . . . . . . . . . . . . . . . . . . . . 28

6.2.3 Dimensioned drawing of reflective tape on a metal plate . . . . . . . . . . . . . . . . . . . . . . . . .29

6.2.4 Specifications of heated reflectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30

6.2.5 Dimensioned drawing of heated reflectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31

6.3 Selecting reflector sizes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32

6.4 Mounting the reflector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33

6.4.1 General information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33

6.4.2 Mounting the reflector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33

6.4.3 Table of reflector pitches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36

7 Electrical connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37

7.1 Safety notices for the electrical connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37

7.2 PWR – voltage supply / switching input/output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38

7.3 PROFINET BUS IN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38

7.4 PROFINET BUS OUT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39

7.5 SSI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39

7.6 Service. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40

8 Display and control panel AMS 348i SSI . . . . . . . . . . . . . . . . . . . . 41

8.1 Structure of the control panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41

8.2 Status display and operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41

8.2.1 Indicators in the display. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41

8.2.2 LED status displays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43

8.2.3 Control buttons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45

8.3 Menu description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .46

8.3.1 The main menus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46

8.3.2 Parameter menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48

8.3.3 Language selection menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52

8.3.4 Service menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52

8.4 Operation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53

9 PROFINET interface. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55

9.1 General information on PROFINET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55

2AMS348i SSI

Table of contents

9.2 Identification & Maintenance Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55

9.3 PROFINET – Star topology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56

9.4 PROFINET – Linear topology. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56

9.5 PROFINET – General information on wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57

9.6 PROFINET – Cable lengths and shielding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57

9.7 PROFINET - Electrical connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58

9.8 PROFINET – Commissioning and configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59

9.8.1 PROFINET implementation of the AMS 348i . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59

9.8.2 Measures to be performed prior to the initial commissioning . . . . . . . . . . . . . . . . . . . . . 60

9.8.3 Starting the device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61

9.8.4 Configuration steps for a Siemens Simatic S7 control . . . . . . . . . . . . . . . . . . . . . . . . . . . 62

9.9 PROFINET GSD file . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69

9.9.1 General information on the GSD file . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69

9.9.2 Overview of the GSD modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 71

9.9.3 Detail description of the modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73

10 SSI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102

10.1 Principle functionality of the SSI interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 102

10.1.1 SSI sequence diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103

10.1.2 Cable length as a function of the data rate. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 104

10.2 SSI - Electrical connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 104

10.3 General Information to the AMS 348i SSI parameters . . . . . . . . . . . . . . . . . . . . . . . . . 105

10.4 Default settings of the SSI interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 105

10.4.1 Changing the SSI settings via the display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 106

11 Diagnostics and troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . 107

11.1 Service and diagnostics in the display of the AMS 348i SSI . . . . . . . . . . . . . . . . . . . . 108

11.1.1 Status messages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 108

11.1.2 Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 109

11.1.3 Expanded diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 109

11.2 General causes of errors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 110

11.2.1 Power LED . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 110

11.3 Interface errors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111

11.3.1 BUS LED . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111

11.4 Status display in the display of the AMS 348i SSI . . . . . . . . . . . . . . . . . . . . . . . . . . . . 111

AMS 348i SSI 3

Table of contents

12 Type overview and accessories . . . . . . . . . . . . . . . . . . . . . . . . . . 113

12.1 Type key . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 113

12.2 Type overview AMS 348i SSI (PROFINET + SSI). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 113

12.3 Overview of reflector types . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114

12.4 Accessories. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114

12.4.1 Accessory mounting bracket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114

12.4.2 Accessory deflector unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114

12.4.3 Accessory M12 connector. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 114

12.4.4 Accessory ready-made cables for voltage supply. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 115

12.4.5 Accessory ready-made cables for PROFINET. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 116

12.4.6 Accessory ready-made cables for SSI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 118

13 Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 120

13.1 General maintenance information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 120

13.2 Repairs, servicing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 120

13.3 Disassembling, packing, disposing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 120

4AMS348i SSI

1 General information

1.1 Explanation of symbols

The symbols used in this operating manual are explained below.

Attention!

This symbol precedes text messages which must strictly be observed. Failure to comply with
this information results in injuries to personnel or damage to the equipment.

Attention Laser!

This symbol warns of possible danger caused by hazardous laser radiation.

Notice!

This symbol indicates text passages containing important information.

1.2 Declaration of conformity

The AMS 348i SSI absolute measuring optical laser measurement system was designed and
manufactured in accordance with applicable European directives and standards.

The AMS series is "UL LISTED" according to American and Canadian safety standards and
fulfills the requirements of Underwriter Laboratories Inc. (UL).

General information

Notice!

The Declaration of Conformity for these devices can be requested from the manufacturer.

The manufacturer of the product, Leuze electronic GmbH + Co. KG in D-73277 Owen,
possesses a certified quality assurance system in accordance with ISO 9001.

Leuze electronic AMS 348i SSI 5

TNT 35/7-24V

General information

1.3 Description of functions AMS 348i SSI

The AMS 348i SSI optical laser measurement system calculates distances to fixed as well
as moving system parts. The distance to be measured is calculated according to the prin­ciple of the propagation time of radiated light. Here, the light emitted by the laser diode is
reflected by a reflector onto the receiving element of the laser measurement system. The
AMS 348i SSI uses the "propagation time" of the light to calculate the distance to the
reflector. The high absolute measurement accuracy of the laser measurement system and
the fast response time are designed for position control applications.

With the AMS 3xxi product series, Leuze electronic makes available a range of internation­ally relevant interfaces. Note that each interface version listed below corresponds to a
different AMS 3xxi model.

AMS 304i

AMS 348i

AMS 348i with SSI

AMS 355i

AMS 358i

AMS 335i

AMS 338i

AMS 308i

AMS 384i

AMS 301i

AMS 300i

6 AMS 348i SSI Leuze electronic

2 Safety

This sensor was developed, manufactured and tested in line with the applicable safety stan­dards. It corresponds to the state of the art.

2.1 Intended use

The AMS is an absolute measuring optical laser measurement system which allows
distance measurement of up to 300m against a reflector.

Areas of application

The AMS is designed for the following areas of application:

• Positioning of automated, moving plant components

• Travel and lifting axes of high-bay storage devices

• Repositioning units

• Gantry crane bridges and their trolleys

•Lifts

• Electroplating plants

CAUTION

Observe intended use!

 Only operate the device in accordance with its intended use. The protection of per-

sonnel and the device cannot be guaranteed if the device is operated in a manner not
complying with its intended use.
Leuze electronic GmbH + Co. KG is not liable for damages caused by improper use.

 Read the technical description before commissioning the device. Knowledge of this

technical description is an element of proper use.

Safety

NOTICE

Comply with conditions and regulations!

 Observe the locally applicable legal regulations and the rules of the employer's liability

insurance association.

Attention

For UL applications, use is permitted exclusively in Class 2 circuits according to NEC
(National Electric Code).

Leuze electronic AMS 348i SSI 7

TNT 35/7-24V

Safety

2.2 Foreseeable misuse

Any use other than that defined under "Intended use" or which goes beyond that use is
considered improper use.

In particular, use of the device is not permitted in the following cases:

• Rooms with explosive atmospheres

• As stand-alone safety component in accordance with the machinery directive

• For medicinal purposes

NOTICE

Do not modify or otherwise interfere with the device.

 Do not carry out modifications or otherwise interfere with the device.

The device must not be tampered with and must not be changed in any way.
The device must not be opened. There are no user-serviceable parts inside.
Repairs must only be performed by Leuze electronic GmbH + Co. KG.

2.3 Competent persons

Connection, mounting, commissioning and adjustment of the device must only be carried
out by competent persons.

Prerequisites for competent persons:

• They have a suitable technical education.

• They are familiar with the rules and regulations for occupational safety and safety at
work.

• They are familiar with the technical description of the device.

• They have been instructed by the responsible person on the mounting and operation
of the device.

1)

Certified electricians

Electrical work must be carried out by a certified electrician.

Due to their technical training, knowledge and experience as well as their familiarity with
relevant standards and regulations, certified electricians are able to perform work on elec­trical systems and independently detect possible dangers.

In Germany, certified electricians must fulfill the requirements of accident-prevention regu­lations BGV A3 (e.g. electrician foreman). In other countries, there are respective regula­tions that must be observed.

1) Use as safety-related component within the safety function is possible, if the component combi­nation is designed correspondingly by the machine manufacturer.

8 AMS 348i SSI Leuze electronic

2.4 Disclaimer

Leuze electronic GmbH + Co. KG is not liable in the following cases:

• The device is not being used properly.

• Reasonably foreseeable misuse is not taken into account.

• Mounting and electrical connection are not properly performed.

• Changes (e.g., constructional) are made to the device.

2.5 Laser safety notices

ATTENTION LASER RADIATION – LASER CLASS 2

Never look directly into the beam!

The device satisfies the requirements of IEC 60825-1:2007 (EN 60825-1:2007) safety
regulations for a product in laser class 2 as well as the U.S. 21 CFR 1040.10 regulations
with deviations corresponding to "Laser Notice No. 50" from June 24th, 2007.

 Never look directly into the laser beam or in the direction of reflecting laser beams.

If you look into the beam path over a longer time period, there is a risk of injury to the
retina.

 Do not point the laser beam of the device at persons!
 Interrupt the laser beam using a non-transparent, non-reflective object if the laser

beam is accidentally directed towards a person.

 When mounting and aligning the device, avoid reflections of the laser beam off reflec-

tive surfaces!

 CAUTION! The use of operating or adjusting devices other than those specified here

or carrying out of differing procedures may lead to dangerous exposure to radiation.

 Adhere to the applicable legal and local regulations regarding protection from laser

beams.

 The device must not be tampered with and must not be changed in any way.

There are no user-serviceable parts inside the device.
Repairs must only be performed by Leuze electronic GmbH + Co. KG.

Safety

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Leuze electronic AMS 348i SSI 9

Safety

A Laser aperture
B Laser warning sign
C Laser information sign with laser parameters

A B

C

NOTICE

Affix laser information and warning signs!

Laser information and warning signs are attached to the device (see figure 2.1):

In addition, self-adhesive laser warning and information signs (stick-on labels) are supplied
in several languages (see figure 2.2).

 Affix the laser information sheet to the device in the language appropriate for the place

of use.
When using the device in the US, use the stick-on label with the "Complies with
21 CFR 1040.10" notice.

 Affix the laser information and warning signs near the device if no signs are attached

to the device (e.g., because the device is too small) or if the attached laser information
and warning signs are concealed due to the installation position.

Affix the laser information and warning signs so that they are legible without exposing
the reader to the laser radiation of the device or other optical radiation.

Figure 2.1: Laser apertures, laser warning signs

10 AMS 348i SSI Leuze electronic

AVOID EXPOSURE – LASER RADIATION

IS EMITTED FROM THIS APERTURE

EXPOSITION DANGEREUSE – UN RAYONNEMENT

LASER EST ÉMIS PAR CETTE OUVERTURE

LASERSTRAHLUNG

NICHT IN DEN STRAHL BLICKEN

LASER KLASSE 2

DIN EN 60825-1:2008-05

Max. Leistung (peak):
Impulsdauer:
Wellenlänge:

RADIAZIONE LASER

NON FISSARE IL FASCIO

APARRECCHIO LASER DI CLASSE 2

EN 60825-1:2007

Potenza max. (peak):
Durata dell'impulso:
Lunghezza d'onda:

LASER RADIATION

DO NOT STARE INTO BEAM

CLASS 2 LASER PRODUCT

EN 60825-1:2007

Maximum Output (peak):
Pulse duration:
Wavelength:

RAYONNEMENT LASER

NE PAS REGARDER DANS LE FAISCEAU

APPAREIL À LASER DE CLASSE 2

EN 60825-1:2007

Puissance max. (crête):
Durée d`impulsion:
Longueur d`onde:

RADIACIÓN LÁSER

NO MIRAR FIJAMENTE AL HAZ

PRODUCTO LÁSER DE CLASE 2

EN 60825-1:2007

Potencia máx. (peak):
Duración del impulso:
Longitud de onda:

RADIAÇÃO LASER

NÃO OLHAR FIXAMENTE O FEIXE

EQUIPAMENTO LASER CLASSE 2

EN 60825-1:2007

Potência máx. (peak):
Período de pulso:
Comprimento de onda:

LASER RADIATION

DO NOT STARE INTO BEAM

CLASS 2 LASER PRODUCT

IEC 60825-1:2007

Complies with 21 CFR 1040.10

Maximum Output (peak):
Pulse duration:
Wavelength:

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▎䦃展⏘㧮

伊䉏⏘ℶ❐

GB7247.1-2012

㦏⮶戢⒉᧤⽿⋋᧥
厘⑁㖐兼㢅梃
㽱栎

4 mW
18 μs

655 nm

4 mW
18 μs

655 nm

4 mW
18 μs

655 nm

4 mW
18

μ

s

655 nm

4 mW
18 μs

655 nm

4 mW
18 μs

655 nm

4 mW
18 μs

655 nm

4 mW
18 μs

655 nm

50125612-01

Safety

Figure 2.2: Laser warning and information signs – supplied stick-on labels

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Leuze electronic AMS 348i SSI 11

Fast commissioning / operating principle

3 Fast commissioning / operating principle

Notice!

Below, you will find a short description for the initial commissioning of the AMS 348i SSI.
Detailed explanations for the listed points can be found throughout the handbook.

3.1 Mounting the AMS 348i SSI

The AMS 348i and the corresponding reflector are mounted on two mutually opposing,
plane-parallel, flat walls.

Figure 3.1: Schematic illustration of mounting

Attention!

For error-free position measurement, there must be an unobstructed line-of-sight between
the AMS 348i and the reflector.

3.1.1 Mounting the device

The laser is mounted using 4 screws (M5).

Alignment is performed using 2 adjustment screws. Adjust so that the laser light spot is posi­tioned at the center of the reflector. The alignment is to be secured with the knurled nut and
locked with the M5 nut.

Further information can be found in chapter 5.2 and chapter 5.3.

3.1.2 Reflector mounting

The reflector is mounted using 4 screws (M5). The reflector is angled using the spacer
sleeves included. Incline the reflector by approx. 1°.

Detailed information can be found in chapter 6.4.

12 AMS 348i SSI Leuze electronic

Fast commissioning / operating principle

3.2 Connecting the voltage supply

The laser measurement system is connected using M12 connectors. The voltage supply is
connected via the PWR M12 connection (18 … 30 V DC). 2 freely programmable switching
inputs/outputs for individual adaptation to the respective application are also available here.

Detailed information can be found in chapter 7.

3.3 Display

Once the laser measurement system is supplied with voltage, the device status as well as
the measured position values can be read on the display. The display automatically switches
to the display of the measurement values.

Use the up/down buttons to the left of the display to read and change a wide range
of data and parameters.

Detailed information can be found in chapter 8.

3.4 AMS 348i SSI on the PROFINET

Install the GSDML file associated with the AMS 348i SSI in the PROFINET Manager of your
control. Activate the desired modules (at least one module).

The network address for PROFINET is assigned via the PROFINET Manager.

Standalone operation in PROFINET

During standalone operation of the AMS 348i SSI, the PROFINET network is connected to
BUS IN. BUS OUT requires no terminating resistor.

Network operation in PROFINET

In network mode the AMS 348i SSI is connected to PROFINET via BUS IN. Further
PROFINET participants can be connected to the integrated switch of the AMS 348i SSI via
the BUS OUT connection.

Commissioning of the AMS 348i SSI

The procedures described below are for the configuration of an AMS 348i SSI with a
Siemens Simatic S7 PLC.

• Switching on the supply voltage.
The AMS 348i SSI displays the "Status and measurement data" main menu.

• Installation of the corresponding GSD file in the Simatic Hardware Manager.

• Projection of the PROFINET network including the AMS 348i SSI GSD file. Definition
of the IP addresses, sub-network mask and definition of a device name assigned to
the IP address.

• Download of the project to the connected Siemens control.

Further information regarding the individual commissioning steps is provided in see chapter

9.8.4 "Configuration steps for a Siemens Simatic S7 control".

Detailed information can be found in chapter 9.

Leuze electronic AMS 348i SSI 13

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Specifications

4 Specifications

4.1 Specifications of the laser measurement system

4.1.1 General specifications AMS 348i SSI

Measurement data AMS 348i 40 (H)

SSI

AMS 348i 120 (H)

SSI

AMS 348i 200 (H)

SSI

AMS 348i 300 (H)

SSI

Measurement range 0.2 … 40m 0.2 … 120m 0.2 … 200m 0.2 … 300m
Accuracy ±2mm ±2mm ±3mm ±5mm
Consistency

1)

0.3mm 0.5mm 0.7mm 1.0mm
Light spot diameter ≤ 40 mm ≤ 100 mm ≤ 150mm ≤ 225mm
Output time 1.7ms
Response time 14ms
Basis for contouring error calculation 7ms
Resolution adjustable, see chapter of the individual interfaces
Temperature drift ≤ 0.1 mm/K
Ambient temperature sensitivity 1ppm/K
Air pressure sensitivity 0.3 ppm/hPa
Tra v erse ra te ≤ 10 m/s

Electrical data

Supply voltage Vin

2)

18 … 30V DC

Current consumption without device heating: ≤ 250mA / 24VDC

with device heating: ≤ 500 mA / 24VDC

Optical data

Transmitter laser diode, red light
Laser class 2 in accordance with IEC 60825-1:2007, CDRH
Wavelength 655nm
Impulse duration ≤ 18 μs
Max. output power (peak) ≤ 4mW

PROFINET interface

Interface type PROFINET-RT with integrated switch

for BUS IN and BUS OUT
Protocol PROFINET-RT communication
Conformance Class B

SSI interface

Interface type SSI interface
SSI clock rate 50kHz … 800kHz
Data format see chapter 10.4

Operating and display elements

Keyboard 4 buttons
Display monochromatic graphical display, 128 x 64 pixels
LED 4 LEDs, 2 of which are used to display the PROFINET connection

14 AMS 348i SSI Leuze electronic

Specifications

Inputs/outputs

Quantity

Input

Output

Mechanical data

Housing cast zinc and aluminum
Optics glass
Weight approx. 2.45kg
Degree of protection

Environmental conditions

Operating temperature

without device heating

with device heating

Storage temperature -30°C … +70 °C
Air humidity max. 90% rel. humidity, non-condensing

Mechanical/electrical loading capacity

Vibrations acc. to EN 60068-2-6
Noise acc. to EN 60060-2-64
Shock acc. to EN 60068-2-27
EMC

1) Statistical error: 1 sigma; minimum switch-on time: 2min.

2) For UL applications: only for use in "Class 2" circuits acc. to NEC.

3) With screwed-on M 12 plugs or mounted caps.

4) With devices with heating, the switch on/off area of the internal heating can be extended to prevent
condensation from forming. A 100% prevention of the formation of condensation cannot be guaran­teed due to the limited heating capacity of the AMS 348i SSI.

5) This is a Class A product. In a domestic environment this product may cause radio interference, in
which case the operator may be required to take adequate measures.

acc. to EN 61000-6-2 and EN 61000-6-4

2, programmable

protected against polarity reversal

max. 60mA, short-circuit proof

IP 65 acc. to EN 60529

3)

-5°C … +50°C

-30°C… +50°C

4)

5)

The AMS 348i SSI is designed in accordance with safety class III for supply
with PELV (protective extra-low voltage).

Leuze electronic AMS 348i SSI 15

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Specifications

A M5 screw for alignment
B Knurled nut with WAF4

hexagon socket and M5 nut for securing

C Optical axis
D Zero point of the distance to be measured

A

B

D

A

C

4.1.2 Dimensioned drawing AMS 348i SSI

16 AMS 348i SSI Leuze electronic

Figure 4.1: Dimensioned drawing AMS 348i SSI

4.1.3 Type overview AMS 348i SSI

AMS 348i SSI (PROFINET + SSI)

Type designation Description Part no.

AMS 348i 40 SSI 40m operating range, PROFINET/SSI interface 50127219
AMS 348i 120 SSI 120m operating range, PROFINET/SSI interface 50127220
AMS 348i 200 SSI 200m operating range, PROFINET/SSI interface 50127221
AMS 348i 300 SSI 300m operating range, PROFINET/SSI interface 50127222
AMS 348i 40 H SSI 40m operating range, PROFINET/SSI interface, integrated heating 50127223
AMS 348i 120 H SSI 120m operating range, PROFINET/SSI interface, integrated heating 50127224
AMS 348i 200 H SSI 200m operating range, PROFINET/SSI interface, integrated heating 50127225
AMS 348i 300 H SSI 300m operating range, PROFINET/SSI interface, integrated heating 50127226

Table 4.1: Type overview AMS 348i SSI

Specifications

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Installation and mounting

5 Installation and mounting

5.1 Storage, transportation

Attention!

When transporting or storing, package the device so tha t it is pro tected against collision and
humidity. Optimum protection is achieved when using the original packaging. Heed the re­quired environmental conditions specified in the technical data.

Unpacking

 Check the packaging for any damage. If damage is found, notify the post office or shipping

agent as well as the supplier.

 Check the delivery contents using your order and the delivery papers:

• Delivered quantity

• Device type and model as indicated on the nameplate

• Brief manual

The name plate provides information as to what AMS 348i SSI type your device is. For
specific information, please refer to chapter 12.2.

Name plates

Figure 5.1: Device name plate using the AMS 358i as an example

Notice!

Please note that the shown name plate is for illustration purposes only; the contents do not
correspond to the original.

 Save the original packaging for later storage or shipping.

18 AMS 348i SSI Leuze electronic

If you have any questions concerning your shipment, please contact your supplier or your

A M5 screw for

alignment

B Knurled nut and nut

with WAF4 hexagon
socket for securing

C Optical axis

A

B

A

C

local Leuze electronic sales office.

 Observe the applicable local regulations when disposing of the packaging materials.

5.2 Mounting the AMS 348i SSI

Installation and mounting

Figure 5.2: Mounting the device

The AMS 348i SSI and the corresponding reflector are mounted on two mutually opposing,
plane-parallel, flat walls or system parts. For error-free position measurement, there must
be an unobstructed line-of-sight connection between the AMS 348i SSI and the reflector.

Use M5 screws to fasten the laser measurement system. Secure the screws with a toothed
lock washer to protect against loosening caused by vibrations.

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Installation and mounting

Aligning the laser light spot in the center of the reflector

The laser light spot has to be aligned so that it always hits the center of the opposing
reflector, both at close range as well as at the maximum measurement distance. To align,
use the two M5 Allen screws ("A" in figure 5.2). When aligning please ensure that the
knurled nut and the lock nut ("B" in figure 5.2) are opened wide.

Attention!

To prevent the laser measurement system from moving out of alignment during continuous
operation, subsequently hand-tighten the knurled nut and counterlock with the nut with
WAF4 hexagon socket ("B" in figure 5.2). Knurled nut and nut must not be tightened until
alignment has been completed.

Attention!

The device must not be opened. Failure to comply will render the guarantee void. Warranted
features cannot be guaranteed after the device has been opened.

20 AMS 348i SSI Leuze electronic

5.2.1 Optional mounting bracket

A Laser beam

A mounting bracket for mounting the AMS 348i SSI on a flat, horizontal surface is available
as an optional accessory.

Type designation: MW OMS/AMS 01

Part no.: 50107255

Installation and mounting

Leuze electronic AMS 348i SSI 21

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Figure 5.3: Optional mounting bracket

Installation and mounting

X

Reflector 1 Reflector 2

5.2.2 Parallel mounting of the AMS 348i SSI

Definition of the term "parallel spacing"

As shown in figure 5.4, dimension X describes the "parallel spacing" of the inner edges of
the two laser light spots on the reflector.

Figure 5.4: Minimum parallel spacing X between adjacent AMS 348i SSI

The diameter of the light spot increases with distance.

Max. measurement

AMS 348i 40 (H)

SSI

40m 120m 200m 300m

AMS 348i 120 (H)

SSI

AMS 348i 200 (H)

SSI

AMS 348i 300 (H)

SSI

distance
Light spot diameter ≤ 40 mm ≤ 100 mm ≤ 150mm ≤ 225mm

Thus, the center-to-center spacing of the two AMS 348i SSI devices with respect to one
another can be calculated as a function of the maximum measurement distance.

To define the minimum parallel spacing between two AMS 348i SSI, it is necessary to distin­guish between three different arrangements of AMS 348i SSI and reflectors.

The AMS 348i SSI are mounted stationary and in parallel on one plane. Both reflectors move independently of one another at different distances to the AMS 348i SSI.

Minimum parallel spacing X of the two laser light spots:

X = 100mm + (max. measurement distance in mm x 0.01)

The AMS 348i SSI are mounted stationary and in parallel on one plane. Both reflectors move in parallel at the same distance to the AMS 348i SSI.

Measurement distance up to 120m: minimum parallel spacing X ≥ 600mm

Measurement distance up to 200m: minimum parallel spacing X ≥ 750mm

Measurement distance up to 300m: minimum parallel spacing X ≥ 750mm

22 AMS 348i SSI Leuze electronic

Installation and mounting

The reflectors are mounted stationary and in parallel on one plane. Both AMS 348i SSI move independently of one another at different or the same distances to the reflectors.

Measurement distance up to 120 m: minimum parallel spacing X ≥ 600 mm

Measurement distance up to 200 m: minimum parallel spacing X ≥ 750 mm

Measurement distance up to 300 m: minimum parallel spacing X ≥ 750 mm

Notice!

Please note that when the AMS 348i SSI are mounted in a mobile manner, travel tolerances
could cause the two laser light spots to move towards each other.
Take the travel tolerances of the vehicle into account when defining the parallel spacing of
adjacent AMS 348i SSI.

5.2.3 Parallel mounting of AMS 348i SSI and DDLS optical data transmission

The optical data transceivers of the DDLS series and the AMS 348i SSI do not interfere with
one another. Depending on the size of the used reflector, the DDLS can be mounted with
a minimum parallel spacing of 100mm to the AMS 348i SSI. The parallel spacing is inde­pendent of the distance.

Leuze electronic AMS 348i SSI 23

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Installation and mounting

5.3 Mounting the AMS 348i SSI with laser beam deflector unit

General information

The two available deflector units are used for the 90° deflection of the laser beam,
see "Accessory deflector unit" on page 114.

Attention!

The deflector units are designed for a maximum range of 40m.
Longer distances on request.

5.3.1 Mounting the laser beam deflector unit With integrated mounting bracket

The AMS 348i SSI is screwed onto the mechanism of the US AMS 01 deflector unit. The
mirror can be mounted for three deflection directions:

1. Upward beam deflection

2. Beam deflection to the left

3. Beam deflection to the right

The deflector unit is mounted on plane-parallel, flat walls or plant components. For error­free position measurement, there must be an interruption-free line-of-sight between the
AMS 348i SSI… and the deflection mirror as well as between the mirror and the reflector.

Use the M5 screws to mount the deflector unit. Secure the screws with a toothed lock
washer to protect against loosening caused by vibrations.

Figure 5.5: Mounting variants of the US AMS 01 laser beam deflector unit

24 AMS 348i SSI Leuze electronic

Installation and mounting

A Laser beam

5.3.2 Dimensioned drawing of US AMS 01 deflector unit

Leuze electronic AMS 348i SSI 25

TNT 35/7-24V

Figure 5.6: Dimensioned drawing of US AMS 01 deflector unit

Installation and mounting

A Mirror

Height of the spring in non­preloaded state

5.3.3 Mounting the US 1 OMS deflector unit without mounting bracket

The US 1 OMS deflector unit and the AMS 348i SSI are mounted separately.

Notice!

When mounting, make certain that the laser light spot of the AMS 348i SSI is aligned in the
center of the deflection mirror.

Figure 5.7: Photo and dimensioned drawing of the US 1 OMS deflector unit

Alignment of the laser light spot on the reflector is performed as described in chapter 5.2.

26 AMS 348i SSI Leuze electronic

6 Reflectors

6.1 General information

The AMS 348i SSI measures distances against a reflective tape specified by Leuze elec­tronic. All provided specifications for the AMS 348i SSI, such as the operating range or accu­racy, can only be achieved with the reflective tape specified by Leuze electronic.

The reflective tapes are available as adhesive tapes, affixed to a metal plate and with an
integrated heater especially for use at low temperatures. Reflective tapes with heating have
the designation "Reflective tape …x…-H", where "H" is an abbreviation for the heating
variant.

The reflective tapes/reflectors must be ordered separately. The choice of size is left to the
user. In Chapter 6.3, recommendations on reflector size are provided as a function of the
distance that is to be measured. In any case, the user must check to determine whether the
recommendation is suitable for the respective application.

6.2 Description of the reflective tape

The reflective tape consists of a white, microprism-based reflective material. The micro­prisms are protected with a highly transparent, hard protective layer.

Under certain circumstances, the protective layer may lead to surface reflections. The
surface reflections can be directed past the AMS 348i SSI by positioning the reflective tape
at a slight incline. The inclination of the reflective tape/reflectors is described in Chapter

6.4.2. The required pitch can be found in table 6.1 "Reflector pitch resulting from spacer
sleeves" on page 36.

The reflective tapes are provided with a protective fo il that can ea si ly be pulled of f. This must
be removed from the reflector before the complete system is put into operation.

Reflectors

Leuze electronic AMS 348i SSI 27

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Reflectors

6.2.1 Specifications of the self-adhesive foil

Part

Type designation

Part no. 50104361 50104362 50108988
Foil size 200x 200mm 500x500mm 914x914mm
Recommended application

temperature for adhesive
tape

Temperature resistance,
affixed

Mounting surface The mounting surface must be clean, dry and free of grease.
Cutting the tape Cut with a sharp tool, always on the side of the prism structure.

Cleaning

Storing the foil Store in a cool and dry place.

Reflective tape

200x200-S

Do not use any agents that act with a grinding effect. A conventional household

detergent can be used as a cleaning agent. Rinse with clear water and dry the

6.2.2 Specifications of the reflective tape on a support plate

The reflective tape is affixed to a support plate. Included with the support plate are spacers
for positioning at an incline - for avoiding surface reflections - (see chapter 6.4.2 "Mounting
the reflector").

Reflective tape

500x500-S

+5°C … +25 °C

-40°C… +80°C

surface.

Reflective tape

914x914-S

Part

Type designation

Part no. 50104364 50104365 50104366
Foil size 200x 200mm 500 x 500mm 914x 914mm
Outer dimensions of the

metal plate
Weight 1.2kg 2.8kg 25kg

Cleaning

Storing the reflector Store in a cool and dry place.

28 AMS 348i SSI Leuze electronic

Reflective tape

200x200-M

250x 250mm 550 x550mm 964x 964mm

Do not use any agents that act with a grinding effect. A conventional household

detergent can be used as a cleaning agent. Rinse with clear water and dry the

Reflective tape

500x500-M

surface.

Reflective tape

914x914-M

6.2.3 Dimensioned drawing of reflective tape on a metal plate

Always align the TOP marking
with the AMS connections!
(Chapter 6.4.2)

Figure 6.1: Dimensioned drawing of reflectors

Part Reflective tape (mm) Reflector plate (mm)

xL yL XL YL L

Reflective tape 200x200-M 200 200 250 250 214
Reflective tape 500x500-M 500 500 550 550 514
Reflective tape 914x914-M 914 914 964 964 928

Reflectors

Leuze electronic AMS 348i SSI 29

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Reflectors

6.2.4 Specifications of heated reflectors

The reflective tape is affixed to a heated, thermally insulated base. The insulation results in
a very high energetic efficiency.

Only the reflective tape is kept at the specified temperature by the integrated heater.
Through the insulation on the back, the generated heat cannot be transferred via the steel
construction. Energy costs are greatly reduced in the case of continuous heating.

Type designation

Part no. 50115020 50115021 50115022
Voltage supply 230VAC
Power 100W 600W 1800W
Current consumption ~ 0.5A ~ 3A ~ 8A
Length of the supply line 2 m
Size of the reflective tape 200x200mm 500x 500 mm 914x914mm
Outer dimensions of the base

material
Weight 0.5kg 2.5 kg 12kg

Temperature control

Switch-on temperature ~ 5°C
Switch-off temperature ~ 20°C
Operating temperature -30°C … +70°C
Storage temperature -40°C … +80°C
Air humidity Max. 90%, non-condensing.

Cleaning

Storing the reflector Store in a cool and dry place.

Reflective tape

200x200-H

250x 250mm 550x550mm 964x 964 mm

Controlled heating with the following switch-on and switch-off tempera-

Do not use any agents that act with a grinding effect. A conventional house­hold detergent can be used as a cleaning agent. Rinse with clear water and

Part

Reflective tape

500x500-H

tures, measured at the reflector surface.

dry the surface.

Reflective tape

914x914-H

30 AMS 348i SSI Leuze electronic

6.2.5 Dimensioned drawing of heated reflectors

18

6,5

2

L ± 0,5

XL ± 1

TOP

6

2000

115

90

XL ± 1

yL ± 1

L ± 0,5

YL ± 1

Always align the TOP marking
with the AMS connections!
(Chapter 6.4.2)

Connection hood

Reflective tape

Si cable
3 x 0.75mm²

Reflectors

Figure 6.2: Dimensioned drawing of heated reflectors

Part Reflective tape (mm) Insulated base plate (mm)

Reflective tape 200x200-H 200 200 250 250 214

xL yL XL YL L

Reflective tape 500x500-H 500 500 550 550 514
Reflective tape 914x914-H 914 914 964 964 928

Leuze electronic AMS 348i SSI 31

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Reflectors

6.3 Selecting reflector sizes

Depending on system design, the reflector can be mounted so that it travels on the vehicle
or it can be mounted at a fixed location.

Attention!

The reflector sizes shown below are a recommendation from Leuze electronic for on-vehicle
mounting of the AMS 348i SSI. For stationary mounting of the AMS 348i SSI, a smaller
reflector is generally sufficient for all measurement distances.
On the basis of the system planning and design, always check whether mechanical travel
tolerances may require the use of a reflector larger than that which is recommended. This
applies, in particular, when the laser measurement system is mounted on a vehicle. During
travel, the laser beam must reach the reflector without interruption. For on-vehicle mounting
of the AMS 348i SSI, the reflector size must accommodate any travel tolerances that may
arise and the associated "wandering" of the light spot on the reflector.

Overview of reflector types

AMS 348i SSI selection

(operating range in m)

AMS 348i 40 (H) SSI
(max. 40m)

AMS 348i 120 (H) SSI
(max. 120m)

AMS 348i 200 (H) SSI
(max. 200m)

AMS 348i 300 (H) SSI
(max. 300m)

Recommended reflector sizes

Recommended

reflector size

(H x W)

200x200 mm Reflective tape 200x200-S

500x500 mm Reflective tape 500x500-S

749x 914mm
914x 914mm

749x 914mm
914x 914mm

Type designation
…-S = self-adhesive
…-M = metal plate
…-H = heating

Reflective tape 200x200-M

Reflective tape 200x200-H

Reflective tape 500x500-M

Reflective tape 500x500-H
Reflective tape 749x914-S

Reflective tape 914x914-M

Reflective tape 914x914-S
Reflective tape 914x914-H

Reflective tape 749x914-S

Reflective tape 914x914-M

Reflective tape 914x914-S
Reflective tape 914x914-H

Part no.

50104361
50104364
50115020

50104362
50104365
50115021

50104363
50104366
50108988
50115022

50104363
50104366
50108988
50115022

32 AMS 348i SSI Leuze electronic

6.4 Mounting the reflector

6.4.1 General information

Self-adhesive reflective tapes

The reflective tapes of the "Reflective tape …x…-S" self-adhesive series must be affixed
to a flat, clean and grease-free surface. We recommend using a separate metal plate, which
is to be provided on-site.

As described in table 6.1, the reflective tape must be angled.

Reflective tapes on support plate

The reflective tapes of the "Reflective tape …x…-M" series are provided with corresponding
mounting holes. Spacer sleeves are provided in the packet for achieving the necessary pitch
angle. For further information see table 6.1.

Heated reflectors

The reflective tapes of the "Reflective tape ...x...-H" series are provided with corresponding
mounting holes. Due to the voltage supply affixed on the rear, the reflector cannot be
mounted flat. Included in the package are four distance sleeves in two different lengths. Use
the distance sleeves to achieve a base separation to the wall as well as the necessary pitch
for avoiding surface reflection. For further information see table 6.1.

The reflector is provided with a 2m-long connection cable for supplying with 230V AC.
Connect the cable to the closest power outlet. Observe the current consumptions listed in
the specifications.

Reflectors

Attention!

Connection work must be carried out by a certified electrician.

6.4.2 Mounting the reflector

The combination of laser measurement system and reflective tape/reflector is mounted so
that the laser light spot hits the tape as centered as possible and without interruption.

For this purpose, use the alignment elements provided on the AMS 348i SSI… (see chapter

5.3 "Mounting the AMS 348i SSI with laser beam deflector unit"). If necessary, remove the
protective foil from the reflector.

Attention!

The "TOP" label mounted on the reflectors should be aligned the same as the connections
of the AMS 348i SSI.

Example:
If the AMS 348i SSI is mounted so that the M12 connections are on the top, the "TOP" label
of the reflector is also on the top. If the AMS 348i SSI is mounted so that the M 12 connections
are on the side, the "TOP" label of the reflector is also on the side.

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Reflectors

Pitch approx. 1°

Direct reflection from the

triad structure

Deflected surface reflection due to

the pitch of the reflective tape

Pitch approx. 1°

Spacer sleeves

Notice!

The reflector must be angled. To do this, use the spacer sleeves. Angle the reflectors so that
the surface reflections of the foil seal are deflected to the left, right, upwards or down-
wards. Chapter 6.4.3 gives the correct pitch with respect to the reflector size and, thus, the
length of the spacers.

Reflective tapes …-S and …-M

Figure 6.3: Reflector mounting

Figure 6.4: Pitch of the reflector

34 AMS 348i SSI Leuze electronic

Reflective tapes …-H

Pitch approx. 1°

Deflected surface reflection due to

the pitch of the reflective tape

Direct reflection from the

triad structure

Pitch approx. 1°

Spacer sleeves

Figure 6.5: Mounting of heated reflectors

Reflectors

Figure 6.6: Pitch of the heated reflector

Leuze electronic AMS 348i SSI 35

TNT 35/7-24V

Reflectors

6.4.3 Table of reflector pitches

Reflector type Pitch resulting from spacer sleeves

Reflective tape 200x200-S
Reflective tape 200x200-M

Reflective tape 200x200-H 2x15mm 2x20mm
Reflective tape 500x500-S

Reflective tape 500x500-M
Reflective tape 500x500-H 2x15mm 2x25mm
Reflective tape 749x914-S 2x20mm
Reflective tape 914x914-S

Reflective tape 914x914-M
Reflective tape 914x914-H 2x15mm 2x35mm

1) Spacer sleeves are included in the delivery contents of reflective tape …-M and …-H

Table 6.1: Reflector pitch resulting from spacer sleeves

Notice!

Reliable function of the AMS 348i SSI and, thus, max. operating range and accuracy can
only be achieved with the reflective tape specified by Leuze electronic. No function can be
guaranteed if other reflectors are used!

2x5mm

2x10mm

2x20mm

1)

36 AMS 348i SSI Leuze electronic

7 Electrical connection

BUS IN

M12 socket

(D-coded)

PWR / IOs

M12 connector

(A-coded)

BUS OUT

M12 socket

(D-coded)

Leuze SERVICE

M12 socket

(A-coded)

SSI

M12 connector

(B-coded)

The AMS 348i SSI laser measurement systems are connected using variously coded M12
connectors. This ensures unique connection assignments.

Notice!

The corresponding mating connectors and ready-made cables are available as accessories
for all cables. For further information, see chapter 12 "Type overview and accessories".

Figure 7.1: Connections of the AMS 348i SSI

7.1 Safety notices for the electrical connection

Electrical connection

Attention!

Before connecting the device, be sure that the supply voltage agrees with the value printed
on the name plate.
The device may only be connected by a qualified electrician.
Ensure that the functional earth (FE) is connected correctly. Unimpaired operation is only
guaranteed when the functional earth is connected properly.
If faults cannot be corrected, the device should be removed from operation and protected
against possible use.

Attention!

For UL applications, use is permitted exclusively in Class 2 circuits according to NEC
(National Electric Code).

The laser measurement systems are designed in accordance with safety class III for supply

Leuze electronic AMS 348i SSI 37

by PELV (protective extra-low voltage with reliable disconnection).

TNT 35/7-24V

Electrical connection

PWR

I/O 2

I/O 1

3

2

1

4

5

GND VIN

FE

M12 plug

(A-coded)

BUS IN

TD+

1

2

3

4

RD+

RD-

TD-

M12 socket

(D-coded)

Notice!

Degree of protection IP65 is achieved only if the connectors and caps are screwed into place!

Described in detail in the following are the individual connections and pin assignments.

7.2 PWR – voltage supply / switching input/output

PWR (5-pin plug, A-coded)

Pin Name Remark

1 VIN Positive supply voltage +18 … +30 V DC
2 I/O 1 Switching input/output 1
3 GND Negative supply voltage 0VDC
4 I/O 2 Switching input/output 2
5 FE Functional earth

Thread FE Functional earth (housing)

Table 7.1: Pin assignment PWR

Further information on configuring the input/output can be found in chapter 8 and chapter 9.

7.3 PROFINET BUS IN

BUS IN (4-pin socket, D-coded)

Pin Name Remark

1 TD+ Transmit Data +
2 RD+ Receive Data +
3 TD- Transmit Data ­4 RD- Receive Data -

Thread FE Functional earth (housing)

Table 7.2: Pin assignments for BUS IN

38 AMS 348i SSI Leuze electronic

7.4 PROFINET BUS OUT

M12 socket

(D-coded)

M12 connector

(B-coded)

BUS OUT

RD+

2

TD+

1

Table 7.3: Pin assignment BUS OUT

4

RD-

TD-

3

7.5 SSI

SSI

DATA-

2

CLK+

3

5

FE

CLK-

Table 7.4: SSI pin assignment

DATA+

1

4

Electrical connection

BUS OUT (4-pin socket, D-coded)

Pin Name Remark

1 TD+ Transmit Data +
2 RD+ Receive Data +
3 TD- Transmit Data ­4 RD- Receive Data -

Thread FE Functional earth (housing)

SSI (5-pin plug, B-coded)

Pin Name Remark

1DATA+ + Data line SSI (output)
2DATA- - Data line SSI (output)

3CLK+

4CLK-

5 FE Functional earth

Thread FE Functional earth (housing)

+ Clock line SSI

(input electrically insulated)

- Clock line SSI

(input electrically insulated)

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Leuze electronic AMS 348i SSI 39

Electrical connection

M12 socket

(A-coded)

7.6 Service

SERVICE

RS232-TX

2

NC

1

5

4

RS232-RX

Table 7.5: Service pin assignments

Notice!

The service interface is designed only for use by Leuze electronic!

Service (5-pin socket, A-coded)

Pin Name Remark

1NC Not used
2 RS232-TX Transmission line RS 232/service data

GND

3

NC

3 GND Voltage supply 0V DC
4 RS232-RX Receiving line RS 232/service data
5NC Not used

Thread FE Functional earth (housing)

40 AMS 348i SSI Leuze electronic

Display and control panel AMS 348i SSI

Status display

Bar graph

LED

Bus/interface info

LED

Control buttons

Distance measurement value

8 Display and control panel AMS 348i SSI

8.1 Structure of the control panel

Figure 8.1: Structure of the control panel using the AMS 304i PROFIBUS device variant as an example

Notice!

The figure is for illustration purposes only and does not correspond to AMS 348i SSI with
respect to bus/interface info.

8.2 Status display and operation

8.2.1 Indicators in the display

Status and warning messages in the display

IO1 Input 1 or output 1 active:

IO2 Input 2 or output 2 active:

Leuze electronic AMS 348i SSI 41

Function depending on configuration.

Function depending on configuration.

TNT 35/7-24V

Display and control panel AMS 348i SSI

Display of existing
EtherNet connections

Maximum position value

IO1 LSR PLB LNK0
IO2 TMP ATT LNK1
ERR SSI

+ 87.000m

Display of activated SSI interface

LSR Warning - laser prefailure message:

Laser diode old, device still functional, exchange or have repaired.

TMP Warning - temperature monitoring:

Permissible internal device temperature exceeded / not met.

PLB Plausibility error:

Implausible measurement value. Possible causes: light beam interruption, outside
of measurement range, permissible internal device temperature considerably
exceeded or traverse rate >10m/s.

Depending on the configuration, either zero or the last valid measurement value is
output at the interfaces.

ATT Warning received signal:

Laser outlet window or reflector soiled or fogged by rain, water vapor or fog. Clean
or dry surfaces.

ERR Internal hardware error:

The device must be sent in for inspection.

Bar graph

Indicates the strength of the received laser light.

The center bar represents the ATT warning threshold. The distance value remains
valid and is output at the interfaces.

If no bar graph is available, the PLB status information appears at the same time.

The measurement value has thus been assessed as being implausible. Depending
on the configuration, either zero or the last valid measurement value is output at the
interfaces.

Interface info

"LNK0" and "LNK1" in the display indicate an existing EtherNet connection for BUS IN and
BUS OUT. If the status info "LNK0" or "LNK1" is not displayed although the data line is
connected, the connection is faulty. The abbreviation "SSI" stands for an activated SSI inter­face.

The connection status is additionally signaled by a green/orange multicolor LED below the
BUS IN and BUS OUT plug connector, see chapter "LINK LED for BUS IN and BUS OUT".

42 AMS 348i SSI Leuze electronic

Position value

The measured position value is displayed in the configured unit of measurement.

+87.000m With the metric setting, the measurement value is always displayed in meters

with three decimal places.

+87.0in With the inch setting, the measurement value is always displayed in inches

with one decimal place.

8.2.2 LED status displays

PWR LED

Off Device OFF

Flashing green Power LED flashes green

Green continuous light Power LED green

Display and control panel AMS 348i SSI

- No supply voltage

- No measurement value output

- Voltage connected

- Self test running

- Initialization running

- Parameter download running

- Boot process running

- AMS 348i SSI ok

- Measurement value output

- Self test successfully finished

- Device monitoring active

Red flashing Power LED flashes red

- Device ok but warning message (ATT, TMP, LSR)
set in display

- Light beam interruption

- Plausibility error (PLB)

Red continuous light Power LED red

- No measurement value output; for details, see
Display

Orange flashing Power LED flashes orange

- PROFINET wave function

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Display and control panel AMS 348i SSI

Orange continuous light Power LED orange

- Configuration via the display

- No data on the host interface

BUS LED

Off BUS LED off

- No supply voltage (Power)

- No communication possible

- PROFINET communication not initialized or inactive

Flashing green BUS LED flashes green

- Initialization of the AMS 348i, establishing commu­nication

Green continuous light BUS LED green

- Network operation ok

- Connection and communication to controller (PLC)
established ("data exchange")

Red flashing BUS LED flashes red

- Bus error, communication error

- Parameterization or configuration failed ("parameter
failure")

-IO error

- No data exchange

Red continuous light BUS LED red

- Bus error, network error

- No communication (protocol) to Controller estab­lished ("no data exchange")

Orange flashing BUS LED flashes orange

- PROFINET wave function

44 AMS 348i SSI Leuze electronic

LINK LED for BUS IN and BUS OUT

ACT0 LNK0 LNK1ACT1

LINK LED for BUS IN LINK LED for BUS OUT

ESC

A green/orange multicolor LED below the BUS IN and BUS OUT connectors indicates the
EtherNet/PROFINET connection status.

Green continuous light Power LINK green

Orange flashing LINK LED flashes orange (ACT0/ACT1)

8.2.3 Control buttons

Display and control panel AMS 348i SSI

- The link exists, the hardware connection to the next
connected participant is OK. The LED signals the
same status as "LNK0" and "LNK1" in the display.

- Data is exchanged with the connected participants.

Up Navigate upward/laterally.

Down Navigate downward/laterally.

ESC

ESC Exit menu item.

ENTER Confirm/enter value, change menu levels.

Navigating within the menus

The menus within a level are selected with the up/down buttons .

The selected menu item is activated with the enter button .

Press the ESC button to move up one menu level.

When one of the buttons is actuated, the display illumination is activated for 10min.

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Display and control panel AMS 348i SSI

Delete character

Enter digit

Save

Setting values

If input of a value is possible, the display looks like this:

100

<-|0123456789 save

Default ----------------- unit

126 | |

Use the and buttons to set the desired value. An accidental, incorrect entry can
be corrected by selecting <-| and then pressing .

Then use the buttons to select Save and save the set value by pressing .

Selecting options

If options can be selected, the display looks like this:

o OFF

ON

Default ----------------- unit

OFF | |

Select the desired option with the buttons. Activate the option by pressing .

8.3 Menu description

8.3.1 The main menus

After voltage has been applied to the laser, device information is displayed for several
seconds. The display then shows the measurement window with all status information.

AMS 348i 120 SSI
Leuze electronic

SW: V 1.3.0 HW:1
SN: ---------------

Network information
Address: ---.---.---.--­Net mask: ---.---.---.--­Gateway: ---.---.---.--­MAC ID: --.--.--.--.--.-­DevName: ------------------------ -

GmbH & Co. KG

46 AMS 348i SSI Leuze electronic

Device information - main menu

This menu item contains detailed information on

• Device model,

• Manufacturer,

• Software and hardware version,

• Serial number.
No entries can be made via the display.

Network information - main menu

• Display of the network settings.
No entries can be made via the display.

Display and control panel AMS 348i SSI

IO1 LSR PLB LNK0
IO2 TMP ATT LNK1
ERR SSI

+ 87.000m

Parameter

Parameter handling
PROFINET
SSI
Maximum position value
I/O
Other

Language selection
o Deutsch
o English
o Español
o Français
o Italiano

Service

Status messages
Diagnostics
Expanded diagnostics

Status and measurement data - main menu

• Display of status-, warning-, and error messages.

• Status overview of the switching inputs/outputs.

• Bar graph for the reception level.

•Link.

• Measurement value.
No entries can be made via the display.
See "Indicators in the display" on page 41.

Parameter - main menu

• Configuration of the AMS.
See "Parameter menu" on page 48.

Language selection - main menu

• Selection of the display language.
See "Language selection menu" on page 52.

Service - main menu

• Display of status messages.

• Display of diagnostic data.
No entries can be made via the display.
See "Service menu" on page 52.

Notice!

The rear cover of this manual includes a fold-out page with the complete menu structure.
It describes the menu items in brief.

A detailed description of the individual parameters can be found in the description of the
PROFINET GSD modules (see chapter 9.9.2 "Overview of the GSD modules").

Attention!

If parameters are changed via the display during bus operation, the AMS 348i is separated
from the PROFINET at the moment parameter enabling is activated via the display. Param­eters set by the PROFINET are moved to the background, and changes to parameters can
be made via the display. When parameter enabling is exited, the AMS 348i is automatically
reconnected to the PROFINET. Upon connection to the PROFINET, the AMS 348i receives
all parameters from the PROFINET Controller (PLC).

Changes made via the display are overwritten!

Device settings for operating the AMS 348i on the PROFINET are managed and con­figured exclusively by the PROFINET Controller (PLC).

Leuze electronic AMS 348i SSI 47

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Display and control panel AMS 348i SSI

8.3.2 Parameter menu

Parameter handling submenu

The following functions can be called up in the Parameter handling submenu:

• Lock and enable parameter entry

• Set up a password

• Reset the AMS 348i SSI to default settings.

Table 8.1: Parameter handling submenu

Level 3 Level 4 Level 5 Selection/configuration option

Parameter
enabling

Password Activate

Parameters to
default

password

Password
entry

Description

ON / OFF
The standard setting (OFF) prevents unintended parameter changes.
With parameter enabling activated (ON), the display is inverted. In this
state, it is possible to change parameters manually. As long as parameter
enabling is activated, the AMS 348i is disconnected from the PROFINET.

ON / OFF
To enter a password, parameter enabling must be activated.
If a password is assigned, changes to the AMS 348i SSI can only be made
after the password is entered.
The master password 2301 bridges the individually set password.

Configuration option of a four-digit numerical password

By pressing the enter button after selecting
Parameters to default, all parameters are reset to their stan­dard settings without any further security prompts.
In this case, English is selected as the display language.

Standard

OFF

OFF

Additional important information on parameter handling can be found at the end of the
chapter.

PROFINET submenu

Table 8.2: PROFINET submenu

Level 3 Level 4 Level 5 Selection/configuration option

Activation ON / OFF

Description

Activates or deactivates the AMS 348i SSI as an PROFINET participant.
If the AMS 348i SSI is deactivated as a PROFINET participant, all subse­quent participants connected via the internal switch (Bus OUT) continue
to be active.

Standard

ON

SSI submenu

Table 8.3: SSI submenu

Level 3 Level 4 Level 5 Selection/configuration option

Activation ON / OFF

Description

Activates or deactivates the AMS 348i SSI as an SSI participant.

Standard

ON

48 AMS 348i SSI Leuze electronic

Table 8.3: SSI submenu

Display and control panel AMS 348i SSI

Level 3 Level 4 Level 5 Selection/configuration option

Coding Binary/gray

Number of data
bits

SSI resolution 0.001mm / 0.01 mm / 0.1mm / 1mm / 10 mm / free resolution

Error bit ON/OFF

Error bit function The error bit can be set with the following status messages:

Clock frequency 50 - 79kHz / 80 - 800 kHz

Description

Specifies the output format of the measurement value.
24-bit/25-bit/26-bit

The measurement value can be displayed on the SSI interface in this data
width.

The measurement value can be displayed in these resolutions.
The value of the free resolution is determined in the "Position value" sub­menu in the "Value of free resolution" parameter.

This parameter determines whether an error bit is also attached to the
"number of data bits". The error bit is the LSB and is not converted in the
case of gray representation of the measurement value.

Overflow / intensity (ATT) / temperature (TMP) /laser (LSR) /
plausibility (PLB) / hardware (ERR)
In the case of multiple namings, the individual states in the error bit are
processed in an OR function.

Selection of the clock frequency.

Standard

Gray

24 bit

0.1mm

ON

Plausibility
(PLB)
Hardware
(ERR)

80 - 800kHz

Position value submenu

Notice!

The parameters mentioned in the "Position value", "I/O" and "Other" sub-menus must be
set via the GSDML file of the AMS 348i. For test purposes, the parameters can be changed
directly on the AMS 348i via the display structure described below. After deactivation of the
parameter enable, however, the parameters stored in the GSDML file continue to be valid.
The parameters changed directly on the AMS 348i for test purposes are overwritten again.

Table 8.4: Position value submenu

Level 3 Level 4 Level 5 Selection/configuration option

Measurement
unit

Count direction Positive/Negative

Offset Output value=measurement value+offset

Description

Metric/Inch
Specifies the units of the measured distances

Positive: The measurement value begins at 0 and increases with increas­ing distance.
Negative: The measurement value begins at 0 and decreases with
increasing distance. Negative distance values may need to be compen­sated with an offset or preset.

The resolution of the offset value is independent of the selected "Reso­lution position" and is entered in mm or inch/100. The offset value is
effective immediately following entry. If the preset value is activated, this
has priority over the offset. Preset and offset are not offset against each
other.

Standard

Metric

Positive

0mm

Leuze electronic AMS 348i SSI 49

TNT 35/7-24V

Display and control panel AMS 348i SSI

Table 8.4: Position value submenu

Level 3 Level 4 Level 5 Selection/configuration option

Preset The preset value is accepted by means of teach pulse. The teach pulse

Free resolution
value

Error delay ON / OFF

Position value in
the case of error

Description

can be applied to a hardware input of the M12 PWR connector. The hard­ware input must be appropriately configured. See also configuration of
the I/Os.

The measurement value can be resolved in increments of 1/1000 within
the 5 … 50000 value range. If, e.g., a resolution of 0.875mm per digit
is required, the parameter is set to 875.
In the activated interface, the measurement value display must also be
set to "free resolution" ("SSI resolution" parameter).

Specifies whether, in the event of an error, the position value immedia tely
outputs the value of the "Position value in the case of error" parameter
or the last valid position value for the configured error delay time.

Last valid value / zero
Specifies which position value is output after the error delay time elapses.

I/O submenu

Table 8.5: I/O submenu

Level 3 Level 4 Level 5 Selection/configuration option

I/O 1 Port config-

I/O 2 Port config-

Limit values Upper pos.

uration
Switching

input

Switching
output

uration
Switching

input

Switching
output

limit 1

Lower pos.
limit 1

Function No function/preset teach/laser ON/OFF No function

Activation Low active/High active Low active
Function Pos. limit value 1 / Pos. limit value 2 / Velocity / Intensity (ATT) /

Activation Low active/High active Low active

Function No function/preset teach/laser ON/OFF No function

Activation Low active/High active Low active
Function Pos. limit value 1 / Pos. limit value 2 / Velocity / Intensity (ATT) /

Activation Low active/High active Low active
Activation ON / OFF OFF

Limit value
input

Activation ON / OFF OFF

Description

Input/Output
Defines whether I/O 1 functions as an output or input.

Temp. (TMP) / Laser (LSR) / Plausibility (PLB) / Hardware (ERR)
The individual functions are "ORed" on the selected switching out­put.

Input/Output
Defines whether I/O 2 functions as an output or input.

Temp. (TMP) / Laser (LSR) / Plausibility (PLB) / Hardware (ERR)
The individual functions are "ORed" on the selected switching out­put.

Value input in mm or inch/100 0

Standard

0mm

1000

ON/100 ms

Zero

Standard

Output

Plausibility (PLB),
hardware (ERR)

Output

Intensity (ATT),
Tem p. ( TMP ),
Laser (LSR)

50 AMS 348i SSI Leuze electronic

Table 8.5: I/O submenu

Display and control panel AMS 348i SSI

Level 3 Level 4 Level 5 Selection/configuration option

Limit value
input

Upper pos.
limit 2

Lower pos.
limit 2

Max.
velocity

Activation ON / OFF OFF

Limit value
input

Activation ON / OFF OFF

Limit value
input

Activation ON / OFF OFF

Max.
velocity

Description

Value input in mm or inch/100 0

Value input in mm or inch/100 0

Value input in mm or inch/100 0

Value input in mm/s or inch/100s 0

Other submenu

Table 8.6: Other submenu

Level 3 Level 4 Level 5 Selection/configuration option

Heating control Standard (10°C … 15°C)/Extended (30° C … 35°)

Display illumina­tion

Display contrast Weak/Medium/Strong

Service RS232 Baud rate 57.6kbit/s / 115.2kbit/s

Forma t 8,e,1 / 8,n,1

Description

Defines a switch-on/switch-off range for the heating control.
The extended switch-on/switch-off range for heating may provide relief
in the event of condensation problems.
There is no guarantee that no condensation will occur on the optics in the
extended switch-on/switch-off range due to the limited heating capacity.
This parameter is available as standard, but functions only for devices
with integrated heating (AMS 348i SSI… H).

10 minutes/ON
Display illumination is switched off after 10 minutes or, if the parameter
is set to "ON", illumination is always on.

The display contrast may change at extreme temperature values. The
contrast can subsequently be adapted using the three levels.

The service interface is only available to Leuze internally.

The service interface is only available to Leuze internally.

Standard

Standard

Standard

10min.

Medium

115.2kbit/s

8,n,1

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Leuze electronic AMS 348i SSI 51

Display and control panel AMS 348i SSI

8.3.3 Language selection menu

Language selection
o Deutsch

English
o Español
o Français
o Italiano

There are 5 display languages available:

•German

• English

•Spanish

•French

• Italian

The AMS 348i SSI is delivered from the factory with the display preset to English.

Notice!

When operating the AMS 348i on the PROFINET, the language configured in the GSD file
is used in the display.

To change the language, no password needs to be entered nor must password enabling
be activated. The display language is a passive operational control and is, thus, not a func­tion parameter, per se.

8.3.4 Service menu

Service

Status messages
Diagnostics
Expanded diagnostics

A more detailed description of the individual functions can be found in chapter 11.

52 AMS 348i SSI Leuze electronic

8.4 Operation

ESC

ESC

Described here is an operating process using parameter enabling as an example.

Parameter enabling

During normal operation parameters can only be viewed. If parameters are to be changed,
the ON menu item in the Parameter -> Parameter handling -> Parameter enable
menu must be activated. To do this, proceed as follows:

Parameter

Parameter handling
o Parameter enabling

o Password

 Parameters to default

Parameter enabling

o OFF

oON

Parameter handling
PROFINET
SSI
Maximum position value
I/O
Other

Display and control panel AMS 348i SSI

In the main menu, press the enter button to enter the
Parameter menu.

Use the buttons to select the Parameter
handling menu item.

Press the enter button to enter the Parameter
handling menu.

In the Parameter handling menu, use the
buttons to select the Parameter enabling
menu item.

Press the enter button to enter the Parameter
enabling menu.

In the Parameter enabling menu, use the
buttons to select the ON menu item.

Press the enter button to switch on parameter
enabling.

Parameter enabling

o OFF

ON

The PWR LED illuminates orange; the display is
inverted. You can now set the individual parameters

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on the display.

Press the ESC button twice to return to the Param­eter menu.

Viewing and editing parameters

As long as parameter enabling is activated, the entire AMS 348i SSI display is inverted.

As long as parameter enabling is activated, communication between control and AMS 348i
is interrupted. The continued networking via BUS OUT is retained.

Leuze electronic AMS 348i SSI 53

Display and control panel AMS 348i SSI

Attention!

The AMS 348i is deactivated on the PROFINET if parameter enabling is activated via the dis­play. The device is reactivated on the PROFINET after parameter enabling is exited.

Notice!

In the PROFINET network, configuration is performed exclusively via the
PROFINET Controller.

Parameters set via the display when operating the AMS 348i on the PROFINET are over­written by the parameters set in the GSD modules. For GSD modules which are not actively
used on the PROFINET, the default settings of the AMS 348i SSI, see
chapter 9.9.2 "Overview of the GSD modules". Thus, the PROFINET presets values to all pa­rameters.

Notice!

If a password was stored, parameter enabling is not possible until this password is entered,
see "Password for parameter enabling" below.

Password for parameter enabling

Notice!

The master password 2301 can enable the AMS 348i SSI at any time.

54 AMS 348i SSI Leuze electronic

9 PROFINET interface

9.1 General information on PROFINET

The AMS 348i is designed as a PROFINET-RT (Real Time) device (acc. to IEEE 802.3). It
supports a transmission rate of up to 100 Mbit/s (100Base TX/FX), full duplex, as well as
auto-negotiation and auto-crossover.

The functionality of the device is defined via parameter sets which are organized in modules.
The modules form part of the GSD file.

Each AMS 348i has a unique MAC-ID which is described on the name plate. This is linked
to an IP address during the course of configuration. In the Simatic Manager for creation of
PROFINET networks, the IP address is also linked to a freely selectable device name which
may only exist once in the network (see chapter 9.8.4.3 "Step 3 – Hardware configuration
of the S7 PLC: Configuration").

9.2 Identification & Maintenance Functions

The AMS 348i supports the base record I&M0:

Contents Index Data type Description Value

Header 0 10 bytes Manufacturer specific ­MANUFACTURER_ID 10 UNSIGNED16 Leuze manufacturer ID 338
ORDER_ID 12 ASCII string 20 bytes Leuze order no. ­SERIAL_NUMBER 32 ASCII string 16 bytes Unique device serial number Device-dependent

HARDWARE_REVISION 48 UNSIGNED16

SOFTWARE_REVISION 50 1xCHAR, 3xUNSIGNED8

REVISION_COUNTER 54 UNSIGNED16

PROFILE_ID 56 UNSIGNED16 PROFINET application profile number 0xF600 (Generic Device)

PROFILE_SPECIFIC_TYPE 58 UNSIGNED16

IM_VERSION 60 2xUNSIGNED8 Implemented I&M version V 1.1 0x01,0x01
IM_SUPPORTED 62 Bit[16] Optional I&M records available 4

Table 9.1: Base record I&M0

Hardware revision number, e.g.,
"0…65535"

Software version number, e.g. V130
correspond to "V1.3.0"

Is incremented when updating indi­vidual modules. This function is not
supported.

Info about subchannels and submod­ules. Not relevant

PROFINET interface

Device-dependent

Device-dependent

0

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0x01,0x01

Leuze electronic AMS 348i SSI 55

PROFINET interface

PC / PLC host interface

Other network participants

AMS 348i

"myAMS 348i_1"

PC / PLC host interface

AMS 348i

"myAMS 348i_1"

to other network participants

AMS 348i

"myAMS 348i_2"

AMS 348i

"myAMS 348i_3"

9.3 PROFINET – Star topology

The AMS 348i can be operated as a single device (standalone) with an individual device
name in a star topology. The PLC must communicate this device name to the participant
during the "device naming".

Figure 9.1: PROFINET in a star topology

9.4 PROFINET – Linear topology

The innovative further development of the AMS 348i with integrated switch functionality
offers the option of connecting multiple laser measurement systems of type AMS 348i to
one another without direct connection to a switch. In addition to the classic "star topology",
a "linear topology" is thus also possible.

Figure 9.2: PROFINET in a linear topology

The maximum length of a segment (from the host to the furthest participant) is limited to
100m.

56 AMS 348i SSI Leuze electronic

9.5 PROFINET – General information on wiring

A Cat. 5 Ethernet cable should be used for wiring.

For the connection technology transition from M12 to RJ45, a "KDS ET M12 / RJ 45 W - 4P"
adapter is available that lets you connect standard network cables.

If no standard network cables are to be used (e.g. due to lacking IP… degree of protection),
you can use the "KS ET-M12-4A-P7-…" ready-made cable on the AMS 348i, see
table 12.4.5 "Accessory ready-made cables for PROFINET" on page 116.

The individual AMS 348i devices in a linear topology are connected with the
"KSS ET-M12-4A-M12-4A-P7-…" cable, see table 12.4.5 "Accessory ready-made cables
for PROFINET" on page 116.

For unavailable cable lengths, you can configure your cables yourself. For this purpose,
Leuze electronic offers a D-coded M12 round plug connector for Bus IN and Bus Out, see
table 12.4.3 "Accessory M12 connector" on page 114.

9.6 PROFINET – Cable lengths and shielding

 Observe the following maximum cable lengths and shielding types:

Connection Interface Max. cable length Shielding

AMS – host PROFINET-RT 100m Absolutely required

Network from the
first AMS to the
last AMS

Table 9.2: Cable lengths and shielding

PROFINET-RT

The maximum segment length
must not exceed 100m for
100Base-TX Twisted Pair
(min.cat.5)

PROFINET interface

Absolutely required

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M12 socket

(D-coded)

M12 socket

(D-coded)

BUS IN (4-pin socket, D-coded) BUS OUT (4-pin socket, D-coded)

Pin Name Remark Pin Name Remark

1 TD+ Transmit Data + 1 TD+ Transmit Data +
2 RD+ Receive Data + 2 RD+ Receive Data +
3 TD- Transmit Data - 3 TD- Transmit Data ­4 RD- Receive Data - 4 RD- Receive Data -

Thread FE Functional earth (housing) Thread FE Functional earth (housing)

BUS IN

TD+

1

2

3

4

RD+

RD-

TD-

BUS OUT

TD+

1

2

3

4

RD+

RD-

TD-

9.7 PROFINET - Electrical connection

Figure 9.3: PROFINET - Electrical connection

Notice!

For contacting BUS IN and BUS OUT, we recommend our ready-made PROFINET cable
(see chapter 12.4.5 "Accessory ready-made cables for PROFINET").

To set up a PROFINET network with other participants with linear topology, the AMS 348i
makes available another PROFINET-RT interface. The use of this interface drastically
reduces the cabling requirements, as only the first AMS 348i requires a direct connection
to the switch, via which it can communicate with the host. All other AMS 348i can be
connected in series to the first AMS 348i, see figure 9.2.

 For the connection of two AMS 348i, the "KSS ET-M12-4A-M12-4A-P7-…" ready-made

cables are preferred, see table 12.4.5 "Accessory ready-made cables for PROFINET" on
page 116.

If you use user-configurable cables, note the following:

Notice!

The entire interconnection cable must be shielded. The shielding connection must be at the
same potential on both ends of the data line. This prevents potential compensating currents

58 AMS 348i SSI Leuze electronic

over the shield and possible interference coupling by compensating currents. The signal lines
must be stranded in pairs.
Use CAT 5 cable for the connection.

Notice!

For the AMS 348i as standalone device or as the last participant in a linear topology, termi­nation on the BUS OUT socket is not mandatory!

9.8 PROFINET – Commissioning and configuration

9.8.1 PROFINET implementation of the AMS 348i

PROFINET communication profile

The communication profile defines how participants serially transmit their data via the
transmission medium.

The PROFINET communication profile is designed for efficient data exchange on the field
level. The data exchange with the devices is mainly cyclical. For the configuration,
operation, monitoring and alarm handling, however, acyclic communication services are
also used.

Depending on the communication requirements, PROFINET offers suitable protocols and
transfer methods:

• Real Time communication (RT) via prioritized Ethernet frames for

• Cyclical process data (I/O data stored in the I/O area of the control)

•Alarms

• Clock synchronization

• Neighborhood information

• Address assignment/address resolution via DCP.

PROFINET interface

• TCP/UDP/IP communication via standard Ethernet TCP/UDP/IP frames for

• Establishing communication and

• Acyclic data exchange, and also for the transfer of various information types such
as:

- Parameters for the configuration of the modules during the establishment of the

communication

- I&M data (Identification & Maintenance functions)

- Reading diagnostic information

- Reading I/O data

- Writing device data

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M12 socket

(D-coded)

M12 connector

(A-coded)

M12 socket

(D-coded)

M12 socket

(A-coded)

M12 connector

(B-coded)

Conformance Classes

PROFINET devices are categorized into conformance classes to simplify the evaluation and
selection of the devices for the users. The AMS 348i can use an existing Ethernet network
infrastructure and corresponds to Conformance Class B (CC-B). Thus, it supports the
following features:

• Cyclical RT communication

• Acyclic TCP/IP communication

• Alarms/diagnostics

• Automatic address assignment

• I&M 0 … 4 functionality

• Neighborhood detection basic functionality

• FAST Ethernet 100 Base-TX

• Convenient device exchange without engineering tools

• SNMP support

9.8.2 Measures to be performed prior to the initial commissioning

 Before commissioning, familiarize yourself with the operation and configuration of the

AMS 348i.

 Before connecting the supply voltage, recheck all connections and ensure that they have

been properly made.

Figure 9.4: Connections of the AMS 348i

 Check the applied voltage. It must be in the range between +18V … 30VDC.

Connecting functional earth FE

 Ensure that the functional earth (FE) is connected correctly.

Unimpaired operation is only guaranteed when the functional earth is connected properly.
All electrical disturbances (EMC couplings) are discharged via the functional earth connec­tion.

60 AMS 348i SSI Leuze electronic

9.8.3 Starting the device

 Connect the supply voltage; the AMS 348i boots and the Status and measurement data

main menu appears in the display:

+ 87.000m

Input/Output behavior

Notice!

The default value of the input data bits after switching on the device corresponds to the spe­cified initial value (generally ZERO).

Notice!

For output data with status IOPS = Bad, the downstream functions are switched to a safe
state. For example, an activated device or an output is deactivated. This is the case, for ex­ample, if the control is switched to the STOP mode.

In the event of a connection interruption, the device behaves in the same way.

The outputs are deactivated during device start-up.

This section describes how the AMS 348i is configured in a Siemens Simatic S7 for
PROFINET.

PROFINET interface

Link0
Link1

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PROFINET interface

9.8.4 Configuration steps for a Siemens Simatic S7 control

The following steps are necessary for commissioning with a Siemens S7 control:

1. Preparing the control system (S7 PLC)

2. Installing the GSD file

3. Hardware configuration of the S7 PLC

4. Transfer of the PROFINET configuration to the IO Controller (S7 PLC)

5. Device naming

• Configuration of the device name

• Device naming

• Assigning the device names to the configured IO devices(see figure 9.6)

• Assignment of MAC address - IP address -individual device name (see figure 9.11)

6. Check device name

9.8.4.1 Step 1 – Preparing the control system (S7 PLC)

The first step involves the assignment of an IP address to the IO Controller (PLC - S7) and
the preparation of the control for consistent data transmission.

Notice!

If an S7 control is used, you need to ensure that Simatic-Manager Version 5.4 + service pack
5 (V5.4+SP5) or higher is used.

9.8.4.2 Step 2 – Installation of the GSD file

For the subsequent configuration of the IO devices, e.g., AMS 348i, the corresponding GSD
file must be loaded first.

General information on the GSD file

The term GSD stands for the textual description of a PROFINET device model.

For the description of the more complex PROFINET device model, the XML-based GSDML
(Generic Station Description Markup Language) was introduced.

In the following, the terms "GSD" or "GSD file" always refer to the GSDML-based format.

The GSDML file can support an arbitrary number of languages in one file. Every GSDML file
contains a version of the AMS 348i device model. This is also reflected in the file name.

62 AMS 348i SSI Leuze electronic

PROFINET interface

File name structure

The file name of the GSD file is constructed according to the following rule:

GSDML-[GSDML schema version]-Leuze-AMS348i-[date].xml

Explanation:

• GSDML schema version:
Version identifier of the GSDML schema version used, e.g., V2.3.

•Date:
Release date of the GSD file in the format yyyymmdd.
This date doubles as the version identifier of the file.

Example:

GSDML-V2.3x-Leuze-AMS348i-20090503.xml

You can find the GSD file at www.leuze.com

All data in modules required for operating the AMS 348i is described in this file. These are
input and output data and device parameters for the functioning of the AMS 348i and the
definition of the control and status bits.

If parameters are changed, e.g., in the project tool, these changes are stored on the PLC
side in the project, not in the GSD file. The GSD file is a certified and integral part of the
device and must not be changed manually. The file is not changed by the system either.

The functionality of the AMS 348i is defined via GSD parameter sets. The parameters and
their functions are structured in the GSD file using module. A user-specific configuration
tool is used during PLC program creation to integrate the required modules and configure
them appropriately for their respective use. During operation of the AMS 348i on the
PROFINET, all parameters are set to default values. If these parameters are not changed
by the user, the device functions with the default settings delivered by Leuze electronic.

For the default settings of the AMS 348i, please refer to the following module descriptions.

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PROFINET interface

9.8.4.3 Step 3 – Hardware configuration of the S7 PLC: Configuration

The AMS 348i is activated by "Drag and Drop" and receives the IP address and a unique
device name.

Figure 9.5: Insert AMS 348i into the project

Double-clicking the participant opens the properties window. Here you can assign a unique
device name that exists only once in the network. If desired, an IP address can be assigned
manually (not mandatory). As the assignment of the device name takes place in offline mode,
unique assignment must take place between the MAC ID of the installed device and the
device name assigned in offline mode during the further course of configuration, see also
step 5.

Figure 9.6: Assign unique device name in the properties window

64 AMS 348i SSI Leuze electronic

PROFINET interface

9.8.4.4 Step 4 – Transfer of the configuration to the IO Controller (S7 PLC)

After the correct transfer to the IO Controller (S7 PLC), the PLC automatically carries out
the following activities:

• Check device names

• Assignment of the IP addresses that were configured in the HW Config to the
IO devices

• Establishment of a connection between the IO Controller and configured IO devices

• Cyclical data exchange

Notice!

Participants without assigned device names cannot yet be addressed at this point in time!

9.8.4.5 Step 5 – Configuration of the device name - naming the device

Each AMS 348i has an individual and unique MAC ID. The MAC ID can be found on the name
plate of the device.

Figure 9.7: MAC ID on the name plate

Notice!

This figure is for illustration only and does not correspond in all details to the AMS 348i. The
MAC ID in particular must be read separately from each individual device. The MAC ID is
also shown in the display of the AMS 348i.

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IP

00:15:7B:20:00:15

AMS 348i MAC

Name

Address Link Label:

The “Address Link Label” is an additional stick-on label that is affixed to the device.

Bild 9.8: Example of an “Address Link Label”; the device type varies depending on series

• The “Address Link Label” contains the MAC address (Media Access Control address)
of the device and offers the possibility to enter the IP address and the device name
by hand. The area of the “Address Link Label” on which the MAC address is printed
can be separated from the remainder of the stick-on label if necessary by means of
the perforation.

• To use, the “Address Link Label” is peeled from the device and can be affixed in the
installation and layout diagrams to designate the device.

• Once affixed in the documents, the “Address Link Label” establishes a unique refe­rence between mounting location, MAC address or device, as well as the correspon­ding control program. The time-consuming searching, reading, and manually writing
down of the MAC addresses of all devices installed in the system are eliminated.

Notice!

Each device with Ethernet interface is uniquely identified via the MAC address assigned du­ring production . The MAC addr es s is also listed on th e name plate o f t he device. If mu lt iple
devices are commissioned in a system, the MAC address of each installed device must be
correctly assigned, e.g., during programming of the control.

 Remove the “Address Link Label” from the device.

 Amend the IP address and the device name on the “Address Link Label” as necessary.

 Affix the “Address Link Label” in the documents, e.g., in the installation diagram, accor-

ding to the position of the device.

Network information
IP Address: ---.---.---.--­Net mask: ---.---.---.--­Gateway: ---.---.---.---

MAC ID: --.--.--.--.--.--

DevName: ----------------------- --

After successful naming, the device name can be read here under DEVName.

66 AMS 348i SSI Leuze electronic

PROFINET interface

Notice!

All AMS 348i participants in a PROFINET network must be located in the same subnet!

Device naming

The so-called "device naming" under PROFINET is understood as the unique assignment
of the device name from the PLC program generation (see step 3) to the PROFINET partic­ipant mounted in the system. The device name is linked to the MAC ID of the mounted
PROFINET participant.

It is mandatory that the device name corresponds to the device name assigned in hardware
configuration (step 3).

 Under "Target systems", select item "Edit Ethernet participant".

 Click "Search" to scan the connected PROFINET network for MAC addresses.

Figure 9.9: Scan the PROFINET network for connected devices (MAC addresses)

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 Mark the desired MAC address to which you wish to assign a device name.

Figure 9.10: Select desired device (MAC address)

Notice!

The Simatic Manager offers the possibility of having the found and marked participant (mark­ing of the MAC ID in the Simatic Manager) flash/wave. The mounting location of the partic­ipant in the system can then be uniquely assigned to the MAC ID. The marked MAC ID
"waves".
During flashing/waving, the Power LED and BUS LED of the AMS 348i flash orange.

The found MAC ID is "linked" to the device name assigned in the hardware configurator.
Please be sure to pay attention that the names are the same and that the installed device
is correctly assigned to the hardware configuration. This is particularly important if identical
devices are installed several times in the same system.

68 AMS 348i SSI Leuze electronic

PROFINET interface

Figure 9.11: Linking of the device name to the MAC ID of the participant

The same configuration mask can be used, if necessary, to manually assign an IP address.
Alternatively, the IP address can be assigned via a DHCP server.

9.8.4.6 Neighborhood detection

Neighborhood detection in Step 7 takes place using a port assignment:

• BUS IN corresponds to port 1 (X1 P1).

• BUS OUT corresponds to port 2 (X1 P2).

9.9 PROFINET GSD file

9.9.1 General information on the GSD file

The functionality of the AMS 348i is defined via an XML-based GSD file. The GSD file is the
same for all AMS 348i and forms a mandatory part of the device. The GSD file has a modular
architecture and contains all the functions of the AMS 348i in modules.

The AMS 348i offers 17 different modules. Each of these modules can only be activated
once per AMS.

The AMS 348i checks its max. permissible number of modules. The control also reports an
error if the input and output data across all modules exceed a total length of 1024 bytes.

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The specific limits of the individual modules of the AMS 348i are stored in the module
description and in the GSD file.

Notice!

You can find the current GSD file for the AMS 348i on our homepage www.leuze.com.

The participant (here AMS 348i) is configured via the GSD file with a user-specific configu­ration tool such as the Siemens Simatic Manager.

The exchange of data and the configuration of parameters is organized by means of the
GSD file.

All the parameters of the AMS 348i are preset default values. These can be altered,
depending on the application. The user activates only the modules from the GSD file whose
parameters should be changed or whose input/output data are to be read.

For this purpose, the corresponding module from the GSD file is activated and configured
or prepared for control and reading of inputs and outputs.

All parameters and accesses to the AMS 348i are thus stored in the control. If necessary,
the configuration is written to the AMS according to predefined control criteria.

Notice!

Parameters can be changed via the display on the AMS 348i for test purposes. As soon as
parameter enabling is activated on the display, the AMS 348i is deactivated on the PROFI­NET. All the parameters set via the GSD file initially remain active in the AMS 348i. Parameter
changes can now be made via the display for test purposes. If parameter enabling is deac­tivated via the display, only the parameters entered in the PROFINET modules and the
PROFINET default settings are in effect.

Parameter changes made via the display are no longer in effect on the PROFINET!

Attention!

The laser measurement system does not permanently store parameters changed via the
PROFINET. Following power OFF/ON the currently configured parameters are downloaded
by the PROFINET master. If the PROFINET master is no longer available after power OFF/
ON, the default parameters are valid.

Notice!

All input and output modules described in this documentation are described from the con­troller's perspective:

Described inputs (I) are inputs of the control.
Described outputs (O) are outputs of the control.
Described parameters (P) are parameters of the GSD file in the control.

70 AMS 348i SSI Leuze electronic

9.9.2 Overview of the GSD modules

Module Module name Module contents

M1

page 74

M2

page 76

M3

page 77

M4

page 78

M5

page 80

M6

page 82

M7

page 84

M8

page 85

M9

page 86

M10

page 87

M11

page 89

Maximum position value

Static preset

Dynamic preset

I/O 1

I/O 2

Status and control

Position limit value 1 (P) Upper and lower position limit value

Position limit value 2 (P) Upper and lower position limit value

Error handling procedures

Velocity

Velocity
Limit value 1

PROFINET interface

(P) = Parameter, (O) = Output, (I) = Input

(I) Position value
(P) Sign
(P) Unit
(P) Resolution
(P) Count direction
(P) Offset
(P) Preset value
(O) Preset teach
(O) Preset reset
(O) Preset value
(O) Preset teach
(O) Preset reset
(P) Output or input defined
(P) Level/edge input/output
(P) Function for output wiring
(P) Function for input wiring
(I) Signal level input/output
(O) Output activated
(P) Output or input defined
(P) Level/edge input/output
(P) Function for output wiring
(P) Function for input wiring
(I) Signal level input/output
(O) Output activated
(I) Diagnosis and status of AMS 348i SSI
(O) Laser control ON/OFF

(P) Position value in case of error
(P) Position error message delay ON/OFF
(P) Position error message delay
(P) Velocity value in case of error
(P) Velocity error message delay ON/OFF
(P) Velocity error message delay
(I) Velocity value
(P) Velocity value resolution
(P) Velocity response time
(P) Monitoring for over/under values
(P) Monitoring direction dependent yes/no
(P) Velocity limit value 1
(P) Hysteresis of velocity limit value
(P) Start of velocity monitoring range
(P) End of velocity monitoring range

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M12

page 91

M13

page 92

M14

page 93

M15

page 94

M16

page 95

M17

page 97

M18

page 100

M19 – –
M20

page 101

Table 9.3: Overview of the GSD modules

Velocity
Limit value 2

Velocity
Limit value 3

Velocity
Limit value 4

Velocity
Limit value
Dynamic

Velocity status (I) Status of velocity monitoring

SSI interface

Other

Free resolution

(P) Monitoring for over/under values
(P) Monitoring direction dependent yes/no
(P) Velocity limit value 2
(P) Hysteresis of velocity limit value
(P) Start of velocity monitoring range
(P) End of velocity monitoring range
(P) Monitoring for over/under values
(P) Monitoring direction dependent yes/no
(P) Velocity limit value 3
(P) Hysteresis of velocity limit value
(P) Start of velocity monitoring range
(P) End of velocity monitoring range
(P) Monitoring for over/under values
(P) Monitoring direction dependent yes/no
(P) Velocity limit value 4
(P) Hysteresis of velocity limit value
(P) Start of velocity monitoring range
(P) End of velocity monitoring range
(O) Release/lock limit value control
(P) Monitoring for over/under values
(P) Monitoring direction dependent yes/no
(O) Dynamic velocity limit value
(O) Hysteresis of velocity limit value
(O) Start of velocity monitoring range
(O) End of velocity monitoring range

(P) Gray/Binary coding
(P) Number of data bits
(P) Resolution
(P) Function of the error bit
(P) Display language selection
(P) Display illumination
(P) Display contrast
(P) Activate/inhibit password
(P) Password
(P) Heating control

(P) Position resolution
(P) Velocity resolution

72 AMS 348i SSI Leuze electronic

9.9.3 Detail description of the modules

a

zabdd

Notice!

In the following detailed descriptions of the modules you will find in the last column of the
tables cross references (CR) to parameters and input/output data of other modules
which are directly related to the described parameter. These cross references must abso-
lutely be observed during configuration.

The individual modules are numbered from 1…20.
The parameters and input/output data within a module are from … .

Example:

The preset parameter in module 2 becomes active only when the preset teach occurs
via module 2 , 4

or 5.

PROFINET interface

TNT 35/7-24V

Leuze electronic AMS 348i SSI 73

PROFINET interface

abc

d

0m

+100m

0m

-

100m

e

9.9.3.1 Module 1: Position value

PROFINET module identifier

Module-ID 1001

Submodule-ID 1

Description

Outputs the current position value.

The parameters for sign, unit, resolution, count direction and offset remain adjustable.

Parameter

Parameter Description Rel.

Output mode of the sign.

Sign

Measurement
unit

Resolution

Count direction

Offset

Parameter length: 6 bytes

Sign affects position and velocity output
Selection of the measurement unit

The parameter applies to all values with
measurement units. The parameter
applies to all interfaces.

Resolution of the position value.
Affects only the PROFINET output. The
resolution does not apply to:

- Static preset

- Dynamic preset

- Offset

Counting direction positive:

Counting direction negative:

The parameter applies to all interfaces.
The count direction changes the sign
during velocity measurement.

Output value = measurement value+off­set.
The parameter applies to all interfaces.
Attention:
If the preset is activated, it has priority
over the offset. Preset and offset are not
offset against each other.
The resolution of the offset value is inde­pendent of the resolution selected in
module 1.
The entered offset applies immediately
without any further release.

1)

.

addr.

0.0 Bit

0.1 Bit

0.2
…

0.4

0.5 Bit

1 - 4

1) see following notice!

Data

Value range Default Unit CR to

type

0: two's complement

1: sign + quantity

0: metric

1: inch (in)

001 = 1: 0.001
010 = 2: 0.01
011 = 3: 0.1

Bit

100 = 4: 1

101 = 5: 10
110 = 6: free resolution

0: positive

1: negative

sign

-999999 … +999999 0 mm in/100 –

32 bit

Metr. Inch

0 ––

0 ––

4 mm in/100 20a

0 ––

module

74 AMS 348i SSI Leuze electronic

PROFINET interface

f

Notice!

If the unit of measurement is changed from metric to inch (or vice versa), previously
entered numerical values (e.g. for offset, preset, limit values etc.) are not automatically
converted. This must be performed manually!

Example:
Preset = 10000mm -> Change from metric to inch -> Preset = 10000 inch/100

Input data

Input data Description Rel.

Posit ion value

Input data length: 4 bytes consistently

Output of the current position. 0

addr.

Output data

None

Data

Value Default Unit CR to

type

sign

-999999 … +999999 – scaled 9a

32 bit

Metr. Inch

module

TNT 35/7-24V

Leuze electronic AMS 348i SSI 75

PROFINET interface

a

b

c

9.9.3.2 Module 2: Static preset

PROFINET module identifier

Module-ID 1002

Submodule-ID 1

Description

With this module, a preset value can be specified. The specified preset value becomes active
in the position in which preset teaching is performed.

Notice!

In the event of a device change the preset value is retained in the PROFINET manager. The
activation of the preset value (preset teach) at the intended position must, however, be per­formed again.

Parameter

Parameter Description Rel.

Preset value.
The value is accepted during a corre­sponding teach event (see output data).

Preset

Parameter length: 4 bytes

The resolution of the preset value is
independent of the resolution selected in
module 1.

addr.

0

Input data

None

Output data

Output data Description Rel.

Preset teach

Preset reset

Output data length: 1 byte

Read in the preset value. 0.0 Bit 01 Preset teach – –

Preset value is deactivated. 0.1 Bit 01 Preset teach – –

addr.

Data

Value Default Unit CR to

type

sign

-999999 … +999999 0 mm in/1002b4d

32 bit

Data

Value Default Unit CR to

type

Metr. Inch

Metr. Inch

module

5d

module

4d
5d

4d
5d

76 AMS 348i SSI Leuze electronic

9.9.3.3 Module 3: Dynamic preset

abc

PROFINET module identifier

Module-ID 1003

Submodule-ID 1

Description

With this module, a preset value can be specified. The specified preset value becomes active
in the position in which preset teaching is performed. The preset value can be adjusted within
the control to meet plant requirements without intervening in the static parameter structure.

Parameter

None

Input data

None

Output data

PROFINET interface

Output data Description Rel.

Preset teach

Preset reset

Preset

Output data length: 5 bytes

Read in the preset value. 0.0 Bit 01 Preset teach – –

Preset value is deactivated.
Output value=measurement value+off­set

The value is accepted during a corre­sponding teach event.
The resolution of the preset value is
independent of the resolution selected in
module 1.

addr.

0.1 Bit 01 Preset teach – –

1

Data

Value Default Unit CR to

type

sign

-999999 … +999999 – mm in/1003a4d

32 bit

Metr. Inch

module

4d
5d

4d
5d

5d

TNT 35/7-24V

Leuze electronic AMS 348i SSI 77

PROFINET interface

abc

9.9.3.4 Module 4: I/O 1 Input/Output

PROFINET module identifier

Module-ID 1004

Submodule-ID 1

Description

The module defines the mode of operation of the digital input/output I/O 1.

Parameter

Parameter Description Rel.

The parameter defines whether I/O 1

Function

Activation

Output

functions as an input or as an output.
The parameter defines the level of the

output when the "output" event is
received. If I/O 1 is configured as an
input, the response is edge-controlled.

The parameter defines which event trig­gers activation of the output. The individ­ual functions are OR-linked to one
another.

Position limit value 1

If the position value lies outside of con­figured limit range 1, the output is set.

Position limit value 2

If the position value lies outside of con­figured limit range 2, the output is set.

Velocity limit value

If the velocity value lies outside of the
configured values, the output is set.
Monitoring from modules 11 to 15 is OR­linked.

Intensity (ATT)

If the intensity of the received signal is
less than the warning threshold, the out­put is set.

Temperature (TMP)

If the internal device temperature
exceeds the set limit value, the output is
set.

Laser (LSR)

Laser prefailure message.

Plausibility (PLB)

If implausible measurement values are
diagnosed, the output is set.

addr.

0.0 Bit

0.1 Bit

1.0 Bit

1.1 Bit

1.2 Bit

1.3 Bit

1.4 Bit

1.5 Bit

1.6 Bit

Data

Value Default Unit CR to

type

0: Input

1: Output
0: Low

1-0 transition

1: High

0-1 transition

0 = OFF

1 = ON

0 = OFF

1 = ON

0 = OFF

1 = ON

0 = OFF

1 = ON

0 = OFF

1 = ON

0 = OFF

1 = ON
0 = OFF

1 = ON

1 –4cd

0 ––

0 –

0 –

0 –

0 –

0 –

0 –

1 –

Metr. Inch

–

module

4a

78 AMS 348i SSI Leuze electronic

PROFINET interface

c

d

e

f

Hardware (ERR)

If a hardware error is diagnosed, the out-

Output

Input

Parameter length: 4 bytes

put is set.

Pseudodynamic output

If bit 0.0 is set in the output data, the out­put is set.

Preset

The HW input is used as preset teach
input (valid for static or dynamic preset).

Laser

The HW input is used as laser OFF.

Notice!

Behaviour of the AMS 348i SSI on Laser ON/OFF:

If the laser light spot is positioned on the reflector when the laser diode is switched on, the
AMS 348i SSI returns valid measurement values after approx. 330ms.

If the laser light spot is not positioned on the reflector when the laser diode is switched on,
the AMS 348i SSI cannot calculate any distance values. If the laser beam hits the reflector
at a later point in time while switched-on, the AMS 348i SSI 200 returns valid measurement
values after the following time span:

t = (measurement distance / 20m) sec.

Example: Corridor change of a high-bay storage device during which the laser diode

Input data

1.7 Bit

2.0 Bit

3.0
…

3.2

0 = OFF

1 = ON
0 = OFF

1 = ON

000 = HW input no function

001 = HW input as preset

unsign 8
bit

010 = HW input as laser OFF

teach function

function

1 –

4a

0 –

000 –4a

is not switched off while traveling around curves.
Measurement distance 100m –> t = 5 sec., measurement distance 200 m ->
t = 10sec.

Input data Description Rel.

State

Input data length: 1 byte

Signal state of the input or output. 0.0 Bit

addr.

Data

Value Default Unit CR to

type

0: Input/Output at signal level

not active

1: Input/Output at signal level

active

– ––

Metr. Inch

module

TNT 35/7-24V

Output data

Output data Description Rel.

The output can be activated/deactivated
with this bit. The corresponding release

State

Output data length: 1 byte

is performed in module 4, output param­eter bit 2.0.

addr.

0.0 Bit

Data

Value Default Unit CR to

type

0: Output at signal level not

active

1: Output at signal level

active

– –4c

Metr. Inch

module

Leuze electronic AMS 348i SSI 79

PROFINET interface

abc

9.9.3.5 Module 5: I/O 2 Input/Output

PROFINET module identifier

Module-ID 1005

Submodule-ID 1

Description

The module defines the mode of operation of the digital input/output I/O 2.

Parameter

Parameter Description Rel.

The parameter defines whether I/O 2

Function

Activation

Output

functions as an input or as an output.
The parameter defines the level of the

output when the "output" event is
received. If I/O 2 is configured as an
input, the response is edge-controlled.

The parameter defines which event trig­gers activation of the output. The individ­ual functions are OR-linked to one
another.

Position limit value 1

If the position value lies outside of con­figured limit range 1, the output is set.

Position limit value 2

If the position value lies outside of con­figured limit range 2, the output is set.

Velocity limit value

If the velocity value lies outside of the
configured values, the output is set.
Monitoring from modules 11 to 15 is OR­linked.

Intensity (ATT)

If the intensity of the received signal is
less than the warning threshold, the out­put is set.

Temperature (TMP)

If the internal device temperature
exceeds the set limit value, the output is
set.

Laser (LSR)

Laser prefailure message.

Plausibility (PLB)

If implausible measurement values are
diagnosed, the output is set.

addr.

0.0 Bit

0.1 Bit

1.0 Bit

1.1 Bit

1.2 Bit

1.3 Bit

1.4 Bit

1.5 Bit

1.6 Bit

Data

Value Default Unit CR to

type

0: Input

1: Output
0: Low

1-0 transition

1: High

0-1 transition

0 = OFF

1 = ON

0 = OFF

1 = ON

0 = OFF

1 = ON

0 = OFF

1 = ON

0 = OFF

1 = ON

0 = OFF

1 = ON
0 = OFF

1 = ON

1 –5cd

0 ––

0 –

0 –

0 –

1 –

1 –

1 –

0 –

Metr. Inch

–

module

5a

80 AMS 348i SSI Leuze electronic

PROFINET interface

c

d

e

f

Hardware (ERR)

Output

Input

Parameter length: 4 bytes

If a hardware error is diagnosed, the out­put is set.

Pseudodynamic output

If bit 0.0 is set in the output data, the out­put is set.

Preset

The HW input is used as preset teach
input (valid for static or dynamic preset).

Laser

The HW input is used as laser OFF.

Notice!

Behaviour of the AMS 348i SSI on Laser ON/OFF:

If the laser light spot is positioned on the reflector when the laser diode is switched on, the
AMS 348i SSI returns valid measurement values after approx. 330ms.

If the laser light spot is not positioned on the reflector when the laser diode is switched on,
the AMS 348i SSI cannot calculate any distance values. If the laser beam hits the reflector
at a later point in time while switched-on, the AMS 348i SSI returns valid measurement values
after the following time span:

t = (measurement distance / 20m) sec.

Example: Corridor change of a high-bay storage device during which the laser diode

Input data

1.7 Bit 0 = OFF

2.1 Bit 0 = OFF

3.0
…

3.2

1 = ON

1 = ON

unsign 8

000 = HW input no function

bit

001 = HW input as preset

010 = HW input as laser OFF

teach function

function

0 –5a

0 –

000 –5a

is not switched off while traveling around curves.
Measurement distance 100m –> t = 5 sec., measurement distance 200 m ->
t = 10sec.

Input data Description Rel.

State

Input data length: 1 byte

Signal state of the input or output. 0.0 Bit

addr.

Data

Value Default Unit CR to

type

0: Input/Output at signal level

not active

1: Input/Output at signal level

active

– ––

Metr. Inch

module

TNT 35/7-24V

Output data

Output data Description Rel.

The output can be activated/deactivated
with this bit. The corresponding release

State

Output data length: 1 byte

is performed in module 5, output param­eter bit 2.1.

addr.

0.0 Bit

Data

Value Default Unit CR to

type

0: Output at signal level not

active

1: Output at signal level

active

– –5c

Metr. Inch

module

Leuze electronic AMS 348i SSI 81

PROFINET interface

abcde

fgh

ijk

9.9.3.6 Module 6: Status and control

PROFINET module identifier

Module-ID 1006

Submodule-ID 1

Description

The module signals various status information of the AMS 348i. The laser can be controlled
via the master's output data.

Parameter

None

Input data

Input data Description Rel.

Laser
status

Preset
status

Preset teach

Reserved

Intensity
(ATT)

Temperature
(TMP)

Laser (LSR)

Plausibility
(PLB)

Hardware
(ERR)

Lower posi­tion limit
value 1

Upper posi­tion limit
value 1

Signals the laser status. 1.0 Bit

Status of the preset value. 1.1 Bit

This bit toggles on each teach event of a
preset value.

If the intensity of the received signal is
less than the warning threshold, the sta­tus bit is set.

If the internal device temperature
exceeds or drops below the set limit
value, the status bit is set.

Laser prefailure message. 1.6 Bit

If implausible measurement values are
diagnosed, the status bit is set.

If a hardware error is diagnosed, the sta­tus bit is set.

Signals that the value is less than lower
limit value 1.

Signals that the value is greater than
upper limit value 1.

addr.

1.2 Bit 0 or 1 – ––

1.3 Bit – ––

1.4 Bit

1.5 Bit

1.7 Bit

0.0 Bit

0.4 Bit

0.5 Bit

Data

Value Default Unit CR to

type

0: Laser ON

1: Laser OFF
0: Preset not active

1: Preset active

0: OK

1: Warning
0: OK

1: Temperature above/below

limit

0: OK

1: Laser warning
0: OK

1: Implausible measurement

value

0: OK

1: Hardware error

0: OK

1: Value less than limit

0: OK

1: Value greater than limit

– ––

– ––

– ––

– ––

– ––

– ––

– ––

– ––

– ––

Metr. Inch

module

82 AMS 348i SSI Leuze electronic

PROFINET interface

l

m

n

Lower posi­tion limit
value 2

Upper posi­tion limit
value 2

Input data length: 2 bytes

Signals that the value is less than lower
limit value 2.

Signals that the value is greater than
upper limit value 2.

0.6 Bit

0.7 Bit

Output data

Output data Description Rel.

Laser

Output data length: 2 bytes

Laser control. 0.0 Bit

addr.

0: OK

1: Value less than limit

0: OK

1: Value greater than limit

Data

Value Default Unit CR to

type

0: Laser ON

1: Laser OFF

– ––

– ––

– ––

Metr. Inch

module

TNT 35/7-24V

Leuze electronic AMS 348i SSI 83

PROFINET interface

a

b

9.9.3.7 Module 7: Position limit value range 1

PROFINET module identifier

Module-ID 1007

Submodule-ID 1

Description

The position limit value range 1 parameter defines a distance range with lower and upper
limits. If the measured value lies outside of the configured range, the corresponding bit is
set in module 6 or, if configured, an output is set.

Parameter

Parameter Description Rel.

Lower pos.
limit 1

Upper pos.
limit 1

Parameter length: 8 bytes

Specifies the lower position limit. 0…3

Specifies the upper position limit. 4…7

addr.

Input data

None

Output data

None

Data

Value Default Unit CR to

type

sign

-999999 … +999999 0 mm in/100 –

32 bit

sign

-999999 … +999999 0 mm in/100 –

32 bit

Metr. Inch

module

84 AMS 348i SSI Leuze electronic

9.9.3.8 Module 8: Position limit value range 2

a

b

PROFINET module identifier

Module-ID 1008

Submodule-ID 1

Description

The position limit value range 2 parameter defines a distance range with lower and upper
limits. If the measured value lies outside of the configured range, the corresponding bit is
set in module 6 or, if configured, an output is set.

Parameter

PROFINET interface

Parameter Description Rel.

Lower pos.
limit 2

Upper pos.
limit 2

Parameter length: 8 bytes

Specifies the lower position limit. 0…3

Specifies the upper position limit. 4…7

addr.

Input data

None

Output data

None

Data

Value Default Unit CR to

type

sign

-999999 … +999999 0 mm in/100 –

32 bit

sign

-999999 … +999999 0 mm in/100 –

32 bit

Metr. Inch

module

TNT 35/7-24V

Leuze electronic AMS 348i SSI 85

PROFINET interface

a

bcdef

9.9.3.9 Module 9: Error handling procedures

PROFINET module identifier

Module-ID 1009

Submodule-ID 1

Description

The module makes parameters available to handle any errors should they occur.

In the event of a temporary error in the value/velocity calculation (e.g. plausibility error
caused by light beam interruption) the laser measurement system transmits the last valid
measurement value for a length of time xx which is to be configured.

If the configured time is exceeded, the error display or the faulty measurement value output
is activated.

Parameter

Parameter Description Rel.

Specifies which position value is to be

Position value
in the case of
error

Suppress
position sta­tus

Error delay
(position)

Error delay
time (posi­tion)

Velocity in the
case of error

Suppress
velocity sta­tus

output in the event of an error after the
position suppression time has elapsed.

No function. 0.1 Bit Always 0 0 – –
Specifies whether the PLB status bit is

set immediately in the event of an error
or if it is suppressed for the configured
position suppression time.

Specifies in the event of an error
whether the position value immediately
outputs the value of the "position value
in the case of error" parameter or out­puts the last valid position value for the
duration of the configured "error delay
time".

Errors which occur are suppressed for
the configured time. If no valid position
value can be ascertained during the
configured time, the last valid position
value is output. If the error persists after
the time elapses, the value stored in the
"position value in the case of error"
parameter is output.

Specifies which velocity is to be output
in the event of an error after the velocity
suppression time has elapsed.
No function. 3.1 Bit Always 0 0 – –

Specifies whether the PLB status bit is
set immediately in the event of an error
or if it is suppressed for the configured
velocity suppression time.

addr.

0.0 Bit

0.2 Bit

0.3 Bit

1…2

3.0 Bit

3.2 Bit

Data

Value Default Unit CR to

type

0: Last valid value

1: Zero

0: OFF

1: ON

0: OFF

1: ON

unsign

100 … 1000 100 ms –

16 bit

0: Last valid value

1: Zero

0: OFF

1: ON

1 mm in/100 –

1 ––

1 ––

1 ––

1 ––

Metr. Inch

module

86 AMS 348i SSI Leuze electronic

Specifies in the event of an error

g

h

whether the velocity immediately out-

Error delay
(velocity)

Error delay
time (veloc­ity)

Parameter length: 6 bytes

puts the value of the "velocity in the
case of error" parameter or outputs the
last valid velocity for the duration of the
configured "error delay time".
Errors which occur are suppressed for
the configured time. If no velocity posi­tion value can be ascertained during
the configured time, the last valid
velocity value is output. If the error per­sists after the time elapses, the value
stored in the "velocity in the case of
error" parameter is output.

Input data

None

Output data

None

9.9.3.10 Module 10: Velocity

PROFINET module identifier

Module-ID 1010

Submodule-ID 1

3.3 Bit

4…5

PROFINET interface

0: OFF

1: ON

unsign

200 … 1000 200 ms –

16 bit

1 ––

Description

Outputs the current velocity with the configured resolution. The unit (metric or inch) is set
in module 1 (position value) and also applies to the velocity. If module 1 is not configured,
the AMS 348i SSI operates with the default unit (metric).

TNT 35/7-24V

The sign of the velocity is dependent on the count direction in module 1d.

In the default setting a positive velocity is output when the reflector moves away from the
AMS 348i SSI. When the reflector moves towards the AMS 348i SSI, negative velocities are
output. If the "negative" count direction is configured in module 1, the velocity signs are
reversed.

Measurement value preparation averages all velocity values calculated during the selected
period (averaging) to yield a velocity output value.

Leuze electronic AMS 348i SSI 87

PROFINET interface

a

b

c

Parameter

Parameter Description Rel.

Velocity reso­lution

Average

Parameter length: 2 bytes

The parameter specifies the resolution
for the velocity value.

The parameter specifies the response
time (averaging time) of the calculated
velocity values.

addr.

0.0
…

0.2

0.3
…

0.5

Input data

Input data Description Rel.

Velocity

Input data length: 4 bytes consistently

Current velocity. 0

addr.

Output data

None

Data

Value Default Unit CR to

type

001=1: 1

010=2: 10

Bit

011=3: 100
100=4: 1000
101 = 5: free resolution

000=0: 2
001=1: 4
010=2: 8

Bit

011=3: 16

100=4: 32
101=5: 64
110=6: 128

Data

Value Default Unit CR to

type

sign

-999999 … +999999 0 scaled –

32 bit

1 mm/s

3 ms –

Metr. Inch

(in/

100)/s20b

Metr. Inch

module

module

88 AMS 348i SSI Leuze electronic

9.9.3.11 Module 11: Static velocity limit value 1

a

bcd

PROFINET module identifier

Module-ID 1011

Submodule-ID 1

Description

The static velocity limit value 1 function compares the current velocity with a velocity
stored in the configuration. This occurs in the configured range, which is defined by range
start and range end.

Notice!

If range start and range end are identical, velocity monitoring is active over the entire tra-
versing range.

If a direction-dependent limit value check is activated via the direction selection parameter,
the values of range start and range end also define the direction. The check is always
performed from range start to range end. For example, if the range start is "5500" and the
range end is "5000", the direction-dependent check is only performed in the direction from
"5500" to "5000". The limit value is not active in the opposite direction.

If the check is independent of direction, the order of range start and range end is irrelevant.
Depending on the selected switching mode, if the value is above or below the defined limits,
the limit value status in module 16 is set and, if configured, the output is appropriately set
via module 4 or 5.

Notice!

The explanations given above on the “Range start” and “Range end” parameters apply anal­ogously for modules 12-15.

PROFINET interface

Parameter

Parameter Description Rel.

Condition for the "velocity limit value 1"

Switching
mode

Direction
selection

Velocity limit
value 1

Velocity
hysteresis 1

signal, which applies to the output
(module 4/5) and the status bit (module

16).

Selection of direction-dependent or
direction-independent limit value
checking.

Limit value is compared to the current
velocity.

Relative shift to prevent signal bounc­ing.

addr.

0.0 Bit

0.1 Bit

1…2

3…4

Data

Value Default Unit CR to

type

0: Value greater than limit

1: Value less than limit

0: Direction independent

1: Direction dependent

unsign

0 … 20000 0 mm/s

16 bit

unsign

0 … 20000 100 mm/s

16 bit

Metr. Inch

0 ––

0 ––

(in/100)
/s

(in/100)
/s

module

16d

–

TNT 35/7-24V

Leuze electronic AMS 348i SSI 89

PROFINET interface

e

f

Limit value 1
range start

Limit value 1
range end

Parameter length: 13 bytes

The velocity limit value is monitored
beginning at this position.

The velocity limit value is monitored up
to this position.

Input data

None

Output data

None

5…8

9
…
12

sign

-999999 … +999999 0 mm in/100 –

32 bit

sign

-999999 … +999999 0 mm in/100 –

32 bit

90 AMS 348i SSI Leuze electronic

9.9.3.12 Module 12: Static velocity limit value 2

a

bcdef

PROFINET module identifier

Module-ID 1012

Submodule-ID 1

Description

The static velocity limit value 2 function compares the current velocity with a velocity
stored in the configuration. This occurs in the configured range, which is defined by range
start and range end.

Notice!

Further explanations on the “Range start” and “Range end” parameters see chapter 9.9.3.11
"Module 11: Static velocity limit value 1".

Parameter

PROFINET interface

Parameter Description Rel.

addr.

Condition for the "velocity limit value 2"

Switching
mode

Direction
selection

Velocity limit
value 2

Velocity hys­teresis 2

Limit value 2
range start

Limit value 2
range end

signal, which applies to the output
(module 4/5) and the status bit (module

16).

Selection of direction-dependent or
direction-independent limit value
checking.

Limit value is compared to the current
velocity.

Relative shift to prevent signal bounc­ing.

The velocity limit value is monitored
beginning at this position.

The velocity limit value is monitored up
to this position.

0.0 Bit

0.1 Bit

1…2

3…4

5…8

9
…
12

Parameter length: 13 bytes

Input data

None

Output data

None

Data

Value Default Unit CR to

type

0: Value greater than limit

1: Value less than limit

0: Direction independent

1: Direction dependent

unsign

0 … 20000 0 mm/s

16 bit

unsign

0 … 20000 100 mm/s

16 bit

sign

-999999 … +999999 0 mm in/100 –

32 bit

sign

-999999 … +999999 0 mm in/100 –

32 bit

Metr. Inch

0 ––

0 ––

(in/100)
/s

(in/100)
/s

module

16e

–

TNT 35/7-24V

Leuze electronic AMS 348i SSI 91

PROFINET interface

a

bcdef

9.9.3.13 Module 13: Static velocity limit value 3

PROFINET module identifier

Module-ID 1013

Submodule-ID 1

Description

The static velocity limit value 3 function compares the current velocity with a velocity
stored in the configuration. This occurs in the configured range, which is defined by range
start and range end.

Notice!

Further explanations on the “Range start” and “Range end” parameters see chapter 9.9.3.11
"Module 11: Static velocity limit value 1".

Parameter

Parameter Description Rel.

Condition for the "velocity limit value 3"

Switching
mode

Direction
selection

Velocity limit
value 3

Velocity hys­teresis 3

Limit value 3
range start

Limit value 3
range end

signal, which applies to the output
(module 4/5) and the status bit (module

16).

Selection of direction-dependent or
direction-independent limit value
checking.

Limit value is compared to the current
velocity.

Relative shift to prevent signal bounc­ing.

The velocity limit value is monitored
beginning at this position.

The velocity limit value is monitored up
to this position.

addr.

0.0 Bit

0.1 Bit

1…2

3…4

5…8

9
…
12

Input data

None

Output data

None

Data

Value Default Unit CR to

type

0: Value greater than limit

1: Value less than limit

0: Direction independent

1: Direction dependent

unsign

0 … 20000 0 mm/s

16 bit

unsign

0 … 20000 100 mm/s

16 bit

sign

-999999 … +999999 0 mm in/100 –

32 bit

sign

-999999 … +999999 0 mm in/100 –

32 bit

Parameter length: 13 bytes

(in/100)
/s

(in/100)
/s

module

Metr. Inch

0 – –

0 – –

16f

–

92 AMS 348i SSI Leuze electronic

9.9.3.14 Module 14: Static velocity limit value 4

a

bcdef

PROFINET module identifier

Module-ID 1014

Submodule-ID 1

Description

The static velocity limit value 4 function compares the current velocity with a velocity
stored in the configuration. This occurs in the configured range, which is defined by range
start and range end.

Notice!

Further explanations on the “Range start” and “Range end” parameters see chapter 9.9.3.11
"Module 11: Static velocity limit value 1".

Parameter

PROFINET interface

Parameter Description Rel.

Condition for the "velocity limit value 4"

Switching
mode

Direction
selection

Velocity limit
value 4

Velocity hys­teresis 4

Limit value 4
range start

Limit value 4
range end

Parameter length: 13 bytes

signal, which applies to the output
(module 4/5) and the status bit (module

16).

Selection of direction-dependent or
direction-independent limit value
checking.

Limit value is compared to the current
velocity.

Relative shift to prevent signal bounc­ing.

The velocity limit value is monitored
beginning at this position.

The velocity limit value is monitored up
to this position.

addr.

0.0 Bit

0.1 Bit

1…2

3…4

5…8

9
…
12

Input data

None

Output data

None

Data

Value Default Unit CR to

type

0: Value greater than limit

1: Value less than limit

0: Direction independent

1: Direction dependent

unsign

0 … 20000 0 mm/s

16 bit

unsign

0 … 20000 100 mm/s

16 bit

sign

-999999 … +999999 0 mm in/100 –

32 bit

sign

-999999 … +999999 0 mm in/100 –

32 bit

0 ––

0 ––

Metr. Inch

(in/100)
/s

(in/100)
/s

module

16 g

–

TNT 35/7-24V

Leuze electronic AMS 348i SSI 93

PROFINET interface

abcde

f

g

9.9.3.15 Module 15: Dynamic velocity limit value

PROFINET module identifier

Module-ID 1015

Submodule-ID 1

Description

The dynamic velocity limit value compares the current velocity with a stored velocity within
the defined range. If the value is above or below the limit value, the dynamic limit value status
in module 16 is set and, if configured, the output is appropriately set. Limit value, hyster-
esis, range start and range end are transferred with the output data of this module by the
PROFINET master. The transferred values are activated by Bit 0.0, i.e. if this bit is set, the
AMS 348i SSI compares the current velocity with the new limit value conditions.

Notice!

Further explanations on the “Range start” and “Range end” parameters see chapter 9.9.3.11
"Module 11: Static velocity limit value 1".

Parameter

None

Input data

None

Output data

Output data Description Rel.

Controls internal processing of the

Limit value
control

Switching
mode

Direction
selection

Velocity limit
value

Velocity hys­teresis

Limit value
range start

Limit value
range end

Output data length: 13 bytes consistently

transferred dynamic limit value param­eters.

Condition for the signal change of the
output/status bit.

Selection of direction-dependent or
direction-independent limit value
checking.

Limit value is compared to the current
velocity.

Relative shift to prevent signal bounc­ing.

The velocity limit value is monitored
beginning at this position.

The velocity limit value is monitored up
to this position.

addr.

0.0 Bit

0.1 Bit

0.2 Bit

1…2

3…4

5…8

9
…
12

Data

Value Default Unit CR to

type

0: Do not process

1: Process

parameter

0: Value greater than limit

1: Value less than limit
0: Direction independent

1: Direction dependent

unsign

0 … +20000 – mm/s

16 bit

unsign

0 … +20000 – mm/s

16 bit

sign

-999999 … +999999 0 mm in/100 –

32 bit

sign

-999999 … +999999 0 mm in/100 –

32 bit

– ––

– ––

– ––

Metr. Inch

94 AMS 348i SSI Leuze electronic

(in/100)
/s

(in/100)
/s

module

16 h

–

9.9.3.16 Module 16: Velocity status

abcde

f

g

h

i

PROFINET module identifier

Module-ID 1016

Submodule-ID 1

Description

This module supplies the PROFINET master with various status information for velocity
measurement.

Parameter

None

Input data

PROFINET interface

Input data Description Rel.

Velocity mea­surement
error

Movement
status

Movement
direction

Velocity limit
value status 1

Velocity limit
value status 2

Velocity limit
value status 3

Velocity limit
value status 4

Dynamic
velocity limit
value status

Velocity com­parison
Limit value 1

Signals that no valid velocity could be
ascertained.

Signals whether a movement >0.1m/s is
currently being detected.

When the movement status is activated,
this bit indicates the direction.

Signals that limit value 1 has been
exceeded.

Signals that limit value 2 has been
exceeded.

Signals that limit value 3 has been
exceeded.

Signals that limit value 4 has been
exceeded.

Signals that the dynamic limit value has
been exceeded.

Signals whether the current velocity is
compared with this limit value.

addr.

1.0 Bit

1.1 Bit

1.2 Bit

1.3 Bit

1.4 Bit

1.5 Bit

1.6 Bit

1.7 Bit

0.3 Bit

Data

Value Default Unit CR to

type

0: OK

1: Error

0: No movement

1: Movement
0: Positive direction

1: Negative direction
0: Limit value

maintained

1: Limit value violated
0: Limit value

maintained

1: Limit value violated
0: Limit value

maintained

1: Limit value violated
0: Limit value

maintained

1: Limit value violated
0: Limit value

maintained

1: Limit value violated

0: Comparison not active

1: Comparison active

– ––

– ––

– ––

– – 11c

– – 12c

– – 13c

– – 14c

– – 15bd

– ––

Metr. Inch

module

TNT 35/7-24V

Leuze electronic AMS 348i SSI 95

PROFINET interface

j

klm

Velocity com­parison
Limit value 2

Velocity com­parison
Limit value 3

Velocity com­parison
Limit value 4

Dynamic
velocity com­parison

Input data length: 2 bytes

Signals whether the current velocity is
compared with this limit value.

Signals whether the current velocity is
compared with this limit value.

Signals whether the current velocity is
compared with this limit value.

Signals whether the current velocity is
compared with this limit value.

Output data

None

0.4 Bit

0.5 Bit

0.6 Bit

0.7 Bit

0: Comparison not active

1: Comparison active

0: Comparison not active

1: Comparison active

0: Comparison not active

1: Comparison active

0: Comparison not active

1: Comparison active

– ––

– ––

– ––

– ––

96 AMS 348i SSI Leuze electronic

9.9.3.17 Module 17: SSI interface

PROFINET module identifier

Module ID 1017

Submodule-ID 1

Description

The module defines the parameters for the SSI interface.

Attention!

The SSI interface can only represent posi tive distance values. If negative output values
are ascertained due to the offset or count direction, a zero value is output at the SSI
interface! In the event of a number overflow, all data bits are set to "1".

The unit, offset and count direction parameters of module 1 also apply to the SSI interface.

Notice!

If the SSI interface is not configured via module 17 (SSI interface) in PROFINET oper­ation, the SSI interface is operated with the default parameters.

If the SSI interface is operated without PROFINET (PROFINET OFF/SSI ON), configuration
is performed via the display.

PROFINET interface

Leuze electronic AMS 348i SSI 97

TNT 35/7-24V