Renishaw OMM-2, OSI Installation Manual

OSI with OMM-2 multiple optical probe
interface system

Installation guide

H-5492-8504-02-A

Renishaw part no: H-5492-8504-02-A

First issued: 03.2010

Revised: 10.2018

© 2010–2018 Renishaw plc. All rights reserved.

This document may not be copied or reproduced
in whole or in part, or transferred to any other
media or language, by any means, without the
prior written permission of Renishaw plc.

The publication of material within this document
does not imply freedom from the patent rights of
Renishaw plc.

i

Contents

Before you begin .............................................................1.1

Before you begin

............................................................1.1

Disclaimer

..............................................................1.1

Trade marks

.............................................................1.1

Warranty

................................................................1.1

Changes to equipment

.....................................................1.1

CNC machines

...........................................................1.1

Care of the system components

.............................................1.1

Patents

.................................................................1.2

OSI EU declaration of conformity

...............................................1.3

OMM-2 EU declaration of conformity

............................................1.3

WEEE directive

.............................................................1.3

FCC Information to user (USA only)

.............................................1.3

Safety

....................................................................1.4

OSI with OMM-2 system basics ...............................................2.1

Introduction

................................................................2.1

OSI with OMM-2 system used in single probe mode

................................2.2

OSI with OMM-2 system used in multiple probe mode

...............................2.3

System performance with OMP60 or OMP600

.....................................2.4

System performance with OMP40-2, OLP40 or OMP400

.............................2.5

System performance with OTS or OTS AA

........................................2.6

OSI inputs

.................................................................2.7

OSI outputs

................................................................2.7

OSI components

............................................................2.8

OMM-2 (A) connector (7-way)

...............................................2.9

OMM-2 (B) connector (7-way)

...............................................2.9

Control connector block (15-way)

.............................................2.9

Switch SW1 output configuration

............................................2.10

Switch SW2 output configuration

............................................2.11

OSI/OMM-2 installation guide

ii

Contents

OSI input mode configurations ................................................2.12

Single probe mode

.......................................................2.12

Multiple probe mode

......................................................2.12

Switch-on / switch-off method

..............................................2.13

Start-up times

...........................................................2.13

Synchronisation recovery

..................................................2.13

Multiple probe mode timing diagrams

........................................2.14

OSI output waveforms

.......................................................2.15

OSI dimensions

............................................................2.16

OSI specification

...........................................................2.16

OMM-2 components

........................................................2.18

Magnetic label

..........................................................2.18

START SIGNAL LED (yellow)

...............................................2.19

LOW BATTERY LED (red)

.................................................2.19

PROBE STATUS LED (green, red)

...........................................2.19

ERROR LED (red, blue, yellow, violet, cyan)

...................................2.19

SIGNAL CONDITION LED (red, yellow, green)

.................................2.19

ACTIVE SYSTEM LED (blue, yellow, violet)

...................................2.19

Range switch (SW1)

......................................................2.20

OMM-2 screw torque values

..................................................2.20

OMM-2 dimensions

.........................................................2.21

OMM-2 specification

........................................................2.22

System installation ...........................................................3.1

Installing the OSI

............................................................3.1

Typical OSI installation

....................................................3.1

Mounting the OSI to a DIN rail

.................................................3.2

Wiring diagram (with output groupings shown)

.....................................3.3

Installing the OMM-2

.........................................................3.4

OMM-2 application

........................................................3.4

Power supply

............................................................3.4

OMM-2 cable

............................................................3.4

Installing the OMM-2 to the mounting bracket (optional)

...........................3.5

Cable sealing

............................................................3.6

Fitting flexible conduit

......................................................3.6

iii

Contents

Maintenance .................................................................4.1

Maintenance

...............................................................4.1

Cleaning the interface

........................................................4.1

Removing the OMM-2 window

.................................................4.2

Fitting the OMM-2 window

.....................................................4.2

Fault-finding .................................................................5.1

Parts list .....................................................................6.1

OSI/OMM-2 installation guide

iv

Contents

This page is intentionally left blank.

1.1

Changes to equipment

Renishaw reserves the right to change equipment
specifications without notice.

CNC machines

CNC machine tools must always be operated by
fully trained personnel in accordance with the
manufacturer’s instructions.

Care of the system components

Keep system components clean and treat with
care. Do not apply labels to the front of the
OMM-2 or otherwise obstruct the window.

Before you begin

Before you begin

Trade marks

RENISHAW and the probe symbol used in the

RENISHAW logo are registered trade marks of
Renishaw plc in the United Kingdom and other
countries. apply innovation, RENGAGE and
names and designations of other Renishaw
products and technologies are trade marks of
Renishaw plc or its subsidiaries.

All other brand names and product names used
in this document are trade names, trade marks, or
registered trade marks of their respective owners.

Disclaimer

RENISHAW HAS MADE CONSIDERABLE
EFFORTS TO ENSURE THE CONTENT OF THIS
DOCUMENT IS CORRECT AT THE DATE OF
PUBLICATION BUT MAKES NO WARRANTIES
OR REPRESENTATIONS REGARDING
THE CONTENT. RENISHAW EXCLUDES
LIABILITY, HOWSOEVER ARISING, FOR ANY
INACCURACIES IN THIS DOCUMENT.

Warranty

Equipment requiring attention under warranty
must be returned to your equipment supplier.

Unless otherwise specifically agreed in writing
between you and Renishaw, if you purchased
the equipment from a Renishaw company, the
warranty provisions contained in Renishaw’s
CONDITIONS OF SALE apply. You should consult
these conditions in order to find out the details
of your warranty but, in summary, the main
exclusions from the warranty are if the equipment
has been:

• neglected, mishandled or inappropriately used;

or

• modified or altered in any way except with the

prior written agreement of Renishaw.

If you purchased the equipment from any other
supplier, you should contact them to find out what
repairs are covered by their warranty.

OSI/OMM-2 installation guide

1.2

Before you begin

Patents

Features of OMM-2 and OSI (and features of
similar products) are the subject of one or more of
the following patents and/or patent applications:

EP 0974208
EP 1503524
US 6839563

1.3

Before you begin

FCC Information to user (USA
only)

47 CFR Section 15.19

This device complies with part 15 of the FCC
Rules. Operation is subject to the following two
conditions:

1. This device may not cause harmful
interference, and

2. This device must accept any interference
received, including interference that may
cause undesired operation.

47 CFR Section 15.21

The user is cautioned that any changes or
modifications not expressly approved by
Renishaw plc or authorised representative could
void the user’s authority to operate the equipment.

47 CFR Section 15.105

This equipment has been tested and found to
comply with the limits for a Class A digital device,
pursuant to part 15 of the FCC Rules. These limits
are designed to provide reasonable protection
against harmful interference when the equipment
is operated in a commercial environment. This
equipment generates, uses, and can radiate
radio frequency energy and, if not installed
and used in accordance with the instruction
manual, may cause harmful interference to radio
communications. Operation of this equipment
in a residential area is likely to cause harmful
interference in which case the user will be
required to correct the interference at his own
expense.

WEEE directive

The use of this symbol on Renishaw products
and/or accompanying documentation indicates
that the product should not be mixed with
general household waste upon disposal. It is the
responsibility of the end user to dispose of this
product at a designated collection point for waste
electrical and electronic equipment (WEEE) to
enable reuse or recycling. Correct disposal of
this product will help to save valuable resources
and prevent potential negative effects on the
environment. For more information, please contact
your local waste disposal service or Renishaw
distributor.

OSI EU declaration of conformity

C

Renishaw plc declares under its sole responsibility
that OSI is in conformity with all relevant Union
legislation.

The full text of the EU declaration of conformity is
available at: www.renishaw.com/mtpdoc.

OMM-2 EU declaration of
conformity

C

Renishaw plc declares under its sole responsibility
that OMM-2 is in conformity with all relevant Union
legislation.

The full text of the EU declaration of conformity is
available at: www.renishaw.com/mtpdoc.

OSI/OMM-2 installation guide

1.4

Before you begin

Safety

Information to the user

In all applications involving the use of machine
tools or CMMs, eye protection is recommended.

The OMM-2 has a glass window. Handle with care
if broken to avoid injury.

Information to the machine supplier/
installer

It is the machine supplier’s responsibility to ensure
that the user is made aware of any hazards
involved in operation, including those mentioned
in Renishaw product literature, and to ensure
that adequate guards and safety interlocks are
provided.

Under certain circumstances, the probe signal
may falsely indicate a probe seated condition. Do
not rely on probe signals to halt the movement of
the machine.

Information to the equipment installer

All Renishaw equipment is designed to comply
with the relevant EU and FCC regulatory
requirements. It is the responsibility of the
equipment installer to ensure that the following
guidelines are adhered to, in order for the product
to function in accordance with these regulations:

• any interface MUST be installed in a position

away from any potential sources of electrical
noise, i.e. power transformers, servo drives etc;

• all 0V/ground connections should be

connected to the machine ‘star point’ (the ‘star
point’ is a single point return for all equipment
ground and screen cables). This is very
important and failure to adhere to this can
cause a potential difference between grounds;

• all screens must be connected as outlined in

the user instructions;

• cables must not be routed alongside high

current sources, i.e. motor power supply cables
etc, or be near high-speed data lines;

• cable lengths should always be kept to a

minimum;

• the dc supply to this equipment must be

derived from a source which is approved to
BS EN 60950-1:2006+A2:2013
(IEC 60950-1:2005+A2:2013).

Equipment operation

If this equipment is used in a manner not specified
by the manufacturer, the protection provided by
the equipment may be impaired.

Optical safety

This product contains LEDs that emit both visible
and invisible light.

OMM-2 is ranked Risk Group: Exempt (safe by
design).

The product was evaluated and classified using
the following standard:

BS EN 62471:2008
(IEC 62471:2006)

The photobiological
safety of lamps and lamp
systems.

Renishaw recommends that you do not stare at or
look directly into any LED device, irrespective of
its risk classification.

2.1

Introduction

OSI with OMM-2 system basics

CNC machine tools using Renishaw spindle
probes with optical signal transmission for
workpiece inspection, or tool setters with optical
signal transmission, require an interface system
to convert the signals from the probe into
voltage-free solid state relay (SSR) outputs for
transmission to the CNC machine controller.

Typically installed within the CNC machine
controller’s cabinet and located away from
sources of interference such as transformers and
motor controls, the OSI can draw its power from
the machine’s nominal 12 Vdc to 30 Vdc supply.

The OSI has an input voltage range of 12 Vdc to
30 Vdc. The supply is protected by a 1.1 A
self-resetting fuse (its nominal current, when
connected to an inspection probe, is either
400 mA max. @ 12 V or 200 mA max. @ 24 V
with tandem OMM-2). To reset the fuse, remove
the power then identify and rectify the cause of
the fault.

The OSI can be used with either a single
OMM-2 or a tandem OMM-2 configuration,
housed within the machining environment. The
OMM-2 transmits control signals to the spindle
probe, or tool setter, and receives probe data
signals for onward transmission to the OSI and
CNC controller. Power is supplied from the OSI.
Visual indication of system status is provided via
the LEDs located on the OMM-2.

The OSI with OMM-2 system operates using a
‘modulated’ optical transmission mode and is
compatible with machine probes that also operate
in ‘modulated’ mode.

The OSI with OMM-2 system is user-configurable
for operation in either single probe mode or
multiple probe mode. In multiple probe mode the
system is capable of operating three compatible
probes sequentially.

OSI/OMM-2 installation guide

2.2

OSI with OMM-2

system basics

OSI with OMM-2 system used in
single probe mode

The system can be used with any Renishaw
optical machine probe (OMP) or optical lathe
probe (OLP) system. The following descriptions
use OMP60 as an example.

In single probe mode, the system will interface a
single Renishaw machine probe with the machine
controller. It is possible for either a single OMM-2
or tandem OMM-2 to be connected to the OSI.
The selected configuration will depend on the
machine application.

When the OMM-2 is used in tandem, both
receivers will simultaneously provide an

OMM-2 (B)

(for tandem installation)

OMM-2 (A)

OSI

OMP

A typical OSI with OMM-2 system used in single probe mode

indication of probe status. Tandem OMM-2
allow for uninterrupted probe communication
in applications with exceptionally long spindle
movement, or in applications where line-of-sight
issues become apparent when only a single
receiver is used. Obstruction to the line-of-sight
between the OMM-2 and the probe can be
caused by the machine’s swinging head or by the
workpiece.

The illustration below shows a typical OSI with
OMM-2 system used in single probe mode.
Alternatively, the system can be used to interface
a single optical tool setter (OTS) instead of the
OMP shown.

CNC machine control

2.3

OSI with OMM-2

system basics

OSI with OMM-2 system used in
multiple probe mode

In multiple probe mode, the system will
sequentially interface up to three separate
Renishaw optical machine probes with the
machine controller. It is possible to have either a
single OMM-2 or a tandem OMM-2 configuration
to best suit the application.

Application of the system in multiple probe mode
is suited to many machine applications. Typical
examples are as follows:

1 × OMP with 2 × OTS (illustrated below).
This arrangement is suitable for a machine
application that has a partitioned machining area
with an OTS and OMM-2 positioned in each area.
An OMP in the spindle is used in both areas,
communicating with the OMM-2 located in the
specific machining area. The OMP is assigned as
Probe 1 and 2 × OTS assigned as Probe 2 and
Probe 3.

OMM-2 (B)

(for tandem installation)

OMM-2 (A)

OSI

OTS OTS

OMP

A typical OSI with OMM-2 system used in multiple probe mode

2 × OMP with 1 × OTS

This arrangement is suitable for a machine
application that requires two different stylus
configurations. For this configuration to be
compatible, it is necessary that one of the OMPs
has Probe 2 functionality. The 2 × OMP are
assigned as Probe 1 and Probe 2 and the OTS is
assigned as Probe 3.

3 × OTS

This arrangement is suitable for a pallet-loaded
machine application with an OTS installed on
each of three pallets, each communicating with an
OMM-2 in the machine. The 3 × OTS are assigned
as Probe 1, Probe 2 and Probe 3.

CNC machine control

OSI/OMM-2 installation guide

2.4

OSI with OMM-2

system basics

System performance with OMP60
or OMP600

The probe and OMM-2 may deviate from the
optical centre line, provided opposing light cones
always overlap, with transmitters and receivers in
the other’s field of view (eye-to-eye).

In multiple probe mode applications, OMP60 or
OMP600 may be configured as Probe 1, Probe 2
or Probe 3.

OMP60

or

OMP600

OMM-2

Optical

centre line

Range m (ft)

Switch on / switch off

Operating – standard power mode

Operating – low power mode

Typical plot at 20 °C (68 °F)
360° transmission around
probe axis in metres (feet)

0°

60°

45°

45°

15°

30°

30°

15°

60°

0°

60°

45°

45°

15°

30°

30°

15°

60°

75°

4 (13.1)

3 (9.8)

2 (6.5)

5 (16.4)

6 (19.9)

4 (13.1)

3 (9.8)

5 (16.4)

6 (19.9)

75°

75°

75°

1 (3.3)

2 (6.5)

1 (3.3)

2.5

OSI with OMM-2

system basics

OMP40-2,

OLP40

or

OMP400

OMM-2

0°

Optical

centre line

60°

45°

45°

15°

30°

30°

15°

60°

0°

60°

45°

45°

15°

30°

30°

15°

60°

75°

4 (13.1)

3 (9.8)

2 (6.5)

5 (16.4)

4 (13.1)

3 (9.8)

2 (6.5)

5 (16.4)

75°

75°

75°

Range m (ft)

Switch on / switch off

Operating – standard power mode

Operating – low power mode

System performance with
OMP40-2, OLP40 or OMP400

The probe and OMM-2 may deviate from the
optical centre line, provided opposing light cones
always overlap, with transmitters and receivers in
the other’s field of view (eye-to-eye).

In multiple probe mode applications, OMP40-2 or

OLP40 may be configured as Probe1, Probe 2 or
Probe 3. OMP400 may be configured as Probe1

or Probe 2.

Typical plot at 20 °C (68 °F)
360° transmission around
probe axis in metres (feet)

1 (3.3)

1 (3.3)