Manual scanCONTROL 2700/2710 - Micro

Instruction Manual
scanCONTROL 2700 / 2710 / 2750
LLT2700-25
LLT2700-50
LLT2700-100
LLT2710-25
LLT2710-50
LLT2710-100
LLT2750-25
LLT2750-50
LLT2750-100
MICRO-EPSILON
MESSTECHNIK
GmbH & Co. KG
Königbacher Strasse 15
94496 Ortenburg / Germany
Tel. +49 (0) 8542 / 168-0
Fax +49 (0) 8542 / 168-90
e-mail: [email protected]
www.micro-epsilon.com
Certified acc. to DIN EN ISO 9001: 2008
Contents
1.Safety......................................................................................................................................... 7
1.1
Symbols Used.................................................................................................................................................. 7
1.2Warnings........................................................................................................................................................... 7
1.3
CE Compliance................................................................................................................................................. 8
1.4
Proper Use........................................................................................................................................................ 9
1.5
Proper Environment.......................................................................................................................................... 9
2.
2.1
2.2
3.
3.1
3.2
3.3
Laser Safety............................................................................................................................. 10
Laser Class 2M............................................................................................................................................... 10
Laser Class 3B................................................................................................................................................ 11
Functioning Principle, Technical Data.................................................................................... 14
Brief Description............................................................................................................................................. 14
3.1.1
Measurement Principle.................................................................................................................. 14
3.1.2
System Setup................................................................................................................................ 14
3.1.3
Special Performance Features...................................................................................................... 14
3.1.4
Advantages of the Used Sensor Array (Difference to Conventional Line Scanners)................... 15
3.1.5
Further Features............................................................................................................................ 15
Technical Data................................................................................................................................................ 16
LED Indicators................................................................................................................................................ 18
4.Delivery.................................................................................................................................... 18
4.1
Standard Equipment...................................................................................................................................... 18
4.2Accessories..................................................................................................................................................... 19
4.2.1
Recommended Accessories......................................................................................................... 19
4.2.2
Optional Accessories.................................................................................................................... 19
4.3Storage........................................................................................................................................................... 19
scanCONTROL 27x0
5.Mounting.................................................................................................................................. 20
5.1
Attachment and Mounting of the Sensor....................................................................................................... 20
5.2Connections.................................................................................................................................................... 30
5.2.1
Power Supply................................................................................................................................ 31
5.2.2
RS422, Synchronization, Switching Signals................................................................................. 32
5.2.3
FireWire Connection (1394).......................................................................................................... 35
5.2.4
Ethernet Connection..................................................................................................................... 36
5.2.5
External Laser Switching............................................................................................................... 38
5.3
Installation Instructions................................................................................................................................... 39
5.4
Recommended Connector and Cable Types................................................................................................. 40
5.5
Mounting the Connectors............................................................................................................................... 41
5.6
Getting Ready for Operation, Commissioning............................................................................................... 41
6.
Operation of the Sensor with a PC......................................................................................... 42
6.1Displays.......................................................................................................................................................... 42
6.2
Operating and Demonstration Programs....................................................................................................... 42
6.3
Installation and Requirements........................................................................................................................ 43
6.3.1
Connecting scanCONTROL to the PC (Ethernet)......................................................................... 43
6.3.2
Connecting scanCONTROL to the PC (IEEE1394)...................................................................... 44
6.4
Instructions for Operating............................................................................................................................... 44
6.4.1
Measuring Field Selection............................................................................................................. 44
6.4.2Calibration..................................................................................................................................... 47
6.4.3
Automatic Exposure Time Regulation........................................................................................... 48
6.5
Error Influences.............................................................................................................................................. 50
6.5.1
Reflection Factor of the Target Surface......................................................................................... 50
6.5.2
Color Differences........................................................................................................................... 50
6.5.3
Temperature Influences................................................................................................................. 50
6.5.4
External Light................................................................................................................................. 51
6.5.5
Mechanical Vibrations................................................................................................................... 51
6.5.6
Surface Roughness....................................................................................................................... 51
6.5.7
Shadowing Effects......................................................................................................................... 52
6.6Cleaning.......................................................................................................................................................... 53
scanCONTROL 27x0
7.
7.1
7.2
7.3
7.4
scanCONTROL Output Unit.................................................................................................... 54
scanCONTROL Output Unit - Components................................................................................................... 54
Connect the Supply Voltage........................................................................................................................... 56
Commissioning scanCONTROL Output Unit................................................................................................. 58
Specification of the Components .................................................................................................................. 59
7.4.1
Output Unit Basic (IEEE 1394 Firewire)........................................................................................ 59
7.4.2
Output Unit Basic (Ethernet)......................................................................................................... 60
7.4.3
Supported Modules....................................................................................................................... 61
7.4.4
OU-DigitalOut/8-Channel/DC24 V/0.5 A/High-side Switching/8 Actuators.................................. 62
7.4.5
OU-AnalogOut/4-Channel/0-10 V.................................................................................................. 63
8.Warranty................................................................................................................................... 64
9.
Service, Repair........................................................................................................................ 64
10.
Decommissioning, Disposal................................................................................................... 64
11.
Error Codes............................................................................................................................. 65
scanCONTROL 27x0

1.
Safety
Knowledge of the operating instructions is a prerequisite for equipment operation.
1.1
Symbols Used
The following symbols are used in the instruction manual:
Indicates a hazardous situation which, if not avoided, may result in minor or moderate injury.
Indicates a situation which, if not avoided, may lead to property damage.
Indicates a user action.
i
Indicates a user tip.
Measure
Indicates a hardware or a button/menu in the software
1.2
Warnings
Caution - use of controls or adjustments or performance of procedures other than those specified herein may
result in hazardous radiation exposure.
Avoid unnecessary laser radiation to be exposed to the human body
- Switch off the sensor for cleaning and maintenance.
- Switch off the sensor for system maintenance and repair if the sensor is integrated into a system.
The power supply and the display-/output device must be connected in accordance with the safety regulations for electrical equipment
> Danger of injury
> Damage to or destruction of the sensor
Avoid shock and vibration to the sensor.
>> Damage to or destruction of the sensor
The power supply may not exceed the specified limits
> Damage to or destruction of the sensor
scanCONTROL 27x0
Page 7

Avoid continuous exposure to dust and spray on the sensor by appropriate methods such as blowing or using a protective housing.
> Damage to or destruction of the sensor
Do not touch the protective windows of the optics with the fingers. Wipe off any fingerprints immediately with
pure alcohol and a clean cotton cloth with no streaks.
Protect the cable against damage.
>> Failure of the measuring device
Switch off the sensor always first before you connect or disconnect devices.
1.3
CE Compliance
The following applies to the scanCONTROL 27x0 sensor:
-- EU directive 2004/108/EC
-- EU directive 2011/65/EC, “RoHS“ category 9
Products which carry the CE mark satisfy the requirements of the quoted EU directives and the European
standards (EN) listed therein. The EC declaration of conformity is kept available according to EC regulation,
article 10 by the authorities responsible at
MICRO-EPSILON MESSTECHNIK GmbH & Co. KG
Königbacher Straße 15
94496 Ortenburg / Germany
The sensor is designed for use in industry and satisfies the requirements.
scanCONTROL 27x0
Page 8

1.4
Proper Use
-- The sensor is designed for use in industrial and laboratory areas.
-- It is used for
ƒƒ Profile measurement
ƒƒ Length measurement
ƒƒ Quality monitoring and inspection of dimensions
-- The system may only be operated within the limits specified in the technical data, see Chap. 3.2.
-- The system should only be used in such a way that in case of malfunction or failure personnel or machinery are not endangered.
-- Additional precautions for safety and damage prevention must be taken for safety-related applications.
1.5
Proper Environment
-- Protection class sensor:
IP 65 (applies only when connected output connectors respectively
protective caps)
-- Operating temperature:
0 to +50 °C (+32 to +122 °F)
-- Humidity:
5 - 95% (non condensing)
-- Ambient pressure:
atmospheric pressure
-- Vibration:
according to DIN EN 60068-2-6 (sine shaped)
-- Mechanical shock: according to DIN EN 60068-2-29 (continuous shock)
The protection class does not apply for the optical sections during operation as their soiling / contamination
results in adversely affecting or failure of the function.
Only use screened cables or original cables from the range of accessories for the connection to a power supply and for the outputs.
Note also the assembly and installation instructions, see Chap. 5.
The IP 65 protection class is a specification which is limited to the protection with respect to dust and water.
Oil, steam and emulsion penetration are not included in this protection class and must be tested separately.
scanCONTROL 27x0
Page 9

2.
Laser Safety
The scanCONTROL 27x0 sensors operate with a semiconductor laser having a wavelength of 658 nm (visible/red). The laser operation is indicated visually by the LED on the sensor.
When operating the scanCONTROL 27x0 sensors, the relevant regulations according to EN 60825-1
(IEC 60825, Part 1 of 11/2001) and the applicable accident prevention regulations must be followed.
The housing of the scanCONTROL 27x0 optical sensors must only be opened by authorized persons, see
Chap. 8. For repair and service, the sensors should always be returned to the manufacturer.
2.1
Laser Class 2M
scanCONTROL 27x0 sensors with a maximum laser power up to 10 mW, see Chap. 3.2, are classified in
Laser Class 2M (IIM).
Accordingly, the following applies:
With laser equipment of the Class 2M, the eye is not put in danger during random, short-term exposure to the
laser radiation, i.e. exposure duration up to 0.25 s.
Hazard to the eye via
laser radiation!
Consciously close
the eyes or turn away
if the laser radiation
impinges on the eye.
A direct glimpse into the beam can be dangerous if the eye-closure reflex is deliberately suppressed, e.g.
during adjustment. Direct viewing into the beam with optical aids, e.g. a magnifying glass, is dangerous.
Laser equipment of the Class 2M can be employed without further protective measures, when deliberate
viewing into the laser beam or into a beam reflected by mirrors is not longer than 0.25 s.
Since generally the presence of the eye-closure reflex should not be assumed, one should close the eyes or
immediately turn away if the laser radiation impinges on the eye.
The following information labels are fitted to the sensor housing (front and rear side):
IEC 60825-1: 2008-05
65W
2
IEC label
scanCONTROL 27x0
Only for USA
The laser labels for Germany are
already printed on. The labels for
the EU area and the USA are enclosed and must be fitted by the
user for the region applicable in
each case before the equipment
is put into operation.
Page 10

Lasers of Class 2M are not subject to notification and a laser protection officer is not required. Mark the laser
area recognizable and everlasting.
i
If both information labels are hidden in the installed state, the user must ensure that additional labels
are fitted at the point of installation.
scanCONTROL
IEC 60825-1: 2008-05
65W
2
Laser spot
Fig. 1 True reproduction of the sensor with its actual location of the warning label
2.2
Injury to the eye or the
skin via laser radiation!
Consciously close
the eyes or turn away
if the laser radiation
impinges on the eye or
the skin.
scanCONTROL 27x0
Laser Class 3B
scanCONTROL 27x0 sensors with a maximum laser power up to 20 mW, see Chap. 3.2, are classified in
Laser Class 3B (IIIB).
i
Sensors of laser class 3B (IIIB) need an external key switch to switch off the laser, see Chap. 5.2.5. Accordingly, the following applies: The available laser radiation is hazardous for the eyes and usually for
the skin also. Looking directly into the laser beam is hazardous for the eyes. Also reflections on shining
or mirroring surfaces can be hazardous to the eye. Hazards to the skin through the available laser radiaPage 11

tion are given by class 3B (IIIB) laser equipment if the values of the maximum permissible exposure are
exceeded.
If the sensor is on the laser output can be reduced to 10 mW with the software. Reducing the laser output to
1 mW is not possible. Reducing the laser output from 20 mW to 10 mW with a software affects not the laser
class!
The following information label should be fitted to the sensor housing (front and rear side):
Laser radiation
Avoid exposure to the beam
Class 3B Laser Product
IEC 60825-1: 2008-05
P50 mW; =658 nm
i
IEC label
Only for USA
The laser labels for Germany are
already printed on. The labels for
the EU area and the USA are enclosed and must be fitted by the
user for the region applicable in
each case before the equipment
is put into operation.
If both information labels are hidden in the installed state, the user must ensure that additional labels
are fitted at the point of installation.
Beam attenuator
Fig. 2 scanCONTROL
beam attenuator masks
aperture
scanCONTROL 27x0
Fig. 3 scanCONTROL
beam attenuator in
measuring position
Page 12

Laser products certified as Class 3B products (EN 60825-1) require a beam attenuator, see Fig. 2, see Fig. 3,
other then the key-operated control. The beam attenuator prevents access to all laser and collateral radiation.
To open or close the aperture please follow the steps below:
Unscrew the knurled screw,
Change the attenuator position and tighten the knurled screw.
The laser aperture must be open during measurement.
scanCONTROL
Laser radiation
Avoid exposure to the beam
Class 3B Laser Product
IEC 60825-1: 2008-05
P50 mW; =658 nm
Laser spot
Fig. 4 True reproduction of the sensor with its actual location of the warning label
The user is responsible that the accident prevention regulations are observed. Class 3B (IIIB) laser sensors
are notifiable and a laser protection officer is required either. Mark the laser area recognizable and everlasting. During operation the laser area has to be restricted and marked.
Observe the instructions described, see Chap. 5.2.5.
scanCONTROL 27x0
Page 13

3.
Functioning Principle, Technical Data
3.1
Brief Description
3.1.1
Measurement Principle
The scanCONTROL 27x0 sensor operates according to the principle of optical triangulation (light intersection
method):
-- A laser line is projected onto the target surface via a linear optical system.
-- The diffusely reflected light from the laser line is replicated on a sensor array by a high quality optical system and evaluated in two dimensions.
The laser line triangulation corresponds in principle to the triangulation of a laser point. In addition, during the
measurement a row of lines are simultaneously illuminated by the laser line. Apart from the distance information (Z-axis), the exact position of each point on the laser line (X-axis) is also acquired and output by the
system.
3.1.2
System Setup
The scanCONTROL 27x0 measuring system is a compact sensor with an integrated controller. All necessary
integral parts are combined in one housing.
3.1.3
Special Performance Features
-- scanCONTROL features speed and compact design with simultaneously high measurement accuracy. A
special line-scanning optical system ensures uniform exposure of the measuring field.
-- The sensor array is arranged in the sensor head according to the Scheimpflug condition which facilitates
uniform image focusing over the whole depth of the measurement range (Z-axis).
-- scanCONTROL works even without a PC in conjunction with saved configurations. The sensor runs the
profile measurement internally and calculates default measured values such as angle or edge position.
The measured values can be processed directly in a PLC via the digital inputs /outputs in connection with
the scanCONTROL Output Unit. Furthermore, a determination of internal limit value with subsequent output of the evaluation results (good / bad) is possible via the switching outputs. This series with integrated
profile evaluation is named scanCONTROL 2710.
scanCONTROL 27x0
Page 14

Receiver
Light
source
X-Axis
Target
Z-Axis
Measuring field
Fig. 5 Basic design
3.1.4
Advantages of the Used Sensor Array (Difference to Conventional Line Scanners)
-- A global shutter (high speed shutter) for the whole profile enables a high profile accuracy for fast applications.
-- The array enables the simultaneous exposure and reading of the previous image. Thus the exposure time
is longer at the same profile frequency. With it also dark objects can be measured with a high rate.
3.1.5
Further Features
-- The sensors are available in two versions: Connectors on the front or on the rear side.
-- External synchronization and triggering.
-- Serial interface (RS422) for communication with PLCs or PCs.
-- The automatic control of the exposure time enables consistent measurement results with changing surfaces. This function can be switched off on request.
-- Selectable Firewire (IEEE1394a) or Ethernet 100/1000 Mbit as fast standard connection to the PC.
scanCONTROL 27x0
Page 15

3.2
Technical Data
Model
LLT27x0-25
LLT27x0-100
Measuring range z-axis
25 mm
50 mm
100 mm
Start of measuring range
90 mm
175 mm
350 mm
End of measuring range
115 mm
225 mm
450 mm
Start of extended measuring range approx
85 mm
160 mm
300 mm
End of extended measuring range approx.
125 mm
260 mm
600 mm
Line length midrange, x-axis
25 mm
50 mm
100 mm
Linearity
1
± 0.2 % FSO (3 s)
Resolution x-axis
Profile frequency
640 points/profile
2700 / 2710
100 Hz
2750
4000 Hz
Light source
Semiconductor laser, approx. 658 nm, 20 ° aperture angle,
Laser class 2M: 10 mW, reduced 2-3 mW
Laser class 3B 2: 20 mW, reduced 10 mW
Cable length
Up to 10 m without hubs and full data rate,
up to 50 m with hubs and/or restrictions
Protection class
Operating temperature
Storage temperature
Vibration
Shock
scanCONTROL 27x0
LLT27x0-50
IP 64
0 °C to +50 °C (+32 °F to +122 °F)
-20 °C to 70 °C (-4 °F to +158 °F)
2 g / 20 ... 500 Hz
(acc. to DIN EN 60068-2-6, 10 cycles per axis)
15 g / 6 ms
(acc. to DIN EN 60068-2-29, 1000 cycles each axis)
Page 16

Model
LLT27x0-25
LLT27x0-50
LLT27x0-100
Output/Input
Selectable firewire or ethernet,
laser off (optional),
1x RS422 programmable (interface or synchronization or
encoder input)
State display
1x laser, 1x power/error/status
Supply
Weight
Galvanic isolation
11 ... 30 VDC, 500 mA
appr. 700 g
appr. 800 g
appr. 850 g
Only at RS422 and Ethernet,
no isolation of 24V-supply, internal circuit and FireWire bus.
If isolation necessary,
external 24V-DC-DC-converter required
FSO = Full scale output
1) Based on a MICRO-EPSILON Optronic standard target with metallic finished surfaces.
2) Sensors need an external key switch to switch off the laser to be classified in Laser Class 3B (IIIB), see
Chap. 5.2.5.
scanCONTROL 27x0
Page 17

3.3
laser on
LED Indicators
state
LED “laser on“
green: laser on
LED “state“:
two-color LED
(red / green)
green: measurement
green flashing: data transmission
red flashing: error code, see Chap. 11.
Note:
The “status” LED flashes green; long during active data transmission and short for controller accesses.
4.
Delivery
4.1
Standard Equipment
--------scanCONTROL 27x0
1 Sensor LLT2700 or LLT2710
1 Instruction manual
1 Sensor inspection log
1 Bag of accessories, containing:
ƒƒ 1 ODU male cable connector 6-pin (RS422), S31BQC-P06MFG0-6000,
ƒƒ 2 Protective caps for ODU socket (6 or 8-pin),
PC2700-4.5; Power cable 4.5 m long; 2-core, shielded, with mounted ODU round connector and free cable
ends PC2700(002)-4.5; Power cable 4.5 m long for external laser switching; 6-core, shielded, with mounted
ODU round connector and free cable ends for the sensor options 002...005 and 502...505.
1 Data carrier (CD-ROM) with drivers, demonstration programs and documents from
MICRO-EPSILON Messtechnik.
1 Data carrier (CD-ROM) with Configuration Tools (only scanCONTROL 2710)
Page 18

Check for completeness and transport damage immediately after unpacking.
Contact the supplier immediately in the case of damage or incompleteness.
4.2
Accessories
4.2.1
Recommended Accessories
-- Power supply PS2020, power supply for DIN rail mounting, input 230 VAC, output 24 VDC/2.5 A
4.2.2
Optional Accessories
-- Interface cable RS422, 4.5 m (SC2700-4.5 RS422), with mounted ODU round connector and 9-pin D-SUB
cable socket, fits converter from RS422 to USB from MICRO-EPSILON.
-- FireWire connection cable X m (SC2700-X FireWire), optional lengths: X = 1.8 m, 4.5 m, 10 m, 15 m, 20 m.
With mounted ODU round connector and 6-pin FireWire cable connector type A. Version compatible for
cable carriers and industrial robots also available.
-- Ethernet connection cable X m (SC2700-X/ET)
Optional lengths: X =2 m, 5 m, 10 m, 15 m, 20 m. With mounted ODU round connector and 8-pin Ethernet
cable connector RJ45. Version compatible for cable carriers also available.
4.3
Storage
Storage temperature: -20 to +70 °C (-4 to +158 °F)
Humidity: 5 - 95 % (non-condensing)
scanCONTROL 27x0
Page 19

5.
Mounting
5.1
Attachment and Mounting of the Sensor
The sensor can be mounted in two different ways:
1. with 3 threaded holes M4 on the front side or
2. with 3 threaded holes M4 on the side surfaces.
All threaded holes are 5 mm deep blind holes.
Refer to the dimension drawings for the mounting dimensions.
Pay attention to careful handling during mounting and operation.
> Damage to or destruction of the sensor
Pay attention to the depth of the blind holes during selection of the fixing screws
>> Damage to the thread due to screws resting on it.
The tightening torque must not be selected too high.
The laser beam should strike the target surface at right angles. Otherwise, inaccurate measurements cannot
be ruled out.
i
scanCONTROL 27x0
Attach the sensor only to the existing mounting holes / threaded holes on a flat surface. Clamps of any
kind are not permitted.
Page 20
optically
effective:
max. ø10
C
5.6±1
A
34
30
optically
effective:
max. ø18
34 5
29
10
69
68
0
ø 17.9
109.5
73.2
12
20.5
0

0
0
18
13
63
127
R1
0
117
B
106
84
64
0
55
4x thread M4 for protection shield mounting;
not for mounting the sensor
29
30
34 5
34
Three mounting holes
M4x5 on each layer A, B, C
73
12
ø5.5
73
63
84.4
0
18
13
5
0
53.3
R 20
ø8
Fig. 6 Dimensional drawing LLT2700-25 / LLT2710-25, dimensions in mm, not to scale
Every three mounting holes M4x5 on three levels A, B, C
scanCONTROL 27x0
Page 21
73
127
132 6
117
84 2
64
53
0
55
69
45
0
22.5

73
68
60
55
43
21
10
0
5 M4
de
ep
0
68
Ø8
A
69
63.5
34.5
69
34.5
68
C
5.5
0
73
55
60
10
0
20.5
B
Fig. 7 Dimensional drawing LLT2700-25 / LLT2710-25 / connectors on the rear side, dimensions in mm, not to
scale
Every three mounting holes M4x5 on three levels A, B, C
scanCONTROL 27x0
Page 22

13
13
0
0
81
65
20 5
0
34.5
extended
measuring range
22
sensor
field of view
85
90
115
125
85
90
Standard
measuring range
Extended
measuring range
102.5
115
125
23
25
27
extended measuring
range 29
12.4°
laser line
20°
Fig. 8 Measuring field assignment LLT2700-25 / LLT2710-25, dimensions in mm, not to scale
scanCONTROL 27x0
Page 23
optically
effective:
max. ø10
C
5.6 ±1
A
34
30
optically
effective:
max. ø18
10
69
68
0
1
34.5
29
ø 17.9
124.5
93.3
21
12
0

0
12
130
0
18
13
63
73
B
29
34.5
R10
121.2
99.2
77
0
5.5
4x thread M4 for protection shield mounting;
not for mounting the sensor
30
34
Three mounting holes M4x5
on each layer A, B, C
142
ø5 5
73
63
105
0
18
13
5
0
64.9
R 20
ø8
Fig. 9 Dimensional drawing LLT2700-50 / LLT2710-50 / LLT2750-50, dimensions in mm, not to scale
Every three mounting holes M4x5 on three levels A, B, C
scanCONTROL 27x0
Page 24
73
(4.13)
105
0
(2.55)
64.9
(2.71)
69
(1.77)
45
0
(.88)
22.5

0
5
(2.87)
(.19)
(.79)
R20
13
(.51)
18
43
(.71)
(1.69)
21
ø8 (.
(.83)
31)
63
(2.48)
R109)
73
(4.90)
(.83)
(3.67)
93.3
124.5
34
(2.72)
(1.34)
30
63.5
(2.5)
5.5
(.22)
(1.18)
C
optical effect:
max. ø10 (.39)
optical effect:
max. ø18 (.71)
69 (2.72)
68 (2.68)
(1.36)
142
A
69
34.5
(5.59)
130
77
(5.12)
(3.03)
(.22)
5.5
21
0
(.47)
(2.87)
73
(2.36)
60
(2.16)
55
(.39)
10
0
0
(.3
(2.87)
68 (2.68)
12
0
0
30
ø5.25)
(1.18)
(.2
34
0
4x M4 thread for mounting shield;
closed by plugs (not to attach the
sensor can be used)
(1.34)
B Three mounting holes M4x5
at the three levels A, B, C
Fig. 10 Dimensional drawing LLT2700-50 / LLT2710-50 / LLT2750-50 /connectors on the rear side, dimensions
in mm, not to scale
Every three mounting holes M4x5 on three levels A, B, C
scanCONTROL 27x0
Page 25
260
44
50
56
extended measuring range
64
225
175
175
200
160
160
102
85
sensor
field of view
Standard
measuring range
Extended
measuring range
34.5
laser line
20°
extended
measuring range
41
0
13

21
260
225
0
13
0
Fig. 11 Measuring field assignment LLT2700-50 / LLT2710-50 / LLT2750-50, dimensions in mm, not to scale
Every three mounting holes M4x5 on three levels A, B, C
scanCONTROL 27x0
Page 26
A
34
30
optically
effective:
max. ø10
C
optically
effective:
max. ø18
10
69
68
0
5.6±1
34.5
29
ø17 9
152.5
125.3
20.5
12
0

0
12
73
63
0
18
13
29
34.5
63
B
30
34
Three mounting holes M4x5
on each layer A, B, C
R 1 160
0
170
149 2
127 2
77
0
5.5
4x thread M4 for protection shield mounting;
not for mounting the sensor
73
ø5.5
137.4
0
18
13
5
0
82
R 20
ø8
Fig. 12 Dimensional drawing LLT2700-100 / LLT2710-100, dimensions in mm, not to scale
Every three mounting holes M4x5 on three levels A, B, C
scanCONTROL 27x0
Page 27
73
170
175.6
160
137
77
82
0
5.5
69
45
0
22.5

73
68
60
55
43
21
10
0
0
69
63.5
4 p
M ee
d
5
Ø8
68
A
34.5
69
34.47
68
C
5.5
0
20.5
73
55
60
0
10
B
Fig. 13 Dimensional drawing LLT2700-100 / LLT2710-100 / connectors on the rear side, dimensions in mm, not
to scale
Every three mounting holes M4x5 on three levels A, B, C
scanCONTROL 27x0
Page 28
scanCONTROL 27x0
600
450
350
Standard
measuring range
Extended
measuring range
sensor
field of view
134
300
13
0
extended measuring range 148
13.56°
112
88
100
extended
measuring range
76
laser line
20°
34.5
600
450
400
350
300
13
0

117
20.5
Fig. 14 Measuring field assignment LLT2700-100 / LLT2710-100, dimensions in mm, not to scale
Page 29
0

5.2
laser on
Connections
state
1394/ethernet
RS422
24 VDC
LLT27x0, rear side
1394/ethernet
24 VDC
RS422
LLT27x0, top side
Fig. 15 Output sockets arrangement
The sensors are available in two versions: Sockets on the top side or on the rear side.
scanCONTROL 27x0
Page 30

5.2.1
Power Supply
Connector “24 VDC“, see Fig. 15
Range: 11 ... 30 VDC (rated value 24 VDC); maximum current 500 mA
Cable shield is connected to connector case and should be connected using the protective earth connector
PE of the main power supply.
The power cable PC2700-4.5 is recommended.
The power supply is also possible using the FireWire connection cable, if the power supply needed is present
in the PC with sufficient current intensity.
When both voltages (1394 and power) are present, the higher voltage always takes over the supply of the
sensor.
Pin No. Assignment
Standard
Color PC2700;
old version in ( )
1
24 V+
2
Laser help
3
Laser on/off
4
Laser on/off
5
Laser help
6
GND
white
n.c.
n.c.
brown
Options 002, 003, 004,
005, 502, 503, 504, 505
Color PC2700(002)
(red)
24 V+
pink
n.c.
LH+
gray
n.c.
Laser off+
yellow
n.c.
Laser off-
green
n.c.
LH-
brown
(black or blue)
24 V GND
white
1
6
2
5
3
4
View on solder pin side,
male cable connector, counting direction
anticlockwise
Fig. 16 Pin assignment 6-pole power connector, “24 VDC“
External Laser Switching, see Chap. 5.2.5, too.
scanCONTROL 27x0
Page 31

5.2.2
RS422, Synchronization, Switching Signals
Connector “RS422“, see Fig. 15. The RS422 port can be used with either of the following configurations.
-- RS422: Programs can be loaded with a PC and measurement results transmitted via the RS422 interface.
However, the lower data rate allows only lower measuring rates than FireWire respectively Ethernet.
-- Synchronization / triggering: The RS422 port is used for synchronization and triggering using switch signals. All switching signals are potential-separated.
PIN No.
Assignment
1
RS422 General 9-pol. Sub-D 1
1
Rx+
Ch1+
2
2
Rx-
Ch1-
3
5
GND1
3
Tx+
Ch2+
9
4
Tx-
Ch2-
1
6
GND2
5
6
2
5
3
5
The PIN numbers refer to
the scanCONTROL 27x0
unit.
4
Micro-Epsilon recommends the use of the
interface cable
SC2700-4.5 RS422 from
the optional accessories.
View on solder pin side, male
cable connector, counting direction anticlockwise
Fig. 17 Pin assignment 6-pole RS422 connector
1) Optional RS422 interface cable (SC2700-4,5RS422) from Micro-Epsilon, compatible to the RS422 to USB
converter. The pins 4, 6, 7 and 8 are not connected.
All outputs or inputs are designed symmetrically and wired with 120 Ohm internal terminating resistors. The
signals must be operated symmetrically.
scanCONTROL 27x0
Page 32

Rx
Ch1+
Tx
1
120 Ohm
Changeover
Ch1-
Transmit / receive
GND1
Isolation
Rx
Tx
Pin RS422 connector
Ch2+
2
5
3
120 Ohm
Changeover
Transmit / receive
Ch2-
4
GND2
6
Fig. 18 RS422 internal circuitry (switching signals)
All switching signals are built in the same way. The programming specifies the assignment as inputs or outputs. The switching circuits used have internal potential isolation.
No potential isolation between 24 V supply ground and internal circuitry, see Fig. 18 (left side). A ground
connection (GND1 and GND2) is assigned to each channel. The ground connections are connected with
each other and must be connected with the ground connector of a synchronization/trigger source or a serial
device.
scanCONTROL 27x0
The channels Ch1 and Ch2 can be used for the following functions:
-- Serial interface RS422 in duplex or simplex mode (Rx and Tx).
-- Synchronization: Using the synchronization signals, several sensors can be synchronized with each other
or individual profiles (scans) can be triggered.
Page 33

-- Optional additional functions (trigger, encoder).
-- External wiring must be performed according to the RS422 standard. Primarily use RS422 driver circuits or
converters. Alternatively use devices with RS422 connectors, e.g. sensors, encoders or SPC‘s.
Channel settings
Interface function (operating mode)
Function Ch1
Function Ch2
Serial communication (RS422)
RX
TX
External synchronization
Sync In
Sync Out
Triggering
Trigger IN
Trigger OUT
1
1) Default settings
ƒƒ Use a shielded cable; connect the shield to the connector case.
ƒƒ Use a cable with twisted wires.
ƒƒ Use the recommended interface cable RS422.
Synchronizing several sensors with each other:
Connect the output Ch2+ (Pin 3) of sensor 1 with the correct polarity to the input Ch1+ (Pin 1) of sensor
2. Connect the output Ch2- (Pin 4) of sensor 1 with the correct polarity to the input Ch1- (Pin 2) of sensor 2.
Also connect both the GND1 pins (Pin 5) of the sensors to each other.
The cable connection must preferably be made using a shielded, twisted-wire cable whereby the cable shield is
connected to the connector cases. The sensor 1 as master then synchronizes sensor 2.
scanCONTROL 27x0
Page 34

5.2.3
FireWire Connection (1394)
The FireWire connection is the standard connection to the PC for sensors without option and sensors with the
options 001, 002, 003, 004 and 005, see Fig. 15 plug-in connection ”1394/ethernet”. The high data rate allows
the simultaneous operation of several scanCONTROL 27x0 on one IEEE1394 (FireWire) PC plug-in card.
The scanCONTROL 27x0 sensor can also be supplied with operating voltage from the PC on the 1394
connection socket. If its capacity is not sufficient, an appropriate voltage must be connected to the 24 VDC
socket, see Chap. 3.2.
We recommend the FireWire connection cable SC2700-4,5 FireWire from the optional accessories, see Chap.
4.2.2, for use with the FireWire connection.
Further information and links can also be found on the World Wide Web, e.g. at www.firewire-infos.de.
MICRO-EPSILON makes no guarantee for the contents and property rights of the named source.
Use the recommended FireWire connection cable.
Install the driver ([CD]:\\Documentation\english\Installation\index.html). Now connect the connection
cable to the PC. This sequence avoids problems.
A power supply via free cores in the FireWire connection cable is possible if these wires are connected in the
PC (Pin 1 to +8 … 30 V DC, typically 12 V DC; Pin 2 to ground on the FireWire connector).
scanCONTROL 27x0
Page 35

8-pin ODU connector
PIN No.
6-pin connector
Assignment
PIN No.
Assignment
1
GND_FireWire
2
GND_FireWire
2
TPA+
4
TPB+
3
TPA-
3
TPB-
4
Screen
2
GND_FireWire
Screen
2
GND_FireWire
8
+24V_FireWire
1
+24V_FireWire
Micro-Epsilon recommends using the
FireWire connection cable SC2700-4.5
FireWire from the recommended accessories.
3
2 1
8 7
6
4
5
1
7
2
TPA+
3
TPA-
6
4
5
5
TPBTPB+
6
5
6
The PIN numbers refer to the scanCONTROL 27x0 unit.
View on solder pin side, ODU
View on solder pin side, FireWire
5.2.4
Ethernet Connection
The Ethernet connection is the standard connection to the PC for sensors with the following options: 500,
501, 502, 503, 504 and 505, see Fig. 15 plug-in connection “1394/Ethernet”. The sensor supports the transmission at 100 Mbit/s and 1 GBit/s.
We recommend the Ethernet connection cable SC2700-5/ET or another length included in the optional
accessory, see Chap. 4.2.2, for the Ethernet connection.
For the power supply a corresponding voltage, see Chap. 3.2, has to be connected to the socket 24 VDC.
Due to a high data rate, we recommend using a high-quality Ethernet PC plug-in card, for example IntelPro/1000 PT. The sensors are to be preferably connected directly to the network connection or by means of a
high-quality switch. As a hub would result in a massive data collision it cannot be used. The PC should have
one or more network cards only for the sensors.
scanCONTROL 27x0
Page 36

The operation of the sensor via Ethernet does not require any driver installation. However, the network settings have to be done correctly:
-- If more network cards are used, they have to belong to different networks, for example different Class-Csub networks, however they may not belong to the same Class-B sub network.
-- The sensors are supported by an automatically, sensor-adapted IP address in the link-local-net
(169.254.x.x). No collision testing is effected. This is the standard setting, too.
-- The sensor supports the DHCP protocol. This setting is activated by default and has priority over the
retrieval in the link-local-net.
-- A fixed IP address can be given.
-- Various network settings can interfere the connection to the sensor (fo example Firewall or packet filter).
-- We recommend using a packet size of 1024 Bytes/packet (payload) which can be set in the demonstration
program or the sensor SDK.
RJ45 connector
8-pin. connector
PIN no.
Color stranded
hook-up wire
PIN no.
10BaseT,
100BaseTX
1000BaseT
1
2
3
4
5
6
7
8
white (orange)
orange
white (green)
blue
white (blue)
green
white (brown)
brown
5
6
8
1
2
7
3
4
Tx+
TxRx+
D1+
D1D2+
D3+
D3D2D4+
D4-
Rx-
The PIN numbers refer to the scanCONTROL 27x0 unit.
Micro-Epsilon recommends using
the ethernet connection cable
SC2700-5/ET from the optional accessories, see Chap. 4.2.2.
3
2 1
8 7
6
4
5
1
View: pin side male cable connector
scanCONTROL 27x0
View on solder pin side, ODU
Page 37

5.2.5
External Laser Switching
Series LLT2700-x(002), LLT2700-x(003), LLT2700-x(004), LLT2700-x(005), LLT2700-x(502), LLT2700-x(503),
LLT2700-x(504) and LLT2700-x(505) sensors offer this function.
1
Assignment options 002, 003, 004, 005, 502, 503, 504 and 505
Color PC2700(002)
24V+
pink
2
LH+
grey
3
Laser off+
yellow
4
Laser off-
green
5
LH-
brown
6
24V GND
white
PIN No.
1
6
2
5
3
4
View on solder pin side, male
cable connector, counting
direction anticlockwise
Fig. 19 Pin assignment 6-pole power connector, “24 VDC“
i
Sensors of laser class 3B (IIIB) need an external key switch to switch off the laser.
Use a serial key switch inside the control circuit to switch off the laser.
Type 1
Type 2
1
2
3
4
5
TTL o.
HTL
UOUT
Laser off:
U OUT < 0.8 V
Laser on:
2.8 V < U OUT < 31 V
3
4
Type 3
PNP
1
1
2
2
3
3
4
5
6
Type 4
NPN
24V +
typ. 4mA
LLT2700
LH+
max.
31 V
4
5
LH-
6
24V GND
Power connector “24 VDC”
Fig. 20 Options to power off the laser
scanCONTROL 27x0
Page 38

If the voltages between pin 3 and pin 4 are < 0.8 V, the laser is off.
The external laser switching is a hardware solution and has the highest priority. The laser can also be disabled by software.
5.3
Installation Instructions
-- The operating voltage can be supplied both from the FireWire (1394) connection socket of the PC as well
as via a separate power source. In the case of inadvertent double connection, the higher voltage prevails.
-- The operating voltage is protected against reverse polarity.
-- The operating voltage for the scanCONTROL 27x0 measuring device should come from a 24 V power supply which is only used for measuring equipment and not simultaneously for drives, contactors or similar
pulse interference sources.
-- Only use shielded cables for all connection cables. Connector and cable must be matched to each other
for hermetically sealed versions. Paired data cables with colored cores and copper shielding are recommended for self-made cables.
-- Connect the cable shields to the potential equalization on the evaluation unit (switch cabinet, PC case,
connector case) and avoid ground loops.
-- Lay all connection cables in accordance with the generally applicable measuring technology regulations,
i.e. for example not directly next to pulse-carrying lines, preferably in a separate cable duct.
-- The minimum bending radii of the recommended cables for flexible laying must not be less, see Fig. 21.
-- MICRO-EPSILON recommends the use of the optionally available power supply PS2020, DIN rail mounting, input 230 VAC, output 24 VDC/2.5 A.
scanCONTROL 27x0
Page 39

5.4
Recommended Connector and Cable Types
Female
Connector characteristics
connector
Connector type 1
(see standard equipment)
Cable
Bending radius
diameter 2
(min.)
1394
ODU MiniSnap, Series B, size 1, Connector mounted on the
hermetically sealed version
cable SC2700-4.5 FireWire
(IP 68), 8-pole, coding 0 (0 °)
6 mm
60 mm
24 VDC
ODU MiniSnap, Series B, size 1, S31BAC-P06MFG0-5000 or
hermetically sealed version
S31BAC-P06MFG0-6000
(IP 68), 6-pole, coding A (30 °),
solderable
4.8 mm or
5.4 mm
35 mm
RS422
ODU MiniSnap, Series B,
size 1, hermetically sealed version (IP 68), 6-pole, coding Q
(120 °), solderable
5.6 mm
40 mm
Ethernet
ODU MiniSnap, Series B, size 1, Connector mounted on the
cable SC2700-5/ET
hermetically sealed version
(IP 68), 8-pole, coding J (90 °),
solderable
7 mm
84 mm
S31BQC-P06MFG0-6000
Fig. 21 Recommended connector and cable types
1) Manufacturer: ODU Steckverbindungssysteme GmbH & Co. KG, D-84453 Mühldorf/Inn, www.odu.de
2) Applies for recommended cable, see Chap. 4.2.1.
i
Using the plug connector characteristics, see Fig. 21, other connector types (angled connectors or
cable parts) can also be ordered from the manufacturer.
Use connectors with chucks accordingly to the cable diameter.
scanCONTROL 27x0
Page 40

5.5
Mounting the Connectors
Mount the cylindrical connectors according to the manufacturer‘s instructions.
Further information you will find in the catalog of the manufacturer (www.odu.de >> “ODU MINI-SNAP“ >>
“Download“ >> “MINI-SNAP Series LKB“).
5.6
Getting Ready for Operation, Commissioning
Mount the sensor according to the installation instructions.
Connect the sensor to the FireWire or Ethernet cable.
Connect the sensor to downstream display or monitoring units and to the power supply if necessary.
The connectors for the operating voltage, switching signals, FireWire and Ethernet are fitted with push-pull
locking. Pull apart at the grip to release the connection.
Connect the shield of the power supply cable to the PE protective earth conductor of the main power
supply.
Close plug-in connections not needed with the supplied protective caps for ODU sockets, see Chap.
4.1.
Switch on the power supply.
The sensor must only be connected to the peripheral equipment when disconnected from the power supply,
i.e. only when the operating voltage is switched off.
scanCONTROL 27x0
Page 41

6.
Operation of the Sensor with a PC
6.1
Displays
After getting ready for operation, switch on the external direct current power supply (24 VDC).
The state LED indicates different error conditions by flashing. If several errors occur at the same time, it
indicates two of them alternately. Therefore the LED can continue to flash for some time after the rectification
of an error. If no flashing occurs for several seconds, no error has occurred.
i
6.2
The scanCONTROL 27x0 sensor needs a running-in time of typically 20 minutes for high precision measurements.
Operating and Demonstration Programs
A CD-ROM is provided for the operation of the sensor: As well as the installation instructions mentioned
above, the CD-ROM also contains various documentation and programs:
-- The demonstration program “DeveloperDemo.exe” in the directory [CD]:\Program\Developer Demo is
used for scanner parameterization and simple display of profile data. A screenshot of the standalone demonstration program can be seen, see Chap. 6.4.3.
-- The directory [CD]:\Development\SDK contains a sensor-specific DLL and descriptions and examples for
creating your own user programs with the C++ programming language. It can also be used with C, Delphi
or other programming languages. The associated descriptions for the DLL in German and in English can
be found in the same directory.
-- scanCONTROL Configuration Tools is used to analyze typical measurement tasks for scanCONTROL 27x0.
-- scanCONTROL 3D-View visualizes three dimensional point data, which are recorded with
scanCONTROL 27x0.
The measuring fields, see Chap. 6.4.1, are partially used in the demonstration programs.
scanCONTROL 27x0
Page 42

6.3
Installation and Requirements
The following minimum system specification is necessary for the operation of the scanCONTROL software
packages:
-- Windows XP SP2 (32 bit), Windows Vista (32 bit), Windows 7 (32 bit and 64 bit)
-- Pentium III ≥ 800 MHz
-- 512 MB RAM
-- Screen resolution: 1024x768
To be able to use the software the following steps must be followed:
1. Install the IEEE1394 respectively the Ethernet interface hardware, if not already installed.
2. Install the software according to the instructions on the CD.
3. Connect and license the ICONNECT USB dongle if present.
4. Connect the scanCONTROL measuring system to the computer via IEEE1394 respectively Ethernet.
5. Install the driver for the scanCONTROL measuring system (only necessary for IEEE1394, refer to the instructions on the supplied CD).
6.3.1
Connecting scanCONTROL to the PC (Ethernet)
In order to connect scanCONTROL via Ethernet to the PC, proceed as follows:
Finish the installation of the scanCONTROL software packages completely.
Connect scanCONTROL via the Ethernet interface to the PC and switch on the power supply.
Please wait until the device is recognized by the PC. This may take a few seconds.
The system is now ready to operate the scanCONTROL measurement system with the scanCONTROL
software packages.
i
scanCONTROL 27x0
Connect scanCONTROL directly with the PC. Do not use hubs or switches.
Page 43

6.3.2
Connecting scanCONTROL to the PC (IEEE1394)
In order to connect scanCONTROL via IEEE1394 to the PC, proceed as follows:
Finish the installation of the scanCONTROL software packages completely.
Connect scanCONTROL via the IEEE1394 interface to the PC and switch on the power supply.
Install the driver for scanCONTROL (refer to the instructions on the supplied CD).
The system is now ready to operate the scanCONTROL measurement system with the scanCONTROL
software packages.
i
You need administrator rights in order to install the driver for the scanCONTROL measurement system.
6.4
Instructions for Operating
6.4.1
Measuring Field Selection
The optical design of the sensor satisfies the so-called “Scheimpflug condition” which ensures optimum
mapping over the complete measuring range. In doing so, the measuring range is mapped on a rectangular matrix. The distortions resulting from this are shown, see Fig. 22. The usable measuring range is always
trapezoidal.
The assigned maximum x-values for the z-coordinates can be found, see Fig. 8, see Fig. 11, see Fig. 14.
Please refer to the sensor acceptance report of your sensor. A slight range shifting of a measuring field is
possible and depends on the sensor.
The top edge corresponds to the start of the measuring range and the bottom edge to the end of the measuring range. The corners of the read image field are on a grid with grid spacing of 1/8 of the matrix. An image
field change is only possible in this raster.
The sensor matrix used in the scanCONTROL 27x0 supports the reading of a restricted measuring field. The
following picture shows the predefined view areas and the associated measuring fields.
scanCONTROL 27x0
Page 44

Fig. 22 Supported measuring fields
scanCONTROL 27x0
Page 45

The measuring field can be restricted by omitting complete matrix areas in order to suppress interfering image ranges.
No correlation of the measuring field size to the speed of the reading process can be made.
The following measuring fields are used in the demonstration program, see Chap. 6.2.
Name
Index
Large
0
Standard
2
Small
7
Fig. 23 Measuring fields used
Measuring field and measuring range must be clearly differentiated in practical use. The measuring field is
related to the matrix and the measuring range is related to the measuring object (the object space).
Both do not have to match on account of the optical mapping and the definitions.
i
The measuring field “Standard” is larger than the measuring range “Standard”. The minimum dimensions can be found, see Fig. 8, see Fig. 11, see Fig. 14.
The scanCONTROL 27x0 sensors are distinguished by
-- a laser line with 20° opening angle.
-- the receiver has a smaller opening angle (view angle) than the laser line.
-- centered measuring field (symmetrical to the center axis).
-- the high resolution sensor image matrix has 640 x 480 pixels. The measuring field geometry is fixed.
-- reference for the distance (Z-axis) is the lowest body edge of the sensor, see Fig. 8, see Fig. 11, see Fig.
14.
-- Use of the DCAM standard 1.3, however with rededication of the parameters:
ƒƒ camera parameter in triangulation parameters
ƒƒ image in profile
Further information for this can be found in the file “OpManPartB.html” on the CD-ROM.
-- Standard digital video camera driver according to DCAM 1.30 from different manufacturers can be used.
scanCONTROL 27x0
Page 46

6.4.2
Calibration
The calibration of the sensor is performed using the complete matrix and is independent from the selected
measuring field.
The trapeze form of the measuring field is produced from the projection onto the sensor matrix. The standard
measuring range is framed in the center.
A sensor acceptance report is enclosed for each sensor. Three diagrams for the linearity measurement which
are briefly explained in the report are included in the sensor acceptance report. The key diagram in the sensor acceptance report is shown again below, see Fig. 24.
Points with a deviation >0.05 mm
80
Extended measuring range
Distance z [mm]
90
Standard measuring range
100
Midrange
110
120
130
-20
-10
0
10
20
Position x [mm]
Fig. 24 Linearity deviation of an LLT2700-25
The black points show the places where the measurement error exceeds the linearity limit of 0.05 mm.
scanCONTROL 27x0
The picture on the top left and bottom right in the acceptance report show sections through the picture, see
Fig. 24 (blue lines).
Page 47

All measuring points in the center of the measuring range (vertical section where x=0) and bottom right of the
horizontal section, also in the (vertical) center of the measuring range (midrange) are shown on the top left of
the acceptance report.
The measurement error increases at both ends of the depth range and particularly in the remote corners.
These areas should therefore be avoided for the measurement.
6.4.3
Automatic Exposure Time Regulation
The automatic exposure time regulation facilitates the recording of the profile with optimum exposure time
(shutter time). The available brightness information for each point of the profile is used for this.
The “shutter time” preset by the user is used as the starting value for the automatic exposure time regulation.
It should be selected so large that still valid measured values can be output at the darkest place of the profile. One of the supplied demonstration programs can be used for determining this. The automatic exposure
time regulation can also be deactivated if required.
If there is no object in the measuring range, the “shutter time” stored in the shutter register of the sensor will
be used as exposure time. This value must also guarantee reliable recognition of the darkest measurement
object.
A previous test is recommended if the target is very dark or has very high contrast. The various demonstration programs are suitable for adjusting and testing the exposure time. In doing so, it is by all means sensible
to work with several different exposure times and to observe the effect in the diagrams.
The current exposure time can be calculated from the timestamps of the measured values. It is displayed as
“Shutter time”, see Fig. 25.
scanCONTROL 27x0
Page 48

“Shutter time” preset by the
user: 0.10 ms
Automatic shutter time is
active
Result: Sensor operates
with a shutter time of
0.16 ms
Fig. 25 Screenshot of the developer demonstration program with automatic shutter
scanCONTROL 27x0
Page 49

6.5
Error Influences
6.5.1
Reflection Factor of the Target Surface
The sensor basically evaluates the diffuse portion of the laser line reflections. Any statement about a minimum reflection factor is only possible with reservations. A preliminary examination is necessary for using the
sensor on transparent or reflecting objects.
The method of direct reflection on reflecting surfaces as it is successfully applied for the point triangulation
cannot be used for the line triangulation on account of the fan-shaped form of the laser line (central projection). Here, the receiving lens would only be able to reach a narrow area near the center. As usually curved
surfaces should also be measured for the profile measurement, this range will be further narrowed.
6.5.2
Color Differences
Color differences of measurement objects have effects. However, these color differences are often also combined with different penetration depths of the laser light into the material. Different penetration depths in turn
result in apparent changes of the line thickness. Therefore, color changes, combined with penetration depth
changes, can result in inaccurate measurements.
As the exposure parameters can only be changed as a whole for one profile, careful matching of the exposure to the target surface is recommended.
6.5.3
Temperature Influences
A running-in time of at least 20 minutes during start-up is required in order to achieve a uniform temperature
spread in the sensor.
If measurements with accuracy in the μm range are made, the effect of temperature fluctuations on the
mounting must also be observed by the user.
Due to the damping effect of the thermal capacity of the sensor, fast temperature changes are only measured
after a delay.
scanCONTROL 27x0
Page 50

6.5.4
External Light
An interference filter in the sensor is present for suppression of external light. In general, the shielding of
external light directly emitted on the target or reflected in the sensor must be ensured using protective covers
or similar.
Pay particular attention to unwanted reflections of the laser line outside the measuring object range (background, object holder or similar) which can be reflected back again into the view area of the receiver.
Matt black surface coatings are recommended for all objects outside the measuring range (object holders,
transport apparatus, grippers or similar).
6.5.5
Mechanical Vibrations
If high resolutions in the μm range should be achieved with the sensor, particular attention must be paid to
stable or vibration-damped sensor and measuring object mounting.
6.5.6
Surface Roughness
Surface roughness of 5 μm and more results in „surface noises“ due to interference of the laser light.
Direct reflections of the laser light to the receiver can also occur at the finest grooves (e.g. abrasion marks
on the surface) particularly if these run in the line direction. This can result in inaccurate measured values.
Prevention of this effect might be possible by adjusting several sensor settings e.g. exposure time, filter.
scanCONTROL 27x0
Page 51

6.5.7
Shadowing Effects
-- Receiver: The laser line can disappear completely or partially behind steep edges. The receiver then does
not „see“ these areas.
-- Laser line: The fan-shaped form of the laser line inevitably results in partial shadowing at vertical edges. In
order to make these areas visible, only changing the sensor or object position helps.
As a general rule, measuring objects with steep edges cannot be one hundred percent measured using laser
triangulation. The missing areas can only be supplemented or interpolated using suitable software.
Shadowing of the
receiver
Shadowing of the
laser line
Fig. 26 Shadowings
scanCONTROL 27x0
Page 52

6.6
Cleaning
A periodically cleaning of the protective housings is recommended.
Dry cleaning
This requires a suitable optical antistatic brush or blow off the panels with dehumidified, clean and oil free
compressed air.
Wet cleaning
Use a clean, soft, lint-free cloth or lens cleaning paper and pure alcohol (isopropanol) for cleaning the protective housing.
Do not use commercial glass cleaner or other cleansing agents.
scanCONTROL 27x0
Page 53

7.
scanCONTROL Output Unit
The measurement system scanCONTROL 2710 measures and evaluates profile data of a measurement target
and supplies analog and digital control signals. scanCONTROL Output Unit
-- outputs digital and analog signals,
-- is based on the WAGO®-I/O-System 750
-- uses IEEE1394 or Ethernet.
Setup and operation of scanCONTROL Output Unit are exemplarily described below.
7.1
scanCONTROL Output Unit - Components
-- Output Unit Basic consisting of
ƒƒ IEEE 1394 Fieldbus Coupler with System Supply Unit (OU-Fieldbus Coupler/IEEE1394) or Ethernet
Fieldbus Coupler with System Supply (OU-Fieldbus Coupler/Ethernet)
ƒƒ 24V DC Power Supply Filter (OU-Filter module) and End Module (OU-Bus-termination module)
-- Digital output module
-- Analog output module
75 0 -3 3 9
IEEE 1394
PHY
ISO
13
01 02
A
14
A
C
B
C
B
D
ASYN
24V 0V
D
+
Ñ
I/O
01 02 03 04
-
+ +
+
+
-
-
-
PE PE
+
-
Status
voltage supply
Status
- Power jumper
DO 1
contacts
- System
DO 7
Data contacts
System supply (out)
24 V
DO 1
0V
Supply via power
jumper contacts
24 V
OU-Fieldbus Coupler
scanCONTROL 27x0
Status
DO 2
DO 8
A1 A2
13 14
Function
Error
Data contacts
DO 2
System supply (in)
24 V
0V
0V
A3 A4
D0 6
Power jumper contacts
OU-Filter module
AO 4
AO 3
M
DO 8
750 536
D
Data
contacts
AO 2
0V
A7 A8
DO 7
B
D
M M
D0 4
DO 5
C
C
AO 1
A3 A4
DO 3
A
A
B
A1 A2
A5 A6
0V
750 626
13 14
0V
Power jumper contacts
Digital output module
M
750 555
0V
Power
jumper
contacts
Analog output module
750 600
Bustermination
Fig. 27 Example configuration IEEE 1394 (Firewire) with an analog output module and a digital output
Page 54
module
8
1
ON
ON
1 2 3 4 5 6 7 8

13 14
ETHERNET
L NK 1
ACT
L NK
ACT 2
MS
A
C
B
D
+
Ñ
NS
0 WBM
255 DHCP
I/O
24V
X3
0V
+
7 5 0 -3 5 2
+
-
-
X
1
+ X
2
750 626
OU Fieldbus Coupler
Status voltage supply
- Power jumper contacts
- System
Data contacts
System supply (OUT)
24 V
0V
Status
DO 1
DO 7
Status
DO 2
DO 8
13 14
Function
Error
Data contacts
DO 2
0V
DO 5
C
B
D
D
Data contacts
AO 2
M M
D0 4
0V
0V
A3 A4
D0 6
AO 4
AO 3
A7 A8
M
DO 8
750 536
A
C
AO 1
A5 A6
DO 7
A
B
A1 A2
A3 A4
DO 3
OU-Filter module
A1 A2
DO 1
Supply via power
jumper contacts
24V
System supply (In)
24 V
0V
Power jumper contacts
13 14
0V
Power jumper contacts
Digital output module
M
0V
750 555
Power jumper
contacts
Analog output module
750 600
Bus termination
Fig. 28 Example configuration Ethernet with an analog output module and a digital output module
The components of a scanCONTROL Output Unit have to be mounted on a top hat rail (TS35) in the described order. Without using a top hat rail a robust installation cannot be guaranteed. Ensure that each module is locked securely on the top hat rail. The bus has to be terminated with the bus termination, see Fig. 27.
Each module of scanCONTROL Output Unit is described, see Chap. 7.4. Further informations can be found
in the data sheet and manual of the respective module in the supplied scanCONTROL Demo-CD.
scanCONTROL 27x0
Page 55

7.2
Connect the Supply Voltage
L1
L2
L3
N
PE
75 0 -3 3 9
IEEE 1394
PHY
ISO
ASYN
C
B
D
24V 0V
I/O
01 02 03 04
13
01 02
A
14
A
C
B
D
+
OU-Filter module
Ñ
+ +
+
+
- -
-
-
PE PE
+
-
Digital output modules need a field
supply of 5 VDC or 24
VDC depending on
the module type.
750 626
OU-Fieldbus Coupler
230 V
System supply
24 V
230 V
24 V
scanCONTROL 27x0
Field supply
Fig. 29 Separated
power units for system
and field supply IEEE
1394 (Firewire)
Page 56
L1
L2
L3
N
PE
8
1
ON
ON
1 2 3 4 5 6 7 8

13 14
ETHERNET
A
C
B
MS
D
+
Ñ
+
+
-
-
OU-Filter module
NS
0: WBM
255: DHCP
I/O
7 5 0 -3 5 2
24V
X3
0V
LINK 1
ACT
LINK 2
ACT
X
1
Digital output modules need a field
supply of 5 VDC or 24
VDC depending on
the module type.
+ X
2
50 626
OU Fieldbus Coupler
230 V
System supply
24 V
230 V
24 V
Field supply
Fig. 30 Separated
power units for system
and field supply (Ethernet)
After mounting of the modules, the required wiring has to be installed:
Connect the “System supply (out)“ terminals of the OU-Filter module to the “System supply (in)“ terminals of the OU-Fieldbus Coupler (0 V and 24 V, see Fig. 29, see Fig. 30).
Connect the system supply (in) of the OU-Filter module to the power supply (0 V and 24 V, see Fig. 29,
see Fig. 30).
scanCONTROL 27x0
i
Connect the field supply (in) of the OU-Filter module to the power supply (0 V and 5 V/24 V, see Fig. 29,
see Fig. 30).
The system supply and field supply should be separated to ensure the bus operation and electrical
isolation in case of a short-circuit of an actor.
Page 57

7.3
Commissioning scanCONTROL Output Unit
After having installed the required wiring of the modules of scanCONTROL Output Unit, you have to parameterize the measurement system according to your measurement task to get the desired signals at the digital
and analog output ports.
Connect the sensor to the PC using the enclosed FireWire or Ethernet cable.
Alternatively, scanCONTROL Output Unit can be connected simultaneously to the PC and to the sensor.
Parameterize the measurement system using scanCONTROL Configuration Tools and assign the desired
signals to the digital and analog output ports.
When the parameterization is finished, save the settings to a user mode of the sensor.
scanCONTROL Configuration Tools > Menu > Parameters > Save parameters to scanCONTROL..
Refer to scanCONTROL Configuration Tools manual, Chapter 3.14.4.
Exit scanCONTROL Configuration Tools and disconnect scanCONTROL 2710, PC and if necessary
scanCONTROL Output Unit.
Connect the sensor to the scanCONTROL Output Unit by using the enclosed FireWire or Ethernet cable.
scanCONTROL 2710 and the output unit operate now as an independent measurement system and the
digital and analog signals are output via the assigned ports.
i
scanCONTROL 27x0
Depending on your system configuration it is possible that scanCONTROL Configuration Tools freezes
if scanCONTROL 2710 and scanCONTROL Output Unit are simultaneously connected to the FireWire
bus. In this case, please exit scanCONTROL Configuration Tools and disconnect the sensor and the
output unit from the FireWire bus. Afterwards you should only connect scanCONTROL 2710 to the PC
and parameterize it. After having saved the parameters to a user mode, please exit scanCONTROL Configuration Tools, disconnect the sensor from the PC and connect it to scanCONTROL Output Unit via
FireWire. Now the digital and analog signals are output via the assigned ports.
Page 58

7.4
Specification of the Components
7.4.1
Output Unit Basic (IEEE 1394 Firewire)
Micro-Epsilon order No. 6414054
Consists of
-- OU-Fieldbus Coupler/IEEE1394
-- OU-Filter module
-- OU-Bus termination module
-- Interfaces: 3x IEEE 1394-Firewire to connect scanCONTROL 2710
sensors.
-- Indicators (Status-LED’s, for detailed description refer to the manual
of the IEEE 1394 Fieldbus Coupler)
-- The System Supply Unit is already mounted to the IEEE 1394
Fieldbus Coupler.
Fig. 31 OU-Fieldbus Coupler/IEEE1394 (Firewire) with supply module
System data
Number of I/O modules
Max. length of Fieldbus segment
Topology
Baud rate
scanCONTROL 27x0
63
72 m/ bus segment (17 nodes) 4.5 m between two nodes
tree
100 MBaud, 200 MBaud, 400 MBaud
Page 59

Technical Data
No. of I/O modules
with bus extension
Voltage supply
Input current
Internal current consumption
Total current for I/O modules
Voltage via power jumper contacts
Current via power jumper contacts
64
255
DC 24 V (-15 % / +20 %)
max. 500 mA at 24 V
380 mA at 5 V
1620 mA at 5 V
DC 24 V (-15 % / +20 %)
max. DC 10 A
Fig. 32 Technical data Fieldbus Coupler/IEEE1394 (Firewire)
7.4.2
Output Unit Basic (Ethernet)
Micro-Epsilon order No. 6414073
Consists of
-- OU-Fieldbus Coupler/Ethernet
-- OU Filter module
-- OU-Bus termination module
-- Interfaces: 2x Ethernet to connect scanCONTROL 2710 sensors.
-- Indicators (Status-LED’s, for detailed description refer to the manual
of the Ethernet Fieldbus Coupler)
-- The System Supply is already mounted to the Ethernet Fieldbus
Coupler.
scanCONTROL 27x0
Fig. 33 OU-Fieldbus Coupler/Ethernet with power supply module
Page 60

System data
Max. number of bus sharing unit
Max. length of fieldbus segment
Baud rate
Technical data
No. of I/O modules
with bus extension
Voltage supply
Max. input current
Internal current consumption
Total current for I/O modules
Voltage drop at I max.
Limited by Ethernet specification
100 m
10/100 Mbit/s
64
250
DC 24 V (-25 % ... +30 %)
280 mA at 24 V
450 mA at 5 V
700 mA at 5 V
< 1 V at 64 I/O modules
Fig. 34 Technical data Fieldbus Coupler/Ethernet
7.4.3
Supported Modules
-- 8-Channel digital output module; DC 24 V; 0.5 A; high-side switching; 8 actors; short-circuit-proofed;
Micro-Epsilon order no. 0325115, see Chap. 7.4.4; power supply through power jumper contacts
-- 8-Channel digital output module; DC 24 V; 0.5 A; low-side switching; 8 actors; short-circuit-proofed; MicroEpsilon order no. 0325131; power supply through power jumper contacts
-- 4-Channel analog output module; 0 - 10 V; Micro-Epsilon order no. 0325135, see Chap. 7.4.5
-- 4-Channel analog output module; ±10 V; Micro-Epsilon order no. 0325116
-- 4-Channel analog output module; 0 – 20 mA; Micro-Epsilon order no. 0325132
-- 4-Channel analog output module; 4 – 20 mA; Micro-Epsilon order no. 0325133
scanCONTROL 27x0
Page 61

7.4.4
OU-DigitalOut/8-Channel/DC24 V/0.5 A/High-side Switching/8 Actuators
-- Micro-Epsilon order No. 0325115
-- The 8-channel digital output module DC 24 V 0.5 A is short-circuitproofed, high-side switching, for TS35, CAGE CLAMP®-Connection
(8 actuators)
-- The field level is galvanically isolated to the system level
-- The indicators (Status LED’s) additionally show the status of the
digital output ports (IO/NIO),
for detailed description refer to the manual of the 8-channel digital
output module DC 24 V 0.5 A, 8 actuators, high-side switching
-- For each digital port actuators can be directly wired
via DO 1/2/3/4/5/6/7/8.
-- scanCONTROl 2710 supports eight digital outputs
Fig. 35 8-Channel digital out module
Number of outputs
Current consumption (internal)
Voltage via power jumper contacts
Type of load
8
25 mA
DC 24 V (-25 % / + 30 %)
resistive, inductive, lamps
Switching rate max.
2 kHz
Output current
0.5 A short-circuit-proofed
Energy dissipation W max.
(unique switching off)
0.9 J
L max. = 2 W max. /I²
Current consumption typ. (field side)
15 mA (per module) + load
Fig. 36 Technical data of the digital output module
scanCONTROL 27x0
Page 62

7.4.5
OU-AnalogOut/4-Channel/0-10 V
-- Micro-Epsilon order No. 0325135
-- 4-channel analog output module DC 0-10 V
-- Indicators (Status-LED’s, for detailed description refer to the manual
of the 4-channel Analog Output Module DC 0-10 V)
-- The voltage range of the module is restricted to 0-10 V and can not
be extended by changing the appropriate setting in scanCONTROL
Configuration Tools.
-- The output signal is output galvanically isolated to the system level.
-- The resolution of this module is limited to 12 bit.
-- scanCONTROL 2710 supports four analog outputs
Fig. 37 2-channel analog out module
Number of outputs
Voltage supply
Signal voltage
Load impedance
Resolution
Conversion time
Output filter settle time
Measurement error at 25 °C
Temperature coefficient
4
via system voltage DC/DC
0 ... 10 V
> 5 kΩ
12 Bit
typ. 10 ms
typ. 100 µs
<± 0.1 % of full scale output
<± 0.01 %/°K of the full scale value
Fig. 38 Technical data of the analog output module
scanCONTROL 27x0
Page 63

8.
Warranty
All components of the device have been checked and tested for perfect function in the factory. In the unlikely
event that errors should occur despite our thorough quality control, this should be reported immediately to
MICRO-EPSILON. The warranty period lasts 12 months following the day of shipment. Defective parts, except
wear parts, will be repaired or replaced free of charge within this period if you return the device free of cost to
MICRO-EPSILON.
This warranty does not apply to damage resulting from abuse of the equipment and devices, from forceful
handling or installation of the devices or from repair or modifications performed by third parties. No other
claims, except as warranted, are accepted. The terms of the purchasing contract apply in full.
MICRO-EPSILON will specifically not be responsible for eventual consequential damages.
MICRO-EPSILON always strives to supply the customers with the finest and most advanced equipment. Development and refinement is therefore performed continuously and the right to design changes without prior
notice is accordingly reserved.
For translations in other languages, the data and statements in the German language operation manual are
to be taken as authoritative.
9.
Service, Repair
In the case of a defect on the scanCONTROL 27x0:
-- If possible, save the current sensor settings in a parameter
set, see Configuration Tools, menu / parameters / Save
parameters to scanCONTROL, in order to load the settings
back again into the sensor after the repair.
-- Please send us the effected parts for repair or exchange.
In the case of faults the cause of which is not clearly identifiable, the whole measuring system must be sent back to:
10.
MICRO-EPSILON Optronic GmbH
Lessingstraße 14
01465 Dresden - Langebrück / Germany
Tel. +49 (0) 35201 / 729-0
Fax +49 (0) 35201 / 729-90
mail to: [email protected]
http://www.micro-epsilon.com
Decommissioning, Disposal
Disconnect all cables between the sensor and the following control or evaluation units.
Do the disposal according to the legal regulations (see directive 2002/96/EC).
scanCONTROL 27x0
Page 64

11.
Error Codes
— LED „error“ lights for long time, • LED „error“ lights briefly
Flashing sequence
Cause
Remedy
Notes
Group: Loading / saving configuration
..
2x short
Mode not found
Select different one
only previously stored
modes can be called up
..2x short, 1x long
Write error flash
Contact manufacturer, return
sensor
should not occur in
normal operation
…
3x short
Flash full
none, contact manufacturer
should not occur in
normal operation
….
4x short
Loading suppressed due Stop active data transmission
to active data transmission
-2x long
Data overflow in the
sensor
Data can be impaired;
Select smaller measuring
field, reduce profile frequency, exposure time can be
select less complex measuring longer than expected
program
--.
2x long, 1x short
Data overflow during
receipt of the data from
the sensor
Data can be impaired
Select smaller measuring
field, reduce profile frequency,
select less complex measuring
program
--..
2x long, 2x short
Data overflow for serial
port RS422
Reduce profile frequency,
Data can be impaired
select less complex measuring
program
prevents PC software
crashes; however,
mode number will continue to be counted
Group: Data processing and transmission
scanCONTROL 27x0
Page 65

Flashing sequence
Cause
Remedy
Notes
Group: Data processing and transmission
--…
2x long, 3x short
Data overflow during
transmission of the data
via FireWire
Reduce profile frequency,
increase packet size
Data can be impaired
--…..
2x long, 5x short
Error during calculation
Reduce profile frequency, select faster calculation mode
Data can be impaired
--……
2x long, 6x short
Error during FireWire
transmission
Reduce profile frequency,
increase packet size
Data can be impaired
Group: Output Unit
--3x long
scanCONTROL Output
Unit not found
Connect the sensor with the
scanCONTROL Output Unit
---.
3x long, 1x short
Connected modules of
scanCONTROL Output
Unit are not supported
Use the supported modules
only, see Chap.7.4.2
---..
3x long, 2x short
Communication error
(scanCONTROL Output
Unit)
Reduce profile frequency
---...
3x long, 3x short
Output overflow (scanCONTROL Output Unit)
Reduce profile frequency
-----
-----
Group: Ethernet interface
---4x long
IP address conflict
Check the Ethernet configuration of device and the host PC
Choose another IP address for
the device
If the problem persists,
please contact the
manufacturer
The “status“ LED flashes green; long during active data transmission and short for controller accesses. A
controller access can cause various data overflows particularly if the measuring frequency is near its maximum.
scanCONTROL 27x0
Page 66
MICRO-EPSILON MESSTECHNIK GmbH & Co. KG
Königbacher Str. 15 · 94496 Ortenburg / Germany
Tel. +49 (0) 8542 / 168-0 · Fax +49 (0) 8542 / 168-90
[email protected] · www.micro-epsilon.com
X9751182-A111115HDR
MICRO-EPSILON MESSTECHNIK
*X9751182-A11*