SICK TiM310-1030000S01 Operating instructions

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1TIM310-1030000S01 | SICK8014882/YK97/2015-04-27 • Irrtümer und Änderungen vorbehaltenSICK AGWaldkirchGermanywww.sick.com
TiM310-
1030000S01
Indended use
The laser scanner TiM310-1030000S01, referred to as
TiM3xx in the following, is a contact-free measurement sensor
in stand-alone operation. It measures radial distances within
a at surface (circle segment) depending on reectivity. The
TiM3xx displays the measured values of the recorded environ-
ment contour of its eld of view of 270° on the USB interface
for further processing as either an one-off or continuously on
request. This requires a corresponding driver to be created
by the user. The device is designed for portable or stationary
use indoors in standalone operation, with a scanning range
of up to 4 m.
In addition, the TiM3xx provides two congurable evaluation
elds for the invisible detection of objects in areas to be
monitored. The evaluation elds are source-oriented as a pair
and thereby partially overlap. The have a common geometric
shape but are always different sizes. The shape can be freely
dened. The TiM3xx signals detected infringements of the
eld by a combination of two switching outputs.
The purpose of these operating instructions is to allow you
to put the TiM3xx into operation quickly and easily and to
achieve the rst measured value outputs and the rst detec-
tion results.
Further information on the mechanical and electrical installa-
tion as well as on the measured value outputs are available in
the & Technical Information (no. 8014884). This can be ac-
cessed on the TiM3xx product site on the web (www.mysick.
com/en/tim3xx).
The TiM3xx is certied to IEC/EN/UL/CSA 61010-1:2007.
These operating instructions may contain passages of text in
a foreign language.
Safety information
Read these instructions before commissioning the TiM3xx
in order to familiarize yourself with the device and its
functions.
The TiM3xx corresponds to laser class 1 ( see “Laser
radiation!, on Page 4”).
Mounting and electrical installation are to be performed
only by qualied technicians.
Electrical connections between the TiM3xx and other
devices may only be connected or disconnected when the
system is not live. Otherwise the devices may be damaged.
All connecting cables on the TiM3xx may not exceed a
length of 3 m in order to ensure that it conforms with the
CE.
Conducting cross sections of the supply cable from the
customer's power system should be designed in accor-
dance with the applicable standards. Secure the TiM3xx
with an external 0.8 A slow-blow fuse at the start of the
supply cable, from the perspective of the supply voltage
unit.
All circuits connected to the TiM3xx must be designed as
SELV or as PELV circuits. (SELV = Safety Extra Low Voltage/
PELV = Protective Extra Low Voltage).
Only use the device in permitted environmental conditions
(e.g. temperature, grounding potential, see “Technical
specications, on Page 4”).
The TiM3xx must not come into contact with moisture and
dust when the cover of the USB is open or the USB cable is
connected. In this status, the TiM3xx does not correspond
to any specied IP protection class.
Opening the screws of the TiM3xx housing will invalidate
any warranty claims against SICK AG.
The TiM3xx does not constitute personal protection equip-
ment in accordance with the respective applicable safety
standards for machines.
Commissioning and conguration
Step 1: Electrical installation
1. Make a connection box with a 15-pin D-Sub HD socket for
the TiM3xx. The box serves to connect the supply voltage
as well as the signal feed of the switching outputs, if ap-
plicable (see “Electrical Installation” chapter in the
& Technical Information (no. 8014884)).
2. Connect the TiM3xx's Micro USB socket (behind the black
rubber plate on the side) to a free USB socket (type A) on
the PC using a suitable shielded high-speed USB cable
(e.g. no. 6036106, 2 m).
Use the enclosed seal for the USB socket to protect
against moisture and dust.
The USB cable may not exceed 3 m in length!
When operating the USB interface, ESD/EMC interfer-
ences can lead to an interruption of the USB connection.
To continue with the data transfer, disconnect the USB
cable from the TiM3xx and reattach it to establish contact.
To re-establish communication between TiM3xx and PC,
select
CommuniCation > Go online in the SOPAS congura-
tion software.
3. Supply power to the TiM3xx.
Using the power supply unit it must be ensured that the
supply voltage does not drop below 8 V for longer than
2 ms and never rises above 30 V.
Following successful initialization, the green LED “
” lights
up (device ready for operation).
SOPASSOPAS
“Power/Out”
“USB 2.0”
Configuration
Diagnosis
TiM3xx
Connection
box
USBUSB
Driver for request of
measur
ement values
and further data
processing
customer-provided
OUT 4
“Device
Ready”
DC 9 ... 28 V
delay-
action
fuse
0,8A/T
Measuring operation: Electrical block diagram for commissioning
SOPASSOPAS
“Power/Out”
“USB 2.0”
Configuration
Diagnosis
Temporary
field monito
ring
TiM3xx
Connection
box
USBUSB
OUT 1 OUT 2
Field monitoring
customer-provided
OUT 4
“Device
Ready”
DC 9 ... 28 V
delay-
action
fuse
0,8A/T
Field monitoring: Electrical block diagram for commissioning
Step 2: Mounting and alignment
NOTE
During installation make sure there is no reective surface
behind the reference target see “Device overview, on Page
3”, point
â.
1. Optional: mount the TiM3xx to separately ordered mount-
ing accessories (mounting kit 2), see “Mounting” Chapter
in the & Technical Information (no. 8014884).
2. Otherwise, mount the two straight plates from the en-
closed mounting kit 1 on the TiM3xx using 2 M3 screws.
Use the two blind-hole threads either on the underside
or back of the housing ( see “Device overview, on Page
3”). If the straight plates are not used, screw the
screws provided by the customer max. 2.8 mm (0.11 in)
into the thread.
3. Mount the TiM3xx on a prepared bracket.
The device should be as free from shock and vibration as
possible during operation.
4. Align the 90° axis of the TiM3xx's eld of view with the
center of the area to be monitored. The
marking on the
lid of the optical hood serves as a bearing alignment aid
( see “Device overview, on Page 3”).
0
Scanning range in m (ft)
4
(13.12)
4
(13.12)
6
(19.69)
6
(19.69)
2
(6.56)
2
(6.56)
Scanning range in m (ft)
2
(6.56)
4
(13.12)
2
(6.56)
4
(13.12)
6
(9.69)
6
(19.69)
0
Scanning range max. 4 m (13.12 feet)
Scanning range 2 m (6.56 feet)
for objects up to 10 % reflectivity
270°
90°
180°
‒45°
225°
Range diagram for TiM3xx
Short Range
Ranging and detecting
laser scanner
OPERATING INSTRUCTIONS
en
2 8014882/YK97/2015-04-27 • Subject to change without noticeSICK AGWaldkirchGermanywww.sick.comTIM310-1030000S01 | SICK
Step 3: Commissioning/Conguration
a. Installing and starting the SOPAS conguration
software
The display of the surrounding contour (measuring line)
captured by the TiM3xx, the alignment of the evaluation elds
to the application, if required, as well as the diagnosis in the
event of an error take place with the SOPAS conguration
software as standard.
1. Download and install on the PC the software from the
website “www.mysick.com/en/SOPAS_ET“. In this case,
select the “Complete” option as suggested by the install
wizard. Administrator rights may be required on the PC to
install the software.
2. Start the “Single Device” program option after completing
the installation.
Path: Start > Program Files > SICK > SOPAS Engineering
Tool > SOPAS Single Device.
SOPAS will automatically install the necessary USB driver
when it rst detects an attached TiM3xx. The PC may then
have to be restarted.
3. Establish communication between SOPAS and TiM3xx us-
ing the automatically opened assistant. Select the TiM3xx
from the list of available devices.
4. SOPAS automatically opens the
Field monitor display
window in the middle of the program window.
SOPAS displays the surrounding contour currently seen
by the device as a blue measuring line in real time (15 Hz
refresh rate). In addition, the following are displayed in
the window for eld monitoring: both evaluation elds in
form and status, the status of the switching outputs and
the position of the cursor (see “Program window of the
SOPAS Single Device, on Page 2”).
Important: The left mouse button is used for the following
requirements.
b. Output of measured values
If the TiM3xx receives one of the two following commands
by telegram on the USB interface it will start the output of
measured values in real time over these data interfaces.
Activate the output of the measured values in SOPAS on a
trial basis:
5. Start the terminal emulator with the
button.
6. Select the
ConneCt ... command in the ConneCtions menu
in the dialog window and establish communication with
the TiM3xx on the USB interface.
7. Enter one of the two telegrams in the “Send telegram” in-
put line as they appear (automatically framed by STX and
ETX when sending in the default setting of SOPAS).
Pay attention to blank characters in the string.
8. Use the
button to transfer the telegram to the TiM3xx.
The TiM3xx responds by providing the data as a one-off or
continuously in the display area of the terminal emulator.
Data output format of the measured values
The data output format per scan is comprised of the mea-
sured values (radial distance, reectivity), device and status
information and time stamp. The detailed design of the
output telegram as well as the ow of requests and outputs is
described in the “Measured value output” chapter in the
& Technical Information (no. 8014884).
c. Field monitoring
Together, both segmented elds form a whole.
They are source-oriented and always overlap at the same
percentage ratio even for changes in the size and shape of
the unit. The limits of the outer eld 2 relate to the limits of
the inner eld 1. The following rules apply: Field 1 may not be
larger than eld 2 and neither may elds be congruent. They
consist of two rectangles in the default setting.
Field pair, transf
ormed
in free shape type
Segmented field pair
(default setting)
Field 1
Field 2
180°
90°
Design of the two independent elds in the default setting and an
example of possible free eld shapes
The eld pair is freely scalable and bendable with SOPAS
within the TiM3xx viewing area; max. 271 points in a radial
distance of 1° for the outer eld are available for this. The
inner eld 1 follows the percentage changes of the outer
eld 2.
One-o output of measured values:
Telegram construction: sRN LMDscandata
Telegram part Description Variable types Length
(byte)
Value range
Command type Request (SOPAS read by name)
string 3 sRN
Command Request data
string 11 LMDscandata
Example:
Telegramm type Command
ASCII <STX>sRN{SPC}LMDscandata<ETX>
HEX 02 73 52 4E 20 4C 4D 44 73 63 61 6E 64 61 74 61 03
Binary 02 02 02 02 00 00 00 0F 73 52 4E 20 4C 4D 44 73 63 61 6E 64 61 74 61 05
Continuous output of measured values:
Telegram construction: sEN LMDscandata StartStop measurement
Telegram part Description Variable types Length
(byte)
Value range
Command type Request (SOPAS event by name)
string 3 sEN
Command Request data
string 11 LMDscandata
StartStop measure-
ment
Enum8 1 0 Stop measured value output
1 Start measured value output
Example:
Telegramm type Command
ASCII <STX>sEN{SPC}LMDscandata{SPC}1<ETX>
HEX 02 73 52 4E 20 4C 4D 44 73 63 61 6E 64 61 74 61 03
Binary 02 02 02 02 00 00 00 0F 73 52 4E 20 4C 4D 44 73 63 61 6E 64 61 74 61 05
Program window of the SOPAS Single Device
“Field monitor” display window
SOPAS displays both elds in the rectangular coordinates
system (default setting) in the
Field monitor window. Both
elds are green if no eld infringement is present.
If objects of a certain size and duration ( see “Field moni-
toring default setting, on Page 4”) are located in part
of
the eld of view that is covered by both elds, for example,
the TiM3xx will recognize this as a eld infringement. SOPAS
displays this in yellow for both elds separately.
> Try changing the orientation of the TiM3xx in the room
and observe the effects this has on detection in the eld
monitor.
> SOPAS resets the switching outputs if you click on the
reset button. Counters 1 and 2 signal the number of eld
infringements displayed in SOPAS since switching on the
TiM3xx or since the last reset.
Congure eld monitoring
“Field editor” display window
The user is automatically registered at the “Authorized client”
user level on the TiM3xx after starting the program (see
38014882/YK97/2015-04-27 • Subject to change without noticeSICK AGWaldkirchGermanywww.sick.com TIM310-1030000S01 | SICK
status bar below in the program window).
The user can change parameters in the right part of the
program window under
settinGs & deviCe state, which SOPAS
immediately transfers to the TiM3xx (default setting).
However, evaluation elds that have been changed in size
and shape must always be manually transferred to the
TiM3xx using the
button. All changed parameters are only
temporarily stored in the device for the time being and are not
stored in the computer at all.
> In order to optimize the monitoring elds in their measure-
ments, click the
Field tab at the top of the program window
and perform the following actions if required:
Shift the eld points:
1. Click the
button.
2. Click on the green marking rectangle of the desired eld
point in the outer eld.
The color of the marking rectangle changes to blue.
3. Re-click the rectangle and drag it to the desired position,
then release the button. SOPAS controls the available
positioning area during shifting.
Insert additional eld points:
1. Click the
button.
2. Click on the desired position on the limits of the outer eld.
SOPAS inserts a new, green marking rectangle. This can
now also be shifted as already described.
Deleting eld points:
1. Click the
button.
2. Click on the green marking rectangle of the eld point to
be deleted in the outer eld.
The color of the marking rectangle changes to red.
3. Re-click the marking rectangle.
SOPAS removes the marking rectangle and instead con-
nects the two nearest marking rectangles with a new line.
Rotate the eld pair around the central axis along with the
TiM3xx:
> In order to align the position of the eld pair in SOPAS to
the conditions on site from the users perspective, enter
and conrm the desired angle of rotation in the “0.0°”
input eld (negative sign “
–” means turn right).
Alternative: Control the rotation with both arrow buttons.
Some other useful functions:
button: Display the elds in the polar coordinates
system
button: Change the view of the TiM3xx/ elds from
above (TiM3xx: black) to view from below (TiM3xx: blue)
or button: Display the full measuring line or a
dotted measuring line.
Response time, blanking size and dwell time:
1. Adjust the response time of the elds, the blanking size
of objects as well as the dwell time of the OUT 1 and OUT
2 switching outputs under
settinGs, right in the program
Description of the device
Device overview
79 (3.11)
55.8 (2.19)
60 (2.36)
8 (0.31)
27.3 (1.08)
4.4 (0.17)
(0.76)
19.4
*)
4
5
3
7
6
76.3 (3.0)
*)
Ø 4.3
*)
(0.16)
68.8
(2.71)
*)
51 (20)
68.8 (2.71)
*)
38.3 (1.50)
Ø 4.3 (0.17)
*)
2
1
225°‒45°
180°
90°
á
à
19.4
(0.76)
51 (2.00)
0.5
*)
98
ß
22
All measures of length in mm (inch)
*)
measures including straight plates
60
(2.36)
(0.02)
Mounting kit 1
2 x
30°
â
window. All three values are valid for both elds and
switching outputs.
When selecting the response time it must be noted that
the
tim3xx's internal reaction time must also be added.
2. Click on the
Field evaluation monitor tab at the top in order
to test the effects of the changed settings.
If the changed elds have been transferred to the
tim3xx
as described, SOPAS will also display these in the monitor,
displaying the infringed elds in yellow.
The blanking size is the cross-section of the object after
which an object not previously in the viewing area of the
TiM3xx leads to an infringement.
Completing the eld monitoring conguration
> Finally, in order to permanently store the overall congura-
tion of the TiM3xx:
Parameter set in the TiM3xx: Click the
button
As a project le on the PC: Click on the
button and
dene informative le names and the desired storage loca-
tion in the dialog window.
1 2 x straight plates with M3 x 4 mm screw (included in delivery)
2 M3 threaded mounting hole, 2.8 mm deep (blind hole thread)
3 Optical hood
4 Receiving range (light inlet)
5 Transmission range (light emission)
6 Red and green LED (status displays)
7 Function button for Teach-In (not for TiM310-1030000S01)
8 Connecting cable 0.9 m (2.95 ft) exit with 15 pin D-Sub HD plug
(“Power/ switching outputs” connection).
9 Micro USB socket, behind the black rubber plate
(“Aux interface” connection for conguration with PC or output of
measured values)
Marking for the position of the light emission level
à Bearing marking to support alignment (90°axis)
á 270° aperture angle (eld of view)
â Area in which no reective surfaces are allowed for mounted devices
48014882/YK97/2015-04-27 • Irrtümer und Änderungen vorbehaltenSICK AGWaldkirchGermanywww.sick.com TIM310-1030000S01 | SICK
a CAUTION
Laser radiation!
CLASS 1 LASER PRODUCT
The TiM3xx corresponds to laser class 1 (eye-safe).
The laser beam is not visible to the human eye.
Caution – incorrect use can lead to the user being exposed to
dangerous radiation.
> The housing of the TiM3xx is screwed down; do not open it
(opening the housing will not switch off the laser).
> Observe the applicable laser safety regulations as per IEC
60 8251 (latest version).
a MISE EN GARDE
Rayonnement laser !
APPAREIL À LASER DE CLASSE 1
Le TiM est conforme à la classe laser 1 (sécurité des yeux).
Le rayon laser n’est pas visible pour l’oeil humain.
PRUDENCE – tout usage de commandes, réglages ou toute
application de procédures autres que ceux décrits dans ce
document peut entraîner une exposition dangereuse au
rayonnement.
Attention – L’utilisation des commandes ou réglages ou
l’exécution des procédures autres que celles spéciées dans
les présentes exigences peuvent être la cause d’une exposi-
tion à un rayonnement dangereux.
> Ne pas ouvrir le boîtier. (La diode laser n’est pas désac-
tivée en cas d’ouverture du boîtier)
> Se conformer aux dernières consignes de protection en
date contre le rayonnement laser (IEC 60825-1).
Additional information see “Technical specications, on Page 4”.
Status displays, functions
Status displays
LED a
(red)
LED b
(green)
Status
O
Device ready/monitoring mode
O O
Field infringement
Error
Device without supply voltage
O = illuminated; = ashes
Pin assignment of the connection plug
6
1
10
5
11
15
“Power/switching outputs” connection
15-pin D-Sub HD plug on the cable
Do not connect reserved pins!
reserved
reserved
reserved
reserved
DC 9 ... 28 V
n.c.
n.c.
n.c.
GND
n.c.
OUT 1 (switching output)
OUT 2 (switching output)
7
6
OUT 4 (switching output)
reserved
reserved
4
3
2
1
5
8
9
10
11
12
13
14
15
Infringed elds - switching outputs assignment
Fields Switching outputs
OUT 1 OUT 2
Field 1 and 2 infringed Active
Active
Field 2 infringed Inactive
Active
All elds free Inactive
Inactive
Field 1: inner, eld 2: outer
Output level
The level of the switching outputs OUT 1 and OUT 2 is active
Low (in resting position: High, in working position: Low). Both
elds are also deemed to be infringed during switching on,
booting, in the event of an error, and when the device is
switched off.
The OUT 4 switching output works with the following levels:
Function Level
Device Ready High
Index signal (15 Hz), corresponds to measurement
at 90°
Low peaks
Error Low
Field monitoring default setting
Parameter Value
Field 1 Rectangle, segmented
Length 1 m, width 2 m
Field 2 Rectangle, segmented
Length 1.5 m, width 3 m
(Field 1 plus 50%)
Blanking size Cross-section 200 mm
Response time of the elds 335 ms (5 scans)
Dwell time of the switching outputs
OUT 1 and OUT 2
335 ms (5 scans)
Technical specications
Model name TiM310-1030000S01 (part no. 1056791)
Field of view
Radial, aperture angle 270° in 1° steps
Scanning fre-
quency
15 Hz (15 scans/s)
Response time
Typically 134 ms (2 scans)
Scanning range
0.05 m ... 4 m;
typically 2 m at 10 % reectivity
Reectivity
Typically 4 % ... > 1,000 % (Reector)
Physical minimum
object size
(cross-section)
170 mm (6.7 in) for a scanning range of 4 m,
85 mm (3.35 in) for a scanning range of 2 m
and 10 % reectivity
Measuring error
Statistically (1 s): 30 mm
Systematically: ± 40 mm
Temperature drift 0.5 mm/K
Ambient light
immunity
15,000 lx
Light source
Laser diode, infrared (λ = 850 nm)
Laser class of the
device
Laser class 1 according to EN 60825-1: 2007-
10
1)
, eye-safe
Measured value
output
Radial distance, reectivity value, device and
status information, time stamp
Field evaluation
1 eld set with 2 elds.
Signaling of eld infringements via a combina-
tion of 2 switching outputs.
Aux interface
USB 2.0 for conguration and measure value
outputs (15 Hz), connecting cable max. 3 m.
Switching inputs
Switching outputs 3 x OUT (each I
a
≤ 100 mA), not electrically
isolated from the supply voltage. Short-circuit
protected/temperature protected
Adjustable for OUT 1 and OUT 2:
Response time (134 ms ... 30 s)
Dwell time (0 ms ... 10 s)
2)
Electrical connec-
tions
1 x cable 0.9 m + 10 % with 15-pin D-sub
HD plug.
1 x micro USB socket, type B (covered)
Function buttons
Optical indicators 2 x LED
Supply voltage DC 9 ... 28 V, SELV/PELV acc. to
IEC 60364-4-41: 2005-12
Power consump-
tion
3 W (with switching outputs without load)
15 W (with four loaded switching outputs)
Housing Lower part: Die cast aluminum
Optical hood: polycarbonate with scratch-
resistant coating
Weight
Approx. 150 g without cables
Electrical safety
According to EN 60950-1:2006-04 /
A11:2009-03
Model name TiM310-1030000S01 (part no. 1056791)
Protection class
III, according to EN 61140: 2006-08
IEC 61010-1:2011-07
Enclosure rating
IP 65 (EN 60529: 1991-10/A2: 2000-02).
No specied enclosure rating for opened
"Aux interface" connection and/or plugged in
USB cable!
EMC
Electromagnetic interference in residential
areas according to EN 61000-6-3: 2007-01
Interference resistance in residential areas
according to EN 61000-6-1: 2007-10
Vibration resis-
tance
Acc. to EN 60068-2-6: 2008-02
Shock resistance
Acc. to EN 60068-2-27: 2009-05
Ambient tempera-
tures
Operating: –10 ... +50 °C
Storage: –30 ... +70 °C
Temperature
change
Acc. to EN 60068-2-14: 2009-07
Damp heat
Acc. to EN 60068-2-30: 2005-12
Air humidity
< 80%
Ambient condi-
tions
According to EN 61010-1:2011-07, contamina-
tion level 3 outside housing
Installation height
< 5,000 m above sea level
1) Complies with 21 CFR 1040.10:2007-04 except for the tolerance according
to Laser Notice No. 50 of June 2007
2) The TiM3xx has an internal, system-related time delay of 67 ms.
For further technical specications see the Online data sheet
on the product site on the web (www.mysick.com/en/tim3xx).
a WARNING
Danger due to potential equalization currents
The TiM3xx is designed to be operated in a system with
procient grounding of all connected devices and mounting
surfaces to the same ground potential. If this condition is not
met, potential equalization currents may ow along the cable
shields, leading to the following dangers:
Dangerous contact voltage on the metal housing
Malfunction or destruction of the TiM3xx
Heating of the cables until spontaneous combustion.
> See the “Electrical installation” chapter in the & Technical
information (no. 8014884) on the product site on the web
(www.mysick.com/en/tim3xx) for measures to eliminate
hazards.
a ATTENTION
Risques liés à des courants d’équipotentialité
Le TiM a été conçu pour être utilisé dans une installation
prévoyant une mise à la terre correcte de tous les appareils
et surfaces de montage raccordés sur un même potentiel
de sol. Si cette condition n’est pas remplie, des courants
d’équipotentialité risquent dans certaines conditions de
passer par les blindages des câbles et d’exposer aux risques
suivants :
tension de contact dangereuse sur le boitier en métal,
5 TIM310-1030000S01 | SICK 8014882/YK97/2015-04-27 • Irrtümer und Änderungen vorbehaltenSICK AGWaldkirchGermanywww.sick.com
comportement incorrect ou destruction du TiM.
chauffe des câbles jusqu’à leur inammation spontanée.
> Pour des mesures de prévention de tels risques, voir le
chapitre « Installation électrique » de & l’Information tech-
nique (no. 8014884) ou sur la page produit sur internet
(www.mysick.com/en/tim3xx).
Maintenance and care
The TiM3xx does not contain any components that require
maintenance. Maintenance is not necessary to ensure com-
pliance with laser class 1.
> If it is dirty, carefully clean the infrared light-permeable,
black optical hood to ensure optimal detection perfor-
mance. Use a soft, damp cloth and a mild cleaning agent.
Transport and storage
The TiM3xx must be transported and stored in its original
packaging with the USB protective cap plugged in.
Do not store outdoors. To ensure that any residual moisture
present can escape. Do not expose to aggressive media (e.
g., solvents).
Storage conditions: dry, dust-free, no direct sunlight, as little
vibration as possible, storage temperature –40°C to +75°C,
relative air humidity max. 90% (non-condensing).
Repair
Repair work on TiM3xx may only be performed by qualied
and authorized service personnel from SICK AG.
Removal and disposal
Any TiM3xx which can no longer be used at the end of the
product life cycle must be disposed of in an environmentally
friendly manner in accordance with the respective applicable
country-specic waste disposal regulations.
The TiM3xx is electronic waste and must under no circum-
stances be disposed of with general waste!
Sources for obtaining additional information
Additional information about the TiM and its optional acces-
sories can be found in the following places:
Product web page for the TiM3xx
(www.mysick.com/en/tim3xx)
Technical Information (supplementary information on
mounting and electrical installation, an overview list, and
license texts for open-source software) in German (no.
8014883) and English (no. 8014884).
These operating instructions in German (no. 8014881),
English (no. 8014882), and in other languages if required
SOPAS conguration software with online help
Ordering information in the detection and ranging solu-
tions product catalog
TiM3xx product information
Detailed technical specications (online data sheet)
Dimensional drawing and 3D CAD dimension models in
various electronic formats
EC declaration of conformity
SOPAS conguration software updates
Support is also available from your sales partner: www.sick.
com/worldwide.
Copyright notices for open-source programs
SICK uses open source software in its TiM sensors. This
software is licensed by the rights holders using the following
licenses among others: the free licenses GNU General Public
License (GPL Version2, GPL Version3) and GNU Lesser Gen-
eral Public License (LGPL), the MIT license, zLib license, and
the licenses derived from the BSD license.
This Program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied war-
ranty for merchantability or tness for a particular purpose.
See the GNU General Public License for more details.
View the complete license texts here: www.sick.com/license-
texts.
A printed copy of the license texts is also available on request.
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8014882/YK97/2015-04-27 ∙ HS_8M ∙ Printed in Germany (2015-04) ∙ All rights reserved ∙ Subject to change without notice
8014882/YK97/2015-04-27 • Irrtümer und Änderungen vorbehaltenSICK AGWaldkirchGermanywww.sick.com TIM310-1030000S01 | SICK
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