SICK SureSense - HTB18 (L) Hybrid photoelectric sensors, SureSense - HTB18 Hybrid photoelectric sensors 取扱説明書

  • SICK HTB18(L) ハイブリッド光電センサの操作説明書の内容を読み終えました。このセンサの非接触光学的検出機能や、様々な出力タイプ、調整可能な時間遅延などの機能について、ご質問にお答えできます。お気軽にご質問ください。
  • センサの取り付け方法は?
    出力の種類は?
    明るさ/暗さ切り替えの設定方法は?
    時間遅延の設定方法は?
O P E R A T I N G I N S T R U C T I O N
HTB18(L)
Hybrid photoelectric sensors
O P E R A T I N G I N S T R U C T I O N
HTB18(L)
Hybrid photoelectric sensors
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Described product
H18 - SureSense
HTB18
HTB18L
Manufacturer
SICK AG
Erwin-Sick-Str. 1
79183 Waldkirch
Germany
Production location
SICK Inc.
55438 Minneapolis, MN
USA
Legal information
This work is protected by copyright. Any rights derived from the copyright shall be
reserved for SICK AG. Reproduction of this document or parts of this document is only
permissible within the limits of the legal determination of Copyright Law. Any modifica‐
tion, abridgment or translation of this document is prohibited without the express writ‐
ten permission of SICK AG.
The trademarks stated in this document are the property of their respective owner.
© SICK AG. All rights reserved.
Original document
This document is an original document of SICK AG.
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3
Contents
1 General safety notes......................................................................... 5
2 Notes on UL approval........................................................................ 5
3 Intended use...................................................................................... 5
4 Operating and status indicators...................................................... 6
5 Mounting............................................................................................. 6
6 Electrical installation........................................................................ 7
6.1 DC Output Operation................................................................................ 7
6.2 Connection Pinout.................................................................................... 11
6.3 Adjustments.............................................................................................. 12
7 Commissioning.................................................................................. 17
8 Troubleshooting................................................................................. 19
9 Disassembly and disposal............................................................... 20
10 Maintenance...................................................................................... 20
11 Technical data.................................................................................... 20
11.1 Dimensional drawing................................................................................ 21
CONTENTS
4
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1 General safety notes
Read the operating instructions before commissioning.
Connection, mounting, and configuration may only be performed by trained
specialists.
2006/42/EC
NO
SAFETY
Not a safety component in accordance with the EU Machinery Directive.
When commissioning, protect the device from moisture and contamination.
These operating instructions contain information required during the life cycle of
the sensor.
HTB18L:
EN/IEC 60825-1:2014
IEC60825-1:2007
LASERCLASS 1
Laser
1
Maximum pulse power < 4,0 mW
Puls length: 4 µs
Wavelength: 650 - 670 nm
Complies with 21 CFR 1040.10
and 1040.11 except for deviations
pursuant to Laser Notice No. 50,
dated June 24, 2007
ATTENTION
WARNING: Interruption, manipulation or incorrect use can lead to hazardous exposure
due to laser radiation.
2 Notes on UL approval
All housing types are Type 1 enclosure.
3 Intended use
The HTB18 is an opto-electronic photoelectric background suppression proximity sen‐
sor (referred to as “sensor” in the following) for the optical, non-contact detection of
objects, animals, and persons. If the product is used for any other purpose or modified
in any way, any warranty claim against SICK AG shall become void.
The HTB18L is an opto-electronic photoelectric background suppression proximity sen‐
sor (referred to as “sensor” in the following) for the optical, non-contact detection of
objects. If the product is used for any other purpose or modified in any way, any war‐
ranty claim against SICK AG shall become void.
GENERAL SAFETY NOTES 1
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5
4 Operating and status indicators
2
3
2 3
4
1
1
Potentiometer adjustment (if selec‐
tred by model configuration) or LED
Indicators
2
LED indicator green: supply voltage
active
3
LED indicator yellow: status of
received light beam
4
Signal strength light bar (if selected
by model configuration)
5 Mounting
Mount the sensor using a suitable mounting bracket (see the SICK range of acces‐
sories).
NOTE
Note the sensor's maximum permissible tightening torque of 0.56 Nm.
Note the preferred orientation of the sensor relative to the direction of object motion,
refer to figure 1.
Figure 1: Sensor orientation relative to object direction
4
OPERATING AND STATUS INDICATORS
6
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6 Electrical installation
The sensors must be connected in a voltage-free state (U
V
= 0 V). The following informa‐
tion must be observed depending on the connection type:
Plug connection: pin assignment
Cable: wire color
Only apply voltage/switch on the voltage supply (U
V
> 0 V) once all electrical connec‐
tions have been established.
The green LED indicator on the top of the sensor lights up.
Explanation of connection terminology used in Tables 1-3:
BN = Brown
WH = White
BU = Blue
BK = Black
n. c. = no connection
Q1 = switching output 1
Q2 = switching output 2
L+ = supply voltage (Uv)
L1 = AC supply voltage
M = common
N = AC common
Test = Test input
L.ON = light switching
D.ON = dark switching
NOTE
The sensor outputs may come equipped with an adjustable ON delay or OFF delay. This
is indicated by the model configuration (Hx18-xxxxx_).
6.1 DC Output Operation
Table 1: Output Operation
HTX18-_xxxxx
-Axxxxx
Q1 = D.ON, PNP (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
ELECTRICAL INSTALLATION 6
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Q2 = D.ON, NPN (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
-Bxxxxx
Q1 = L.ON, PNP (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
Q2 = L.ON, NPN (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
-Pxxxxx
Q1 = L.ON, PNP (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
Q2 = D.ON, PNP (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
-Nxxxxx
Q1 = L.ON, NPN (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
Q2 = D.ON, NPN (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
-Fxxxxx
1
Q1 = L.ON, PNP (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
6 ELECTRICAL INSTALLATION
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Q2 = D.ON, PNP (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
-Vxxxxx
Q1 = L.ON, PNP (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
Q2 = Health, PNP (≤ 100 mA) see table 2, page 11 see table 2, page 11
-Wxxxxx
Q1 = L.ON, NPN (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
Q2 = Health, NPN (≤ 100 mA) see table 2, page 11 see table 2, page 11
-Xxxxxx
Q1 = D.ON, PNP (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
Q2 = Health, PNP (≤ 100 mA) see table 2, page 11 see table 2, page 11
-Yxxxxx
Q1 = D.ON, NPN (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
Q2 = Health, NPN (≤ 100 mA) see table 2, page 11 see table 2, page 11
-Gxxxxx
Q1 = L.ON, PNP (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
Q2 = Alarm, PNP (≤ 100 mA) see table 2, page 11 see table 2, page 11
-Hxxxxx
Q1 = L.ON, NPN (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
Q2 = Alarm, NPN (≤ 100 mA) see table 2, page 11 see table 2, page 11
ELECTRICAL INSTALLATION 6
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9
-Jxxxxx
Q1 = D.ON, PNP (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
Q2 = Alarm, PNP (≤ 100 mA) see table 2, page 11 see table 2, page 11
-Kxxxxx
Q1 = D.ON, NPN (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
Q2 = Alarm, NPN (≤ 100 mA) see table 2, page 11 see table 2, page 11
-Mxxxxx Q1 = D.ON, MOSFET (≤ 100 mA)
+ (L
Q
‒ (
+ (L1)
Q
‒ (N)
Load
+ (L1)
Q
‒ (N)
Load
-Lxxxxx Q1 = L.ON, MOSFET (≤ 100 mA)
+ (L1)
Q
‒ (N)
Load
+ (L
Q
‒ (
+ (L1)
Q
‒ (N)
Load
-Zxxxxx Special output operation Contact SICK Contact SICK
1
PNP output diagram pictured; NPN also possible by connecting the Load to + (L+) and Q
6 ELECTRICAL INSTALLATION
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Table 2: Alarm/Health Operation
HTX18-_xxxxx
-Vxxxxx
-Xxxxxx
Q2 = Health, PNP (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
-Wxxxxx
-Yxxxxx
Q2 = Health, NPN (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
-Gxxxxx
-Jxxxxx
Q2 = Alarm, PNP (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
-Hxxxxx
-Kxxxxx
Q2 = Alarm, NPN (≤ 100 mA)
+ (L+)
Q
‒ (M)
Load
+ (L+)
Q
‒ (M)
Load
6.2 Connection Pinout
Table 3: Connection Pinout, DC
HT18 -x1xxxx -x2xxxx -x3xxxx -x4xxxx
1 BN + (L+) + (L+) + (L+) + (L+)
2 WH Q2 - Q2 2
3 BU - (M) - (M) - (M) - (M)
4 BK Q1 Q Q1 Q1
0.14 ... 1.5 mm
2
1
2
3
I
N
= X A
2
1
4
3
I
N
= X A
1
2
4 3
I
N
= X A
ELECTRICAL INSTALLATION 6
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11
6.3 Adjustments
L/D Switching
The sensor may be specified with a Light Switching or Dark Switching
(L/D) selection potentiometer.
Light Switching is selected for the Q1 output by rotating the poten‐
tiometer counterclockwise to the stop position. The potentiometer tab
will point toward the “L” printed on the sensor housing.
Dark Switching is selected for the Q1 output by rotating the poten‐
tiometer clockwise to the stop position. The potentiometer tab will
point toward the “D” printed on the sensor housing.
CAUTION
Over rotation of the potentiometer past the stop positions will cause permanent dam‐
age to the sensor.
If complimentary outputs are specified (Hx18-Pxxxxx, Hx18-Nxxxxx, Hx18-Fxxxxx), the
Q2 output will always be opposite switching state of the Q1 output. Therefore, the Q2
output will be Dark Switching when the potentiometer is in the “L” position and Light
Switching in the potentiometer is in the “D” position. If bipolar outputs are specified
(Hx18-Axxxxx, Hx18-Bxxxxx), the Q2 output will always have the same switching state as
the Q1 output. The L/D selection potentiometer does not impact a Health or Alarm out‐
put (if specified).
Table 4: Q1 output ACTIVE states with Light/Dark Switching selection potentiometer
HTX18-xxxx_
L/D Selection
Switch
-xxxxxE
-xxxxxH
-xxxxxI
-xxxxxK
-xxxxxP
Q1 = L.ON
Q1 = D.ON
Time delay
The sensor may be specified with an adjustable time delay. The delay
time is adjusted by rotating the 270° potentiometer.
Clockwise rotation in the direction of the “+” printed on the sensor will
increase the delay time (T
DELAY
). Maximum Delay time will occur at the
clockwise stop position.
Counter clockwise rotation in the direction of the “-“ printed on the
sensor will decrease the delay time. There will be no time delay at the
counter clockwise stop position.
CAUTION
Over rotation of the potentiometer past the stop positions will cause permanent dam‐
age to the sensor.
A L/D selection switch may be specified with an adjustable time delay. Adjustable time
delay does not impact a Health or Alarm output (if specified).
6 ELECTRICAL INSTALLATION
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Table 5: Output ACTIVE states for complimentary output variants with adjustable time delay
HTX18-Pxxxx_
HTX18-Nxxxx_
HTX18-Fxxxx_
No Time Delay
Q1 = L.ON
Q2 = D.ON
Adjustabl
e ON
Delay
1
-xxxxxC
-xxxxxF
-xxxxxI
2
-xxxxxM
Q1 = L.ON
Q2 = D.ON
-xxxxxI
3
Q1 = D.ON
Q2 = L.ON
Adjustabl
e OFF
Delay
1
-xxxxxD
-xxxxxG
-xxxxxK
2
-xxxxxN
Q1 = L.ON
Q2 = D.ON
-xxxxxK
3
Q1 = D.ON
Q2 = L.ON
1
ON or OFF Delay naming applies to the Q1 output
2
L/D Selection Switch in in the “L” Light Switching position
3
L/D Selection Switch in in the “D” Dark Switching position
ELECTRICAL INSTALLATION 6
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Table 6: Output ACTIVE states for HTX18-Bxxxx_ variants with adjustable time delay
HTX18-Bxxxx_
No Time Delay
Q1 = L.ON
Q2 = L.ON
Adjustabl
e ON
Delay
-xxxxxC
-xxxxxF
-xxxxxI
1
-xxxxxM
Q1 = L.ON
Q2 = L.ON
-xxxxxI
2
Q1 = D.ON
Q2 = D.ON
Adjustabl
e OFF
Delay
-xxxxxD
-xxxxxG
-xxxxxK
1
-xxxxxN
Q1 = L.ON
Q2 = L.ON
-xxxxxK
2
Q1 = D.ON
Q2 = D.ON
1
L/D Selection Switch in in the “L” Light Switching position
2
L/D Selection Switch in in the “D” Dark Switching position
6 ELECTRICAL INSTALLATION
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Table 7: Output ACTIVE states for HTX18-Axxxx_ variants with adjustable time delay
HTX18-Axxxx_
No Time Delay
Q1 = D.ON
Q2 = D.ON
Adjustabl
e ON
Delay
-xxxxxC
-xxxxxF
-xxxxxI
1
-xxxxxM
Q1 = D.ON
Q2 = D.ON
-xxxxxI
2
Q1 = L.ON
Q2 = L.ON
Adjustabl
e OFF
Delay
-xxxxxD
-xxxxxG
-xxxxxK
1
-xxxxxN
Q1 = D.ON
Q2 = D.ON
-xxxxxK
2
Q1 = L.ON
Q2 = L.ON
1
L/D Selection Switch in in the “D” Dark Switching position
2
L/D Selection Switch in in the “L” Light Switching position
ELECTRICAL INSTALLATION 6
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Table 8: Q1 output ACTIVE states for Dark Switching variants with Alarm/Health and adjustable
time delay
HTX18-Vxxxx_
HTX18-Wxxxx_
HTX18-Gxxxx_
HTX18-Hxxxx_
No Time Delay Q1 = L.ON
Adjustabl
e ON
Delay
-xxxxxC
-xxxxxF
-xxxxxI
1
-xxxxxM
Q1 = L.ON
-xxxxxI
2
Q1 = D.ON
Adjustabl
e OFF
Delay
-xxxxxD
-xxxxxG
-xxxxxK
1
-xxxxxN
Q1 = L.ON
-xxxxxK
2
Q1 = D.ON
1
L/D Selection Switch in in the “L” Light Switching position
2
L/D Selection Switch in in the “D” Dark Switching position
Table 9: Q1 output ACTIVE states for Dark Switching variants with Alarm/Health and adjustable
time delay
HTX18-Xxxxx_
HTX18-Yxxxx_
HTX18-Jxxxx_
HTX18-Kxxxx_
No Time Delay Q1 = D.ON
Adjustabl
e ON
Delay
-xxxxxC
-xxxxxF
-xxxxxI
1
-xxxxxM
Q1 = D.ON
-xxxxxI
2
Q1 = L.ON
Adjustabl
e OFF
Delay
-xxxxxD
-xxxxxG
-xxxxxK
1
-xxxxxN
Q1 = D.ON
6 ELECTRICAL INSTALLATION
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-xxxxxK
2
Q1 = L.ON
1
L/D Selection Switch in in the “D” Dark Switching position
2
L/D Selection Switch in in the “L” Light Switching position
7 Commissioning
1 Alignment
Sensor with red light:
Align sensor on object. Select the position so that the red emitted light beam hits the cen‐
ter of the object. You must ensure that the optical opening (front screen) of the sensor is
completely clear [see figure 2].
Figure 2: Alignment
2 Sensing range
Check the application conditions: Adjust the sensing range and distance to the object or
background and the remission capability of the object according to the corresponding dia‐
gram [see figure 3] (x = sensing range, y = transition range between the set sensing range
and suppression of the background as a % of the sensing range (object remission/back‐
ground remission)). Remission: 6% = black 1, 18% = gray 2, 90% = white 3 (referring to
standard white as per DIN 5033). We recommend making the adjustments using an object
with a low remission.
The minimum distance (= y) for background suppression can be determined from diagram
[ figure 3 1] as follows:
Example: x = 100 mm, y = 10 => 10% of 100 mm = 10 mm. That is, the background is
suppressed at a distance of > mm from the sensor.
HTB18:
0
5
10
15
20
25
50
(1.97)
100
(3.94)
200
(7.87)
250
(9.84)
300
(11.81)
0
% of sensing range
3
2
1
150
(5.91)
Distance in mm (inch)
6%/90%
18%/90%
90%/90%
Figure 3: HTB18, % of sensing range
x = 100 mm, y = 10 mm
(= 10% of 100 mm)
1
2
3
150 200
3 20
5 20 150
150 300
3 20
A B
A = detection distance (depending on
object remission)
B = adjustment range
COMMISSIONING 7
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HTB18L:
20
15
10
5
0
% of sensing range
0
50
(1.97)
100
(3.94)
150
(5.91)
200
(7.87)
250
(9.84)
300
(11.81)
Distance in mm (inch)
3
2
1
90%/90%
20%/90%
6%/90%
Figure 4: HTB18L, % of sensing range
x = 250 mm, y = 15 mm
(= 15% of 250 mm)
1
2
3
25030
30 250
25030
300
300
A
B
A = detection distance (depending on
object remission)
B = adjustment range
y
x
Figure 5: Description of the sensing range areas
3 Sensing range setting
Sensor which it is not possible to set: The sensor is adjusted and ready for operation.
Refer to graphic to check the function. If the switching output fails to behave in accordance
with graphic, check application conditions. See section Fault diagnosis.
Sensor with potentiometer:
The sensing range is adjusted relative to the background with the potentiometer (type:
270°).
Clockwise rotation: sensing range increased; counterclockwise rotation: sensing range
reduced.
Turn the potentiometer clockwise until the yellow LED indicator lights up. When an object is
moved into the path of the beam, the yellow LED indicator must go out. If the yellow LED
indicator remains lit when an object is moved into the path of the beam, repeat the adjust‐
ment.
We recommend placing the switching state in the object, e.g., see figure 6. Once the sens‐
ing range has been adjusted, the object is removed from the path of the beam, which
causes the background to be suppressed and the switching output to change (see graphic
C).
7 COMMISSIONING
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0 %
100 %
0 %
100 %
0 %
100 %
0 %
100 %
0 %
100 %
0 %
100 %
0 %
100 %
0 %
100 %
Sensing range min.
Sensing range max.
Set switching point
Figure 6: Signal strength light bar during adjustment
The optimum setting can be achieved and checked using the signal strength light bar on
the back of the sensor. The LEDs on the signal strength light bar light up in relation to the
object position and the set switching point. If no LEDs or only the red LEDs light up, the
object is positioned behind the set switching point and cannot be detected. The first yellow
LED lights up when the object is in the set switching point. The green LEDs light up when
the object is between the sensor and the set switching point. The closer the object is to the
switching point, the more green LEDs will light up (see figure 6). The sensor is adjusted and
ready for operation. Refer to graphics see table 1, page 7 to check the function. If the
switching output fails to behave in accordance the graphic, check application conditions.
See section Fault diagnosis.
The sensor is adjusted and ready for operation.
4 Alarm output
The sensor (HTB18(L)) features a pre-failure notification output (“Q2” in connection dia‐
gram [B], if the alarm option is selected), which issues a notification if the signal strength
of the light being received is not sufficient. Possible causes: Sensor is contaminated, sen‐
sor is out of alignment. In the good state: LOW (U
V
< V); if excessively contaminated: HIGH
(>+U
V
- V). The LED indicator flashes in this case.
Health output: The sensor (HTB18(L)) features a health status notification output (“Q2” in
connection diagram [B], if the health option is selected), which issues a notification if the
signal strength of the light being received is sufficient. Possible causes, if the signal
strength is not sufficient: Sensors are contaminated, sensors are out of alignment, or
cable is damaged. In the good state: HIGH (>+U
V
- V); if excessively contaminated or in the
event of cable interruption: LOW (U
V
< V). The LED indicator flashes in this case.
Time types: HTB18(L) with optional On-delay or Off-Delay adjustment: t0 = no time delay, t1
= time delay when object is detected, t2 = time delay when no object is detected. The time
setting can be selected using the potentiometer according to A.
Timer stages can be set from 0 to 2 seconds.
8 Troubleshooting
The Troubleshooting table indicates measures to be taken if the sensor stops working.
Table 10: Troubleshooting
LED indicator/fault pattern Cause Measures
Yellow LED does not light up
even though the light beam is
aligned to the object and the
object is within the set sensing
range
No voltage or voltage below
the limit values
Check the power supply,
check all electrical connec‐
tions (cables and plug connec‐
tions)
Voltage interruptions Ensure there is a stable power
supply without interruptions
Sensor is faulty If the power supply is OK,
replace the sensor
TROUBLESHOOTING 8
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19
LED indicator/fault pattern Cause Measures
Yellow LED flashes; if Health is
present then take note of the
corresponding output signal; if
Alarm is present then take note
of the corresponding output
signal
Sensor is still ready for opera‐
tion, but the operating condi‐
tions are not ideal/addition‐
ally with health output: power
supply interrupted
Check the operating condi‐
tions: Fully align the beam of
light (light spot) with the
object / Clean the optical sur‐
faces / Check sensing range
and adjust if necessary, see
figures in chapter 7 / With
health output: Check the volt‐
age supply, check all electrical
connections (cables and plug
connections).
Yellow LED lights up, no object
in the path of the beam
The sensing range distance is
too large
Reduce the sensing range,
see figures in chapter 7.
Object is in the path of the
beam, yellow LED does not
light up
Distance between the sensor
and the object is too long or
sensing range is set too short
Increase the sensing range,
see figures in chapter 7.
9 Disassembly and disposal
The sensor must be disposed of according to the applicable country-specific regula‐
tions. Efforts should be made during the disposal process to recycle the constituent
materials (particularly precious metals).
NOTE
Disposal of batteries, electric and electronic devices
According to international directives, batteries, accumulators and electrical or
electronic devices must not be disposed of in general waste.
The owner is obliged by law to return this devices at the end of their life to the
respective public collection points.
WEEE: This symbol on the product, its package or in this document, indi‐
cates that a product is subject to these regulations.
10 Maintenance
SICK sensors are maintenance-free.
We recommend doing the following regularly:
Clean the external lens surfaces
Check the screw connections and plug-in connections
No modifications may be made to devices.
Subject to change without notice. Specified product properties and technical data are
not written guarantees.
11 Technical data
HTB18 HTB18-
xxxxxxD02
HTB-xxxxxxD04 HTB18-M / -L /-
U
HTB18L
Laser class 1
9 DISASSEMBLY AND DISPOSAL
20
8017850.16K9 | SICK
Subject to change without notice
/