ETC ET1820-1

Photoelectrics
Through-beam
Type ET 1820 DC, Nickel-plated Brass Housing
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Product Description
The ET1820 is a family of general purpose through-beam
sensors in an industrial standard M18 nickel-plated brass
housing for heavy duty applications. They are useful for
simple applications where a
basic sensor provide adequate
Range: 20 m
Adjustable sensitivity
Modulated infrared light
Make and break switching functions,
NPN, PNP (200 mA)
LED-indication for power supply ON (emitter) and
target detected (receiver)
Supply voltage: 10 to 40 VDC
Heavy duty M18 metal housing, IP 67
Cable and plug versions
Ordering Key
sensing performance. The sensors are easy to adjust with a
270° single turn potentiometer.
The output is a 4-wire complementary (NO and NC) circuit
with NPN (current sinking) or
PNP (current sourcing) open
collector transistor output.
ET 18 20 NPA S-1
Type
Housing diameter
Range
Output type
Housing material
Connection type
Type Selection
Housing
diameter
Rated
operating
dist. (Sn)
Connection
Ordering no.
Receiver/NPN
Make & break switching
Ordering no.
Receiver/PNP
Make & break switching
Ordering no.
Emitter
M18
M18
20 m
20 m
Cable
Plug
ET 1820 NPAS
ET 1820 NPAS-1
ET 1820 PPAS
ET 1820 PPAS-1
ET 1820
ET 1820-1
Note: Please order emitter and receiver separately.
Specifications Emitter
Specifications Receiver
Rated operational volt. (UB)
Rated operating dist. (Sn)
Sensitivity
Temperature drift
Hysteresis (H) (Differential travel)
Rated operational volt. (UB)
Ripple (Urpp)
No-load supply current (Io)
Min. operational current (Ie)
OFF-state current (Ir)
Output current
Continuous (Ie)
Short-time (I)
Ripple (Urpp)
Supply current (Io)
Protection
Light source
Light type
Optical angle
Indication
Supply ON
10 to 40 VDC
(ripple included)
≤ 10%
≤ 20 mA
Reverse polarity,
short-circuits, transients
GaAIAs LED, 880 nm
Infrared, modulated
± 2°
LED, green
Voltage drop (Ud)
Protection
Optical angle
Ambient light
Operating frequency (f)
Response time
OFF-ON (tON)
ON-OFF (tOFF)
Specifications are subject to change without notice (14.03.2006)
Up to 10 m
270° single turn pot. meter
0.6%/°C
3 to 20%
10 to 40 VDC (ripple included)
Max. 10%
Max. 12 mA (typ. 8 mA)
0.5 mA
Max. 100 µA (typ. 0)
Max. 200 mA
200 mA
Max. load capacity 100 nF
Max. 2.5 VDC
Reverse polarity,
short-circuit, transients
± 2°
Max. 5,000 lux
Typ. 170 Hz
Typ. 1.6 ms
Typ. 4.2 ms
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ET 1820 DC
General Specifications
Power ON delay (tv)
Indication
Output ON
Environment
Overvoltage category
Pollution degree
Degree of protection
Temperature
Operating
Storage
Vibration
Shock
Dielectric voltage
70 ms
Light and dark
(Complementary switch)
LED, yellow
III (IEC 60664/664A; 60947-1)
3 (IEC 60664/664A; 60947-1)
IP 67 (IEC 60529; 60947-1)
-20° to +60°C (-4° to +140°F)
-30° to +70°C (-22° to +158°F)
10 to 150 Hz, 0.5 mm/7.5 g
(IEC 60068-2-6)
2 x 1 m & 100 x0.5 m
(IEC 60068-2-32)
500 VAC
(IEC 60364-4-41)
Housing material
Body
Front
Cable end
Nuts
Connection
Cable
Nickel plated brass
PC, black
Polyester, black
Nickel plated brass
Receiver
Ermitter
Plug
Cables for plug (M1)
Weight
Cable version
Plug version
Approvals
CE-marking
Grey, 2 m oilproof, PVC,
4 x 0.34 mm2, ø 5.2 mm
2 x 0.5 mm2, ø 5.2 mm
M12 x 1
CON.1A-..series
137 g
54 g
UL, CSA
Yes
Operation Diagram
Power supply
Object present, light beam interrupted
Tv
Output ON: Break switching (NC)
Make switching (NO)
Dimensions
Tv
Wiring Diagrams
+
1 BN
1 BN
+
4 BK
2 WH
2 WH
4 BK
3 BU
3 BU
-
-
NPN
PNP
10 - 40 VDC
+
BN
BU
Emitter
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Specifications are subject to change without notice (14.03.2006)
ET 1820 DC
Detection Diagram
Delivery Contents
• Photoelectric switch: ET 1820
• 2 nuts
• Packaging: Plastic bag
Emitter
Y
X
(feet)
6.6
13
20
26
33
39
46
8
10.0
4
0.0
0
-10.0
-4
-20.0
-8
14.0
Accessories
(inch)
(cm)
Receiver
20.0
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MB18A
Connector type CON.1A../CON.14NF.. series
APA18-RAR
APA18-AR
For further information refer to “Accessories”.
0.0
2.0
4.0
6.0
8.0
Distance (m)
10.0
12.0
Installation Hints
To avoid interference from inductive voltage/
current peaks, separate the prox. switch power cables from any other power cables, e.g.
motor, contactor or solenoid cables
Relief of cable strain
Protection of the sensing face
Switch mounted on mobile carrier
A proximity switch should not serve as
mechanical stop
Any repetitive flexing of the
cable should be avoided
Incorrect
Correct
The cable should not be pulled
Specifications are subject to change without notice (14.03.2006)
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