EE-SPY301/401/302/402
Slim, Diffuse Sensor Detects Objects
Without Background Interference
HLight modulation effectively reduces
external light interference
HEasy adjustment and optical axis monitoring
with a Light-ON indicator
HWide operating voltage range (5 to
24 VDC) makes smooth connection
possible with a TTLs, relays, and
programmable controllers (PLCs)
HEasy-to-wire connector ensures ease of
maintenance
HConvert to PNP output with EE-2001
conversion connector
Ordering Information
Appearance Sensing method Sensing distance Output configuration Weight Part number
Horizontal Diffuse 5mm Dark-ON Approx. 2.6 g EE-SPY301
Light-ON EE-SPY401
Vertical Dark-ON EE-SPY302
Light-ON EE-SPY402
JACCESSORIES
Name Part number
Solder connector EE-1002
Connector with 1 m cable EE-1003
Connector holder for EE-1003 EE-1003A
EE--SPY301/401/302/402 EE--SPY301/401/302/402
2
Specifications
JRATINGS
Item Reflective
EE-SPY301 EE-SPY401 EE-SPY302 EE-SPY402
Supply voltage 5to24VDC±10%, ripple (p-p): 5% max.
Current consumption Average: 15 mA max.; Peak: 50 mA max.
Rated sensing distance 5 mm (Reflection factor: 90%; white paper: 15 x 15 mm)
Standard reference object Transparent, opaque
Differential distance 0.2 mm (with a sensing distance of 3 mm, horizontally)
Control output At 5 to 24 VDC: 80-mA load current (IC) with a residual voltage of 1.0 V max.
When driving TTL: 10-mA load current (IC) with a residual voltage of 0.4 V max.
Output
configuration
Transistor on output
stage without detecting
object
ON OFF ON OFF
Transistor on output
stage with detecting
object
OFF ON OFF ON
With detecting object ON
Indicator* Without detecting
object
OFF
With detecting object ON
Response frequency** 100 Hz
Light source GaAs infrared LED (pulse-modulated) with a peak wavelength of 940 nm
Receiver Si photo-diode with a sensing wavelength of 850 nm max.
Connecting method EE-1002/1003 Connectors
*The indicator is a GaP red LED (peak emission wavelength: 700 nm).
**The response frequency was measured by detecting the following disks rotating.
Disk
Disk
OUT
Terminal Arrangement
15 mm
15 mm
15 mm
200 mm
dia.
JCHARACTERISTICS
Ambient illumination Sensing face: fluorescent light/incandescent light: 3,000 lxmax.
Enclosure ratings IP50
Ambient temperature Operating -10°to 55°C(14
°F to 131°F)
p
Storage -25°to 65°C(-13
°F to 149°F)
Ambient humidity Operating 35% to 85%
y
Storage 35% to 95%
Vibration resistance Destruction: 10 to 55 Hz, 1.5-mm double amplitude for 2 hrs each in X, Y, and Z directions
Shock resistance Destruction: 500 m/s2(approx. 50G) for 3 times each in X, Y, and Z directions
Cable length 2mmax.withathicknessof0.3mm
2min.
EE--SPY301/401/302/402EE--SPY301/401/302/402
3
Engineering Data
JOPERATING RANGE (TYPICAL)
Reference
object: White
paper
(15 x 15 mm)
(reflection
factor: 90%)
Operates
Releases
Distance Y (mm)
X (mm)
Y
X
Operates
Releases
Y
X
Distance Y (mm)
X (mm)
Reference
object: White
paper
(15 x 15 mm)
(reflection
factor: 90%)
EE-SPY301, EE-SPY401 EE-SPY301, EE-SPY401
Distance Y (mm)
Y
X
EE-SPY302, EE-SPY402
X (mm)
EE-SPY302, EE-SPY402
Y
X
Distance Y (mm)
X (mm)
12
11
10
Reference object: Reference object:
White paper
(15 x 15 mm)
(reflection factor:
90%)
White paper
(15 x 15 mm)
(reflection factor:
90%)
JSENSING DISTANCE VS. OBJECT AREA
(TYPICAL)
JOPERATING/RESET DISTANCE VS.
CABLE LENGTH (TYPICAL)
EE-SPY301/SPY302/SPY401/SPY402
Distance (mm)
Sensing area l2(mm2)
l
l
Reference object: White paper
(reflection factor: 90%)
Capacitor: 10 µF(con-
nected externally)
Length of cable (m)
Operating distance vs.
(A)
(B)
Operates
Releases
A: With extension cable connected directly.
B: With 10µF capacitor connected.
releasing distance
Reference object:
White paper
(15 x 15 mm)
(reflection factor:
90%)
TA=25°C Vcc = 4.5 V
RL=4.7kΩ
Thickness: AWG24
EE--SPY301/401/302/402 EE--SPY301/401/302/402
4
JSENSING ANGLE VS. SENSING
DISTANCE (TYPICAL)
JRECEIVER OUTPUT VS. SENSING
DISTANCE (TYPICAL)
Relative sensing distance (%)
EE-SPY301
EE-SPY302
Reference object:
White paper
(15 x 15 mm)
(reflection factor:
90%)
dd
Angle θ(°)
Vcc = 24 V
Length of cable: 50 mm
Thickness of cable
0.3 mm2
+θ−θ
+θ−θ
Receiver otuput (mV)
Distance d (mm)
Vcc = 24 V
Length of cable: 50 mm
Thicknessofcable:0.3mm
2
Operating level
Reference object:
White paper (15 x 15 mm)
(reflection factor: 90%)
Operation
JINTERNAL/EXTERNAL CIRCUIT DIAGRAM
Light-ON/Dark-ON
Operation
indicator
Logic
circuit
1.5 to
3mA
OUT
5to24VDC
←IC
0V
Main
circuit
Load
(relay) RL
Connect RLas
shown only
when logic circuit
is driven.
Connect a diode in parallel to the load when an inductive load is connected
between + and OUT.
JTIMING CHART
ON
OFF
LIGHT indicator
(red)
ON
OFF
Output
transistor
Operates
Releases
Load (relay)
H
L
Output voltage
(logic)
Interrupted
Incident
ON
OFF
LIGHT indicator
(red)
ON
OFF
Output
transistor
Operates
Releases
Load (relay)
H
L
Output voltage
(logic)
Interrupted
Incident
Light-ON Dark-ON
EE--SPY301/401/302/402EE--SPY301/401/302/402
5
Dimensions
Unit: mm (inch)
JEE-SPY301, EE-SPY401
Sensing face
Operation
indicator
Two, 3.2 dia.
holes
Three, 0.635
(3) (2) (1)
Terminal Arrangement
(1)
(2)
(3)
VCC
OUT OUTPUT
GND (0 V)
26
(1.02) 20
(0.79)
7
(0.28)
14
(0.55)
8
(0.31)
4
(0.16)
20
(0.79)
14
(0.55)
6
(0.24) 3(0.12)
7.5
(0.30)
2.5
(0.10)
1.25
(0.05)
5
(0.20)
3
(0.12)
4.2
(0.17)
JEE-SPY302, EE-SPY402
Sensing face
Operation
indicator
Two, 3.2 dia.
holes
Three, 0.635
(3) (2) (1)
Terminal Arrangement
(1)
(2)
(3)
VCC
OUT OUTPUT
GND (0 V)
26
(1.02) 20
(0.79)
7
(0.28)
14
(0.55)
8
(0.31)
4
(0.16)
20
(0.79)
6
(0.24) 3(0.12)
7.5
(0.30)
2.5
(0.10)
1.25
(0.05)
5
(0.20)
3
(0.12)
4.2
(0.17)
3.5
(0.14)
EE--SPY301/401/302/402 EE--SPY301/401/302/402
6
JEE-1002 CONNECTOR JEE-1003 CONNECTOR
t0.25
16.72
52.5 1,000±20
3±1
6
(0.24)
16
(0.63)
5.5
(0.22)
1.2
(0.05) 0.6
(0.02)
4
(0.16)
13.5 (0.53)
11.5 (0.45)
1.2
(0.05)
6
(0.24)
21.5
(0.85)
6
(0.24)
3
(0.12)
11 (0.43)
0.75
(0.03)
1.75
(0.07)
4.9
(0.19)
10.7
(0.42) 1.0
(0.04)
5.0
(0.20)
2.5
(0.10)
JEE-SPY301 + EE-1003
10.7
(0.42)
20
(0.79)
JEE-1003A CONNECTOR HOLDER
Two, 3.2 dia.
holes
1
1
25.5 (1.00)
20 (0.79)
14.2 (0.56)
5.7
(0.22)
2.9
(0.11)
8
(0.31)
1.25 (0.05)
1.8 (0.07)
5(0.20)
4.2
(0.17)
1
(0.04)
3.5
(0.14)
11
(0.43)
2.5
(0.10)
2 (0.08)
2 (0.08)
EE--SPY301/401/302/402EE--SPY301/401/302/402
Precautions
Refer to the Technical Information Section for general
precautions.
JWIRING
A cable with a thickness of 0.3 mm2or AWG22 min. and a length
of 2 m max. must be connected to the output terminals.
To use a cable longer than 2 m, attach a capacitor with a
capacitance of approximately 10 µF to the wires, as shown
below. The distance between the terminal and the capacitor must
bewithin2m:
2mmax
A capacitance of
10 µFmin.
5to24VDC
Extension
cable
0V
OUT
Do not solder the cable to the connectors. Use the EE-1002
Connector or EE-1003 Connector (with a 1-m cable attached) to
connect the cable to the output terminals.
Use the EE1003A Connector Holder to prevent accidental
disconnection of the EE-1003 Connector from the
EE-SPY301/401/302/402 Photomicrosensor.
Do not impose excessive force on the terminals (refer to the
diagram below). Excess force will damage the terminals.
Terminal
No
Do not disconnect the EE-1001 or EE-1006 Connector from the
photomicrosensor when power is supplied to the
photomicrosensor, or sensor damage could result.
If the metal mounting base is subjected to inductive electrical
noise, the photomicrosensor can be activated accidentally. If
noise is a problem, take the following countermeasures:
1. Connect the negative terminal to the mounting base so that
there will be no difference in electric potential between the
photomicrosensor and mounting base.
2. Connect the negative terminal to the mounting base via a
0.47-µF capacitor.
3. Insert a plastic insulating plate with a thickness of approxi-
mately 10 mm between the photomicrosensor and mounting
base.
Wire as shown by the following illustration to connect a small
inductive load (a relay for example) to the photomicrosensor. A
diode must be connected parallel to the relay to absorb the
reverse voltage.
OUT
Relay
5to24VDC
0V
D
When using a standard switching regulator, ground the FG and G
terminal to ensure that the photomicrosensor will be in a stable
operating condition.
JPOWER SUPPLY
When using a standard switching regulator, ground the FG and G
terminal to ensure that the photomicrosensor will be in a stable
operating condition.
G
FG
OUT
Switching
regulator
Cat. No. GC APMS-1 09/02 Specifications subject to change without notice. Printed in U.S.A.
OMRON ELECTRONICS LLC
OneEastCommerceDrive
Schaumburg, IL 60173
NOTE: DIMENSIONS SHOWN ARE IN MILLIMETERS. To convert millimeters to inches divide by 25.4.
1-800-55-OMRON
OMRON CANADA, INC.
885 Milner Avenue
416-286-6465
R
OMRON ON--LINE
Global -- http://www.omron.com
USA -- http://www.omron.com/oei
Canada -- http://www.omron.com/oci
Toronto, Ontario M1B 5V8
