EE-SY313 Datasheet EE-SY313, EE-SY413 | P1-P2

168 EE-SY313/-SY413 Photomicrosensor (Reflective)

Photomicrosensor (Reflective)

EE-SY313/-SY413

■ Dimensions

Note: All units are in millimeters unless otherwise indicated.

■ Features

• Incorporates an IC chip with a built-in detector element and ampli-

fier.

• Incorporates a detector element with a built-in temperature com-

pensation circuit.

• Compact reflective Photomicrosensor (EE-SY310/-SY410) with a

molded housing and a dust-tight cover.

• A wide supply voltage range: 4.5 to 16 VDC

• Directly connects with C-MOS and TTL.

• Dark ON model (EE-SY313)

• Light ON model (EE-SY413)

• Recommended sensing distance = 4.4 mm

■ Absolute Maximum Ratings (Ta = 25°C)

Note: 1. Refer to the temperature rating chart if the ambient temper-

ature exceeds 25°C.

2. The pulse width is 10 μs maximum with a frequency of

100 Hz.

3. Complete soldering within 10 seconds.

■ Electrical and Optical Characteristics (Ta = 25°C)

Internal Circuit

Dimensions Tolerance

3 mm max.

±0.3

< mm ≤ 6 ±0.375

< mm ≤ 10 ±0.45

< mm ≤ 18 ±0.55

< mm ≤ 30 ±0.65

Terminal No. Name

A Anode

K Cathode

V Power supply

(Vcc)

O Output (OUT)

G Ground (GND)

Five, 0.5

15 to 18

17 to 24

Unless otherwise specified, the

tolerances are as shown below.

Item Symbol Rated value

Emitter Forward current I

50 mA (see note 1)

Reverse voltage V

4 V

Pulse forward

current

1 A

(see note 2)

Detector Power supply

voltage

16 V

Output voltage V

OUT

28 V

Output current I

OUT

16 mA

Permissible

output dissipa-

tion

OUT

250 mW (see note 1)

Ambient tem-

perature

Operating Topr –40°C to 65°C

Storage Tstg –40°C to 85°C

Soldering temperature Tsol 260°C

(see note 3)

Item Symbol Value Condition

Emitter Forward voltage V

1.2 V typ., 1.5 V max. I

= 20 mA

Reverse current I

0.01 μA typ., 10 μA max. V

= 4 V

Peak emission wave-

length

920 nm typ. I

= 20 mA

Detector Low-level output voltage V

0.12 V typ., 0.4 V max. Vcc = 4.5 to 16 V, I

= 16 mA, without incident light (EE-

SY313), with incident light (EE-SY413) (see notes 1 and

High-level output volt-

age

15 V min. Vcc = 16 V, R

= 1 kΩ, with incident light (EE-SY313), with-

out incident light (EE-SY413) (see notes 1 and 2)

Current consumption I

3.2 mA typ., 10 mA max. Vcc = 16 V

Peak spectral sensitivity

wavelength

870 nm typ. V

= 4.5 to 16 V

LED current when output is OFF I

10 mA typ., 20 mA max. V

= 4.5 to 16 V

LED current when output is ON

Hysteresis ΔH 17% typ. V

= 4.5 to 16 V

Response frequency f 50 pps min. V

= 4.5 to 16 V, I

= 20 mA, I

= 16 mA

Response delay time t

PLH

PHL

)3 μs typ. V

= 4.5 to 16 V, I

= 20 mA, I

= 16 mA

Response delay time t

PHL

PLH

) 20 μs typ. V

= 4.5 to 16 V, I

= 20 mA, I

= 16 mA

Be sure to read Precautions on page 24.

EE-SY313/-SY413 Photomicrosensor (Reflective) 169

■ Engineering Data

Note: The values in the parentheses apply to the EE-SY413.

Input

Output

Input

Output

EE-SY313 EE-SY413

200 mm dia.

15 mm

4.4 mm

15 mm

(tPLH)

PHL)(tPLH)(tPHL)

Note: 1. With incident light" denotes the condition whereby

the light reflected by white paper with a reflection

factor of 90% at a sensing distance of 4.4 mm is

received by the photo IC when the forward current (I

of the LED is 20 mA.

2. Sensing object: White paper with a reflection factor of

90% at a sensing distance of 4.4 mm.

3. Hysteresis denotes the difference in forward LED

current value, expressed in percentage, calculated

from the respective forward LED currents when the

photo IC is turned from ON to OFF and when the

photo IC is turned from OFF to ON.

4. The value of the response frequency is measured by rotating

the disk as shown below.

5. The following illustrations show the definition of response delay

time. The value in the parentheses applies to the EE-SY413.

Forward Current vs. Collector

Dissipation Temperature Rating

Forward Current vs. Forward

Voltage Characteristics (Typical)

LED Current vs. Supply Voltage

(Typical)

LED Current vs. Ambient

Temperature Characteristics

(Typical)

Low-level Output Voltage vs.

Output Current (Typical)

Current Consumption vs. Supply

Voltage (Typical)

Response Delay Time vs. Forward

Current (Typical)

Sensing Position Characteristics

(Typical)

Low-level Output Voltage vs.

Ambient Temperature

Characteristics (Typical)

tPLH (tPHL)

Sensing object: White

paper with a reflection

factor of 90%

Operate

Release

Distance d

(mm)

Distance d

(mm)

OFF (I

ON)

ON (I

OFF)

OFF (I

ON)

ON (I

OFF)

= 16 mA

= 5 mA

VOUT

(EE-SY3@@)

OUT

(EE-SY4@@)

tPHL (tPLH)

= 20 mA

= 5 V

Ta = 25°C

Current consumption Icc (mA)

Forward voltage V

(V)

Supply voltage V

(V)

Low level output voltage V

(V)

Supply voltage V

(V)

Forward current I

(mA)

= 5 V

= 0 mA (20 mA)

Ta = 25°C

= 0 mA (15 mA)

VCC = 5 V

= 330 Ω

Ta = 25

°C

Ambient temperature Ta (°C)

Output allowable dissipation P

(mW)

Forward current I

(mA)

Forward current I

(mA)

LED current I

(mA)

Ta = 25°C

= 1 kΩ

Response delay time t

PHL

, t

PLH

(μs)

= 5 V

Ta = 25

°C

LED current I

(mA)

Ambient temperature Ta (°C)

= 5 V

= 330 Ω

Ta = −30°C

Ta = 25°C

Ta = 70°C

Low level output voltage V

(V)

Output current I

(mA)

Ambient temperature Ta (°C)

= 0 mA (20 mA)

P1-P2

EE-SY313

Mfr. #:

Buy EE-SY313

Manufacturer:

Omron Electronics

Description:

Optical Switches, Reflective, Photo IC Output Reflective w/IC Chip Dark ON

Lifecycle:

New from this manufacturer.

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EE-SY313

EE-SY313

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