Datasheet CNZ1413 Datasheet (Panasonic)

Integrated Photosensors

CNZ1413

Integrated Photosensors

Overview

CNZ1413 are ultraminiature, highly reliable transmissive
photosensors consisting of a high-efficiency GaAs infrared light
emitting diode chip that is integrated with a high-sensitivity Si­integrated-photodetector chip in a double molded resin package.

Features

Ultraminiature : 4.2 × 4.2 mm (height : 5.2 mm)

Fast response : t

Highly precise position detection (slit width : 0.3 mm)

Gap width : 1.2 mm

With attachment positioning pin

Absolute Maximum Ratings (Ta = 25˚C)

Parameter

Input (Light
emitting diode)

Output
(Photo IC)

Temperature

*1

Input power derating ratio is 1.0 mW/˚C at Ta ≥ 25˚C.

*2

Output power derating ratio is 2.67 mW/˚C at Ta ≥ 25˚C.

PHL

= 2.5µs, t

= 6 µs (typ.) (ON1413A)

PLH

Symbol

Reverse voltage (DC) V
Forward current (DC) I
Power dissipation P
Output current I
Output voltage V
Supply voltage V
Power dissipation P
Operating ambient temperature
Storage temperature

R

F

*1

D

O

O

CC

*2

C

T

opr

T

stg

Ratings Unit

6V
50 mA
75 mW
20 mA
30 V
17 V

200 mW

–25 to +85 ˚C

– 40 to +100

˚C

A

A'

Device

4.2±0.1

center

1.2

+0.15

0.5
(R0.1)

(2-C0.3)

2-0.25

*3.2

3
4
5

–0

(1.0)

3.0

5.2

4.0 min.

1
2

(Note)

1. Tolerance unless otherwise specified is ±0.2

2. ( ) Dimension is reference

3. * is dimension at the root of leads

4. Burrs should be less than 0.15mm

(0.3)

(1.5)

SEC. A-A'

3.0±0.05
(2-C0.3)

2-ø0.8±0.05

Gate the rest

0.3 max.

1: Anode 4: V
2: Cathode 5: GND
3: V

CC

Unit : mm

4.2

Not soldered 1.0 max.

3-0.5

*2-1.27

O

Pin Connection

CNZ1413

(Normally ON type)

Anode 1

Cathode 2

Const. Voltage Cir.

3 V

CC

4 V

O

5 GND

1

CNZ1413 Integrated Photosensors

Electrical Characteristics (Ta = 25˚C)

Parameter Symbol Conditions min typ max Unit

Input
characteristics

Forward voltage (DC)
Reverse current (DC)
“H” Output current

Output
characteristics

“L” Output voltage V
Operating power voltage V
Low-level supply current
High-level supply current

Threshold input current I
Transfer
characteristics

Note) Normally ON type characteristics is shown, ( ) shows Normally OFF type.

*

Switching time measurement circuit

Hysteresis

Response time

V

F

I

R

I

OH

OL
CC

I

CCL

I

CCH

FH→L(IFL→H

I

FLH/IFHL(IFHL/IFLH

t

)*V

PHL(tPLH

t

)*V

PLH(tPHL

IF = 20mA 1.2 1.4 V
VR = 3V 10 µA
V
V

= 5V, V

CC

= 5V, I

CC

= 30V, IF = 0mA

OH

= 20mA, IF = 5mA

OL

100 µA

0.15 0.4 V

4.5 17 V

V

= 5V, IF = 5mA 2.4 5 mA

CC

V

= 5V, IF = 0mA 0.8 3 mA

CC

)

V

= 5V 5 mA

CC

)

V

CC

CC
CC

= 5V
= 5V, I

= 5mA, RL = 1kΩ 2.5(3.5)

F

= 5V, I

= 5mA, RL = 1kΩ 6(5)

FP

0.7

µs
µs

Sig.IN

Const. Voltage Cir.

50Ω

V

CC

RL = 1kΩ

Sig.OUT

(Input pulse)

(Output pulse)

t

PHLtPLH

50%

V

OH

1.5V
V

OL

t

: H L Propagation time

PHL

: L H Propagation time

t

PLH

Important Information for Soldering

1. Soldering Position

A : Make sure the distance is 0.1 mm or more.

A

Soldering bath

2. Solder Temperature and Soldering Time
Temperature : 260˚C or less
Time : within 3 seconds
Note) Avoid using reflow soldering methods.

3. Other Issues

1) Soldering should not create excessive thermal or mechanical stress on the case package or leads.
Excessive stress may cause changes in the shape or characteristics of the package or leads.

2) Be careful not to allow solder, flux, solvents, etc. to remain on the case package.
Doing so may cause problems related to transmission characteristics, etc.

2

Integrated Photosensors CNZ1413

IF , I

— Ta

60

(mA)

50

O

, I

F

40

30

20

10

O

I

F

I

O

Forward current , output current I

0

0 20406080100

– 25

Ambient temperature Ta (˚C )

I

— V

120

FT

CC

(%)

FLH

, I

FHL

100

80

I

FHL (IFLH

Ta = 25˚C

)

60

50

40

(mA)

F

30

20

Forward current I

10

0

0.4 0.8 1.2 1.6 2.42.0

0

Forward voltage VF (V)

160

= 5V

V

CC

(%)

FLH

, I

120

FHL

80

I

I

FT

F

— V

— Ta

I

FHL (IFLH

F

I

Ta = 25˚C

)

FLH (IFHL

V

— Ta

1.6

1.2

(V)

F

0.8

Forward voltage V

0.4

0
– 40 – 20

F

IF = 50mA

10mA

1mA

0 20406080100

Ambient temperature Ta (˚C )

V

— Ta

0.20

(V)

OL

)

0.15

OL

V

CC

I

OL

= 5V

= 20mA

I

60

Relative threshold input current I

40

5 101520

0

FLH (IFHL

Supply voltage VCC (V)

I

, I

— Ta

CCH

V

CC

I

CCL

I

CCH

CCL

(mA)

CCH

3

, I

CCL

2

1

L. Supply current , H. Supply current I

0

0 20406080100– 40 – 20

Ambient temperature Ta (˚C )

)

= 5V

40

Relative threshold input current I

0

– 40 – 20

0 20406080100

Ambient temperature Ta (˚C )

t

t

— I

12

PHL

10

,

PLH

(µs)

8

PLH

, t

PHL

6

4

Response time t

2

0

5 1015 253020 35

0

Forward current IF (mA)

F

VCC = 5V
Ta = 25˚C

= 1kΩ

R

L

t

PLH

t

PHL

Low level output voltage V

0.10
– 20 0 20 60 8040 100

– 40

Ambient temperature Ta (˚C )

Detecting position characteristics

120

100

(%)

O

80

60

40

Relative output current I

20

0

d = 0.04mm

1

234

Distance d (mm)

V

= 5V

CC

Ta = 25˚C

= 5mA

I

F

Criterion
0

d

3