PANASONIC CNZ1413

Integrated Photosensors
CNZ1413
Integrated Photosensors
Ultraminiature : 4.2 × 4.2 mm (height : 5.2 mm)
Highly precise position detection (slit width : 0.3 mm)
Gap width : 1.2 mm
2
Symbol Ratings
Reverse voltage (DC)
6
V
IF
50
mA
PD*1
75
mW
IO
20
mA
Output voltage
VO
30
V
Supply voltage
VCC
17
V
200
mW
Output current
Output
(Photo IC)
Temperature
*2
3
4
5
1: Anode
2: Cathode
3: VCC
3-0.5
*2-1.27
4: VO
5: GND
Unit
VR
Input (Light
Forward current (DC)
emitting diode)
Power dissipation
(2-C0.3)
(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
Absolute Maximum Ratings (Ta = 25˚C)
Parameter
4.2
3.0±0.05
0.5 +0.15
–0
(2-C0.3) 2-ø0.8±0.05
2-0.25
Gate the rest
0.3 max.
*3.2
1
With attachment positioning pin
4.2±0.1
1.2
(R0.1)
4.0 min.
Fast response : tPHL = 2.5µs, tPLH = 6 µs (typ.) (ON1413A)
Not soldered 1.0 max.
(1.5)
SEC. A-A'
Device
center
5.2
3.0
Features
,,,,
A'
(1.0)
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.
Unit : mm
(0.3)
A
Overview
Power dissipation
PC
Operating ambient temperature
Topr –25 to +85
˚C
Storage temperature
Tstg – 40 to +100
˚C
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.
*1
Pin Connection
CNZ1413
(Normally ON type)
Const. Voltage Cir.
Anode 1
Cathode 2
3 VCC
4 VO
5 GND
1
CNZ1413
Integrated Photosensors
Electrical Characteristics (Ta = 25˚C)
Parameter
Symbol
Forward voltage (DC)
Input
characteristics Reverse current (DC)
“H” Output current
“L” Output voltage
Output
characteristics Operating power voltage
High-level supply current
characteristics
VF
IF = 20mA
IR
VR = 3V
IOH
VCC = 5V, VOH = 30V, IF = 0mA
VOL
VCC = 5V, IOL = 20mA, IF = 5mA
typ
max
1.2
1.4
V
10
µA
100
µA
0.15
0.4
V
4.5
17
V
VCC = 5V, IF = 5mA
2.4
5
mA
ICCH
VCC = 5V, IF = 0mA
0.8
IFH→L(IFL→H) VCC = 5V
Hysteresis
IFLH/IFHL(IFHL/IFLH) VCC = 5V
tPHL(tPLH)*
tPLH(tPHL
)*
Note) Normally ON type characteristics is shown, (
* Switching time measurement circuit
VCC
RL = 1kΩ
Sig.OUT
0.7
µs
VCC = 5V, IFP = 5mA, RL = 1kΩ
6(5)
µs
) shows Normally OFF type.
50%
VOH
1.5V
VOL
(Output pulse)
,
,
,,
tPHL
tPLH
tPHL : H
tPLH : L
L Propagation time
H Propagation time
Important Information for Soldering
,,,
,,,
1. Soldering Position
A
A : Make sure the distance is 0.1 mm or more.
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
mA
mA
2.5(3.5)
(Input pulse)
50Ω
3
5
VCC = 5V, IF = 5mA, RL = 1kΩ
Sig.IN
Const. Voltage Cir.
Unit
ICCL
Threshold input current
Response time
min
VCC
Low-level supply current
Transfer
Conditions
Integrated Photosensors
CNZ1413
IF , IO — Ta
IF — VF
1.6
Ta = 25˚C
IF
30
IO
10
VF (V)
40
Forward voltage
40
20
IF = 50mA
50
IF (mA)
50
30
20
40
60
80
0
100
0
0.4
0.4
0.8
IFHL (IFLH)
80
IFLH (IFHL)
60
0
5
10
15
IFHL , IFLH (%)
Ta = 25˚C
100
1.2
1.6
2.0
0
– 40 – 20
2.4
20
IFHL (IFLH)
120
80
IFLH (IFHL)
40
0
– 40 – 20
0
20
40
60
80
20
40
60
80
Ambient temperature Ta (˚C )
VCC = 5V
Ta = 25˚C
RL = 1kΩ
IO (%)
10
tPLH
8
60
80
100
2
tPHL
0
5
10
15
20
25
30
Forward current IF (mA)
VCC = 5V
Ta = 25˚C
IF = 5mA
100
Criterion
0
80
4
0
40
d = 0.04mm
Relative output current
tPHL , tPLH (µs)
Response time
100
20
Detecting position characteristics
6
0
0
Ambient temperature Ta (˚C )
120
VCC = 5V
0
– 40 – 20
100
0.15
tPHL , tPLH — IF
ICCH
80
VCC = 5V
IOL = 20mA
0.10
– 40 – 20
100
12
1
60
VCC = 5V
ICCL , ICCH — Ta
2
40
0.20
Ambient temperature Ta (˚C )
ICCL
20
VOL — Ta
160
Supply voltage VCC (V)
3
0
Ambient temperature Ta (˚C )
IFT — Ta
120
Relative threshold input current
IFHL , IFLH (%)
1mA
0.8
Forward voltage VF (V)
IFT — VCC
Relative threshold input current
10mA
VOL (V)
20
Low level output voltage
0
Ambient temperature Ta (˚C )
40
1.2
10
0
– 25
L. Supply current , H. Supply current ICCL , ICCH (mA)
VF — Ta
60
Forward current
Forward current , output current IF , IO (mA)
60
35
d
60
40
20
0
1
2
3
4
Distance d (mm)
3