Panasonic PNZ109CL Datasheet

Phototransistors

PNZ109CL

Silicon NPN Phototransistor

For optical control systems

Unit : mm

Features

High sensitivity : I
Wide directional sensitivity for easy use
Fast response : tr = 5 µs (typ.)
Signal mixing capability using base pin
Small size (low in height) package
Resin to cutoff visible light is used

= 2 mA (min.) (at L = 500 lx)

CE(L)

Absolute Maximum Ratings (Ta = 25˚C)

Parameter Symbol Ratings Unit

Collector to emitter voltage
Collector to base voltage
Emitter to collector voltage
Emitter to base voltage
Collector current I
Collector power dissipation
Operating ambient temperature
Storage temperature T

V

CEO

V

CBO

V

ECO

V

EBO

C

P

C

T

–25 to +85 ˚C

opr

–30 to +100 ˚C

stg

20 V
30 V

3V
5V

20 mA

100 mW

3.0±0.3

2.0±0.1

12.7 min.

ø5.75 max.

0.2±0.05

ø4.2±0.2

1.0±0.15

3-ø0.45±0.05

2.54±0.25

1.0±0.15

45±3˚

3

1

2

1: Emitter
2: Base
2: Collector

Electro-Optical Characteristics (Ta = 25˚C)

Parameter Symbol Conditions min typ max Unit

Dark current I
Collector photo current I
Peak sensitivity wave length

CEO

CE(L)

λ

Acceptance half angle θ
Rise time t
Fall time t
Collector saturation voltage

*1

Measurements were made using a tungsten lamp (color temperature T = 2856K) as a light source.

*2

Switching time measurement circuit

Sig.IN

50Ω R

V

CC

L

Sig.OUT

V

CE(sat)ICE(L)

(Input pulse)

(Output pulse)

VCE = 10V 0.05 2 µA
VCE = 10V, L = 500 lx
VCE = 10V 900 nm

P

*1

Measured from the optical axis to the half power point

*2

VCC = 10V, I

r

*2

RL = 100Ω 6 µs

f

= 1mA, L = 1000 lx

t

d

t

r

= 5mA 5 µs

CE(L)

*1

td : Delay time

: Rise time (Time required for the collector photo current to

t

90%

r

increase from 10% to 90% of its final value)

10%

: Fall time (Time required for the collector photo current to

t

t

f

f

decrease from 90% to 10% of its initial value)

2.5 4 mA

80 deg.

0.3 0.6 V

1

Phototransistors PNZ109CL

P

— Ta

120

100

(mW)

C

80

60

40

20

Collector power dissipation P

0
– 20

C

0 20406080100

Ambient temperature Ta (˚C )

I

— Ta

CEO

VCE = 10V

(µA)

CEO

10

2

10

10

1

–1

I

— V

20

Ta = 25˚C
T = 2856K

16

(mA)

CE(L)

12

8

4

Collector photo current I

0

02016812424

CE(L)

500 lx

300 lx

CE

200 lx

100 lx

50 lx

L = 10 lx

3

10

2

(mA)

10

CE(L)

10

1

–1

10

Collector photo current I

–2

10

1

Collector to emitter voltage VCE (V)

Spectral sensitivity characteristics

100

V
Ta = 25˚C

80

60

40

10

(mA)

CE(L)

I

— Ta

CE(L)

VCE = 10V
L = 100 lx
T = 2856K

1

I

— L

CE(L)

VCE = 10V
Ta = 25˚C
T = 2856K

3

10 10

2

10

4

10

Illuminance L (lx)

= 10V

CE

Dark current I

–2

10

–3

10

– 20 0 40 8020 60 100

Ambient temperature Ta (˚C )

Directivity characteristics

0˚ 10˚ 20˚ 30˚

100

80
60

40
20

Relative sensitivity

S (%)

Collector photo current I

–1

10

– 40 0 40 80 120

Ambient temperature Ta (˚C )

40˚

50˚

60˚
70˚

80˚
90˚

4

10

3

10

(µs)

r

2

10

10

Rise time t

1

–1

10

–2

Collector photo current I

Relative sensitivity S (%)

20

0

700 800 900 1000 1100 1200

600

Wavelength λ (nm)

t

— I

r

CE(L)

VCC = 10V
Ta = 25˚C

RL = 1kΩ

500Ω

100Ω

–1

10

10 10

110

CE(L)

2

(mA)

4

10

3

10

(µs)

2

f

10

10

Fall time t

1

–1

10

–2

Collector photo current I

t

— I

f

CE(L)

VCC = 10V
Ta = 25˚C

RL = 1kΩ

500Ω

100Ω

–1

10

10 10

110

CE(L)

2

(mA)

2