Panasonic PNZ300F Datasheet

PIN Photodiodes

PNZ0300, PNZ300F

Silicon PIN Photodiodes

For optical control systems

PNZ0300

ø4.6±0.15

Unit : mm

Glass lens

Features

Fast response which is well suited to high speed modulated light
detection

Wide spectral sensitivity
Low dark current and low noise
Good photo current linearity and wide dynamic sensitivity
Narrow directivity (PNZ0300)
Wide directivity (PNZ300F)

Absolute Maximum Ratings (Ta = 25˚C)

Parameter Symbol Ratings Unit

Reverse voltage (DC) V
Power dissipation P
Operating ambient temperature

T

Storage temperature T

R

D

opr

stg

50 V

100 mW

–25 to +85 ˚C

–30 to +100 ˚C

PNZ300F

6.3±0.3

12.7 min.

1.0±0.15

4.5±0.2

12.7 min.

1.0±0.2

12

ø5.75 max.

ø4.6±0.15

1.0±0.2

2-ø0.45±0.05

2.54±0.25

45±3˚

Glass window

2-ø0.45±0.05

2.54±0.25

1: Anode
2: Cathode

Unit : mm

1.0±0.15

ø5.75 max.

45±3˚

12

1: Anode
2: Cathode

1

PNZ0300, PNZ300F PIN Photodiodes

Electro-Optical Characteristics (Ta = 25˚C)

Parameter Symbol Conditions min typ max Unit

Dark current I

Photo current

PNZ0300

PNZ300F
Peak sensitivity wavelength
Response time tr, t
Capacitance between pins C

Acceptance half angle

*1

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

*2

Switching time measurement circuit

PNZ0300

PNZ300F

VR = 10V 0.1 10 nA

D

I

VR = 10V, L = 1000 lx

L

λ

VR = 10V 800 nm

P

*2

VR = 20V, RL = 50Ω 1ns

f

VR = 10V, f = 1MHz 7 pF

t

θ

Measured from the optical axis to the half power point

*1

30 55 µA

57 µA

10 deg.
40 deg.

λP = 800nm

50Ω

120

100

(mW)

80

D

60

40

Power dissipation P

20

Sig.IN

P

— Ta

D

VR = 10V

Sig.OUT

R

L

(Input pulse)

(Output pulse)

10

10

(µA)

L

10

Photo current I

–1

10

3

2

1

t

d

t

r

VR = 10V
Ta = 25˚C
T = 2856K

I

L

90%
10%

t

f

— L

PNZ 0300

: Delay time

t

d

: Rise time (Time required for the collector photo current

t

r

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

: Fall time (Time required for the collector photo current

t

f

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

I

— V

D

PNZ 300F

2

10

10

(nA)

D

1

Dark current I

–1

10

R

Ta = 25˚C

0

0 20406080100

– 20

Ambient temperature Ta (˚C )

–2

10

1

10 10

10

3

2

4

10

Illuminance L (lx)

–2

10

–1

10

11010

2

Reverse voltage VR (V)

2