Panasonic PN334 User Manual

This product complies with the RoHS Directive (EU 2002/95/EC).

50 Ω

λ

P

= 900 nm

tr: Rise time

t

f

: Fall time

Sig. in

R

L

V

R

Sig. out

(Input pulse)

(Output pulse)

10%

90%

t

r

t

f

PIN Photodiodes

PNZ334 (PN334)

Silicon planar type

For optical control systems

 Features

 Plastic type package (φ5)
 High coupling capabillity suitable for plastic fiber
 High quantum efficiency
 High-speed response

Absolute Maximum Ratings Ta = 25°C

Parameter Symbol Rating Unit

Reverse voltage V

Power dissipation P

Operating ambient temperature T

Storage temperature T

R

D

opr

stg

30 V

100 mW

–25 to +85

–30 to +100

°C

°C

Electrical-Optical Characteristics Ta = 25°C±3°C

Parameter Symbol Conditions Min Typ Max Unit

1

Photocurrent

Drain current I

Terminal capacitance C

Peak sensitivity wavelength

Half-power angle

Rise time

Fall time

Note) 1. Measuring methods are based on JAPANESE INDUSTRIAL STANDARD JIS C 7031 measuring methods for diodes.

2. Spectral sensitivity characteristics: Sensitivity for wave length over 400 nm maximum sensitivity ratio is 100%.

3. This device is designed by disregarding radiation.

4. *1: Source: Tungsten lamp (color temperature 2 856K)

*2: Switching time measurement circuit

*

2

*

2

*

I

VR = 10 V, L = 1 000 lx 5.0 7.0

L

VR = 10 V 0.1 10 nA

D

VR = 0 V, f = 1 MHz 6 pF

t

λ

VR = 10 V 850 nm

PD

The angle when the photocurrent is

θ

halved

t

r

VR = 10 V, RL = 50 W

t

f

70

2 ns

2 ns

µA

°

Publication date: January 2009

Note) The part number in the parenthesis shows conventional part number.

SHE00042DED

1

SHE00042DED

This product complies with the RoHS Directive (EU 2002/95/EC).

PNZ334

2

Rise time

t

r

,

Fall time

t

f

(

ns

)

Load resistance RL (kΩ)

Coupling loss

L

X

, L

Y

(

dB

)

Distance X, Y (mm)

Coupling loss

L

Z

(

dB

)

Distance Z (mm)

Photocurrent I

L

(

µA

)

Illuminance L (lx

)

Photocurrent I

L

(

µA

)

Ambient temperature Ta (°C

)

Terminal capacitance C

t

(pF)

Reverse voltage VR (V)

Photocurrent I

L

(

µA

)

Reverse voltage VR (V)

Dark current I

D

(nA)

Ambient temperature Ta (°C

)

Relative sensitivity ∆S

(

%

)

Wavelength λ (nm

)

10

3

10

2

10

1

10

−1

10

−2

10 10

2

10

3

10

4

1

20

16

12

8

0

4

−40 0 40 80

10

2

10

1

10

−1

10

−2

10

−3

−40

0 40 80

VR = 10 V
L = 1 000 lx

VR = 10 V

VR = 10 V
Ta = 25°C

X, Y = 0 mm

Ta = 25°C

16

12

8

4

10 30 40 5020

0

0

10

3

10

2

1

10

1 10

2

10

10

−1

10

−1

Ta = 25°C

VR = 10 V
Ta = 25°C

100

80

60

40

20

200 600400 800 1 2001 000

0

10

3

10

2

10

1

10

−1

10

−2

10

−1

1 10

0

2

1

3

4

0.4 0.8 1.2 1.6

5

0

2

1

3

4

5

0

− 0.8

− 0.4

0.40 0.8

L = 1 000 lx

L = 500 lx

Y

X

Z

Fiber

φ1 mm

Y

X

Z

Fiber

φ1 mm

Z = 0 mm

Z = 0.3 mm

IL  L

IL  V

R

Ct  V

R

IL  T

a

ID  T

a

∆

S 

λ

tr , tf  RL LZ  Z L

X, LY

 X, Y