Sharp PD413PI Datasheet

PD413PI

PD413PI

High Speed Type Photodiode

■

Features

1. Built-in visible light cut-off filter
(Sensitivity wavelength range : 750 to 1070 nm)

2. Half intensity angle : ∆θ : ± 45˚

■

Applications

1. Portable information terminal equipment

2. Personal computers

3. Printers

■

Absolute Maximum Ratings

Parameter Symbol Rating Unit
Reverse voltage
Power dissipation
Operating temperature
Storage temperature

*1

Soldering temperature

*1 For 5 seconds at the position of 2.15 mm from bottom face of resin package

V

R

P 150 mW

opr

stg

sol

-25to+85

T
T
T

32 V

- 40 to + 100
260 ˚C

■

Outline Dimensions

Detector center

(blue)

2-0.45

4.0

0.4MAX.

Rest of gate

Mark

0.8

+0.2

- 0.1

(

2.54

8˚ 8˚

12

(Ta=25˚C)

˚C
˚C

2.4

±0.2

)

2.15

2-0.77

MIN.

R1.75 ±0.1

2.5

0.5

± 0.2

3.75

± 0.2

5.0

-1.0

+1.5

17.15

1 Anode
2 Cathode

8˚

8˚

2-0.4

1.5

+0.2

-0.1

2.0 ±0.2

(Unit : mm)

0.5

epoxy resin

Black visible light cut

1

2

Electro-optical Characteristics

■

Parameter Symbol
Shortcircuit current
Dark current

I

SC

I
Forward voltage V
Terminal capacitance
Peak sensitivity wavelength
Half intensity angle
Response time

*2 Ev : Illuminance by CIE standard light source A (tungsten lamp)

“ In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that occur in equipment using any of SHARP's devices, shown in catalogs,

data books, etc. Contact SHARP in order to obtain the latest version of the device specification sheets before using any SHARP's device.”

C

λ

∆θ - ± 45 -

, t

t

r

Conditions TYP. MAX. Unit

*2

EV= 100 lx
VR= 10V, E = 0

d

= 1mA

FIF

V

= 3V, f= 1MHz

t

R

p

f

-

RL=1kΩ, VR= 10V

MIN.

4.5 5.4 8.1

V

-10nA

-

-2035pF

-

- 200 - ns

-

-1V

960

(Ta=25 ˚C)

µ A

-nm
˚

PD413PI

Fig. 1 Power Dissipation vs. Ambient

Temperature

200

Fig. 2 Spectral Sensitivity

100

90

150

80
70
60

100

50
40
30

50

Power dissipation P (mW)

Relative sensitivity (%)

20
10

0

-25

025

50 75 10085

Ambient temperature Ta (˚C

)

0
600 700 800 900 1 000 1 100 1 200

Wavelength λ (nm)

Fig. 3 Shortcircuit Current vs. Illuminance Fig. 4 Dark Current vs. Ambient Temperature

1 000

Ta=25˚C

100

)
µA

(

SC

10

1

0.1

Shortcircuit current I

0.01

1 10 100 1 000 10 000

Illuminance Ev (lx

)

-6

10

VR=10V

-7

10

-8

10

(A)

d

-9

10

-10

10

Dark current I

-11

10

-12

10

-25 0

25 50 75 100

Ambient temperature Ta (˚C

)

Fig. 5 Dark Current vs. Reverse Voltage Fig. 6 Terminal Capacitance vs. Reverse

-7

10

5

2

-8

10

5

(A)

d

2

-9

10

5

2

Dark current I

-10

10

5

2

-11

10

-2

525252525

10

-1

10

Reverse voltage V

0

10

(V)

R

Ta=25˚C

10

Voltage

60

50

)

pF

(

t

40

30

20

Terminal capacitance C

10

0

0.05 0.1 0.2 5 10 20 50

0.5 1 2

Reverse voltage VR(V)

f = 1MHz
Ta = 25˚C