Panasonic MA3J745D Datasheet

Schottky Barrier Diodes (SBD)

1.25 ± 0.1

1.3 ± 0.1

2.0 ± 0.2

0.9 ± 0.1

0.650.65

0.425 0.425

0.3

+ 0.1

− 0

2.1 ± 0.1

0.15

+ 0.1

− 0.05

1

2

3

MA3J745D

Silicon epitaxial planar type

For switching circuits

■ Features

•

Optimum for low-voltage rectification because of its low forward
rise voltage (V

•

Optimum for high-frequency rectification because of its short
reverse recovery time (t

■ Absolute Maximum Ratings Ta = 25°C

Reverse voltage (DC) V

Peak reverse voltage V

Forward current

(DC)

Peak forward

current

Junction temperature T

Storage temperature T

Note) * : Value per chip

)

F

)

rr

Parameter Symbol Rating Unit

30 V

30 V

30 mA

20

150 mA

110

125 °C

−55 to +125 °C

Single I

*

Double

Single I

*

Double

R

RM

F

FM

j

stg

Unit : mm

1 : Cathode 1
2 : Cathode 2
3 : Anode 1, 2

EIAJ : SC-70

Flat S-Mini Type Package (3-pin)

Marking Symbol: M3E

Internal Connection

1

3

2

■ Electrical Characteristics Ta = 25°C

Reverse current (DC) I

Forward voltage (DC) V

Terminal capacitance C

Reverse recovery time

Detection efficiency η Vin = 3 V

Note) 1. Schottky barrier diode is sensitive to electric shock (static electricity, etc.). Due attention must be paid on the charge of a

2. Rated input/output frequency: 2 000 MHz

3. * : trr measuring instrument

Parameter Symbol Conditions Min Typ Max Unit

R

F1

V

F2

*

t

rr

VR = 30 V 30 µA

IF = 1 mA 0.3 V

IF = 30 mA 1.0 V

VR = 1 V, f = 1 MHz 1.5 pF

t

IF = IR = 10 mA 1.0 ns

Irr = 1 mA, RL = 100 Ω

, f = 30 MHz 65 %

(peak)

RL = 3.9 kΩ, CL = 10 pF

human body and the leakage of current from the operating equipment.

Bias Application Unit N-50BU

Pulse Generator
(PG-10N)

= 50 Ω

R

s

A

W.F.Analyzer
(SAS-8130)

= 50 Ω

R

i

Input Pulse Output Pulse

t

t

p

r

10%

90%

V

R

t

p

= 0.35 ns

t

r

δ = 0.05

t

= 2 µs

I

F

= 10 mA

I

F

= 10 mA

I

R

= 100 Ω

R

L

t

rr

I

= 1 mA

rr

t

1

MA3J745D

Schottky Barrier Diodes (SBD)

IF  V

3

10

2

10

)

Ta = 125°C

mA

(

F

10

1

Forward current I

−1

10

−2

10

0 0.4 0.8 1.2 1.6 2.0 2.4

F

75°C 25°C

– 20°C

Forward voltage VF (V

Ct  V

3.2

2.8

)
pF

2.4

(

t

2.0

1.6

1.2

R

)

f = 1 MHz

= 25°C

T

a

VF  T

1.0

0.8

)
V

(

F

0.6

0.4

Forward voltage V

0.2

0

−40 0 40 80 120 160

a

IF = 30 mA

Ambient temperature Ta (°C

IR  T

4

10

3

10

)
µA

(

R

2

10

10

a

VR = 30 V

3 V
1 V

10 mA

1 mA

IR  V

4

10

3

10

)
µA

(

R

2

10

10

Reverse current I

1

−1

10

0 5 10 15 20 25 30

)

Reverse voltage VR (V

R

Ta = 125°C

75°C

25°C

)

0.8

Terminal capacitance C

0.4

0

0 5 10 15 20 25 30

Reverse voltage VR (V

Reverse current I

1

−1

10

)

−40 0 40 80 120 160 200

Ambient temperature Ta (°C

)

2