Panasonic MAZL120D Datasheet

Zener Diodes Composite Elements MA111

5
4

3

1

2

MAZL120D

Silicon planer type

Constant voltage, constant current, waveform
cripper and surge absorption circuit

■ Features

●

Mini type package (5-pin)

●

Four anode-common element wiring of MA8120

■ Absolute Maximum Ratings (Ta= 25˚C)

Parameter
Average forward current
Instanious forward current
Total power dissipation
Junction temperature
Storage temperature

*1Working value in a single piece
*2 With a printed-circuit board

Symbol

I

F(AV)

I

FRM

2

P

*

tot

T

j

T

stg

Rating

1

100 *

1

200 *

1

200 *

150

– 55 to + 150

Unit

mA
mA

mW

˚C
˚C

+0.2

-

0.3

2.8

+0.25

-

0.05

1.50.65±0.15 0.65±0.15

4

0.05

+0.2

-

2.9

1.9±0.10.8

3

0.95 0.95

0.1

+0.2

-

1.1

0.1 to 0.3

0 to 0.1

1 : Cathode 1 4 : Anode 1, 2
2 : Cathode 2 Anode 3, 4
3 : Cathode 3 5 : Cathode 4

Mini Type Package (5-pin)

■ Internal Connection

Unit : mm

15

2

0.05

+0.1

-

0.3

0.4±0.2

1.45±0.1

0.06

+0.1

-

0.16

1

■ Electrical Characteristics (Ta= 25˚C)

Parameter
Forward voltage
Zener voltage

Operating resistance

Reverse current
Temperature coefficient of zener voltage
Terminal capacitance

Note 1. Test method : Depend on JIS C7031 testing

2. Rated input/output frequency : 5MHz

3. * 1 : The VZ value is for the temperature of 25˚C. In other cases, carry out the temperature compensation.
* 2 : Guaranteeed at 20ms after power application
* 3 : Tj= 25 to 150˚C

Symbol

V

F

2

VZ*
R

ZK

R

Z

I

R

3

SZ*
C

t

*

=10mA

I

F

= 5mA

I

Z

= 0.5mA

I

Z

= 5mA

I

Z

= 9V

V

R

= 5mA

I

Z

= 0V, f=1MHz

V

R

Condition

min

11.40

■ Marking

12D

typ

0.9

12.00

8.4

max

1.0

12.70
80
30

0.05

25

Unit

V
V

Ω
Ω

µA

mV/˚C

pF

Zener Diodes Composite Elements MAZL120D

P

300

– Ta IF – V

tot

With a printed-circuit board

1

F

–6

10

IR – V

R

250

)
mW

(

200

tot

150

100

Power dissipation P

50

0

0 25020015010050

Ambient temperature Ta (˚C

–1

10

Ta=–20˚C

–2

10

)
A

(

–3

Z

10

–4

10

Zener current I

–5

10

IZ – V

25˚C100˚C

150˚C

–1

10

)
A

(

F

–2

10

Ta=150˚C

100˚C 25˚C

–20˚C

–7

10

)
A

(

R

–8

10

Ta=150˚C

100˚C

–3

10

Forward current I

–4

10

–5

10

0 0.2 0.4 0.6 0.8 1.0 1.2

)

Z

25

20

)
pF

(

t

15

10

Terminal capacitance C

Forward voltage VF (V

Ct – V

5

)

R

Ta=25˚C

–9

10

Reverse current I

–10

10

–11

10

024681012

25˚C

Reverse voltage VR (V

RZ – I

Z

4

10

)

3

R

10

(

Z

2

10

10

Operating resistance R

Ta=25˚C

)

–6

10

15 2553010 200

Zener voltage V

(V)

Z

0

024681012

Reverse voltage VR (V

)

1

–4

10

–3

10

Zener current IZ (A

–2

10

–1

10

)