MM3Z3V3CWF - Lite-On Semiconductor Corp.

MM3Z2V4CWF THRU MM3Z75VCWF

SURFACE MOUNT

ZENER DIODE

REVERSE VOLTAGE – 2.4 to 75 Volts

POWER DISSIPATION – 0.2 Watts

FEATURES

• Wide Zener Voltage Range Selection, 2.4V to 75V

• VZ Tolerance Selection of ±5% (C Series)

• Flat Lead SOD-323F Plastic Package

• Surface Device Type Mounting

• Green EMC

• Matte Tin(Sn) Lead Finish

• RoHS compliant

• Band Indicates Cathode

MECHANICAL DATA

• Case: SOD-323F Plastic

SOD-323F

DIM. MIN.

MAX.

A 1.60 1.80

B 2.30 2.70

C 1.15 1.35

D 0.25 0.40

E 0.80 1.00

F 0.05 0.25

All Dimensions in millimeter

Maximum Ratings & Thermal Characteristics

@ T

A

= 25℃ unless otherwise specified

Characteristic Symbol

Value

Unit

Power

Dissipation

PD

200

mW

Storage

Temperature

Range

TSTG

-65

to

+150

°C

Operating

Temperature

Range

TOPR

-65

to

+150

°C

Device Marking :

Device P/N Marking Pin Diagram Equivalent Circuit Diagram

MM3ZxxxCWF See below table

Electrical Characteristics

@

T

A

= 25℃ unless otherwise specified

Symbol

Parameter

V

Z

Reverse Zener Voltage @ IZT

I

ZT

Reverse Current

Z

ZT

Maximum Zener Impedance @ IZT

I

ZK

Reverse Current

Z

ZK

Maximum Zener Impedance @ IZK

I

R

Reverse Leakage Current @ VR

V

R

Reverse Voltage

I

F

Forward Current

V

F

Forward Voltage @ IF

REV.1, May-2013, KSJR14

Electrical

Characteristics

T

A

=

25°C

unless

otherwise

noted

Zener Voltage Maximum Zener

Impedance

Maximum

Reverse Current

V

Z

@ I

ZT

I

ZT

Z

ZT

@ I

ZT

I

ZK

Z

ZK

@ I

ZK

I

R

@ V

R

Device Device

marking

Min Nom

Max mA

Ω

ΩΩ

Ω

mA

Ω

ΩΩ

Ω

uA V

MM3Z2V4CWF

Z0 2.28 2.4 2.52 5 100 1 564 45 1

MM3Z2V7CWF

Z1 2.57 2.7 2.84 5 100 1

564 18 1

MM3Z3V0CWF

Z2 2.85 3.0 3.15 5 100 1

564 9 1

MM3Z3V3CWF

Z3 3.14 3.3 3.47 5 95 1

564 4.5 1

MM3Z3V6CWF

Z4 3.42 3.6 3.78 5 90 1

564 4.5 1

MM3Z3V9CWF

Z5 3.71 3.9 4.10 5 90 1

564 2.7 1

MM3Z4V3CWF

Z6 4.09 4.3 4.52 5 90 1

564 2.7 1

MM3Z4V7CWF

Z7 4.47 4.7 4.94 5 80 1

470 2.7 2

MM3Z5V1CWF

Z8 4.85 5.1 5.36 5 60 1

451 1.8 2

MM3Z5V6CWF

Z9 5.32 5.6 5.88 5 40 1

376 0.9 2

MM3Z6V2CWF

ZA 5.89 6.2 6.51 5 10 1

141 2.7 4

MM3Z6V8CWF

ZB 6.46 6.8 7.14 5 15 1

75 1.8 4

MM3Z7V5CWF

ZC 7.11 7.5 7.86 5 15 1

75 0.9 5

MM3Z8V2CWF

ZD 7.79 8.2 8.61 5 15 1

75 0.63 5

MM3Z9V1CWF

ZE 8.65 9.1 9.56 5 15 1

94 0.45 6

MM3Z10VCWF

ZF 9.50 10 10.50

5 20 1

141 0.18 7

MM3Z11VCWF

ZG 10.45 11 11.55

5 20 1

141 0.09 8

MM3Z12VCWF

ZH 11.40 12 12.60

5 25 1

141 0.09 8

MM3Z13VCWF

ZJ 12.35 13 13.65

5 30 1

160 0.09 8

MM3Z15VCWF

ZK 14.25 15 15.75

5 30 1

188 0.045 10.5

MM3Z16VCWF

ZL 15.20 16 16.80

5 40 1

188 0.045 11.2

MM3Z18VCWF

ZM 17.10 18 18.90

5 45 1

212 0.045 12.6

MM3Z20VCWF

ZN 19.00 20 21.00

5 55 1

212 0.045 14.0

MM3Z22VCWF

ZP 20.90 22 23.10

5 55 1 235 0.045 15.4

MM3Z24VCWF

ZR 22.80 24 25.20

5 70 1 235 0.045 16.8

MM3Z27VCWF

ZS 25.65 27 28.35

2 80 0.5 282 0.045 18.9

MM3Z30VCWF

ZT 28.50 30 31.50

2 80 0.5

282 0.045 21.0

MM3Z33VCWF

ZU 31.35 33 34.65

2 80 0.5

306 0.045 23.0

MM3Z36VCWF

ZV 34.20 36 37.80

2 90 0.5

329 0.045 25.2

MM3Z39VCWF

ZW 37.05 39 40.95

2 130 0.5

329 0.045 27.3

MM3Z43VCWF

ZX 40.85 43 45.15

2 150 0.5

353 0.045 30.1

MM3Z47VCWF

ZY 44.65 47 49.35

2 170 0.5

353 0.045 33.0

MM3Z51VCWF

Z− 48.45 51 53.55

2 180 0.5

376 0.045 35.7

MM3Z56VCWF

Z= 53.20 56 58.80

2 200 0.5

400 0.045 39.2

MM3Z62VCWF

Z≡ 58.90 62 65.10

2 215 0.5

423 0.045 43.4

MM3Z68VCWF

Z> 64.60 68 71.40

2 240 0.5

447 0.045 47.6

MM3Z75VCWF

Z< 71.25 75 78.75

2 255 0.5

470 0.045 52.5

V

F

Forward Voltage = 1 V Maximum @ I

F

= 10 mA for all types

Notes:

1.

The

Zener

Voltage

(

V

Z

)

is

tested

under

pulse

condition

of

10mS.

2.

The

device

numbers

listed

have

a

standard

tolerance

on

the

nominal

zener

voltage

of

±5%.

3.

For

detailed

information

on

price,

availability

and

delivery

of

nominal

zener

voltages

between

the

voltages

shown

and

tighter voltage

tolerances,

contact

your

nearest

Liteon Semiconductor Corp.

representative.

4.

The

zener

impedance

is

derived

from

the

60-cycle

ac

voltage,

which

results

when

an

ac

current

having

an

rms

value

equal

to

10%

of

the

dc

zener

current

(

I

ZT

or

I

ZK

)

is

superimposed

to

I

ZT

or

I

ZK.

MM3Z2V4CWF THRU MM3Z75VCWF

Typical Characteristics

Fig.1 Power Derating Curve Fig.2 Typical Zener Breakdown Characteristics

Fig.3 Typical Zener Breakdown Characteristics Fig.4 Typical Total Capacitance vs. Nominal Zener

Voltage

Fig.5 EFFECT OF ZENER VOLTAGE ON ZENER

IMPEDANCE

Fig.6 TYPICAL FORWARD VOLTAGE

MM3Z2V4CWF THRU MM3Z75VCWF

Typical Characteristics

Fig.7 TYPICAL LEAKGE CURRENT

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MM3Z2V4CWF THRU MM3Z75VCWF

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at any time without notice. Customers should obtain and confirm the latest product

information and specifications before final design, purchase or use.

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are purchased or used for any unintended or unauthorized application.

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LSC.

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systems without express written approval of LSC.