Diodes MMBT3904 Schematic [ru]

Features

Epitaxial Planar Die Construction

·

Complementary PNP Type Available

·

(MMBT3906)
Ideal for Medium Power Amplification and

·

Switching

Mechanical Data

Case: SOT-23, Molded Plastic

·

Terminals: Solderable per MIL-STD-202,

·

Method 208
Terminal Connections: See Diagram

·

Marking: K1N, R1A, 1AM

·

Weight: 0.008 grams (approx.)

·

MMBT3904

NPN SMALL SIGNAL SURFACE MOUNT TRANSISTOR

SOT-23

Dim Min Max

A

B

C

D

E

G

H

M

J

K

L

M

All Dimensions in mm

0.37 0.51

1.19 1.40

2.10 2.50

0.89 1.05

0.45 0.61

1.78 2.05

2.65 3.05

0.013 0.15

0.89 1.10

0.45 0.61

0.076 0.178

B

E

C

TOP VIEW

D

G

H

A

B

C

E

K

J

L

Maximum Ratings

Characteristic Symbol MMBT3904 Unit

Collector-Base Voltage

Collector-Emitter Voltage

Emitter-Base Voltage

Collector Current - Continuous (Note 1)

Power Dissipation (Note 1)

Thermal Resistance, Junction to Ambient (Note 1)

Operating and Storage and Temperature Range

Notes: 1. Valid provided that terminals are kept at ambient temperature.

2. Pulse test: Pulse width £ 300ms, duty cycle £ 2%.

@ TA= 25°C unless otherwise specified

V

V

V

R

T

j,TSTG

CBO

CEO

EBO

I

C

P

d

qJA

60 V

40 V

6.0 V

200 mA

350

357 K/W

-55 to +150 °C

mW

DS30036 Rev. E-2 1 of 2 MMBT3904

Electrical Characteristics

Characteristic Symbol Min Max Unit Test Condition

OFF CHARACTERISTICS (Note 2)

Collector-Base Breakdown Voltage

Collector-Emitter Breakdown Voltage

Emitter-Base Breakdown Voltage

Collector Cutoff Current

Base Cutoff Current

ON CHARACTERISTICS (Note 2)

DC Current Gain

Collector-Emitter Saturation Voltage

Base- Emitter Saturation Voltage

SMALL SIGNAL CHARACTERISTICS

Output Capacitance

Input Capacitance

Input Impedance

Voltage Feedback Ratio

Small Signal Current Gain

Output Admittance

Current Gain-Bandwidth Product

Noise Figure

SWITCHING CHARACTERISTICS

Delay Time

Rise Time

Storage Time

Fall Time

@ TA= 25°C unless otherwise specified

V

(BR)CBO

V

(BR)CEO

V

(BR)EBO

I

CEX

I

h

V

CE(SAT)

V

BE(SAT)

C

C

h

h

h

h

BL

FE

obo

ibo

oe

f

ie

re

fe

T

60 ¾ V

40 ¾ V

5.0 ¾ V

¾ 50 nA

¾ 50 nA

40
70

100

60
30

¾

0.65

¾

¾ 4.0 pF

¾ 8.0 pF

1.0 10 kW

0.5 8.0 x 10

100 400 ¾

1.0 40 mS

300 ¾ MHz

NF ¾ 5.0 dB

t

d

t

r

t

s

t

f

¾ 35 ns

¾ 35 ns

¾ 200 ns

¾ 50 ns

¾
¾

300

¾
¾

0.20

0.30

0.85

0.95

¾

V

V

= 10mA, IE= 0

I

C

= 1.0mA, IB= 0

I

C

I

= 10mA, IC= 0

E

= 30V, V

V

CE

= 30V, V

V

CE

I

= 100µA, VCE= 1.0V

C

I

= 1.0mA, VCE= 1.0V

C

I

= 10mA, VCE= 1.0V

C

I

= 50mA, VCE= 1.0V

C

I

= 100mA, VCE= 1.0V

C

= 10mA, IB= 1.0mA

I

C

I

= 50mA, IB= 5.0mA

C

= 10mA, IB= 1.0mA

I

C

I

= 50mA, IB= 5.0mA

C

= 5.0V, f = 1.0MHz, IE= 0

V

CB

= 0.5V, f = 1.0MHz, IC= 0

V

EB

-4

V

= 10V, IC= 1.0mA,

CE

f = 1.0kHz

= 20V, IC= 10mA,

V

CE

f = 100MHz

= 5.0V, IC= 100mA,

V

CE

R

= 1.0kW, f = 1.0kHz

S

= 3.0V, IC= 10mA,

V

CC

V

BE(off)

= 3.0V, IC= 10mA,

V

CC

I

= IB2= 1.0mA

B1

= 3.0V

EB(OFF)

= 3.0V

EB(OFF)

= - 0.5V, IB1= 1.0mA

Notes: 1. Valid provided that terminals are kept at ambient temperature.

2. Pulse test: Pulse width £ 300ms, duty cycle £ 2%.

DS30036 Rev. E-2 2 of 2 MMBT3904