Panasonic XN06115 Datasheet

Composite Transistors

2.8

+0.2
–0.3

1.50.65±0.15 0.65±0.15

1

6

5

4

3

2

1.45±0.1

0.95 0.95

1.9±0.1

+0.25
–0.05

0.3

+0.1

–0.05

0.5

+0.1

–0.05

2.9

+0.2

–0.05

1.1

+0.2

–0.1

0.8

0.4±0.2
0 to 0.05

0.16

+0.1

–0.06

0.1 to 0.3

XN6115

Silicon PNP epitaxial planer transistor

For switching/digital circuits

Features

■

●

Two elements incorporated into one package.
(Transistors with built-in resistor)

●

Reduction of the mounting area and assembly cost by one half.

Basic Part Number of Element

■

●

UN1115 × 2 elements

Absolute Maximum Ratings (Ta=25˚C)

■

Parameter Symbol Ratings Unit

Rating
of
element

Overall

Collector to base voltage
Collector to emitter voltage
Collector current I
Total power dissipation
Junction temperature
Storage temperature

V

CBO

V

CEO

C

P

T

T

j

T

stg

–50 V
–50 V

–100 mA

300 mW
150 ˚C

–55 to +150 ˚C

1 : Collector (Tr1) 4 : Base (Tr2)
2 : Base (Tr1) 5 : Emitter (Tr2)
3 : Collector (Tr2) 6 : Emitter (Tr1)

EIAJ : SC–74
Mini Type Package (6–pin)

Marking Symbol: 6X

Internal Connection

6

5

Tr1

Unit: mm

1

2

Electrical Characteristics (Ta=25˚C)

■

43

Tr2

Parameter Symbol Conditions min typ max Unit

Collector to base voltage V
Collector to emitter voltage V

Collector cutoff current

Emitter cutoff current I
Forward current transfer ratio h
Forward current transfer hFE ratio
Collector to emitter saturation voltage
Output voltage high level V
Output voltage low level V
Transition frequency f

*1

Input resistance R
Ratio between 2 elements

CBO

CEO

I

CBO

I

CEO

EBO

FE

hFE (small/large)*1VCE = –10V, IC = –5mA 0.5 0.99
V

CE(sat)

OH

OL

T

1

IC = –10µA, IE = 0 –50 V
IC = –2mA, IB = 0 –50 V
VCB = –50V, IE = 0 – 0.1 µA
VCE = –50V, IB = 0 – 0.5 µA
VEB = –6V, IC = 0 – 0.01 mA
VCE = –10V, IC = –5mA 160 460

IC = –10mA, IB = – 0.3mA – 0.25 V
VCC = –5V, VB = – 0.5V, RL = 1kΩ –4.9 V
VCC = –5V, VB = –2.5V, RL = 1kΩ – 0.2 V
VCB = –10V, IE = 1mA, f = 200MHz 80

–30% 10 +30% kΩ

1

Composite Transistors

PT — Ta

500

)

400

mW

(

T

300

200

100

Total power dissipation P

0

0 40 80 120 160

Ambient temperature Ta (˚C

XN6115

)

— V

I

C

CE

–160

–140

)

–120

mA

(

C

–100

–80

–60

–40

Collector current I

–20

0

IB=–1.0mA

0 –12–2 –10–4 –8–6

Ta=25˚C

–0.9mA

–0.8mA

Collector to emitter voltage VCE (V

)
pF

(

ob

Cob — V

6

5

4

CB

f=1MHz
I

E

Ta=25˚C

–0.7mA
–0.6mA

–0.5mA
–0.4mA

–0.3mA

–0.2mA

–0.1mA

=0

V

–100

)

V

(

–30

CE(sat)

–10

–3

–1

–0.3

–0.1

–0.03

Collector to emitter saturation voltage V

–0.01

)

–25˚C

–0.1 –0.3

Collector current IC (mA

— I

CE(sat)

25˚C

–1 –3 –10 –30 –100

IO — V

–10000

–3000

)

–1000

µA

(

O

–300

C

IC/IB=10

Ta=75˚C

400

FE

300

200

100

hFE — I

C

VCE=–10V

Ta=75˚C

25˚C

–25˚C

Forward current transfer ratio h

0

–1 –3

)

IN

)
V

(

IN

–100

–30

–10

–3

VO=–5V
Ta=25˚C

–10 –30 –100 –300 –1000

Collector current IC (mA

VIN — I

O

VO=–0.2V
Ta=25˚C

)

3

2

1

Collector output capacitance C

0

–0.1 –0.3

–1 –3 –10 –30 –100

Collector to base voltage VCB (V

2

–100

–30

–10

Output current I

–3

–1

–0.4

)

Input voltage VIN (V

–1.4–1.2–1.0–0.8–0.6

)

–1

–0.3

Input voltage V

–0.1

–0.03

–0.01

–0.1 –0.3

Output current IO (mA

–1 –3 –10 –30 –100

)