Seme 2N2060A Datasheet

Prelim. 4/96

LAB

SEME

2N2060A

Semelab plc. Telephone +44(0)1455 556565. Fax +44(0)1455 552612.

E-mail: sales@semelab.co.uk

Website: http://www.semelab.co.uk

DU AL AMPLIFIER

TRANSIST OR

Small Signal Dual Transistor

in a TO–77 Hermetic Package.

V

CEO

Collector – Emitter Voltage

V

CER

Collector – Emitter Voltage

V

CBO

Collector – Base Voltage

V

EBO

Emitter – Base Voltage

I

C

Collector Current

TJ, T

stg

Operating and Storage Junction Temperature Range

P

D

Total Device Dissipation @ TA= 25°C

Derate above 25°C

P

D

Total Device Dissipation @ TC= 25°C

Derate above 25°C

60V
80V

100V

7V

500mA

–65 to +200°C

Per Side Total Device

0.5W 0.6W

2.86mW/°C 3.43mW/°C

1.5W 3.0W

8.61mW/°C 17.2mW/°C

MECHANICAL DATA

Dimensions in mm (inches)

TO–77 METAL PACKAGE

ABSOLUTE MAXIMUM RATINGS (T

case

= 25°C unless otherwise stated)

PIN 1 – Collector
PIN 2 – Base
PIN 3 – Emitter

PIN 4 – Emitter
PIN 5 – Base
PIN 6 – Collector

8.51 (0.335)

9.40 (0.370)

7.75 (0.305)

8.51 (0.335)

6.10 (0.240)

6.60 (0.260)

Min.

12.7 (0 .5 00)

0.41 (0.016)

0.53 (0.021)

5.08

(0.200)

2.54

(0.100)

1.02

(0.040)

Max.

2.54

(0.100)

4

5

6

3

2

1

0.74 (0.029)

1.14 (0.045)

45˚

0.71 (0.028)

0.86 (0.034)

Prelim. 4/96

LAB

SEME

2N2060A

Semelab plc. Telephone +44(0)1455 556565. Fax +44(0)1455 552612.

E-mail: sales@semelab.co.uk

Website: http://www.semelab.co.uk

Parameter Test Conditions Min. Typ. Max. Unit

IC= 100mA RBE£10W
IC= 30mA IB= 0
IC= 100mAIE= 0
IE= 100mAIC= 0
VCB= 80V
IE= 0 TA= 150°C
VBE= 5V IC= 0

IC= 10mAVCE= 5V
IC= 100mAVCE= 5V
IC= 1mA VCE= 5V
IC= 10mA VCE= 5V
IC= 50mA IB= 5mA
IC= 50mA IB= 5mA

IC= 50mA VCE= 10V
f = 20MHz
IE= 0 VCB= 10V
f = 1MHz
IC= 0 VBE= 0.5V
f = 1MHz
I

C

= 1mA VCE= 5V
f = 1kHz
I

C

= 1mA VCB= 10V
f = 1kHz
IC= 1mA VCE= 5V
f = 1kHz

IC= 100mAVCE= 5V
IC= 1mA VCE= 5V
I

C

= 100mAVCE= 5V
I

C

= 1mA VCE= 5V
I

C

= 100mAVCE= 5V
TA= –55 to +125°C

ELECTRICAL CHARACTERISTICS (T

A

= 25°C unless otherwise stated)

V

CER(sus)*

Collector – Emitter Breakdown Voltage

V

CEO(sus)*

Collector – Emitter Sustaining Voltage

V

(BR)CBO

Collector – Base Breakdown Voltage

V

(BR)EBO

Emitter – Base Breakdown Voltage

I

CBO

Collector Cut-off Current

I

EBO

Emitter Cut-off Current

h

FE

DC Current Gain

V

CE(sat)

Collector – Emitter Saturation Voltage

V

BE(sat)

Base – Emitter Saturation Voltage

f

T

Current Gain Bandwidth Product

C

ob

Output Capacitance

C

ib

Input Capacitance

h

ie

Input Impedance

h

ib

Input Impedance

h

fe

Small Signal Current Gain

h

oe

Output Admittance

h

FE1/hFE2

DC Current Gain Ratio

1

½

V

BE1-VBE2

½

Base – Emitter Voltage Differential

D(

V

BE1-VBE2

) Base – Emitter Voltage Differential

D

T Change Due To Temperature

80
60

100

7

0.002
10

2.0

25 75
30 90
40 120
50 150

0.6

0.9

60

15

85

1000 4000

20 30
50 150

16

0.9 1.0

0.9 1.0

3.0

5.0

5.0

V

V
V
V

m

A

nA

—

V

MHz

pF

pF

W

W

—

m

mhos

—

mV

m

V/°C

OFF CHARACTERISTICS

ON CHARACTERISTICS

SMALL SIGNAL CHARACTERISTICS

MATCHING CHARACTERISTICS

* Pulse Test: tp£

300ms, d£2%.

1) The lowest h

FE

reading is taken as h

FE1

for this ratio.