Datasheet IT130, IT132, IT131, IT130A Datasheet (Linear Integrated System Linear Systems)

Linear Integrated Systems

FEATURES
Direct Replacement for Intersil IT130 Series
Pin for Pin Compatible

ABSOLUTE MAXIMUM RATINGS NOTE 1

(TA= 25°C unless otherwise noted)
I

C

Collector Current 10mA

IT130A IT130 IT131 IT132

MONOLITHIC DUAL

PNP

TRANSISTORS

C1 C2

E1 E2

35

2 6

B1 B2

Maximum Temperatures

Storage Temperature Range -65°C to +200°C
Operating Junction Temperature +150°C

Maximum Power Dissipation ONE SIDE BOTH SIDES

Device Dissipation @ Free Air 250mW 500mW

B1 E1 E2 B2

26 X 29 MILS

1 7

C1 C2

BOTTOM VIEW

Linear Derating Factor 2.3mW/°C 4.3mW/°C

ELECTRICAL CHARACTERISTICS TA= 25°C (unless otherwise noted)
SYMBOL CHARACTERISTICS IT130A IT130 IT131 IT132 UNITS CONDITIONS

BV
BV
BV
BV
h

CBO
CEO
EBO
CCO

FE

Collector to Base Voltage 45 45 45 45 MIN. V IC = 10µAIE = 0
Collector to Emitter Voltage 45 45 45 45 MIN. V IC = 10µAIB = 0
Emitter-Base Breakdown Voltage 6.2 6.2 6.2 6.2 MIN. V IE = 10µAI
Collector to Collector Voltage 60 60 60 60 MIN. V IC = 10µAI
DC Current Gain 200 200 80 80 MIN. IC = 10µAV

225 225 100 100 MIN. IC = 1.0mA V

= 0 NOTE 2

C

= 0

E

CE
CE

= 5V

= 5V
VCE(SAT) Collector Saturation Voltage 0.5 0.5 0.5 0.5 MAX. V IC = 0.5mA IB = 0.05mA
I

EBO

I

CBO

C

OBO

C

C1C2

I

C1C2

f

T

Emitter Cutoff Current 1 1 1 1 MAX. nA I
Collector Cutoff Current 1 1 1 1 MAX. nA I
Output Capacitance 2 2 2 2 MAX. pF IE = 0 V
Collector to Collector Capacitance 4 4 4 4 MAX. pF V

= 0 V

C

= 0 V

E

= 0

CC

EB
CB
CB

= 3V

= 45V

= 5V

Collector to Collector Leakage Current 10 10 10 10 MAX. nA VCC= ±60V
Current Gain Bandwidth Product 110 110 90 90 MIN. MHz IC = 1mA VCE = 5V

NF Narrow Band Noise Figure 3 3 3 3 MAX. dB IC = 100µAVCE = 5V

BW = 200Hz, RG = 10 KΩ
f=1KHz

Linear Integrated Systems

4042 Clipper Court, Fremont, CA 94538 • TEL: (510) 490-9160 • FAX: (510) 353-0261

MATCHING CHARACTERISTICS @ 25°C (unless otherwise noted)
SYMBOL CHARACTERISTICS IT130A IT130 IT131 IT132 UNITS CONDITIONS

|V

BE1-VBE2

∆|(V

| Base Emitter Voltage Differential 1 2 3 5 MAX. mV I

BE1-VBE2

)|/∆T Base Emitter Voltage Differential 3 5 10 20 MAX. µV/°CI

= 10 µAVCE = 5V

C

= 10 µAVCE = 5V

C

Change with Temperature T = -55°C to +125°C

- IB2| Base Current Differential 2.5 5 25 25 MAX. nA I

|I

B1

= 10 µAVCE = 5V

C

0.195

0.175

6 LEADS

0.019

0.016

45°

0.046

0.036

TO-71

Six Lead

DIA.

0.030
MAX.

DIA.

0.100

TO-78

(8.13)

0.320

0.290

0.405

(10.29)

MAX.

0.188

0.197

(7.37)

C1 1
B1
E1

N/C

N/C

0.150

0.158

(4.78)
(5.00)

0.230

DIA.

0.209

0.150

0.115

0.500 MIN.

0.050

3

2

4

5

1

8

6

7

0.048

0.028

0.016

0.019
DIM. A

0.016

0.021
DIM. B

45°

0.029

0.045

0.305

0.335

1

0.028

0.034

0.200

3

2
8

7

0.335

0.370

4

5

6

MAX.

0.040

MIN. 0.500

SEATING

PLANE

0.100

0.100

0.165

0.185

P-DIP

C2

8

2
3
45

B2

7

E2

6

N/C

SOIC

(3.81)
(4.01)

C1 1

2

B1

3

E1

N/C

45

0.228

0.244

(5.79)
(6.20)

C2

8

B2

7

6

E2
N/C

NOTES:

1. These ratings are limiting values above which the serviceability of any semiconductor may be impaired.

2. The reverse base-to-emitter voltage must never exceed 6.2 volts; the reverse base-to-emitter current must never exceed 10 µA.

Linear Integrated Systems

4042 Clipper Court, Fremont, CA 94538 • TEL: (510) 490-9160 • FAX: (510) 353-0261