Datasheet IT122, IT121, IT120A, IT120 Datasheet (Linear Integrated System Linear Systems)

IT120A IT120 IT121 IT122

MONOLITHIC DUAL

Linear Integrated Systems

FEATURES
Direct Replacement for Intersil IT120 Series
Pin for Pin Compatible

ABSOLUTE MAXIMUM RATINGS NOTE 1

(TA= 25°C unless otherwise noted)
I

C

Maximum Temperatures

Storage Temperature Range -65°C to +200°C
Operating Temperature Range -55°C to +150°C

Maximum Power Dissipation ONE SIDE BOTH SIDES

Device Dissipation @ Free Air 250mW 500mW
Linear Derating Factor 2.3mW/°C 4.3mW/°C

Collector Current

10mA

TRANSISTORS

C1 C2

B1 E1 E2 B2

26 X 29 MILS

NPN

B1 B2

E1 E2

35

2 6

1 7

C1 C2

BOTTOM VIEW

ELECTRICAL CHARACTERISTICS T

=25°C (unless otherwise noted)

A

SYMBOL CHARACTERISTICS IT120A IT120 IT121 IT122 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 2 2 2 2 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 220 220 180 180 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 IT120A IT120 IT121 IT122 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