SG2000 SERIES

4/90 Rev 1.3 6/97

INFINITY

Microelectronics Inc.

1997

11861 Western Avenue

Garden Grove, CA 92841

(714) 898-8121

FAX: (714) 893-2570

DESCRIPTION

The SG2000 series integrates seven NPN Darlington pairs with
internal suppression diodes to drive lamps, relays, and solenoids in
many military, aerospace, and industrial applications that require
severe environments. All units feature open collector outputs with
greater than 50V breakdown voltages combined with 500mA
current carrying capabilities. Five different input configurations
provide optimized designs for interfacing with DTL, TTL, PMOS, or
CMOS drive signals. These devices are designed to operate from
-55°C to 125°C ambient temperature in a 16 pin dual in line ceramic
(J) package and 20 pin Leadless Chip Carrier (LCC). The plastic
dual inline (N) is designed to operate over the commercial
temperature range of 0

C to 70°C.

FEATURES

··
··
·

Seven npn Darlington pairs

··
··
·

-55°C to 125°C ambient operating temperature range

··
··
·

Collector currents to 600mA

··
··
·

Output voltages from 50V to 95V

··
··
·

Internal clamping diodes for inductive loads

··
··
·

DTL, TTL, PMOS, or CMOS compatible inputs

··
··
·

Hermetic ceramic package

HIGH RELIABILITY FEATURES

Available to MIL-STD-883 and DESC SMD

MIL-M38510/14101BEA - JAN2001J

MIL-M38510/14102BEA - JAN2002J

MIL-M38510/14103BEA - JAN2003J

MIL-M38510/14104BEA - JAN2004J

Radiation data available

LMI level "S" processing available

HIGH VOLTAGE MEDIUM

CURRENT DRIVER ARRAYS

PARTIAL SCHEMATICS

SG2000 SERIES

4/90 Rev 1.3 6/97

INFINITY

Microelectronics Inc.

1997

11861 Western Avenue

Garden Grove, CA 92841

(714) 898-8121

FAX: (714) 893-2570

ABSOLUTE MAXIMUM RATINGS

(Note 1)

Peak Collector Current, I

(SG2000, 2020) ......................................................
(SG2010) ................................................................

Operating Junction Temperature

Hermetic (J, L Packages) .........................................
Plastic (N, Packages) ...............................................

Storage Temperature Range ..........................
Lead Temperature (Soldering 10 sec.) .........................

Output Voltage, V

(SG2000, 2010 series) ................................................
(SG2020 series) ..........................................................

Input Voltage, V

(SG2002,3,4) ...............................................................

Continuous Input Current, I

........................................

50V
95V

30V

25mA

500mA
600mA

150

-65

C to 150

300

Note 1. Values beyond which damage may occur.

J Package:

Thermal Resistance-

Junction to Case

.................. 30°C/W

Thermal Resistance-

Junction to Ambient

............... 80°C/W

N Package:

Thermal Resistance-

Junction to Case

.................. 40°C/W

Thermal Resistance-

Junction to Ambient

.............. 65°C/W

L Package:

Thermal Resistance-

Junction to Case

.................. 35°C/W

Thermal Resistance-

Junction to Ambient

............ 120°C/W

THERMAL DATA

Note A. Junction Temperature Calculation: T

= T

+ (P

Note B. The above numbers for

are maximums for the limiting thermal

resistance of the package in a standard mounting configuration.
The

numbers are meant to be guidelines for the thermal

performance of the device/pc-board system. All of the above
assume no ambient airflow.

Output Voltage, V

SG2000, SG2010 series ..............................................
SG2020 series .............................................................

50V
95V

Peak Collector Current, I

SG2000, SG2020 series ...........................................
SG2010 series ........................................................

Operating Ambient Temperature Range

SG2000 Series - Hermetic ..........................
SG2000 Series - Plastic ..................................

50mA

500mA

-55

C to 125

C to 70

RECOMMENDED OPERATING CONDITIONS

(Note 2)

Note 2. Range over which the device is functional.

SELECTION GUIDE

Device

Max

Logic Inputs

SG2001

50V

500mA

General Purpose
PMOS, CMOS

SG2002

50V

500mA

14V-25V PMOS

SG2003

50V

500mA

5V TTL, CMOS

SG2004

50V

500mA

6V-15V CMOS, PMOS

SG2011

50V

600mA

General Purpose
PMOS, CMOS

SG2012

50V

600mA

14V-25V PMOS

Device

Max

Logic Inputs

SG2013

50V

600mA

5V TTL, CMOS

SG2014

50V

600mA

6V-15V CMOS, PMOS

SG2015

50V

600mA

High Output TTL

SG2021

95V

500mA

General Purpose
PMOS, CMOS

SG2023

95V

500mA

5V TTL, CMOS

SG2024

95V

500mA

6V-15V CMOS, PMOS

SG2000 SERIES

4/90 Rev 1.3 6/97

INFINITY

Microelectronics Inc.

1997

11861 Western Avenue

Garden Grove, CA 92841

(714) 898-8121

FAX: (714) 893-2570

ELECTRICAL CHARACTERISTICS

(Unless otherwise specified, these specifications apply over the operating ambient temperatures for SG2000 series - Hermetic - with -55

125

and SG2000 series - Plastic - with 0

C. Low duty cycle pulse testing techniques are used which maintains junction and case temperatures equal

to the ambient temperature.)

Parameter

Units

Min. Typ. Max.

Limits

Test Conditions

All

SG2002
SG2004

All

SG2002
SG2003
SG2004

All

SG2002

SG2003

SG2004

SG2001

All
All
All
All
All

Applicable

Devices

Temp.

SG2001 thru SG2004

Output Leakage Current (I

CEX

)

Collector - Emitter (V

CE(SAT)

)

Input Current (I

IN(ON)

)

IN(OFF)

)

Input Voltage (V

IN(ON)

)

D-C Forward Current

Transfer Ratio (h

)

Input Capacitance (C

)

(Note 3)

Turn-On Delay (TPLH)
Turn-Off Delay (TPHL)
Clamp Diode Leakage Current (I

)

Clamp Diode Forward Voltage (V

)

= T

MIN

= T

MIN

= T

MIN

= 25°C

= T

MAX

= T

MAX

= T

MAX

= T

MAX

= T

MIN

= T

MAX

= T

MIN

= T

MIN

= T

MIN

= T

MAX

= T

MAX

= T

MAX

= T

MIN

= T

MIN

= T

MIN

= T

MIN

= T

MAX

= T

MAX

= T

MAX

= T

MAX

= T

MIN

= 25°C

= 50V

= 50V, V

= 6V

= 50V, V

= 1V

= 350mA, I

= 850

= 200mA, I

= 550

= 100mA, I

= 350

= 350mA, I

= 500

= 200mA, I

= 350

= 100mA, I

= 250

= 350mA, I

= 500

= 200mA, I

= 350

= 100mA, I

= 250

= 17V

= 3.85V

= 5V

= 12V

= 500

= 2V, I

= 300mA

= 2V, I

= 300mA

= 2V, I

= 200mA

= 2V, I

= 250mA

= 2V, I

= 300mA

= 2V, I

= 200mA

= 2V, I

= 250mA

= 2V, I

= 300mA

= 2V, I

= 125mA

= 2V, I

= 200mA

= 2V, I

= 275mA

= 2V, I

= 350mA

= 2V, I

= 125mA

= 2V, I

= 200mA

= 2V, I

= 275mA

= 2V, I

= 350mA

= 2V, I

= 350mA

= 2V, I

= 350mA

0.5 E

to 0.5 E

OUT

0.5 E

to 0.5 E

OUT

= 50V

= 350mA

480
650
240
650

500

1000

1.6
1.3
1.1

1.25

1.1
0.9
1.6
1.3
1.1

850
930
350

1000

250
250

1.7

100
500
500

1.8
1.5
1.3
1.6
1.3
1.1
1.8
1.5
1.3

1300
1350

500

1450

18
13

3.3
3.6
3.9
2.4
2.7
3.0
6.0
8.0

10
12

5.0
6.0
7.0
8.0

1000
1000

2.0

V
V
V
V
V
V
V
V
V

V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V

pF
ns
ns

Note 3. These parameters, although guaranteed, are not tested in production.

SG2000 SERIES

4/90 Rev 1.3 6/97

INFINITY

Microelectronics Inc.

1997

11861 Western Avenue

Garden Grove, CA 92841

(714) 898-8121

FAX: (714) 893-2570

Parameter

Units

Min. Typ. Max.

Limits

Test Conditions

Applicable

Devices

Temp.

ELECTRICAL CHARTACTERISTICS

(continued)

SG2011 thru SG2015

Output Leakage Current (I

CEX

)

Collector - Emitter (V

CE(SAT)

)

Input Current (I

IN(ON)

)

IN(OFF)

)

Input Voltage (V

IN(ON)

)

D-C Forward Current

Transfer Ratio (h

)

Input Capacitance (C

)

(Note 3)

Turn-On Delay (TPLH)
Turn-Off Delay (TPHL)
Clamp Diode Leakage Current (I

)

Clamp Diode Forward Voltage (V

)

All

SG2012
SG2014

All

SG2012
SG2013
SG2014

SG2015

All

SG2012

SG2013

SG2014

SG2015

SG2011

All
All
All
All
All

= T

MIN

= T

MIN

= T

MIN

= 25°C

= T

MAX

= T

MAX

= T

MAX

= T

MAX

= T

MIN

= T

MAX

= T

MIN

= T

MIN

= T

MIN

= T

MAX

= T

MAX

= T

MAX

= T

MIN

= T

MIN

= T

MIN

= T

MAX

= T

MAX

= T

MAX

= T

MIN

= T

MIN

= T

MAX

= T

MAX

= T

MIN

= 25°C

= 50V

= 50V, V

= 6V

= 50V, V

= 1V

= 500mA, I

= 1100

= 350mA, I

= 850

= 200mA, I

= 550

= 500mA, I

= 600

= 350mA, I

= 500

= 200mA, I

= 350

= 500mA, I

= 600

= 350mA, I

= 500

= 200mA, I

= 350

= 17V

= 3.85V

= 5V

= 12V

= 3V

= 500

= 2V, I

= 500mA

= 2V, I

= 500mA

= 2V, I

= 250mA

= 2V, I

= 300mA

= 2V, I

= 500mA

= 2V, I

= 250mA

= 2V, I

= 300mA

= 2V, I

= 500mA

= 2V, I

= 275mA

= 2V, I

= 350mA

= 2V, I

= 500mA

= 2V, I

= 275mA

= 2V, I

= 350mA

= 2V, I

= 500mA

= 2V, I

= 350mA

= 2V, I

= 500mA

= 2V, I

= 350mA

= 2V, I

= 500mA

= 2V, I

= 500mA

= 2V, I

= 500mA

0.5 E

to 0.5 E

OUT

0.5 E

to 0.5 E

OUT

= 50V

= 350mA

= 500mA

480
650
240
650

1180

450
900

1.8
1.6
1.3
1.7

1.25

1.1
1.8
1.6
1.3

850
930
350

1000
1500

250
250

1.7

100
500
500

2.1
1.8
1.5
1.9
1.6
1.3
2.1
1.8
1.5

1300
1350

500

1450
2400

23.5

3.6
3.9
6.0
2.7
3.0
3.5

10
12
17

7.0
8.0
9.5
3.0
3.5
2.4
2.6

1000
1000

2.0
2.5

V
V
V
V
V
V
V
V
V

V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V

pF
ns
ns

V
V

Note 3. These parameters, although guaranteed, are not tested in production.

SG2000 SERIES

4/90 Rev 1.3 6/97

INFINITY

Microelectronics Inc.

1997

11861 Western Avenue

Garden Grove, CA 92841

(714) 898-8121

FAX: (714) 893-2570

Parameter

Units

Min. Typ. Max.

Limits

Test Conditions

Applicable

Devices

Temp.

ELECTRICAL CHARACTERISTICS

(continued)

SG2021 thru SG2024

= 95V

= 95V, V

= 1V

= 350mA, I

= 850

= 200mA, I

= 550

= 100mA, I

= 350

= 350mA, I

= 500

= 200mA, I

= 350

= 100mA, I

= 250

= 350mA, I

= 500

= 200mA, I

= 350

= 100mA, I

= 250

= 3.85V

= 5V

= 12V

= 500

= 2V, I

= 300mA

= 2V, I

= 200mA

= 2V, I

= 250mA

= 2V, I

= 300mA

= 2V, I

= 200mA

= 2V, I

= 250mA

= 2V, I

= 300mA

= 2V, I

= 125mA

= 2V, I

= 200mA

= 2V, I

= 275mA

= 2V, I

= 350mA

= 2V, I

= 125mA

= 2V, I

= 200mA

= 2V, I

= 275mA

= 2V, I

= 350mA

= 2V, I

= 350mA

= 2V, I

= 350mA

0.5 E

to 0.5 E

OUT

0.5 E

to 0.5 E

OUT

= 95V

= 350mA

= T

MIN

= T

MIN

= T

MIN

= 25°C

= T

MAX

= T

MAX

= T

MAX

= T

MAX

= T

MAX

= T

MIN

= T

MIN

= T

MIN

= T

MAX

= T

MAX

= T

MAX

= T

MIN

= T

MIN

= T

MIN

= T

MIN

= T

MAX

= T

MAX

= T

MAX

= T

MAX

= T

MIN

= 25°C

All

SG2024

All

SG2023
SG2024

All

SG2023

SG2024

SG2021

All
All
All
All
All

Output Leakage Current (I

CEX

)

Collector - Emitter (V

CE(SAT)

)

Input Current (I

IN(ON)

)

IN(OFF)

)

Input Voltage (V

IN(ON)

)

D-C Forward Current

Transfer Ratio (h

)

Input Capacitance (C

)

(Note 3)

Turn-On Delay (TPLH)
Turn-Off Delay (TPHL)
Clamp Diode Leakage Current (I

)

Clamp Diode Forward Voltage (V

)

650
240
650

500

1000

1.6
1.3
1.1

1.25

1.1
0.9
1.6
1.3
1.1

930
350

1000

250
250

1.7

100
500

1.8
1.5
1.3
1.6
1.3
1.1
1.8
1.5
1.3

1350

500

1450

3.3
3.6
3.9
2.4
2.7
3.0
6.0
8.0

10
12

5.0
6.0
7.0
8.0

1000
1000

2.0

V
V
V
V
V
V
V
V
V

V
V
V
V
V
V
V
V
V
V
V
V
V
V
V

pF
ns
ns

Note 3. These parameters, although guaranteed, are not tested in production.

SG2000 SERIES

4/90 Rev 1.3 6/97

INFINITY

Microelectronics Inc.

1997

11861 Western Avenue

Garden Grove, CA 92841

(714) 898-8121

FAX: (714) 893-2570

Note 1. Contact factory for JAN and DESC product availability.

2. All parts are viewed from the top.
3. See selection guide for specific device types.

CONNECTION DIAGRAMS & ORDERING INFORMATION

(See Notes Below)

Ambient

Temperature Range

Part No.

(Note 3)

Package

Connection Diagram

16-PIN CERAMIC DIP
J - PACKAGE

SG2XXXJ/883B

-55

C to 125

SG2023J/DESC

-55

C to 125

JAN2001J

-55

C to 125

JAN2002J

-55

C to 125

JAN2003J

-55

C to 125

JAN2004J

-55

C to 125

SG2XXXJ

-55

C to 125

SG2003N

C to 70

SG2023N

C to 70

16-PIN PLASTIC DIP
N - PACKAGE

20-PIN CERAMIC
LEADLESS CHIP CARRIER
L- PACKAGE

SG2XXXL/883B

-55

C to 125

SG2XXXL

-55

C to 125

Ð­Ð»ÐµÐºÑ‚Ñ€Ð¾Ð½Ð½Ñ‹Ð¹ ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚: JAN2004J

ÐÐ»ÐµÐºÑ‚Ñ€Ð¾Ð½Ð½Ñ‹Ð¹ ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚: JAN2004J