SG2XXXL [MICROSEMI]

HIGH VOLTAGE MEDIUM CURRENT DRIVER ARRAYS; 高压中等电流驱动器阵列

SG2XXXL


型号：	SG2XXXL
厂家：	Microsemi
描述：	HIGH VOLTAGE MEDIUM CURRENT DRIVER ARRAYS 高压中等电流驱动器阵列驱动器高压
文件：	总7页 (文件大小：102K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

SG2000 SERIES

HIGH VOLTAGE MEDIUM

CURRENT DRIVER ARRAYS

DESCRIPTION

FEATURES

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 in–line (N) is designed to operate over the commercial

temperature range of 0°C to 70°C.

• 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

PARTIAL SCHEMATICS

4/90 Rev 1.3 6/97

LINFINITY Microelectronics Inc.

Copyright 1997

11861 Western Avenue ∞ Garden Grove, CA 92841

1

(714) 898-8121 ∞ FAX: (714) 893-2570

SG2000 SERIES

ABSOLUTE MAXIMUM RATINGS (Note 1)

Output Voltage, V_CE

Peak Collector Current, I_C

(SG2000, 2010 series) ................................................ 50V

(SG2020 series) .......................................................... 95V

Input Voltage, V

(SG2000, 2020) ...................................................... 500mA

(SG2010) ................................................................ 600mA

Operating Junction Temperature

(SG2002,3,4)^IN............................................................... 30V

Hermetic (J, L Packages) ......................................... 150°C

150°C

Plastic (N, Packages) ...............................................

Continuous Input Current, I ........................................ 25mA

IN

Storage Temperature Range .......................... -65°C to 150°C

Lead Temperature (Soldering 10 sec.) ......................... 300°C

Note 1. Values beyond which damage may occur.

THERMAL DATA

J Package:

Note A. Junction Temperature Calculation: T_J= T_A+ (P_Dx θ_JA).

Note B. The above numbers forθ_JCaremaximumsforthelimitingthermal

resistance of the package in a standard mounting configuration.

The θ_JAnumbers are meant to be guidelines for the thermal

performance of the device/pc-board system. All of the above

assume no ambient airflow.

Thermal Resistance-Junction to Case, θ_JC.................. 30°C/W

Thermal Resistance-Junction to Ambient, θ_JA............... 80°C/W

N Package:

Thermal Resistance-Junction to Case, θ_JC.................. 40°C/W

Thermal Resistance-Junction to Ambient, θ_JA.............. 65°C/W

L Package:

Thermal Resistance-Junction to Case, θ_JC.................. 35°C/W

Thermal Resistance-Junction to Ambient, θ_JA............ 120°C/W

RECOMMENDED OPERATING CONDITIONS (Note 2)

Output Voltage, V_CE

Peak Collector Current, I_C

SG2000, SG2010 series .............................................. 50V

SG2020 series ............................................................. 95V

SG2000, SG2020 series ........................................... 50mA

SG2010 series ........................................................ 500mA

Operating Ambient Temperature Range

SG2000 Series - Hermetic .......................... -55°C to 125°C

SG2000 Series - Plastic .................................. 0°C to 70°C

Note 2. Range over which the device is functional.

SELECTION GUIDE

Device

V_CEMax

I_CMax

Logic Inputs

Device

V_CEMax

I_CMax

Logic Inputs

SG2001

50V

500mA

General Purpose

PMOS, CMOS

SG2013

SG2014

SG2015

SG2021

50V

50V

50V

95V

600mA

600mA

600mA

500mA

5V TTL, CMOS

6V-15V CMOS, PMOS

High Output TTL

General Purpose

PMOS, CMOS

5V TTL, CMOS

6V-15V CMOS, PMOS

SG2002

SG2003

SG2004

SG2011

50V

50V

50V

50V

500mA

500mA

500mA

600mA

14V-25V PMOS

5V TTL, CMOS

6V-15V CMOS, PMOS

General Purpose

PMOS, CMOS

SG2023

SG2024

95V

95V

500mA

500mA

SG2012

50V

600mA

14V-25V PMOS

4/90 Rev 1.3 6/97

LINFINITY Microelectronics Inc.

11861 Western Avenue ∞ Garden Grove, CA 92841

Copyright 1997

2

(714) 898-8121 ∞ FAX: (714) 893-2570

SG2000 SERIES

ELECTRICAL CHARACTERISTICS

(Unless otherwise specified, these specifications apply over the operating ambient temperatures for SG2000 series - Hermetic -with -55°C≤ T_A≤ 125°C

andSG2000series-Plastic-with0°C≤ T_A≤ 70°C. Lowdutycyclepulsetestingtechniquesareusedwhichmaintainsjunctionandcasetemperaturesequal

totheambienttemperature.)

SG2001 thru SG2004

Limits

Min. Typ. Max.

Applicable

Devices

Parameter

Test Conditions

V_CE= 50V

Units

Temp.

Output Leakage Current (I_CEX

)

All

100 µA

SG2002

SG2004

All

V_CE= 50V, V_IN= 6V

500 µA

500 µA

V_CE= 50V, V_IN= 1V

Collector - Emitter (V_CE(SAT)

)

T_A= T_MINI_C= 350mA, I_B= 850µA

T_A= T_MINI_C= 200mA, I_B= 550µA

T_A= T_MINI_C= 100mA, I_B= 350µA

T_A= 25°C I_C= 350mA, I_B= 500µA

T_A= 25°C I_C= 200mA, I_B= 350µA

T_A= 25°C I_C= 100mA, I_B= 250µA

T_A= T_MAXI_C= 350mA, I_B= 500µA

T_A= T_MAXI_C= 200mA, I_B= 350µA

T_A= T_MAXI_C= 100mA, I_B= 250µA

V_IN= 17V

1.6 1.8

V

V

V

V

V

V

V

V

V

1.3 1.5

1.1 1.3

1.25 1.6

1.1 1.3

0.9 1.1

1.6 1.8

1.3 1.5

1.1 1.3

Input Current (I_IN(ON)

)

SG2002

SG2003

SG2004

480 850 1300 µA

650 930 1350 µA

240 350 500 µA

650 1000 1450 µA

V_IN= 3.85V

V_IN= 5V

V_IN= 12V

(I_IN(OFF)

)

All

SG2002

T_A= T_MAXI_C= 500µA

25

50

µA

V

V

V

V

V

V

V

V

V

V

V

V

V

V

V

V

Input Voltage (V_IN(ON)

)

T_A= T_MINV_CE= 2V, I_C= 300mA

T_A= T_MAXV_CE= 2V, I_C= 300mA

T_A= T_MINV_CE= 2V, I_C= 200mA

T_A= T_MINV_CE= 2V, I_C= 250mA

T_A= T_MINV_CE= 2V, I_C= 300mA

T_A= T_MAXV_CE= 2V, I_C= 200mA

T_A= T_MAXV_CE= 2V, I_C= 250mA

T_A= T_MAXV_CE= 2V, I_C= 300mA

T_A= T_MINV_CE= 2V, I_C= 125mA

T_A= T_MINV_CE= 2V, I_C= 200mA

T_A= T_MINV_CE= 2V, I_C= 275mA

T_A= T_MINV_CE= 2V, I_C= 350mA

T_A= T_MAXV_CE= 2V, I_C= 125mA

T_A= T_MAXV_CE= 2V, I_C= 200mA

T_A= T_MAXV_CE= 2V, I_C= 275mA

T_A= T_MAXV_CE= 2V, I_C= 350mA

T_A= T_MINV_CE= 2V, I_C= 350mA

T_A= 25°C V_CE= 2V, I_C= 350mA

T_A= 25°C

18

13

SG2003

3.3

3.6

3.9

2.4

2.7

3.0

6.0

8.0

10

SG2004

12

5.0

6.0

7.0

8.0

D-C Forward Current

Transfer Ratio (h_FE)

Input Capacitance (C_IN) (Note 3)

Turn-On Delay (TPLH)

Turn-Off Delay (TPHL)

SG2001

500

1000

All

All

All

All

All

15

25

pF

T_A= 25°C 0.5 E to 0.5 E_OUT

250 1000 ns

250 1000 ns

IN

T_A= 25°C 0.5 E to 0.5 E_OUT

IN

Clamp Diode Leakage Current (I_R)

Clamp Diode Forward Voltage (V_F)

V_R= 50V

I_F= 350mA

50

µA

V

1.7 2.0

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

4/90 Rev 1.3 6/97

LINFINITY Microelectronics Inc.

Copyright 1997

11861 Western Avenue ∞ Garden Grove, CA 92841

3

(714) 898-8121 ∞ FAX: (714) 893-2570

SG2000 SERIES

ELECTRICAL CHARTACTERISTICS (continued)

SG2011 thru SG2015

Limits

Units

Applicable

Parameter

Devices

Test Conditions

V_CE= 50V

Temp.

Min. Typ. Max.

Output Leakage Current (I_CEX

)

All

100 µA

500 µA

500 µA

SG2012

SG2014

All

V_CE= 50V, V_IN= 6V

V_CE= 50V, V_IN= 1V

Collector - Emitter (V_CE(SAT)

)

T_A= T_MINI_C= 500mA, I_B= 1100µA

T_A= T_MINI_C= 350mA, I_B= 850µA

T_A= T_MINI_C= 200mA, I_B= 550µA

T_A= 25°C I_C= 500mA, I_B= 600µA

T_A= 25°C I_C= 350mA, I_B= 500µA

T_A= 25°C I_C= 200mA, I_B= 350µA

T_A= T_MAXI_C= 500mA, I_B= 600µA

T_A= T_MAXI_C= 350mA, I_B= 500µA

T_A= T_MAXI_C= 200mA, I_B= 350µA

V_IN= 17V

1.8 2.1

1.6 1.8

1.3 1.5

1.7 1.9

1.25 1.6

1.1 1.3

1.8 2.1

1.6 1.8

1.3 1.5

V

V

V

V

V

V

V

V

V

Input Current (I_IN(ON)

)

SG2012

SG2013

SG2014

480 850 1300 µA

650 930 1350 µA

240 350 500 µA

650 1000 1450 µA

1180 1500 2400 µA

V_IN= 3.85V

V_IN= 5V

V_IN= 12V

V_IN= 3V

SG2015

All

(I_IN(OFF)

)

T_A= T_MAXI_C= 500µA

25

50

µA

V

V

V

V

V

V

V

V

V

V

V

V

V

V

V

V

V

V

Input Voltage (V_IN(ON)

)

SG2012

T_A= T_MINV_CE= 2V, I_C= 500mA

T_A= T_MAXV_CE= 2V, I_C= 500mA

T_A= T_MINV_CE= 2V, I_C= 250mA

T_A= T_MINV_CE= 2V, I_C= 300mA

T_A= T_MINV_CE= 2V, I_C= 500mA

T_A= T_MAXV_CE= 2V, I_C= 250mA

T_A= T_MAXV_CE= 2V, I_C= 300mA

T_A= T_MAXV_CE= 2V, I_C= 500mA

T_A= T_MINV_CE= 2V, I_C= 275mA

T_A= T_MINV_CE= 2V, I_C= 350mA

T_A= T_MINV_CE= 2V, I_C= 500mA

T_A= T_MAXV_CE= 2V, I_C= 275mA

T_A= T_MAXV_CE= 2V, I_C= 350mA

T_A= T_MAXV_CE= 2V, I_C= 500mA

T_A= T_MINV_CE= 2V, I_C= 350mA

T_A= T_MINV_CE= 2V, I_C= 500mA

T_A= T_MAXV_CE= 2V, I_C= 350mA

T_A= T_MAXV_CE= 2V, I_C= 500mA

T_A= T_MINV_CE= 2V, I_C= 500mA

T_A= 25°C V_CE= 2V, I_C= 500mA

T_A= 25°C

23.5

17

SG2013

3.6

3.9

6.0

2.7

3.0

3.5

10

SG2014

12

17

7.0

8.0

9.5

3.0

3.5

2.4

2.6

SG2015

SG2011

D-C Forward Current

Transfer Ratio (h_FE)

Input Capacitance (C_IN) (Note 3)

Turn-On Delay (TPLH)

Turn-Off Delay (TPHL)

Clamp Diode Leakage Current (I_R)

Clamp Diode Forward Voltage (V_F)

450

900

All

All

All

All

All

15

25

pF

T_A= 25°C 0.5 E to 0.5 E_OUT

250 1000 ns

250 1000 ns

IN

T_A= 25°C 0.5 E to 0.5 E_OUT

IN

V_R= 50V

I_F= 350mA

I_F= 500mA

50

1.7 2.0

2.5

µA

V

V

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

4/90 Rev 1.3 6/97

LINFINITY Microelectronics Inc.

Copyright 1997

11861 Western Avenue ∞ Garden Grove, CA 92841

4

(714) 898-8121 ∞ FAX: (714) 893-2570

SG2000 SERIES

ELECTRICAL CHARACTERISTICS (continued)

SG2021 thru SG2024

Limits

Units

Applicable

Parameter

Devices

Test Conditions

V_CE= 95V

Temp.

Min. Typ. Max.

Output Leakage Current (I_CEX

)

All

SG2024

All

100 µA

500 µA

V_CE= 95V, V_IN= 1V

Collector - Emitter (V_CE(SAT)

)

T_A= T_MINI_C= 350mA, I_B= 850µA

T_A= T_MINI_C= 200mA, I_B= 550µA

T_A= T_MINI_C= 100mA, I_B= 350µA

T_A= 25°C I_C= 350mA, I_B= 500µA

T_A= 25°C I_C= 200mA, I_B= 350µA

T_A= 25°C I_C= 100mA, I_B= 250µA

T_A= T_MAXI_C= 350mA, I_B= 500µA

T_A= T_MAXI_C= 200mA, I_B= 350µA

T_A= T_MAXI_C= 100mA, I_B= 250µA

V_IN= 3.85V

1.6 1.8

1.3 1.5

1.1 1.3

1.25 1.6

1.1 1.3

0.9 1.1

1.6 1.8

1.3 1.5

1.1 1.3

V

V

V

V

V

V

V

V

V

Input Current (I_IN(ON)

)

SG2023

SG2024

650 930 1350 µA

240 350 500 µA

650 1000 1450 µA

V_IN= 5V

V_IN= 12V

(I_IN(OFF)

)

All

T_A= T_MAXI_C= 500µA

25

50

µA

V

V

V

V

V

V

V

V

V

V

V

V

V

V

V

Input Voltage (V_IN(ON)

)

T_A= T_MAXV_CE= 2V, I_C= 300mA

T_A= T_MINV_CE= 2V, I_C= 200mA

T_A= T_MINV_CE= 2V, I_C= 250mA

T_A= T_MINV_CE= 2V, I_C= 300mA

T_A= T_MAXV_CE= 2V, I_C= 200mA

T_A= T_MAXV_CE= 2V, I_C= 250mA

T_A= T_MAXV_CE= 2V, I_C= 300mA

T_A= T_MINV_CE= 2V, I_C= 125mA

T_A= T_MINV_CE= 2V, I_C= 200mA

T_A= T_MINV_CE= 2V, I_C= 275mA

T_A= T_MINV_CE= 2V, I_C= 350mA

T_A= T_MAXV_CE= 2V, I_C= 125mA

T_A= T_MAXV_CE= 2V, I_C= 200mA

T_A= T_MAXV_CE= 2V, I_C= 275mA

T_A= T_MAXV_CE= 2V, I_C= 350mA

T_A= T_MINV_CE= 2V, I_C= 350mA

T_A= 25°C V_CE= 2V, I_C= 350mA

T_A= 25°C

13

SG2023

3.3

3.6

3.9

2.4

2.7

3.0

6.0

8.0

10

SG2024

SG2021

12

5.0

6.0

7.0

8.0

D-C Forward Current

Transfer Ratio (h_FE)

Input Capacitance (C_IN) (Note 3)

Turn-On Delay (TPLH)

Turn-Off Delay (TPHL)

500

1000

All

All

All

All

All

15

25

pF

T_A= 25°C 0.5 E to 0.5 E_OUT

250 1000 ns

250 1000 ns

IN

T_A= 25°C 0.5 E to 0.5 E_OUT

IN

Clamp Diode Leakage Current (I_R)

Clamp Diode Forward Voltage (V_F)

V_R= 95V

I_F= 350mA

50

µA

V

1.7 2.0

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

4/90 Rev 1.3 6/97

LINFINITY Microelectronics Inc.

Copyright 1997

11861 Western Avenue ∞ Garden Grove, CA 92841

5

(714) 898-8121 ∞ FAX: (714) 893-2570

SG2000 SERIES

CHARACTERISTIC CURVES

FIGURE 1.

FIGURE 2.

FIGURE 3.

OUTPUT CHARACTERISTICS

OUTPUT CURRENT VS. INPUT VOLTAGE

OUTPUT CURRENT VS. INPUT CURRENT

FIGURE 4.

FIGURE 5.

FIGURE 6.

INPUT CHARACTERISTICS - SG2002

INPUT CHARACTERISTICS - SG2003

INPUT CHARACTERISTICS - SG2004

FIGURE 7.

PEAK COLLECTOR CURRENT VS. DUTY CYCLE

4/90 Rev 1.3 6/97

LINFINITY Microelectronics Inc.

Copyright 1997

11861 Western Avenue ∞ Garden Grove, CA 92841

(714) 898-8121 FAX: (714) 893-2570

6

∞

SG2000 SERIES

CONNECTION DIAGRAMS & ORDERING INFORMATION (See Notes Below)

Ambient

Temperature Range

Package

Part No. (Note 3)

Connection Diagram

16-PIN CERAMIC DIP

J - PACKAGE

1

SG2XXXJ/883B

SG2023J/DESC

JAN2001J

JAN2002J

JAN2003J

-55°C to 125°C

-55°C to 125°C

-55°C to 125°C

-55°C to 125°C

-55°C to 125°C

-55°C to 125°C

-55°C to 125°C

16

2

3

4

15

14

13

5

6

7

8

12

11

10

9

JAN2004J

SG2XXXJ

16-PIN PLASTIC DIP

N - PACKAGE

SG2003N

SG2023N

0°C to 70°C

0°C to 70°C

3

2

1

20 19

20-PINCERAMIC

LEADLESS CHIP CARRIER

L- PACKAGE

SG2XXXL/883B

SG2XXXL

-55°C to 125°C

-55°C to 125°C

18

4

5

6

7

17

16

15

8

14

9

10 11 12

13

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.

4/90 Rev 1.3 6/97

LINFINITY Microelectronics Inc.

Copyright 1997

11861 Western Avenue ∞ Garden Grove, CA 92841

(714) 898-8121 FAX: (714) 893-2570

7

∞

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