Microsemi Corporation SMCG6036 Datasheet

8700 E. Thomas Road

Mechanical

tp Pulse Time

P

PP

Peak Pulse Power

kW

(Wave Form - See

Non- Repetitive

Scotsdale, AZ 85252
Phone: (480) 941-6300
Fax: (480) 947-1503

FEATURES:

• BIDIRECTIONAL

• 1500 WATTS PEAK POWER

• VOLTAGE RANGE FROM 5.5V TO 185V

• LOW INDUCTANCE

• LOW PROFILE PACKAGE FOR SURFACE MOUNTING

DESCRIPTION:DESCRIPTION:

These Transient Voltage Suppressor devices are a series of Bi-directional Silicon
Transient Suppressors used in AC applications where large voltage transients can
permanently damage voltage-sensitive components.

These devices are manufactured using two silicon PN, junctions in a back to back
configuration. They are characterized by their high surge capability, fast response
time, and low impedance, (R

The SMC series, rated for 1500 watts during a one millisecond pulse, can be used to
protect sensitive circuits against transients induced by lighting and inductive load
switching. The response time of TAZ clamping action is less than (5x10
therefore, they can protect Integrated Circuits, MOS devices, Hybrids, and other
voltage-sensitive semiconductors and components. This series of devices has also
been proven very effective as EMP and ESD suppressors.

) for clamping surge.

on

-9

) sec;

SMCG/J6036

thru

SMCG/J6072A

5.5 thru 185 Volts
1500 Watts

Transient Voltage

Suppressors

MAXIMUM RATINGS:MAXIMUM RATINGS:

1500 watts of peak pulse power dissipation at 25°°C
t

clamping

Operating and Storage Temperature: -65°° to +150°°C
Steady state power dissipation: 5.0 watts at T
Repetition rate (duty cycle): .01%

-

(0 volts to V

100

10

1.0

0.1
100ns

min): less than 5 x 10-9 seconds

(BR)

= 25°°C, at mounting plane.

L

1µs

Peak Pulse Power vs Pulse Time

10µs

Figure 1

100µs 1ms

Figure 2)

10ms

DO-214AB

DO-215AB

Characteristics

CASE: Molded, Surface
Mountable.

TERMINALS: Gull-wing or C-Bend
(modified J-bend) leads, tin lead
plated

POLARITY: No markings on
bi-directional devices.

PACKAGING: 16mm tape (See EIA
Std. RS-481.)

THERMAL RESISTANCE: 20°°C/W
(typical) junction to lead (tab) at
mounting plane.

MSC1364.PDF 01/06/00

ELECTRICAL CHARACTERISTICS ELECTRICAL CHARACTERISTICS @ 25°c

Rated

BREAKDOWN

MAXIMUM

MAXIMUM

PEAK

Maximum

MICROSEMI

MICROSEMI

SMCG/J6036

thru

SMCG/J6072A

PART

NUMBER

MODIFIED

"G"

BEND LEAD

SMCG6036

SMCG6036A

SMCG6037

SMCG6037A

SMCG6038

SMCG6038A

SMCG6039

SMCG6039A

SMCG6040

SMCG6040A

SMCG6041

SMCG6041A

SMCG6042

SMCG6042A

SMCG6043

SMCG6043A

SMCG6044

SMCG6044A

SMCG6045

SMCG6045A

SMCG6046

SMCG6046A

SMCG6047

SMCG6047A

SMCG6048

SMCG6048A

SMCG6049

SMCG6049A

SMCG6050

SMCG6050A

SMCG6051

SMCG6051A

SMCG6052

SMCG6052A

SMCG6053

SMCG6053A

SMCG6054

SMCG6054A

SMCG6055

SMCG6055A

SMCG6056

SMCG6056A

SMCG6057

SMCG6057A

PART

NUMBER

MODIFIED

"J"

BEND LEAD

SMCJ6036

SMCJ6036A

SMCJ6037

SMCJ6037A

SMCJ6038

SMCJ6038A

SMCJ6039

SMCJ6039A

SMCJ6040

SMCJ6040A

SMCJ6041

SMCJ6041A

SMCJ6042

SMCJ6042A

SMCJ6043

SMCJ6043A

SMCJ6044

SMCJ6044A

SMCJ6045

SMCJ6045A

SMCJ6046

SMCJ6046A

SMCJ6047

SMCJ6047A

SMCJ6048

SMCJ6048A

SMCJ6049

SMCJ6049A

SMCJ6050

SMCJ6050A

SMCJ6051

SMCJ6051A

SMCJ6052

SMCJ6052A

SMCJ6053

SMCJ6053A

SMCJ6054

SMCJ6054A

SMCJ6055

SMCJ6055A

SMCJ6056

SMCJ6056A

SMCJ6057

SMCJ6057A

Stand-Off

Voltage

V

RM

(See Note 1)

VOLTS MIN MAX mA

5.5 6.75 8.25

6.0 7.13 7.88

6.5 7.38 9.02

7.0 7.79 8.61

7.0 8.19 10.00

7.5 8.65 9.55

8.0 9.0 11.0

8.5 9.5 10.5

8.5 9.9 12.1

9.0 10.5 11.6

9.0 10.8 13.2

10.0 11.4 12.6

10.0 11.7 14.3

11.0 12.4 13.7

11.0 13.5 16.5

12.0 14.3 15.8

12.0 14.4 17.5

13.0 15.2 16.8

14.0 16.2 19.8

15.0 17.1 18.9

16.0 18.0 22.0

17.0 19.0 21.0

17.0 19.8 24.2

18.0 20.9 23.1

19.0 21.6 26.4

20.0 22.8 25.2

21.0 24.3 29.7

22.0 25.7 28.4

24.0 27.0 33.0

25.0 28.5 31.5

26.0 29.7 36.3

28.0 31.4 34.7

29.0 32.4 39.6

30.0 34.2 37.8

31.0 35.1 42.9

33.0 37.1 41.0

34.0 38.7 47.3

36.0 40.9 45.2

38.0 42.3 51.7

40.0 44.7 49.4

41.0 45.9 56.1

43.0 48.5 53.6

45.0 50.4 61.6

47.0 53.2 58.8

VOLTAGE

V

@ I

(BR)

VOLTS

T

10
10
10
10
10
10

1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1

CLAMPING

VOLTAGE

VC @ I

(1 mSEC)

VOLTS

11.7 1000 128 .061

11.3 1000 132 .061

12.5 500 120 .065

12.1 500 124 .065

13.8 200 109 .068

13.4 200 112 .068

15.0 50 100 .073

14.5 50 103 .073

16.2 10 93 .075

15.6 10 96 .075

17.3 5 87 .078

16.7 5 90 .078

19.0 5 79 .081

18.2 5 82 .081

22.0 5 68 .084

21.2 5 71 .084

23.5 5 64 .086

22.5 5 67 .068

26.5 5 56.5 .088

25.2 5 59.5 .088

29.1 5 51.5 .090

27.7 5 54 .090

31.9 5 47 .092

30.6 5 49 .092

34.7 5 43 .094

33.2 5 45 .094

39.1 5 38.5 .095

37.5 5 40 .096

43.5 5 34.5 .097

41.4 5 36 .097

47.7 5 31.5 .098

45.7 5 33 .098

52.0 5 29 .099

49.9 5 30 .099

56.4 5 26.5 .100

53.9 5 28 .100

61.9 5 24 .101

59.3 5 25.3 .101

67.8 5 22.2 .101

64.8 5 23.2 .101

73.5 5 20.4 .102

70.1 5 21.4 .102

80.5 5 18.6 .103

77.0 5 19.5 .103

PP

STANDOFF

CURRENT

I

@ V

D

RM

µA

PULSE

CURRENT

(See Fig. 2)

I

PP

A %/°C

Temperature

Coefficient

α

V(BR)

MSC1364.PDF 01/06/00