MCC SMCJ100, SMCJ100A, SMCJ100C, SMCJ100CA, SMCJ10 Datasheet

M C C

omponents 21201 Itasca Street Chatsworth

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Features

•For surface mount application in order to optimize board space

•Low inductance

•Low profile package

•Built-in strain relief

•Glass passivated junction

•Excellent clamping capability

•Repetition Rate( duty cycle): 0.05%

•Fast response time: typical less than 1ps from 0V to BV min

•Typical ID less than 1uA above 10V

•High temperature soldering: 260oC/10 seconds at terminals

•Plastic package has Underwrites Laboratory Flammability Classification 94V-O

Mechanical Data

•CASE: JEDEC DO-214AB molded plastic body over

passivated junction

•Terminals: solderable per MIL-STD-750, Method 2026

•Polarity: Color band denotes positive end( cathode) except

Bi-directional types.

•Standard packaging: 16mm tape per ( EIA 481).

•Weight: 0.007 ounce, 0.21 gram

Maximum Ratings @ 25oC Unless Otherwise Specified

Peak Pulse Current on	IPPM	See Table 1	Amps
10/1000us
waveform(Note1, Fig3)
Peak Pulse Power	PPPM	Minimum	Watts
Disspation on 10/1000us		1500
waveform(Note1,2,Fig1)
Peak forward surge	IFSM)	200.0	Amps
current (JEDEC
Method) (Note 2,3)		-55oC to
Operation And Storage	TJ,
Temperature Range	TSTG	+150oC

SMCJ5.0

THRU

SMCJ170CA

Transient

Voltage Suppressor

5.0 to 170 Volts

1500 Watt

DO-214AB (SMCJ) (LEAD FRAME)

												G
																										H
																		D
																												A																C
												F						E																			B
																							DIMENSIONS
										INCHES																		MM
DIM											MIN							MAX								MIN				MAX							NOTE
	A					.079										.103									2.00					2.62
	B					.108										.128									2.75					3.25
	C					.002										.008									0.051					0.203
	D					.006										.012									0.152					0.305
	E					.030										.050									0.76					1.27
	F					..305										.320									7.75					8.13
	G					.260										.280									6.60					7.11
	H					.220										.245									5.59					6.22

SUGGESTED SOLDER

PAD LAYOUT

0.185

0.121”

0.060”

NOTES:

1.Non-repetitive current pulse per Fig.3 and derated above TA=25oC per Fig.2.

2.Mounted on 8.0mm2 copper pads to each terminal.

3.8.3ms, single half sine-wave or equivalent square wave, duty cycle=4 pulses per. Minutes maximum.

Version: 3	www.mccsemi.com
	2003/01/01

SMCJ5.0 THRU SMCJ170CA

M C C

PPPM , PEAK PULSE POWER, KW

100

NON-REPETITIVE PULSE WAVEFORM SHOWN IN FIGURE 3

10 TA = 25¢J

1.0

MOUNTED ON 5.0mm2

COPPER LAND AREAS

0.1

0.1 £gs 1.0 £gs 10 £gs 100 £gs 1.0ms 10ms

PEAK PULSE POWER(pppm) OR CURRENT

(Ipp)DERATING IN PERCENTAGE %

100

75

50

25

0

0

25

50

75

100

125

150

175

200

td, PULSE WIDTH, SEC

TA, AMBIENT TEMPERATURE, ¢J

Fig. 1-PEAK PULSE POWER RATING CURVE

	150
%																			TA = 25¢J
CURRENT,											tf = 10£gsec								Pulse Width(td) is Defined as the
																			Point Where the Peak Current
	100							Peak Value Ippm											Decays to 50% of lpp
PULSE													Half Value-Ipp
																2
PEAK
																					as Defined by R.E.A.
Ippm,	50																				10/1000£gsec Waveform
																						e-kt
	0								td
	0							1.0											2.0			3.0

t, TIME , ms

Fig. 3-PULSE WAVEFORM

PEAK FORWARD SURGE		400
						TJ = TJ max
	CURRENT, AMPERES					8.3ms SINGLE HALF
		200				SINCE-WAVE JEDEC
						METHOD
		100
		70
,
FSM		0
I			2	4	6	8 10	20	60 80 100
		1

NUMBER OF CYCLES AT 60Hz

Fig. 5-MAXIMUM NON-REPETITIVE PEAK FORWARD

SURGE CURRENT

Fig. 2-PULSE DERATING CURVE

	20,000
	10,000			MEASURED AT
				ZERO BIAS
pF
CAPACITANCE,	1,000	TJ = 25¢J
		f = 1.0MHz
		Vsig = 50mVp-p
			MEASURED AT
	100		STAND-OFF
CJ,
			VOLTAGE(VMW)
	10
	1.0	2.0	10	20	200	400

V(WM), REVERSE STAND-OFF VOLTAGE, VOLTS

Fig. 4-TYPICAL JUNCTION CAPACITANCE

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Version: 3

2003/01/01

									M C C
SMCJ5.0 THRU SMCJ170CA
Electrical Characteristics @ 25oC Unless Otherwise Specified
									MAXIMUM
	REVERSE								REVERSE
	STAND-OFF	BREAKDOWN VOLTAGE			MAXIMUM		PEAK PULSE		LEAKAGE
MCC PART	VOLTAGE		V(BR) @IT		CLAMPING		CURRENT		@VWM
NUMBER	VWM		(VOLTS)		VOLTAGE@IPP		IPP		ID	MARKING
	VOLTS	MIN	MAX	IT(mA)	VOLTS		(AMPS)		(uA)	CODE
SMCJ5.0	5.0	6.40	7.30	10	9.6		156.2		1000	GDD
SMCJ5.0A	5.0	6.40	7.00	10	9.2		163.0		1000	GDE
SMCJ6.0	6.0	6.67	8.15	10	11.4		131.6		1000	GDF
SMCJ6.0A	6.0	6.67	7.37	10	10.3		145.6		1000	GDG
SMCJ6.5	6.5	7.22	8.82	10	12.3		122.0		500	GDH
SMCJ6.5A	6.5	7.22	7.98	10	11.2		133.9		500	GDK
SMCJ7.0	7.0	7.78	9.51	10	13.3		112.8		200	GDL
SMCJ7.0A	7.0	7.78	8.60	10	12.0		125.0		200	GDM
SMCJ7.5	7.5	8.33	10.2	1	14.3		104.9		100	GDN
SMCJ7.5A	7.5	8.33	9.21	1	12.9		116.3		100	GDP
SMCJ8.0	8.0	8.89	10.9	1	15.0		100.0		50	GDQ
SMCJ8.0A	8.0	8.89	9.83	1	13.6		110.3		50	GDR
SMCJ8.5	8.5	9.44	11.5	1	15.9		94.3		10	GDS
SMCJ8.5A	8.5	9.44	10.4	1	14.4		104.2		10	GDT
SMCJ9.0	9.0	10.0	12.2	1	16.9		88.7		5	GDU
SMCJ9.0A	9.0	10.0	11.1	1	15.4		97.4		5	GDV
SMCJ10	10	11.1	13.6	1	18.8		79.8		5	GDW
SMCJ10A	10	11.1	12.3	1	17.0		88.2		5	GDX
SMCJ11	11	12.2	14.9	1	20.1		74.6		5	GDY
SMCJ11A	11	12.2	13.5	1	18.2		82.4		5	GDZ
SMCJ12	12	13.3	16.3	1	22.0		68.2		5	GED
SMCJ12A	12	13.3	14.7	1	19.9		75.3		5	GEE
SMCJ13	13	14.4	17.6	1	23.8		63.0		5	GEF
SMCJ13A	13	14.4	15.9	1	21.5		69.7		5	GEG
SMCJ14	14	15.6	19.1	1	25.8		58.1		5	GEH
SMCJ14A	14	15.6	17.2	1	23.2		64.7		5	GEK
SMCJ15	15	16.7	20.4	1	26.9		55.8		5	GEL
SMCJ15A	15	16.7	18.5	1	24.4		61.5		5	GEM
SMCJ16	16	17.8	21.8	1	28.8		52.1		5	GEN
SMCJ16A	16	17.8	19.7	1	26.0		57.7		5	GEP
SMCJ17	17	18.9	23.1	1	30.5		49.2		5	GEQ
SMCJ17A	17	18.9	20.9	1	27.6		53.3		5	GER
SMCJ18	18	20.0	24.4	1	32.2		46.6		5	GES
SMCJ18A	18	20.0	22.1	1	29.2		51.4		5	GET
SMCJ20	20	22.2	27.1	1	35.8		41.9		5	GEU
SMCJ20A	20	22.2	24.5	1	32.4		46.3		5	GEV
SMCJ22	22	24.4	29.8	1	39.4		38.1		5	GEW
SMCJ22A	22	24.4	26.9	1	35.5		42.2		5	GEX
SMCJ24	24	26.7	32.6	1	43.0		34.9		5	GEY
SMCJ24A	24	26.7	29.5	1	38.9		38.6		5	GEZ
SMCJ26	26	28.9	35.3	1	46.6		32.2		5	GFD
SMCJ26A	26	28.9	31.9	1	42.1		35.6		5	GFE

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Version: 3

2003/01/01