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MOTOROLA

SEMICONDUCTOR TECHNICAL DATA

Order this document by MJE18008/D

Designer's Data Sheet

SWITCHMODE

NPN Bipolar Power Transistor

For Switching Power Supply Applications

The MJE/MJF18008 have an applications specific state±of±the±art die designed for use in 220 V line±operated Switchmode Power supplies and electronic light ballasts. These high voltage/high speed transistors offer the following:

•Improved Efficiency Due to Low Base Drive Requirements:

ÐHigh and Flat DC Current Gain h FE

ÐFast Switching

ÐNo Coil Required in Base Circuit for Turn±Off (No Current Tail)

•Tight Parametric Distributions are Consistent Lot±to±Lot

•Two Package Choices: Standard TO±220 or Isolated TO±220

•MJF18008, Case 221D, is UL Recognized at 3500 VRMS: File #E69369

MAXIMUM RATINGS

Rating		Symbol	MJE18008	MJF18008	Unit

Collector±Emitter Sustaining Voltage		VCEO	450		Vdc
Collector±Emitter Breakdown Voltage		VCES	1000		Vdc
Emitter±Base Voltage		VEBO	9.0		Vdc
Collector Current Ð Continuous		IC	8.0		Adc
Ð Peak(1)		ICM	16
Base Current Ð Continuous		IB	4.0		Adc
Ð Peak(1)		IBM	8.0
RMS Isolation Voltage(2)	Test No. 1 Per Fig. 22a	VISOL	Ð	4500	Volts
(for 1 sec, R.H. < 30%,	Test No. 1 Per Fig. 22b		Ð	3500
TC = 25_C)	Test No. 1 Per Fig. 22c		Ð	1500
Total Device Dissipation	(TC = 25°C)	P	125	45	Watts
Derate above 25_C		D	1.0	0.36	W/_C
Derate above 25_C			1.0	0.36	W/_C

Operating and Storage Temperature		TJ, Tstg	± 65 to 150		_C
THERMAL CHARACTERISTICS

Rating		Symbol	MJE18008	MJF18008	Unit

Thermal Resistance Ð Junction to Case		RqJC	1.0	2.78	_C/W
Ð Junction to Ambient		RqJA	62.5	62.5
Maximum Lead Temperature for Soldering		TL	260		_C
Purposes: 1/8″ from Case for 5 Seconds

MJE18008* MJF18008*

*Motorola Preferred Device

POWER TRANSISTOR

8.0 AMPERES

1000 VOLTS

45 and 125 WATTS

CASE 221A±06

TO±220AB

MJE18008

CASE 221D±02

ISOLATED TO±220 TYPE

UL RECOGNIZED

MJF18008

ELECTRICAL CHARACTERISTICS (TC = 25_C unless otherwise specified)

	Characteristic		Symbol	Min	Typ	Max	Unit

OFF CHARACTERISTICS

Collector±Emitter Sustaining Voltage (IC = 100 mA, L = 25 mH)			VCEO(sus)	450	Ð	Ð	Vdc
Collector Cutoff Current (VCE = Rated VCEO, IB = 0)			ICEO	Ð	Ð	100	mAdc
Collector Cutoff Current (VCE = Rated VCES, VEB = 0)			ICES	Ð	Ð	100	mAdc
		(TC = 125_C)		Ð	Ð	500
Collector Cutoff Current (VCE = 800 V, VEB = 0)		(TC = 125_C)		Ð	Ð	100
Emitter Cutoff Current (VEB = 9.0 Vdc, IC = 0)			IEBO	Ð	Ð	100	mAdc
(1)	Pulse Test: Pulse Width = 5.0 ms, Duty Cycle v 10%.						(continued)
(2)	Proper strike and creepage distance must be provided.

Designer's Data for ªWorst Caseº Conditions Ð The Designer 's Data Sheet permits the design of most circuits entirely from the information presented. SOA Limit curves Ð representing boundaries on device characteristics Ð are given to facilitate ªworst caseº design.

Preferred devices are Motorola recommended choices for future use and best overall value.

Designer's and SWITCHMODE are trademarks of Motorola, Inc.

REV 1

Motorola, Inc. 1995

MJE18008 MJF18008

ELECTRICAL CHARACTERISTICS Ð continued (TC = 25_C unless otherwise specified)

Characteristic

Symbol

Min

Typ

Max

Unit

ON CHARACTERISTICS

Base±Emitter Saturation Voltage (IC = 2.0 Adc, IB = 0.2 Adc)

VBE(sat)

0.82

1.1

Vdc

Base±Emitter Saturation Voltage (IC = 4.5 Adc, IB = 0.9 Adc)

0.92

1.25

Collector±Emitter Saturation Voltage

VCE(sat)

Vdc

(IC = 2.0 Adc, IB = 0.2 Adc)

0.3

0.6

(TC = 125_C)

0.3

0.65

(IC = 4.5 Adc, IB = 0.9 Adc)

0.35

0.7

(TC = 125_C)

0.4

0.8

DC Current Gain (IC = 1.0 Adc, VCE = 5.0 Vdc)

hFE

(TC = 125_C)

DC Current Gain (IC = 4.5 Adc, VCE = 1.0 Vdc)

6.0

9.0

(TC = 125_C)

5.0

8.0

DC Current Gain (IC = 2.0 Adc, VCE = 1.0 Vdc)

(TC = 125_C)

DC Current Gain (IC = 10 mAdc, VCE = 5.0 Vdc)

DYNAMIC CHARACTERISTICS

Current Gain Bandwidth (IC = 0.5 Adc, VCE = 10 Vdc, f = 1.0 MHz)

MHz

Output Capacitance (VCB = 10 Vdc, IE = 0, f = 1.0 MHz)

Cob

100

150

Input Capacitance (VEB = 8.0 V)

Cib

1750

2500

Dynamic Saturation Voltage:

= 2.0 Adc

1.0 μs

VCE(dsat)

5.5

Vdc

11.5

(TC = 125 C)

Determined 1.0 μs and

IB1 = 200 mAdc

3.5

= 300 V)

3.0 s respectively after

rising IB1 reaches 90% of

3.0 s

(TC = 125°C)

6.5

final IB1

1.0 μs

11.5

(see Figure 18)

= 5.0 Adc

14.5

(TC = 125 C)

IB1 = 1.0 Adc

2.4

VCC = 300 V)

3.0 μs

(TC = 125°C)

9.0

SWITCHING CHARACTERISTICS: Resistive Load (D.C. v 10%, Pulse Width = 20 μs)

Turn±On Time

(IC = 2.0 Adc, IB1 = 0.2 Adc,

(TC = 125°C)

ton

200

300

IB2 = 1.0 Adc, VCC = 300 V)

190

Turn±Off Time

(TC = 125°C)

toff

1.2

2.5

μs

1.5

Turn±On Time

(IC = 4.5 Adc, IB1 = 0.9 Adc,

(TC = 125°C)

ton

100

180

IB2 = 2.25 Adc, VCC = 300 V)

250

Turn±Off Time

(TC = 125°C)

toff

1.6

2.5

μs

2.0

SWITCHING CHARACTERISTICS: Inductive Load (Vclamp = 300 V, VCC = 15 V, L = 200 μH)

Fall Time

(IC = 2.0 Adc, IB1 = 0.2 Adc,

(TC = 125°C)

tfi

100

180

IB2 = 1.0 Adc)

120

Storage Time

(TC = 125°C)

tsi

1.5

2.75

μs

1.9

Crossover Time

(TC = 125°C)

250

350

230

Fall Time

(IC = 4.5 Adc, IB1 = 0.9 Adc,

(TC = 125°C)

tfi

150

IB2 = 2.25 Adc)

135

Storage Time

(TC = 125°C)

tsi

2.0

3.2

μs

2.6

Crossover Time

(TC = 125°C)

210

300

250

2	Motorola Bipolar Power Transistor Device Data

								MJE18008	MJF18008
			TYPICAL STATIC CHARACTERISTICS
	100					100
			V	= 1 V				VCE = 5 V
		TJ = 125°C	CE				TJ = 125°C
GAIN		TJ = 125°C			GAIN		TJ = 125°C
GAIN		TJ = 25°C			GAIN		TJ = 25°C
CURRENTDC,	10	°			CURRENTDC,	10	TJ = ± 20°C
		TJ = ± 20 C					TJ = ± 20°C
FE					FE
h					h
	1					1
	0.01	0.1	1		10	0.01	0.1	1	10
		IC, COLLECTOR CURRENT (AMPS)					IC, COLLECTOR CURRENT (AMPS)

Figure 1. DC Current Gain @ 1 Volt

Figure 2. DC Current Gain @ 5 Volts

	2
		TJ = 25°C
(VOLTS)	1.5
(VOLTS)		IC = 1 A	3 A	5 A	8 A 10 A
, VOLTAGE	1	IC = 1 A	3 A	5 A	8 A 10 A
	1

CE	0.5
V	0.5
	0	0.1		1	10
	0.01	0.1		1	10
		IB, BASE CURRENT (AMPS)

	10
VOLTAGE (VOLTS)	1
VOLTAGE (VOLTS)	0.1	IC/IB = 10
,
CE
CE
V		IC/IB = 5
		IC/IB = 5		TJ = 25°C
				TJ = 25°C
	0.01			TJ = 125°C
	0.01	0.1	1	10
	0.01	0.1	1	10

IC COLLECTOR CURRENT (AMPS)

Figure 3. Collector Saturation Region

Figure 4. Collector±Emitter Saturation Voltage

	1.3					10000
	1.2
(VOLTS)	1.1					1000
						1000
	1				(pF)
	0.9				(pF)
, VOLTAGE	0.9				C, CAPACITANCE	100
	0.8					100
	0.8
	0.7	°
	0.7	°
BE		TJ = 25 C				10
V	0.6					10
	0.5	TJ = 125°C			IC/IB = 5
	0.4				IC/IB = 10	1
	0.4		0.1	1	10	1
	0.01		0.1	1	10

IC, COLLECTOR CURRENT (AMPS)

	Cib	TJ = 25°C
	Cib	f = 1 MHz
		Cob
1	10	100	1000
	VCE, COLLECTOR±EMITTER VOLTAGE (VOLTS)

Figure 5. Base±Emitter Saturation Region

Figure 6. Capacitance

Motorola Bipolar Power Transistor Device Data

MJE18008 MJF18008

TYPICAL SWITCHING CHARACTERISTICS (IB2 = IC/2 for all switching)

1500
	IB(off) = IC/2
	VCC = 300 V
	PW = 20 μs
1000					TJ = 125°C
t, TIME (ns)	IC/IB = 5				TJ = 125°C			t, TIME (ns)
	IC/IB = 5						TJ = 25°C
	IC/IB = 10						TJ = 25°C

500
0
0	1	2	3	4	5	6	7	8

4500				TJ = 25°C
4000	IC/IB = 5			TJ = 25°C		IB(off) = IC/2
4000				TJ = 125°C		VCC = 300 V
				TJ = 125°C		VCC = 300 V
3500						PW = 20 μs
3000
2500
2000	IC/IB = 10
1500
1000
500
0
1	2	3	4	5	6	7	8

IC, COLLECTOR CURRENT (AMPS)	IC, COLLECTOR CURRENT (AMPS)
Figure 7. Resistive Switching, ton	Figure 8. Resistive Switching, toff

	3500								5000
	3000						IB(off) = IC/2		4500
	3000				IC/IB = 5		VCC = 15 V		4000
							VZ = 300 V	(ns)	4000
	2500						LC = 200 μH	(ns)	3500
t, TIME (ns)	2000							STORAGE TIME	3000
	2000
									2500
	1500								2000
									2000
	1000								1500
								,
								si
								t	1000
	500		TJ = 25°C						1000
	500		TJ = 25°C						500
			TJ = 125°C		IC/IB = 10				500
	0		TJ = 125°C		IC/IB = 10				0
	0	2	3	4	5	6	7	8	0
	1	2	3	4	5	6	7	8
			IC COLLECTOR CURRENT (AMPS)

					TJ = 25°C					IB(off) = IC/2
					TJ = 125°C					VCC = 15 V
										VZ = 300 V
										LC = 200 μH
					IC = 2 A
				IC = 4.5 A
3	4	5	6	7	8	9	10	11	12	13	14	15
					hFE, FORCED GAIN

Figure 9. Inductive Storage Time, tsi

Figure 10. Inductive Storage Time, tsi(hFE)

	400								300
	350
	300				tc				250
	300
(ns)	250							(ns)	200
									200

t, TIME	200			tfi				t, TIME
t, TIME	150							t, TIME	150
	150
	100	IB(off) = IC/2
		VCC = 15 V							100
	50	V = 300 V					°
	50	Z	μH				TJ = 25 C
	0	LC = 200	μH				TJ = 125°C		50
	0	2	3	4	5	6	7	8	50
	1	2	3	4	5	6	7	8

IC, COLLECTOR CURRENT (AMPS)

				TJ = 25°C		I			= I	/2
				TJ = 125°C		B(off)				C
				TJ = 125°C		V	CC	= 15 V
						VZ = 300 V
				tfi		LC = 200 μH
				tfi
		tc
1	2	3	4	5	6				7	8
		IC, COLLECTOR CURRENT (AMPS)

Figure 11. Inductive Switching, tc and tfi	Figure 12. Inductive Switching, tc and tfi
IC/IB = 5	IC/IB = 10

4	Motorola Bipolar Power Transistor Device Data

MJE18008 MJF18008

TYPICAL SWITCHING CHARACTERISTICS (IB2 = IC/2 for all switching)

	160										IB(off) = IC/2
	150										IB(off) = IC/2
	150										VCC = 15 V
	140							IC = 2 A			VCC = 15 V
	140							IC = 2 A			VZ = 300 V
(ns)	130										LC = 200 μH
(ns)	120
TIME	120
TIME	110
FALL	110
FALL	100
,					IC = 4.5 A
fi	90
t	90
	80			TJ = 25°C
	70			TJ = 25°C
	70			TJ = 125°C
	60			TJ = 125°C
	3	4	5	6	7	8	9	10	11	12	13	14	15

hFE, FORCED GAIN

Figure 13. Inductive Fall Time

	400
	350						IC = 2 A			IB(off) = IC/2
	350						IC = 2 A			VCC = 15 V
(ns)										VCC = 15 V
(ns)	300									VZ = 300 V
TIME	300									LC = 200 μH
TIME	250
, CROSSOVER	250
	200
	150		IC = 4.5 A
C			IC = 4.5 A
T
	100			°
				TJ = 25 C
	50			TJ = 125°C
	3	4	5	6	7	8	9	10	11	12	13	14	15

hFE, FORCED GAIN

Figure 14. Inductive Crossover Time

GUARANTEED SAFE OPERATING AREA INFORMATION

	100					9
	DC (MJE18008)					8
(AMPS)	5 ms	1 ms	10 μs	1 μs	(AMPS)	8
	5 ms	1 ms	10 μs	1 μs		7
	10					7
CURRENT			EXTENDED		CURRENT	6
			EXTENDED
	1		SOA			5

COLLECTOR					COLLECTOR	4
						4
	DC (MJF18008)					3
	0.1					2
,					,
C					C	1
I					I

	0.01		100		1000	0
	10		100		1000

VCE, COLLECTOR±EMITTER VOLTAGE (VOLTS)

					TC ≤ 125°C
					IC/IB ≥ 4
					LC = 500 μH
					± 5 V
		VBE(off) = 0 V		±1, 5 V
0	200	400	600	800	1000
	VCE, COLLECTOR±EMITTER VOLTAGE (VOLTS)

Figure 15. Forward Bias Safe Operating Area	Figure 16. Reverse Bias Switching Safe
	Operating Area

	1,0
FACTOR	0,8					SECOND BREAKDOWN
	0,8					DERATING
						DERATING

DERATING	0,6
DERATING	0,4
POWER	0,4
			THERMAL DERATING
	0,2
	0,2
	0,0	40	60	80	100	120	140	160
	20	40	60	80	100	120	140	160
			TC, CASE TEMPERATURE (°C)

Figure 17. Forward Bias Power Derating

There are two limitations on the power handling ability of a transistor: average junction temperature and second breakdown. Safe operating area curves indicate IC ± VCE limits of the transistor that must be observed for reliable operation; i.e., the transistor must not be subjected to greater dissipation than the curves indicate. The data of Figure 15 is based on TC = 25°C; TJ(pk) is variable depending on power level. Second breakdown pulse limits are valid for duty cycles to 10% but must be derated when TC > 25°C. Second breakdown limitations do not derate the same as thermal limitations. Allowable current at the voltages shown in Figure 15 may be found at any case temperature by using the appropriate curve

on Figure 17. TJ(pk) may be calculated from the data in Figure 20 and 21. At any case temperatures, thermal limitations will

reduce the power that can be handled to values less than the limitations imposed by second breakdown. For inductive loads, high voltage and current must be sustained simultaneously during turn±off with the base±to±emitter junction reverse±biased. The safe level is specified as a reverse± biased safe operating area (Figure 16). This rating is verified under clamped conditions so that the device is never subjected to an avalanche mode.

Motorola Bipolar Power Transistor Device Data

MJE18008		MJF18008
	5
	VCE
	4
	3	dyn 1 μs
	2	dyn 3 μs
		dyn 3 μs
VOLTS	1
	0
	±1
	±1
	±2	90% IB
	±2
	±3	1 μs
	±4	3 μs
	IB
	±5
		TIME

Figure 18. Dynamic Saturation Voltage Measurements

10
9	IC					90% IC
8						tfi
8			tsi
7			tsi
7
6					tc		10% IC
5	VCLAMP	10% VCLAMP			tc		10% IC
5	VCLAMP	10% VCLAMP
4
3	IB	90% IB1
2
1
0
0	1	2	3	4	5	6	7	8
				TIME

Figure 19. Inductive Switching Measurements

+15 V
1	μF		100	Ω		MTP8P10		100 μF
	150 Ω		100	Ω
	150 Ω		3 W
	3 W		3 W
	3 W
	MPF930					MTP8P10	RB1		VCE
	MPF930					MUR105	RB1		IB1
	MPF930					MUR105		Iout	IB1
+10 V	MPF930							Iout	I
									B
							A
	50 Ω					MJE210	RB2
							RB2
									V(BR)CEO(sus)
COMMON					150 Ω	MTP12N10			V(BR)CEO(sus)
						MTP12N10			L = 10 mH
									L = 10 mH
	500	μ	F		3 W				RB2 = ∞
	500		F						VCC = 20 VOLTS
									VCC = 20 VOLTS
							1	μ	IC(pk) = 100 mA
							1	F

±Voff

IC PEAK

VCE PEAK

IB2
INDUCTIVE SWITCHING	RBSOA
L = 200 μH	L = 500 μH
RB2 = 0	RB2 = 0
VCC = 15 VOLTS	VCC = 15 VOLTS
RB1 SELECTED FOR	RB1 SELECTED
DESIRED IB1	FOR DESIRED IB1

Table 1. Inductive Load Switching Drive Circuit

6	Motorola Bipolar Power Transistor Device Data

MJE18008 MJF18008

TYPICAL THERMAL RESPONSE

		1
TRANSIENT THERMAL RESISTANCE			D = 0.5
			0.2
	(NORMALIZED)		0.1			P(pk)	RθJC(t) = r(t) RθJC
		0.1	0.05			P(pk)	RθJC(t) = r(t) RθJC
		0.1	0.05				RθJC = 1.0°C/W MAX
							D CURVES APPLY FOR POWER
			0.02			t1	PULSE TRAIN SHOWN
						t1	READ TIME AT t1
						t2	TJ(pk) ± TC = P(pk) RθJC(t)
				SINGLE PULSE		DUTY CYCLE, D = t1/t2	TJ(pk) ± TC = P(pk) RθJC(t)
r(t),				SINGLE PULSE		DUTY CYCLE, D = t1/t2
		0.01
		0.01		0.1	1	10	100	1000

t, TIME (ms)

Figure 20. Typical Thermal Response (ZθJC(t)) for MJE18008

		1
TRANSIENT THERMAL RESISTANCE			D = 0.5
	(NORMALIZED)		0.2
		0.1					P(pk)		RθJC(t) = r(t) RθJC
		0.1	0.1						°
			0.1						RθJC = 2.78 C/W MAX
									D CURVES APPLY FOR POWER
			0.05				t1		PULSE TRAIN SHOWN
							t1	t2	READ TIME AT t1
								t2	TJ(pk) ± TC = P(pk) RθJC(t)
							DUTY CYCLE, D = t1/t2		TJ(pk) ± TC = P(pk) RθJC(t)
r(t),			0.02				DUTY CYCLE, D = t1/t2
			0.02
				SINGLE PULSE
		0.01		SINGLE PULSE
		0.01
		0.01		0.1	1	10	100	1000	10000	100000

t, TIME (ms)

Figure 21. Typical Thermal Response (ZθJC(t)) for MJF18008

Motorola Bipolar Power Transistor Device Data

MJE18008 MJF18008

TEST CONDITIONS FOR ISOLATION TESTS*

	MOUNTED		MOUNTED		MOUNTED
CLIP	FULLY ISOLATED	CLIP	FULLY ISOLATED	0.107″ MIN	FULLY ISOLATED	0.107″ MIN
CLIP	PACKAGE	CLIP	PACKAGE		PACKAGE
	PACKAGE		PACKAGE		PACKAGE
	LEADS		LEADS		LEADS
	HEATSINK		HEATSINK		HEATSINK
	0.110″ MIN
Figure 22a. Screw or Clip Mounting Position		Figure 22b. Clip Mounting Position			Figure 22c. Screw Mounting Position
for Isolation Test Number 1		for Isolation Test Number 2			for Isolation Test Number 3
* Measurement made between leads and heatsink with all leads shorted together

MOUNTING INFORMATION**

4±40 SCREW

CLIP

PLAIN WASHER

HEATSINK
COMPRESSION WASHER
NUT	HEATSINK
NUT
Figure 23a. Screw±Mounted	Figure 23b. Clip±Mounted

Figure 23. Typical Mounting Techniques

for Isolated Package

Laboratory tests on a limited number of samples indicate, when using the screw and compression washer mounting technique, a screw torque of 6 to 8 in . lbs is sufficient to provide maximum power dissipation capability. The compression washer helps to maintain a constant pressure on the package over time and during large temperature excursions.

Destructive laboratory tests show that using a hex head 4±40 screw, without washers, and applying a torque in excess of 20 in . lbs will cause the plastic to crack around the mounting hole, resulting in a loss of isolation capability.

Additional tests on slotted 4±40 screws indicate that the screw slot fails between 15 to 20 in . lbs without adversely affecting the package. However, in order to positively ensure the package integrity of the fully isolated device, Motorola does not recommend exceeding 10 in . lbs of mounting torque under any mounting conditions.

** For more information about mounting power semiconductors see Application Note AN1040.

8	Motorola Bipolar Power Transistor Device Data

MJE18008 MJF18008

PACKAGE DIMENSIONS

	B	F		±T±	PLANESEATING
			T	C
4			T	S	NOTES:
					1. DIMENSIONING AND TOLERANCING PER ANSI
Q		A			Y14.5M, 1982.
Q		A			2. CONTROLLING DIMENSION: INCH.
					3. DIMENSION Z DEFINES A ZONE WHERE ALL
1	2	3			BODY AND LEAD IRREGULARITIES ARE
H			U		ALLOWED.
H			U
Z		K
Z
L
V				R
G				J
		D
	N

	INCHES		MILLIMETERS
DIM	MIN	MAX	MIN	MAX
A	0.570	0.620	14.48	15.75
B	0.380	0.405	9.66	10.28
C	0.160	0.190	4.07	4.82
D	0.025	0.035	0.64	0.88
F	0.142	0.147	3.61	3.73
G	0.095	0.105	2.42	2.66
H	0.110	0.155	2.80	3.93
J	0.018	0.025	0.46	0.64
K	0.500	0.562	12.70	14.27
L	0.045	0.060	1.15	1.52
N	0.190	0.210	4.83	5.33
Q	0.100	0.120	2.54	3.04
R	0.080	0.110	2.04	2.79
S	0.045	0.055	1.15	1.39
T	0.235	0.255	5.97	6.47
U	0.000	0.050	0.00	1.27
V	0.045	±±±	1.15	±±±
Z	±±±	0.080	±±±	2.04

STYLE 1:

PIN 1. BASE

2.COLLECTOR

3.EMITTER

4.COLLECTOR

					CASE 221A±06
					TO±220AB
					ISSUE Y
					±T±	SEATING
						PLANE
±B±					C	NOTES:
F					S	1. DIMENSIONING AND TOLERANCING PER ANSI
					S		Y14.5M, 1982.
Q						2.	CONTROLLING DIMENSION: INCH.
Q					U
					U				INCHES		MILLIMETERS
									INCHES		MILLIMETERS
A							DIM	MIN		MAX	MIN	MAX
							A	0.621		0.629	15.78	15.97
1	2	3					B	0.394		0.402	10.01	10.21
1	2	3					C	0.181		0.189	4.60	4.80
H							C	0.181		0.189	4.60	4.80
H		±Y±					D	0.026		0.034	0.67	0.86
K		±Y±					F	0.121		0.129	3.08	3.27
K							G		0.100 BSC		2.54 BSC
							G		0.100 BSC		2.54 BSC
							H	0.123		0.129	3.13	3.27
							J	0.018		0.025	0.46	0.64
		G			J		K	0.500		0.562	12.70	14.27
		G			J		L	0.045		0.060	1.14	1.52
		N			R		N		0.200 BSC		5.08 BSC
		L			R		Q	0.126		0.134	3.21	3.40
							Q	0.126		0.134	3.21	3.40
							R	0.107		0.111	2.72	2.81
		D 3 PL					R	0.107		0.111	2.72	2.81
		D 3 PL					S	0.096		0.104	2.44	2.64
		0.25 (0.010) M	B	M	Y		U	0.259		0.267	6.58	6.78
		0.25 (0.010) M	B	M	Y		STYLE 2:
							STYLE 2:
							PIN 1.		BASE
								2.	COLLECTOR
								3.	EMITTER

CASE 221D±02

(ISOLATED TO±220 TYPE) UL RECOGNIZED: FILE #E69369

ISSUE D

Motorola Bipolar Power Transistor Device Data

MJE18008 MJF18008

Motorola reserves the right to make changes without further notice to any products herein. Motorola makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does Motorola assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. ªTypicalº parameters can and do vary in different applications. All operating parameters, including ªTypicalsº must be validated for each customer application by customer's technical experts. Motorola does not convey any license under its patent rights nor the rights of others. Motorola products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the Motorola product could create a situation where personal injury or death may occur. Should Buyer purchase or use Motorola products for any such unintended or unauthorized application, Buyer shall indemnify and hold Motorola and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that Motorola was negligent regarding the design or manufacture of the part. Motorola and are registered trademarks of Motorola, Inc. Motorola, Inc. is an Equal Opportunity/Affirmative Action Employer.

How to reach us:
USA / EUROPE: Motorola Literature Distribution;	JAPAN: Nippon Motorola Ltd.; Tatsumi±SPD±JLDC, Toshikatsu Otsuki,
P.O. Box 20912; Phoenix, Arizona 85036. 1±800±441±2447	6F Seibu±Butsuryu±Center, 3±14±2 Tatsumi Koto±Ku, Tokyo 135, Japan. 03±3521±8315
MFAX: RMFAX0@email.sps.mot.com ± TOUCHTONE (602) 244±6609 HONG KONG: Motorola Semiconductors H.K. Ltd.; 8B Tai Ping Industrial Park,
INTERNET: http://Design±NET.com	51 Ting Kok Road, Tai Po, N.T., Hong Kong. 852±26629298

◊ MJE18008/D

*MJE18008/D*

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