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2N6050RE

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MOTOROLA

SEMICONDUCTOR TECHNICAL DATA

Order this document by 2N6050/D

Darlington Complementary

Silicon Power Transistors

. . . designed for general±purpose amplifier and low frequency switching applications.

• High DC Current Gain Ð

hFE = 3500 (Typ) @ IC = 5.0 Adc
• Collector±Emitter Sustaining Voltage Ð @ 100 mA
VCEO(sus) = 60 Vdc (Min) Ð 2N6050, 2N6057
VCEO(sus) = 80 Vdc (Min) Ð 2N6051, 2N6058
VCEO(sus) = 100 Vdc (Min) Ð 2N6052, 2N6059
• Monolithic Construction with Built±In Base±Emitter Shunt Resistors
MAXIMUM RATINGS (1)

			2N6050		2N6051	2N6052
Rating	Symbol		2N6057		2N6058	2N6059	Unit

Collector±Emitter Voltage	VCEO		60	80		100	Vdc
Collector±Base Voltage	VCB		60	80		100	Vdc
Emitter±Base voltage	VEB			5.0			Vdc
Collector Current Ð Continuous	IC			12			Adc
Peak				20

Base Current	IB			0.2			Adc
Total Device Dissipation	PD			150			Watts
@TC = 25_C
Derate above 25_C				0.857			_
				0.857			W/ C
Operating and Storage Junction	TJ, Tstg		± 65 to +200_C				_C
Temperature Range

THERMAL CHARACTERISTICS

Characteristic		Symbol			Rating		Unit

Thermal Resistance, Junction to Case			RθJC		1.17		_C/W
(1) Indicates JEDEC Registered Data.

PNP

2N6050 thru

2N6052*

NPN

2N6057 thru 2N6059*

*Motorola Preferred Device

DARLINGTON

12 AMPERE

COMPLEMENTARY

SILICON

POWER TRANSISTORS 60 ± 80 ± 100 VOLTS 150 WATTS

CASE 1±07 TO±204AA (TO±3)

	160
(WATTS)	140
	120

DISSIPATION	100
	80
	60
, POWER	60
	40

D	20
P

	0	25	50	75	100	125	150	175	200
	0	25	50	75	100	125	150	175	200
			TC, CASE TEMPERATURE (°C)

Figure 1. Power Derating

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

REV 1

Motorola, Inc. 1995

2N6050 thru 2N6052 2N6057 thru 2N6059

*ELECTRICAL CHARACTERISTICS (TC = 25_C unless otherwise noted)

Characteristic		Symbol	Min	Max	Unit

OFF CHARACTERISTICS

Collector±Emitter Sustaining Voltage (1)		VCEO(sus)			Vdc
(IC = 100 mAdc, IB = 0)	2N6050, 2N6057		60	Ð
	2N6051, 2N6058		80	Ð
	2N6052, 2N6059		100	Ð

Collector Cutoff Current		ICEO			mAdc
Collector Cutoff Current		ICEO			mAdc
(VCE = 30 Vdc, IB = 0)	2N6050, 2N6057		Ð	1.0
(VCE = 40 Vdc, IB = 0)	2N6051, 2N6058		Ð	1.0
(VCE = 50 Vdc, IB = 0)	2N6052, 2N6059		Ð	1.0
Collector Cutoff Current		ICEX			mAdc
(VCE = Rated VCEO, VBE(off) = 1.5 Vdc)			Ð	0.5
(VCE = Rated VCEO, VBE(off) = 1.5 Vdc, TC = 150_C)				5.0
Emitter Cutoff Current		IEBO	Ð	2.0	mAdc
(VBE = 5.0 Vdc, IC = 0)
ON CHARACTERISTICS (1)

DC Current Gain		hFE			Ð
(IC = 6.0 Adc, VCE = 3.0 Vdc)			750	18,000
(IC = 12 Adc, VCE = 3.0 Vdc)			100	Ð
Collector±Emitter Saturation Voltage		VCE(sat)			Vdc
(IC = 6.0 Adc, IB = 24 mAdc)			Ð	2.0
(IC = 12 Adc, IB = 120 mAdc)			Ð	3.0
Base±Emitter Saturation Voltage		VBE(sat)	Ð	4.0	Vdc
(IC = 12 Adc, IB = 120 mAdc)
Base±Emitter On Voltage		VBE(on)	Ð	2.8	Vdc
(IC = 6.0 Adc, VCE = 3.0 Vdc)
DYNAMIC CHARACTERISTICS

Magnitude of Common Emitter Small±Signal Short Circuit Forward		\|hfe\|	4.0	Ð	MHz
Current Transfer Ratio
(IC = 5.0 Adc, VCE = 3.0 Vdc, f = 1.0 MHz)
Output Capacitance	2N6050/2N6052	Cob	Ð	500	pF
(VCB = 10 Vdc, IE = 0, f = 0.1 MHz)	2N6057/2N6059		Ð	300
Small±Signal Current Gain		hfe	300	Ð	Ð
(IC = 5.0 Adc, VCE = 3.0 Vdc, f = 1.0 kHz)
* Indicates JEDEC Registered Data.
(1) Pulse test: Pulse Width = 300 μs, Duty Cycle = 2.0%.

RB & RC VARIED TO OBTAIN DESIRED CURRENT LEVELS	VCC
RB & RC VARIED TO OBTAIN DESIRED CURRENT LEVELS	± 30 V
D1 MUST BE FAST RECOVERY TYPE, eg:
1N5825 USED ABOVE IB ≈ 100 mA	RC
MSD6100 USED BELOW IB ≈ 100 mA	RC	SCOPE
MSD6100 USED BELOW IB ≈ 100 mA		SCOPE
TUT
TUT

V2			R
approx			B
approx
+ 8.0	V
	0	51	D1	≈ 5.0 k	≈ 50
	0

+ 4.0 V

approx

± 8.0 V

for td and tr, D1 is disconnected

tr, tf ≤ 10 ns

and V2 = 0

DUTY CYCLE = 1.0%

For NPN test circuit reverse diode and voltage polarities.

Figure 2. Switching Times Test Circuit

	10
	5.0					2N6050/2N6052
	5.0					2N6057/2N6059
	ts
μs)	2.0			tf
μs)				tf
(
t, TIME	1.0
t, TIME	0.5				tr
	0.5
				td @ VBE(off) = 0		VCC = 30 V
	0.2					IC/IB = 250
	0.2					IB1 = IB2
	0.1					TJ = 25°C
	0.2	0.5	1.0	3.0	5.0	10	20
			IC, COLLECTOR CURRENT (AMP)

Figure 3. Switching Times

2	Motorola Bipolar Power Transistor Device Data

													2N6050			thru	2N6052		2N6057			thru	2N6059
		1.0
EFFECTIVE TRANSIENT THERMAL		0.7	D = 0.5
		0.5	D = 0.5
	RESISTANCE (NORMALIZED)	0.5
		0.3	0.2
			0.2
		0.2	0.1
			0.1										R	(t) = r(t) R				P(pk)
													R	(t) = r(t) R				P(pk)
		0.1	0.05										θJC		°	θJC
		0.07											RθJC = 1.17 C/W MAX
		0.07	0.02										D CURVES APPLY FOR POWER
		0.05											D CURVES APPLY FOR POWER
													PULSE TRAIN SHOWN
													PULSE TRAIN SHOWN						t1
		0.03											READ TIME AT t1						t1	t
		0.03			0.01								TJ(pk) ± TC = P(pk) θJC(t)							2
			SINGLE PULSE															DUTY CYCLE, D = t1/t2
r(t),		0.02
r(t),		0.02
		0.01	0.02	0.03	0.05	0.1	0.2	0.3	0.5	1.0	2.0	3.0	5.0		10	20	30	50	100	200	300	500	1000
		0.01	0.02	0.03	0.05	0.1	0.2	0.3	0.5	1.0	2.0	3.0	5.0		10	20	30	50	100	200	300	500	1000

t, TIME (ms)

Figure 4. Thermal Response

ACTIVE±REGION SAFE OPERATING AREA

		50
(AMP)		20				0.1 ms
						0.1 ms
		10
CURRENT		5.0				0.5 ms
						0.5 ms
		2.0				1.0 ms
, COLLECTOR		1.0	TJ = 200°C
		0.5		SECOND		5.0 ms
		0.5		BREAKDOWN		5.0 ms
				LIMITED
				BONDING
		0.2		WIRE
				LIMITED
C				THERMAL
C
I
		0.1		LIMITATION		dc
		0.1		@ TC = 25°C		dc
				(SINGLE PULSE)
		0.05	20	30	50	70	100
		10	20	30	50	70	100
	VCE, COLLECTOR±EMITTER VOLTAGE (VOLTS)

Figure 5. 2N6050, 2N6057

		50
		20		0.1 ms
(AMP)		20
(AMP)		10
CURRENT		5.0	0.5 ms
			1.0 ms
		2.0	5.0 ms
COLLECTOR			5.0 ms
		1.0	TJ = 200°C
		0.5		SECOND
		0.5		BREAKDOWN
				LIMITED
		0.2		BONDING
				WIRE
,				WIRE
,				LIMITED
C				LIMITED		dc
C
I				THERMAL
				THERMAL
		0.1		LIMITATION
		0.1		@ TC = 25°C
				(SINGLE PULSE)
		0.05	20	30	50	70	100
		10	20	30	50	70	100
	VCE, COLLECTOR±EMITTER VOLTAGE (VOLTS)

Figure 6. 2N6051, 2N6058

		50
		20		0.1 ms
(AMP)		20
(AMP)		10
CURRENT		5.0	0.5 ms
		5.0	1.0 ms
			1.0 ms
		2.0	5.0 ms
COLLECTOR		1.0	TJ = 200°C
		0.5		SECOND
		0.5		BREAKDOWN
				LIMITED
		0.2		BONDING
				WIRE
,				WIRE		dc
,				LIMITED
C				LIMITED
C
I				THERMAL
		0.1		LIMITATION
		0.1		@ TC = 25°C
				(SINGLE PULSE)
		0.05	20	30	50	70	100
		10	20	30	50	70	100
	VCE, COLLECTOR±EMITTER VOLTAGE (VOLTS)

Figure 7. 2N6052, 2N6059

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 Figures 5, 6 and 7 is based on TJ(pk) = 200_C; TC is variable depending on conditions. Second breakdown pulse limits are valid for duty cycles to 10% provided TJ(pk) v 200_C; TJ(pk) may be calculated from the data in Figure 4. At high case temperatures, thermal limitations will reduce the power that can be handled to values less than the limitations imposed by

second breakdown.

	3000									= 25°C			500
	2000							T	C	= 25°C											°
GAIN									C											TJ = 25 C
								VCE = 3.0 V					300
	1000							IC = 5.0 A
SMALL±SIGNAL CURRENT	1000							IC = 5.0 A
	500												200		Cib
	200																		Cob
													100
	100			2N6050/2N6052									(pF)CAPACITANCEC,		2N6050/2N6052
,				2N6057/2N6059									70
fe				2N6057/2N6059									70
h	50														2N6057/2N6059
	50														2N6057/2N6059
	30												50
	1.0	2.0	5.0	10	20	50	100	200			500	1000	0.1	0.2	0.5	1.0	2.0	5.0	10	20	50	100

f, FREQUENCY (kHz)	VR, REVERSE VOLTAGE (VOLTS)
Figure 8. Small±Signal Current Gain	Figure 9. Capacitance

Motorola Bipolar Power Transistor Device Data	3

2N6050			thru		2N6052	2N6057			thru	2N6059
						PNP
					2N6050, 2N6051, 2N6052
	20,000
	10,000								VCE = 3.0 V
	10,000	TJ = 150°C
GAIN		TJ = 150°C
GAIN	5000
, DC CURRENT	3000			25°C
	2000			25°C
	2000
	1000		± 55°C
FE
h
	500
	300
	200		0.3	0.5	1.0	2.0	3.0	5.0	10	20
	0.2		0.3	0.5	1.0	2.0	3.0	5.0	10	20
					IC, COLLECTOR CURRENT (AMP)

					NPN
				2N6057, 2N6058, 2N6059
	40,000
	20,000			TJ = 150°C				VCE = 3.0 V
	20,000			TJ = 150°C
GAIN	10,000
GAIN
, DC CURRENT	6,000				25°C
	4,000				25°C
	4,000
	2,000
FE
h	1,000
	1,000				± 55°C
					± 55°C
	600
	400	0.3	0.5	1.0	2.0	3.0	5.0	10	20
	0.2	0.3	0.5	1.0	2.0	3.0	5.0	10	20
				IC, COLLECTOR CURRENT (AMP)

Figure 10. DC Current Gain

(VOLTS)	3.0	TJ = 25°C
		TJ = 25°C

VOLTAGE	2.6
		IC = 3.0 A	6.0 A			9.0 A		12 A
	2.2
, COLLECTOR±EMITTER	2.2
	1.8
	1.4

CE	1.0
V	1.0	1.0	2.0	3.0	5.0	10	20	30	50
	0.5	1.0	2.0	3.0	5.0	10	20	30	50
			IB, BASE CURRENT (mA)

(VOLTS)	3.0	TJ = 25°C
		TJ = 25°C

VOLTAGE	2.6	IC = 3.0 A		6.0 A		9.0 A		12 A
VOLTAGE	2.2
, COLLECTOR±EMITTER	2.2
	1.8
	1.4

CE	1.0
V	1.0	1.0	2.0	3.0	5.0	10	20	30	50
	0.5	1.0	2.0	3.0	5.0	10	20	30	50
			IB, BASE CURRENT (mA)

Figure 11. Collector Saturation Region

	3.0
		TJ = 25°C
	2.5
(VOLTS)	2.0
(VOLTS)
V, VOLTAGE	1.5	VBE(sat) @ IC/IB = 250
V, VOLTAGE			VBE @ VCE = 3.0 V
			VBE @ VCE = 3.0 V
	1.0
	0.5			VCE(sat) @ IC/IB = 250
	0.5	0.3	0.5	1.0	2.0	3.0	5.0	10	20
	0.2	0.3	0.5	1.0	2.0	3.0	5.0	10	20
				IC, COLLECTOR CURRENT (AMP)

	3.0
		TJ = 25°C
	2.5
(VOLTS)	2.0
(VOLTS)
V, VOLTAGE	1.5	VBE(sat) @ IC/IB = 250
V, VOLTAGE				VBE @ VCE = 3.0 V
	1.0			VBE @ VCE = 3.0 V
	1.0
					VCE(sat) @ IC/IB = 250
	0.5	0.3	0.5	1.0	2.0	3.0	5.0	10	20
	0.2	0.3	0.5	1.0	2.0	3.0	5.0	10	20

IC, COLLECTOR CURRENT (AMP)

Figure 12. ªOnº Voltages

4	Motorola Bipolar Power Transistor Device Data

2N6050 thru 2N6052 2N6057 thru 2N6059

PACKAGE DIMENSIONS

NOTES:

1. DIMENSIONING AND TOLERANCING PER ANSI

Y14.5M, 1982.

±T±

SEATING

2. CONTROLLING DIMENSION: INCH.

PLANE

3. ALL RULES AND NOTES ASSOCIATED WITH

REFERENCED TO±204AA OUTLINE SHALL APPLY.

D 2 PL

INCHES

MILLIMETERS

0.13 (0.005) M

DIM

MIN

MAX

MIN

MAX

1.550 REF

39.37 REF

±Y±

±±±

1.050

±±±

26.67

0.250

0.335

6.35

8.51

0.038

0.043

0.97

1.09

0.055

0.070

1.40

1.77

0.430 BSC

10.92 BSC

0.215 BSC

5.46 BSC

0.440

0.480

11.18

12.19

0.665 BSC

16.89 BSC

±Q±

±±±

0.830

±±±

21.08

0.13 (0.005) M

0.151

0.165

3.84

4.19

1.187 BSC

30.15 BSC

0.131

0.188

3.33

4.77

STYLE 1:

PIN 1. BASE

2. EMITTER

CASE: COLLECTOR

CASE 1±07

TO±204AA (TO±3)

ISSUE Z

Motorola Bipolar Power Transistor Device Data

2N6050 thru 2N6052 2N6057 thru 2N6059

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
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◊

2N6050/D

*2N6050/D*

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