MOTOROLA SC X S T R S / R F
MOTOROLA
SEMICONDUCTOR
TECHNICAL DATA
ЪЕЕ D
D A R L I N G T O N C O M P L E M E N T A R Y S I L I C O N POWER T R A N S I S T O R S . . . designed for general purpose and low speed switching applications.
• High DC Current Gain - bpg » 2500 (typ.) @ lc
=6.0 Adc.
• Collector Emitter Sustaining Voltage @ 30 mAdc:
VcEOIsusI - 45 Vdc (min.) - BDW39/BDW44 60 Vdc (min.) - BDW40/BDW45 80 Vdc (min.) - BDW41/BDW46 100 Vdc (min.) - BDW42/BDW47 120 Vdc (min.) -.BDW43/BDW48
• Low Collector Emitter Saturation Voltage:
VCEIsat)
32.0 Vdc (max.) @ l
c- 5.0 Adc 3.0 Vdc (max.) @ l
c« 10.0 Adc
• Monolithic Construction with Built-in Base Emitter Shunt resistors
• T0220AB Compact Package
• TO-66 Lead form also available ordered with "-66" suffix.
MAXIMUM RATINGS
Rating Symbol BDW39
BDW44 BDW40 BDW45
BDW41 BDW46
BDW42 BDW47
B0W43 BDW48 Unit Collector-Emitter Voltage VCEO 4 5 6 0 8 0 1 0 0 1 2 0 Vdc Collector-Base Voltage VCB 4 5 6 0 8 0 100 1 2 0 Vdc
Emitter-Base Voltage VE B 5 0 Vdc
Collector Current - Continuous lc 15 Adc
Base Current IB 0.5 Adc
Total Device Dissipation . TC - 2 5 С Derate above 25 С
PD
8 6 0 . 6 8
Watts
W / C Operating and Storage Junction
Temperature Range T J . TS|g 55 to - 1 5 0 С
THERMAL CHARACTERISTICS
Characteristic Symbol Max. Unit
Thermal Resistance. Junction to Case RHJC 1.47 C/W
FIGURE 1 - POWER TEMPERATURE DERATING CURVE
3 0
so
: jnt I
5 01 60 2 JO
• 5 io
£ D
L 20
4
\ \
I I I I
i i .. — 4
SO 75 100 Tc. CASETrMPFRATURt' CI
NPN PNP
BDW39 BDW44
thru thru
BDW43 BDW48
7 ^ 3 3
D A R L I N G T O N 15 A M P E R E COMPLEMENTARY SILICON
POWER TRANSISTORS 45-60-80-100-120 VOLTS
85 WATTS
NOTES.
1 OMENSfOMNG ANO TOlEftANCING PER ANS) YI4.5M. 1982.
2. CONTBOUING DIMENSION I NCR 3. ИМ Z OtfWS A Z0« WERE AIL 800Y ANO
l£A0 tftfiEGUlAMIKS AP£ ALLOWED ON mu КТБВ INC ES
ON ИН MAX ИН MAX 1441 15.75 a 570 0620 1 966 10Л 0380 0405 4.07 U2 0.160 0190 0 044 088 002S 0.035 F 1(1 173 0.142 0.147
2.42
26$ 0095
(L10S 1»193 0110 0155 J 046 071 Оли 0028 К H70 1427 0500 0562 L IIS 1.3» 00*5 0.055 N 443 5.31 0190 0.210 2.54 104 0.100 0.120 Я 2.04 2.79 ОЛО 0.110 s 115 1.39 0045 0055 T 5J7 Ł47 0235 02»
000
W0.000 ooso V 115 _ 00*5 _
z 244 _ ООО STYLE 1
PIN 1 8ASE I COllfCTOft 1ЕМЩЯ- 4. COLLECTOR
CASE 221 A-04
TO-220AB
MOTOROLA SC X S T R S / R F 1 2 E D | b 3 b 7 5 S 4 QDfl4774 Q BDW39, BDW40, BDW41, BDW42, BDW43 NPN
BDW44, BDW45, BDW46, BDW47, BDW48 PNP 7"*"~'3 3
T-33-29
ELECTRICAL C H A R A C T E R I S T I C S (Tę = 2S°C unless otherwise noted)
Characteristic
Symbol
Min MaxUnit
OFF CHARACTERISTICS
Collector Emitter Sustaining Voltage (1) VcEO(sus) Vdc
«С = 30 mAdc, lB = 0) BDW39/BDW44 45 —
«С = 30 mAdc, lB = 0)
BDW40/BDW45 60
BDW41/BDW46 80 —
BDW42/BDW47 100 —
BDW43/BDW48 120 —
Collector Cutoff Current 'CEO mAdc
(VCE = 22.5 Vdc, LB = 0) BDW39/BDW44 — 2.0
IVCE = 30 Vdc, LB = 0) BDW40/BDW45 — 2.0
(VCE = 40 Vdc, LB = 0) BDW41/BDW48 — 2.0
IVCE = 50 Vdc, LB = 0) BDW42/BDW47 — 2.0
(VQE = 60 Vdc, LB = 0) В D W43/B D W48 — 2.0
Collector Cutoff Current ICBO mAdc
(VCB = 45 Vdc, lE = 0) BDW39/BDW44 — 1.0
(VCB = 60 Vdc, LE = 0) BDW40/BDW45 — 1.0
( V cB = 80 Vdc, LE = 0) BDW41/BDW46 — 1.0
(VCB = ioo vdc, iE = o) BDW42/BDW47 — 1.0
(VCB = 120 vdc, iE = o) BDW43/BDW48 — 1.0
Emitter Cutoff Current 'EBO — 2.0 mAdc
(VBE = 5.0 Vdc, LC = 0) ON CHARACTERISTICS (1)
DC Current Gain hFE
«С = 5.0 Adc, V c e = 4 0 V d c) 1000 —
Oc = 10 Adc, V c e = 4.0 Vdc) 250 —
Collector-Emitter Saturation Voltage vCE(sat) Vdc
«С = 5.0 Adc, Iq = 10 mAdc) — 2.0
dC = 10 Adc, lB = 50 mAdc) — 3.0
Base-Emitter On Voltage vBE(on) — 3.0 Vdc
«С = 10 Adc, V c e = 4.0 Vdc) SECOND BREAKDOWN (2)
Second Breakdown Collector
's/b
AdcCurrent with Base Forward Biased
BDW39/BDW4(VBDW41/BDW42/BDW43 VCE = 28.4 Vdc
VCE = 4 0 vdc
3.0 1.2 BDW44JBDW45/BDW4&BDW47/BDW48
VCE
= 22.5 VdcVCE = 36 v d c
3.8
1.2
I
DYNAMIC CHARACTERISTICS
Magnitude of common emitter small signal short circuit current transfer ratio
Oc = 3.0 Adc, VCE = 3.0 Vdc, f = 1.0 MHz) fT 4.0 — MHz
Output Capacitance
(VCB = 10 Vdc, l£ = 0, f = 0.1 MHz)
BDW39/BDW40/BDW41/BDW42/BDW43 BD W44/B D W45/ BDW46/BDW47/B D W48
co b
- 200
300
pF
Small-Signal Current Gain
«с = 3.0 Adc, VCE = 3.0 Vdc, f = 1.0 kHz)
hfe 300 —
Indicates JEDEC Registered Data.
(1) Pulse Test: Pulse Width = 300 lis. Duty Cycle = 2.0%.
(2) Pulse Test non repetitive: Pulse Width = 250 ms.
MOTOROLA SC X S T R S / R F
BDW39, BDW40, BDW41, BDW42, BDW43 NPN BDW44, BDW45, BDW46, BDW47, BDW48 PNP
F I G U R E 2 - S W I T C H I N G T I M E S T E S T C I R C U I T
t« It V 10 (K OUTY CYCLE • 1 (Л
lof trfirdlt. DlildijcwnKltd NPN tm cvcuit mefse aU {WUntm
Ъ5Е О I ЬЭЬ?35Ч 0 0 6 4 7 7 5 E |
T-3 3-
T-33-29
F I G U R E 3 - S W I T C H I N G T I M E S
0 3 0 5 0.7 10 2 0 3.0 5.0 >0 10
lc. COLLECTOR CURRENT (AMP)
F I G U R E 4 - T H E R M A L R E S P O N S E
ACTIVE-REGION SAFE OPERATING AREA
FIGURE S - B D W 3 9 T H R U B D W 4 3 FIGURE 6 - B D W 4 4 T H R U B D W 4 8
20 [ 10
: 5.0 j
; 2.0 ) i i.o ] 0.5
» 0.2 j
a t aos
— | — j - 0.1 ms 0.1 ms
= Tę = 2!
0.1 ms
= Tę = 2! = 1.0 msi
\ Г'
V
V
\
j BONDING WIRE LIMI"
: THERMAL LIMITED Ф TC • 25 °C (Single Pul j BONDING WIRE LIMI"
: THERMAL LIMITED Ф TC • 25 °C (Single Pul j BONDING WIRE LIMI"
: THERMAL LIMITED Ф TC • 25 °C (Single Pul
BOW
nnw
ra-BOW
nnw il
: BDW42 :
: 'BDW43"
1.0 20 3 0 5 0 70 10 20 30 50 70 1Q Veg. COLLECTOR EMITTER VOLTAGE (VOLTS) T h e r e are t w o limitations on the power handling ability of a transistor: average [unction temperature and second breakdown.
Safe operating area curves indicate 1ę — ^ C E ' im i t s of the transistor that must be observed for reliable operation; i.e., the transistor must n o t be subjected to greater dissipation than the curves indicate. T h e data of Fig. 5 and 6 'S based on T j f0| f j •
2 0 3 0 50 7 0 10 20 30 50 70 100 Vcb COLLECTOR EMITTER VOLTAGE IVOLTS}
2 0 0 ° C ; T ę is variable depending on conditions. Second break- d o w n pulse,limits are valid for d u t y cycles to 10% provided T j ( p k ) ^ 2 0 0 ° C . TJ ( p k ) may be calculated f r o m the data In Fig. 4. A t high case temperatures, thermal limitations w i l l reduce the power that can be handled to values less than the limitations imposed by second breakdown. (See an-415).
'Linear extrapolation
MOTOROLA SC X S T R S / R F
BDW39, BDW40, BDW41, BDW42, BDW43 NPN BDW44, BDW45, BDW46, BDW47, BDW48 PNP
FIGURE 7 - SMALL-SIGNAL CURRENT GAIN
1 2 E D I ЬЗЬ?Е5Ч • • а Ч ? ? ( 3 Ч |
T-33-3.
T - 3 3 - 2 9
FIGURE 8 - CAPACITANCE
10.00010 20 SO 100 200
1. FREQUENCY IkHil
500 1000 OS 1 0 20 50 10 20
Vfl. REVERSE VOLTAGE IV0LTS7
BDW39, 40, 41, 42, 43 (NPN) BDW44, 45, 46, 47, 48 (PNP)
20.000
10.000
i 5000 a
£ 3000
Ш
£ 2000
о э
о 1000 ш500
300 200
i I ! I - Vc E 8 3. >v - Tj.l so 0
• 25'
Ss 4 •Л-
J > Л-
I
FIGURE 9 - DC CURRENT GAIN
20.00002 03 OS 01 10 20 30 1С. COLLECTOR CURRENT IAMP)
02 03 OS 07 10 20 30
1С. COLLECTOR CURRENT IAMP)
FIGURE 10 - COLLECTOR SATURATION REGION
!
I T . 2 5° С1 С ' 2 1/ 4 OA 60 A
\ \
\ \ \ \
\ \
4
4
03 OS 07 1 0 20 30 SO 70 10 la. BASE CURRENT (mA)
30
> 1 0
= 25 С
\
1 С 20 A 4 OA 6 OA
\
\ V
L
V
03 05 0 7 10 20 30 SO 70 10 IB. BASE CURRENT |шА|
MOTOROLA SC X S T R S / R F 1 5 E D j ЬЭЬ?25Ч 0 D f l 4 7 7 7 Ь |
BDW39, BDW40, BDW41, BDW42, BDW43 NPN a O . ^ y BDW44, BDW45, BDW46, BDW47, BDW48 PNP ' T ' - '
T-33-29
BDW39, 40, 41, 42, 43 (NPN) BDW44, 45, 46, 47, 48 (PNP)
F I G U R E 11 - " O N " V O L T A G E S
F I G U R E 1 2 - T E M P E R A T U R E C O E F F I C I E N T S
_ *
50r
V. ł4.0 • u
I t30
5
+2.0 u t Ш S оg -1.0
I -
2-
0 a.S -3.0 Ź 4.0
1 1 1
•IC/lB s 250
/
/
»25" 10 50°
/ / /
J/
I
5 С 10 >25'(»VB lor VBE
1
5 С 10 >25'(
»2 'C la »1b 5 'C
03 OS 0.7 10 20 30
1С. COLLECTOR CURRENT (AMP)
OS 1.0 2.0 3.0 5.0 1С, COLLECTOR CURRENT IAI
F I G U R E 1 3 - C O L L E C T O R C U T - O F F R E G I O N
'02 0 -02 -04 -06 -0B
VBE. BASE EMITTER VOLTAGE (VOLTSI
105 10«
I03
102 I0<
10°
10-1
Ы 1 L I U
у
= = V C E -30V =
- T j . I50°C
= I00°C I00°C
2iuC
— - " i
•0 2 0 «0 2 >0 4 "0 6 >08 >10
VB€. BASE EMITTER VOLTAGE (VOLTSI
MOTOROLA SC X S T R S / R F 1 2 E D
BDW39, BDW40, BDW41, BDW42, BDW43 NPN BDW44, BDW45, BDW46, BDW47, BDW48 PNP
I ЬЭЬ725Ч D 0 a 4 7 7 f l fl |
Т - З З - З ; T-33-29
FIGURE 14 - DARLINGTON SCHEMATIC
NPN 80W39 BDW40 BDW41 BDW42 B0W43 BASE O -
COLLECTOR
»«0k I — W v - ^ W v - I
<
EMITTER
PNP B0W44 BDW45 B0W46 BDW47 BDW48
BASE o -