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File No. 527
OO(]3LJ1]
Solid State
Division
Power Transistors
2N3054 2N6260 2N6261
40372 40910 40911
nHometaxial e Medium-Power
Silicon N-P-N Transistors
JEDEC T0-66
JEDECTO·66
With I"tegral Heat Radiator
Rugged Devices for Intermediate-Power Applications in
Industrial and COlnmercialEquipment
Features:
• fT = 800 kHz at 0.2 A (2N3054, 40372)
• Maximum saf...a......of·operation curves for de and pulse
operation
" VCEV(sus) = 90 V min (2N3054, 2N6261)
= =II Low saturation voltage: VCE(sat) 1.0 V at IC 0.5 A
(2N3054)
RCA 2N3054, 2N6260, and 2N6061 are hometaxial·base-
silicon n·p-n transistors intended for a wide variety of
medium- to high-power applications.
Types 40372, 40910, and 40911 are the 2N3054, 2N6260,
and 2N6061 with factory-attached heat radiators intended
for printed-circuit-board applications.
• "Hometaxia'" was coined by RCA from "homogeneous" and
"axia'" to describe a single-ciiffused transistor with a base region of
homogeneous-resistivity in the axial direction (emitter-to-collector,).
Applications:
• Power switching circuits
" Series- and shunt-re",lator driver and output stages
a High-fidelity amplifiers
• Solenoid drive..
"Hometaxial II" is a term 'used to describe RCA's expanded line of
transistors produced by the hometaxial process.
MAXIMUM RATINGS. Absolute-Maximum Values:
·COLLECTOR-TO-BASE VOLTAGE ................................... .
COLLECTOR-TO-EMITTER VOLTAGE:
• With base open ..........•......•.................................
*
With external base-to-emitter
loon ..resistance (RBE) =
..
...
..
.. .
...
..
...
..
..
...
..
...
..
..
...
..
..
.
With base reverse-biased
(VBE=-1·5V) .................................................. ..
"EMITTER-TQ-BASE VOLTAGE •••••••••••••••••••••.•••••.••••••••.•••
"CONTINUOUS COLLECTOR
CURRENT ...................................................... .
·CONTINUOUS BASE CURRENT ••••••••••••••••••••••.••••...•••••••••
TRANSISTOR DISSIPATION:
* At case temperature up tQ 25°C ..................................... .
A1 ambient temperatures up to 250 C ........•.........................
• At temperatures. above 25°C ............ ~ ........................... .
·TEMPERATURE RANGE:
Storage & Operating (Junction) ...................................... .
··PIN TEMPERATURE (During Soldering):
At distance :;::1/32 in. (0.8 mm)
from seating plane for 10 s max. . ................................... .
VCBO
2N6260
40910
50
VCEO
40
VeER(sus)
45
2N3054
40372
90
55
50
2N6261
40911
90
80
85
V
V
V
VCEV(susl
50
90
90 V
VEBO
5
7
7V
IC 3 4 4 A
IB 2 2 2 A
PT
29 25 50 w
(2N6250) (2N3054) (2N6261)
6.8 5.8 5.B w
(40910)
(403721
(40911)
SeeFigs.4& 17 5•• Figs.4&9 SfiFigs.I&7
- - - - - . . -65 to 2 0 0 _
235
*In accordance with JEOEC registration data format JS-9 ROF-10 (2N3054), JS-6 AOF·2 (2N6260, 2N6261)
B-74
85

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2N3054, 2N6260, 2N6261, 40372,40910, 40911 _-.,.._ _ _ _ _ _ _ _~_ _ _ File No. 527
ELECTRICAL CHARACTERISTICS, At Case Temperature (TC) = 25°C unless otherwise specified
CHARACTERISTIC
SYMBOL
TEST CONDITIONS
VOLTAGE
V de
VCE VBE
CURRENT
A de
IC IB
2N6260
40910
LIMITS
2N3054
40372
2N6261 UNITS
40911
Min. Max. .Min. Max. Min. Max.
4 Collector-Cutoff Current:
With base open
With base-emitter
junction reverse-biased
At TC = 150°C
Emitter-Cutoff Current
Collector-ta-Emitter
Sustaining Voltage:
With base open
With external base-to-
emitter resistance
(RaEI = lOOn
• DC Forward-Current
Transfer Ratio
ColJector-to-Emitter
Saturation Voltage
• Base-ta-Emitter Voltage
Common-Emitte~ Small.signal,
Short-Circuit, Forward
Current Transfer Ratio
Cutoff Freauency
Magnitude of Common-
Emitter, Small-8ignal,
Short-Circuit Forward
Current Transfer Ratio
(f =0.4MHzl
Common..emitter,
SmaU-8ignal, Short·
Circuit Forward
Current Transfer Ratio
(1-1 kHzl
Forward.-8ias Second
Breakdown Collector
Current (t - 1 sl
Thermal Resistance:
Junction-to-CUe
Junction-to-Ambient
ICEO
ICEX
ICEX
IEeO
30
60
40
80
90
40
80
90
VCEO(susl
VCER(susl
hFE
VCE(SBtl
·2
2
4
4
4
2
VeE 4
4
fhfe 4
Ihfel 4
hfe
ISIb
R8JC
R8JA
4
40
80
55
-0 - 1 - 0.5 -
mA
0 - - - - - 0.5
-1.5 - 5 - - - -
--1.5 - - - - 0.5 mA
- - --1.5 - 1.0 -
-1.5 25
-1.5 - - - - 1.0 mA
- --1.5 - 6.0 - -
--5
- --7
0-
0-
5-
-
--
1.0
·mA
0.2
O.l a 0 40 -
O.l a 45 -
-4a 3
-1.5a -
3" - -
0.5a - -
- -1.5a 20 100
0.5" 0.05a
1.5" 0.15a - 1.5
3" I"
1.5 -
-
1.5 - 2.2
0.5 -
55 -
-60
--
--
5-
25 150
- 1.0
--
6.0
--
--
1.7
-80 V
-85 V
'5 - .. ,
25 100
--
--
- -V
- 0.5.
- 1.5
- -V
- -0.1 0.03
0.03 - 0.03
MHz
0.1
2- - -
2-
- -0.1 25 - 25
25
-0.725
-
-
--
6 (max.l
2N6260
30 (max.l
40910
--
--
-0.455
7 (max.l
2N3054
30 (max.l
40372
--
-0:625 -
-
'3.5 (max.l
2N6261
30 (max.l
40911
A
°C/W
apulsed: Pulse duratiop =:;roo #Js, duty factor"" 1.8%.
·In accordance with JEDEC registration data format JS. 9 ROF·l0 (2N30541 JS-6 RDF·2 (2N6260-611
86

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File No. 527
2N3054,2N6260,2N6261,40372,40910,40911
10
"I'
-U
rI.
I-
Z
l&J
II:
II:
::J
0
II:
0
I-
0
l&J
..J
..J
0
04
2
0.1
10 100
COLLECTOR- TO- EMI TTER VOLTAGE (VCE )-V
92CS-19520
L
il~
~g 75
"Q
15~!SO
~~
..~!c25
If
0
..,25 75 100 125 150 175 200
CASE TEMPERATURE (TC)-·C
92LS-1469RL
Fig.2-Current derating curve for all types.
4
~
;;~lT\"I
' \~
2
~~~
\z
0
~j~
\~ 10
15
..\ \.. 8
\\
~~~+G I
~ ~~r.
, "Ri~~ \ \
'!
I'4 "
'1'
I "-~
6 8 105
4 6 8'06
NUMBER OF THERMAL CYCLES
92CS-19521
Fig.3- thermal·cycle rating chart for type 2N6261.
TERMINAL CONNECTIONS
FOR 2N3054, 2N6260, & 2N6261
Pin 1 - Base
Pin 2 - Emitter
Case, Mounting Flange - Collector
TERMINAL CONNECTIONS
FOR 40372,40910 & 40911
Pin 1 . Base
Pin 2 - Emitter
Heat Radiator-Collector
87

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2N3054, 2N6260, 2N6261, 40372, 40910, 40911
10 CASE TEMPERATURE (TC)=25°C
(CURVES MUST BE DERATED LINEARLY
WITH INCREASE IN TEMPERATURE.)
..
uI
!.z:..!
W
aII::
a:
~
<w.>
:l
8
File No. 527
0.1 LLLU.LLlJ..L,!,-lClll.illU.I.1llll'"}'.Jell
10
COLLECTOR-TO-EMITTER VOLTAGE (VCE)-V
92SS- 3363R2
Fig.4-Maximum operating areas for types 2N3054 and
2N6260,
z,f---f---+-+-+I-/--f----,I----+-t+---+--I
~
I
6 8105 2
4 6 8106
NUMBER OF THERMAL CYCLES
92CS-19522
Fig,5- Thermal-cycle rating chart for type 2N3054.
88
I II
TJMAX;200·C
z
~ j.x.
~1.r I'-
~
""~
iii
C
10
\
~
'\.
1\
l'\
1'\
\ \~'"
~
C'4.r~
--"::~'"
r'""''-I>
'1'" c"
1\.~.. '" . 1"m',z "
z
"104
~0.
"
z ••
10'
NUMBER OF THERMAL CYCLES
J..."ooc
z
nCS-19523
Fig. 6- Thermal-cycle rating chart for type 2N6260.

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File No. 527 _ _ _ _ _ _ _ _ _ _ _ _ _ _ 2N3054, 2N6260, 2N6261, 40372, 40910, 40911
40911
2N6261
0 ..
3 ~~
~~
I-
:I
~
o
-100 -~
0
50 100 150 200 250
~
CASE OR AMBIENT TEMPERATURE (TC OR TAI-eC
92CS-19524
Fig.7-Dissipation derating curve for types 2N6261 and
40911.
g~;~E;;~~~T5:rr~~)~~r~GE (VCE) =4V
I.
l!
:I
I
1.2
:t
~ 1.0
0
if
V
I
~ 0.8 /
~
%
:il
I
0.0
~
,0.'
r-.
'I'-..
"I'-.
t"\.
r'\
.6 •
10
2 4 6 • \02
COLLECTOR CURRENT (:tel-rnA
2
4 6.
Fig.B- Typical gain-bandwidt/J.product for all types.
.'"I...
40372
15
I-N
if~
5 ~~
".'..../
2N3054
r4~ f)
0"~''."~..
0",
~~
I!'
~
~
o
-100 -!K)
0
50 100 ISO 200
CASE OR AMBIENT TEMPERATURE CTc OR TA»_oC
92CS-19S25
Fig.9-Dissipation derating curve for types 2N3054 and
40372
I ICASE TEMPERT"'E ITC,·25·C
b f--I--~ I I~
90 f-VCER
80
iil>
~~... 10
~~60 VeER
2 I& I.
50 VeER
0
II~ 40
8
30
II
\I I I
2N626'_40911
i--
II
J
II T1I -2N3054-40372
N s z S O - 4 0 9 ,o
I Trtr-
I I II
I
I
V~EO
I
I
VeEO
vJEO
I
2 468 :;: 468 2 468 2 468 2 468
10
100-
IK
10K lOOK
EXTERNAL BASE-TO-EMITTER RESISTANCE (RBE' - a
9ZCS-195Z6
Fig.l0-Sustaining voltage vs. base·to-emitter resistance for
all types.
'"~I 60
%
0
>if:'80
00 %" ' _
ON
~~30
..01-
",
~~2
I-
:I
x~ I
:""I o
910
2N6260
'V-'
-'
'V.,
'-<" ~,
0>'"I-
!
%
•9
!i
!g!p,;o;
-0
0 ..
3 ~~
.,1-
"%, ,"0'
2 ::~
::E
:>
I :I
i
-100 -50 0 50 100 150 200
CASE OR AMBIENT TEMPERATURE tTe OR TA)--C
92C5-19521
Fig. II-Dissipation derating curve for types 2N6260 and
40910.
-3 -2 -I
0
BASE-TO-EMITTER VOLTAGE (VBEI-V
9ZCS-Z0713
Fig. 12-Reverse-bias second-breakdown characteristics for all
types.
89