PZTA06 [ONSEMI]
NPN 通用放大器;型号: | PZTA06 |
厂家: | ONSEMI |
描述: | NPN 通用放大器 放大器 小信号双极晶体管 |
文件: | 总8页 (文件大小:115K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
MPSA05, MPSA06, MPSA55,
MPSA56
MPSA06 and MPSA56 are Preferred Devices
Amplifier Transistors
Voltage and Current are Negative
for PNP Transistors
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NPN
PNP
NPN
COLLECTOR
3
COLLECTOR
3
MPSA05, MPSA06
PNP
MPSA55, MPSA56
2
2
BASE
BASE
MARKING DIAGRAM
1
1
TO−92
CASE 29
STYLE 1
EMITTER
EMITTER
MPS
Axxx
YWW
STYLE 1
MPSA05, MPSA06
STYLE 1
MPSA55, MPSA56
MAXIMUM RATINGS
MPSA = Specific Device Code
1
Rating
Symbol
Value
Unit
xxx
Y
= 05, 06, 55 or 56
= Year
2
3
Collector−Emitter Voltage
V
CEO
V
CBO
V
EBO
Vdc
WW
= Work Week
MPSA05, MPSA55
MPSA06, MPSA56
60
80
ORDERING INFORMATION
Collector−Base Voltage
Vdc
MPSA05, MPSA55
MPSA06, MPSA56
60
80
Device
MPSA05
Package
TO−92
TO−92
TO−92
TO−92
TO−92
TO−92
TO−92
TO−92
TO−92
TO−92
TO−92
TO−92
TO−92
Shipping
5000 Units/Box
2000/Tape & Reel
2000/Ammo Pack
5000 Units/Box
2000/Tape & Reel
2000/Ammo Pack
2000/Ammo Pack
5000 Units/Box
Emitter−Base Voltage
4.0
Vdc
Collector Current − Continuous
I
C
500
mAdc
MPSA05RLRA
MPSA05RLRM
MPSA06
Total Device Dissipation
P
P
D
@ T = 25°C
625
5.0
mW
mW/°C
A
Derate above 25°C
Total Device Dissipation
D
MPSA06RLRA
MPSA06RLRM
MPSA06RLRP
MPSA55
@ T = 25°C
1.5
12
Watts
mW/°C
C
Derate above 25°C
Operating and Storage Junction
Temperature Range
T , T
−55 to
+150
°C
J
stg
THERMAL CHARACTERISTICS
Characteristic
MPSA55RLRA
MPSA56
2000/Tape & Reel
5000 Units/Box
2000/Tape & Reel
2000/Ammo Pack
2000/Ammo Pack
Symbol
Max
Unit
Thermal Resistance,
Junction to Ambient
R
200
°C/W
θ
JA
(Note 1.)
MPSA56RLRA
MPSA56RLRM
MPSA56RLRP
Thermal Resistance,
Junction to Case
R
83.3
°C/W
θ
JC
1. R
is measured with the device soldered into a typical printed circuit board.
q
JA
Preferred devices are recommended choices for future use
and best overall value.
Semiconductor Components Industries, LLC, 2001
1
Publication Order Number:
October, 2001 − Rev. 1
MPSA05/D
MPSA05, MPSA06, MPSA55, MPSA56
ELECTRICAL CHARACTERISTICS (T = 25°C unless otherwise noted)
A
Characteristic
Symbol
Min
Max
Unit
OFF CHARACTERISTICS
Collector−Emitter Breakdown Voltage (Note 2.)
(I = 1.0 mAdc, I = 0)
V
Vdc
(BR)CEO
MPSA05, MPSA55
MPSA06, MPSA56
60
80
−
−
C
B
Emitter−Base Breakdown Voltage (I = 100 µAdc, I = 0)
V
4.0
−
−
Vdc
µAdc
µAdc
E
C
(BR)EBO
Collector Cutoff Current (V = 60 Vdc, I = 0)
I
0.1
CE
B
CES
Collector Cutoff Current
(V = 60 Vdc, I = 0)
I
CBO
MPSA05, MPSA55
MPSA06, MPSA56
−
−
0.1
0.1
CB
E
(V = 80 Vdc, I = 0)
CB
E
ON CHARACTERISTICS
DC Current Gain
h
FE
−
(I = 10 mAdc, V = 1.0 Vdc)
100
100
−
−
C
CE
(I = 100 mAdc, V = 1.0 Vdc)
C
CE
Collector−Emitter Saturation Voltage
(I = 100 mAdc, I = 10 mAdc)
V
−
0.25
Vdc
Vdc
CE(sat)
C
B
Base−Emitter On Voltage
(I = 100 mAdc, V = 1.0 Vdc)
V
BE(on)
−
1.2
C
CE
SMALL−SIGNAL CHARACTERISTICS
Current−Gain − Bandwidth Product (Note 3.)
f
T
MHz
(I = 10 mA, V = 2.0 V, f = 100 MHz)
MPSA05
MPSA06
MPSA55
MPSA56
100
50
−
−
C
CE
(I = 100 mAdc, V = 1.0 Vdc, f = 100 MHz)
C
CE
2. Pulse Test: Pulse Width v 300 ms, Duty Cycle v 2%.
3. f is defined as the frequency at which |h | extrapolates to unity.
T
fe
TURN−ON TIME
TURN−OFF TIME
V
V
+V
CC
CC
−1.0 V
BB
+40 V
+40 V
5.0 ms
100
R
L
100
R
L
OUTPUT
OUTPUT
+10 V
0
V
in
R
B
V
in
R
B
t = 3.0 ns
r
* C t 6.0 pF
* C t 6.0 pF
S
S
5.0 mF
5.0 mF
100
100
5.0 ms
t = 3.0 ns
r
*Total Shunt Capacitance of Test Jig and Connectors
For PNP Test Circuits, Reverse All Voltage Polarities
Figure 1. Switching Time Test Circuits
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2
MPSA05, MPSA06, MPSA55, MPSA56
NPN
PNP
300
200
200
V
= −2.0 V
CE
T = 25°C
V
= 2.0 V
CE
T = 25°C
J
J
100
70
100
70
50
50
30
20
30
2.0 3.0
5.0 7.0 10
20 30
50 70 100
200
−2.0 −3.0 −5.0 −7.0 −10
−20 −30 −50 −70 −100
−200
I , COLLECTOR CURRENT (mA)
C
I , COLLECTOR CURRENT (mA)
C
Figure 2. MPSA05/06 Current−Gain —
Bandwidth Product
Figure 3. MPSA55/56 Current−Gain —
Bandwidth Product
80
60
100
70
T = 25°C
J
T = 25°C
J
40
50
C
ibo
C
ibo
30
20
20
10
8.0
C
obo
10
C
obo
6.0
7.0
4.0
0.1 0.2
5.0
−0.1 −0.2
0.5 1.0 2.0
5.0
10
20
50 100
−0.5 −1.0 −2.0
−5.0 −10 −20
−50 −100
V , REVERSE VOLTAGE (VOLTS)
R
V , REVERSE VOLTAGE (VOLTS)
R
Figure 4. MPSA05/06 Capacitance
Figure 5. MPSA55/56 Capacitance
1.0 k
700
500
1.0 k
700
500
t
s
t
s
300
200
300
200
100
70
100
70
t
f
t
f
50
50
V
= 40 V
V
= −40 V
CC
I /I = 10
CC
I /I = 10
30
20
30
20
t
r
C B
C B
I = I
B1 B2
I = I
B1 B2
t
r
t @ V
d
= 0.5 V
t @ V
d
= −0.5 V
BE(off)
T = 25°C
J
BE(off)
T = 25°C
J
10
10
5.0 7.0 10
20 30
50 70 100
−5.0 −7.0 −10
−20 −30
−50 −70 −100
−200 −300 −500
200 300
500
I , COLLECTOR CURRENT (mA)
C
I , COLLECTOR CURRENT (mA)
C
Figure 6. MPSA05/06 Switching Time
Figure 7. MPSA55/56 Switching Time
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3
MPSA05, MPSA06, MPSA55, MPSA56
NPN
PNP
1.0 k
700
500
−1.0 k
100 ms
100 ms
1.0 ms
−700
1.0 ms
−500
300
200
−300
1.0 s
1.0 s
T
= 25°C
T = 25°C
C
C
−200
T = 25°C
A
T = 25°C
A
100
70
−100
−70
50
CURRENT LIMIT
THERMAL LIMIT
SECOND BREAKDOWN LIMIT
−50
CURRENT LIMIT
THERMAL LIMIT
SECOND BREAKDOWN LIMIT
30
20
−30
−20
MPSA55
MPSA05
MPSA06
20 30
MPSA56
10
1.0
−10
2.0 3.0
5.0 7.0 10
50 70 100
−1.0
−2.0 −3.0 −5.0 −7.0 −10
−20 −30 −50 −70 −100
V
CE
, COLLECTOR−EMITTER VOLTAGE (VOLTS)
V , COLLECTOR−EMITTER VOLTAGE (VOLTS)
CE
Figure 8. MPSA05/06 Active−Region Safe
Operating Area
Figure 9. MPSA55/56 Active−Region Safe
Operating Area
400
200
400
200
T = 125°C
J
T = 125°C
J
V
CE
= −1.0 V
V
CE
= 1.0 V
25°C
25°C
−55°C
−55°C
100
80
100
80
60
60
40
40
0.5 1.0 2.0 3.0 5.0 10
20 30 50 100 200 300 500
−0.5 −1.0 −2.0
−5.0 −10 −20
−50 −100 −200
−500
I , COLLECTOR CURRENT (mA)
C
I , COLLECTOR CURRENT (mA)
C
Figure 10. MPSA05/06 DC Current Gain
Figure 11. MPSA55/56 DC Current Gain
1.0
0.8
0.6
−1.0
−0.8
−0.6
T = 25°C
J
T = 25°C
J
V
@ I /I = 10
C B
V
@ I /I = 10
BE(sat)
BE(sat) C B
V
@ V = 1.0 V
CE
V
@ V = −1.0 V
BE(on)
BE(on) CE
0.4
0.2
0
−0.4
−0.2
0
V
@ I /I = 10
C B
V @ I /I = 10
CE(sat) C B
CE(sat)
0.5
1.0 2.0
5.0
10
20
50
100 200
500
−0.5 −1.0 −2.0
−5.0 −10 −20
−50 −100 −200 −500
I , COLLECTOR CURRENT (mA)
C
I , COLLECTOR CURRENT (mA)
C
Figure 12. MPSA05/06 “ON” Voltages
Figure 13. MPSA55/56 “ON” Voltages
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4
MPSA05, MPSA06, MPSA55, MPSA56
NPN
PNP
−1.0
1.0
0.8
0.6
T = 25°C
J
T = 25°C
J
−0.8
I
=
I
=
I
=
I
=
I =
C
−50 mA
I
=
I
=
I =
C
500 mA
C
−250 mA
C
250 mA
C
−100 mA
C
100 mA
C
−500 mA
C
50 mA
−0.6
−0.4
−0.2
0
0.4
0.2
0
I =
C
−10 mA
I
=
C
10 mA
−0.05 −0.1 −0.2
−0.5 −1.0 −2.0 −5.0 −10 −20
I , BASE CURRENT (mA)
0.05 0.1 0.2
0.5
1.0 2.0
5.0
10
20
−50
50
I , BASE CURRENT (mA)
B
B
Figure 14. MPSA05/06 Collector Saturation
Region
Figure 15. MPSA55/56 Collector Saturation
Region
−0.8
−1.2
−1.6
−2.0
−0.8
−1.2
−1.6
−2.0
R
q
for V
BE
R
q
VB
for V
BE
VB
−2.4
−2.8
−2.4
−2.8
0.5 1.0 2.0
5.0
10
20
50
100 200
500
−0.5 −1.0 −2.0
−5.0 −10 −20
−50 −100 −200 −500
I , COLLECTOR CURRENT (mA)
C
I , COLLECTOR CURRENT (mA)
C
Figure 16. MPSA05/06 Base−Emitter
Temperature Coefficient
Figure 17. MPSA55/56 Base−Emitter
Temperature Coefficient
1.0
0.7
0.5
D = 0.5
0.2
0.3
0.2
0.1
0.05
Z
T
Z
T
(t) = r(t) • R
θ
θ
JC
Z
JC
− T = P
C
(t)
(t)
θ
J(pk)
(pk) JC
0.1
P
(pk)
0.01
(t) = r(t) • R
0.02
θ
θ
JA
SINGLE PULSE
JA
0.07
0.05
− T = P Z
A (pk) JA
θ
J(pk)
t
1
D CURVES APPLY FOR
POWER PULSE TRAIN
SHOWN READ TIME AT t
(SEE AN469)
SINGLE PULSE
0.03
0.02
t
2
1
DUTY CYCLE, D = t /t
1 2
0.01
1.0
2.0
5.0
10
20
50
100
200
t, TIME (ms)
500
1.0 k
2.0 k
5.0 k
10 k
20 k
50 k 100 k
Figure 18. MPSA05, MPSA06, MPSA55 and MPSA56 Thermal Response
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5
MPSA05, MPSA06, MPSA55, MPSA56
PACKAGE DIMENSIONS
TO−92
TO−226AA
CASE 29−11
ISSUE AL
NOTES:
1. DIMENSIONING AND TOLERANCING PER ANSI
Y14.5M, 1982.
A
B
2. CONTROLLING DIMENSION: INCH.
3. CONTOUR OF PACKAGE BEYOND DIMENSION R
IS UNCONTROLLED.
4. LEAD DIMENSION IS UNCONTROLLED IN P AND
BEYOND DIMENSION K MINIMUM.
R
P
L
INCHES
DIM MIN MAX
MILLIMETERS
SEATING
PLANE
K
MIN
4.45
4.32
3.18
0.407
1.15
2.42
0.39
12.70
6.35
2.04
−−−
MAX
5.20
5.33
4.19
0.533
1.39
2.66
0.50
−−−
A
B
C
D
G
H
J
0.175
0.170
0.125
0.016
0.045
0.095
0.015
0.500
0.250
0.080
−−−
0.205
0.210
0.165
0.021
0.055
0.105
0.020
−−−
D
X X
G
J
H
V
K
L
−−−
−−−
C
N
P
R
V
0.105
0.100
−−−
2.66
2.54
−−−
SECTION X−X
0.115
0.135
2.93
3.43
1
N
−−−
−−−
N
STYLE 1:
PIN 1. EMITTER
2. BASE
STYLE 14:
PIN 1. EMITTER
2. COLLECTOR
3. BASE
3. COLLECTOR
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6
MPSA05, MPSA06, MPSA55, MPSA56
Notes
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7
MPSA05, MPSA06, MPSA55, MPSA56
ON Semiconductor and
are trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes
without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular
purpose, nor does SCILLC 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 special, consequential or incidental damages. “Typical” parameters which may be provided in SCILLC data sheets and/or
specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be
validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others.
SCILLC 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 SCILLC product could create a situation where personal injury or
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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 SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer.
PUBLICATION ORDERING INFORMATION
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MPSA05/D
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