Datasheet MMBT2369A (ON Semiconductor) - 5
| Manufacturer | ON Semiconductor |
| Description | NPN Switching Transistor |
| Pages / Page | 8 / 5 — MMBT23. Typical Performance Characteristics. 69A. — NPN Sw. CC =. 3.0 V. … |
| File Format / Size | PDF / 610 Kb |
| Document Language | English |
MMBT23. Typical Performance Characteristics. 69A. — NPN Sw. CC =. 3.0 V. I = 10 I = I = 10. (ns. itching T. G TI. ITC
Model Line for this Datasheet
Text Version of Document
MMBT23 Typical Performance Characteristics
(Continued)
69A — NPN Sw
100
V
12
CC = 3.0 V t t )
50
s f s I = 10 I = I = 10 C B1 B2 )
10
(n (ns ES
20
S M E
8
t t t t s s s s r IM
10
T itching T G TI
6
G IN t t IN t t
5
s f s d CH H
4
IT ITC t t s r SW t t
2
s s t t SW
2
s s d I = 10 mA, I = 3.0 mA, I = 1.5 mA, V = 3.0 V C B1 B2 CC r
1
ansistor
0 2 5 10 20 50 100 300 25 50 75 100
I C - COLLECTOR CURRENT (mA) T - A AM BIENT TE MPE RATURE ( C) ° Figure 7. Switching Times Figure 8. Switching Times vs. Collector Current vs. Ambient Temperature ) ) A
-12
mA
-30
m ( I = 10 mA I = 100 mA C ( C 4.0 ns NT
-10
V = 3.0 V NT V = 3.0 V E CC
-25
E CC RR RR U 8.0 ns
-8 -20
t = S 3.0 ns 6.0 ns C CU E t = 3.0 ns s E S
-6
S
-15
BA F 4.0 ns BA F F
-4 -10
O OF 16.0 ns N N R
-2
R U 6.0 ns
-5
U - T - T
0 0
I B2
0 2 4 6 8 10
I B2
0 5 10 15 20 25 30
I - TURN ON BASE CURRENT (mA) B1 I B1 - TURN ON BASE CURRENT (mA) Figure 9. Storage Time vs. Figure 10. Storage Time vs. Turn-On and Turn-Off Base Currents Turn-On and Turn-Off Base Currents ) A A)
-6 -12
m ( I = 10 mA (m I = 30 mA T C C N NT 3.0 ns
-5
V = 3.0 V
-10
V = 3.0 V E CC CC R RE 4.0 ns R
-4
8.0 ns
- 8
CU CUR t = f 2.0 ns E t = 7.0 ns E S f S
-3 - 6
A 5.0 ns BA B F F
-2
F
- 4
OF 10 ns O N N R
-1
R
- 2
U U - T - T
0 0
B2 I B2
0 2 4 6 8 10
I
0 2 4 6 8 10 12
I - TURN ON BASE CURRENT (mA) I - TURN ON BASE CURRENT (mA) B1 B1 Figure 11. Fall Time vs. Figure 12. Fall Time vs. Turn-On and Turn-Off Base Currents Turn-On and Turn-Off Base Currents
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(Continued)
69A — NPN Sw
100
V
12
CC = 3.0 V t t )
50
s f s I = 10 I = I = 10 C B1 B2 )
10
(n (ns ES
20
S M E
8
t t t t s s s s r IM
10
T itching T G TI
6
G IN t t IN t t
5
s f s d CH H
4
IT ITC t t s r SW t t
2
s s t t SW
2
s s d I = 10 mA, I = 3.0 mA, I = 1.5 mA, V = 3.0 V C B1 B2 CC r
1
ansistor
0 2 5 10 20 50 100 300 25 50 75 100
I C - COLLECTOR CURRENT (mA) T - A AM BIENT TE MPE RATURE ( C) ° Figure 7. Switching Times Figure 8. Switching Times vs. Collector Current vs. Ambient Temperature ) ) A
-12
mA
-30
m ( I = 10 mA I = 100 mA C ( C 4.0 ns NT
-10
V = 3.0 V NT V = 3.0 V E CC
-25
E CC RR RR U 8.0 ns
-8 -20
t = S 3.0 ns 6.0 ns C CU E t = 3.0 ns s E S
-6
S
-15
BA F 4.0 ns BA F F
-4 -10
O OF 16.0 ns N N R
-2
R U 6.0 ns
-5
U - T - T
0 0
I B2
0 2 4 6 8 10
I B2
0 5 10 15 20 25 30
I - TURN ON BASE CURRENT (mA) B1 I B1 - TURN ON BASE CURRENT (mA) Figure 9. Storage Time vs. Figure 10. Storage Time vs. Turn-On and Turn-Off Base Currents Turn-On and Turn-Off Base Currents ) A A)
-6 -12
m ( I = 10 mA (m I = 30 mA T C C N NT 3.0 ns
-5
V = 3.0 V
-10
V = 3.0 V E CC CC R RE 4.0 ns R
-4
8.0 ns
- 8
CU CUR t = f 2.0 ns E t = 7.0 ns E S f S
-3 - 6
A 5.0 ns BA B F F
-2
F
- 4
OF 10 ns O N N R
-1
R
- 2
U U - T - T
0 0
B2 I B2
0 2 4 6 8 10
I
0 2 4 6 8 10 12
I - TURN ON BASE CURRENT (mA) I - TURN ON BASE CURRENT (mA) B1 B1 Figure 11. Fall Time vs. Figure 12. Fall Time vs. Turn-On and Turn-Off Base Currents Turn-On and Turn-Off Base Currents
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