FX50SMJ-03
性能曲线
漏功耗降额曲线
100
–2
最大安全工作区
TW = 10微秒
100s
1ms
10ms
DC
100ms
漏极功耗P
D
(W)
–10
2
漏电流I
D
(A)
80
–7
–5
–3
–2
60
–10
1
–7
–5
–3
–2
40
20
–10
0
–7
–5
TC = 25°C
0
0
50
100
150
200
–3
单脉冲
–2
–2 –3 –5
–7
–10
0
–2 –3 –5–7
–10
1
–2 –3 –5
–7
–10
2
–2
壳温度( ° C)
漏源电压V
DS
(V)
输出特性(典型)
–100
输出特性(典型)
–
50
V
GS
=
–10V
– 6V
– 8V
– 5V
TC = 25°C
脉冲测试
V
GS
=
–10V
– 8V
– 7V
TC = 25°C
脉冲测试
漏电流I
D
(A)
– 6V
–
60
漏电流I
D
(A)
–
80
–
40
– 5V
–
30
– 4V
P
D
= 70W
– 3V
–
40
– 4V
–
20
–
20
P
D
= 70W
– 3V
–10
0
0
–2
–4
–6
–8
–10
0
0
–1.0
–
2.0
–
3.0
–
4.0
–
5.0
漏源电压V
DS
(V)
漏源电压V
DS
(V)
–10
漏源通态电阻R
DS ( ON)
(m)
漏源通态电压V
DS ( ON)
(V)
导通电压VS.
栅源电压(典型值)
TC = 25°C
脉冲测试
通态电阻VS.
漏电流(典型值)
100
TC = 25°C
脉冲测试
80
–8
V
GS
= – 4V
60
–6
–4
I
D
= –100A
– 50A
– 25A
40
–10V
20
–2
0
0
–2
–4
–6
–8
–10
0
–10
0
–2 –3
–5 –7
–10
1
–2 –3
–5
–7
–10
2
栅极 - 源极电压V
GS
(V)
漏电流I
D
(A)
Rev.1.00 , Aug.20.2004 , 6个3页
