DtSheet

INFINEON BAS140W

BAS40.../BAS140W
Silicon Schottky Diode
• General-purpose diode for high-speed switching
• Circuit protection
• Voltage clamping
• High-level detecting and mixing
BAS140W
BAS40-02L
BAS40
BAS40-04
3
1
3
2
1
BAS40-05
BAS40-05W
2
BAS40-06
BAS40-06W
3
D 1
D 2
D 1
1
2
1
3
D 2
2
D 1
D 2
1
2
BAS40-07
BAS40-07W
4
3
D 1
1
D 2
2
ESD: Electrostatic discharge sensitive device, observe handling precaution!
Type
BAS140W
BAS40
BAS40-02L*
BAS40-04
BAS40-05
BAS40-05W
BAS40-06
BAS40-06W
BAS40-07
BAS40-07W
Package
SOD323
SOT23
TSLP-2-1
SOT23
SOT23
SOT323
SOT23
SOT323
SOT143
SOT343
Configuration
single
single
single, leadless
series
common cathode
common cathode
common anode
common anode
parallel pair
parallel pair
LS(nH)
1.8
1.8
0.4
1.8
1.8
1.4
1.8
1.4
2
1.8
Marking
white 4
43s
FF
44s
45s
45s
46s
46s
47s
47s
*Preliminary
1
Jan-16-2004
BAS40.../BAS140W
Maximum Ratings at TA = 25°C, unless otherwise specified
Parameter
Symbol
Diode reverse voltage
VR
40
V
Forward current
IF
120
mA
Non-repetitive peak surge forward current
IFSM
200
Value
Unit
t ≤ 10ms
Total power dissipation
mW
Ptot
BAS140W, TS ≤ 113°C
250
BAS40, BAS40-07, TS ≤ 81°C
250
BAS40-02L, TS ≤ 127°C
BAS40-04, BAS40-06, TS ≤ 56°C
250
BAS40-06W, TS ≤ 106°C
BAS40-05, TS ≤ 31°C
250
BAS40-05W, TS ≤ 98°C
BAS40-07W, TS ≤ 118°C
250
250
250
250
150
Junction temperature
Tj
Operating temperature range
Top
-55 ... 125
Storage temperature
Tstg
-55 ... 150
°C
Thermal Resistance
Parameter
Symbol
Junction - soldering point 1)
RthJS
Value
K/W
BAS140W
≤ 150
BAS40, BAS40-07
≤ 275
BAS40-02L
≤ 90
BAS40-04, BAS40-06
≤ 375
BAS40-06W
≤ 175
BAS40-05
≤ 475
BAS40-05W
≤ 205
BAS40-07W
≤ 125
1For
Unit
calculation of RthJA please refer to Application Note Thermal Resistance
2
Jan-16-2004
BAS40.../BAS140W
Electrical Characteristics at TA = 25°C, unless otherwise specified
Symbol
Parameter
Values
Unit
min.
typ.
max.
40
-
-
V
-
-
1
µA
DC Characteristics
Breakdown voltage
V(BR)
I (BR) = 10 µA
Reverse current
IR
VR = 30 V
Forward voltage
mV
VF
I F = 1 mA
250
310
380
I F = 10 mA
350
450
500
I F = 40 mA
600
720
1000
∆ VF
-
-
20
CT
-
3
5
pF
RF
-
10
-
Ω
τ rr
-
-
100
ps
Forward voltage matching1)
I F = 10 mA
AC Characteristics
Diode capacitance
VR = 0 , f = 1 MHz
Differential forward resistance
IF = 10 mA, f = 10 kHz
Charge carrier life time
IF = 25 mA
1∆V
F
is the difference between lowest and highest VF in a multiple diode component.
3
Jan-16-2004
BAS40.../BAS140W
Diode capacitance CT = ƒ (VR)
Forward resistance rf = ƒ (I F)
f = 1MHz
f = 10 kHz
5
CT
BAS 40...
EHB00040
10 3
rf
pF
BAS 40...
EHB00041
Ω
4
10 2
3
2
10 1
1
0
10
0
20
V
10 3
0.1
30
1
10
ΙF
VR
Reverse current IR = ƒ(VR)
Forward current IF = ƒ (VF)
TA = Parameter
TA = Parameter
10 3
ΙR
BAS 40...
mA 100
10 2
EHB00039
ΙF
µA
BAS 40...
EHB00038
mA
TA = 150 C
10 2
10 1
10 1
TA = -40 ˚C
25 ˚C
85 ˚C
150 ˚C
10 0
85 C
10 0
10 -1
10
-1
25 C
10 -2
0
10
20
30
V
10-2
0.0
40
VR
0.5
1.0
V
1.5
VF
4
Jan-16-2004
BAS40.../BAS140W
Forward current IF = ƒ (T S)
Forward current IF = ƒ (T S)
BAS140W
BAS40, BAS40-07
140
140
mA
mA
IF
100
IF
100
80
80
60
60
40
40
20
20
0
0
15
30
45
60
75
90 105 120 °C
0
0
150
15
30
45
60
75
90 105 120 °C
TS
150
TS
Forward current IF = ƒ (T S)
Forward current IF = ƒ (T S)
BAS40-02L
BAS40-04, BAS40-06
140
140
mA
mA
IF
100
IF
100
80
80
60
60
40
40
20
20
0
0
15
30
45
60
75
90 105 120 °C
0
0
150
TS
15
30
45
60
75
90 105 120 °C
150
TS
5
Jan-16-2004
BAS40.../BAS140W
Forward current IF = ƒ (T S)
Forward current IF = ƒ (T S)
BAS40-06W
BAS40-05
140
140
mA
mA
IF
100
IF
100
80
80
60
60
40
40
20
20
0
0
15
30
45
60
75
90 105 120 °C
0
0
150
15
30
45
60
75
90 105 120 °C
TS
150
TS
Forward current IF = ƒ (T S)
Forward current IF = ƒ (T S)
BAS40-05W
BAS40-07W
140
140
mA
mA
IF
100
IF
100
80
80
60
60
40
40
20
20
0
0
15
30
45
60
75
90 105 120 °C
0
0
150
TS
15
30
45
60
75
90 105 120 °C
150
TS
6
Jan-16-2004
BAS40.../BAS140W
Permissible Puls Load RthJS = ƒ (tp)
Permissible Pulse Load
BAS140W
IFmax / I FDC = ƒ (t p)
BAS140W
R thJS
5
K/W
EHD07165
BAS 140W
Ι F max
Ι F DC
10 2
EHD07166
BAS 140W
tp
tp
D=
T
5
T
10 2
D=
0.5
0.2
0.1
0.05
0.02
0.01
0.005
0
5
10 1
5
D=
0
0.005
0.01
0.02
0.05
0.1
0.2
0.5
10 1
5
tp
tp
D=
T
10 0
10 -6
10
-5
10
-4
10
T
-3
10
-2
s
10
10 0
10 -6
0
10 -5
10 -4
10 -3
10 -2
tp
Permissible Puls Load RthJS = ƒ (tp)
Permissible Pulse Load
BAS40-02L
IFmax / I FDC = ƒ (t p)
10 2
10 0
s
10
BAS40-02L
10 1
RthJS
IFmax/IFDC
K/W
0.5
0.2
0.1
0.05
0.02
0.01
0.005
D=0
10 1
10 0 -6
10
s
tp
10
-5
10
-4
10
-3
D=0
0.005
0.01
0.02
0.05
0.1
0.2
0.5
-
10
-2
10
-1
s
10
10 0 -6
10
1
tp
10
-5
10
-4
10
-3
10
-2
0
tp
7
Jan-16-2004
BAS40.../BAS140W
Permissible Puls Load RthJS = ƒ (tp)
Permissible Pulse Load
BAS40-06W
IFmax / I FDC = ƒ (t p)
BAS40-06W
10 2
10 3
I Fmax/IFDC
RthJS
K/W
10 2
-
D=0
0.005
0.01
0.02
0.05
0.1
0.2
0.5
10 1
0.5
0.2
0.1
0.05
0.02
0.01
0.005
D=0
10 1
10 0 -6
10
10
-5
10
-4
10
-3
10
-2
s
10
10 0 -6
10
0
10
-5
10
-4
10
-3
10
-2
tp
s
10
0
10
0
tp
Permissible Puls Load RthJS = ƒ (tp)
Permissible Pulse Load
BAS40-05W
IFmax / I FDC = ƒ (t p)
BAS40-05W
10 2
10 3
IFmax/IFDC
RthJS
K/W
10 2
-
D=0
0.005
0.01
0.02
0.05
0.1
0.2
0.5
10 1
10
0.5
0.2
0.1
0.05
0.02
0.01
0.005
D=0
1
10 0 -6
10
10
-5
10
-4
10
-3
10
-2
s
10
10 0 -6
10
0
tp
10
-5
10
-4
10
-3
10
-2
s
tp
8
Jan-16-2004
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