FSAM15SM60 Fairchild Semiconductor, FSAM15SM60 Datasheet - Page 8
FSAM15SM60
Manufacturer Part Number
FSAM15SM60
Description
Manufacturer
Fairchild Semiconductor
Datasheet
1.FSAM15SM60.pdf
(16 pages)
©2003 Fairchild Semiconductor Corporation
Electrical Characteristics
Control Part
Note:
5. Short-circuit current protection is functioning only at the low-sides. It would be recommended that the value of the external sensing resistor (R
6. The fault-out pulse width t
7. T
Recommended Operating Conditions
Quiescent V
rent
Quiescent V
rent
Fault Output Voltage
Short-Circuit Trip Level
Sensing Voltage
of IGBT Current
Supply Circuit Under-
Voltage Protection
Fault Output Pulse Width
ON Threshold Voltage
OFF Threshold Voltage
ON Threshold Voltage
OFF Threshold Voltage
Resistance of Thermistor
Supply Voltage
Control Supply Voltage
High-side Bias Voltage
Blanking Time for Preventing
Arm-short
PWM Input Signal
Input ON Threshold Voltage
Input OFF Threshold Voltage
selected around 56 Ω in order to make the SC trip-level of about 22.5A at the shunt resistors (R
relationship between the external sensing resistor (R
TH
is the temperature of thermistor itself. To know case temperature (T
Item
CC
BS
Item
Supply Cur-
Supply Cur-
FOD
depends on the capacitance value of C
Symbol
V
V
V
V
V
UV
UV
UV
UV
I
I
V
V
V
IN(OFF)
IN(OFF)
QCCH
QCCL
I
t
SC(ref)
IN(ON)
IN(ON)
R
QBS
FOD
FOH
SEN
FOL
Symbol
V
CCD
CCR
TH
BSD
BSR
V
IN(OFF)
f
t
V
IN(ON)
V
V
PWM
dead
CC
PN
BS
V
IN
V
IN
V
IN
V
V
V
@ R
(Note Fig. 7)
Detection Level
Reset Level
Detection Level
Reset Level
C
High-Side
Low-Side
@ T
@ T
CC
CC
BS
SC
SC
CC
FOD
(UL, VL, WL)
(UH, VH, WH)
(UH, VH, WH)
(T
SC
Applied between P - N
Applied between V
COM
Applied between V
V
For Each Input Signal
T
Applied between IN
COM
Applied between IN
COM
TH
TH
) and the shunt resistors (R
SC
J
= 15V
= 0V, V
= 1V, V
= 15V
= 15V
= 15V (Note 5)
C
B(W)
= 25°C, Unless Otherwise Specified)
= 33nF (Note 6)
= 25°C (Note Fig. 6) (Note 7)
= 100°C (Note Fig. 6) (Note 7)
≤ 100°C, T
= 56 Ω, R
(H)
(H)
(H)
- V
, V
, IN
, IN
FO
FO
S(W)
= 5V
= 5V
= 5V
FOD
CC(L)
Circuit: 4.7kΩ to 5V Pull-up
Circuit: 4.7kΩ to 5V Pull-up
(UL)
(UL)
C
SU
), please make the experiment considering your application.
according to the following approximate equation : C
J
, IN
, IN
≤ 125°C
- COM
= R
Condition
Condition
(VL)
(VL)
V
V
COM
V
V
Applied between IN
IN
Applied between IN
IN
CC(UH)
B(U)
(UH)
SV
CC(L)
CC(UH)
B(U)
B(W)
(UH)
SU
(WH)
(WL)
, IN
, IN
U
,R
(L)
= R
- V
, IN
, N
(H)
, IN
SV
- V
- V
, V
(WL)
(WL)
- COM
- COM
- COM
,R
S(U)
, V
SW
V
(VH)
S(U)
(VH)
, N
S(W)
SW
CC(VH)
CC(VH)
, V
- COM
- COM
= 0 Ω and I
), please see Fig. 7.
W
, IN
, V
, IN
(L)
(L)
(H)
SU
B(V)
B(V)
(WH)
,R
, V
(WH)
, V
SV
(L)
(L)
- V
CC(WH)
,R
-V
(UH)
(UL)
CC(WH)
-
SW
-
S(V)
S(V)
C
, IN
) of 0Ω . For the detailed information about the
, IN
= 22.5A
,
,
-
(VL)
(VH)
-
,
,
Min.
13.5
13.5
3
-
-
FOD
Min.
0.45
0.45
11.5
4.5
7.3
8.6
1.4
3.0
3.0
12
-
-
-
-
-
-
-
-
0 ~ 0.65
= 18.3 x 10
4 ~ 5.5
Value
Typ.
300
15
15
5
-
Typ. Max. Unit
0.51 0.56
0.51 0.56
12.5
10.3
9.0
1.8
3.4
12
50
-
-
-
-
-
-
-
-
-
-6
Max.
16.5
16.5
400
x t
-
-
12.5
10.8
130
420
1.1
2.0
0.8
0.8
26
13
12
SC
FOD
Rev. E, August 2003
-
-
-
-
-
) should be
[F]
Unit
kHz
us
mA
V
V
V
V
V
uA
uA
ms
kΩ
kΩ
V
V
V
V
V
V
V
V
V
V
V
V
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