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FSBS10CH60F

P1-P3P4-P6P7-P9P10-P12P13-P15P16-P16
10 www.fairchildsemi.com
FSBS10CH60F Rev. D
FSBS10CH60F Smart Power Module
(with the external shunt resistance and CR connection)
c1 : Normal operation: IGBT ON and carrying current.
c2 : Short circuit current detection (SC trigger).
c3 : Hard IGBT gate interrupt.
c4 : IGBT turns OFF.
c5 : Fault output timer operation starts: The pulse width of the fault output signal is set by the external capacitor C
FO
.
c6 : Input “L” : IGBT OFF state.
c7 : Input “H”: IGBT ON state, but during the active period of fault output the IGBT doesn’t turn ON.
c8 : IGBT OFF state
Figure 8. Short-Circuit Current Protection (Low-side Operation only)
Internal IGBT
Gate-Emitter Voltage
Lower arms
control input
Output Current
Sensing Voltage
of the shunt
resistance
Fault Output Signal
SC Reference Voltage
CR circuit time
constant delay
SC
Protection
circuit state
SET
RESET
c6
c7
c3
c2
c1
c8
c4
c5
11 www.fairchildsemi.com
FSBS10CH60F Rev. D
FSBS10CH60F Smart Power Module
Note:
1. RC coupling at each input (parts shown dotted) might change depending on the PWM control scheme used in the application and the wiring impedance of the application’s
printed circuit board. The SPM input signal section integrates 3.3k
(typ.) pull-down resistor. Therefore, when using an external filtering resistor, please pay attention to the sig-
nal voltage drop at input terminal.
2. The logic input is compatible with standard CMOS or LSTTL outputs.
Figure 9. Recommended CPU I/O Interface Circuit
Note:
1. It would be recommended that the bootstrap diode, D
BS
, has soft and fast recovery characteristics.
2. The bootstrap resistor (R
BS
) should be 3 times greater than R
E(H)
. The recommended value of R
E(H)
is 5.6, but it can be increased up to 20 (maximum) for a slower dv/dt of
high-side.
3. The ceramic capacitor placed between V
CC
-COM should be over 1uF and mounted as close to the pins of the SPM as possible.
Figure 10. Recommended Bootstrap Operation Circuit and Parameters
CPU
COM
5V-Line
1nF
4.7k
,,
IN
(UL)
IN
(VL)
IN
(WL)
,,
IN
(UH)
IN
(VH)
IN
(WH)
V
FO
100
1nF
SPM
R
PF
=
C
PF
=
15V-Line
22uF
0.1uF
1000uF 1uF
One-Leg Diagram of SPM
Vcc
IN
COM
VB
HO
VS
Vcc
IN
COM
OUT
Inverter
Output
P
N
These Values depend on PWM Control Algorithm
D
BS
R
BS
R
E(H)
V
SL
12 www.fairchildsemi.com
FSBS10CH60F Rev. D
FSBS10CH60F Smart Power Module
Note:
1. To avoid malfunction, the wiring of each input should be as short as possible. (less than 2-3cm)
2. By virtue of integrating an application specific type HVIC inside the SPM, direct coupling to CPU terminals without any opto-coupler or transformer isolation is possible.
3. V
FO
output is open collector type. This signal line should be pulled up to the positive side of the 5V power supply with approximately 4.7k resistance. Please refer to Figure 9.
4. C
SP15
of around 7 times larger than bootstrap capacitor C
BS
is recommended.
5. V
FO
output pulse width should be determined by connecting an external capacitor(C
FOD
) between C
FOD
(pin7) and COM(pin2). (Example : if C
FOD
= 33 nF, then t
FO
= 1.8ms
(typ.)) Please refer to the note 5 for calculation method.
6. Input signal is High-Active type. There is a 3.3k
resistor inside the IC to pull down each input signal line to GND. When employing RC coupling circuits, set up such RC couple
that input signal agree with turn-off/turn-on threshold voltage.
7. To prevent errors of the protection function, the wiring around R
F
and C
SC
should be as short as possible.
8. In the short-circuit protection circuit, please select the R
F
C
SC
time constant in the range 1.5~2 µs.
9. Each capacitor should be mounted as close to the pins of the SPM as possible.
10. To prevent surge destruction, the wiring between the smoothing capacitor and the P&GND pins should be as short as possible. The use of a high frequency non-inductive
capacitor of around 0.1~0.22 uF between the P&GND pins is recommended.
11. Relays are used at almost every systems of electrical equipments of home appliances. In these cases, there should be sufficient distance between the CPU and the relays.
12. C
SPC15
should be over 1uF and mounted as close to the pins of the SPM as possible.
Figure 11. Typical Application Circuit
Fault
15V line
C
BS
C
BSC
R
BS
D
BS
C
BS
C
BSC
R
BS
D
BS
C
BS
C
BSC
R
BS
D
BS
C
SP15
C
SPC15
C
FOD
5V line
R
PF
C
BPF
R
S
M
Vdc
C
DCS
Gating UH
Gating VH
Gating WH
Gating WL
Gating VL
Gating UL
C
PF
C
P
U
R
FU
R
FV
R
FW
R
SU
R
SV
R
SW
C
FU
C
FV
C
FW
W-Phase Current
V-Phase Current
U-Phase Current
R
F
COM
VCC
IN(UL)
IN(VL)
IN(WL)
VFO
C(FOD)
C(SC)
OUT(UL)
OUT(VL)
OUT(WL)
N
U
(21)
N
V
(22)
N
W
(23)
U (24)
V (25)
W (26)
P (27)
(20) V
S(W)
(19) V
B(W)
(16) V
S(V)
(15) V
B(V)
(8) C
SC
(7) C
FOD
(6) V
FO
(5) IN
(WL)
(4) IN
(VL)
(3) IN
(UL)
(2) COM
(1) V
CC(L)
VCC
VB
OUT
COM
VS
IN
VB
VS
OUT
IN
COM
VCC
VCC
VB
OUT
COM
VS
IN
(18) V
CC(WH)
(17) IN
(WH)
(14) V
CC(VH)
(13) IN
(VH)
(12) V
S(U)
(11) V
B(U)
(10) V
CC(UH)
(9) IN
(UH)
Input Signal for Short-
Circuit Protection
C
SC
R
E(UH)
V
SL
R
E(VH)
R
E(WH)
P1-P3P4-P6P7-P9P10-P12P13-P15P16-P16

FSBS10CH60F

Mfr. #:
Buy FSBS10CH60F
Manufacturer:
ON Semiconductor / Fairchild
Description:
Motor / Motion / Ignition Controllers & Drivers 600V -10A SPM
Lifecycle:
New from this manufacturer.
Delivery:
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