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ACNW3190-300E

P1-P3P4-P6P7-P9P10-P12P13-P15
10
Figure 13. Propagation Delay vs. Rg Figure 14. Propagation Delay vs. Cg
Figure 15. Transfer Characteristics Figure 16. Input Current vs. Forward Voltage
Tp – PROPAGATION DELAY – ns
Rg – SERIES LOAD RESISTANCE – Ω
Cg – LOAD CAPACITANCE - nF
Tp – PROPAGATION DELAY – ns
0
50
100
150
200
250
300
350
01020304050
T
PHL
T
PLH
0
50
100
150
200
250
300
350
0 20406080100
T
PHL
T
PLH
0
5
10
15
20
25
30
0 1 2 3 4 5
V
OL
– OUTPUT LOW VOLTAGE – V
I
F
– FOWARD LED CURRENT - mA
V
F
– FORWARD VOLTAGE – VOLTS
1.2 1.3 1.4 1.5
I
F
– FORWARD CURRENT – mA
1.71.6
1.0
I
F
+
T
A
= 25°C
V
F
0.1
0.01
0.001
10
100
1000
11
Figure 17. I
OH
Test Circuit Figure 18. I
OL
Test Circuit
Figure 19. V
OH
Test Circuit Figure 20. V
OL
Test Circuit
Figure 21. I
FLH
Test Circuit Figure 22. UVLO Test Circuit
0.1 μF
V
CC
= 15
to 30 V
1
3
I
F
= 7 to
16 mA
+
2
4
8
6
7
5
+
4 V
I
OH
0.1 μF
V
CC
= 15
to 30 V
1
3
+
2
4
8
6
7
5
2.5 V
I
OL
+
0.1 μF
V
CC
= 15
to 30 V
1
3
I
F
= 7 to
16 mA
+
2
4
8
6
7
5
100 mA
V
OH
0.1 μF
V
CC
= 15
to 30 V
1
3
+
2
4
8
6
7
5
100 mA
V
OL
0.1 μF
V
CC
= 15
to 30 V
1
3
I
F
+
2
4
8
6
7
5
V
O
> 5 V
0.1 μF
1
3
+
2
4
8
6
7
5
V
O
> 5 V
V
CC
I
F
= 10 mA
12
0.1 μF
V
CC
= 15
to 30 V
10
1
3
I
F
= 7 to 16 mA
V
O
+
+
2
4
8
6
7
5
10 KHz
50% DUTY
CYCLE
500
10 nF
I
F
V
OUT
t
PHL
t
PLH
t
f
t
r
10%
50%
90%
0.1 μF
V
CC
= 30 V
1
3
I
F
V
O
+
+
2
4
8
6
7
5
A
+
B
V
CM
= 1500 V
5 V
V
CM
t
0 V
V
O
SWITCH AT B: I
F
= 0 mA
V
O
SWITCH AT A: I
F
= 10 mA
V
OL
V
OH
t
V
CM
δV
δt
=
5V
+
_
+
_
V
CC
= 15V
0.1μF

R
g
Q1
Q2
+
V
CE
-
R
PULL-DOWN
+ HVDC
-HVDC
3-PHASE
AC
+
V
CE
-
1
3
2
4
8
6
7
5
Figure 23. t
PLH
, t
PHL
, t
r
, and t
f
Test Circuit and Waveforms
Figure 24. CMR Test Circuit and Waveforms
Figure 25. Recommended LED drive and application circuit
Application Notes
Figure 25 and 26 show two recommended application circuits. Figure 25 show a single power supply gate driver using
the driver’s maximum V
OL
value of 0.5V. Figure 26 show a dual power supply gate driver circuit which is applicable for
higher power IGBT driving due to the existence of higher miller capacitance in these IGBTs.
For high side bootstrap driving, note that the bypass capacitor of 0.1µF in parallel with 10µF or above to be connected
across VCC and VEE is important to deliver high peak output current.
P1-P3P4-P6P7-P9P10-P12P13-P15

ACNW3190-300E

Mfr. #:
Buy ACNW3190-300E
Manufacturer:
Broadcom / Avago
Description:
Logic Output Optocouplers 5.0A IGBT Gate Drive
Lifecycle:
New from this manufacturer.
Delivery:
DHL FedEx Ups TNT EMS
Payment:
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