22
HCPL-316J
1
2
3
4
5
6
7
8
V
V
V
V
16
15
IN+
IN-
E
0.1
µF
0.1
µF
100 pF
V
LED2+
D
DESAT
100 Ω
DESAT 14
CC1
+
–
5 V
+
–
0.1
µF
µC
V
F
GND1
V
13
12
11
10
9
CC2
3.3
kΩ
Q1
Q2
V
= 18 V
CC2
+
+
–
RESET
FAULT
V
C
V
CE
R
g
V
OUT
–
0.1
µF
3-PHASE
OUTPUT
47
kΩ
V
V
V
V
LED1+
LED1-
EE
EE
330 pF
–
+
+
V
= -5 V
EE
V
CE
–
Figure 62. Recommended Application Circuit.
Description of Operation/
Timing
Figure 63 below illustrates input
and output waveforms under the
conditions of normal operation, a
desat fault condition, and normal
reset behavior.
FAULT output is high and the
RESET input should be held high.
See Figure 63.
the purpose of notifying the
micro-controller of the fault
condition. See Figure 63.
Fault Condition
When the voltage on the DESAT
pin exceeds 7 V while the IGBT is
Reset
The FAULT output remains low
until RESET is brought low. See
Figure 63. While asserting the
RESET pin (LOW), the input pins
must be asserted for an output
on, V
is slowly brought low in
OUT
Normal Operation
order to “softly” turn-off the IGBT
and prevent large di/dt induced
voltages. Also activated is an
internal feedback channel which
brings the FAULT output low for
During normal operation, V
of
OUT
the HCPL-316J is controlled by
either V or V , with the IGBT
low state (V
is LOW or V is
IN+
IN-
IN+
IN-
HIGH). This may be
accomplished either by software
control (i.e. of the
collector-to-emitter voltage being
monitored through D . The
DESAT
microcontroller) or hardware
control (see Figures 73 and 74).
NORMAL
OPERATION
FAULT
CONDITION
RESET
V
IN-
IN+
IN-
0 V
5 V
NON-INVERTING
CONFIGURED
INPUTS
V
V
V
5 V
INVERTING
CONFIGURED
INPUTS
IN+ 5 V
7 V
V
V
DESAT
OUT
FAULT
RESET
Figure 63. Timing Diagram.