HCPL-J314#500 Avago Technologies US Inc., HCPL-J314#500 Datasheet - Page 13
HCPL-J314#500
Manufacturer Part Number
HCPL-J314#500
Description
OPTOCOUPLER 1CH 0.6A 8-SMD
Manufacturer
Avago Technologies US Inc.
Datasheet
1.HCPL-J314-500E.pdf
(16 pages)
Specifications of HCPL-J314#500
Package / Case
8-SMD Gull Wing
Voltage - Isolation
3750Vrms
Number Of Channels
1, Unidirectional
Current - Output / Channel
600mA
Propagation Delay High - Low @ If
300ns @ 8mA
Current - Dc Forward (if)
25mA
Input Type
DC
Output Type
Push-Pull, Totem-Pole
Mounting Type
Surface Mount, Gull Wing
Isolation Voltage
3750 Vrms
Maximum Fall Time
50 ns
Maximum Forward Diode Current
25 mA
Maximum Rise Time
50 ns
Minimum Forward Diode Voltage
1.2 V
Output Device
Integrated Photo IC
Configuration
1 Channel
Maximum Forward Diode Voltage
1.8 V
Maximum Reverse Diode Voltage
3 V
Maximum Power Dissipation
260 mW
Maximum Operating Temperature
+ 100 C
Minimum Operating Temperature
- 40 C
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Available stocks
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Manufacturer
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Price
Selecting the Gate Resistor (Rg)
Step 1: Calculate R
cation. The IGBT and Rg in Figure 19 can be analyzed as
a simple RC circuit with a voltage supplied by the HCPL-
J314.
Rg ≥ ————
The V
at the peak current of 0.6A. (See Figure 6).
Step 2: Check the HCPL-J314 power dissipation and in-
crease Rg if necessary. The HCPL-J314 total power dissi-
pation (P
and the output power (P
P
P
P
= (I
where K
ing and K
circuit in Figure 19 with I
Ω, Max Duty Cycle = 80%, Qg = 100 nC, f = 20 kHz and
T
P
P
The value of 3 mA for I
max. I
Since P
right for the power dissipation.
13
AMAX
E
O
E
O
T
= P
= (3 mA + (0.001 mA/(nC 6 kHz)) 6 20 kHz 6 100 nC) 6
= I
= 10 mA 6 1.8 V 6 0.8 = 14 mW
= P
F
OL
CCBIAS
= ————
= 32 Ω
CC
E
= 85°C:
O(BIAS)
6 V
+ P
V
I
24 V – 5 V
< 260 mW (P
O
value of 5 V in the previous equation is the V
ICC
over entire operating temperature range.
for this case is less than P
24 V + 0.4 µJ 6 20 kHz = 80 mW
T
F
ICC
CC
) is equal to the sum of the emitter power (P
OLPEAK
6 Duty Cycle
O
6 Qg 6 f is the increase in I
+ K
0.6A
+ P
is a constant of 0.001 mA/(nC*kHz). For the
– V
ICC
O(SWITCHING)
OL
g
6 Qg 6 f) 6 V
minimum from the I
O(MAX)
CC
F
O
in the previous equation is the
(worst case) = 10 mA, Rg = 32
).
= I
@ 85°C)
CC
CC
+ E
6 V
O(MAX)
SW
CC
CC
(Rg,Qg) 6 f
+ E
due to switch-
OL
, Rg = 32 Ω is all
SW
peak specifi-
(Rg,Qg) 6 f
OL
E
)
LED Drive Circuit Considerations for Ultra High CMR Perfor-
mance
Without a detector shield, the dominant cause of op-
tocoupler CMR failure is capacitive coupling from the
input side of the optocoupler, through the package, to
the detector IC as shown in Figure 21. The HCPL-J314
improves CMR performance by using a detector IC with
an optically transparent Faraday shield, which diverts the
capacitively coupled current away from the sensitive IC
circuitry. However, this shield does not eliminate the ca-
pacitive coupling between the LED and optocoupler pins
5-8 as shown in Figure 22. This capacitive coupling causes
perturbations in the LED current during common mode
transients and becomes the major source of CMR failures
for a shielded optocoupler. The main design objective of
a high CMR LED drive circuit becomes keeping the LED in
the proper state (on or off ) during common mode tran-
sients. For example, the recommended application circuit
(Figure 19), can achieve 10 kV/µs CMR while minimizing
component complexity.
Techniques to keep the LED in the proper state are
discussed in the next two sections.
Figure 20. Energy dissipated in the HCPL-J314 and for
each IGBT switching cycle.
4.0
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0
0
Rg – GATE RESISTANCE – Ω
20
40
60
Qg = 50 nC
Qg = 100 nC
Qg = 200 nC
Qg = 400 nC
80
100
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