HCPL-3140-060E Avago Technologies US Inc., HCPL-3140-060E Datasheet - Page 12
HCPL-3140-060E
Manufacturer Part Number
HCPL-3140-060E
Description
OPTOCOUPLER 1CH 0.4A VDE 8-DIP
Manufacturer
Avago Technologies US Inc.
Datasheet
1.HCPL-3140-000E.pdf
(16 pages)
Specifications of HCPL-3140-060E
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
Through Hole
Package / Case
8-DIP (0.300", 7.62mm)
No. Of Channels
1
Optocoupler Output Type
Gate Drive
Input Current
12mA
Output Voltage
30V
Opto Case Style
DIP
No. Of Pins
8
Propagation Delay Low-high
0.7µs
Isolation Voltage
3.75kV
Number Of Elements
1
Forward Voltage
1.8V
Forward Current
25mA
Package Type
PDIP
Operating Temp Range
-40C to 100C
Power Dissipation
250mW
Propagation Delay Time
700ns
Pin Count
8
Mounting
Through Hole
Reverse Breakdown Voltage
5V
Operating Temperature Classification
Industrial
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
HCPL-3140-060E
Manufacturer:
AVAGO/安华高
Quantity:
20 000
Selecting the Gate Resistor (Rg)
Step 1: Calculate R
and Rg in Figure 19 can be analyzed as a simple RC circuit with a
voltage supplied by the HCPL-3140/HCPL-0314.
The V
current of 0.6A. (See Figure 6).
Step 2: Check the HCPL-3140/HCPL-0314 power dissipation and
increase Rg if necessary. The HCPL-3140/HCPL-0314 total power
dissipation (P
output power (P
P
P
P
= (I
where K
constant of 0.001 mA/(nC*kHz). For the circuit in Figure 19 with I
(worst case) = 10 mA, Rg = 32
Qg = 100 nC, f = 20 kHz and T
P
P
0.4 J 20 kHz = 128 mW
< 250 mW (P
The value of 3 mA for I
entire operating temperature range.
Since P
power dissipation.
12
T
E
O
E
O
= P
= 10 mA
= I
= P
= (3 mA + (0.001 mA/(nC
CCBIAS
OL
F
E
O(BIAS)
O
ICC
value of 5 V in the previous equation is the V
+ P
for this case is less than P
V
+ K
F
O
T
Qg f is the increase in I
O(MAX)
) is equal to the sum of the emitter power (P
1.8 V
Duty Cycle
+ P
ICC
O
).
g
O(SWITCHING)
Rg
minimum from the I
Qg f) V
@ 85 C)
=
= 32
0.8 = 14 mW
CC
24 V – 5 V
V
in the previous equation is the max. I
I
CC
OLPEAK
0.6A
– V
CC
AMAX
= I
kHz))
, Max Duty Cycle = 80%,
OL
+ E
O(MAX)
CC
= 85 C:
CC
SW
OL
V
20 kHz
due to switching and K
, Rg = 32
(Rg,Qg) f
CC
peak specification. The IGBT
+ E
SW
100 nC)
OL
(Rg,Qg) f
is alright for the
at the peak
E
) and the
24 V +
CC
ICC
over
F
is a
L
Ultra High CMR Performance
Without a detector shield, the
dominant cause of optocoupler
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-3140/HCPL-0314 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 capacitive
coupling between the LED and
opto-coupler 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 transients. For example,
the recommended application
circuit (Figure 19), can achieve
10 kV/ s 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-0314 and for each IGBT switching
cycle.
ED Drive Circuit Considerations for
4.0
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0
0
Rg – GATE RESISTANCE –
20
40
60
Qg = 50 nC
Qg = 100 nC
Qg = 200 nC
Qg = 400 nC
80
100
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