HCPL-4504#520 Avago Technologies US Inc., HCPL-4504#520 Datasheet - Page 19
HCPL-4504#520
Manufacturer Part Number
HCPL-4504#520
Description
OPTOCOUPLER 1CH UL GAASP 8-SMD
Manufacturer
Avago Technologies US Inc.
Datasheet
1.HCPL-4504-000E.pdf
(19 pages)
Specifications of HCPL-4504#520
Input Type
DC
Package / Case
8-SMD (300 mil)
Voltage - Isolation
5000Vrms
Number Of Channels
1, Unidirectional
Current - Output / Channel
8mA
Propagation Delay High - Low @ If
200ns @ 16mA
Current - Dc Forward (if)
25mA
Output Type
Open Collector
Mounting Type
Surface Mount, Gull Wing
Isolation Voltage
3750 Vrms
Output Device
Phototransistor
Configuration
1 Channel
Current Transfer Ratio
65 %
Maximum Baud Rate
1 MBps
Maximum Forward Diode Voltage
1.7 V
Maximum Reverse Diode Voltage
5 V
Maximum Input Diode Current
25 mA
Maximum Power Dissipation
100 mW
Maximum Operating Temperature
+ 100 C
Minimum Operating Temperature
- 55 C
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
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For product information and a complete list of distributors, please go to our website:
Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies in the United States and other countries.
Data subject to change. Copyright © 2005-2009 Avago Technologies. All rights reserved. Obsoletes AV01-0552EN
AV02-0867EN - January 4, 2010
The LED signal to turn on Q2 should be delayed enough
so that an optocoupler with the very fastest turn-on
propagation delay (t
optocoupler with the very slowest turn-off propagation
delay (t
optocoupler should be delayed by an amount no less
than (t
imum data sheet value for the propagation delay diff er-
ence specifi cation, (t
and HCNW4504 specify a maxi mum (t
over an operating temperature range of 0-70°C.
Although (t
is needed to prevent shoot-through current, it is insuffi -
cient to tell the designer how much dead time a design
will have. Assuming that the optocoupler turn-on delay
is exactly equal to (t
is zero (i.e., there is zero time between the turnoff of the
very slowest optocoupler and the turn-on of the very
fastest optocoupler).
Calculating the maximum dead time is slightly more
compli cated. Assuming that the LED turn-on delay is still
exactly equal to (t
that the maximum dead time is the sum of the maximum
diff erence in turn-on delay plus the maxi mum diff erence
in turnoff delay,
[(t
PLHmax
PLHmax
PLHmax
-t
PLHmin
PLH
- t
) turns off . To ensure this, the turn-on of the
-t
PHLmin
)+(t
PHL
PLH
)
PHLmax
max
PLH
), which also happens to be the max-
PLH
PHLmin
- t
tells the designer how much delay
- t
PHL
- t
-t
PHL
PHL
)
PHLmin
max
) will never turn on before an
)
max
). The HCPL-4504/0454/J454
, it can be seen in Figure 17
, the minimum dead time
)].
PLH
- t
PHL
) of 1.3 μs
www.avagotech.com
This expression can be rearranged to obtain
[(t
and further rearranged to obtain
[(t
which is the maximum minus the minimum data sheet
values of (t
mum and minimum values depends directly on the total
spread in propagation delays and sets the limit on how
good the worst-case dead time can be for a given design.
Therefore, opto coup lers with tight propagation delay
specifi cations (and not just shorter delays or lower pulse-
width distortion) can achieve short dead times in power
inverters. The HCPL-4504/0454/J454 and HCNW4504
specify a minimum (t
ing temperature range of 0-70°C, resulting in a maximum
dead time of 2.0 μs when the LED turn-on delay is equal
to (t
It is important to maintain accurate LED turn-on delays
because delays shorter than (t
shoot-through currents, while longer delays will increase
the worst-case dead time.
PLHmax
PLH
PLH
-t
PHL
-t
-t
PHL
)
PHLmin
max
)
PLH
max
-(t
-t
, or 1.3 μs.
)-(t
PLH
PHL
PHLmin
-t
). The diff erence between the maxi-
PHL
PLH
)
min
-t
- t
PHLmax
],
PHL
) of -0.7 μs over an operat-
)],
PLH
- t
PHL
)
max
may allow
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