ACPL-C78A-560E Avago Technologies US Inc., ACPL-C78A-560E Datasheet - Page 16

no-image

ACPL-C78A-560E

Manufacturer Part Number
ACPL-C78A-560E
Description
IC,Isolation Amplifier,SINGLE,SOP,8PIN,PLASTIC
Manufacturer
Avago Technologies US Inc.
Datasheet

Specifications of ACPL-C78A-560E

Amplifier Type
Isolation
Number Of Circuits
1
Output Type
Differential
-3db Bandwidth
100kHz
Voltage - Input Offset
300µV
Current - Supply
11mA
Current - Output / Channel
18.6mA
Voltage - Supply, Single/dual (±)
4.5 V ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
8-SSOP
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Slew Rate
-
Gain Bandwidth Product
-
Current - Input Bias
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
2.3. Do I really need an RC filter on the input? What is it for? Are other
2.4. How do I ensure that the ACPL-C78A/C780/C784 is not destroyed
16
values of R and C okay?
The input anti-aliasing filter (R=39 :, C=0.01 PF)
shown in the typical application circuit is recom-
mended for filtering fast switching voltage transients
from the input signal. (This helps to attenuate higher
signal frequencies which could otherwise alias with
the input sampling rate and cause higher input offset
voltage.)
Some issues to keep in mind using different filter
resistors or capacitors are:
1. Filter resistor: Input bias current for pins 2 and 3:
2. Filter resistor: The equivalent input resistance
3. The input bandwidth is changed as a result of this
4. Filter capacitance: The input capacitance of the
as a result of short circuit conditions which cause voltage drops
across the sense resistor that exceed the ratings of the ACPL-
C78A/C780/C784’s inputs?
Select the sense resistor so that it will have less than 5 V
drop when short circuits occur. The only other require-
ment is to shut down the drive before the sense resistor
is damaged or its solder joints melt. This ensures that
This is on the order of 500 nA. If you are using a
single filter resistor in series with pin 2 but not pin
3 the IxR drop across this resistor will add to the
offset error of the device. As long as this IR drop
is small compared to the input offset voltage
there should not be a problem. If larger-valued
resistors are used in series, it is better to put half
of the resistance in series with pin 2 and half the
resistance in series with pin 3. In this case, the
offset voltage is due mainly to resistor mismatch
(typically less than 1% of the resistance design
value) multiplied by the input bias.
for ACPL-C78A/C780/C784 is around 500 k:.
It is therefore best to ensure that the filter
resistance is not a significant percentage of
this value; otherwise the offset voltage will be
increased through the resistor divider effect.
[As an example, if R
1%) = 2 mV for a maximum 200 mV input and V
will vary with respect to Vin.]
different R-C filter configuration. In fact this is one
of the main reasons for changing the input-filter
R-C time constant.
ACPL-C78A/C780/C784 is approximately 1.5 pF.
For proper operation the switching input-side
sampling capacitors must be charged from a
relatively fixed (low impedance) voltage source.
Therefore, if a filter capacitor is used it is best for
this capacitor to be a few orders of magnitude
greater than the C
works well.)
INPUT
filt
= 5.5 k:, then V
(A value of at least 100 pF
OS
= (Vin *
OS
3.
3.1. How many volts will the ACPL-C78A/C780/C784 withstand?
4.
4.1. Can the signal to noise ratio be improved?
4.2. Does the gain change if the internal LED light output degrades
5.
5.1. What are the output voltages before the input side power supply
5.2. How long does the ACPL-C78A/C780/C784 take to begin working
6.
6.1. How does the ACPL-C78A/C780/C784 measure negative signals
the input of the ACPL-C78A/C780/C784 can not be
damaged by sense resistors going open-circuit.
Isolation and insulation
The momentary (1 minute) withstand voltage is 5000
V rms per UL 1577 and CSA Component Acceptance
Notice #5.
Accuracy
Yes. Some noise energy exists beyond the 100 kHz
bandwidth of the ACPL-C78A/C780/C784. Additional
filtering using different filter R,C values in the post-am-
plifier application circuit can be used to improve the
signal to noise ratio. For example, by using values of R3
= R4 = 10 k:, C5 = C6 = 470 pF in the application circuit
the rms output noise will be cut roughly by a factor of
2. In applications needing only a few kHz bandwidth
even better noise performance can be obtained. The
noise spectral density is roughly 500 nV/sqrt(Hz) below
20 kHz (input referred).
with time?
No. The LED is used only to transmit a digital pattern.
Avago Technologies has accounted for LED degrada-
tion in the design of the product to ensure long life.
Power supplies and start-up
is turned on?
V
is equivalent to the output response at the condition
that LED is completely off.
properly after power-up?
Within 1 ms after V
starts to work. But it takes longer time for output to
settle down completely. In case of the offset mea-
surement while both inputs are tied to ground there
is initially V
completely settles down in 100 ms after device
powering up.
Miscellaneous
with only a +5 V supply?
The inputs have a series resistor for protection
against large negative inputs. Normal signals are no
more than 200 mV in amplitude. Such signals do not
forward bias any junctions sufficiently to interfere
with accurate operation of the switched capacitor
input circuit.
OUT+
is close to 1.29 V and V
OS
adjustment (about 60 ms). The output
DD1
and V
OUT–
DD2
is close to 3.80 V. This
powered the device

Related parts for ACPL-C78A-560E