ADUM1301ARWZ Analog Devices Inc, ADUM1301ARWZ Datasheet - Page 16

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ADUM1301ARWZ

Manufacturer Part Number
ADUM1301ARWZ
Description
IC DIGITAL ISOLATOR 3CH 16-SOIC
Manufacturer
Analog Devices Inc
Series
iCoupler®r
Datasheet

Specifications of ADUM1301ARWZ

Propagation Delay
65ns
Inputs - Side 1/side 2
2/1
Number Of Channels
3
Isolation Rating
2500Vrms
Voltage - Supply
2.7 V ~ 5.5 V
Data Rate
1Mbps
Output Type
Logic
Package / Case
16-SOIC (0.300", 7.5mm Width)
Operating Temperature
-40°C ~ 105°C
No. Of Channels
3
Supply Current
1.6mA
Supply Voltage Range
2.7V To 5.5V
Digital Ic Case Style
SOIC
No. Of Pins
16
Operating Temperature Range
-40°C To +105°C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant

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ADuM1300/ADuM1301
Parameter
1
2
3
4
5
6
7
8
9
supply current associated with an individual channel operating at a given data rate may be calculated as described in the
Figure 8
supply currents as a function of data rate for ADUM1300W/ADUM1301W channel configurations.
All voltages are relative to their respective ground.
The supply current values are for all three channels combined when running at identical data rates. Output supply current values are specified with no output load present. The
The minimum pulse width is the shortest pulse width at which the specified pulse width distortion is guaranteed.
The maximum data rate is the fastest data rate at which the specified pulse width distortion is guaranteed.
t
t
recommended operating conditions.
Codirectional channel-to-channel matching is the absolute value of the difference in propagation delays between any two channels with inputs on the same side of the isolation
barrier. Opposing-directional channel-to-channel matching is the absolute value of the difference in propagation delays between any two channels with inputs on opposing
sides of the isolation barrier.
CM
sustained while maintaining V
range over which the common mode is slewed.
Dynamic supply current is the incremental amount of supply current required for a 1 Mbps increase in signal data rate. See Fi
per-channel supply current for unloaded and loaded conditions. See the P
given data rate.
from the 50% level of the rising edge of the V
PHL
PSK
For All Models
is the magnitude of the worst-case difference in t
H
propagation delay is measured from the 50% level of the falling edge of the V
Output Disable Propagation Delay (High/Low
Output Enable Propagation Delay (High
Output Rise/Fall Time (10% to 90%)
Common-Mode Transient Immunity at
Common-Mode Transient Immunity at
Refresh Rate
Input Dynamic Supply Current per Channel
Output Dynamic Supply Current per Channel
is the maximum common-mode voltage slew rate that can be sustained while maintaining V
Logic High Output
Logic Low Output
to High Impedance)
Impedance to High/Low)
for information on per-channel supply current as a function of data rate for unloaded and loaded conditions. See
7
O
8
< 0.8 V. The common-mode voltage slew rates apply to both rising and falling common-mode voltage edges. The transient magnitude is the
Ix
signal to the 50% level of the rising edge of the V
PHL
or t
8
9
PLH
that is measured between units at the same operating temperature, supply voltages, and output load within the
Symbol
t
t
t
|CM
|CM
f
I
I
DDI (D)
DDO (D)
r
PHZ
PZH
R
/t
, t
, t
F
H
L
|
|
PLH
PZL
ower Consumption
Rev. H | Page 16 of 28
Ix
signal to the 50% level of the falling edge of the V
Min
25
25
Ox
section for guidance on calculating the per-channel supply current for a
signal.
O
> 0.8 V
Typ
6
6
3.0
35
35
1.2
0.19
0.03
DD2
. CM
L
is the maximum common-mode voltage slew rate that can be
Max Unit
8
8
Power Consumption
Figure 9
gure 6
mA/Mbps
mA/Mbps
ns
ns
ns
kV/μs
kV/μs
Mbps
through
Ox
through
signal. t
Figure 12
Test Conditions
C
C
C
V
transient magnitude = 800 V
V
transient magnitude = 800 V
Figure 8
PLH
L
L
L
Ix
Ix
= 15 pF, CMOS signal levels
= 15 pF, CMOS signal levels
= 15 pF, CMOS signal levels
section. See
= V
= 0 V, V
propagation delay is measured
DD1
for information on
for total V
/V
CM
DD2
= 1000 V,
Figure 6
, V
CM
DD1
= 1000 V,
and V
through
DD2

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