ADuM5230 Data Sheet
Rev. C | Page 4 of 15
Parameter Symbol Min Typ Max Unit Test Conditions/Comments
Part to Part Matching, Rising or Falling Edges
7
55 ns C
L
= 200 pF
Part to Part Matching, Rising vs. Falling Edges
8
63 ns C
L
= 200 pF
Common-Mode Transient Immunity at
Logic High Output
|CM
H
| 25 35 kV/µs V
Ix
= V
DD1
, V
CM
= 1000 V,
transient magnitude = 800 V
Common-Mode Transient Immunity at
Logic Low Output
|CM
L
| 25 35 kV/µs V
Ix
= 0 V, V
CM
= 1000 V,
transient magnitude = 800 V
Output Rise Time (10% to 90%) t
R
25 ns C
L
= 200 pF, I
ISO
= 10 mA,
100 kHz switching frequency
Output Fall Time (10% to 90%) t
F
10 ns C
L
= 200 pF, I
ISO
= 10 mA,
100 kHz switching frequency
1
Short-circuit duration is less than 1 sec. Average output current must conform to the limit shown under the Absolute Maximum Ratings section.
2
The minimum pulse width is the shortest pulse width at which the specified timing parameters are guaranteed. Operation below the minimum pulse width is strongly
discouraged because in some instances pulse stretching to 1 µs may occur.
3
The maximum switching frequency is the maximum signal frequency at which the specified timing and power conversion parameters are guaranteed. Operation
above the maximum frequency is strongly discouraged.
4
t
PHL
propagation delay is measured from the 50% level of the falling edge of the V
Ix
signal to the 50% level of the falling edge of the V
Ox
signal. t
PLH
propagation delay is
measured from the 50% level of the rising edge of the V
Ix
signal to the 50% level of the rising edge of the V
Ox
signal.
5
In channel-to-channel matching, the rising or falling matching edge polarity is the magnitude of the propagation delay difference between two channels of the same
part when both inputs are either both rising or falling edges. The loads on each channel are equal.
6
In channel-to-channel matching, the rising vs. falling opposite edge polarity is the magnitude of the propagation delay difference between two channels of the same
part when one input is a rising edge and one input is a falling edge. The loads on each channel are equal.
7
Part-to-part matching, rising or falling edges, is the magnitude of the propagation delay difference between the same channels of two different parts when the inputs
are either both rising or falling edges. The supply voltages, temperatures, and loads of each part are equal.
8
Part-to-part matching, rising vs. falling edges, is the magnitude of the propagation delay difference between the same channels of two different parts when one input
is a rising edge and the other input is a falling edge. The supply voltages, temperatures, and loads of each part are equal.