ADUM5242ARZ Analog Devices Inc, ADUM5242ARZ Datasheet - Page 11
ADUM5242ARZ
Manufacturer Part Number
ADUM5242ARZ
Description
IC ISOLATOR 2CH W/CONV 8-SOIC
Manufacturer
Analog Devices Inc
Series
IsoPower®, iCoupler®r
Datasheet
1.ADUM5242ARZ-RL7.pdf
(16 pages)
Specifications of ADUM5242ARZ
Propagation Delay
70ns
Inputs - Side 1/side 2
0/2
Number Of Channels
2
Isolation Rating
2500Vrms
Voltage - Supply
3.35V, 4.1V, 5V
Data Rate
1Mbps
Output Type
Logic
Package / Case
8-SOIC (3.9mm Width)
Operating Temperature
-40°C ~ 105°C
No. Of Channels
2
Supply Current
140mA
Supply Voltage Range
2.7V To 4V, 4.5V To 5.5V
Digital Ic Case Style
SOIC
No. Of Pins
8
Operating Temperature Range
-40°C To
Package
8SOIC N
Operating Temperature (min)
-40C
Operating Temperature Classification
Industrial
Operating Temperature (max)
105C
Package Type
SOIC N
Rad Hardened
No
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Available stocks
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APPLICATION INFORMATION
DC-TO-DC CONVERTER
The dc-to-dc converter section of the ADuM524x works on
principles that are common to most modern power supply
designs. V
switches current into a chip-scale air core transformer. Power is
transferred to the secondary side where it is rectified to a high
dc voltage. The power is then linearly regulated down to about
5.2 V and supplied to the secondary side data section and to the
V
small power section compatible with the 8-lead SOIC packaging
of this device. Active feedback was not implemented in this
version of isoPower for reasons of size and cost.
Because the oscillator runs at a constant high frequency inde-
pendent of the load, excess power is internally dissipated in the
output voltage regulation process. Limited space for transformer
coils and components also adds to internal power dissipation.
This results in low power conversion efficiency, especially at low
load currents.
The load characteristic curve in Figure 8 shows that the V
current is typically 80 mA with no V
V
Alternate supply architectures are possible using this technology.
Addition of a digital feedback path allows regulation of power
on the primary side. Feedback would allow significantly higher
power, efficiency, and synchronization of multiple supplies at
the expense of size and cost. Future implementations of
isoPower includes feedback to achieve these performance
improvements.
The ADuM524x can be operated with the internal dc-to-dc
enabled or disabled. With the internal dc-to-dc converter
enabled, the isolated supply of Pin 8 provides the output power
as well as power to the secondary-side circuitry of the part.
The internal dc-to-dc converter state of the ADuM524x is
controlled by the input V
normal operating mode, V
the internal dc-to-dc converter is enabled. When/if it is desired
to disable the dc-to-dc converter, V
between 2.7 V and 4.0 V. In this mode, V
externally by the user and the signal channels of the ADuM524x
continue to operate normally.
There is hysteresis into the V
Once the dc-to-dc converter is active, the input voltage must be
decreased below the turn-on threshold to disable the converter.
This feature ensures that the converter does not go into
oscillation due to noisy input power.
ISO
ISO
pin for external use. This design allows for a physically
load at the V
DD
power is supplied to an oscillating circuit that
DD
supply pin.
DD
DD
voltage, as defined in Table 6. In
DD
is set between 4.5 V and 5.5 V and
input voltage detect circuit.
DD
ISO
is lowered to a value
load and 110 mA at full
ISO
power is supplied
DD
Rev. A | Page 11 of 16
PROPAGATION DELAY-RELATED PARAMETERS
Propagation delay is a parameter that describes the time it takes
a logic signal to propagate through a component. The propagation
delay to a logic low output may differ from the propagation
delay to a logic high.
Pulse width distortion is the maximum difference between
these two propagation delay values and is an indication of how
accurately the timing of the input signal is preserved.
Channel-to-channel matching refers to the maximum amount
the propagation delay differs between channels within a single
ADuM524x component.
Propagation delay skew refers to the maximum amount the
propagation delay differs between multiple ADuM524x
components operating under the same conditions.
DC CORRECTNESS AND MAGNETIC FIELD
IMMUNITY
Positive and negative logic transitions at the isolator input cause
narrow (~1 ns) pulses to be sent to the decoder via the transformer.
The decoder is bistable and is, therefore, either set or reset by
the pulses, indicating input logic transitions. In the absence of
logic transitions at the input for more than 1 μs, a periodic set
of refresh pulses indicative of the correct input state are sent to
ensure dc correctness at the output. If the decoder receives no
internal pulses of more than about 5 μs, the input side is assumed
to be unpowered or nonfunctional, in which case the isolator
output is forced to a default state (see Table 12 through Table 14) by
the watchdog timer circuit.
The limitation on the magnetic field immunity of the ADuM524x
is set by the condition in which induced voltage in the receiving
coil of the transformer is sufficiently large to either falsely set or
reset the decoder. The following analysis defines the conditions
under which this may occur. The 3 V operating condition of the
ADuM524x is examined because it represents the most susceptible
mode of operation.
The pulses at the transformer output have an amplitude greater
than 1.0 V. The decoder has a sensing threshold at about 0.5 V, thus
establishing a 0.5 V margin in which induced voltages can be
tolerated. The voltage induced across the receiving coil is given by
where:
β is magnetic flux density (gauss).
N is the number of turns in the receiving coil.
r
INPUT (V
OUTPUT (V
n
is the radius of the n
V = (−dβ/dt)Σπr
Ix
)
Ox
ADuM5240/ADuM5241/ADuM5242
)
Figure 12. Propagation Delay Parameters
n
t
2
PLH
th
; n = 1, 2, … , N
turn in the receiving coil (cm).
t
PHL
50%
50%
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