ADR435 AD [Analog Devices], ADR435 Datasheet - Page 43
ADR435
Manufacturer Part Number
ADR435
Description
Quad-Channel, 12-Bit, Serial Input, 4 mA to 20 mA Output
Manufacturer
AD [Analog Devices]
Datasheet
1.ADR435.pdf
(48 pages)
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Data Sheet
DC-to-DC Converter External Schottky Diode Selection
The
operation. Ensure that the Schottky diode is rated to handle the
maximum reverse breakdown voltage expected in operation
and that the maximum junction temperature of the diode is not
exceeded. The average current of the diode is approximately
equal to the I
drops result in a decrease in efficiency.
DC-to-DC Converter Compensation Capacitors
Because the dc-to-dc converter operates in discontinuous conduc-
tion mode, the uncompensated transfer function is essentially a
single-pole transfer function. The pole frequency of the transfer
function is determined by the output capacitance, input and output
voltage, and output load of the dc-to-dc converter. The
uses an external capacitor in conjunction with an internal 150 kΩ
resistor to compensate the regulator loop.
Alternatively, an external compensation resistor can be used in
series with the compensation capacitor by setting the DC-DC
comp bit in the dc-to-dc control register (see Table 28). In this
case, a resistor of ~50 kΩ is recommended. The advantages of this
configuration are described in the AI
Slewing section. For typical applications, a 10 nF dc-to-dc com-
pensation capacitor is recommended.
DC-to-DC Converter Input and Output Capacitor
Selection
The output capacitor affects the ripple voltage of the dc-to-dc
converter and indirectly limits the maximum slew rate at which
the channel output current can rise. The ripple voltage is caused
by a combination of the capacitance and the equivalent series
resistance (ESR) of the capacitor. For typical applications, a
ceramic capacitor of 4.7 µF is recommended. Larger capacitors
or parallel capacitors improve the ripple at the expense of
reduced slew rate. Larger capacitors also affect the current
requirements of the AV
Supply Requirements—Slewing section). The capacitance at
the output of the dc-to-dc converter should be >3 µF under all
operating conditions.
The input capacitor provides much of the dynamic current
required for the dc-to-dc converter and should be a low ESR
component. For the AD5735, a low ESR tantalum or ceramic
capacitor of 10 µF is recommended for typical applications.
Ceramic capacitors must be chosen carefully because they can
exhibit a large sensitivity to dc bias voltages and temperature.
X5R or X7R dielectrics are preferred because these capacitors
remain stable over wider operating voltage and temperature
ranges. Care must be taken if selecting a tantalum capacitor to
ensure a low ESR value.
AD5735
LOAD
requires an external Schottky diode for correct
current. Diodes with larger forward voltage
CC
supply while slewing (see the AI
CC
Supply Requirements—
AD5735
CC
Rev. B | Page 43 of 48
AI
The dc-to-dc converter is designed to supply a V
See Figure 51 for a plot of headroom supplied vs. output
current. Therefore, for a fixed load and output voltage, the
output current of the dc-to-dc converter can be calculated
by the following formula:
where:
I
η
and Figure 54).
AI
The AI
static operation because the output power increases to charge
the output capacitance of the dc-to-dc converter. This transient
current can be quite large (see Figure 79), although the methods
described in the Reducing AI
can reduce the requirements on the AV
If not enough AI
drops. Due to this AV
slewing increases further, causing the voltage at AV
further (see Equation 3). In this case, the V
therefore, the output voltage, may never reach their intended
values. Because the AV
voltage drop may also affect other channels.
OUT
V
BOOST
CC
CC
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
is the output current from I
V
Figure 79. AI
0
SUPPLY REQUIREMENTS—STATIC
AI
SUPPLY REQUIREMENTS—SLEWING
0
BOOST_x
CC
is the efficiency at V
CC
current requirement while slewing is greater than in
=
= I
Efficiency
0.5
CC
OUT
Power
CC
Current vs. Time for 24 mA Step Through 1 kΩ Load
with Internal Compensation Resistor
AI
I
V
OUT
BOOST
× R
current can be provided, the AV
CC
CC
LOAD
CC
×
Out
drop, the AI
1.0
AV
voltage is common to all channels, this
INDUCTOR = 10µH (XAL4040-103)
TIME (ms)
+ Headroom
BOOST_x
CC
CC
=
OUT_x
Current Requirements section
η
1.5
I
as a fraction (see Figure 53
0mA TO 24mA RANGE
OUT
V
BOOST
CC
in amperes.
current required for
×
CC
×
V
supply.
f
AV
BOOST
BOOST_x
SW
2.0
1kΩ LOAD
T
= 410kHz
CC
A
= 25°C
BOOST_x
voltage and,
CC
CC
AD5735
to drop
2.5
voltage of
voltage
30
25
20
15
10
5
0
(2)
(3)
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