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ADP1147AR-5 датащи(PDF) 11 Page - Analog Devices

номер детали ADP1147AR-5
подробное описание детали  High Efficiency Step-Down Switching Regulator Controllers
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ADP1147AR-5 датащи(HTML) 11 Page - Analog Devices

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ADP1147-3.3/ADP1147-5
–11–
REV. 0
To obtain optimum efficiency the required ESR value of COUT
is 100 m
Ω or less.
The circuit should also be evaluated with the minimum input
voltage. This is done to assure that the power dissipation and
junction temperature of the P-channel MOSFET are not ex-
ceeded. At lower input voltages the operating frequency of the
ADP1147 decreases. This causes the P-channel MOSFET to
remain in conduction for longer periods of time, resulting in
more power dissipation in the MOSFET.
The effects of VIN(MIN) can be evaluated if we assume the
following:
VIN(MIN) = 4.5 V
VOUT = 3.3 V
VD = 0.4 V
fMIN = (1/3.15
µs) × (1– (3.7/4.9)) = 78 kHz.
PD =
3.3(0.125
Ω)(1 A)2 (1.2625)
4.5
=116 mW
Troubleshooting Hints
Efficiency is the primary reason for choosing the ADP1147 for
use in an application, and it is critical to determine that all por-
tions of the circuit are functioning properly in all modes. After
the design is complete the voltage waveforms on the timing
capacitor, CT, at Pin 2 of the device, should be compared to the
waveforms in Figures 19a and 19b.
In the continuous mode of operation the dc voltage level of the
waveform on CT should never fall below the 2 V level and it
should have a 0.9 V peak-to-peak sawtooth on it (see Figure
19a).
In the Power Savings Mode the sawtooth waveform on CT will
decay to ground for extended periods of time (see Figure 19b).
During the time that the capacitor voltage is at ground the
ADP1147 is in the power savings or sleep mode and the qui-
escent current is reduced to 160
µA typical.
The ripple current in the inductor should also be monitored to
determine that it is approximately the same in both modes of
operation. With a higher output currents the voltage level on CT
should never decay to ground as this would indicate poor
grounding and or decoupling.
Printed Wire Board Layout Considerations
The PWB layout is extremely critical for proper circuit opera-
tion and the items listed below should be carefully considered
(see Figure 20)
1. The signal and power grounds should be separate from each
other. They should be tied together only at ground Pin 7 of
the ADP1147. The power ground should be tied to the an-
ode of the Schottky diode, and the (–) side of the CIN capaci-
tor. The connections should be made with traces that are as
wide and as short as possible. The signal ground should be
connected to the (–) side of capacitor COUT using the same
type of runs as above.
2. The sense(–) run to Pin 4 of the ADP1147 should be con-
nected directly to the junction point of RSENSE and the + side
of COUT.
3. The sense(–) and sense(+) traces should be routed together
with minimum track spacing and run lengths. The 1000 pF
filter capacitor across Pins 4 and 5 of the ADP1147 should
be located as close to the device as possible.
4. In order to supply sufficient ac current the (+) side of capaci-
tor CIN should be connected with wide short traces and must
be located as close to the source of the P-MOSFET as possible.
5. In order to supply high frequency peak currents the input
decoupling capacitors should range from 0.1
µF to 1.0 µF
and must be located as close to the VIN pin and the ground
Pin 7 as possible.
6. The shutdown Pin (6) is a high impedance input and it must
not be allowed to float. The normal mode of operation of the
device requires that this pin be pulled low.


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