ADP3401 Analog Devices, ADP3401 Datasheet - Page 12

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ADP3401

Manufacturer Part Number
ADP3401
Description
GSM Power Management System
Manufacturer
Analog Devices
Datasheet

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ADP3401
For the lowest ripple and best efficiency, use a 0.1 F, ceramic
capacitor for the charge pump flying capacitor (CAP+ and CAP–).
A good quality dielectric, such as X7R is recommended.
Setting the Charger Turn-On Threshold
The ADP3401 can be turned on when the charger input exceeds
a programmable threshold voltage. The charger’s threshold and
hysteresis are set by selecting the values for R1 and R2 shown in
Figure 15.
The turn-on threshold for the charger is calculated using:
Where V
CHRON hysteresis resistance.
The hysteresis is determined using:
Combining the above equations and solving for R1 and R2 gives
the following formulas:
T
is the CHRON threshold voltage and R
V
CHR
R
2
V
R
V
R
R
HYS
1
V
CHR
2
2
T
R
R
R
V
R
HYS
R
T
HYS
HYS
1
V
1
HYS
0.0374 (0.95)
0.0335 (0.85)
0.006 (0.15)
0.002 (0.05)
T
PIN 1
R
V
HYS
R
R
HYS
HYS
R
28
1
1
1
0.0256
(0.65)
BSC
28-Lead Thin Shrink Small Outline (TSSOP)
1
R
1
V
0.386 (9.80)
0.378 (9.60)
0.0118 (0.30)
0.0075 (0.19)
T
HYS
Dimensions shown in inches and (mm).
OUTLINE DIMENSIONS
is the
SEATING
PLANE
(RU-28A)
0.0433 (1.10)
14
15
–12–
MAX
0.244 (6.20)
0.236 (6.00)
0.0078 (0.200)
0.0035 (0.090)
Example: R1 = 10 k and R2 = 30.2 k gives a charger thresh-
old (not counting the drop in the power Schottky diode) of
3.5 V
Charger Diode Selection
The diode shown in Figure 15 is used to prevent the battery from
discharging into the charger turn-on setting resistors, R1 and R2.
A Schottky diode is recommended to minimize the voltage differ-
ence from the charger to the battery and the power dissipation.
Choose a diode with a current rating high enough to handle both
the battery charging current and the current the ADP3401 will
draw if powered up during charging. The battery charging current
is dependent on the battery chemistry and the charger circuit.
The ADP3401 current will be dependent on the loading.
Printed Circuit Board Layout Considerations
Use the following general guidelines when designing printed
circuit boards:
1. Split the battery connection to the VBAT and SIMBAT
2. SIM input and output capacitors should be returned to the
3. VCCA and VTCXO capacitors should be returned to AGND.
4. VCC and VRTC capacitors should be returned to DGND.
5. Split the ground connections. Use separate traces or planes
pins of the ADP3401. Use separate traces for each connection
and locate the input capacitors as close to the pins as possible.
SIMGND and kept as close as possible to the ADP3401 to
minimize noise. Traces to the SIM charge pump capacitor
should be kept as short as possible to minimize noise.
for the analog, digital, and power grounds, and tie them
together at a single point, preferably close to the battery return.
0.325 (8.25)
0.313 (7.95)
160 mV with a 200 mV
8
0
0.030 (0.75)
0.020 (0.50)
30 mV hysteresis.
REV. 0

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