ADP3408ACP-1.8 Просмотр технического описания (PDF) - Analog Devices
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ADP3408ACP-1.8 Datasheet PDF : 20 Pages
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ADP3408
NON-CHARGING
MODE
CHARGER
DETECTER
NO
CHRIN > BATSNS
YES
VBAT > UVLO
YES
NO
LOW CURRENT
CHARGE MODE
VSENSE = 20mV
NiMH
BATTERY
TYPE
Li+
CHGEN = LOW
CHGEN = HIGH
NiMH
CHARGING MODE
GATEIN = PULSED
HIGH CURRENT
CHARGE MODE
VSENSE = 160mV
NO
VBAT > 4.2V
NO
VBAT > 5.5V
YES
NiMH
CHARGER OFF
GATEIN = HIGH
YES
CONSTANT
VOLTAGE MODE
NO
ICHARGE < I END
OF CHARGE
NO
VBAT < 5.5V
YES
EOC = HIGH
YES
TERMINATE CHARGE
CHREN = HIGH
GATEIN = HIGH
Figure 5. Battery Charger Flow Chart
Digital Core LDO (VCORE)
The digital core LDO supplies the baseband circuitry in the hand-
set (baseband processor and baseband converter). The LDO has
been optimized for very low quiescent current at light loads, as this
LDO is on at all times.
Memory LDO (VMEM)
The memory LDO supplies the peripheral subsystems of the
baseband processor including GPIO, display, and SIM interfaces as
well as memory. The LDO has also been optimized for low quies-
cent current and will power up at the same time as the core LDO.
Analog LDO (VAN)
This LDO has the same features as the core LDO. It has further-
more been optimized for good low frequency ripple rejection for
use with the baseband converter sections in order to reject the
ripple coming from the RF power amplifier. VAN is rated to a
130 mA load, which is sufficient to supply the complete analog
section of the baseband converter, such as the AD652l.
TCXO LDO (VTCXO)
The TCXO LDO is intended as a supply for a temperature-
compensated crystal oscillator, which needs its own ultralow
noise supply. VTCXO is rated for 5 mA of output current and is
turned on along with the analog LDO when TCXOEN is asserted.
Note that for the ADP3408-2.5, the TCXO output has been
optimized for the AD6524 (Othello), while the ADP3408-1.8
has been optimized for the AD6534 (Othello One).
RTC LDO (VRTC)
The RTC LDO charges up a capacitor-type backup coin cell to
run the Real-Time Clock module. It has been designed to charge
electric double layer capacitors such as the PAS621 from Kanebo.
The PAS621 has a small physical size (6.8 mm diameter) and a
nominal capacity of 0.3 F, giving many hours of backup time.
The ADP3408 supplies current both for charging the coin cell
and for the RTC module. In addition, it features a very low
quiescent current since this LDO is running all the time, even
when the handset is switched off. It also has reverse current
protection with low leakage, which is needed when the main
battery is removed and the coin cell supplies the RTC module.
SIM LDO (VSIM)
The SIM LDO generates the voltage needed for 3 V SIMs. It is
rated for 20 mA of supply current and can be controlled com-
pletely independently of the other LDOs.
Reference Output (REFOUT)
The reference output is a low noise, high precision reference with
a guaranteed accuracy of 1.5% over temperature. The reference
can be used with the baseband converter. Note that the reference
in the AD6521 has an initial accuracy of 10%, but can be
calibrated to within 1%.
Power ON/OFF
The ADP3408 handles all issues regarding the powering ON
and OFF of the handset. It is possible to turn on the ADP3408
in three different ways:
• Pulling the PWRONKEY Low
• Pulling PWRONIN High
• CHRIN exceeds CHRDET Threshold
Pulling the PWRONKEY low is the normal way of turning on the
handset. This will turn on all the LDOs , except the SIM LDO, as
long as the PWRONKEY is held low. When the VCORE LDO
comes into regulation, the RESET timer is started. After timing
out, the RESET pin goes high, allowing the baseband processor
to start up. With the baseband processor running, it can poll the
ROWX pin of the ADP3408 to determine if the PWRONKEY has
been depressed and pull PWRONIN high. Once the PWRONIN
is taken high, the PWRONKEY can be released. Note that by
monitoring the ROWX pin, the baseband processor can detect a
second PWRONKEY press and turn the LDOs off in an orderly
manner. In this way, the PWRONKEY can be used for ON/
OFF control.
Pulling the PWRONIN pin high is how the alarm in the Real-Time
Clock module will turn the handset on. Asserting PWRONIN
will turn on the core and memory LDOs, starting up the
baseband processor.
–14–
REV. A
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