Datasheet
LTC3577/LTC3577-1
46
3577fa
OPERATION
Power-Down via Pushbutton Timing
The timing diagram, Figure 22, shows the LTC3577
powering down by C/P control. For this example the
pushbutton circuitry starts in the PON state with a bat-
tery connected and all bucks enabled. In this case the
pushbutton is applied (ON low) for at least 50ms, which
generates a low impedance on the PBSTAT output. After
receiving the PBSTAT the C/P will drive the PWR_ON
input low. 50ms after PWR_ON goes low the WAKE
output will go low and the pushbutton circuitry will enter
the PDN2 state. The bucks are disabled together at once
upon entering the PDN2 state. Once entering the PDN2
state a 1 second wait time is initiated before entering the
POFF state. During this 1 second time ON and PWR_ON
inputs as well as external power application are ignored
to allow all LTC3577 generated supplies to go low. Though
the above assumes a battery present, the same operation
would take place with a valid external supply (V
BUS
or
WALL) with or without a battery present.
Upon entering the PDN2 state the LDOs and LED backlight
I
2
C registers are cleared effectively disabling both. If this
is not desirable the LDOs and LED backlight should be
disabled via I
2
C prior to entering the PDN2 state.
Holding ON low through the 1 second power-down period
will not cause a power-up event at end of the 1 second
period. The ON input must be brought high following the
power-down event and then go low again to establish a
valid power-up event.
UVLO Minimum Off-Time Timing (Low Battery)
The timing diagram, Figure 23, assumes the battery is either
missing or at a voltage below the V
OUT
UVLO threshold
and the application is running via external power (V
BUS
or WALL). A glitch on the external supply causes V
OUT
to drop below the V
OUT
UVLO threshold temporarily. The
V
OUT
UVLO condition will cause the pushbutton circuitry
to transition from the PON state to the PDN2 state. Upon
entering the PDN2 state WAKE and PG_DCDC will go low
while the bucks, LDOs and LED backlight power down
together. If the external supply recovers after entering the
PND2 state such that V
OUT
is no longer in UVLO then the
LTC3577 will transition back into the PUP2 state once the
PDN2 one second delay is complete. Though not shown
in Figure 23, the pushbutton logic briefl y visits the POFF
state when transitioning between PDN2 and PUP2. Enter-
ing the PUP2 state will cause the bucks to sequence up as
described previously in the power-up sections. The LDOs
and LED backlight must be re-enabled via I
2
C once device
is powered back up.
PBSTAT
PWR_ON
WAKE
BUCKS
PG_DCDC
STATE
PON PDN2 PUP2 PON
V
BUS/WALL
BAT
ON (PB)
3577 F23
1SEC
BUCKS SEQUENCE UP
1 2 3
230ms
5SEC
Figure 23. UVLO Minimum Off-Time
Figure 22. Power-Down via Pushbutton Timing
PBSTAT
PWR_ON
WAKE
BUCK1-3
PG_DCDC
STATE
PON PDN2 POFF
V
BUS/WALL
BAT
ON (PB)
3577 F22
1SEC
50ms
µC/µP CONTROL
50ms
ALL BUCKS LOW