Datasheet
ADP5033 Data Sheet
Rev. F | Page 16 of 28
Undervoltage Lockout
To protect against battery discharge, undervoltage lockout (UVLO)
circuitry is integrated in the system. If the input voltage on VIN1
drops below a typical 2.15 V UVLO threshold, all channels shut
down. In the buck channels, both the power switch and the
synchronous rectifier turn off. When the voltage on VIN1 rises
above the UVLO threshold, the part is enabled once more.
Alternatively, the user can request a new device model with a
UVLO set at a higher level, suitable for 5 V supply applications.
For these models, the device reaches the turn-off threshold when
the input supply drops to 3.65 V typical. To order a device with
options other than the default options listed in the Ordering
Guide section, contact your local Analog Devices, Inc., sales or
distribution representative.
In case of a thermal or UVLO event, the active pull-down resistors
(if factory enabled) are enabled to discharge the output capacitors
quickly. The pull-down resistors remain engaged until the
thermal fault event is no longer present or the input supply
voltage falls below the V
POR
voltage level. The typical value of
V
POR
is approximately 1 V.
Enable/Shutdown
The ADP5033 has two enable pins (ENA and ENB). A high
level applied to the enable pins enables a certain selection of
regulators defined by factory programming. For example, the
ADP5033 can be factory programmed to enable BUCK1 and
LDO2 with ENA and BUCK2 and LDO1 with ENB. When both
enables are low, all regulators are turned off. When both enable
pins are high, all regulators are turned on. All possible regulator
combinations can be factory programmed to operate with the
ENA and ENB pins.
Figure 44 shows the regulator activation timings for the ADP5033
when both enables are connected to VINx. Figure 44 also shows
the active pull-down activation.
BUCK1 AND BUCK2
The two bucks use a fixed frequency and high speed current
mode architecture. The bucks operate with an input voltage of
2.3 V to 5.5 V.
Control Scheme
The bucks operate with a fixed frequency, current mode PWM
control architecture at medium to high loads for high efficiency
but shift to a PSM control scheme at light loads to lower the
regulation power losses. When operating in fixed frequency
PWM mode, the duty cycle of the integrated switches is adjusted
and regulates the output voltage. When operating in PSM at
light loads, the output voltage is controlled in a hysteretic
manner, with higher output voltage ripple. During part of this
time, the converter is able to stop switching and enters an idle
mode, which improves conversion efficiency.
PWM Mode
In PWM mode, the bucks operate at a fixed frequency of 3 MHz
set by an internal oscillator. At the start of each oscillator cycle,
the PFET switch is turned on, sending a positive voltage across
the inductor. Current in the inductor increases until the current
sense signal crosses the peak inductor current threshold that
turns off the PFET switch and turns on the NFET synchronous
rectifier. This sends a negative voltage across the inductor,
causing the inductor current to decrease. The synchronous
rectifier stays on for the rest of the cycle. The buck regulates the
output voltage by adjusting the peak inductor current threshold.
VIN1
VOUT3
VOUT4
VOUT1
VUVLO
VOUT2
VPOR
BUCK2
PULL-DOWN
BUCK1, LDO1, LDO2
PULL-DOWNS
50µs (MIN)
30µs (MIN)
50µs (MIN)
30µs (MIN)
09788-148
Figure 44. Regulators Sequencing on the ADP5033 (ENx = VINx)