Datasheet
LTC3588-1
8
35881fa
The LTC3588-1 is an ultralow quiescent current power
supply designed specifi cally for energy harvesting and/or
low current step-down applications. The part is designed to
interface directly to a piezoelectric or alternative A/C power
source, rectify a voltage waveform and store harvested
energy on an external capacitor, bleed off any excess power
via an internal shunt regulator, and maintain a regulated
output voltage by means of a nanopower high effi ciency
synchronous buck regulator.
Internal Bridge Rectifi er
The LTC3588-1 has an internal full-wave bridge rectifi er
accessible via the differential PZ1 and PZ2 inputs that
rectifi es AC inputs such as those from a piezoelectric
element. The rectifi ed output is stored on a capacitor at
the V
IN
pin and can be used as an energy reservoir for the
buck converter. The low-loss bridge rectifi er has a total
drop of about 400mV with typical piezo generated currents
(~10µA). The bridge is capable of carrying up to 50mA.
One side of the bridge can be operated as a single-ended
DC input. PZ1 and PZ2 should never be shorted together
when the bridge is in use.
Undervoltage Lockout (UVLO)
When the voltage on V
IN
rises above the UVLO rising
threshold the buck converter is enabled and charge is
transferred from the input capacitor to the output capacitor.
A wide (~1V) UVLO hysteresis window is employed
with a lower threshold approximately 300mV above the
selected regulated output voltage to prevent short cycling
during buck power-up. When the input capacitor voltage
is depleted below the UVLO falling threshold the buck
converter is disabled. Extremely low quiescent current
(450nA typical) in UVLO allows energy to accumulate on
the input capacitor in situations where energy must be
harvested from low power sources.
Internal Rail Generation
Two internal rails, CAP and V
IN2
, are generated from V
IN
and
are used to drive the high side PMOS and low side NMOS
of the buck converter, respectively. Additionally the V
IN2
rail serves as logic high for output voltage select bits D0
and D1. The V
IN2
rail is regulated at 4.8V above GND while
the CAP rail is regulated at 4.8V below V
IN
. These are not
intended to be used as external rails. Bypass capacitors
are connected to the CAP and V
IN2
pins to serve as energy
reservoirs for driving the buck switches. When V
IN
is below
4.8V, V
IN2
is equal to V
IN
and CAP is held at GND. Figure 1
shows the ideal V
IN
, V
IN2
and CAP relationship.
Figure 1. Ideal V
IN
, V
IN2
and CAP Relationship
V
IN
(V)
0
VOLTAGE (V)
18
12
14
16
10
2
4
8
6
0
105
35881 F01
15
V
IN
V
IN2
CAP
OPERATION
Buck Operation
The buck regulator uses a hysteretic voltage algorithm
to control the output through internal feedback from the
V
OUT
sense pin. The buck converter charges an output
capacitor through an inductor to a value slightly higher than
the regulation point. It does this by ramping the inductor
current up to 260mA through an internal PMOS switch
and then ramping it down to 0mA through an internal
NMOS switch. This effi ciently delivers energy to the output
capacitor. The ramp rate is determined by V
IN
, V
OUT
, and
the inductor value. If the input voltage falls below the