LTC3330_15 Datasheet, PDF(16/32 Page) Linear Technology – Nanopower Buck-Boost DC/DC with Energy Harvesting Battery Life Extender

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LTC3330_15 Datasheet, PDF (16/32 Pages) Linear Technology – Nanopower Buck-Boost DC/DC with Energy Harvesting Battery Life Extender

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LTC3330

OPERATION

OVERVIEW

The LTC3330 combines a buck switching regulator and

a buck-boost switching regulator to produce an energy

harvesting solution with battery backup. The converters are

controlled by a prioritizer that selects which converter to

use based on the availability of a battery and/or harvestable

energy. If harvested energy is available the buck regula-

tor is active and the buck-boost is OFF. With an optional

LDO and supercapacitor balancer and an array of different

configurations the LTC3330 suits many applications.

BUCK CONVERTER

The synchronous buck converter is an ultralow quiescent

current power supply tailored to energy harvesting applica-

tions. It is designed to interface directly to a piezoelectric

or alternative A/C power source, rectify the input voltage,

and store harvested energy on an external capacitor while

maintaining a regulated output voltage. It can also bleed

off any excess input power via an internal protective shunt

regulator.

INTERNAL BRIDGE RECTIFIER

An internal full-wave bridge rectifier accessible via the dif-

ferential AC1 and AC2 inputs rectifies AC sources such as

those from a piezoelectric element. The rectified output is

stored on a capacitor at the VIN pin and can be used as an

energy reservoir for the buck converter. The bridge rectifier

has a total drop of about 800mV at typical piezo-generated

currents (~10Î¼A), but is capable of carrying up to 50mA.

Either side of the bridge can be operated independently

as a single-ended AC or DC input.

BUCK UNDERVOLTAGE LOCKOUT (UVLO)

When the voltage on VIN rises above the UVLO rising

threshold the buck converter is enabled and charge is

transferred from the input capacitor to the output capaci-

tor. When the input capacitor voltage is depleted below

the UVLO falling threshold the buck converter is disabled.

These thresholds can be set according to Table 4 which

offers UVLO rising thresholds from 4V to 18V with large

or small hysteresis windows. This allows for program-

ming of the UVLO window near the peak power point of

the input source. 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 (CAP, VIN2, VIN3)

Two internal rails, CAP and VIN2, are generated from VIN

and are used to drive the high side PMOS and low side

NMOS of the buck converter, respectively. Additionally the

VIN2 rail serves as logic high for the UVLO threshold select

bits UV[3:0]. The VIN2 rail is regulated at 4.8V above GND

while the CAP rail is regulated at 4.8V below VIN. These are

not intended to be used as external rails. Bypass capaci-

tors are connected to the CAP and VIN2 pins to serve as

energy reservoirs for driving the buck switches. When VIN

is below 4.8V, VIN2 is equal to VIN and CAP is held at GND.

Figure 1 shows the ideal VIN, VIN2 and CAP relationship.

VIN

VIN2

CAP

VIN (V)

3330 F01

Figure 1. Ideal VIN, VIN2 and CAP Relationship

VIN3 is an internal rail used by the buck and the buck-boost.

When the LTC3330 runs the buck VIN3 will be a Schottky

diode drop below VIN2. When it runs the buck-boost VIN3

is equal to BAT.

BUCK OPERATION

The buck regulator uses a hysteretic voltage algorithm

to control the output through internal feedback from the

VOUT 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 IPEAK_BUCK through an internal

3330fb

For more information www.linear.com/LTC3330

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