AIC1620 Datasheet, PDF(9/12 Page) Analog Intergrations Corporation – High Efficiency Synchronous Step-Up DC/DC Converter

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AIC1620 Datasheet, PDF (9/12 Pages) Analog Intergrations Corporation – High Efficiency Synchronous Step-Up DC/DC Converter

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AIC1620/AIC1621/AIC1622

Synchronous Rectification

Using the internal synchronous rectifier eliminates the

need for an external Schottky diode. Therefore, the

cost and board space is reduced. During the cycle of

off-time, the P-MOSFET turns on and shunts the N-

MOSFET. Due to the low turn-on

resistance of MOSFET, the synchronous rectifier sig-

nificantly improves efficiency without the addition of

an external component. Thus, the conversion efficien-

cy can be as high as 93%.

Reference Voltage

The reference voltage (REF) is nominally 1.23V for

excellent T.C. performance. In addition, REF pin can

source up to 100ÂµA to external circuit with good load

regulation (<10mV). A bypass capacitor of 0.1ÂµF is

required for proper operation and good performance

Shutdown

The whole circuit is shutdown when VSHDN is low.

During shutdown mode, the current can flow from the

battery to the output due to body diode of the P-

MOSFET. VOUT falls to approximately Vin-0.6V and

LX remains high impedance. The capacitance and

load at OUT determine the rate at which VOUT decays.

Shutdown can be pulled as high as 6V. Regardless of

the voltage at OUT.

Current Limit Select Pin

The AIC1622 series allows a selectable inductor cur-

rent limit of either 0.45A or 0.8A. This allows flexibility

in designing for higher current or smaller applications.

CLSEL draws 1.4ÂµA when connected to OUT.

BATT/Damping Switch

The AIC1622 is designed with an internal damping

switch (Fig. 15) to reduce ringing at LX. The damping

switch supply a path to quickly dissipate the energy

stored in inductor and reduces the ringing at LX.

Damping LX ringing dose not reduce VOUT ripple, but

dose reduce EMI. R1=200â¦ works well for most ap-

plication while reducing efficiency by only 1%. Larger

R1 value provide less damping, but less impact on ef-

ficiency. In principle, lower value of R1 is needed to

fully damp LX when the VOUT /VIN ratio is high.

Selecting the Output Voltage

VOUT can be simply set to 3.3V by connecting the FB

pin to OUT due to internal resistor divider (Fig. 16). In

order to adjust the output voltage, a resistor divider is

connected to VOUT, FB, GND (Fig. 17). Use the fol-

lowing equation to calculate:

R5=R6 [(VOUT / VREF )-1]

Where VREF =1.23V and VOUT may range from 1.8V to

4V.

Low-Battery Detection

The AIC1620 series contain an on-chip comparator

with 50mV internal hysteresis (REF, REF+50mV) for

low battery detection. If the voltage at LBI falls below

the internal reference voltage. LBO ( an open-drain

output) sinks current to GND.

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