HWD20011 Datasheet, PDF(10/13 Page) List of Unclassifed Manufacturers – High-Efficiency, Low-Supply-Current, Compact, Step-Up DC-DC Converters

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HWD20011 Datasheet, PDF (10/13 Pages) List of Unclassifed Manufacturers – High-Efficiency, Low-Supply-Current, Compact, Step-Up DC-DC Converters

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High-Efficiency, Low-Supply-Current,

Compact, Step-Up DC-DC Converters

VIN

200â¦

0.1ÂµF

47ÂµF

BATT

(HWD20012)

OUT

CLSEL

(HWD20012)

LBI

SHDN

HWD20011

HWD2001

REF HWD20012 LBO

GND

22ÂµH

0.1ÂµF

100k

LOW-

BATTERY

OUTPUT

VOUT

47ÂµF

Figure 8. Setting Resistor Values for the Low-Battery Indicator

when VIN < 1.3V

VTRIP (VH, VL)

HWD20011 OUT

HWD2001

HWD20012

LBI

100k

0.1ÂµF

LBO

GND

VOUT

47ÂµF

( ) VH =

1.3V

ï£®ï£¯1 +

ï£°

R3 +

R3 ï£¹

ï£º

ï£»

( ) VL =

1.3V

ï£®

ï£¯1 +

ï£°

R3 â

(VOUT

(1.3V)

â 1.3V) R3

(R2 + R7)

ï£¹

ï£º

ï£»

WHERE VH IS THE UPPER TRIP LEVEL

VL IS THE LOWER TRIP LEVEL

Figure 9. Adding External Hysteresis to the Low-Battery

Indicator

LBI and LBO. For VTRIP less than 1.3V, configure the

comparator as shown in Figure 8. Calculate the value of

the external resistors R3 and R4 as follows:

R3 = R4(VREF - VTRIP) / (VOUT - VREF)

Since the low-battery comparator is noninverting, exter-

nal hysteresis can be added by connecting a resistor

between LBO and LBI as shown in Figure 9. When LBO

is high, the series combination of R2 and R7 source

current into the LBI summing junction.

HWD20011, 500mA for the HWD2001, and 1A or 0.5A for

the HWD20012. However, it is generally acceptable to

bias the inductor into saturation by as much as 20%,

although this will slightly reduce efficiency. Table 1 lists

suggested components.

The inductorâs DC resistance significantly affects effi-

ciency. See Table 2 for a comparison of inductor speci-

fications. Calculate the maximum output current as

follows:

Applications Information

Inductor Selection

An inductor value of 22ÂµH performs well in most appli-

cations. The HWD20011/HWD2001/HWD20012 will

( ) IOUT MAX

VIN

VOUT

ï£®

ï£°ï£¯ï£¯ILIM

tOFF

ï£«

ï£¬

ï£

VOUT

VIN

ï£¶

ï£·

ï£¸

ï£¹

ï£ºÎ·

ï£»ï£º

also work with inductors in the 10ÂµH to 47ÂµH range. Smaller

inductance values typically offer a smaller physical size

for a given series resistance, allowing the smallest

overall circuit dimensions. However, due to higher peak

inductor currents, the output voltage ripple (IPEAK x

output filter capacitor ESR) also tends to be higher.

where IOUT(MAX) = maximum output current in amps

VIN = input voltage

L = inductor value in ÂµH

Circuits using larger inductance values exhibit higher

output current capability and larger physical dimen-

sions for a given series resistance. The inductorâs incre-

mental saturation current rating should be greater than

Î· = efficiency (typically 0.9)

tOFF = LX switchâs off-time in Âµs

ILIM = 0.5A or 1.0A

the peak switch-current limit, which is 1A for the

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