LT1110 Datasheet, PDF(9/16 Page) Linear Technology – Micropower DC-DC Converter Adjustable and Fixed 5V, 12V

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LT1110 Datasheet, PDF (9/16 Pages) Linear Technology – Micropower DC-DC Converter Adjustable and Fixed 5V, 12V

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LT1110

APPLICATI S I FOR ATIO

switch closes, current in the inductor builds according to

( ) IL

ï£«

ï£ï£¬1 â

âR't ï£¶

L ï£¸ï£·

(15)

where R' = 0.65â¦ + DCRL

VL = VIN â 0.75V

As an example, suppose â5V at 75mA is to be generated

from a 4.5V to 5.5V input. Recalling Equation (14),

( ) ( ) PL = | â5V | + 0.5V 75mA = 413mW.

(16)

Energy required from the inductor is

PL = 413mW = 5.9ÂµJ.

(17)

fOSC 70kHz

Picking an inductor value of 56ÂµH with 0.2â¦ DCR results

in a peak switch current of

( ) 4.5V â 0.75V ï£« â0.85â¦ â¢ 10Âµs ï£¶

( ) IPEAK = 0.65â¦ + 0.2â¦ ï£ï£¬1 â e 56ÂµH ï£¸ï£· = 621mA . (18)

Substituting IPEAK into Equation (04) results in

( ) ( ) EL

56ÂµH

0.621A 2 = 10.8ÂµJ.

(19)

Since 10.8ÂµJ > 5.9ÂµJ, the 56ÂµH inductor will work.

With this relatively small input range, RLIM is not usually

necessary and the ILIM pin can be tied directly to VIN. As in

the step-down case, peak switch current should be limited

to ~800mA.

capacitors provide still better performance at more ex-

pense. We recommend OS-CON capacitors from Sanyo

Corporation (San Diego, CA). These units are physically

quite small and have extremely low ESR. To illustrate,

Figures 1, 2 and 3 show the output voltage of an LT1110

based converter with three 100ÂµF capacitors. The peak

switch current is 500mA in all cases. Figure 1 shows a

Sprague 501D, 25V aluminum capacitor. VOUT jumps by

over 120mV when the switch turns off, followed by a drop

in voltage as the inductor dumps into the capacitor. This

works out to be an ESR of over 240mâ¦. Figure 2 shows the

same circuit, but with a Sprague 150D, 20V tantalum

capacitor replacing the aluminum unit. Output jump is

now about 35mV, corresponding to an ESR of 70mâ¦.

Figure 3 shows the circuit with a 16V OS-CON unit. ESR is

now only 20mâ¦.

5Âµs/DIV

LT1110 â¢ TA19

Figure 1. Aluminum

Capacitor Selection

Selecting the right output capacitor is almost as important

as selecting the right inductor. A poor choice for a filter

capacitor can result in poor efficiency and/or high output

ripple. Ordinary aluminum electrolytics, while inexpensive

and readily available, may have unacceptably poor Equiva-

lent Series Resistance (ESR) and ESL (inductance). There

are low ESR aluminum capacitors on the market specifi-

cally designed for switch mode DC-DC converters which

work much better than general-purpose units. Tantalum

5Âµs/DIV

LT1110 â¢ TA20

Figure 2. Tantalum

5Âµs/DIV

Figure 3. OS-CON

LT1110 â¢ TA21

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