MAX1734EUK15 View Datasheet(PDF) - Maxim Integrated

Part Name

Description

MFG CO.

MAX1734EUK15

Low-Voltage, Step-Down DC-DC Converters in SOT23

Maxim Integrated 

Low-Voltage, Step-Down DC-DC Converters

in SOT23

Table 1. Suggested Inductors

INDUCTOR VALUE MANUFACTURER

(µH)

PART

NUMBER

CR43-100

10

Sumida

CDRH4D18-100

10

Coilcraft

DT1608C-103

Table 2. Suggested Capacitors

CAPACITOR

TYPE

MANUFACTURER

PART

NUMBER

Tantalum

(22µF)

Taiyo Yuden

LMK212BJ225MG

Ceramic

(2.2µF)

AVX

TAJA226M006R

GND (Figure 1). Choose R2 to be less than 50kΩ:

R1

=

R2

×







VOUT

VREF



− 1



where VREF = 1.25V.

Inductor Selection

The MAX1733/MAX1734 are optimized to use a 10µH

inductor over the entire operating range. A 300mA

rated inductor is enough to prevent saturation for out-

put currents up to 250mA. Saturation occurs when the

inductor’s magnetic flux density reaches the maximum

level the core can support and inductance falls.

Choose a low DC-resistance inductor to improve effi-

ciency. Tables 1 and 3 list some suggested inductors

and suppliers.

Capacitor Selection

The MAX1733/MAX1734 require output voltage ripple

(approximately 30mVp-p) for stable switching behavior.

Use a 10µF to 47µF tantalum output capacitor with

about 200mΩ to 300mΩ ESR to provide stable switch-

ing while minimizing output ripple. Choose input and

output capacitors to filter inductor currents for accept-

able voltage ripple. The input capacitor reduces peak

currents and noise at the voltage source. Input capaci-

tors must meet the input ripple requirements and volt-

age rating. Use the following equation to calculate the

maximum RMS input current:

Table 3. Component Suppliers

COMPANY

AVX

Coilcraft

Kemet

Murata

USA

Sumida

Japan

Taiyo Yuden

PHONE

843-946-0238

847-639-6400

408-986-0424

814-237-1431

847-956-0666

81-3-3607-5111

408-573-4150

FAX

843-626-3123

847-639-1469

408-986-1442

814-238-0490

847-956-0702

81-3-3607-5144

408-573-4159

( ) IRMS =

IOUT VOUT

VIN

− OUT

 1/ 2



VIN

Tables 2 and 3 list some suggested capacitors and

suppliers.

Using Ceramic COUT with MAX1733

The circuit of Figure 3 is designed to allow the use of

ceramic output capacitors with the MAX1733.

Feedback is derived from the LX pin instead of the out-

put to remove the effects of phase lag in the feedback

loop. Compared to the standard applications circuit,

there are three benefits: 1) availability of ceramic vs.

tantalum; 2) size of 2.2µF 0805 vs. 22µF A-case; 3) out-

put ripple less than 10mVp-p vs. greater than 30mVp-p.

Increase the output capacitance to 4.7µF to further

reduce the output ripple. Note that this circuit exhibits

load regulation equal to the series resistance of the

inductor multiplied by the load current. This small

amount of load regulation is helpful in reducing over-

shoot of the output voltage during load transients.

Li+

2.2µF

2.7V TO 4.2V

X7R

ON OFF

IN

LX

MAX1733

GND

SHDN

FB

10µH

30k

1000pF

68k

OUTPUT

1.8V at 250mA

2.2µF

X7R

Figure 3. Using a Ceramic Output Capacitor with the MAX1733

_______________________________________________________________________________________ 7

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