MAX1626 Datasheet, PDF(9/16 Page) Maxim Integrated Products – 5V/3.3V or Adjustable, 100% Duty-Cycle, High-Efficiency, Step-Down DC-DC Controllers

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MAX1626 Datasheet, PDF (9/16 Pages) Maxim Integrated Products – 5V/3.3V or Adjustable, 100% Duty-Cycle, High-Efficiency, Step-Down DC-DC Controllers

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5V/3.3V or Adjustable, 100% Duty-Cycle,

High-Efficiency, Step-Down DC-DC Controllers

least 100 times FBâs input bias current. Capacitor CR2

is used to compensate the MAX1627 for even switch-

ing. Values between 0pF and 330pF work for many

applications. See the Stability and MAX1627 Feedback

Compensation section for details.

FROM

OUTPUT

CR2

Current-Sense-Resistor Selection

The current-sense comparator limits the peak switching

current to VCS/RSENSE, where RSENSE is the value of

the current-sense resistor and VCS is the current-sense

threshold. VCS is typically 100mV, but can range from

85mV to 115mV. Minimizing the peak switching current

will increase efficiency and reduce the size and cost of

external components. However, since available output

current is a function of the peak switching current, the

peak current limit must not be set too low.

Set the peak current limit above 1.3 times the maximum

load current by setting the current-sense resistor to:

R CS

VCS(MIN)

1.3 x IOUT(MAX)

Alternatively, select the current-sense resistor for 5V

and 3.3V output applications using the current-sense

resistor graphs in Figures 6a and 6b. The current-sense

resistorâs power rating should be 20% higher than:

RPOWER RATING (W) =

V2CS(MAX)

RCS

Standard wire-wound resistors have an inductance

high enough to degrade performance, and are not rec-

ommended. Surface-mount (chip) resistors have very

little inductance and are well suited for use as current-

TO FB

Figure 5. Adjustable-Output Operation Using the MAX1627

sense resistors. Power metal-strip resistors feature

1/2W and 1W power dissipation, 1% tolerance, and

inductance below 5nH. Resistance values between

10mâ¦ and 500mâ¦ are available.

Inductor Selection

The essential parameters for inductor selection are

inductance and current rating. The MAX1626/MAX1627

operate with a wide range of inductance values. In many

applications, values between 10ÂµH and 68ÂµH take best

advantage of the controllerâs high switching frequency.

Calculate the minimum inductance value as follows:

( ) V+(MAX) - VOUT x 2Âµs

L(MIN) =

VCS(MIN)

RCS

where 2Âµs is the minimum on-time. Inductor values

between two and six times L(MIN) are recommended.

3.5

VOUT = 5V

3.0

RSENSE = 0.03â¦

2.5

RSENSE = 0.04â¦

2.0

RSENSE = 0.05â¦

1.5

1.0

RSENSE = 0.1â¦

0.5

4.5 5.0 5.5 6.0 10 12 14 16

INPUT VOLTAGE (V)

3.5

VOUT = 3.3V

3.0

2.5

2.0

RSENSE = 0.03â¦

RSENSE = 0.04â¦

RSENSE = 0.05â¦

1.5

1.0

RSENSE = 0.1â¦

0.5

3.0 3.5 4.0 4.5 10 12 14 16

INPUT VOLTAGE (V)

Figure 6a. MAX1626 5V-Operation Current-Sense Resistor

Graph

Figure 6b. MAX1626 3.3V-Operation Current-Sense Resistor

Graph

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