Standard application circuits, Detailed description – Rainbow Electronics MAX1639 User Manual

MAX1639

High-Speed Step-Down Controller with
Synchronous Rectification for CPU Power

6

_______________________________________________________________________________________

N1

N2

D1
(OPTIONAL)

R3

(OPTIONAL)

R4

(OPTIONAL)

V

CC

V

DD

PWROK

BST

DH

LX

DL

PGND

CSH

FB

AGND

R8

C8

R7

CC1

CC2

CC1

1000pF

CC2

0.056

µ

F

REF

C4, 1.0

µ

F

CERAMIC

RC1

1k

TO

AGND

R6

100k

C5

0.1

µ

F

C6

10

µ

F

R5

10

Ω

TO V

DD

FREQ

C7

0.1

µ

F

D2
CMPSH-3

C3
0.1

µ

F

L1

R1

V

IN

= 4.5V

TO 5.5V

C1

C2

MAX1639

V

OUT

= 1.1V

TO 4.5V

CSL

Figure 1. Standard Application Circuit

_______Standard Application Circuits

The predesigned MAX1639 circuit shown in Figure 1
meets a wide range of applications with output currents
up to 35A. Use Table 1 to select components appropri-
ate for the desired output current range, and adapt the
evaluation kit PC board layout as necessary. This cir-
cuit represents a good set of trade-offs between cost,
size, and efficiency while staying within the worst-case
specification limits for stress-related parameters, such
as capacitor ripple current.

The MAX1639 circuit was designed for the specified fre-
quencies. Do not change the switching frequency with-

out first recalculating component values—particularly
the inductance, output filter capacitance, and RC1
resistance values.

___________________Detailed Description

The MAX1639 is a BiCMOS power-supply controller
designed for use in switch-mode, step-down (buck)
topology DC-DC converters. Synchronous rectification
provides high efficiency. It is intended to provide the
high precision, low noise, excellent transient response,
and high efficiency required in today’s most demand-
ing applications.