SP6659 Datasheet, PDF(7/10 Page) Sipex Corporation – 1.5MHz, 600mA Synchronous Buck Regulator

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

SP6659 Datasheet, PDF (7/10 Pages) Sipex Corporation – 1.5MHz, 600mA Synchronous Buck Regulator

◁

_______________________ DROPOUT

OPERATION

When the input voltage decreases toward

the value of the output voltage, the SP6659

allows the main switch to remain on for more

than one switching cycle and increases the

duty cycle until it reaches 100%.

The duty cycle D of a step-down converter is

defined as:

D = TON X ÆOSC X 100%

â VOUT X 100%

VIN

THEORY OF OPERATION

________________________ MAXIMUM

LOAD CURRENT

The SP6659 will operate with an input sup-

ply voltage as low as 2.5V, however, the

maximum load current decreases at lower

inputs due to a large IR drop on the main

switch and synchronous rectifier. The slope

compensation signal reduces the peak in-

ductor current as a function of the duty cycle

to prevent sub-harmonic oscillations at duty

cycles greater than 50%. Conversely, the

current limit increases as the duty cycle

decreases.

_______________________ INDUCTOR

SELECTION

For most designs, the SP6659 operates with

inductors of 1ÂµH to 4.7ÂµH. Low inductance

values are physically smaller but require

faster switching, which can result in some

efficiency loss. The inductor value can be

derived from the following equation:

L = VOUT X (VIN - VOUT)

VIN X âIL X

Æ

OSC

Figure 8. SP6659 Idle Mode Operation

where TON is the main switch on time, and

Æ is the oscillator frequency (1.5Mhz).

OSC

The output voltage then is the input voltage

minus the voltage drop across the main

switch and the inductor. At low input supply

voltage, the RDSON of the P-Channel

MOSFET increases, and the efficiency of

the converter decreases. Caution must be

exercised to ensure that the heat dissipated

does not exceed the maximum junction tem-

perature of the IC.

Where âIL is the inductor Ripple Current.

Large value inductors lower ripple current

and small value inductors result in higher

ripple current. Choose inductors at ripple

current of approximately 35% of the maxi-

mum load current 600mA, or ~ 210mA.

For output voltages above 2.0V, when light-

load efficiency is important, the minimum

recommended inductor is 2.2ÂµH. For opti-

mum voltage-positioning load transients,

choose an inductor with DC series resis-

tance in the 50mâ¦ to 150mâ¦ range. For

higher efficiency at heavy loads (above

Date: 07/20/05

SP6659 1.5MHz, 600mA Synchronous Buck Regulator

7

Â© Copyright 2005 Sipex Corporation

▷