SP6120 Datasheet, PDF(12/22 Page) Sipex Corporation – Low Voltage, AnyFETTM, Synchronous ,Buck Controller Ideal for 2A to 10A, High Performance, DC-DC Power Converters

English

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

SP6120 Datasheet, PDF (12/22 Pages) Sipex Corporation – Low Voltage, AnyFETTM, Synchronous ,Buck Controller Ideal for 2A to 10A, High Performance, DC-DC Power Converters

◁

The NFET/PFET programmability is for the

high side MOSFET. When designing DC/DC

converters, it is not always obvious when to use

an NFET with a charge pump or a simple PFET

for the high side MOSFET. Often, the controller

has to be changed, making performance evalu-

ations difficult. This difficulty is worsened by

the limited availability of true low voltage con-

trollers. In addition, by also programming the

mode, continuous or discontinuous, switch mode

power designs that are successful in bus applica-

tions can now find homes in portable applica-

tions.

Secondary Loop (3% Window Comparator)

DSP, microcontroller and microprocessor ap-

plications have very strict supply voltage re-

quirements. In addition, the current require-

ments to these devices can change drastically.

Linear regulators, typically the workhorse for

DC/DC step-down, do a great job managing

accuracy and transient response at the expense

of efficiency. On the other hand, PWM switch-

ing regulators typically do a great job managing

efficiency at the expense of output ripple and

line/load step response. The trick in PWM

controller design is to emulate the transient

response of the linear regulator.

Of course improving transient response should

be transparent to the power supply designer.

Very often this is not the case. Usually the very

circuitry that improves the controllers transient

response adversely interferes with the main

PWM loop or complicates the board level de-

sign of the power converter.

The SP6120 handles line/load transient response

in a new way. First, a window comparator

detects whether the output voltage is above or

below the regulated value by 3%. Then, a

proprietary âRipple & Frequency Independentâ

algorithm synchronizes the output of the win-

dow comparator with the peak and valley of the

inductor current waveform. 3% low detection is

synchronized with inductor current peak; 3%

high detection is synchronized with the inductor

current valley. However, in order to eliminate

THEORY OF OPERATIONS: Continued

Secondary Loop (continued)

any additional loops, the current peak and val-

ley are determined by the edges associated with

the on-time in the main loop. The set pulse

corresponding to the start of an on-time indi-

cates a current valley and the reset pulse corre-

sponding to the end of an on-time indicates a

current peak. In effect, the main loop deter-

mines the status of the secondary loop.

Notice that the output voltage appears to coast

toward the regulated value during periods where

the main loop would be telling the drivers to

MAX

DC Load

Current

MIN

Output

Voltage

VOUT

Reset

Main Loop

Set

V(VCC)

3% High

Latch On

V(VCC)

3% Low

Latch On

TIME

Date: 1/21/05

SP6120 Low Voltage, AnyFETTM, Synchronous, Buck Controller

▷