Zxld1374, Application information – Diodes ZXLD1374 User Manual

Page 18

ZXLD1374

Document number: DS35032 Rev. 3 - 2

18 of 39

www.diodes.com

September 2012

ZXLD1374

A Product Line of

Diodes Incorporated

Application Information

(cont.)

Duty Cycle Calculation and Topology Selection

The duty cycle is a function of the input and output voltages. Approximately, the MOSFET switching duty cycle is

OUT

BUCK

≈

for Buck

OUT

BOOST

−

≈

for Boost

OUT

≈

for Buck-Boost

Equation 6

Because D must always be a positive number less than 1, these equations show that

OUT

for Buck (voltage step-down)

OUT

for Boost (voltage step-up)

OUT

for Buck-boost (voltage step-down or step-up)

This allows us to select the topology for the required voltage range.

More exact equations are used in the web Calculator. These are:

(

)

DSON

COIL

OUT

BUCK

−

for Buck

(

)

DSON

OUT

COIL

OUT

BOOST

−

for Boost

(

)(

)

DSON

OUT

COIL

OUT

−

for Buck-Boost

Equation 7

where

= schottky diode forward voltage, estimated for the expected coil current, I

COIL

DSON

= MOSFET drain source voltage in the ON condition (dependent on R

DSON

and drain current = I

COIL

)

COIL

= DC winding resistance of L1

The additional terms are relatively small, so the exact equations will only make a significant difference at lower operating voltages at the input
and output, i.e. low input voltage or a small number of LEDs connected in series. The estimates of V

and V

DSON

depend on the coil current.

The mean coil current, I

COIL

depends upon the topology and upon the mean terminal currents as follows:

COIL

= I

LED

for Buck

COIL

= I

for Boost

COIL

= I

+ I

LED

for Buck-Boost

Equation 8

LED

is the target LED current and is already known. I

will be calculated with some accuracy later, but can be estimated now from the electrical

power efficiency.