An379, And to the load after fet q, Turns off. capacitance c – Cirrus Logic AN379 User Manual

AN379

8

AN379REV2

The Buck Topology
Figure 3 illustrates a typical implementation of a buck
converter using the CS1680 controller. The load is
composed of a string of LEDs. Diode D

BUCK

is the

catch diode, also known as the freewheeling diode,
and its function is to allow the current to flow in
inductor L

BUCK

and to the load after FET Q

BUCK

turns

off. Capacitance C

P

represents the combined

parasitic capacitance associated with the FET drain
node, usually consisting of the FET drain-source
capacitance, inductor winding capacitance, and
diode D

BUCK

reverse bias capacitance. For a non-

tapped buck topology the leakage inductance L

K

is

not a concern.
The buck stage is supplied by the boost output
voltage. The boost output voltage is regulated within
15% by the boost stage. The buck control loop
regulates the output current as long as the peak
current has sufficient margin to rise 10% at the lowest
boost output voltage. Figure 4a and Figure 4b
illustrate idealized waveforms of the buck power FET
Q

BUCK

drain voltage and current, and catch diode

D

BUCK

current.

LED+

LED-

C

OUT

R

BUCK(Sense)

Q

BUCK

GND

BUCKGD

BUCKSENSE

CS1680

V

BST

D

BUCK

I1

V

OUT

C

P

I2

BUCKZCD

C2

C

BST

L

BUCK

Figure 3. Buck Converter

Area =

V

Diode

ު T2

BUCK

Area = V

OUT

ު T2

BUCK

Area = (V

BST

- V

OUT

)

ު T1

BUCK

V

BST

V

Diode

V

OUT

t

V

BST

- V

OUT

Figure 4a. FET Drain Voltage

T1

BUCK

TT

BUCK

T3

BUCK

'

C

1-

'

C

T2

BUCK

1

t

I

BUCKPK

I1

I2

Figure 4b. Current Through Buck Power FET and Catch Diode