+
=
÷
è
OUT
V
0.758
R1
R2
0.758
(
)
(
)
(
)
(
)
(
)
(
)
(
)
(
)
-
-
÷
÷
=
=
÷
÷
÷
÷
è
è
f
OUT
IN max
IND ripple
IN max
OUT max
IN max
V
1
3
L1
I
V
I
V
(
)
( )
(
)
(
)
(
)
-
÷
=
+
÷
÷
è
f
OUT
IN max
TRIP
IND peak
DS on
IN max
V
1
I
R
L
V
(
)
(
)
=
W
OUT
IRIPPLE
OUT max
V
0.01
V
ESR
30 m
I
TPS59124
www.ti.com
SLUSA58 – JULY 2010
The external components selection is much simpler in D-CAP Mode.
1. Determine the value of R1 and R2.
Recommended R2 value is from 10 k
(6)
2. Choose inductor.
The inductance value should be determined to give the ripple current of approximately 1/4 to 1/2 of maximum
output current. Larger ripple current increases the output ripple voltage, improves S/N ratio, and contributes
to a stable operation.
(7)
The inductor also requires a low DCR to achieve good efficiency, as well as enough room above peak
inductor current before saturation. The peak inductor current can be estimated in
Equation 8.(8)
3. Choose output capacitor(s).
Organic semiconductor capacitor(s) or specialty polymer capacitor(s) are recommended. Determine ESR to
meet the required ripple voltage indicated previously. A quick approximation is shown in
Equation 9.(9)
LAYOUT CONSIDERATIONS
Certain points must be considered before starting a layout using the TPS59124.
Connect RC low-pass filter from V5IN to V5FILT, 1-mF and 3.3- are recommended. Place the filter capacitor
close to the device, within 12 mm (0.5 inch) if possible.
Connect the over-current setting resistors from TRIPx to GND, and as close as possible to the device. The
trace from TRIPx to resistor, and resistor to GND, should avoid coupling to high-voltage switching node.
The discharge path (VOx) should have a dedicated trace to the output capacitor(s), separate from the output
voltage sensing trace. Use 1,5-mm (60 mils) or wider trace, with no loops. Tie the feedback-current-setting
resistor (the resistor between VFBx to GND) close to the device’s GND. The trace from this resistor to VFBx
pin should be short and thin. Place on the component side and avoid vias between this resistor and the
device.
Connections from the drivers to the respective gate of the high-side or the low-side MOSFET should be as
short as possible to reduce stray inductance. Use 0,65-mm (25 mils) or wider trace.
All sensitive analog traces and components such as VOx, VFBx, GND, ENx, PGOODx, TRIPx, V5FILT, and
TONSEL should be placed away from high-voltage switching nodes such as LLx, DRVLx, DRVHx, or VBSTx
nodes to avoid coupling. Use internal layer(s) as ground plane(s) and shield the feedback trace from power
traces and components.
Gather ground terminal of VIN capacitor(s), Vout capacitor(s), and source of low-side MOSFETs as close as
possible. GND (signal ground) and PGNDx (power ground) should be connected strongly together near the
device. PCB trace defined as LLx node, which connects to source of high-side MOSFET, drain of low-side
MOSFET and high-voltage side of the inductor, should be as short and wide as possible.
In order to effectively remove heat from the package, prepare thermal land and solder to the package’s
thermal pad ( PowerPAD). Two by two or more vias with a 0,33-mm (13 mils) diameter connected from the
thermal land to the internal ground plane should be used to help dissipation. Do NOT connect PGNDx to this
thermal land underneath the package.
Copyright 2010, Texas Instruments Incorporated
17