FAN5071M Fairchild Semiconductor, FAN5071M Datasheet - Page 18
FAN5071M
Manufacturer Part Number
FAN5071M
Description
DC/DC Switching Controllers DC/DC
Manufacturer
Fairchild Semiconductor
Datasheet
1.FAN5069MTCX.pdf
(22 pages)
Specifications of FAN5071M
Number Of Outputs
2
Output Voltage
1.05 V to 1.825 V
Output Current
28 A
Input Voltage
4.5 V to 5.25 V
Mounting Style
SMD/SMT
Package / Case
SOIC-24 Wide
Maximum Operating Temperature
+ 70 C
Minimum Operating Temperature
0 C
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
FAN5071M
Manufacturer:
FIR
Quantity:
20 000
Part Number:
FAN5071MX
Manufacturer:
FAIRCHILD/仙童
Quantity:
20 000
FAN5069 Rev. 1.1.5
© 2005 Fairchild Semiconductor Corporation
Design Tools
Fairchild application note AN-6010 provides a PSPICE
model and spreadsheet calculator for the PWM regula-
tor, simplifying external component selections and verify-
ing loop stability. The topics covered provide an
understanding of the calculations in the spreadsheet.
The spreadsheet calculator, which is part of AN-6010,
can be used to calculate all external component values
for designing around FAN5069. The spreadsheet pro-
vides optimized compensation components and gener-
ates a Bode Plot to ensure loop stability.
Based on the input values entered, AN-6010’s PSPICE
model can be used to simulate Bode Plots (for loop sta-
bility) as well as transient analysis to help customize the
design for a wide range of applications.
Use Fairchild Application Note AN-6005 for prediction of
the losses and die temperatures for the power semicon-
ductors used in the circuit.
AN-6010 and AN-6005 can be downloaded from
www.fairchildsemi.com/apnotes/.
18
Layout Considerations
The switching power converter layout needs careful
attention and is critical to achieving low losses and clean
and stable operation. Below are specific recommenda-
tions for good board layout:
■
■
■
■
■
■
■
■
■
■
■
■
Keep the high-current traces and load connections as
short as possible.
Use thick copper boards whenever possible to
achieve higher efficiency.
Keep the loop area between the SW node, low-side
MOSFET, inductor, and the output capacitor as small
as possible.
Route high dV/dt signals, such as SW node, away
from the error amplifier input/output pins. Keep com-
ponents connected to these pins close to the pins.
Place ceramic de-coupling capacitors very close to the
VCC pin.
All input signals are referenced with respect to AGND
pin. Dedicate one layer of the PCB for a GND plane.
Use at least four layers for the PCB.
Minimize GND loops in the layout to avoid EMI-related
issues.
Use wide traces for the lower gate drive to keep the
drive impedances low.
Connect PGND directly to the lower MOSFET source
pin.
Use wide land areas with appropriate thermal vias to
effectively remove heat from the MOSFETs.
Use snubber circuits to minimize high-frequency ring-
ing at the SW nodes.
Place the output capacitor for the LDO close to the
source of the LDO MOSFET.
www.fairchildsemi.com
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