MAX8571 MAXIM [Maxim Integrated Products], MAX8571 Datasheet - Page 8
MAX8571
Manufacturer Part Number
MAX8571
Description
High-Efficiency LCD Boost with True Shutdown
Manufacturer
MAXIM [Maxim Integrated Products]
Datasheet
1.MAX8571.pdf
(10 pages)
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
MAX8571EUT+TG40
Manufacturer:
MAXIM/美信
Quantity:
20 000
Smaller inductance values typically offer smaller physi-
cal size for a given series resistance or saturation cur-
rent. Circuits using larger inductance values may
provide more output power. The inductor’s saturation
current rating should be greater than the peak switch-
ing current. Recommended inductor values range from
10µH to 100µH.
The peak LX current limit (I
application is calculated from the following equation:
where P
required by the load and V
supply voltage used to supply the inductor (this is V
unless a separate supply is used for the inductor). The
IC current limit must be greater than this calculated
High-Efficiency LCD Boost
with True Shutdown
Table 1. Protection Features
8
I
OUT to FB resistor missing or
disconnected.
Output cap missing and FB floating.
FB shorted to GND.
Diode missing or disconnected.
Diode reverse polarity.
FB node floating.
OUT shorted to ground.
LX MAX
COMMON APPLICATION FAULTS
(
_______________________________________________________________________________________
)
≥
1 25
.
OUT(MAX)
×
P
V
OUT MAX
BATT MIN
(
(
)
)
Selecting the Current Limit
is the maximum output power
+
1 25
.
Design Procedure
×
BATT(MIN)
P
V
LX(MAX)
OUT MAX
BATT MIN
Inductor Selection
(
(
OUT voltage rises until the output
capacitor is destroyed and/or
downstream components are damaged.
OUT voltage rises until the output
capacitor is destroyed and/or
downstream components are damaged.
OUT voltage rises until the output
capacitor is destroyed and/or
downstream components are damaged.
Inductor energy forces LX node high,
possibly damaging the internal switch.
Unpredictable, possibly boosting output
voltage beyond acceptable design
range.
Current ramps up through inductor and
diode, generally destroying one of the
devices.
)
)
) required for the
+ µ ×
2
is the minimum
3
RESULT WITH COMPETING
s
STEP-UP CONVERTERS
P
OUT MAX
L
(
)
CC
value. See the Selector Guide on page 1 for selecting
the IC with the correct current limit.
The high switching frequency of up to 800kHz requires
a high-speed rectifier. Schottky diodes are recom-
mended due to their low forward-voltage drop. To
maintain high efficiency, the average current rating of
the diode should be greater than the peak switching
current. Choose a reverse breakdown voltage greater
than the output voltage.
Small ceramic surface-mount capacitors with X7R or
X5R temperature characteristics are recommended
due to their small size, low cost, low equivalent series
resistance (ESR), and low equivalent series inductance
(ESL). If nonceramic capacitors are used, it is important
that they have low ESR to reduce the output ripple volt-
age and peak-peak load-transient voltage.
For most applications, use a 1µF ceramic capacitor for
the output and V
inductor supply, a 4.7µF or greater ceramic capacitor
is recommended.
Converter stops switching.
LX may boost one or two times before the FB
voltage exceeds the trip point. In the rare case
where the capacitive loading and external
loading on OUT is small enough that the energy
in one cycle can slew it more than 50V, the
internal MOSFET will clamp between 35V and
70V (nondestructively).
Converter stops switching and OUT is resistively
loaded to GND.
OUT is resistively loaded to GND and the
converter stops switching.
FB node driven above its regulation point, the
converter stops switching, and OUT is resistively
loaded to GND.
True off-switch detects short, opens when
current reaches pMOS current limit, and restarts
soft-start. This protects the inductor and diode.
CC
RESULT WITH MAX8570 FAMILY
bypass capacitors. For SW or the
Diode Selection
Capacitors
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