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MAX1524EUT-T Datasheet(PDF) 6 Page - Maxim Integrated Products

Part # MAX1524EUT-T
Description  Simple SOT23 Boost Controllers
Download  14 Pages
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Manufacturer  MAXIM [Maxim Integrated Products]
Direct Link  https://www.maximintegrated.com/en.html
Logo MAXIM - Maxim Integrated Products

MAX1524EUT-T Datasheet(HTML) 6 Page - Maxim Integrated Products

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Simple SOT23 Boost Controllers
6
_______________________________________________________________________________________
guarantees startup with input voltages down to 1.5V at
VCC. The startup oscillator has a fixed 25% duty cycle
and will toggle the MOSFET gate and begin boosting
the output voltage. Once the output voltage exceeds
the UVLO threshold, the normal control circuitry is used
and the startup oscillator is disabled. However, N-chan-
nel MOSFETs are rarely specified for guaranteed
RDS(ON) with VGS below 2.5V; therefore, guaranteed
startup down to 1.5V input will be limited by the MOS-
FET specifications. Nevertheless, the MAX1524 boot-
strapped circuit on the MAX1524 EV kit typically starts
up with input voltage below 1V and no load.
The MAX1522/MAX1523 may also be utilized by con-
necting VCC to the output of an independent voltage
regulator between 2.5V and 5.5V to allow operation with
any combination of low or high input and output volt-
ages. In this case, the independent regulator must sup-
ply enough current to satisfy the IGATE current as
calculated in the Power MOSFET Selection section
when considering the maximum switching frequency as
calculated in the CCM or DCM design procedure.
On-Time SET Input
The MAX1522/MAX1523/MAX1524 feature pin-selec-
table fixed on-time control, allowing their operation to
be optimized for various input/output voltage combina-
tions. Connect SET to VCC for the 3µs fixed on-time.
Connect SET to GND for the 0.5µs fixed on-time.
The 3µs on-time setting (SET = VCC) permits higher
than 80% guaranteed maximum duty factor, providing
improved efficiency in applications with higher step-up
ratios (such as 3.3V boosting to 12V). This setting is
recommended for higher step-up ratio applications.
The 0.5µs on-time setting (SET = GND) permits higher
frequency operation, minimizing the size of the external
inductor and capacitors. The maximum duty factor is
limited to 45% guaranteed, making this setting suitable
for lower step-up ratios such as 3.3V to 5V converters.
Soft-Start
The MAX1522/MAX1523/MAX1524 have a unique soft-
start mode that reduces inductor current during startup,
reducing battery, input capacitor, MOSFET, and induc-
tor stresses. The soft-start period is fixed at 3.2ms and
requires no external components.
Fault Detection
Once the soft-start period has expired, if the output
voltage falls to, or is less than, 50% of its regulation
value, a fault is detected. Under this condition, the
MAX1522 disables the regulator until either SHDN is
toggled low or power is removed and reapplied, after
which it attempts to power up again in soft-start. For the
MAX1523, the fault condition is not latched, and soft-
start is repetitively reinitiated until a valid output voltage
is realized. The MAX1524 has a latched fault detection,
but when bootstrapped, the latch will be cleared when
VCC falls below 2.37V.
Shutdown Mode
Drive SHDN to GND to place the MAX1522/MAX1523/
MAX1524 in shutdown mode. In shutdown, the internal
reference and control circuitry turn off, EXT is driven to
GND, the supply current is reduced to less than 1µA,
and the output drops to one diode drop below the input
voltage. Connect SHDN to VCC for normal operation.
When exiting shutdown mode, the 3.2ms soft-start is
always initiated.
Undervoltage Lockout
The MAX1522/MAX1523 have undervoltage lockout
(UVLO) circuitry, which prevents circuit operation and
MOSFET switching when VCC is less than the UVLO
threshold (2.37V typ). The UVLO comparator has 70mV
of hysteresis to eliminate chatter due to VCC input
impedance.
Applications Information
Setting the Output Voltage
The output voltage is set by connecting FB to a resis-
tive voltage-divider between the output and GND
(Figures 1 and 2). Select feedback resistor R2 in the
30k
Ω to 100kΩ range. R1 is then given by:
where VFB = 1.25V.
Design Procedure
Continuous vs. Discontinuous Conduction
A switching regulator is operating in continuous con-
duction mode (CCM) when the inductor current is not
allowed to decay to zero. This is accomplished by
selecting an inductor value large enough that the
inductor ripple current becomes less than one half of
the input current. The advantage of this mode is that
peak current is lower, reducing I
2R losses and output
ripple.
In general, the best transient performance and most of
the ripple reduction and efficiency increase of CCM are
realized when the inductance is large enough to
reduce the ripple current to 30% of the input current at
maximum load. It is important to note that CCM circuits
operate in discontinuous conduction mode (DCM)
RR
V
V
OUT
FB
12
1
=−




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