MAX1536ETI+ Maxim Integrated Products, MAX1536ETI+ Datasheet - Page 9
MAX1536ETI+
Manufacturer Part Number
MAX1536ETI+
Description
IC PWM STEP-DN DC-DC CONV 28TQFN
Manufacturer
Maxim Integrated Products
Type
Step-Down (Buck), PWM - Current Moder
Datasheet
1.MAX1536ETIT.pdf
(19 pages)
Specifications of MAX1536ETI+
Internal Switch(s)
Yes
Synchronous Rectifier
Yes
Number Of Outputs
1
Voltage - Output
0.7 ~ 5.5 V
Current - Output
3.6A
Frequency - Switching
1.4MHz
Voltage - Input
3 ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
*
Package / Case
28-TQFN Exposed Pad
Voltage - Supply
3 V ~ 5.5 V
Frequency-max
1.4MHz
Duty Cycle
100%
Pwm Type
Current Mode
Buck
Yes
Boost
No
Flyback
No
Inverting
No
Doubler
No
Divider
No
Cuk
No
Isolated
No
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The MAX1536 standard application circuit (Figure 1)
generates a dynamically adjustable output voltage typical
of graphic processor core requirements. See Table 1
for component selections. Table 2 lists the component
manufacturers.
The MAX1536 synchronous, current-mode, constant-
off-time, PWM DC-to-DC converter steps down an input
voltage (V
from +0.7V to V
3.6A of continuous current. An internal 54mΩ PMOS
power switch and an internal 47mΩ NMOS synchro-
nous rectifier switch improve efficiency, reduce compo-
nent count, and eliminate the need for an external
Schottky diode (Figure 2).
The MAX1536 has two modes of operation: constant-
off-time PWM mode, and pulse-skipping Idle Mode.
The logic level on the SKIP input and the current
through the PMOS switch determine the MAX1536
mode of operation.
Forced-PWM mode keeps the switching frequency rel-
atively constant and is desirable in applications that
must always keep the frequency of conducted and
radiated emissions in a narrow band. Visit Maxim’s
website at www.maxim-ic.com for more information on
how to control electromagnetic interference (EMI).
Pulse-skipping Idle Mode has a dynamic switching fre-
quency under light loads and is desirable in applica-
tions that require high efficiency at light loads.
Connect SKIP to V
in low-noise, constant-off-time PWM mode. Constant-
off-time PWM architecture provides a relatively con-
stant switching frequency (see the Frequency Variation
with Output Current section). A single resistor (R
sets the PMOS power switch off-time that results in a
switching frequency up to 1.4MHz optimizing perfor-
mance trade-offs in efficiency, switching noise, compo-
nent size, and cost.
PWM mode regulates the output voltage by increasing
the PMOS switch on-time to increase the amount of energy
transferred to the load per cycle. At the end of each off-
time, the PMOS switch turns on and remains on until the
output is in regulation or the current through the switch
increases to the 4.8A current limit. When the PMOS
switch turns off, it remains off for the programmed off-
time (t
Down Regulator with Dynamic Output Voltage Control
OFF
Standard Application Circuit
), and the NMOS synchronous switch turns on.
IN
3.6A, 1.4MHz, Low-Voltage, Internal-Switch Step-
) from +3.0V to +5.5V to an output voltage
IN
. The MAX1536 output delivers up to
_______________________________________________________________________________________
CC
Forced-PWM Mode ( SKIP = V
Detailed Description
to force the MAX1536 to operate
Modes of Operation
TOFF
CC
)
)
The NMOS switch remains on until the end of t
either the NMOS or the PMOS switch is always on in
PWM mode, the inductor current is continuous.
Connect SKIP to AGND to allow the MAX1536 to auto-
matically switch between high-efficiency Idle Mode
under light loads and PWM mode under heavy loads.
The transition from PWM mode to Idle Mode occurs
when the load current is half the Idle Mode current
threshold (600mA typ).
In Idle Mode operation, the switching frequency is
reduced to increase efficiency. The inductor current is
discontinuous in this mode and the MAX1536 only initi-
ates an LX switching cycle when V
V
remains on until output is in regulation and the current
through the switch increases to the Idle Mode current
threshold (600mA typ). When the PMOS switch turns
off, the NMOS synchronous switch turns on and remains
on until the current through the switch decreases to the
zero-cross-current threshold of 200mA.
When the input voltage drops near the output voltage,
the LX duty cycle increases until the PMOS switch is on
continuously. The dropout voltage in 100% duty cycle
is the output current multiplied by the on-resistance of
the internal PMOS switch and parasitic resistance in
the inductor. The PMOS switch remains on continuously
as long as the current limit is not reached.
Soft-start allows a gradual increase of the current-limit
level at startup to reduce input surge currents. When
the MAX1536 is enabled or powered up, its current-
limit threshold is set to 25% of its final value (25% of
4.8A = 1.2A). The current-limit threshold is increased
by 25% every 256 LX cycles. The current-limit thresh-
old reaches its final level of 4.8A after 768 LX cycles or
when the output voltage is in regulation, whichever
occurs first. Additionally, when V
PMOS switch remains off for the extended off-time of 4 ×
t
capacitor charges up relatively slowly. The exact time of
the output rise depends on the nominal switching fre-
quency, output capacitance, and the load current. See
the startup waveforms in the Typical Operating
Characteristics.
The MAX1536 can sustain a constant short circuit or
overload. Under a short-circuit or overload condition,
when V
OFF
FB
. As a result of this soft-start feature, the main output
falls below V
FB
< 0.3 × V
Short-Circuit/Overload Protection
REFIN
100% Duty-Cycle Operation
Internal Soft-Start Circuit
REFIN
, the PMOS switch turns on and
Idle Mode ( SKIP = AGND)
, the MAX1536 uses an
FB
FB
< 0.3 × V
< V
REFIN
OFF
REFIN
. When
. Since
, the
9
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