MAX16929
Automotive TFT-LCD Power Supply with Boost
Converter and Gate Voltage Regulators
Detailed Description
The MAX16929 is a highly integrated power supply for
automotive TFT-LCD applications. The device integrates
one buck converter, one boost converter, one 1.8V/3.3V
regulator controller, one positive-gate voltage regulator,
and one negative-gate voltage regulator.
The device achieves enhanced EMI performance through
spread-spectrum modulation. Digital input control allows
the device to be placed in a low-current shutdown mode
and provides flexible sequencing of the gate voltage
regulators.
Internal thermal shutdown circuitry protects the device
from overheating. The buck converter is designed to
shut down when its die temperature reaches +175NC
(typ), while the boost circuitry does so at +165NC (typ).
Each resumes normal operation once its die temperature
has fallen 15NC below its respective thermal shutdown
temperature.
The device is factory-trimmed to provide a variety of
power options to meet the most common automotive
TFT-LCD display power requirements, as outlined in the
Ordering Information/Selector Guide table.
Buck Converter
The device features a current-mode buck converter with
an integrated high-side FET, which requires no external
compensation network. The buck converter regulates the
output voltage to within Q3% in continuous mode over
line and load conditions. The high 2.1MHz (typ) switching
frequency allows for small external components, reduced
output ripple, and guarantees no AM interference.
A power-good (PGOOD) indicator is available to moni-
tor output-voltage quality. The enable input allows the
device to be placed in shutdown, reducing supply cur-
rent to 70FA.
The buck converter comes with a preset output voltage
of either 3.3V or 5V, and can deliver either 1.2A or 2A to
the output.
Enable (ENB)
Connect ENB to INB for always-on operation. ENB is also
compatible with 3.3V logic systems and can be con-
trolled through a microcontroller or by automotive KEY or
CAN inhibit signals.
Internal 5V Regulator (AVL)
AVL is an internal 5V regulator that supplies power to the
buck controller and charges the boost capacitor. After
enabling the buck converter, VAVL begins to rise. Once
VAVL exceeds the undervoltage lockout voltage of 3.5V
(max), LXB starts switching. Bypass AVL to GND with a
1FF ceramic capacitor.
Spread-Spectrum Modulation
The buck converter features spread-spectrum operation
that varies the internal operating frequency of the buck
converter by +6% relative to the switching frequency of
2.1MHz (typ).
Soft-Start
The buck converter features an internal soft-start timer.
The output voltage takes 3.9ms to ramp up to its set
voltage. If a short circuit or undervoltage is encountered
after the soft-start timer has expired, the device enters
hiccup mode, during which soft-start is reattempted
every 16ms. This process repeats until the short circuit
has been removed.
Overcurrent Protection
The device enters hiccup mode in one of three ways. If
eight consecutive current limits are detected and the out-
put is below 77% of its nominal value, the buck converter
enters hiccup mode. The converter enters hiccup mode
immediately if the output is short circuited to ground
(output below 1V). Additionally, the device enters hiccup
mode if 256 consecutive overcurrent events are detected
when the output is greater than 77% of its nominal value.
In hiccup mode, the buck controller idles for 16ms before
reattempting soft-start.
Power Good (PGOOD)
When an overcurrent condition causes the buck output to
fall below 92% of its set voltage, the open-drain power-
good indicator output (PGOOD) asserts low. PGOOD
deasserts once the output voltage has risen above 95%
of its set voltage.
PGOOD serves as a general fault indicator for all the
converters and regulators. Besides indicating an under-
voltage on the buck output, it also indicates any of the
faults listed in the Fault Conditions and PGOOD section.
Boost Converter
The boost converter employs a current-mode, fixed-
frequency PWM architecture to maximize loop bandwidth
and provide fast transient response to pulsed loads typical
of TFT-LCD panel source drivers. The 2.2MHz switching
frequency allows the use of low-profile inductors and
ceramic capacitors to minimize the thickness of LCD panel
designs. The integrated low on-resistance MOSFET and
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