MAX1779 Maxim, MAX1779 Datasheet - Page 9
MAX1779
Manufacturer Part Number
MAX1779
Description
Low-Power Triple-Output TFT LCD DC-DC Converter
Manufacturer
Maxim
Datasheet
1.MAX1779.pdf
(18 pages)
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The MAX1779 is a highly efficient triple-output power
supply for TFT LCD applications. The device contains
one high-power step-up converter and two low-power
charge pumps. The primary boost converter uses an
internal N-channel MOSFET to provide maximum effi-
ciency and to minimize the number of external compo-
nents. The output voltage of the main boost converter
(V
The dual charge pumps independently regulate a posi-
tive output (V
low-power outputs use external diode and capacitor
stages (as many stages as required) to regulate output
voltages up to +40V and down to -40V. A proprietary
regulation algorithm minimizes output ripple as well as
capacitor sizes for both charge pumps.
Also included in the MAX1779 are a precision 1.25V
reference that sources up to 50µA, logic shutdown,
soft-start, power-up sequencing, fault detection, and an
active-low open-drain ready output.
The MAX1779 main step-up converter switches at a
constant 250kHz internal oscillator frequency to allow
the use of small inductors and output capacitors. The
MOSFET switch pulse width is modulated to control the
power transferred on each switching cycle and to regu-
late the output voltage.
During PWM operation, the internal clock’s rising edge
sets a flip-flop, which turns on the N-channel MOSFET
(Figure 1). The switch turns off when the voltage-error,
slope-compensation, and current-feedback signals trip
the comparators and reset the flip-flop. The switch
remains off for the rest of the clock cycle. Changes in
MAIN
PIN
10
11
12
13
14
15
16
) can be set from V
POS
NAME
PGND
DRVN
SUPN
DRVP
TGND
SUPP
Low-Power Triple-Output TFT LCD DC-DC
) and a negative output (V
LX
_______________________________________________________________________________________
Detailed Description
IN
Negative Charge-Pump Driver Output. Output high level is V
Negative Charge-Pump Driver Supply Voltage. Bypass to PGND with a 0.1µF capacitor.
Positive Charge-Pump Driver Output. Output high level is V
Positive Charge-Pump Driver Supply Voltage. Bypass to PGND with a 0.1µF capacitor.
Power Ground. Connect to GND underneath the IC.
Main Boost Regulator Power MOSFET N-Channel Drain. Connect output diode and output capacitor
as close to PGND as possible.
Must be connected to ground.
to 13V with external resistors.
Main Boost Converter
NEG
). These
the output voltage error signal shift the switch current
trip level, consequently modulating the MOSFET duty
cycle.
The MAX1779 contains two individual low-power charge
pumps. One charge pump inverts the supply voltage
(SUPN) and provides a regulated negative output voltage.
The second charge pump doubles the supply voltage
(SUPP) and provides a regulated positive output voltage.
The MAX1779 contains internal P-channel and N-channel
MOSFETs to control the power transfer. The internal
MOSFETs switch at a constant 125kHz (0.5
During the first half-cycle, the P-channel MOSFET turns
on and the flying capacitor C5 charges to V
a diode drop (Figure 2). During the second half-cycle,
the P-channel MOSFET turns off, and the N-channel
MOSFET turns on, level shifting C5. This connects C5 in
parallel with the reservoir capacitor C6. If the voltage
across C6 minus a diode drop is lower than the voltage
across C5, charge flows from C5 to C6 until the diode
(D5) turns off. The amount of charge transferred to the
output is controlled by the variable N-channel on-resis-
tance.
During the first half-cycle, the N-channel MOSFET turns
on and charges the flying capacitor C3 (Figure 3). This
initial charge is controlled by the variable N-channel
on-resistance. During the second half-cycle, the N-
channel MOSFET turns off and the P-channel MOSFET
turns on, level shifting C3 by V
C3 in parallel with the reservoir capacitor C4. If the volt-
age across C4 plus a diode drop (V
smaller than the level-shifted flying capacitor voltage
FUNCTION
Pin Description (continued)
SUPP
SUPN
Dual Charge-Pump Regulator
, and low level is PGND.
, and low level is PGND.
SUPP
Negative Charge Pump
Converter
Positive Charge Pump
volts. This connects
POS
✕
+ V
f
SUPN
OSC
DIODE
).
minus
) is
9
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