MAX1747 View Datasheet(PDF) - Maxim Integrated
Part Name
Description
Manufacturer
MAX1747 Datasheet PDF : 13 Pages
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Triple Charge-Pump TFT LCD
DC-DC Converter
VIN = 3.0V
CIN
10µF
R7
100k
D3
D4
C6
1.0µF
VNEG
-7V, 10mA
C10
1.0µF
RFREQ
100k
C1
0.1µF
C5
0.1µF
D7
C9
0.1µF
D8
R5
280k
R6
49.9k
CREF
0.22µF
SUPM
IN
RDY
SHDN
CXP
CXN
OUT
SUPP
SUPN
CX
0.47µF
C11
C12
0.1µF 0.1µF
COUT
(2) 4.7µF
VOUT
+5V, 200mA
R1
150k
R2
DRVN
49.9k
FB
MAX1747
C3
D1
0.1µF
DRVP
D2
C7
D5
C4
1.0µF
FBN
0.1µF
D6
REF
TGND
GND
FBP
INTG
PGND
CINTG
1500pF
R3
432k
R4
49.9k
VPOS
+12V, 5mA
C8
1.0µF
Figure 1. Typical Application Circuit
(VPOS) and a negative output (VNEG). These two out-
puts use external diode and capacitor stages (as many
stages as required) to regulate output voltages above
+35V and under -35V.
A proprietary regulation algorithm minimizes output rip-
ple as well as capacitor sizes for all three charge
pumps. Also included in the MAX1747 are a precision
1.25V reference that sources up to 50µA, shutdown,
power-up sequencing, fault detection, and an active-
low open-drain ready output.
Main Charge Pump
During the first half-cycle, the MAX1747 charges the
flying capacitor (CX) by connecting it between the sup-
ply voltage (VSUPM) and ground (Figure 2). This initial
charge is controlled by the variable N-channel on-resis-
tance. During the second half-cycle, the MAX1747 level
shifts the flying capacitor by stacking the voltage
across CX on top of the supply voltage. This transfers
the sum of the two voltages to the output capacitor
(COUT).
Dual Charge-Pump Regulators
The MAX1747 contains two individual low-power
charge pumps. Using a single stage, the first charge
pump inverts the supply voltage (VSUPN) and provides
a regulated negative output voltage. The second
charge pump doubles the supply voltage (VSUPP) and
provides a regulated positive output voltage. The
MAX1747 contains internal P-channel and N-channel
MOSFETs to control the power transfer. The internal
MOSFETs switch at a constant frequency set by the
current into the shutdown pin (see Frequency Selection
and Shutdown).
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