MAX768 Maxim, MAX768 Datasheet - Page 7
MAX768
Manufacturer Part Number
MAX768
Description
Low-Noise / Dual-Output / Regulated Charge Pump for GaAsFET / LCD / and VCO Supplies
Manufacturer
Maxim
Datasheet
1.MAX768.pdf
(12 pages)
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The MAX768 requires only seven external capacitors to
implement a regulated voltage doubler/inverter. These
can be ceramic or polarized electrolytic capacitors rang-
ing from 2.2µF to 47µF. Figure 1 is a functional diagram of
the MAX768. The applied input voltage (V
bled to a value of 2V
then stored in the V+ reservoir capacitor. Next, the volt-
age at V+ is inverted to -2V
voir capacitor. The voltages at V+ and V- are then linear
regulated and appear at POUT and NOUT, respectively.
The ripple noise induced by the doubling and inverting
charge pump is reduced by the linear regulators to
1.2mVp-p for POUT and 1.7mVp-p for NOUT. In addition,
the linear regulator’s excellent AC rejection attenuates
noise from the incoming supply. A minimum of 5mA is
available at each output. When NOUT is more negative
than 90% of the regulated output voltage, the open-drain
RDY output pulls to GND.
The charge pump operates in three modes: when SYNC
= GND, the charge pump operates at 25kHz; when
SYNC = IN, it operates at 100kHz, or SYNC can be over-
driven with an external clock in the 20kHz to 240kHz
range. The clock must have a 40% to 60% duty cycle.
Figure 1. Functional Diagram
_______________Detailed Description
Low-Noise, Dual-Output, Regulated Charge Pump
_______________________________________________________________________________________
IN
by a capacitor charge pump and
PSHDN
NSHDN
IN
SYNC
C1+
C2+
C1-
C2-
V+
IN
V-
and stored at the V- reser-
for GaAsFET, LCD, and VCO Supplies
VOLTAGE
VOLTAGE
DOUBLER
INVERTER
IN
) is first dou-
SHDN
+1.25V
-1.25V
REF
P
N
Connect SETP or SETN directly to GND to select a fixed
+5V or -5V output voltage, respectively (Figure 2).
Select an alternative voltage for either output by con-
necting SETP or SETN to the midpoint of a resistor volt-
age divider from POUT or NOUT, respectively, to GND
(Figure 3). (2 x V
value of the output voltage to ensure proper regulation.
Calculate the output voltage from the formulas below.
Choose R1 and R3 at between 100kΩ to 400kΩ.
where V
V
__________Applications Information
NSET REF
PSET REF
MAX768
= -1.25V (typical).
R2 = R1
R4 = R3
= 1.25V (typical) and
IN
N
) must be 1.0V above the absolute
Setting the Output Voltage
V
V
PSET REF
NSET REF
V
V
POUT
NOUT
CONNECT TO GND
TO SET V
POUT
SETP
CONNECT TO GND
TO SET V
GND
RDY
SETN
NOUT
1
1
NOUT
POUT
= +5V
= -5V
7
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