Rainbow Electronics MAX8712 User Manual

MAX8710/MAX8711/MAX8712

Low-Cost Linear-Regulator
LCD Panel Power Supplies

20

______________________________________________________________________________________

Charge-Pump Regulators

Number of Charge-Pump Stages

For highest efficiency, always choose the lowest num-
ber of charge-pump stages that meets the output
requirement.

The number of positive charge-pump stages is given by:

where n

POS

is the number of positive charge-pump

stages, V

P

is the positive charge-pump regulator out-

put, V

INPUT

is the supply voltage for the charge-pump

regulators (V

SUPCP

, MAX8710 or V

OUTL

, MAX8711/

MAX8712), V

DIODE

is the forward-voltage drop of the

charge-pump diode, and V

SWITCH

is the voltage drop

of the internal switches. Use V

SWITCH

= 0.3V.

The number of negative charge-pump stages is given by:

where n

NEG

is the number of negative charge-pump

stages and V

GOFF

is the negative charge-pump regula-

tor output.

The above equations are derived based on the
assumption that the first stage of the positive charge
pump is connected to V

MAIN

and the first stage of the

negative charge pump is connected to ground.
Sometimes fractional stages are more desirable for bet-
ter efficiency. This can be done by connecting the first
stage to another available supply, such as a 5V supply.
If the first charge-pump stage is powered from 5V, then
the above equations become:

Output Voltage Selection

Adjust the positive charge-pump-regulator output volt-
age by connecting a resistive voltage-divider from the
regulator output V

P

to GND with the center tap connect-

ed to FBP (Figure 1). Select the lower resistor of divider
R4 in the range of 10kΩ to 50kΩ. Calculate upper resistor
R3 with the following equation:

where V

FBP

= 2.5V (typ) is the regulation point of the

positive charge-pump regulator.

Adjust the negative charge-pump-regulator output volt-
age by connecting a resistive voltage-divider from the
negative charge-pump output V

GOFF

to REF with the

center tap connected to FBN (Figure 1). Select R6 in
the 20kΩ to 100kΩ range. Calculate R5 with the follow-
ing equation:

where V

REF

= 5V and V

FBN

= 250mV is the regulation

point of the negative charge-pump regulator.

Flying Capacitor

Increasing the flying-capacitor (C

X

) value lowers the

effective source impedance and increases the output-
current capability of the charge pump. Increasing the
capacitance indefinitely has a negligible effect on out-
put-current capability because the internal switch resis-
tance and the diode impedance place a lower limit on
the source impedance. A 0.1µF ceramic capacitor
works well in most low-current applications. The flying
capacitor’s voltage rating must exceed the following:

V

CX

> n x V

INPUT

where n is the stage number in which the flying capaci-
tor is used, and V

INPUT

is the supply voltage for the

charge-pump regulators (V

SUPCP

, MAX8710 or V

OUTL

,

MAX8711/MAX8712).

Charge-Pump Input Capacitor

Use an input capacitor with a value equal to or greater
than the flying capacitor. Place the capacitor as close
to the IC as possible. Connect the capacitor directly
to PGND.

R

R

V

V

V

V

FBN

GOFF

REF

FBN

5

6

=

×

−

−

R

R

V

V

P

FBP

3

4

1

=

×













−

n

V

V

V

V

V

n

V

V

V

V

V

POS

P

SWITCH

INPUT

DIODE

NEG

GOFF

SWITCH

INPUT

DIODE

=

+

Ч

=

+

+

Ч

−

−

−

−

5

2

5

2

n

V

V

V

V

NEG

GOFF

SWITCH

INPUT

DIODE

=

+

×

−

−

2

n

V

V

V

V

V

POS

P

SWITCH

SUPCP

INPUT

DIODE

=

+

Ч

−

−

2