Max8759 low-cost, smbus, ccfl backlight controller – Rainbow Electronics MAX8759 User Manual

MAX8759

Low-Cost, SMBus, CCFL Backlight Controller

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15

Figure 3. MAX8759 SMBus and Ambient-Light-Sensor Input Block

ALS

STATUS

REGISTER

ALS

LOW-LIMIT

REGISTER

ALS

HIGH-LIMIT

REGISTER

ALS

CLAMP

BRIGHT

CONTROL
REGISTER

DEVICE

CONTROL
REGISTER

MUX

DIGITAL

MULTIPLIER

BUFFER

DIGITAL

POT

SMBus

INTERFACE

DPWM
SETTING

PWMI

SDA

SCL

0X04

0X00

0X01

0X06

0X05

MUX

"1"

PWMO

ALS

SMBus AND AMBIENT-LIGHT-SENSOR INPUT BLOCK

INVERTER
ON/OFF

MUX

PWM_SEL

ALS_CTL

PWM_MD

BUFFER

FAULT/

STATUS

REGISTER

0X02

OFFSET

A

D

A

D

A simplified CCFL inverter circuit is shown in Figure 5
(a). The full-bridge power stage is simplified and repre-
sented as a square-wave AC source. The resonant tank
circuit can be further simplified to Figure 5(b) by
removing the transformer. C

S

is the primary series

capacitor, C

S

’ is the series capacitance reflected to the

secondary, C

P

is the secondary parallel capacitor, N is

the transformer turns ratio, L is the transformer sec-
ondary leakage inductance, and R

L

is an idealized

resistance that models the CCFL in normal operation.

Figure 6 shows the frequency response of the resonant
tank’s voltage gain under different load conditions. The
primary series capacitor is 1µF, the secondary parallel
capacitor is 15pF, the transformer turns ratio is 1:93,
and the secondary leakage inductance is 260mH.
Notice that there are two peaks, f

S,

and f

P

, in the fre-

quency response. The first peak f

S

is the series reso-

nant peak determined by the secondary leakage
inductance (L) and the series capacitor reflected to the
secondary (C’

S

):

f

1

2

LC

S

S

=

′

π