MAX8759ETI+ Maxim Integrated Products, MAX8759ETI+ Datasheet - Page 17

MAX8759ETI+

Manufacturer Part Number

MAX8759ETI+

Description

IC CNTRL CCFL BACKLIGHT 28TQFN

Manufacturer

Maxim Integrated Products

Type

CCFL Controllerr

Datasheet

1.MAX8759ETI.pdf (32 pages)

Specifications of MAX8759ETI+

Frequency

30 ~ 80 kHz

Current - Supply

2.5mA

Voltage - Supply

4.5 V ~ 28 V

Operating Temperature

-40°C ~ 85°C

Package / Case

28-TQFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output

Lead Free Status / Rohs Status

Details

Current page: 17 of 32
Download datasheet (758Kb)

Figure 5. Equivalent Resonant Tank Circuit

AC lamp current is sensed with a resistor connected in

series with the low-voltage terminal of the lamp. The

MAX8759 has two lamp-current feedback inputs (IFB1

and IFB2) to support dual-lamp application. The volt-

ages across the sense resistors are fed to the IFB1 and

IFB2 inputs and are internally full-wave rectified. The

transconductance error amplifier selects the higher one

of the two feedback signals and compares the rectified

voltage with an internal threshold to generate an error

current. The error current charges and discharges a

capacitor connected between COMP and ground to

create an error voltage (V

pared with an internal ramp signal to set the high-side

MOSFET switch on-time (t

The MAX8759 is designed to maintain tight control of

the lamp current under all transient conditions. The

feed-forward control instantaneously adjusts the on-

time for changes in input voltage (V

provides immunity to input-voltage variations and sim-

plifies loop compensation over wide input-voltage

ranges. The feed-forward control also improves the line

regulation for short DPWM on-times and makes startup

transients less dependent on the input voltage.

SOURCE

Low-Cost, SMBus, CCFL Backlight Controller

______________________________________________________________________________________

1:N

COMP

(b)

(a)

Feed-Forward Control

). V

COMP

BATT

). This feature

is then com-

CCFL

Figure 6. Frequency Response of the Resonant Tank

Feed-forward control is implemented by increasing the

internal voltage ramp rate for higher V

the effect of varying t

age while maintaining approximately the same signal

levels at V

across the compensation capacitor is minimal, the con-

troller’s response to input voltage changes is essentially

instantaneous.

A CCFL is a gas-discharge lamp that is normally driven in

the avalanche mode. To start ionization in a nonionized

lamp, the applied voltage (striking voltage) must be

increased to the level required for the start of avalanche.

At low temperatures, the striking voltage can be several

times the typical operating voltage.

Because of the MAX8759’s resonant topology, the striking

voltage is guaranteed. Before the lamp is ionized, the

lamp impedance is infinite. The transformer secondary

leakage inductance and the high-voltage parallel capaci-

tor determine the unloaded resonant frequency. Since the

unloaded resonant circuit has a high Q, it can generate

very high voltage across the lamp.

COMP

. Since the required voltage change

FREQUENCY (kHz)

INCREASING

as a function of the input volt-

Lamp Startup

BATT

100

. This has

MAX8759ETI+ Maxim Integrated Products, MAX8759ETI+ Datasheet - Page 17

MAX8759ETI+

Specifications of MAX8759ETI+

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