MAX8751ETJ+ Maxim Integrated Products, MAX8751ETJ+ Datasheet - Page 23

MAX8751ETJ+

Manufacturer Part Number

MAX8751ETJ+

Description

IC CNTRLR CCFL INV 32-TQFN

Manufacturer

Maxim Integrated Products

Type

CCFL Controllerr

Datasheet

1.MAX8751ETJT.pdf (27 pages)

Specifications of MAX8751ETJ+

Frequency

30 ~ 80 kHz

Current - Supply

3.2mA

Voltage - Supply

6 V ~ 28 V

Operating Temperature

-40°C ~ 85°C

Package / Case

32-TQFN Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output

Lead Free Status / Rohs Status

Details

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where f

In the circuit of Figure 1, the transformer’s turns ratio is

120 and its secondary leakage inductance is 200mH.

To set the minimum resonant frequency to 30kHz, use

2.2µF capacitor for C

The parallel capacitor CP sets the maximum operating

frequency, which is also the parallel resonant peak fre-

quency. The capacitance CP can be chosen as below:

In the circuit of Figure 1, to set the maximum resonant

frequency to 95kHz; use 15pF for C

The transformer core saturation should also be consid-

ered when selecting the operating frequency. The pri-

mary winding should have enough turns to prevent

transformer saturation under all operating conditions.

Use the following expression to calculate the minimum

number of turns N1 of the primary winding:

Figure 7. Simplified CCFL Inverte r Circuit

SOURCE

MIN

is the minimum operating frequency range.

Cs' = Cs'/N

______________________________________________________________________________________

≤

x f

4π

MAX

1:N

(a)

(b)

x f

x L x C

MIN

Fixed-Frequency, Full-Bridge CCFL

x L

−

where D

0.4) of the high-side switch, V

input voltage, B

and S is the minimal cross-section area of the core.

The COMP capacitor sets the speed of the current-reg-

ulation loop that is used during startup, maintaining

lamp-current regulation, and during transients caused

by changing the input voltage. To maintain stable oper-

ation, the COMP capacitor (C

least 3.3nF.

As discussed in the DPWM Dimming Control section,

the COMP capacitor also limits the dynamics of the

lamp-current envelope in DPWM operation. At the end

of the DPWM ON cycle, the MAX8751 turns on a 100µA

internal current source to linearly discharge the COMP

capacitor. Use the following equation to set the fall time:

where t

and V

by resonant tank. At the beginning of the DPWM ON

cycle, the COMP capacitor is charged by transconduc-

tance error amplifier, so the charge current is not con-

stant. Because the average charge current is around

Figure 8. Frequency Response of the Resonant Tank

COMP

FALL

MAX

Inverter Controller

is the dynamic COMP voltage determined

is the fall time of the lamp-current envelope

is the maximum duty cycle (approximately

COMP

is the saturation flux density of the core,

COMP Capacitor Selection

MAX

B x S x f

FREQUENCY (kHz)

INCREASING

100

x V

IN(MAX)

A x t

COMP

IN(MAX)

COMP

MIN

FALL

is the maximum DC

) needs to be at

100

MAX8751ETJ+ Maxim Integrated Products, MAX8751ETJ+ Datasheet - Page 23

MAX8751ETJ+

Specifications of MAX8751ETJ+

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