MAX754ESE Maxim Integrated Products, MAX754ESE Datasheet - Page 9
MAX754ESE
Manufacturer Part Number
MAX754ESE
Description
Display Drivers CCFL Backlight & LCD Neg Contrast Ctlr
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX753ESET.pdf
(16 pages)
Specifications of MAX754ESE
Lead Free Status / Rohs Status
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Part Number:
MAX754ESE
Manufacturer:
MAXIM/美信
Quantity:
20 000
Table 1. CCFL Circuit Component Descriptions (continued)
D6B, C7, R7
D6A, R17
R5, R6
ITEM
C10
R10
C9
D5
C2
T1
L1
_______________________________________________________________________________________
The ballast capacitor linearizes the CCFL impedance and guarantees no DC current through the lamp. 15pF
will work with just about any lamp. Depending on the lamp, you can try higher values, but this may cause the
regulation loop to become unstable. Larger values of C10 allow the circuit to operate with lower input volt-
ages. Don’t forget that C10 must be a high-voltage capacitor and cannot be polarized. A lamp with a
1500V
T1 must have high primary inductance (greater than 30µH), otherwise an inflated value of C9 will be required
in order to keep the Royer frequency below 60kHz (the maximum allowed by most lamps). A higher T1 sec-
ondary-to-primary turns ratio allows lower-voltage operation, but increases the size of the transformer.
You must select a value for C9 high enough to keep the lamp current reasonably sinusoidal and yet low
enough that T1’s core does not saturate. For the Sumida EPS207 with a 171:1 turns ratio, choose a 0.22µF
value for C9. The characteristic impedance of the resonant tank equals
netizing inductance of T1. The characteristic impedance is defined as the ratio of the voltage across the par-
allel LC circuit divided by the current flowing between the inductor and capacitor. This circulating current is
not delivered to the load. If C9 has too large a value, it will cause excessive circulating currents, which will in
turn saturate the core of T1. It’s easy to tell when you have excess circulating current in the resonant tank,
because when you touch T1 you burn your finger. However, reducing the value of C9 decreases tank Q,
which increases the harmonic content of the lamp-current waveform. If the lamp-current waveform does not
look sinusoidal, then the circuit may not regulate to the right root mean square current.
R10 sets the base current for Q4 and Q5. If you choose too large a value for R10, Q4 and Q5 will overheat.
Too small a value will waste base current and slightly degrade efficiency. The optimal value will depend on
how much power you are trying to deliver to the lamp. 510Ω is a good “always works but may not be the most
efficient” value for use with the FMMT619 transistors from ZETEX.
This resistive divider senses the voltage at the center tap of T1. When the CC pin on the MAX758A rises
above 1.25V, the internal switch turns off, interrupting power to the Royer oscillator and limiting the open-lamp
transformer center-tap voltage.
D6B, C7, and R7 form a soft-start clamp, which limits the rate-of-rise of the peak current in the MAX758A.
Make sure R7 is at least 100kΩ so it does not excessively load the CC pin.
D6A and R17 are also part of the soft-start clamp. The voltage on the SS pin controls the peak current in the
MAX758A’s switch. Make sure R17 is at least 100kΩ so it does not excessively load the CC pin.
Inductor for the Switching-Current Source. Use a 47µH to 150µH inductor with a 1A to 1.5A saturation current.
Schottky Catch Diode. Use a 1A to 1.5A Schottky diode with low forward-voltage power.
Supply Bypass Capacitor. Use low-ESR capacitor.
RMS
maximum strike voltage will require C10 to withstand 1500 x √2 = 2121V.
LCD Contrast Controllers
DESCRIPTION
CCFL Backlight and
L
MAG
C
9
, where L
MAG
is the mag-
9
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