AME9003AETH AME, AME9003AETH Datasheet - Page 30

AME9003AETH

Manufacturer Part Number

AME9003AETH

Description

CCFL Inverters & Accessories Backlight Controller

Manufacturer

AME

Datasheet

1.AME9003AETH.pdf (39 pages)

Specifications of AME9003AETH

Function

Backlight Controller

Input Voltage

3.5 V

Output Voltage

5.35 V

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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AME9003

Multiple Tube Operation

tube applications. Figure19 shows the power section of

a two tube application. The major difference between

this application and the single tube application is the ad-

dition of another secondary winding on the transformer.

The primary side of the transformer and its associated

FETs are exactly the same as the single tube case al-

though the FETs may need to be resized due to the in-

creased current in two tube applications.

CCFL are of opposite phase (see Figure 20) although

this is not strictly necessary. When the voltage at one

secondary output is high (+600 volts) the other second-

ary output should be low (-600 volts). The other second-

ary terminals are connected to each other. In a balanced

circuit the voltage at the connection of the two secondar-

ies will, ideally, be zero. Of course in a real application

the voltage at the connection of the two secondaries will

deviate somewhat from zero.

double transformer can drive two CCFLs it is possible to

construct 2, 4, 6..... tube solutions using the basic archi-

tecture. Of course the FETs must be properly sized to

handle the increased current. Figure 21 shows a 4 tube

application. In this configuration the common secondary

connection (the node NOT connected to the lamp) is made

with the opposite transformer. In this way the secondary

current from the winding on the first transformer should

be equal to the secondary current of its companion wind-

ing on the second transformer. In the case of 4 lamps

driven by two transformers there are two sets of common

secondary nodes.

some extra circuitry. Normally the CSDET pin checks

for the existence (or absence) of current in the CCFL. If

current is detected then the initial start mode terminates

and steady state operation begins. During steady state

operation if no current is detected for 8 consecutive clock

cycles then the circuit is shutdown. Since there is only

one CSDET pin yet there are multiple tubes extra cir-

cuitry is required.

current through the tube on the right hand side is regu-

lated by the integrator made of R7, C8 and EA1. How-

ever, for purposes of fault detection and strike detection it

is beneficial to monitor the current through both tubes.

In this case R9B senses the current in the left tube in the

same way R9A senses the current in the right hand tube.

If the current through either tube is zero then R9A or R9B

The secondaries are wound so that the outputs to the

The multi-tube configuration is modular. Since each

Sensing the current in the multiple tube case requires

Take the two tube case of Figure 19 for example. The

The AME9003 is particularly well suited for multiple

AME, Inc.

will try to pull node A or B to zero. Resistors R42 and

R43 attempt to pull node A and B up but the value of R42

and R43 (nominally 10K) is much larger than the values

of resistors R9A and R9B (nominally 221ohms) allowing

node A and B to pull close to VSS when there is zero

current in their respective CCFL tubes. The absence of

current in either tube essentially pulls node A or B to

VSS.

look like alternating, positive half sinusoids. (See figure

22.) If, however, there is no current flowing in one of the

tubes then one half of the sinusoids would be missing

and the voltage at CSDET would drop compared to its

normal value. The values of the RC network made up of

R4 and C34 are chosen so that the voltage at CSDET is

always larger than 1.25 volts when both half sinusoids

are present but is less than 1.25V when only one sinu-

soid is present. The concept can be applied to any even

multiple of tubes. The tube without the current will domi-

nate the voltage at CSDET so a failure in any single tube

will cause the circuit to shutdown. In a similar manner,

during start up all tubes must have current flowing in them

before CSDET will rise above 1.25V and signal that the

tubes have struck and that the initial start up mode is

over.

user must add one more transformer, and two resistor

divider networks plus two diodes (R35, R36, R37, R38,

D16, D17) to sense the CCFL voltage as well as two

more diodes and two more resistors to sense the tube

current (R9A, R9B, D20, D22). Resistors R42, R43, R40,

diodes D21, D23 and capacitor C34 do not need to be

replicated every time more CCFLs are added because

they are shared in common on the CSDET node.

ure 21 shows a detail of the current and voltage sensing

circuitry for the four tube application. Analogous compo-

nents have been given the same numbers as in the single

tube schematic. There is really very little difference be-

tween the the single tube configuration and the multi-

tube version. Transistors Q4 and Q5 are added to buffer

the high side drive OUTA. This may be necessary be-

cause the PMOS devices for larger current applications

have larger gate drive requirements.

application as would be expected. The peak currents are

much higher so the Vbatt bypassing capacitor must be

increased as well. The schematic shows C5 as a 100uF

capacitor but higher values such as 220uF are not un-

common in order to minimize ripple on Vbatt.

In normal operation the voltage at nodes A and B should

Figure 18 shows a complete four tube schematic. Fig-

The MOS transistors are sized bigger for the 4 tube

For every 2 extra tubes that need to be added the

CCFL Backlight Controller

AME9003AETH AME, AME9003AETH Datasheet - Page 30

AME9003AETH

Specifications of AME9003AETH

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