TA9687GN Просмотр технического описания (PDF) - O2Micro International
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TA9687GN Datasheet PDF : 14 Pages
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FUNCTIONAL DESCRIPTION
1. Power Conversion
The ta9687 controller supports full-bridge power
conversion topology and provides symmetrical
drive pulses to the tank circuit that includes the
transformer(s), output capacitors and the
CCFL/panel load that yields quasi-sinusoidal
CCFL voltage and current waveforms. High
efficiency operation of the ta9687 yields lower
heat dissipation for the inverter system resulting
in higher reliability.
To illustrate the controller functions, refer to
Figures 1 and 2 on pages 5 and 8, respectively
for the following sections.
2. Enable
Applying a voltage level greater than 2V to ENA
(pin 16) enables the IC. A voltage less than 1V
will disable the IC.
3. Soft-Start (SST)
Utilizing a patented multi-task technique, the soft-
start function and the loop compensation function
are combined to provide a good start-up
characteristic. Connecting an external capacitor
to SSTCMP (pin 2) provides the functions. In the
start-up mode, current charges capacitor C21
connected to SSTCMP. The voltage at the
capacitor controls the gradual increase in power
to the transformer and subsequently to the output
load. This reduces in-rush current and provides
reliable operation to the CCFL.
4. Ignition
When the VDDA voltage exceeds the under-
voltage lockout threshold, the IC is enabled and
internal striking timer is activated.
During ignition, the striking frequency for the
CCFL(s) can be chosen by the user to optimize
the inverter operation.
The approximate striking frequency is calculated
by the following equation.
FSTRK [KHz]
=
9.53 × 105
(RRT1[KΩ]// RCT[KΩ])× CCT
[ pF]
5. Aged CCFL Ignition
ta9687 provides a striking timer function to
ensure that any aged, slow-turn-on CCFL is
provided with sufficient voltage and time to ignite.
ta9687
The transformer output voltage is sensed at
VSEN (Pin 1). When the voltage at VSEN
reaches a threshold of approximately 3.0V, the IC
regulates the output voltage at the transformer
secondary. If the lamps are not ignited when the
voltage at TIMER (pin 12) reaches a threshold of
approximately 3V, the IC will shutdown and latch
The approximate striking time is calculated by the
following equation.
TSTRK [s] = CTIMER[uF ]
To resume normal operation, toggle the ENA
signal or reset VDDA.
6. Normal Operation
Once the lamps are ignited and the voltage at
ISEN (pin 14) is > 0.7V, the IC enters the normal
operation mode and the PWM dimming control is
activated.
The operating frequency is determined by
resistor (R15) and capacitor (C22) connected to
CT (pin 3). The control loop regulates the
average current through the lamps by adjusting
the overlap of the output drives. Constant
frequency operation eliminates interference with
the inverter and LCD panel that often occurs in a
variable frequency inverter system. The peak
and valley of the CT waveform are 2V and 0V
respectively.
The approximate operating frequency is
calculated by the following equation.
FOP[KHz]
=
9.53 ×105
RCT [KΩ]× CCT [ pF ]
7. Open Lamp Protection
If a CCFL is removed or damaged during normal
operation, the voltage at SSTCMP (pin 2) rises
rapidly because there is no current feedback at
ISEN (pin 14). When the voltage at SSTCMP
reaches a threshold of approximately 2V and
ISEN is less than 0.7V, a current source charges
the capacitor (C23) connected to TIMER (pin 12).
Once the voltage level at the TIMER pin reaches
a threshold of approximately 3V, the drive
outputs shut down and latch.
The shutdown delay feature avoids inverter
shutdown due to a VIN transient or if a lamp has
a positive impedance characteristic.
CONFIDENTIAL
ta9687-DS-1.0
Page 6
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