LT1186F Просмотр технического описания (PDF) - Linear Technology
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LT1186F Datasheet PDF : 16 Pages
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TYPICAL PERFORMANCE CHARACTERISTICS
LT1186F
DAC IOUT vs Temperature
52
VOUT = 0V
51
VCC = 5V
50
VCC = 3.3V
49
48
–50 –25
0 25 50
TEMPERATURE (°C)
75 100
LT1186F • G25
DAC IOUT vs Supply Voltage
53
VOUT = 0V
52 TJ = 25°C
51
50
49
48
47
46
45
0
2
4
6
8
SUPPLY VOLTAGE (V)
LT1186F • G26
DAC IOUT vs IOUT Bias Voltage
53
TJ = 25°C
52
51
VCC = 5V
50
49
VCC = 3.3V
48
47
46
45
–20
–15 –10 –5 0
5 10
OUTPUT BIAS VOLTAGE (V)
LT1186F • G27
PIN FUNCTIONS
CCFL PGND (Pin 1): This pin is the emitter of an internal
NPN power switch. CCFL switch current flows through
this pin and permits internal, switch-current sensing. The
regulator provides a separate analog ground and power
ground to isolate high current ground paths from low
current signal paths. Linear Technology recommends the
use of star-ground layout techniques.
ICCFL (Pin 2): This pin is the input to the CCFL lamp current
programming circuit. This pin internally regulates to
465mV. The pin accepts a DC input current signal of 0µA
to 50µA full scale from the DAC. This input signal is
converted to a 0µA to 250µA source current at the CCFL VC
pin. As input programming current increases, the regu-
lated lamp current increases. For a typical 6mA lamp, the
range of input programming current is about 0µA to 50µA.
DIO (Pin 3): This pin is the common connection between
the cathode and anode of two internal diodes. The remain-
ing terminals of the two diodes connect to ground. In a
grounded-lamp configuration, DIO connects to the low
voltage side of the lamp. Bidirectional lamp current flows
in the DIO pin and thus the diodes conduct alternately on
half cycles. Lamp current is controlled by monitoring one-
half of the average lamp current. The diode conducting on
negative half cycles has one-tenth of its current diverted to
the CCFL VC pin. This current nulls against the source
current provided by the lamp-current programmer circuit.
A single capacitor on the CCFL VC pin provides both stable
loop compensation and an averaging function to the half-
wave-rectified sinusoidal lamp current. Therefore, input
programming current relates to one-half of average lamp
current. This scheme reduces the number of loop com-
pensation components and permits faster loop transient
response in comparison to previously published circuits.
If a floating lamp configuration is used, ground the DIO
pin.
CCFL VC (Pin 4): This pin is the output of the lamp current
programmer circuit and the input of the current compara-
tor for the CCFL regulator. Its uses include frequency
compensation, lamp-current averaging for grounded-lamp
circuits and current limiting. The voltage on the CCFL VC
pin determines the current trip level for switch turn-off.
During normal operation this pin sits at a voltage between
0.95V (zero switch current) and 2.0V (maximum switch
current) with respect to analog ground (AGND). This pin
has a high impedance output and permits external voltage
clamping to adjust current limit. A single capacitor to
ground provides stable loop compensation. This simpli-
fied loop compensation method permits the CCFL regula-
tor to exhibit single-pole transient response behavior and
virtually eliminates transformer output overshoot.
7
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