Texas Instruments LM3404 Evaluation Boards LM3404FSTDIMEV/NOPB LM3404FSTDIMEV/NOPB 사용자 설명서
제품 코드
LM3404FSTDIMEV/NOPB
SNVS465F – OCTOBER 2006 – REVISED MAY 2013
INTERNAL MOSFET AND DRIVER
The LM3404/04HV features an internal power MOSFET as well as a floating driver connected from the SW pin to
the BOOT pin. Both rise time and fall time are 20 ns each (typical) and the approximate gate charge is 6 nC. The
high-side rail for the driver circuitry uses a bootstrap circuit consisting of an internal high-voltage diode and an
external 10 nF capacitor, C
the BOOT pin. Both rise time and fall time are 20 ns each (typical) and the approximate gate charge is 6 nC. The
high-side rail for the driver circuitry uses a bootstrap circuit consisting of an internal high-voltage diode and an
external 10 nF capacitor, C
B
. V
CC
charges C
B
through the internal diode while the power MOSFET is off. When
the MOSFET turns on, the internal diode reverse biases. This creates a floating supply equal to the V
CC
voltage
minus the diode drop to drive the MOSFET when its source voltage is equal to V
IN
.
FAST SHUTDOWN FOR PWM DIMMING
The DIM pin of the LM3404/04HV is a TTL compatible input for low frequency PWM dimming of the LED. A logic
low (below 0.8V) at DIM will disable the internal MOSFET and shut off the current flow to the LED array. While
the DIM pin is in a logic low state the support circuitry (driver, bandgap, VCC) remains active in order to minimize
the time needed to turn the LED array back on when the DIM pin sees a logic high (above 2.2V). A 75 µA
(typical) pull-up current ensures that the LM3404/04HV is on when DIM pin is open circuited, eliminating the
need for a pull-up resistor. Dimming frequency, f
low (below 0.8V) at DIM will disable the internal MOSFET and shut off the current flow to the LED array. While
the DIM pin is in a logic low state the support circuitry (driver, bandgap, VCC) remains active in order to minimize
the time needed to turn the LED array back on when the DIM pin sees a logic high (above 2.2V). A 75 µA
(typical) pull-up current ensures that the LM3404/04HV is on when DIM pin is open circuited, eliminating the
need for a pull-up resistor. Dimming frequency, f
DIM
, and duty cycle, D
DIM
, are limited by the LED current rise time
and fall time and the delay from activation of the DIM pin to the response of the internal power MOSFET. In
general, f
general, f
DIM
should be at least one order of magnitude lower than the steady state switching frequency in order
to prevent aliasing.
PEAK CURRENT LIMIT
The current limit comparator of the LM3404/04HV will engage whenever the power MOSFET current (equal to
the inductor current while the MOSFET is on) exceeds 1.5A (typical). The power MOSFET is disabled for a cool-
down time that is approximately 75x the steady-state on-time. At the conclusion of this cool-down time the
system re-starts. If the current limit condition persists the cycle of cool-down time and restarting will continue,
creating a low-power hiccup mode, minimizing thermal stress on the LM3404/04HV and the external circuit
components.
the inductor current while the MOSFET is on) exceeds 1.5A (typical). The power MOSFET is disabled for a cool-
down time that is approximately 75x the steady-state on-time. At the conclusion of this cool-down time the
system re-starts. If the current limit condition persists the cycle of cool-down time and restarting will continue,
creating a low-power hiccup mode, minimizing thermal stress on the LM3404/04HV and the external circuit
components.
OVER-VOLTAGE/OVER-CURRENT COMPARATOR
The CS pin includes an output over-voltage/over-current comparator that will disable the power MOSFET
whenever V
whenever V
SNS
exceeds 300 mV. This threshold provides a hard limit for the output current. Output current
overshoot is limited to 300 mV / R
SNS
by this comparator during transients.
The OVP/OCP comparator can also be used to prevent the output voltage from rising to V
O(MAX)
in the event of
an output open-circuit. This is the most common failure mode for LEDs, due to breaking of the bond wires. In a
current regulator an output open circuit causes V
current regulator an output open circuit causes V
SNS
to fall to zero, commanding maximum duty cycle.
shows a method using a zener diode, Z1, and zener limiting resistor, R
Z
, to limit output voltage to the reverse
breakdown voltage of Z1 plus 200 mV. The zener diode reverse breakdown voltage, V
Z
, must be greater than the
maximum combined V
F
of all LEDs in the array. The maximum recommended value for R
Z
is 1 k
Ω
.
As discussed in the Maximum Output Voltage section, there is a limit to how high V
O
can rise during an output
open-circuit that is always less than V
IN
. If no output capacitor is used, the output stage of the LM3404/04HV is
capable of withstanding V
O(MAX)
indefinitely, however the voltage at the output end of the inductor will oscillate
and can go above V
IN
or below 0V. A small (typically 10 nF) capacitor across the LED array dampens this
oscillation. For circuits that use an output capacitor, the system can still withstand V
O(MAX)
indefinitely as long as
C
O
is rated to handle V
IN
. The high current paths are blocked in output open-circuit and the risk of thermal stress
is minimal, hence the user may opt to allow the output voltage to rise in the case of an open-circuit LED failure.
Copyright © 2006–2013, Texas Instruments Incorporated
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