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LM22670Q Folha de dados(PDF) 10 Page - National Semiconductor (TI)

[Old version datasheet] Texas Instruments acquired National semiconductor.
Nome de Peças LM22670Q
Descrição Electrónicos  3A SIMPLE SWITCHER짰, Step-Down Voltage Regulator with Synchronization or Adjustable Switching Frequency
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Fabricante Electrônico  NSC [National Semiconductor (TI)]
Página de início  http://www.national.com
Logo NSC - National Semiconductor (TI)

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Current Limit
When the power switch turns on, the slight capacitance load-
ing of the Schottky diode, D1, causes a leading-edge current
spike with an extended ringing period. This spike can cause
the current limit comparator to trip prematurely. A leading
edge blanking time (T
BLK) of 100 ns (typical) is used to avoid
sampling the spike.
When the switch current reaches the current limit threshold
the switch is immediately turned off. If T
ON is larger than the
minimum (100 ns typical) the switcher will hold the output
current flat at the set current limit value. But if T
ON is at or
decreases to the minimum T
ON (100 ns typical) the switching
frequency decreases to 1/5 the typical frequency. This effec-
tively causes the output current to fold back to a lower and
safe value. When the current limit condition is removed the
switching frequency is restored to nominal. This 5X frequency
fold back will result in a lower duty cycle pulse of the power
switch to minimize the overall fault condition power dissipa-
tion.
The percentage of output current limit fold back is affected by
duty
cycle,
inductance,
and
switching
frequency.
See Figure 2 for details.
30076042
FIGURE 2. Output Current in Foldback vs.
Nominal Duty Cycle
The current limit will only protect the inductor from a runaway
condition if the LM22670 is operating in its safe operating
area. A runaway condition of the inductor is potentially catas-
trophic to the application. For every design, the safe operating
area needs to be calculated. Factors in determining the safe
operating area are the switching frequency, input voltage,
output voltage, minimum on-time and feedback voltage dur-
ing an over current condition.
As a first pass check, if the following equation holds true, a
given design is considered in a safe operating area and the
current limit will protect the circuit:
V
IN x TBLK x F < VOUT x 0.724
If the equation above does not hold true, the following sec-
ondary equation will need to hold true to be in safe operating
area:
If both equations do not hold true, a particular design will not
have an effective current limit function which might damage
the circuit during startup, over current conditions, or steady
state over current and short circuit condition. Oftentimes a
reduction of the maximum input voltage or a reduction of the
switching frequency will bring a design into the safe operating
area.
When synchronized to an external sync pulse, the LM22670
will not fold back the switching frequency in an over current
condition.
Soft-Start
The soft-start feature allows the regulator to gradually reach
the initial steady state operating point, thus reducing start-up
stresses and surges. The soft-start is fixed to 500 µs (typical)
start-up time and cannot be modified.
Switching Frequency Setting and
Synchronization
There are three different modes for the RT/SYNC pin. It can
be left floating for a 500 kHz switching frequency.
A resistor from the RT/SYNC pin to ground can be used to
adjust the switching frequency between 200 kHz and 1 MHz.
An external synchronization pulse can be applied to the RT/
SYNC pin for switching frequencies up to 1 MHz. The
LM22670 internally sets the RT/SYNC mode during start up.
Many applications are limited to lower switching frequencies
due to minimum on-time and minimum off-time requirements
as well as increased switching losses at switching frequen-
cies higher than 500 kHz. In case of synchronizing to an
external sync pulse, the clock pulse must be in a valid low or
high state when the LM22670 starts up and can be applied
after device regulation. The internal oscillator will synchronize
to the external sync pulse rising edge. If the external sync
pulse is disconnected the LM22670 switching frequency will
return to default 500 kHz (typ.).
When operating at frequencies above 500 kHz, external com-
ponents such as the inductor and the output capacitors can-
not be reduced dramatically. This is due to the fixed internal
compensation and stability requirements. Running the
LM22670 at frequencies higher than 500 kHz is intended for
applications with EMI or beat frequency concerns. The flexi-
bility of increasing the switching frequency above 500 kHz can
be used to operate outside a critical signal frequency band of
an application. This can also be used to set multiple switchers
in an application to the same frequency to reduce beat fre-
quencies and simplify filtering.
See the current limit section of this datasheet for information
about the safe operating area. When synchronizing to an ex-
ternal synchronization pulse, the LM22670 will not fold back
the switching frequency in an over current condition.
The typical curve below shows adjusted switching frequen-
cies with different frequency set resistors from the RT/SYNC
pin to ground.
www.national.com
10


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