Datasheet
0.0 0.2 0.4 0.6 0.8 1.0 1.2
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INPUT VOLTAGE (v)
SHORT CIRCUIT VOLTAGE (v)
SAFE OPERATING AREA
0.0 0.2 0.4 0.6 0.8 1.0 1.2
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INPUT VOLTAGE (v)
SHORT CIRCUIT VOLTAGE (v)
SAFE OPERATING AREA
0.0 0.2 0.4 0.6 0.8 1.0 1.2
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INPUT VOLTAGE (v)
SHORT CIRCUIT VOLTAGE (v)
SAFE OPERATING AREA
LM22670
SNVS584O –SEPTEMBER 2008–REVISED MARCH 2013
www.ti.com
Figure 15. SOA 300 kHz Figure 16. SOA 500 kHz
Figure 17. SOA 800 kHz
Soft-Start
The soft-start feature allows the regulator to gradually reach steady-state operation, thus reducing start-up
stresses. The internal soft-start feature brings the output voltage up in about 500 µs. This time is fixed and can
not be changed. Soft-start is reset any time the part is shut down or a thermal overload event occurs.
Switching Frequency Adjustment and Synchronization
The LM22670 will operate in three different modes, depending on the condition of the RT/SYNC pin. With the
RT/SYNC pin floating, the regulator will switch at the internally set frequency of 500 kHz (typ.). With a resistor in
the range of 25 kΩ to 200 kΩ, connected from RT/SYNC to ground, the internal switching frequency can be
adjusted from 1MHz to 200 kHz. Figure 18 shows the typical curve for switching frequency vs. the external
resistance connected to the RT/SYNC pin. The accuracy of the switching frequency, in this mode, is slightly
worse than that of the internal oscillator; about +/- 25% is to be expected. Finally, an external clock can be
applied to the RT/SYNC pin to allow the regulator to synchronize to a system clock or another LM22670. The
mode is set during start-up of the regulator. When the LM22670 is enabled, or after V
IN
is applied, a weak pull-up
is connected to the RT/SYNC pin and, after approximately 100 µs, the voltage on the pin is checked against a
threshold of about 0.8V. With the RT/SYNC pin open, the voltage floats above this threshold, and the mode is set
to run with the internal clock. With a frequency set resistor present, an internal reference holds the pin voltage at
0.8V; the resulting current sets the mode to allow the resistor to control the clock frequency. If the external circuit
forces the RT/SYNC pin to a voltage much greater or less than 0.8v, the mode is set to allow external
synchronization. The mode is latched until either the EN or the input supply is cycled.
The choice of switching frequency is governed by several considerations. As an example, lower frequencies may
be desirable to reduce switching losses or improve duty cycle limits. Higher frequencies, or a specific frequency,
may be desirable to avoid problems with EMI or reduce the physical size of external components. The flexibility
of increasing the switching frequency above 500 kHz can also be used to operate outside a critical signal
frequency band for a given application. Keep in mind that the values of inductor and output capacitor cannot be
reduced dramatically, by operating above 500 kHz. This is true because the design of the internal loop
compensation restricts the range of these components.
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