Datasheet
LM22670
www.ti.com
SNVS584O –SEPTEMBER 2008–REVISED MARCH 2013
Frequency synchronization requires some care. First the external clock frequency must be greater than the
internal clock frequency, and less than 1 MHz. The maximum internal switching frequency is ensured in the
Electrical Characteristics table. Note that the frequency adjust feature and the synchronization feature can not be
used simultaneously. The synchronizing frequency must always be greater than the internal clock frequency.
Secondly, the RT/SYNC pin must see a valid high or low voltage, during start-up, in order for the regulator to go
into the synchronizing mode (see above). Also, the amplitude of the synchronizing pulses must comport with
V
SYNC
levels found in the Electrical Characteristics table. The regulator will synchronize on the rising edge of the
external clock. If the external clock is lost during normal operation, the regulator will revert to the 500 kHz (typ.)
internal clock.
If the frequency synchronization feature is used, current limit foldback is not operational; see Current Limit for
details.
Figure 18. Switching Frequency vs RT/SYNC Resistor
Self Synchronization
It is possible to synchronize multiple LM22670 regulators together to share the same switching frequency. This
can be done by tieing the RT/SYNC pins together through a MOSFET and connecting a 1 KΩ resistor to ground
at each pin. Figure 19 shows this connection. The gate of the MOSFET should be connected to the regulator
with the highest output voltage. Also, the EN pins of both regulators should be tied to the common system
enable, in order to properly initialize both regulators. The operation is as follows: When the regulators are
enabled, the outputs are low and the MOSFET is off. The 1 kΩ resistors pull the RT/SYNC pins low, thus
enabling the synchronization mode. These resistors are small enough to pull the RT/SYNC pin low, rather than
activate the frequency adjust mode. Once the output voltage of one of the regulators is sufficient to turn on the
MOSFET, the two RT/SYNC pins are tied together and the regulators will run in synchronized mode. The two
regulators will be clocked at the same frequency but slightly phase shifted according to the minimum off-time of
the regulator with the fastest internal oscillator. The slight phase shift helps to reduce stress on the input
capacitors of the regulator. It is important to choose a MOSFET with a low gate threshold voltage so that the
MOSFET will be fully enhanced. Also, a MOSFET with low inter-electrode capacitance is required. The 2N7002
is a good choice.
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