MIC2172_06 Datasheet, PDF(11/20 Page) Micrel Semiconductor

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MIC2172_06 Datasheet, PDF (11/20 Pages) Micrel Semiconductor – 100kHz 1.25A Switching Regulators

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Micrel

Application Information

Using the MIC3172 Enable Control (New Designs)

For new designs requiring enable/shutdown control,

connect EN to a TTL or CMOS control signal (figure 3).

The very low driver current requirement ensures

compatibility regardless of the driver or gate used.

Figure 3. MIC3172 TTL Enable/Shutdown

Using the MIC3172 in LT1172 Applications

The MIC3172 can be used in most original LT1172

applications by adapting the MIC3172âs

enable/shutdown feature to the existing LT1172 circuit.

Unlike the LT1172 which can be shutdown by reducing

the voltage on pin 2 (VC) below 0.15V, the MIC3172 has

a dedicated enable/shutdown pin. To replace the

LT1172 with the MIC3172, determine if the LT1172âs

shutdown feature is used.

Circuits without Shutdown

If the shutdown feature is not being used, connect EN to

VIN to continuously enable the MIC3172 or use an

MIC2172 with SYNC open (figure 4).

Figure 4. MIC2172/3172 Always Enabled

Circuits with Shutdown

If shutdown was used in the original LT1172 application,

connect EN to a logic gate that produces a TTL logic-

level output signal that matches the shutdown signal.

The MIC3172 will be enabled by a logic-high input and

shutdown with a logic-low input (figure 5). The actual

components performing the functions of U1 and Q1 may

vary according to the original application.

MIC2172/3172

By using the MIC3172, U1 and Q1 shown in figure 5 can

be eliminated, reducing the total components count.

Synchronizing the MIC2172

Using several unsynchronized switching regulators in the

same circuit will cause beat frequencies to appear on the

inputs and outputs. These beat frequencies can be very

low making them difficult to filter.

Micrelâs MIC2172 can be synchronized to a single

master frequency avoiding the possibility of undesirable

beat frequencies in multiple regulator circuits. The

master frequency can be an external oscillator or a

designated master MIC2172. The master frequency

should be 1.05 to 1.20 times the slaveâs 100kHz nominal

frequency to guarantee synchronization.

Figure 6. Master/Slave Synchronization

Figure 6 shows a typical application where several

MIC2172s operate from the same supply voltage. U1âs

oscillator frequency is increased above U2âs and U3âs by

connecting a resistor from SYNC to ground. U2-SYNC

and U3-SYNC are capacitively coupled to the masterâs

output (VSW). The slaves lock to the negative (falling

edge) of U1âs output waveform.

Figure 5. Adapting to the LT1172 Socket

April 2006

Figure 7. External Synchronization

Care must be exercised to insure that the master

MIC2172 is always operating in continuous mode.

Figure 7 shows how one or more MIC2172s can be

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