Datasheet

ManualsBrandsTEXAS INSTRUMENTS ManualsPMICsPMIC - DC/DC voltage regulator Buck, Split-rail VSON 10

3.2

3.4

3.6

3.8

0 0.05 0.10 0.15 0.20

I -OutputCurrent- A

V -InputVoltage-V

V =3.3V

Start

Stop

4.6

4.8

5.2

5.4

5.6

0 0.05 0.10 0.15 0.20

I -OutputCurrent- A

V -InputVoltage-V

V =5V

Start

Stop

TPS54060

SLVS919B –JANUARY 2009–REVISED JANUARY 2014

www.ti.com

DETAILED DESCRIPTION (continued)

voltage is greater than 2.1V, at which point the BOOT UVLO threshold is exceeded, and the device starts

switching again until the desired output voltage is reached. This operating condition persists until the input

voltage and/or the load current increases. It is recommended to adjust the VIN stop voltage greater than the

BOOT UVLO trigger condition at the minimum load of the application using the adjustable VIN UVLO feature with

resistors on the EN pin.

The start and stop voltages for typical 3.3V and 5V output applications are shown in Figure 26 and Figure 27.

The voltages are plotted versus load current. The start voltage is defined as the input voltage needed to regulate

the output within 1%. The stop voltage is defined as the input voltage at which the output drops by 5% or stops

switching.

During high duty cycle conditions, the inductor current ripple increases while the BOOT capacitor is being

recharged resulting in an increase in ripple voltage on the output. This is due to the recharge time of the boot

capacitor being longer than the typical high side off time when switching occurs every cycle.

Figure 26. 3.3V Start/Stop Voltage Figure 27. 5.0V Start/Stop Voltage

Error Amplifier

The TPS54060 has a transconductance amplifier for the error amplifier. The error amplifier compares the

VSENSE voltage to the lower of the SS/TR pin voltage or the internal 0.8V voltage reference. The

transconductance (gm) of the error amplifier is 97μA/V during normal operation. During the slow start operation,

the transconductance is a fraction of the normal operating gm. When the voltage of the VSENSE pin is below

0.8V and the device is regulating using the SS/TR voltage, the gm is 25μA/V.

The frequency compensation components (capacitor, series resistor and capacitor) are added to the COMP pin

to ground.

Voltage Reference

The voltage reference system produces a precise ±2% voltage reference over temperature by scaling the output

of a temperature stable bandgap circuit.

Product Folder Links: TPS54060