LM3668_08 Datasheet, PDF(11/18 Page) National Semiconductor (TI) – 1A, High Efficiency Dual Mode Single Inductor Buck-Boost DC/DC Converter

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LM3668_08 Datasheet, PDF (11/18 Pages) National Semiconductor (TI) – 1A, High Efficiency Dual Mode Single Inductor Buck-Boost DC/DC Converter

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Circuit Description

The LM3668, a high-efficiency Buck or Boost DC-DC con-

verter, delivers a constant voltage from either a single Li-Ion

or three cell NIMH/NiCd battery to portable devices such as

mobile phones and PDAs. Using a voltage mode architecture

with synchronous rectification, the LM3668 has the ability to

deliver up to 1A depending on the input voltage, output volt-

age, ambient temperature and the chosen inductor.

In addition, the device incorporates a seamless transition

from buck-to-boost or boost-to-buck mode. The internal error

amplifier continuously monitors the output to determine the

transition from buck-to-boost or boost-to-buck operation. Fig-

ure 2 shows the four switches network used for the buck and

boost operation. Table 1 summarizes the state of the switches

in different modes.

There are three modes of operation depending on the current

required: PWM (Pulse Width Modulation), PFM (Pulse Fre-

quency Modulation), and shutdown. The device operates in

PWM mode at load currents of approximately 80mA or higher

to improve efficiency. Lighter load current causes the device

to automatically switch into PFM mode to reduce current con-

sumption and extend battery life. Shutdown mode turns off

the device, offering the lowest current consumption.

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FIGURE 3. Simplified Circuit for Buck Operation

Boost Operation

When the input voltage is smaller than the output voltage, the

device enters boost mode operation where P1 is always ON,

while switches N2 & P2 control the output. Figure 4 shows the

simplified circuit for boost mode operation.

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FIGURE 2. Simplified Diagram of Switches

State of Switches in Different Modes

Mode Always ON Always

Switching

OFF

Buck

SW P2

SW N2

SW P1 & N1

Boost

SW P1

SW N1

SW N2 & P2

TABLE 1

Buck Operation

When the input voltage is greater than the output voltage, the

device operates in buck mode where switch P2 is always ON

and P1 & N1 control the output . Figure 3 shows the simplified

circuit for buck mode operation.

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FIGURE 4. Simplified Circuit for Boost Operation

PWM Operation

In PWM operation, the output voltage is regulated by switch-

ing at a constant frequency and then modulating the energy

per cycle to control power to the load. In Normal operation,

the internal error amplifier provides an error signal, Vc, from

the feedback voltage and Vref. The error amplifier signal, Vc,

is compared with a voltage, Vcenter, and used to generate

the PWM signals for both Buck & Boost modes. Signal Vcen-

ter is a DC signal which sets the transition point of the buck

and boost modes. Below are three regions of operation:

â¢ Region I: If Vc is less than Vcenter, Buck mode.

â¢ Region II: If Vc and Vcenter are equal, both PMOS

switches (P1, P2) are on and both NMOS switches (N1,

N2) are off. The power passes directly from input to output

via P1 & P2

â¢ Region III: If Vc is greater than Vcenter, Boost mode.

The Buck-Boost operation is avoided, to improve the efficien-

cy across VIN and load range.

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FIGURE 5. PWM Generator Block Diagram

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