ltc3730 Linear Technology Corporation, ltc3730 Datasheet - Page 10

ltc3730

Manufacturer Part Number

ltc3730

Description

3-phase, 5-bit Intel Mobile Vid, 600khz, Synchronous Buck Controller

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC3730.pdf (28 pages)

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OPERATIO

LTC3730

The top MOSFET drivers are biased from floating boot-

strap capacitor C

an external Schottky diode during each off cycle. When V

decreases to a voltage close to V

may enter dropout and attempt to turn on the top MOSFET

continuously. The dropout detector counts the number of

oscillator cycles that the bottom MOSFET remains off and

periodically forces a brief on period to allow C

charge.

The main control loop is shut down by pulling the RUN/SS

pin low. Releasing RUN/SS allows an internal 1.5µA

current source to charge soft-start capacitor C

internally buffered I

ramp as the voltage on C

start” clamping prevents abrupt current from being drawn

from the input power source. When the RUN/SS pin is low,

all functions are kept in a controlled state. The RUN/SS pin

is pulled low when the V

when the IC die temperature rises above 150°C.

Low Current Operation

The FCB pin is a multifunction pin: 1) an analog compara-

tor input to provide regulation for a secondary winding by

forcing temporary forced PWM operation and 2) a logic

input to select between three modes of operation.

A) Burst Mode Operation

When the FCB pin voltage is below 0.6V, the controller

performs as a continuous, PWM current mode synchro-

nous switching regulator. The top and bottom MOSFETs

are alternately turned on to maintain the output voltage

independent of direction of inductor current. When the

FCB pin is below V

controller performs as a Burst Mode switching regulator.

Burst Mode operation sets a minimum output current level

before turning off the top switch and turns off the synchro-

nous MOSFET(s) when the inductor current goes nega-

tive. This combination of requirements will, at low current,

force the I

temporarily shut off both output MOSFETs until the output

voltage drops slightly. There is a burst comparator having

60mV of hysteresis tied to the I

reaches 1.5V, the main control loop is enabled and the

pin below a voltage threshold that will

, which is normally recharged through

(Refer to Functional Diagram)

– 1.5V but greater than 0.6V, the

voltage is clamped but allowed to

continues to ramp. This “soft-

input voltage is below 4V or

OUT

pin. This hysteresis

, however, the loop

. When

to re-

results in output signals to the MOSFETs that turn them on

for several cycles, followed by a variable “sleep” interval

depending upon the load current. The resultant output

voltage ripple is held to a very small value by having the

hysteretic comparator after the error amplifier gain block.

B) Stage Shedding Operation

When the FCB pin is tied to the V

operation is disabled and the forced minimum inductor

current requirement is removed. This provides constant

frequency, discontinuous current operation over the wid-

est possible output current range. At approximately 10%

of maximum designed load current, the second and third

output stages are shut off and the first output stage alone

is active in discontinuous current mode. This “stage

shedding” optimizes efficiency by eliminating the gate

charging losses and switching losses of the other two

output stages. Additional cycles will be skipped when the

output load current drops below 1% of maximum de-

signed load current in order to maintain the output voltage.

This Stage Shedding operation is not as efficient as Burst

Mode operation at very light loads, but does provide lower

noise, constant frequency operating mode down to light

load conditions.

C) Continuous Current Operation

Tying the FCB pin to ground will force continuous current

operation. This is the least efficient operating mode, but

may be desirable in certain applications. The output can

source or sink current in this mode. When sinking current

while in forced continuous operation, the controller will

cause current to flow back into the input filter capacitor.

If large enough, this element will prevent the input supply

from boosting to unacceptably high levels; see C

selection in the Applications Information Section.

Frequency Synchronization

The phase-locked loop allows the internal oscillator to be

synchronized to an external source using the PLLIN pin.

The output of the phase detector at the PLLFLTR pin is also

the DC frequency control input of the oscillator, which

operates over a 250kHz to 600kHz range corresponding to

a voltage input from 0V to 2.4V. When locked, the PLL

pin, Burst Mode

3730fa

OUT

ltc3730 Linear Technology Corporation, ltc3730 Datasheet - Page 10

ltc3730

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