ltc3853euj Linear Technology Corporation, ltc3853euj Datasheet - Page 23

ltc3853euj

Manufacturer Part Number

ltc3853euj

Description

Triple Output, Multiphase Synchronous Step-down Controller

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC3853EUJ.pdf (36 pages)

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APPLICATIONS INFORMATION

controller 1 to be locked to the rising edge of an external

clock signal applied to the MODE/PLLIN pin. The phase

detector is an edge sensitive digital type that provides

zero degrees phase shift between the external and internal

oscillators. This type of phase detector does not exhibit

false lock to harmonics of the external clock.

The output of the phase detector is a pair of complemen-

tary current sources that charge or discharge the external

ﬁ lter network connected to the FREQ/PLLFLTR pin. The

relationship between the voltage on the FREQ/PLLFLTR

pin and operating frequency is shown in Figure 10 and

speciﬁ ed in the Electrical Characteristics table. Note that

the LTC3853 can only be synchronized to an external clock

whose frequency is within range of the LTC3853’s internal

A simpliﬁ ed block diagram is shown in Figure 11.

If the external clock frequency is greater than the internal

oscillator’s frequency, f

lags the internal oscillator, then current is sourced from

the phase detector output, pulling up the FREQ/PLLFLTR

pin. When the external clock frequency is less than f

or if the external clock’s phase leads the internal oscilla-

tor, current is sunk, pulling down the FREQ/PLLFLTR pin.

The voltage on the FREQ/PLLFLTR pin is adjusted until the

phase and frequency of the internal and external oscilla-

tors are identical. At the stable operating point, the phase

detector output is high impedance and the ﬁ lter capacitor,

, holds the voltage.

. This is guaranteed to be between 250kHz and 750kHz.

Figure 10. Relationship Between Oscillator

Frequency and Voltage at the FREQ/PLLFLTR Pin

800

700

600

500

400

300

200

FREQ/PLLFLTR PIN VOLTAGE (V)

0.5

OSC

, or if the external clock’s phase

1.5

3853 F10

2.5

OSC

The loop ﬁ lter components, C

the current pulses from the phase detector and provide a

stable input to the voltage-controlled oscillator. The ﬁ lter

components C

acquires lock. Typically R

0.01μF .

Typically, the external clock (on MODE/PLLIN pin)

input high threshold is 1.6V, while the input low thres-

hold is 1V.

Minimum On-Time Considerations

Minimum on-time t

that the LTC3853 is capable of turning on the top MOSFET.

It is determined by internal timing delays and the gate

charge required to turn on the top MOSFET. Low duty

cycle applications may approach this minimum on-time

limit and care should be taken to ensure that

If the duty cycle falls below what can be accommodated

by the minimum on-time, the controller will begin to skip

cycles. The output voltage will continue to be regulated,

but the ripple voltage and current will increase.

The minimum on-time for the LTC3853 is approximately

90ns, with reasonably good PCB layout, minimum 30%

inductor current ripple and at least 10mV to 15mV ripple

OSCILLATOR

EXTERNAL

ON MIN

(

Figure 11. Phase-Locked Loop Block Diagram

)

MODE/

PLLIN

OUT

and R

( )

FREQUENCY

DETECTOR

ON(MIN)

DIGITAL

PHASE/

determine how fast the loop

is the smallest time duration

= 10k and C

and R

2.4V

LTC3853

FREQ/

PLLFLTR

, smooth out

is 2200pF to

VCO

3853 F11

3853f

ltc3853euj Linear Technology Corporation, ltc3853euj Datasheet - Page 23

ltc3853euj

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