LTC3788-1 Linear Technology, LTC3788-1 Datasheet - Page 20

LTC3788-1

Manufacturer Part Number

LTC3788-1

Description

Dual Output Synchronous Boost Controller

Manufacturer

Linear Technology

Datasheet

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LTC3788-1

APPLICATIONS INFORMATION

Phase-Locked Loop and Frequency Synchronization

The LTC3788-1 has an internal phase-locked loop (PLL)

comprised of a phase frequency detector, a low pass ﬁ lter

and a voltage-controlled oscillator (VCO). This allows the

turn-on of the top MOSFET of controller 1 to be locked to

the rising edge of an external clock signal applied to the

PLLIN/MODE pin. The turn-on of controller 2’s top MOSFET

is thus 180 degrees out-of-phase with the external clock.

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.

If the external clock frequency is greater than the internal

oscillator’s frequency, f

ously from the phase detector output, pulling up the VCO

input. When the external clock frequency is less than f

current is sunk continuously, pulling down the VCO input.

If the external and internal frequencies are the same but

exhibit a phase difference, the current sources turn on for

an amount of time corresponding to the phase difference.

The voltage at the VCO input is adjusted until the phase

and frequency of the internal and external oscillators are

identical. At the stable operating point, the phase detector

output is high impedance and the internal ﬁ lter capacitor,

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

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

1.2V.

Note that the LTC3788-1 can only be synchronized to an

external clock whose frequency is within range of the

LTC3788-1’s internal VCO, which is nominally 55kHz

to 1MHz. This is guaranteed to be between 75kHz and

850kHz.

Rapid phase locking can be achieved by using the FREQ pin

to set a free-running frequency near the desired synchro-

nization frequency. The VCO’s input voltage is prebiased

at a frequency corresponding to the frequency set by the

FREQ pin. Once prebiased, the PLL only needs to adjust

the frequency slightly to achieve phase lock and synchro-

nization. Although it is not required that the free-running

frequency be near external clock frequency, doing so will

prevent the operating frequency from passing through a

large range of frequencies as the PLL locks.

, holds the voltage at the VCO input.

OSC

, then current is sourced continu-

OSC

Minimum On-Time Considerations

Minimum on-time, t

that the LTC3788-1 is capable of turning on the bottom

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.

In forced continuous mode, if the duty cycle falls below

what can be accommodated by the minimum on-time,

the controller will begin to skip cycles but the output will

continue to be regulated. More cycles will be skipped when

to keep the top MOSFET on continuously. The minimum

on-time for the LTC3788-1 is approximately 110ns.

Table 1 summarizes the different states in which the FREQ

pin can be used.

Table 1.

Any of the Above

increases. Once V

FREQ PIN

Figure 6. Relationship Between Oscillator

Frequency and Resistor Value at the FREQ Pin

Resistor

INTV

1000

900

800

700

400

300

200

100

600

500

35 45 55

ON(MIN)

FREQ PIN RESISTOR (kΩ)

PLLIN/MODE PIN

External Clock

rises above V

DC Voltage

65 75 85 95 105 115 125

, is the smallest time duration

OUT

, the loop works

50kHz to 900kHz

Phase Locked to

37881 F06

External Clock

FREQUENCY

350kHz

535kHz

37881f

LTC3788-1 Linear Technology, LTC3788-1 Datasheet - Page 20

LTC3788-1

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