LTC3736EUF-1#PBF Linear Technology, LTC3736EUF-1#PBF Datasheet - Page 10

LTC3736EUF-1#PBF

Manufacturer Part Number

LTC3736EUF-1#PBF

Description

IC CTRLR SW SYNC DUAL 2PH 24QFN

Manufacturer

Linear Technology

Series

PolyPhase®r

Type

Step-Down (Buck)r

Datasheet

1.LTC3736EGN-1.pdf (28 pages)

Specifications of LTC3736EUF-1#PBF

Internal Switch(s)

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

0.6 ~ 9.8 V

Current - Output

Frequency - Switching

450kHz ~ 580kHz

Voltage - Input

2.75 ~ 9.8 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

24-QFN

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power - Output

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OPERATIO

LTC3736-1

Main Control Loop

The LTC3736-1 uses a current mode architecture with the

two controllers operating 180 degrees out of phase.

During normal operation, the top external P-channel power

MOSFET is turned on when the clock for that channel sets

the RS latch, and turned off when the current comparator

the I

amplifier (EAMP). The V

feedback signal from an external resistor divider. This

feedback signal is compared to the internal 0.6V reference

voltage by the EAMP. When the load current increases, it

causes a slight decrease in V

ence, which in turn causes the I

the average inductor current matches the new load cur-

rent. While the top P-channel MOSFET is off, the bottom

N-channel MOSFET is turned on until either the inductor

current starts to reverse, as indicated by the current

reversal comparator, I

cycle.

Shutdown, Soft-Start and Tracking Start-Up

(RUN/SS and TRACK Pins)

The LTC3736-1 is shut down by pulling the RUN/SS pin

low. In shutdown, all controller functions are disabled and

the chip draws only 9µA. The TG outputs are held high (off)

and the BG outputs low (off) in shutdown. Releasing

RUN/SS allows an internal 0.7µA current source to charge

up the RUN/SS pin. When the RUN/SS pin reaches 0.65V,

the LTC3736-1’s two controllers are enabled.

The start-up of V

internal soft-start. During soft-start, the error amplifier

EAMP compares the feedback signal V

soft-start ramp (instead of the 0.6V reference), which rises

linearly from 0V to 0.6V in about 1ms. This allows the

output voltage to rise smoothly from 0V to its final value,

while maintaining control of the inductor current.

The 1ms soft-start time can be increased by connecting

the optional external soft-start capacitor C

RUN/SS and SGND pins. As the RUN/SS pin continues to

rise linearly from approximately 0.65V to 1.3V (being

CMP

resets the RS latch is determined by the voltage on

) resets the latch. The peak inductor current at which

pin, which is driven by the output of the error

OUT1

(Refer to Functional Diagram)

RCMP

is controlled by the LTC3736-1’s

pin receives the output voltage

, or the beginning of the next

relative to the 0.6V refer-

voltage to increase until

FB1

to the internal

between the

charged by the internal 0.7µA current source), the EAMP

regulates the V

The start-up of V

TRACK pin. When the voltage on the TRACK pin is less

than the 0.6V internal reference, the LTC3736-1 regulates

the V

reference. Typically, a resistor divider on V

nected to the TRACK pin to allow the start-up of V

“track” that of V

up, the resistor divider would have the same ratio as the

divider on V

Light Load Operation

The LTC3736-1 operates in PWM pulse skipping mode at

light loads. In this mode, the current comparator I

remain tripped for several cycles and force the external P-

channel MOSFET to stay off for the same number of cycles.

The inductor current is not allowed to reverse (discontinu-

ous operation). This mode exhibits low output ripple as

well as low audio noise and reduced RF interference, while

providing high light load efficiency.

Spread Spectrum Operation

Switching regulators can be particularily troublesome in

applications where electromagnetic interference (EMI) is

a concern. Switching regulators operate on a cycle-by-

cycle basis to transfer power to an output. In most cases,

the frequency of operation is either fixed or is a constant

based on the output load. This method of conversion

creates large components of noise at the frequency of

operation (fundamental) and multiples of the operating

frequency (harmonics). Figures 1a and 1b depict the

output noise spectrum of a conventional buck switching

converter (1/2 of LTC3736-1 with spread spectrum opera-

tion disabled) with V

Unlike conventional buck converters, the LTC3736-1’s

internal oscillator is designed to produce a clock pulse

whose frequency is randomly varied between 450kHz and

580kHz. This has the benefit of spreading the switching

noise over a range of frequencies, thus significantly reduc-

ing the peak noise. Figures 1c and 1d show the output

noise spectrum of the LTC3736-1 (with spread spectrum

FB2

voltage to the TRACK pin instead of the 0.6V

OUT2

FB1

OUT1

OUT2

that is connected to V

proportionally linearly from 0V to 0.6V.

. For one-to-one tracking during start-

is controlled by the voltage on the

= 5V, V

OUT

= 2.5V and I

FB2

OUT1

OUT

CMP

is con-

OUT2

= 2A.

may

37361f

LTC3736EUF-1#PBF Linear Technology, LTC3736EUF-1#PBF Datasheet - Page 10

LTC3736EUF-1#PBF

Specifications of LTC3736EUF-1#PBF

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