LTC3727EG-1#TR Linear Technology, LTC3727EG-1#TR Datasheet - Page 12

LTC3727EG-1#TR

Manufacturer Part Number

LTC3727EG-1#TR

Description

IC REG SW SYNC 2PH STPDWN 28SSOP

Manufacturer

Linear Technology

Series

PolyPhase®r

Type

Step-Down (Buck)r

Datasheet

1.LTC3727EGPBF.pdf (32 pages)

Specifications of LTC3727EG-1#TR

Internal Switch(s)

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

0.8 ~ 14 V

Current - Output

25A

Frequency - Switching

250kHz ~ 550kHz

Voltage - Input

4 ~ 36 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

28-SSOP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Power - Output

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OPERATIO

LTC3727/LTC3727-1

input power path, which could include batteries, switches,

trace/connector resistances and protection circuitry. Im-

provements in both conducted and radiated EMI also

directly accrue as a result of the reduced RMS input

current and voltage.

Of course, the improvement afforded by 2-phase opera-

tion is a function of the dual switching regulator’s relative

duty cycles which, in turn, are dependent upon the input

voltage V

the RMS input current varies for single-phase and 2-phase

operation for 3.3V and 5V regulators over a wide input

voltage range.

It can readily be seen that the advantages of 2-phase

operation are not just limited to a narrow operating range,

but in fact extend over a wide region. A good rule of thumb

for most applications is that 2-phase operation will reduce

the input capacitor requirement to that for just one channel

operating at maximum current and 50% duty cycle.

A final question: If 2-phase operation offers such an

advantage over single-phase operation for dual switching

regulators, why hasn’t it been done before? The answer is

that, while simple in concept, it is hard to implement.

Constant-frequency current mode switching regulators

(Duty Cycle = V

Figure 3. Input Waveforms Comparing Single-Phase (a) and 2-Phase (b) Operation for

Dual Switching Regulators Converting 12V to 5V and 3.3V at 3A Each. The Reduced Input

Ripple with the LTC3727 2-Phase Regulator Allows Less Expensive Input Capacitors,

Reduces Shielding Requirements for EMI and Improves Efficiency

(Refer to Functional Diagram)

OUT

IN(MEAS)

= 2.53A

(a)

). Figure 4 shows how

RMS

3727 F03a

INPUT CURRENT

INPUT VOLTAGE

3.3V SWITCH

5V SWITCH

500mV/DIV

20V/DIV

5A/DIV

require an oscillator derived “slope compensation” signal

to allow stable operation of each regulator at over 50%

duty cycle. This signal is relatively easy to derive in single-

phase dual switching regulators, but required the develop-

ment of a new and proprietary technique to allow 2-phase

operation. In addition, isolation between the two channels

becomes more critical with 2-phase operation because

switch transitions in one channel could potentially disrupt

the operation of the other channel.

Figure 4. RMS Input Current Comparison

3.0

2.5

2.0

1.5

1.0

0.5

IN(MEAS)

= 5V/3A

= 3.3V/3A

= 1.55A

(b)

INPUT VOLTAGE (V)

DUAL CONTROLLER

RMS

SINGLE PHASE

DUAL CONTROLLER

2-PHASE

3727 F03b

3727 F04

3727fc

LTC3727EG-1#TR Linear Technology, LTC3727EG-1#TR Datasheet - Page 12

LTC3727EG-1#TR

Specifications of LTC3727EG-1#TR

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