ltc3890-1 Linear Technology Corporation, ltc3890-1 Datasheet - Page 19

ltc3890-1

Manufacturer Part Number

ltc3890-1

Description

60v Low Iq, Dual, 2-phase Synchronous Step-down Dc/dc Controller

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC3890-1.pdf (36 pages)

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RMS capacitor current requirement. Increasing the out-

put current drawn from the other controller will actually

decrease the input RMS ripple current from its maximum

value. The out-of-phase technique typically reduces the

input capacitor’s RMS ripple current by a factor of 30%

to 70% when compared to a single phase power supply

solution.

In continuous mode, the source current of the top MOSFET

is a square wave of duty cycle (V

large voltage transients, a low ESR capacitor sized for the

maximum RMS current of one channel must be used. The

maximum RMS capacitor current is given by:

This formula has a maximum at V

= I

used for design because even signiﬁ cant deviations do not

offer much relief. Note that capacitor manufacturers’ ripple

current ratings are often based on only 2000 hours of life.

This makes it advisable to further derate the capacitor, or

to choose a capacitor rated at a higher temperature than

required. Several capacitors may be paralleled to meet

size or height requirements in the design. Due to the high

operating frequency of the LTC3890-1, ceramic capacitors

can also be used for C

if there is any question.

The beneﬁ t of the LTC3890-1 2-phase operation can be

calculated by using Equation 1 for the higher power control-

ler and then calculating the loss that would have resulted

if both controller channels switched on at the same time.

The total RMS power lost is lower when both controllers

are operating due to the reduced overlap of current pulses

required through the input capacitor’s ESR. This is why

the input capacitor’s requirement calculated above for the

worst-case controller is adequate for the dual controller

design. Also, the input protection fuse resistance, battery

resistance, and PC board trace resistance losses are also

reduced due to the reduced peak currents in a 2-phase

system. The overall beneﬁ t of a multiphase design will

only be fully realized when the source impedance of the

power supply/battery is included in the efﬁ ciency testing.

The drains of the top MOSFETs should be placed within

APPLICATIONS INFORMATION

OUT

Required I

/2. This simple worst-case condition is commonly

RMS

≈

MAX

. Always consult the manufacturer

⎡

⎣

(

OUT

)

= 2V

(

)/(V

OUT

– V

). To prevent

, where I

OUT

)

⎤

⎦

1/ 2

RMS

(1)

1cm of each other and share a common C

the drains and C

current resonances at V

A small (0.1μF to 1μF) bypass capacitor between the chip

also suggested. A 10Ω resistor placed between C

and the V

two channels.

The selection of C

resistance (ESR). Typically, once the ESR requirement

is satisﬁ ed, the capacitance is adequate for ﬁ ltering. The

output ripple (ΔV

where f is the operating frequency, C

capacitance and ΔI

The output ripple is highest at maximum input voltage

since ΔI

Setting Output Voltage

The LTC3890-1 output voltages are each set by an exter-

nal feedback resistor divider carefully placed across the

output, as shown in Figure 5. The regulated output voltage

is determined by:

To improve the frequency response, a feedforward ca-

pacitor, C

route the V

inductor or the SW line.

pin and ground, placed close to the LTC3890-1, is

OUT

= 0.8V 1+

increases with input voltage.

, may be used. Great care should be taken to

pin provides further isolation between the

line away from noise sources, such as the

Figure 5. Setting Output Voltage

1/2 LTC3890-1

OUT

ESR +

may produce undesirable voltage and

OUT

) is approximated by:

is the ripple current in the inductor.

is driven by the effective series

8 • f • C

OUT

38901 F05

LTC3890-1

OUT

(s). Separating

is the output

(C1)

38901f

ltc3890-1 Linear Technology Corporation, ltc3890-1 Datasheet - Page 19

ltc3890-1

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