LTC3859AL Datasheet, PDF(20/44 Page) Linear Technology – Triple Output, Buck/Buck/Boost Synchronous Controller with 28μA Burst Mode IQ

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LTC3859AL Datasheet, PDF (20/44 Pages) Linear Technology – Triple Output, Buck/Buck/Boost Synchronous Controller with 28μA Burst Mode IQ

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LTC3859AL

Applications Information

The Typical Application on the first page is a basic

LTC3859AL application circuit. LTC3859AL can be config-

ured to use either DCR (inductor resistance) sensing or low

value resistor sensing. The choice between the two current

sensing schemes is largely a design trade-off between

cost, power consumption, and accuracy. DCR sensing

is becoming popular because it saves expensive current

sensing resistors and is more power efficient, especially

in high current applications. However, current sensing

resistors provide the most accurate current limits for the

controller. Other external component selection is driven

by the load requirement, and begins with the selection of

RSENSE (if RSENSE is used) and inductor value. Next, the

power MOSFETs and Schottky diodes are selected. Finally,

input and output capacitors are selected.

Filter components mutual to the sense lines should be

placed close to the LTC3859AL, and the sense lines should

run close together to a Kelvin connection underneath the

current sense element (shown in Figure 3). Sensing cur-

rent elsewhere can effectively add parasitic inductance

and capacitance to the current sense element, degrading

the information at the sense terminals and making the

programmed current limit unpredictable. If DCR sensing

is used (Figure 4b), sense resistor R1 should be placed

close to the switching node, to prevent noise from coupling

into sensitive small-signal nodes.

TO SENSE FILTER

NEXT TO THE CONTROLLER

SENSE+ and SENSEâ Pins

The SENSE+ and SENSEâ pins are the inputs to the cur-

rent comparators.

Buck Controllers (SENSE1+/SENSE1â,SENSE2+/SENSE2â):

The common mode voltage range on these pins is 0V to

28V (absolute maximum), enabling the LTC3859AL to

regulate buck output voltages up to a nominal 24V (al-

lowing margin for tolerances and transients). The SENSE+

pin is high impedance over the full common mode range,

drawing at most Â±1ÂµA. This high impedance allows the

current comparators to be used in inductor DCR sensing.

The impedance of the SENSEâ pin changes depending on

the common mode voltage. When SENSEâ is less than

INTVCCâ0.5V, a small current of less than 1ÂµA flows out

of the pin. When SENSEâ is above INTVCC+ 0.5V, a higher

current (â700ÂµA) flows into the pin. Between INTVCCâ0.5V

and INTVCC+0.5V, the current transitions from the smaller

current to the higher current.

Boost Controller (SENSE3+/SENSE3â): The common mode

input range for these pins is 2.5V to 38V, allowing the boost

converter to operate from inputs over this full range. The

SENSE3+ pin also provides power to the current compara-

tor and draws about 170ÂµA during normal operation (when

not shut down or asleep in Burst Mode operation). There is

a small bias current of less than 1ÂµA that flows out of the

SENSE3â pin. This high impedance on the SENSE3â pin allows

the current comparator to be used in inductor DCR sensing.

CURRENT FLOW

INDUCTOR OR RSENSE

3859al F03

Figure 3. Sense Lines Placement with Inductor or Sense Resistor

Low Value Resistor Current Sensing

A typical sensing circuit using a discrete resistor is shown

in Figure 4a. RSENSE is chosen based on the required

output current.

The current comparators have a maximum threshold

VSENSE(MAX) of 50mV. The current comparator threshold

sets the peak of the inductor current, yielding a maximum

average output current, IMAX, equal to the peak value less

half the peak-to-peak ripple current, DIL. To calculate the

sense resistor value, use the equation:

RSENSE

VSENSE(MAX )

IMAX

âIL

When using the buck controllers in very low dropout

conditions, the maximum output current level will be

reduced due to the internal compensation required to

meet stability criterion for buck regulators operating at

greater than 50% duty factor. A curve is provided in the

Typical Performance Characteristics section to estimate

this reduction in peak output current level depending upon

the operating duty factor.

For more information www.linear.com/3859AL

3859alf

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