LTC3829EFE#PBF Linear Technology, LTC3829EFE#PBF Datasheet - Page 15

LTC3829EFE#PBF

Manufacturer Part Number

LTC3829EFE#PBF

Description

IC BUCK SYNC ADJ 38TSSOP

Manufacturer

Linear Technology

Type

Step-Down (Buck)r

Datasheet

1.LTC3829EFEPBF.pdf (40 pages)

Specifications of LTC3829EFE#PBF

Internal Switch(s)

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

0.6 ~ 5 V

Frequency - Switching

250kHz ~ 770kHz

Voltage - Input

4.5 ~ 38 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

38-TSSOP Exposed Pad, 38-eTSSOP, 38-HTSSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output

Power - Output

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applicaTions inForMaTion

The Typical Application on the first page of this data sheet

is a basic LTC3829 application circuit. The LTC3829 can be

configured to use either DCR (inductor resistance) sens-

ing 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 se-

lection of R

Next, the power MOSFETs are selected. Finally, input and

output capacitors are selected.

Current Limit Programming

The I

mum current limit of the controller. When I

grounded, floated or tied to INTV

the maximum current sense threshold will be 30mV, 50mV

or 75mV, respectively.

Which setting should be used? For the best current limit

accuracy, use the 75mV setting. The 30mV setting will allow

for the use of very low DCR inductors or sense resistors,

but at the expense of current limit accuracy. The 50mV

setting is a good balance between the two.

SENSE

The SENSE

comparators. The common mode input voltage range of

the current comparators is 0V to 5V. All SENSE

high impedance inputs with small currents of less than

1µA. The high impedance inputs to the current compara-

tors allow accurate DCR sensing. All SENSE

DIFFP should be connected to V

sensing is used. Care must be taken not to float these

pins during normal operation. Filter components mutual

to the sense lines should be placed close to the LTC3829,

and the sense lines should run close together to a Kelvin

connection underneath the current sense element (shown

in Figure 1). Sensing current elsewhere can effectively add

parasitic inductance and capacitance to the current sense

LIM

and SENSE

pin is a tri-level logic input which sets the maxi-

SENSE

and SENSE

(if R

–

Pins

SENSE

–

pins are the inputs to the current

is used) and inductor value.

OUT

, the typical value for

directly when DCR

LIM

–

pins and

is either

pins are

element, degrading the information at the sense terminals

and making the programmed current limit unpredictable.

If DCR sensing is used (Figure 2b), sense resistor R1

should be placed close to the switching node, to prevent

noise from coupling into sensitive small-signal nodes. The

capacitor C1 should be placed close to the IC pins.

Low Value Resistors Current Sensing

A typical sensing circuit using a discrete resistor is shown

in Figure 2a. R

output current. The current comparator has a maximum

threshold V

input common mode range of the current comparator is

0V to 5V. The current comparator threshold sets the peak

of the inductor current, yielding a maximum average

output current I

peak-to-peak ripple current, ∆I

resistor value, use the equation:

Because of possible PCB noise in the current sensing loop,

the AC current sensing ripple of ∆V

also needs to be checked in the design to get a good

signal-to-noise ratio. In general, for a reasonably good

PCB layout, a 10mV ∆V

a conservative number to start with, either for R

DCR sensing applications. For previous generation current

mode controllers, the maximum sense voltage was high

enough (e.g., 75mV for the LTC1628/LTC3728 family)

that the voltage drop across the parasitic inductance of

the sense resistor represented a relatively small error. For

today’s highest current density solutions, however, the

value of the sense resistor can be less than 1mΩ and the

SENSE

Figure 1. Sense Lines Placement with Sense Resistor

SENSE(MAX)

MAX

SENSE MAX

SENSE

MAX

(

equal to the peak value less half the

∆

is chosen based on the required

determined by the I

SENSE

)

TO SENSE FILTER,

NEXT TO THE CONTROLLER

voltage is recommended as

3829 F01

. To calculate the sense

SENSE

OUT

LTC3829

LIM

= ∆I

setting. The

• R

SENSE

3829f

LTC3829EFE#PBF Linear Technology, LTC3829EFE#PBF Datasheet - Page 15

LTC3829EFE#PBF

Specifications of LTC3829EFE#PBF

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