ltc3862gn-1 Linear Technology Corporation, ltc3862gn-1 Datasheet - Page 29

ltc3862gn-1

Manufacturer Part Number

ltc3862gn-1

Description

Multi-phase Current Mode Step-up Dc/dc Controller

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC3862GN-1.pdf (40 pages)

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

LTC3862GN-1

Manufacturer:

LINEAR/凌特

Quantity:

20 000

Current page: 29 of 40
Download datasheet (741Kb)

APPLICATIONS INFORMATION

additional power dissipation is important when deciding

on a diode current rating, package type, and method of

heat sinking.

To a close approximation, the power dissipated by the

diode is:

The diode junction temperature is:

The R

the R

the board to the ambient temperature in the enclosure.

Once the proper diode has been selected and the circuit

performance has been veriﬁ ed, measure the temperature

of the power components using a thermal probe or infrared

camera over all operating conditions to ensure a good

thermal design.

Finally, remember to keep the diode lead lengths short

and to observe proper switch-node layout (see Board

Layout Checklist) to avoid excessive ringing and increased

dissipation.

Output Capacitor Selection

Contributions of ESR (equivalent series resistance), ESL

(equivalent series inductance) and the bulk capacitance

must be considered when choosing the correct combination

of output capacitors for a boost converter application. The

effects of these three parameters on the output voltage

TH(JC)

= T

TH(JA)

= I

D(PEAK)

+ P

for the device plus the thermal resistance from

to be used in this equation normally includes

• R

• V

TH(JA)

F(PEAK)

• (1 – D

AC COUPLED

100mV/DIV

MAX

100V/DIV

Figure 22. Switching Waveforms for a Boost Converter

2A/DIV

SW1

SW2

OUT

)

350mA LOAD

OUT

= 24V

= 72V

1μs/DIV

ripple waveform are illustrated in Figure 22 for a typical

boost converter.

The choice of component(s) begins with the maximum

acceptable ripple voltage (expressed as a percentage of

the output voltage), and how this ripple should be divided

between the ESR step and the charging/discharging ΔV.

For the purpose of simplicity we will choose 2% for the

maximum output ripple, to be divided equally between the

ESR step and the charging/discharging ΔV. This percentage

ripple will change, depending on the requirements of the

application, and the equations provided below can easily

be modiﬁ ed.

One of the key beneﬁ ts of multi-phase operation is a reduc-

tion in the peak current supplied to the output capacitor

by the boost diodes. As a result, the ESR requirement

of the capacitor is relaxed. For a 1% contribution to the

total ripple voltage, the ESR of the output capacitor can

be determined using the following equation:

where:

The factor n represents the number of phases and the factor

χ represents the percentage inductor ripple current.

ESR

D(PEAK)

COUT

38621 F22

≤

0.01• V

• 1+

D(PEAK)

OUT

•

1– D

O(MAX)

MAX

LTC3862-1

38621f

ltc3862gn-1 Linear Technology Corporation, ltc3862gn-1 Datasheet - Page 29

ltc3862gn-1

Available stocks

Related parts for ltc3862gn-1