LT3689EMSE-5#PBF Linear Technology, LT3689EMSE-5#PBF Datasheet - Page 15

LT3689EMSE-5#PBF

Manufacturer Part Number

LT3689EMSE-5#PBF

Description

IC BUCK 5V 0.7A 16MSOP

Manufacturer

Linear Technology

Type

Step-Down (Buck)r

Datasheet

1.LT3689EUDPBF.pdf (32 pages)

Specifications of LT3689EMSE-5#PBF

Internal Switch(s)

Yes

Synchronous Rectifier

Number Of Outputs

Voltage - Output

Current - Output

700mA

Frequency - Switching

350kHz ~ 2.2MHz

Voltage - Input

3.6 ~ 36 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

16-MSOP Exposed Pad

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power - Output

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APPLICATIONS INFORMATION

this condition and forces the switch to turn off, allowing

the inductor current to charge up the boost capacitor.

This places a limitation on the maximum duty cycle. The

maximum duty cycle that the LT3689 can sustain is 90%.

From this DC

can be calculated using the following equation:

Example: V

Inductor Selection and Maximum Output Current

A good first choice for the inductor value is:

where V

inductor’s RMS current rating must be greater than the

maximum load current and its saturation current should

be at least 30% higher. For robust operation in fault con-

ditions (start-up or short-circuit) and high input voltage

(>30V), use an 8.2µH or greater inductor (for T

use 10µH or larger) with a saturation rating of 2.5A, or

L = (V

is the switching frequency in MHz, and L is in µH. The

IN(MIN)

OUT

is the voltage drop of the catch diode (~0.4V),

OUT

MAX

+ V

3.3V + 0.4V

OUT

= 3.3V

Table 2. Inductor Vendors

VENDOR

Sumida

Toko

Würth Elektronik

0.90

number, the minimum operating voltage

0.90

) •

+ V

2.2MHz

− V

– 0.4V + 0.4V = 4.1V

+ V

www.sumida.com

www.toko.com

www.we-online.com

URL

> 125°C,

PART SERIES

WE-PD2(M)

WE-TPC(M)

CDRH4D28

CDRH5D28

A916CY

D585LC

higher. To keep the efficiency high, the series resistance

(DCR) should be less than 0.15Ω and the core mate-

rial should be intended for high frequency applications.

Table 2 lists several vendors and suitable types.

The current in the inductor is a triangle wave with an

average value equal to the load current. The peak switch

current is equal to the output current plus half the peak-to-

peak inductor ripple current. The LT3689 limits its switch

current in order to protect itself and the system from

overload faults. Therefore, the maximum output current

that the LT3689 will deliver depends on the switch current

limit, the inductor value, and the input and output volt-

ages. Also, if the inductor current’s bottom peak exceeds

the DA current limit (I

then the DA current comparator will regulate the bottom

peak to I

current and will further limit the max output current. The

DA current limit consists of a DC and an AC component.

The nominal DC component is fixed at 1.2A. The AC

component depends on the output voltage, inductor size

and a fixed time delay between the DA comparator turn-

ing off and switch turning on. Therefore, the DA current

limit I

under overload conditions.

LIM(DA)

INDUCTANCE RANGE

LIM(DA)

= 1.2A −

1.2 to 4.7

will increase as the output voltage collapses

2.5 to 10

1.1 to 39

2.2 to 22

2 to 12

1 to 10

(µH)

. This will result in higher inductor ripple

(

LT3689/LT3689-5

LIM(DA)

OUT

+ V

4.5 × 4.5

5.5 × 5.5

6.3 × 6.2

4.8 × 4.8

5.2 × 5.8

) at high output currents

8.1 × 8

(mm)

SIZE

)

• 0.25µs

3689fd

LT3689EMSE-5#PBF Linear Technology, LT3689EMSE-5#PBF Datasheet - Page 15

LT3689EMSE-5#PBF

Specifications of LT3689EMSE-5#PBF

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