MP2106DQ MPS [Monolithic Power Systems], MP2106DQ Datasheet - Page 6

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MP2106DQ

Manufacturer Part Number

MP2106DQ

Description

1.5A, 15V, 800KHz Synchronous Buck Converter

Manufacturer

MPS [Monolithic Power Systems]

Datasheet

1.MP2106DQ.pdf (11 pages)

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Current page: 6 of 11
Download datasheet (292Kb)

The MP2106 measures the output voltage

through an external resistive voltage divider and

compares that voltage to the internal 0.9V

reference in order to generate the error voltage

at COMP. The current-mode regulator uses the

voltage at COMP and compares it to the

inductor current to regulate the output voltage.

The use of current-mode regulation improves

transient response and improves control loop

stability.

At the beginning of each cycle, the high-side

N-Channel MOSFET is turned on, forcing the

inductor current to rise. The current at the drain

of

measured and converted to a voltage by the

current sense amplifier.

That voltage is compared to the error voltage at

COMP. When the inductor current rises

sufficiently, the PWM comparator turns off the

high-side switch and turns on the low-side

APPLICATION INFORMATION

Internal Low-Dropout Regulator

The internal power to the MP2106 is supplied

from the input voltage (VIN) through an internal

2.4V low-dropout linear regulator, whose output

is VREF. Bypass VREF to SGND with a 10nF

or greater capacitor for proper operation. The

internal regulator can not supply more current

than is required to operate the MP2106.

Therefore, do not apply any external load to

VREF.

MP2106 Rev. 1.6

2/22/2006

the

high-side

TM

2.6V to 15V

INPUT

MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited.

MOSFET

10nF

C5

OPEN

Figure 2—Typical Application Circuit

MP2106 – 1.5A, 15V, 800KHz SYNCHRONOUS BUCK CONVERTER

C4

is

3.3nF

internally

© 2006 MPS. All Rights Reserved.

C3

www.MonolithicPower.com

10nF

5

1

3

C6

RUN

SS

COMP

VREF

VIN

4

7

MP2106

SGND

switch, forcing the inductor current to decrease.

The average inductor current is controlled by

the voltage at COMP, which in turn is controlled

by the output voltage. Thus the output voltage

controls the inductor current to satisfy the load.

Since

requires voltages above V

bootstrap capacitor from LX to BST is required

to drive the high-side MOSFET gate. When LX

is driven low (through the low-side MOSFET),

the BST capacitor is internally charged. The

voltage at BST is applied to the high-side

MOSFET gate to turn it on, and maintains that

voltage until the high-side MOSFET is turned

off and the low-side MOSFET is turned on, and

the cycle repeats. Connect a 10nF or greater

capacitor from BST to SW to drive the high-side

MOSFET gate.

Soft-Start

The MP2106 includes a soft-start timer that

slowly ramps the output voltage at startup to

prevent excessive current at the input.

When power is applied to the MP2106, and

RUN is asserted, a 2µA internal current source

charges the external capacitor at SS. As the

capacitor charges, the voltage at SS rises. The

MP2106 internally limits the feedback threshold

voltage at FB to that of the voltage at SS. This

forces the output voltage to rise at the same

rate as the voltage at SS, forcing the output

10

PGND

BST

9

6

LX

10nF

FB

C7

the

8

2

high-side

OUTPUT

1.8V / 1.5A

MP2106_TAC_F02

N-Channel

IN

to drive its gate, a

MOSFET

6

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