STEVAL-ISA039V1 STMicroelectronics, STEVAL-ISA039V1 Datasheet - Page 21

STEVAL-ISA039V1

Manufacturer Part Number

STEVAL-ISA039V1

Description

BOARD EVAL BASED ON L6727

Manufacturer

STMicroelectronics

Type

DC/DC Switching Converters, Regulators & Controllersr

Datasheets

1.L6727TR.pdf (34 pages)

2.STEVAL-ISA039V1.pdf (4 pages)

Specifications of STEVAL-ISA039V1

Design Resources

STEVAL-ISA039V1 Gerber Files L6727 Eval Board Schematic STEVAL-ISA039V1 Bill of Materials

Main Purpose

DC/DC, Step Down

Outputs And Type

1, Non-Isolated

Voltage - Output

1.25V

Current - Output

Voltage - Input

5 ~ 12V

Regulator Topology

Buck

Frequency - Switching

300kHz

Board Type

Fully Populated

Utilized Ic / Part

L6727

Input Voltage

5 V to 12 V

Output Voltage

1.25 V

Product

Power Management Modules

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power - Output

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

For Use With/related Products

L6727

Other names

497-8266

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

STEVAL-ISA039V1

Manufacturer:

STMicroelectronics

Quantity:

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L6727

10.2

10.3

Output capacitors

Output capacitors choice depends on the application constraints in point of output voltage

ripple and output voltage deviation during a load transient.

During steady-state conditions, the output voltage ripple is influenced by ESR and

capacitance of the output capacitors as follows:

Where ΔI

will be lower than the sum of their moduli. Even ESL and board parasitic inductance can

contribute significantly to output ripple.

During a load variation, the output capacitors supply to the load the additional current or

absorb the current in excess delivered by the inductor until converter reaction is completed.

In fact, even if the controller react immediately to the load transient saturating the duty cycle

to 80 % or 0 %, the current slew rate is limited by the inductance. At first approximation,

output voltage drop, based on ESR and capacitor charge/discharge and considering an

ideal load-step, can be estimated as follows:

Where ΔV

the load appliance or V

MLCC capacitors typically have low ESR to minimize the ripple but also have low

capacitance that do not minimize the capacitive voltage deviation during load transient. On

the contrary, electrolytic capacitors usually have higher capacitance to minimize capacitive

voltage deviation during load transient, but also higher ESR value resulting in higher ripple

voltage and resistive voltage drop. For these reasons, a mix between electrolytic and MLCC

capacitor is usually suggested to minimize ripple as well as reducing voltage deviation in

dynamic conditions.

Input capacitors

The input capacitor bank is designed mainly to stand input rms current, which depends on

output current (I

The equation reaches its maximum value, I

capacitor ESR:

ΔV

rms

OUT_ESR

OUT_C

OUT_ESR

OUT_C

ESR I

OUT

⋅

is the inductor current ripple. These contribution are not in phase, so total ripple

ΔI

is the voltage applied to the inductor during the transient (

⋅

rms

------------------------------------- -

2 C

⋅

ΔI

L ΔI

⋅

OUT

-------------------------------------- -

8 C

⋅

OUT

⋅

(

⋅

1 D

ESR

OUT

–

⋅

) and duty-cycle (D) for the regulation as follows:

OUT

⋅

ESR

ΔV

)

OUT

⋅

for the load removal).

Doc ID 12933 Rev 4

OUT

/2, when D = 0.5. Losses depend on input

Application information

MAX

⋅

–

OUT

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STEVAL-ISA039V1 STMicroelectronics, STEVAL-ISA039V1 Datasheet - Page 21

STEVAL-ISA039V1

Specifications of STEVAL-ISA039V1

Available stocks

Related parts for STEVAL-ISA039V1