QP0-2-EVAL1 Datasheet, PDF(1/2 Page) Vicor Corporation – Evaluation Board for QPO-2 Active Output Filter

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QP0-2-EVAL1 Datasheet, PDF (1/2 Pages) Vicor Corporation – Evaluation Board for QPO-2 Active Output Filter

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QP0-2-EVAL1

QUIETPOWERâ¢

Evaluation Board for QPO-2 Active Output Filter

The QPO-2-EVAL1 board provides an easy to use

evaluation platform for testing the QPO-2 in a low-

voltage system. A filtered voltage range of 0.3 Vdc to 5.5

Vdc at output load currents up to 20A can be

accomplished. A low current bias supply is required at the

VAUX input in the range of 7 to 12 volts respectively to

the output voltage range. The board comes with a QPO-2LZ

and some essential external components pre-mounted.

Please refer to the QPO- 2 datasheet for product details.

Terminals for horizontal or vertical mounting are also

provided. The user must mount and select component

values for RHR, RSC, RSL and RSA based on their system needs.

RCP will preset the QPO-2âs reference voltage to a value

close to the desired steady-state value. This reduces the

time required for the QPO-2âs output to reach the

steadystate output voltage. There is a provision for a start-

up circuit (Q1 RDLY D1 CDLY) if the initial headroom

voltage needs to start from zero and increase gradually to

the set headroom voltage. Remote sense components (CRS

RRS), Figure 3 of the product datasheet, are mounted on

the evaluation board.

When remote sensing is not used RSC is the current

programming resistor that determines the current sourced

by the QPO-2âs Adjust+ pin to drive the TRIM pin of a

converter. The RSL resistor shown in Figure 4 of the

product datasheet (not on the evaluation board) can be

used to limit the correction current sourced from the

Adjust+ circuit if needed during start-up preventing the

converter from tripping OVP.

RHR is the headroom voltage setting resistor that will

determine the voltage dropped across the QPO-2. The RSA

resistor is for the slope-adjust option, which can be used

to reduce the amount of voltage across the QPO-2

depending on load current. This reduced drop in voltage

will result in a lower power loss across the QPO-2

providing greater efficiency but lower attenuation. An

optional capacitor, CHR, can be added to extend the low-

frequency attenuation range of the QPO-2.

The RP resistor connects the QPO-2âs peak detection circuit

to the input voltage rail. The peak detector will adapt the

headroom voltage by adding half the peak-to-peak ripple

voltage to the headroom. Internally, the QPO-2 has a

0.1uF capacitor on its peak detector pin that allows the

user to filter out the converterâs ripple with an

appropriate RP resistor value, disabling the peak detector.

This filtering is enabled by using a low resistance value for

RP, such as a zero ohm that comes pre-installed on the

QPO-2 Eval board.

QPO_IN

VAUX

QPO_OUT

QPOâIN

RCP

Low Voltage Start-up Circuit

QPO_IN

CRS

15 ÂµF

SENSE+

RRS

51.1

RDLY

20 K

MA111

CDLY

0.1 ÂµF

IRLML6401

QPO_OUT

VREF

QPOâIN

ADJUST/SC

GND

J10

GND

10 9

PEAKIN

ADJUST

QPO IN

15 PEAK IN

16 ADJUST+/-

GND

QPO OUT

QPO_OUT

SCSET

SC SET 5

RSC

1234

RSA

RHR

VREF

CHR

QPOâOUT

Figure 1 - Evaluation board schematic

Picor Corporation â¢ www.picorpower.com

QPO-2-EVAL1 Data Sheet Rev. 1.2 Page 1 of 2

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