EN23F0QI-E Enpirion, EN23F0QI-E Datasheet - Page 15

EN23F0QI-E

Manufacturer Part Number

EN23F0QI-E

Description

Power Management IC Development Tools EVAL FOR EN23F0QI

Manufacturer

Enpirion

Type

DC/DC Converters, Regulators & Controllersr

Datasheet

1.EN23F0QI-E.pdf (26 pages)

Specifications of EN23F0QI-E

Rohs

yes

Product

Evaluation Boards

Tool Is For Evaluation Of

EN23F0QI

Input Voltage

4.5 V to 14 V

Output Voltage

0.6 V to 5 V

Output Current

6 A

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supplies: one for PVIN and the other for AVIN.

Single Input Supply Application (PVIN):

The EN23F0QI has an internal linear regulator that

converts PVIN to 3.3V. The output of the linear

regulator is provided on the AVINO pin once the

device is enabled. AVINO should be connected to

AVIN on the EN23F0QI. In this application, the

following external components are required: Place

a 1µF, X5R/X7R, capacitor between AVINO and

AGND as close as possible to AVINO. Place a

0.1µF, X5R/X7R, capacitor between AVIN and

AGND as close as possible to AVIN. In addition,

place a resistor (R

shown

asserted before PVIN. If no external enable signal

is used, tying ENABLE to AVIN meets this

requirement.

Dual Input Supply Application (PVIN and AVIN):

In this application, place a 0.1µF, X7R, capacitor

between AVIN and AGND as close as possible to

AVIN. Refer to Figure 6 for a recommended

=4.75kΩ. In this application, ENABLE cannot be

Figure 5. Single Supply Applications Circuit

Figure 6: Dual Input Supply Application Circuit

Figure

) between VDDB and AVIN, as

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schematic for a dual input supply application.

For dual input supply applications, the sequencing

of the two input supplies, PVIN and AVIN, is very

important. During power up, neither ENABLE nor

PVIN should be asserted before AVIN. There are

two common acceptable turn-on/off sequences for

the device. ENABLE can be tied to AVIN and come

up with it, and PVIN can be ramped up and down

as needed. Alternatively, PVIN can be brought high

after AVIN is asserted, and the device can be

turned on and off by toggling the ENABLE pin.

PVIN may be applied before AVIN if ENABLE is

toggled after both PVIN and AVIN is applied.

Enable Operation

The ENABLE pin provides a means to enable

normal operation or to shut down the device. A

logic high will enable the converter into normal

operation. When the ENABLE pin is asserted (high)

the device will undergo a normal soft-start, allowing

the output voltage to rise monotonically into

regulation. A logic low will disable the converter and

the device will power down in a controlled manner.

The ENABLE signal has to be low for at least the

ENABLE Lockout Time (8ms) in order for the

device to be re-enabled.

Pre-Bias Precaution

The EN23F0QI is not designed to be turned on into

a pre-biased output voltage.

capacitors are not charged or the output of the

EN23F0QI

is first enabled.

Frequency Synchronization

The switching frequency of the EN23F0QI can be

phase-locked to an external clock source to move

unwanted beat frequencies out of band. The

internal switching clock of the EN23F0QI can be

phase locked to a clock signal applied to the S_IN

pin. An activity detector recognizes the presence of

an external clock signal and automatically phase-

locks the internal oscillator to this external clock.

Phase-lock will occur as long as the input clock

frequency is in the range of 0.8MHz to 1.6MHz.

When no clock is present, the device reverts to the

free running frequency of the internal oscillator.

Adding a resistor (R

the switching frequency. If a 3KΩ resistor is placed

on FADJ the nominal switching frequency of the

EN23F0QI is 1MHz. Figure 7 shows the typical R

resistor value versus switching frequency.

is not pre-biased when the

) to the FADJ pin will adjust

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EN23F0QI

EN23F0QI-E Enpirion, EN23F0QI-E Datasheet - Page 15

EN23F0QI-E

Specifications of EN23F0QI-E

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