MAX15021EVKIT+ Maxim Integrated, MAX15021EVKIT+ Datasheet - Page 13

MAX15021EVKIT+

Manufacturer Part Number

MAX15021EVKIT+

Description

Power Management IC Development Tools MAX15021 Eval Kit

Manufacturer

Maxim Integrated

Type

DC/DC Converters, Regulators & Controllersr

Series

MAX15021r

Datasheet

1.MAX15021EVKIT.pdf (24 pages)

Specifications of MAX15021EVKIT+

Rohs

yes

Product

Evaluation Kits

Tool Is For Evaluation Of

MAX15021

Input Voltage

5.5 V

Output Voltage

0.6 V to 5.5 V

Output Current

2 A, 4 A

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Although the MAX15021’s regulators can operate from

input supplies ranging from 2.5V to 5.5V, the input-volt-

age range can be effectively limited by the

MAX15021’s duty-cycle limitations for a given output

voltage (V

lable minimum on-time (t

where t

The minimum input voltage (V

tively limited by the maximum controllable duty cycle

and is calculated using the following equation:

where V

Three key inductor parameters must be specified for

operation with the MAX15021: inductance value (L),

peak inductor current (I

current (I

function of operating frequency, input-to-output voltage

differential, and the peak-to-peak inductor current

(ΔI

lower inductance minimizes size and cost and

improves large-signal and transient response.

However, efficiency is reduced due to higher peak cur-

rents and higher peak-to-peak output-voltage ripple for

the same output capacitor. A higher inductance

increases efficiency by reducing the ripple current;

however, resistive losses due to extra wire turns can

exceed the benefit gained from lower ripple current lev-

els especially when the inductance is increased without

also allowing for larger inductor dimensions. Choose

the inductor’s peak-to-peak current, ΔI

of 20% to 50% of the full load current; as a rule of

thumb 30% is typical.

Calculate the inductance, L, using the following equation:

Maxim Integrated

OFF(MIN)

Regulator with Tracking/Sequencing Capability

PVIN_MAX

P-P

). Higher ΔI

PVIN_MIN

L H

ON(MIN)

[

PVIN_MAX

OUT_

SAT

is the 0.06µs (typ) controllable off-time.

) can be effectively limited by the control-

]

OUT_

). The minimum required inductance is a

is the regulator output voltage and

is 0.06µs (typ).

OUT_

[V]

Effective Input-Voltage Range

PVIN_

P-P

). The maximum input voltage

[V]

≥

allows for a lower inductor value. A

1 (t

[V] (V

≤

−

[V] f

ON(MIN)

PEAK

OFF(MIN)

Dual, 4A/2A, 4MHz, Step-Down DC-DC

PVIN_

), and inductor saturation

[MHz]

PVIN_MIN

Inductor Selection

OUT_

[ s] f

[V] V

[ s] f

−

[V]

P-P,

OUT_

) can be effec-

P P

[MHz]

−

[MHz])

in the range

[ ]

[V])

where V

regulator output voltage, and f

quency. Use typical values for V

that efficiency is optimum for typical conditions. The

switching frequency (f

500kHz and 4MHz (see the Oscillator section).

The peak-to-peak inductor current (ΔI

reflects the peak-to-peak output ripple, is largest at the

maximum input voltage. See the Output-Capacitor

Selection section to verify that the worst-case output

current ripple is acceptable.

Select an inductor with a saturation current, I

er than the maximum peak current to avoid runaway

current during continuous output short-circuit condi-

tions. Also, confirm that the inductor’s thermal perfor-

mances and projected temperature rise above ambient

does not exceed its thermal capacity. Many inductor

manufacturers provide bias/load current versus tem-

perature rise performance curves (or similar) to obtain

this information.

The discontinuous input current of the buck converter

causes large input ripple currents and therefore, the

input capacitor must be carefully chosen to withstand

the input ripple current and keep the input-voltage rip-

ple within design requirements.

The input-voltage ripple is comprised of ΔV

the capacitor discharge) and ΔV

of the input capacitor). The total voltage ripple is the

sum of ΔV

on-cycle. Calculate the required input capacitance and

ESR for a specified ripple using the following equations:

peak-to-peak inductor current, and V

supply voltage, V

and f

LOAD(MAX)

PVIN_

is the switching frequency.

PVIN_

P P

ESR

−

is the maximum output current, ΔI

[A]

and ΔV

[

is the input supply voltage, V

]

OUT_

]

(

PVIN_

ESR

PVIN_

LOAD(MAX)

⎛

⎜

⎝

Input-Capacitor Selection

LOAD(MAX)

is the regulator output voltage,

which peaks at the end of the

[V] f

−

) is programmable between

V [V] f

OUT_

MAX15021

ESR

[A]

)

[MHz] L

PVIN_

[mV]

[V] V

is the switching fre-

(caused by the ESR

⎛

⎜

⎝

PVIN_

P P

[MHz]

−

PVIN_

OUT_

and V

OUT_

⎞

⎟

⎠

[A]

P-P

[

is the input

OUT_

(caused by

[V]

SAT

[V]

P-P

), which

]

OUT_

⎞

⎟

⎠

, high-

is the

MAX15021EVKIT+ Maxim Integrated, MAX15021EVKIT+ Datasheet - Page 13

MAX15021EVKIT+

Specifications of MAX15021EVKIT+

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