a4403geu-t Allegro MicroSystems, Inc., a4403geu-t Datasheet - Page 8

a4403geu-t

Manufacturer Part Number

a4403geu-t

Description

Valley Current Mode Control Buck Converter

Manufacturer

Allegro MicroSystems, Inc.

Datasheet

1.A4403GEU-T.pdf (15 pages)

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A4403

reduced, the bandwidth remains largely constant; however, the

phase margin tends to reduce slightly because the output power

pole is shifted down in frequency, introducing the phase lag

sooner. At light loads, before pulse frequency modulation occurs,

the phase margin reduces to approximately 40°, which is reason-

able given that it is the worst-case condition. Note that when

pulse frequency modulation occurs, the system no longer operates

as a linear system, therefore, the control laws do not apply.

When the output voltage is set for higher voltages, the DC gain

is reduced by the resistor feedback network from the output. This

effectively reduces the bandwidth of the control loop. An optional

speed-up capacitor (C6) can be used in parallel with the feedback

resistor (R5) to compensate for this effect. The addition of this

capacitor introduces an additional zero which increases the gain

and extends the bandwidth to maintain it in the region of 90 kHz.

The position of the zero depends on the values of R5 and C6.

The following time constants should be used for various output

voltages:

For example, assume a target output voltage of 5 V, and an R5 of

16 kΩ to achieve that voltage. Then C6 = 2.28 × 10

est commonly available value is 2.2 nF.

Inductor The main factor in selecting the inductance value is

the ripple current. The ripple current affects the output voltage

ripple and also has an effect on the current limit. Because slope

compensation is not used, the ripple current is not constrained by

this factor.

A good starting point in selecting the inductance for a given

application is to specify a maximum peak-to-peak ripple current

of about 25% of the maximum load. The equates to a ripple cur-

rent of approximately 750 mA for a maximum load of 3 A. This

often gives a good compromise between size, cost, and perfor-

mance.

Output Voltage

(V)

3.3

2.5

1.5

0.8

Time Constant

Not required

3.6 × 10

2.4 × 10

1.8 × 10

1.1 × 10

–8

–5

. The near-

Valley Current Mode Control Buck Converter

The maximum peak to peak ripple current, I

maximum input voltage. Therefore the duty cycle, D, should be

found under these conditions:

where V

and the sense resistor.

The required inductance can be found:

Note that the manufacturers inductance tolerance should also be

taken into account. This value may be as high as ±20%.

In addition, because the control is dependant on the valley signal,

it is important to consider the minimum peak to peak valley

voltage that is developed across the sense resistor. The minimum

peak to peak ripple current occurs at minimum input voltage. The

peak to peak voltage is simply the peak to peak current multiplied

by the sense resistor value. It is recommended that the peak to

peak sense voltage should be greater than 25 mV.

It is recommended that gapped ferrite solutions be used as

opposed to powdered iron solutions. The latter exhibit relatively

high core losses that can have a large impact on long term reli-

ability.

Inductors are typically specified at two current levels:

• rms current. It is important to understand how the rms current

• saturation current. The worst case maximum peak current

level is specified, in terms of ambient temperature. Some manu-

facturers quote an ambient only, whilst others quote a tempera-

ture that includes a self-temperature rise. For example, if an

inductor is rated for 85°C and includes a self-temperature rise of

25°C at maximum load, then the inductor cannot be safely oper-

ated beyond an ambient temperature of 60°C at full load. The

rms current can be assumed to be simply the maximum load

current, with perhaps some margin to allow for overloads, and

so forth.

should not exceed the saturation current and indeed some mar-

gin should be allowed. The maximum peak current can be found

L (min)

is the forward voltage drop of the recirculation diode

D (min) =

RIPP

– V

OUT

115 Northeast Cutoff

1.508.853.5000; www.allegromicro.com

Allegro MicroSystems, Inc.

Worcester, Massachusetts 01615-0036 U.S.A.

OUT

(max)+V

D (min)

RIPP

, occurs at the

(min)

(8)

(9)

a4403geu-t Allegro MicroSystems, Inc., a4403geu-t Datasheet - Page 8

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