EP3101_15 Datasheet, PDF(9/13 Page) Eorex Corporation – 150 KHz, 3A Asynchronous Step-down Converter

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EP3101_15 Datasheet, PDF (9/13 Pages) Eorex Corporation – 150 KHz, 3A Asynchronous Step-down Converter

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eorex

EP3101

Buck Regulator Design Procedure

Given:

VOUT = Regulated Output Voltage (3.3V, 5V or 12V)

VIN(max) = Maximum DC Input Voltage

ILOAD(max) = Maximum Load Current

F = Switching Frequency (Fixed at a nominal 150KHz)

1. Output Capacitor Selection (COUT)

A low ESR (Equivalent Series Resistance) electrolytic capacitors between 82Î¼F and 820Î¼F and low ESR

solid tantalum capacitors between 10Î¼F and 470Î¼F provide the best results. This capacitor should be

located close to the IC using short capacitor leads and short copper traces. Do not use capacitors larger

than 820Î¼F. The capacitor voltage rating for electrolytic capacitors should be at least 1.5 times greater

than the output voltage.

2. Catch Diode Selection (D1)

The catch diode current rating must be at least 1.3 times greater than the maximum load current. Also, if

the power supply design must withstand a continuous output short, the diode should have a current

rating equal to the maximum current limit of the EP3101. The reverse voltage rating of the diode should

be at least 1.25 times the maximum input voltage. This diode must have short reverse recovery time and

must be located close to the EP3101 using short leads and short printed circuit traces. Because of their

fast switching speed and low forward voltage drop, Schottky diodes provide the best performance and

efficiency, and should be the first choice, especially in low output voltage applications. Ultra-fast recovery

diodes typically have reverse recovery times of 50ns or less.

3. Input Capacitor (CIN)

A low ESR aluminum or tantalum bypass capacitor is needed to prevent large voltage transients from

appearing at the input. In addition, the RMS current rating of the input capacitor should be selected to be

at least 1â2 the DC load current. The capacitor manufacturerâs data sheet must be checked to assure that

this current rating is not exceeded. For aluminum electrolytic, the capacitor voltage rating should be

approximately 1.5 times the maximum input voltage.

4. Programming Output Voltage (Selecting R1 and R2, as shown in Adjustable Type Circuit)

Use the following formula to select the appropriate resistor values.

VOUT =VREF Ã ââ1 + R1 ââ where VREF =1.23V

â R2 â

Select a value for R2 between 240â¦ and 1.5Kâ¦The lower resistor values minimize noise pickup in the

sensitive feedback pin. (For the lowest temperature coefficient and the best stability with time, use 1%

metal film resistors.)

5. Inductor Selection (L1)

Calculate the inductor Volt â¢ microsecond constant E â¢ T (V â¢Î¼s), from the following formula:

Eâ¢T = (VIN-VOUT-VSAT) â¢

VOUT + VD

1000

â¢

(Vâ¢Î¼s)

VIN â VSAT + VD 150KHz

where VSAT = internal switch saturation voltage = 1.16V and VD = diode forward voltage drop = 0.5V

On the horizontal axis selects the maximum load current.

Jul. 2006

www.eorex.com

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