BD9673AEFJ Datasheet, PDF(16/23 Page) Rohm – Flexible Step-down Switching Regulators with Built-in Power MOSFET

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BD9673AEFJ Datasheet, PDF (16/23 Pages) Rohm – Flexible Step-down Switching Regulators with Built-in Power MOSFET

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BD9673AEFJ

Datasheet

Ipeak =Iout + â¿IL/2 [A]

(1)

Vin-Vout

Vout

â¿IL=

Vin

f [A]

(2)

(Î·: Efficiency, â¿IL: Output Ripple Current, f: Switching Frequency)

Î IL

Figure 46. Inductor Current

For design value of Inductor Ripple Current, please carry out design tentatively with about 20%ï½50% of Maximum Input

Current.

â»When current that exceeds Coil rating flows to the coil, the Coil causes a Magnetic Saturation, and there are cases

wherein a decline in efficiency, oscillation of output happens. Please have sufficient margin and select so that Peak

Current does not exceed Rating Current of Coil.

(2) Output Capacitor

In order for Capacitor to be used in Output to reduce Output Ripple, Low Ceramic Capacitor of ESR is recommended.

Also, for Capacitor Rating, on top of putting into consideration DC Bias Characteristics, please use something whose

Maximum Rating has sufficient margin with respect to the Output Voltage.

Output Ripple Voltage is looked for using the following formula.

Vpp=â¿ILÃ

ï¼ â¿ILÃRESR [V] ã»ã»ã» (3)

2ÏÃfÃCo

Please design in a way that it is held within Capacity Ripple Voltage.

(3) Output Voltage Setting

ERROR AMP internal Standard Voltage is 1.0V. Output Voltage is determined as seen in (4) formula.

VOUT

ERROR AMP

(R1+R2)

Vo=

Ã1.0 [V] ã»ã»ã» (4)

VREF

1.0V

Figure 47.Voltage Return Resistance Setting Method

(4) Bootstrap Capacitor

Please connect from 0.01ÂµF (Laminate Ceramic Capacitor) between BST Pin and Lx Pins.

www.rohm.com

TSZ22111ã»15ã»001

16/20

TSZ02201-0Q1Q0AJ00190-1-2

28.JAN.2014 Rev.003

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