AIC1638 查看數據表（PDF） - Analog Intergrations

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AIC1638

3-PIN ONE-CELL STEP-UP DC/DC CONVERTER

Analog Intergrations 

At the boundary between continuous and

discontinuous mode, output current (IOB) is

determined by

IOB

=





VIN

VOUT +

VD





1

2

VIN

L

TON(1− x)

where VD is the diode drop,

x = (RON+Rs)Ton/L.

RON= Switch turn on resistance, Rs= Inductor DC

resistance

TON = Switch ON time

In the discontinuous mode, the switching frequency

(fsw) is

fsw

=

2(L)(VOUT +

VIN2

VD − VIN)(IOUT)

× TON2

(1+

x

In the continuous mode, the switching frequency is

fsw

=

1

TON

(VOUT + VD − VIN)

(VOUT + VD − VSW)

[1+

x

2

( VIN − VSW )]

VOUT + VD − VSW

≅

1

TON





VOUT + VD − VIN

VOUT + VD − VSW





where Vsw = switch drop and proportion to output

current.

INDUCTOR SELECTION

To operate as an efficient energy transfer element,

the inductor must fulfill three requirements. First, the

inductance must be low enough for the inductor to

store adequate energy under the worst case

condition of minimum input voltage and switch ON

time. Second, the inductance must also be high

enough so maximum current rating of AIC1638 and

inductor are not exceed at the other worst case

condition of maximum input voltage and ON time.

Lastly, the inductor must have sufficiently low DC

resistance so excessive power is not lost as heat in

the windings. But unfortunately this is inversely

related to physical size.

Minimum and Maximum input voltage, output voltage

and output current must be established before and

inductor can be selected.

In discontinuous mode operation, at the end of the

switch ON time, peak current and energy in the

inductor build according to

AIC1638

3-PIN ONE-CELL STEP-UP DC/DC CONVERTER

SPEC NO: DS-1638-00 03/01/00

IPK

=





Vin

Ron + Rs

1−



exp(−

Ron +

L

Rs

Ton)



≅





VIN

L

(TON)1



−

x

2





≅

VIN

L

TON

(Simple losses equation),

where x=(RON+RS)TON/L

EL

=

1

2

L

× Ipk2

Power required from the inductor per cycle must be

equal or greater than

PL/fSW

=

(VOUT

+

VD

−

VIN)(IOUT)(

1

fSW

)

in order for the converter to regulate the output.

When loading is over IOB, PFM controller operates

in continuous mode. Inductor peak current can be

derived from

IPK

=





VOUT + VD − VSW

VIN − VSW

−

x

2

 IOUT



+





V IN

− VSW

2L

TON1−



x

2





Valley current (Iv) is

Iv

=





VOUT + VD − VSW

VIN − VSW

−

x

2

IOUT



− 



VIN

− VSW

2L

 ×



TON1−



x

2





ANALOG INTEGRATIONS CORPORATION

www.analog.com.tw

4F, 9 Industry E. 9th Road, Science-based Industrial Park , Hsinchu, Taiwan, R.O.C.

TEL: (8863)577-2500 FAX:(8863)577-2510

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