ADP1864AUJZ-R7 (Analog) PDF资料下载 Datasheet(11/16 页)

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参数资料

型号：	ADP1864AUJZ-R7
厂商：	Analog Devices Inc
文件页数：	11/16页
文件大小：	0K
描述：	IC REG CTRLR BUCK PWM TSOT23-6
产品培训模块：	Power Line Monitoring
标准包装：	1
PWM 型：	电流模式
输出数：	1
频率 - 最大：	650kHz
占空比：	100%
电源电压：	3.15 V ~ 14 V
降压：	是
升压：	无
回扫：	无
反相：	无
倍增器：	无
除法器：	无
Cuk：	无
隔离：	无
工作温度：	-40°C ~ 125°C
封装/外壳：	SOT-23-6 细型，TSOT-23-6
包装：	标准包装
产品目录页面：	791 (CN2011-ZH PDF)
配用：	ADP1864-EVALZ-ND - BOARD EVALUATION ADP1864
其它名称：	ADP1864AUJZ-R7DKR

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Data Sheet

MOSFET

Choose the external P-channel MOSFET based on the following:

threshold voltage (V T ), maximum voltage and current ratings,

R DS(ON) , and gate charge.

The minimum operating voltage of the ADP1864 is 3.15 V.

Choose a MOSFET with a V T that is at least 1 V lower than

the minimum input supply voltage used in the application.

Ensure that the maximum ratings for MOSFET V SG and V SD are

a few volts greater than the maximum input voltage used with

the ADP1864.

ADP1864

INPUT CAPACITOR

The input capacitor provides a low impedance path for the

pulsed current drawn by the external P-channel FET. Choose

an input capacitor whose impedance at the switching frequency

is lower than the impedance of the voltage source (V IN ). The

preferred input capacitor is a 10 μF ceramic capacitor due to

its low ESR and low impedance.

For all types of capacitors, make sure the ripple current rating

of the capacitor is greater than half of the maximum output

load current.

I FET ( rms ) =

V OUT + V D

× I LOAD

1

?

? V ? ? I × ?

+ ESR (10)

? 8 × f × C C OUT ?

Estimate the rms current in the MOSFET under continuous

conduction mode by

V IN + V D

Derate the MOSFET current by at least 20% to account for

inductor ripple and changes in the diode voltage.

The MOSFET power dissipation is the sum of the conducted

and switching losses:

PD FET(COND) = ( I FET(rms) ) 2 × (1 + T ) × R DS(ON)

(7)

(8)

Where space is limited, multiple capacitors can be placed in

parallel to meet the rms current requirement. Place the input

capacitor as close as possible to the IN pin of the ADP1864.

OUTPUT CAPACITOR

The ESR and capacitance value of the output capacitor

determine the amount of output voltage ripple.

? ?

? OUT ?

where f is the oscillator frequency (typically 580 kHz).

1 ? ( V OUT + V D ) × ( V IN ? V OUT ) ?

I rms ? × ?

L × f × V IN

2 × 3

?

?

where T = 0.005/°C × T J (FET) ? 25°C.

Ensure the maximum power dissipation calculated is significantly

less than the maximum rating of the MOSFET.

DIODE

The diode carries the inductor current during the off time of

Because the output capacitance is typically >40 μF, the ESR

dominates the voltage ripple. Ensure the output capacitor

ripple rating is greater than the maximum inductor ripple.

? ?

(11)

+ V D

= ? 1 ? OUT

? × I LOAD

I DIODE ( AV ) (9)

V IN + V D

?

?

the external FET. The average current of the diode is, therefore,

dependent on the duty cycle of the controller as well as the

output load current.

? V ?

? ?

where V D is the diode forward drop.

POSCAP? capacitors from Sanyo offer a good size, ESR, ripple,

and current capability trade-off.

FEEDBACK RESISTORS

The feedback resistors ratio sets the output voltage of the system.

ADP1864

A typical Schottky diode has a forward drop voltage of 0.5 V.

A Schottky diode is recommended for best efficiency because it

R2

3

R1

FB

V OUT

has a low forward drop and faster switching speed than junction

diodes. If a junction diode is used it must be an ultrafast recovery

Figure 14. Two Feedback Resistors Used to Set Output Voltage

0 . 8 V = V OUT ×

( V OUT ? 0 . 8 )

diode. The low forward drop reduces power losses during the

FET off time, and fast switching speed reduces the switching

losses during PFET transitions.

R1 = R2 ×

R 2

R1 + R 2

0 . 8

(12)

(13)

Choose 80.6 k? for R2. Using higher values for R2 results in

reduced output voltage accuracy, and lower values cause an

increased voltage divider current, thus increasing quiescent

current consumption.

Rev. C | Page 11 of 16

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