ADP1882ARMZ-1.0-R7 (Analog) PDF资料下载 Datasheet(24/40 页)

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参数资料

型号：	ADP1882ARMZ-1.0-R7
厂商：	Analog Devices Inc
文件页数：	24/40页
文件大小：	0K
描述：	IC REG CTRLR BUCK PWM CM 10-MSOP
标准包装：	1
PWM 型：	电流模式
输出数：	1
频率 - 最大：	1MHz
占空比：	45%
电源电压：	2.75 V ~ 20 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：	10-TFSOP，10-MSOP（0.118"，3.00mm 宽）
包装：	标准包装
其它名称：	ADP1882ARMZ-1.0-R7DKR

ADP1882/ADP1883

APPLICATIONS INFORMATION

FEEDBACK RESISTOR DIVIDER

Table 7. Recommended Inductors

The required resistor divider network can be determined for

a given V OUT value because the internal band gap reference (V REF )

is fixed at 0.8 V. Selecting values for R T and R B determines the

minimum output load current of the converter. Therefore, for

a given value of R B , the R T value can be determined using the

following expression:

L

(μH)

0.12

0.22

0.47

0.72

0.9

DCR

(mΩ)

0.33

0.33

0.8

1.65

1.6

I SAT

(A)

55

30

50

35

28

Dimensions

(mm)

10.2 × 7

10.2 × 7

14.2 × 12.8

10.5 × 10.2

13 × 12.8

Manufacturer

Wurth Electronics

Wurth Electronics

Wurth Electronics

Wurth Electronics

Wurth Electronics

Model

Number

744303012

744303022

744355147

744325072

744355090

R T = R B ×

( V OUT ? 0 . 8 V)

0 . 8 V

1.2

1.0

1.4

1.8

3.3

3.2

25

20

24

10.5 × 10.2

10.5 × 10.2

14 × 12.8

Wurth Electronics

Wurth Electronics

Wurth Electronics

744325120

7443552100

744318180

INDUCTOR SELECTION

2.0

0.8

2.6

22

27.5

13.2 × 12.8

Wurth Electronics

Sumida

7443551200

CEP125U-0R8

The inductor value is inversely proportional to the inductor

ripple current. The peak-to-peak ripple current is given by

OUTPUT RIPPLE VOLTAGE (ΔV RR )

≈ LOAD

Δ I L = K I × I LOAD

I

3

The output ripple voltage is the ac component of the dc output

voltage during steady state. For a ripple error of 1.0%, the output

( V IN ? V OUT ) V OUT

where K I is typically 0.33.

The equation for the inductor value is given by

L = ×

Δ I L × f SW V IN

where:

V IN is the high voltage input.

V OUT is the desired output voltage.

f SW is the controller switching frequency (300 kHz, 600 kHz, and

1.0 MHz).

When selecting the inductor, choose an inductor saturation

rating that is above the peak current level, and then calculate

the inductor current ripple (see the Valley Current-Limit

Setting section and Figure 79).

capacitor value needed to achieve this tolerance can be deter-

mined using the following equation. Note that an accuracy of

1.0% is possible only during steady state conditions, not during

load transients.

Δ V RR = (0.01) × V OUT

OUTPUT CAPACITOR SELECTION

The primary objective of the output capacitor is to facilitate the

reduction of the output voltage ripple; however, the output

capacitor also assists in the output voltage recovery during load

transient events. For a given load current step, the output

voltage ripple generated during this step event is inversely

proportional to the value chosen for the output capacitor. The

speed at which the output voltage settles during this recovery

period depends on where the crossover frequency (loop

52

50

48

46

44

42

40

38

36

34

32

30

Δ I = 50%

Δ I = 40%

Δ I = 33%

bandwidth) is set. This crossover frequency is determined by

the output capacitor, the equivalent series resistance (ESR) of

the capacitor, and the compensation network.

To calculate the small-signal voltage ripple (output ripple

voltage) at the steady state operating point, use the following

equation:

C OUT = Δ I L × ? ?

?

28

26

24

22

20

18

?

?

1 ?

8 × F SW × [ Δ V RIPPLE ? ( Δ I L × ESR ) ] ? ?

16

14

12

10

where ESR is the equivalent series resistance of the output

capacitors.

8

6

8

10

12

14

16

18

20

22

24

26

28

30

To calculate the output load step, use the following equation:

VALLEY CURRENT LIMIT (A)

Figure 79. Peak Current vs. Valley Current Threshold for 33%, 40%, and 50%

of Inductor Ripple Current

C OUT = 2 ×

f SW

Δ I LOAD

× ( Δ V DROOP ? ( Δ I LOAD × ESR ))

where Δ V DROOP is the amount that V OUT is allowed to deviate for

a given positive load current step (ΔI LOAD ).

Rev. 0 | Page 24 of 40

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