ADP2107-1.8-EVALZ (Analog) PDF资料下载 Datasheet(24/36 页)

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型号：	ADP2107-1.8-EVALZ
厂商：	Analog Devices Inc
文件页数：	24/36页
文件大小：	0K
描述：	BOARD EVAL FOR ADP2107-1.8
产品培训模块：	Powering 90nm/65nm FPGAs and Processors
标准包装：	1
主要目的：	DC/DC，步降
输出及类型：	1，非隔离
输出电压：	1.8V
电流 - 输出：	2A
输入电压：	2.7 ~ 5.5 V
稳压器拓扑结构：	降压
频率 - 开关：	1.2MHz
板类型：	完全填充
已供物品：	板
已用 IC / 零件：	ADP2107
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ADP2105/ADP2106/ADP2107

DESIGN EXAMPLE

Data Sheet

Consider an application with the following specifications:

Input Voltage = 3.6 V to 4.2 V.

Output Voltage = 2 V.

Typical Output Current = 600 mA.

Maximum Output Current = 1.2 A.

Soft Start Time = 2 ms.

Overshoot ≤ 100 mV under all load transient conditions.

1. Choose the dc-to-dc converter that satisfies the maximum

output current requirement. Because the maximum output

current for this application is 1.2 A, the ADP2106 with a

maximum output current of 1.5 A is ideal for this

application.

4.

5.

The closest standard inductor value is 2.2 μH. The maximum

rms current of the inductor is to be greater than 1.2 A, and

the saturation current of the inductor is to be greater than

2 A. One inductor that meets these criteria is the LPS4012-

2.2 μH from Coilcraft.

Choose the output capacitor based on the transient response

requirements. The worst-case load transient is 1.2 A, for

which the overshoot must be less than 100 mV, which is 5%

of the output voltage. For a 1 A load transient, the overshoot

must be less than 4% of the output voltage, then from

Output Capacitor × Output Voltage = 60 μC

R BOT =

V FB 0 . 8 V

? Output Capacitor =

≈ 30 μF

R TOP = R BOT ? OUT

? = 40 kΩ × ?

? V ? V FB ? ? 2 V ? 0 . 8 V ?

2 . 5 × V OUT × ( V IN ? V OUT )

V IN × I LOAD ( MAX )

μH = 2.18 μH

? ( 2 π ) F CROSS ? ? C OUT V OUT

R COMP = 0 . 8 ? ?

? ?

? =

? G m G CS

V REF

? ?

? ? ?

0 . 8 ?

? ?

? = 215 kΩ

? 50 μA / V × 2 . 8125 A / V ? ?

0 . 8 V

?

? ?

?

C COMP =

2 2

2.

3.

See whether the output voltage desired is available as a

fixed output voltage option. Because 2 V is not one of the

fixed output voltage options available, choose the adjustable

version of ADP2106.

The first step in external component selection for an

adjustable version converter is to calculate the resistance of

the resistive voltage divider that sets the output voltage.

= = 40 kΩ

I STRING 20 μA

? = 60 kΩ

? ?

? V FB ? ? 0 . 8 V ?

Calculate the minimum inductor value as follows:

For the ADP2106:

L > (0.83 μH/V) × V OUT

? L > 0.83 μH/V × 2 V

? L > 1.66 μH

Next, calculate the ideal inductor value that sets the

inductor peak-to-peak current ripple (ΔI L ) to 1/3 of the

maximum load current at the maximum input voltage as

follows:

L IDEAL = μH =

2 . 5 × 2 × ( 4 . 2 ? 2)

4 . 2 × 1 . 2

6.

7.

8.

9.

60 μC

2 . 0 V

Taking into account the loss of capacitance due to dc bias, as

shown in Figure 40, two 22 μF X5R MLCC capacitors from

Murata (GRM21BR60J226M) are sufficient for this

application.

Because the ADP2106 is being used in this application, the

input capacitors are 10 μF and 4.7 μF X5R Murata capacitors

(GRM21BR61A106K and GRM21BR61A475K).

The input filter consists of a small 0.1 μF ceramic capacitor

placed between IN and AGND and a 10 Ω resistor placed

between IN and PWIN1.

Choose a soft start capacitor of 2 nF to achieve a soft start

time of 2 ms.

Calculate the compensation resistor and capacitor as

follows:

?

?

? ( 2 π ) × 80 kHz ? ? 30 μF × 2 V ?

?

= = 39 pF

π F CROSS R COMP π × 80 kHz × 215 kΩ

Rev. D | Page 24 of 36

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