LTC1433CGN#PBF (Linear) PDF资料下载 Datasheet(8/20 页)

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参数资料

型号：	LTC1433CGN#PBF
厂商：	Linear Technology
文件页数：	8/20页
文件大小：	0K
描述：	IC REG BUCK 3.3V/5V/ADJ 16SSOP
标准包装：	100
类型：	降压（降压）
输出类型：	两者兼有
输出数：	1
输出电压：	3.3V，5V，可调
输入电压：	3 V ~ 13.5 V
PWM 型：	电流模式
频率 - 开关：	最高 700kHz
电流 - 输出：	450mA
同步整流器：	无
工作温度：	0°C ~ 70°C
安装类型：	表面贴装
封装/外壳：	16-SSOP（0.154"，3.90mm 宽）
包装：	管件
供应商设备封装：	16-SSOP

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LTC1433/LTC1434

APPLICATIO N S I N FOR M ATIO N

700

LTC1433/LTC1434 are used at 100% duty cycle with low

600

500

400

300

200

100

V PLLLPF = 2.5V

V PLLLPF = 0V

V PLLLPF = 1.19 V

input voltages.

Inductor Value Calculation

The operating frequency and inductor selection are inter-

related in that higher operating frequencies permit the use

of a smaller inductor for the same amount of inductor

ripple current. However, this is at the expense of efficiency

due to an increase in MOSFET gate charge losses.

0

0

50 100 150 200

CAPACITANCE ON C OSC PIN (pF)

1433/34 F02

The inductor value has a direct effect on ripple current. The

ripple current ? I L decreases with higher inductance or

Figure 2. Selecting C OSC for Oscillator Frequency

frequency and increases with higher V IN or V OUT :

V OUT ? 1 – OUT ?

As the operating frequency is increased the gate charge

losses will be higher, reducing efficiency. The maximum

recommended switching frequency is 700kHz. When us-

? I L =

1

( f )( L )

? V ?

? V IN ?

ing Figure 2 for synchronizable applications, the value of

C OSC is selected corresponding to a frequency 30% below

your center frequency (see Phase-Locked Loop and Fre-

quency Synchronization).

Low Supply Operation

The LTC1433/LTC1434 can function down to 3V and the

maximum allowable output current is also reduced at low

input voltages. Figure 3 shows the amount of change as

the supply is reduced down to 2.5V. The minimum guar-

anteed input supply is 3V.

100

90

80

70

60

50

4.0 3.5 3.0 2.5

SUPPLY VOLTAGE (V)

1433/34 F03

Figure 3. Maximum Allowable Output Current vs Supply Voltage

Another important point to note is that at a low supply

voltages, the R DS(ON) of the P-channel switch increases

(see Typical Performance Characteristics). Therefore, the

user should calculate the power dissipation when the

8

Core losses are dependent on the peak-to-peak ripple

current and core material. Hence, by choosing a larger

inductance the peak-to-peak inductor ripple current will

decrease, therefore decreasing core loss. To further re-

duce losses, low core loss material such as molypermalloy

or Kool M μ ? can be chosen as the inductor core material.

An indirect way that the inductor affects efficiency is

through the usage of the big P-channel at low load

currents. Lower inductance values will result in high peak

inductor current. Because one of the conditions that

determines the turning on of the large P-channel is peak

current, this will result in the usage of the large P-channel

even though the load current is low. Hence, efficiency at

low load current will be affected. See Efficiency Consider-

ations.

Inductor Core Selection

Once the value for L is known, the type of inductor must

be selected. High efficiency converters generally cannot

afford the core loss found in low cost powdered iron

cores, forcing the use of more expensive ferrite,

molypermalloy or Kool M μ cores. Actual core loss is

independent of core size for a fixed inductor value, but it

is very dependent on inductance selected. As inductance

increases, core losses go down. Unfortunately, increased

inductance requires more turns of wire and therefore

copper losses will increase.

Kool M μ is a registered trademark of Magnetics, Inc.

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