ISL6328IRZ-T (Intersil) PDF资料下载 Datasheet(29/33 页)

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参数资料

型号：	ISL6328IRZ-T
厂商：	Intersil
文件页数：	29/33页
文件大小：	0K
描述：	IC CTRLR PWM SYNC BUCK DL 48QFN
标准包装：	4,000
应用：	控制器，AMD SVI
输入电压：	5 V ~ 12 V
输出数：	2
输出电压：	0.0125 V ~ 1.55 V
工作温度：	-40°C ~ 85°C
安装类型：	*
封装/外壳：	*
供应商设备封装：	*
包装：	*

ISL6328

0.3

0.2

0.1

I L(P-P) = 0

I L(P-P) = 0.25 I O

I L(P-P) = 0.5 I O

I L(P-P) = 0.75 I O

0.3

0.2

0.1

I L(P-P) = 0

I L(P-P) = 0.5 I O

I L(P-P) = 0.75 I O

0

0

0.2

0.4

0.6

0.8

1.0

0

0

0.2

0.4

0.6

0.8

1.0

DUTY CYCLE (V O/ V IN )

FIGURE 23. NORMALIZED INPUT-CAPACITOR RMS CURRENT vs

DUTY CYCLE FOR 4-PHASE CONVERTER

For a four-phase design, use Figure 23 to determine the

input-capacitor RMS current requirement set by the duty cycle,

maximum sustained output current (I O ), and the ratio of the

peak-to-peak inductor current (I L(P-P) ) to I O . Select a bulk

capacitor with a ripple current rating which will minimize the

total number of input capacitors required to support the RMS

current calculated.

The voltage rating of the capacitors should also be at least 1.25x

greater than the maximum input voltage. Figures 24 and 25 provide

the same input RMS current information for three-phase and

2-phase designs respectively. Use the same approach for selecting

the bulk capacitor type and number.

0.3

I L(P-P) = 0 I L(P-P) = 0.5 I O

I L(P-P) = 0.25 I O I L(P-P) = 0.75 I O

0.2

0.1

DUTY CYCLE (V IN/ V O )

FIGURE 25. NORMALIZED INPUT-CAPACITOR RMS

CURRENT FOR 2-PHASE CONVERTER

Layout Considerations

MOSFETs switch very fast and efficiently. The speed with which

the current transitions from one device to another causes voltage

spikes across the interconnecting impedances and parasitic

circuit elements. These voltage spikes can degrade efficiency,

radiate noise into the circuit and lead to device overvoltage

stress. Careful component selection, layout, and placement

minimizes these voltage spikes. Consider, as an example, the

turnoff transition of the upper PWM MOSFET. Prior to turnoff, the

upper MOSFET was carrying channel current. During the turnoff,

current stops flowing in the upper MOSFET and is picked up by

the lower MOSFET. Any inductance in the switched current path

generates a large voltage spike during the switching interval.

Careful component selection, tight layout of the critical

components, and short, wide circuit traces minimize the

magnitude of voltage spikes.

There are two sets of critical components in a DC/DC converter

using a ISL6328 controller. The power components are the most

critical because they switch large amounts of energy. Next are

small signal components that connect to sensitive nodes or

supply critical bypassing current and signal coupling.

The power components should be placed first, which include the

MOSFETs, input and output capacitors, and the inductors. It is

important to have a symmetrical layout for each power train,

preferably with the controller located equidistant from each.

Symmetrical layout allows heat to be dissipated equally across all

0

0 0.2 0.4 0.6 0.8

DUTY CYCLE (V IN/ V O )

FIGURE 24. NORMALIZED INPUT-CAPACITOR RMS CURRENT

FOR 3-PHASE CONVERTER

1.0

power trains. Equidistant placement of the controller to the CORE

and NB power trains it controls through the integrated drivers

helps keep the gate drive traces equally short, resulting in equal

trace impedances and similar drive capability of all sets of

MOSFETs.

Low capacitance, high-frequency ceramic capacitors are needed in

addition to the input bulk capacitors to suppress leading and

falling edge voltage spikes. The spikes result from the high current

slew rate produced by the upper MOSFET turn on and off. Select

low ESL ceramic capacitors and place one as close as possible to

each upper MOSFET drain to minimize board parasitics and

maximize suppression.

29

When placing the MOSFETs try to keep the source of the upper

FETs and the drain of the lower FETs as close as thermally possible.

Input high-frequency capacitors, C HF , should be placed close to the

drain of the upper FETs and the source of the lower FETs. Input

bulk capacitors, CBULK, case size typically limits following the

same rule as the high-frequency input capacitors. Place the input

FN7621.1

June 7, 2011

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相关代理商/技术参数	参数描述
ISL6329CRZ	功能描述:电压模式 PWM 控制器 6+1 PHS DL PWM CONTRLR FOR CORE RoHS:否制造商:Texas Instruments 输出端数量:1 拓扑结构:Buck 输出电压:34 V 输出电流: 开关频率: 工作电源电压:4.5 V to 5.5 V 电源电流:600 uA 最大工作温度:+ 125 C 最小工作温度:- 40 C 封装 / 箱体:WSON-8 封装:Reel
ISL6329CRZ-T	功能描述:电压模式 PWM 控制器 6+1 PHS DL PWM CONTRLR FOR CORE RoHS:否制造商:Texas Instruments 输出端数量:1 拓扑结构:Buck 输出电压:34 V 输出电流: 开关频率: 工作电源电压:4.5 V to 5.5 V 电源电流:600 uA 最大工作温度:+ 125 C 最小工作温度:- 40 C 封装 / 箱体:WSON-8 封装:Reel
ISL6329EVAL1Z	制造商:Intersil Corporation 功能描述:ISL6329 EVALUATION BOARD - 60 LEAD - QFN - ROHS COMPLIANT - Bulk
ISL6329IRZ	功能描述:电压模式 PWM 控制器 6+1 PHS DL PWM CONTRLR FOR CORE RoHS:否制造商:Texas Instruments 输出端数量:1 拓扑结构:Buck 输出电压:34 V 输出电流: 开关频率: 工作电源电压:4.5 V to 5.5 V 电源电流:600 uA 最大工作温度:+ 125 C 最小工作温度:- 40 C 封装 / 箱体:WSON-8 封装:Reel
ISL6329IRZ-T	功能描述:电压模式 PWM 控制器 6+1 PHS DL PWM CONTRLR FOR CORE RoHS:否制造商:Texas Instruments 输出端数量:1 拓扑结构:Buck 输出电压:34 V 输出电流: 开关频率: 工作电源电压:4.5 V to 5.5 V 电源电流:600 uA 最大工作温度:+ 125 C 最小工作温度:- 40 C 封装 / 箱体:WSON-8 封装:Reel

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