ISL6334CRZ (Intersil) PDF资料下载 Datasheet(19/31 页)

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型号：	ISL6334CRZ
厂商：	Intersil
文件页数：	19/31页
文件大小：	0K
描述：	IC CTRLR PWM 4PHASE BUCK 40-QFN
标准包装：	50
应用：	控制器，Intel VR11.1
输入电压：	3 V ~ 12 V
输出数：	1
输出电压：	0.5 V ~ 1.6 V
工作温度：	0°C ~ 70°C
安装类型：	表面贴装
封装/外壳：	40-VFQFN 裸露焊盘
供应商设备封装：	40-QFN（6x6）
包装：	管件

ISL6334, ISL6334A

TABLE 2. VR11 VID 8 BIT (Continued)

VID7 VID6 VID5 VID4 VID3 VID2 VID1 VID0 VOLTAGE

V DROOP . The output voltage as a function of load current is

derived by combining Equation 8 with the appropriate

1

0

1

0

0

1

0

1

0.58125

sample current expression defined by the current sense

method employed, as shown in Equation 9:

V OUT = V REF – V OFS – ? ----------------- ------------------ R FB ?

1

1

0

0

1

1

0

0

0

0

1

1

1

1

0

1

0.57500

0.56875

? I LOAD R X ?

? N R ISEN ?

(EQ. 9)

1

1

1

1

1

1

1

0

0

0

0

0

0

0

1

1

1

1

1

1

1

0

0

0

0

0

0

0

1

1

1

1

1

1

1

0

0

0

0

1

1

1

0

0

1

1

0

0

1

0

1

0

1

0

1

0

0.56250

0.55625

0.55000

0.54375

0.53750

0.53125

0.52500

where V REF is the reference voltage, V OFS is the

programmed offset voltage, I LOAD is the total output current

of the converter, R ISEN is the sense resistor connected to

the ISEN+ pin, and R FB is the feedback resistor, N is the

active channel number, and R X is the DCR, or R SENSE

depending on the sensing method.

Therefore, the equivalent loadline impedance, i.e. Droop

impedance, is equal to Equation 10:

R LL = ------------ ------------------

R ISEN

1

1

0

0

1

1

0

1

1

0

1

0

1

0

1

0

0.51875

0.51250

N

R FB R X

(EQ. 10)

1

1

1

1

0

0

1

1

1

1

1

1

1

1

1

1

0

0

1

1

0

0

1

1

0

1

1

1

1

0

0

1

0.50625

0.50000

OFF

OFF

Output-Voltage Offset Programming

The ISL6334, ISL6334A allows the designer to accurately

adjust the offset voltage. When a resistor, R OFS , is

connected between OFS to VCC, the voltage across it is

regulated to 1.6V. This causes a proportional current (I OFS )

to flow into OFS. If R OFS is connected to ground, the voltage

Load-Line Regulation

Some microprocessor manufacturers require a precisely

controlled output resistance. This dependence of output

voltage on load current is often termed “droop” or “load line”

regulation. By adding a well controlled output impedance,

the output voltage can effectively be level shifted in a

direction, which works to achieve the load-line regulation

required by these manufacturers.

across it is regulated to 0.4V, and I OFS flows out of OFS. A

resistor between DAC and REF, R REF , is selected so that

the product (I OFS x R OFS ) is equal to the desired offset

voltage. These functions are shown in Figure 7.

Once the desired output offset voltage has been determined,

use Equations 11 and 12 to calculate R OFS :

For Positive Offset (connect R OFS to VCC):

R OFS = ------------------------------

R OFS = ------------------------------

In other cases, the designer may determine that a more

cost-effective solution can be achieved by adding droop.

Droop can help to reduce the output-voltage spike that

results from fast load-current demand changes.

The magnitude of the spike is dictated by the ESR and ESL

of the output capacitors selected. By positioning the no-load

voltage level near the upper specification limit, a larger

negative spike can be sustained without crossing the lower

limit. By adding a well controlled output impedance, the

output voltage under load can effectively be level shifted

down so that a larger positive spike can be sustained without

crossing the upper specification limit.

As shown in Figure 6, a current proportional to the average

current of all active channels, I AVG , flows from FB through a

load-line regulation resistor R FB . The resulting voltage drop

across R FB is proportional to the output current, effectively

creating an output voltage droop with a steady-state value

defined as shown in Equation 8:

V DROOP = I AVG R FB

(EQ. 8)

The regulated output voltage is reduced by the droop voltage

19

1.6 × R REF

V OFFSET

For Negative Offset (connect R OFS to GND):

0.4 × R REF

V OFFSET

(EQ. 11)

(EQ. 12)

FN6482.2

February 1, 2013

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