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參數(shù)資料

型號(hào)：	ISL6558EVAL2
廠商：	Intersil Corporation
英文描述：	Multi-Purpose Precision Multi-Phase PWM Controller With Optional Active Voltage Positioning
中文描述：	多功能精密多相位PWM控制器，帶有可選的有源電壓定位
文件頁(yè)數(shù)：	14/16頁(yè)
文件大?。?/td>	474K
代理商：	ISL6558EVAL2

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FN9027.12

June 21, 2005

The total output ripple current can be determined from the

curves in Figure 10. They provide the total ripple current as a

function of duty cycle and number of active channels,

normalized to the parameter K

NORM

at zero duty cycle.

LxFSW

where L is the channel inductor value.

Find the intersection of the active channel curve and duty

cycle for your particular application. The resulting ripple

current multiplier from the y-axis is then multiplied by the

normalization factor, K

NORM

, to determine the total output

ripple current for the given application.

INPUT CAPACITOR SELECTION

Use a mix of input bypass capacitors to control the voltage

overshoot across the MOSFETs. Use ceramic capacitors for

the high frequency decoupling and bulk capacitors to supply

the RMS current. Small ceramic capacitors can be placed

very close to the upper MOSFET to suppress the voltage

induced in the parasitic circuit impedances.

Two important parameters to consider when selecting the

bulk input capacitor are the voltage rating and the RMS

current rating. For reliable operation, select a bulk capacitor

with voltage and current ratings above the maximum input

voltage and largest RMS current required by the circuit. The

capacitor voltage rating should be at least 1.25 times greater

than the maximum input voltage and a voltage rating of 1.5

times is a conservative guideline. The RMS current

requirement for a converter design can be approximated with

the aid of Figure 11. Follow the curve for the number of active

channels in the converter design. Next determine the duty

cycle for the converter and find the intersection of this value

and the active channel curve. Find the corresponding y-axis

value, which is the current multiplier. Multiply the total full load

output current, not the channel value, by the current multiplier

value found and the result is the RMS input current whi

must be supported by the input capacitors.

MOSFET SELECTION AND CONSIDERATIONS

The ISL6558 requires two N-Channel power MOSFETs per

active channel or more if parallel MOSFETs are employed.

These MOSFETs should be selected based upon r

DS(ON)

total gate charge, and thermal management requirements.

In high-current PWM applications, the MOSFET power

dissipation, package selection and heatsink are the

dominant design factors. The power dissipation includes two

loss components; conduction loss and switching loss. These

losses are distributed between the upper and lower

MOSFETs according to duty cycle of the converter (see the

equations below). The conduction losses are the main

component of power dissipation for the lower MOSFETs, Q2

and Q4 of Figure 1. Only the upper MOSFETs, Q1 and Q3

have significant switching losses, since the lower device turn

on and off into near zero voltage.

The following equations assume linear voltage-current

transitions and do not model power loss due to the reverse-

recovery of the lower MOSFETs body diode. The gate-

charge losses are dissipated in the HIP660x drivers and

don’t heat the MOSFETs. However, large gate-charge

increases the switching time, t

which increases the upper

MOSFET switching losses. Ensure that both MOSFETs are

within their maximum junction temperature at high ambient

temperature by calculating the temperature rise according to

package thermal-resistance specifications. A separate

heatsink may be necessary depending upon MOSFET

power, package type, ambient temperature and air flow.

KNORM

--VOUT

(EQ. 11)

1.0

0.8

0.6

0.4

0.2

0.1

0.2

0.3

0.4

0.5

DUTY CYCLE (V

)

SINGLE

CHANNEL

2 CHANNEL

3 CHANNEL

4 CHANNEL

FIGURE 10. RIPPLE CURRENT vs DUTY CYCLE

ITOTAL

KNORMxKCM

(EQ. 12)

0.5

0.4

0.3

0.2

0.1

0.2

0.3

0.4

0.5

DUTY CYCLE (V

)

SINGLE

CHANNEL

3 CHANNEL

4 CHANNEL

2 CHANNEL

FIGURE 11. CURRENT MULTIPLIER vs DUTY CYCLE

UPPER

------------------------------------------------------------

---------------------------------------------------------

(EQ. 13)

LOWER

--------------------------------------------------------------------------------

–

(

)

(EQ. 14)

ISL6558

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