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參數(shù)資料

型號(hào)：	ISL6545EVAL1
廠商：	Intersil Corporation
英文描述：	5V or 12V Single Synchronous Buck Pulse-Width Modulation (PWM) Controller
中文描述：	單5V或12V同步降壓脈寬調(diào)制（PWM）控制器
文件頁(yè)數(shù)：	13/16頁(yè)
文件大小：	302K
代理商：	ISL6545EVAL1

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www.DataSheet4U.com

FN6305.3

November 15, 2006

current level must be supplied by the output capacitor.

Minimizing the response time can minimize the output

capacitance required.

The response time to a transient is different for the

application of load and the removal of load. The following

equations give the approximate response time interval for

application and removal of a transient load:

where: I

TRAN

is the transient load current step, t

RISE

is the

response time to the application of load, and t

FALL

is the

response time to the removal of load. The worst case

response time can be either at the application or removal of

load. Be sure to check both of these equations at the

minimum and maximum output levels for the worst case

response time.

Input Capacitor Selection

Use a mix of input bypass capacitors to control the voltage

overshoot across the MOSFETs. Use small ceramic

capacitors for high frequency decoupling and bulk capacitors

to supply the current needed each time Q

turns on. Place the

small ceramic capacitors physically close to the MOSFETs

and between the drain of Q

and the source of Q

The important parameters for the bulk input capacitor are the

voltage rating and the RMS current rating. For reliable

operation, select the 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 rating requirement

for the input capacitor of a buck regulator is approximately

1/2 the DC load current.

For a through hole design, several electrolytic capacitors may

be needed. For surface mount designs, solid tantalum

capacitors can also be used, but caution must be exercised

with regard to the capacitor surge current rating. These

capacitors must be capable of handling the surge current at

power-up. Some capacitor series available from reputable

manufacturers are surge current tested.

MOSFET Selection/Considerations

The ISL6545 requires 2 N-Channel power MOSFETs. These

should be selected based upon r

DS(ON)

, gate supply

requirements, and thermal management requirements.

In high-current 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. The conduction losses are

the largest component of power dissipation for both the upper

and the lower MOSFETs. These losses are distributed between

the two MOSFETs according to duty factor. The switching

losses seen when sourcing current will be different from the

switching losses seen when sinking current. When sourcing

current, the upper MOSFET realizes most of the switching

losses. The lower switch realizes most of the switching

losses when the converter is sinking current (see the

equations below). These equations assume linear voltage-

current transitions and do not adequately model power loss

due the reverse-recovery of the upper and lower MOSFET’s

body diode. The gate-charge losses are dissipated by the

ISL6545 and don't heat the MOSFETs. However, large gate-

charge increases the switching interval, t

which increases

the 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.

When operating with a 12V power supply for V

(or down

to a minimum supply voltage of 6.5V), a wide variety of N-

MOSFETs can be used. Check the absolute maximum V

rating for both MOSFETs; it needs to be above the highest

voltage allowed in the system; that usually means a

20V V

rating (which typically correlates with a 30V V

maximum rating). Low threshold transistors (around 1V or

below) are not recommended, for the reasons explained in

the next paragraph.

For 5V only operation, given the reduced available gate bias

voltage (5V), logic-level transistors should be used for both

N-MOSFETs. Look for r

DS(ON)

ratings at 4.5V. Caution

should be exercised with devices exhibiting very low

GS(ON)

characteristics. The shoot-through protection

present aboard the ISL6545 may be circumvented by these

MOSFETs if they have large parasitic impedences and/or

capacitances that would inhibit the gate of the MOSFET from

being discharged below its threshold level before the

complementary MOSFET is turned on. Also avoid MOSFETs

with excessive switching times; the circuitry is expecting

transitions to occur in under 50ns or so.

RISE

L x I

TRAN

- V

OUT

FALL

L x I

TRAN

OUT

LOWER

= Io

x r

DS(ON)

x (1 - D)

Where: D is the duty cycle = V

OUT

/ V

is the combined switch ON and OFF time, and

is the switching frequency.

Losses while Sourcing Current

Losses while Sinking Current

UPPER

= Io

x r

DS(ON)

x D

LOWER

DS ON

(

)

–

(

)

UPPER

DS ON

)

ISL6545, ISL6545A

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