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參數(shù)資料

型號：	LM2710MTX-ADJ
廠商：	NATIONAL SEMICONDUCTOR CORP
元件分類：	穩(wěn)壓器
英文描述：	Step-up PWM DC/DC Converter Integrated with 5 Buffers
中文描述：	1.4 A SWITCHING REGULATOR, 1500 kHz SWITCHING FREQ-MAX, PDSO20
封裝：	TSSOP-20
文件頁數(shù)：	15/20頁
文件大?。?/td>	853K
代理商：	LM2710MTX-ADJ

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Operation

(Continued)

4.7nF. Refer to the

Applications Information

section for rec-

ommended values for specific circuits and conditions. Refer

to the

Compensation

section for other design requirement.

COMPENSATION FOR BOOST DC/DC

This section will present a general design procedure to help

insure a stable and operational circuit. The designs in this

datasheet are optimized for particular requirements. If differ-

ent conversions are required, some of the components may

need to be changed to ensure stability. Below is a set of

general guidelines in designing a stable circuit for continu-

ous conduction operation, in most all cases this will provide

for stability during discontinuous operation as well. The

power components and their effects will be determined first,

then the compensation components will be chosen to pro-

duce stability.

INDUCTOR AND DIODE SELECTION

Although the inductor sizes mentioned earlier are fine for

most applications, a more exact value can be calculated. To

ensure stability at duty cycles above 50%, the inductor must

have some minimum value determined by the minimum

input voltage and the maximum output voltage. This equa-

tion is:

where fs is the switching frequency, D is the duty cycle, and

DSON

is the ON resistance of the internal switch taken from

the graph "R

vs. V

" in the

Typical Performance Char-

acteristics

section. This equation is only good for duty cycles

greater than 50% (D

0.5), for duty cycles less than 50% the

recommended values may be used. The corresponding in-

ductor current ripple as shown in

Figure 2

(a) is given by:

The inductor ripple current is important for a few reasons.

One reason is because the peak switch current will be the

average inductor current (input current or I

/D’) plus

As a side note, discontinuous operation occurs when the

inductor current falls to zero during a switching cycle, or

is greater than the average inductor current. Therefore, con-

tinuous conduction mode occurs when

is less than the

average inductor current. Care must be taken to make sure

that the switch will not reach its current limit during normal

operation. The inductor must also be sized accordingly. It

should have a saturation current rating higher than the peak

inductor current expected. The output voltage ripple is also

affected by the total ripple current.

The output diode for a boost regulator must be chosen

correctly depending on the output voltage and the output

current. The typical current waveform for the diode in con-

tinuous conduction mode is shown in

Figure 2

(b). The diode

must be rated for a reverse voltage equal to or greater than

the output voltage used. The average current rating must be

greater than the maximum load current expected, and the

peak current rating must be greater than the peak inductor

current. During short circuit testing, or if short circuit condi-

tions are possible in the application, the diode current rating

must exceed the switch current limit. Using Schottky diodes

with lower forward voltage drop will decrease power dissipa-

tion and increase efficiency.

DC GAIN AND OPEN-LOOP GAIN

Since the control stage of the converter forms a complete

feedback loop with the power components, it forms a closed-

loop system that must be stabilized to avoid positive feed-

back and instability. A value for open-loop DC gain will be

required, from which you can calculate, or place, poles and

zeros to determine the crossover frequency and the phase

margin. A high phase margin (greater than 45) is desired for

the best stability and transient response. For the purpose of

stabilizing the LM2710, choosing a crossover point well be-

low where the right half plane zero is located will ensure

sufficient phase margin. A discussion of the right half plane

zero and checking the crossover using the DC gain will

follow.

INPUT AND OUTPUT CAPACITOR SELECTION

The switching action of a boost regulator causes a triangular

voltage waveform at the input. A capacitor is required to

reduce the input ripple and noise for proper operation of the

regulator. The size used is dependant on the application and

board layout. If the regulator will be loaded uniformly, with

very little load changes, and at lower current outputs, the

input capacitor size can often be reduced. The size can also

be reduced if the input of the regulator is very close to the

source output. The size will generally need to be larger for

applications where the regulator is supplying nearly the

maximum rated output or if large load steps are expected. A

minimum value of 10μF should be used for the less stressful

conditions while a 22μF to 47μF capacitor may be required

for higher power and dynamic loads. Larger values and/or

lower ESR may be needed if the application requires very

low ripple on the input source voltage.

The choice of output capacitors is also somewhat arbitrary

and depends on the design requirements for output voltage

ripple. It is recommended that low ESR (Equivalent Series

Resistance, denoted R

ESR

) capacitors be used such as

ceramic, polymer electrolytic, or low ESR tantalum. Higher

ESR capacitors may be used but will require more compen-

sation which will be explained later on in the section. The

ESR is also important because it determines the peak to

peak output voltage ripple according to the approximate

equation:

OUT

)

ESR

(in Volts)

A minimum value of 10μF is recommended and may be

increased to a larger value.After choosing the output capaci-

tor you can determine a pole-zero pair introduced into the

control loop by the following equations:

Where R

is the minimum load resistance corresponding to

the maximum load current. The zero created by the ESR of

the output capacitor is generally very high frequency if the

ESR is small. If low ESR capacitors are used it can be

neglected. If higher ESR capacitors are used see the

High

Output Capacitor ESR Compensation

section.

www.national.com

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