ISL6520BCB-T (Intersil) PDF资料下载 Datasheet(6/10 页)

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参数资料

型号：	ISL6520BCB-T
厂商：	Intersil
文件页数：	6/10页
文件大小：	0K
描述：	IC REG CTRLR BUCK PWM VM 8-SOIC
标准包装：	2,500
PWM 型：	电压模式
输出数：	1
频率 - 最大：	340kHz
占空比：	100%
电源电压：	4.5 V ~ 5.5 V
降压：	是
升压：	无
回扫：	无
反相：	无
倍增器：	无
除法器：	无
Cuk：	无
隔离：	无
工作温度：	0°C ~ 70°C
封装/外壳：	8-SOIC（0.154"，3.90mm 宽）
包装：	带卷 (TR)

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ISL6520B

The modulator transfer function is the small-signal transfer

function of V OUT /V E/A . This function is dominated by a DC

100

F Z1 F Z2

F P1

F P2

Gain and the output filter (L O and C O ), with a double pole

80

break frequency at F LC and a zero at F ESR . The DC Gain of

the modulator is simply the input voltage (V IN ) divided by the

peak-to-peak oscillator voltage Δ V OSC .

Modulator Break Frequency Equations

60

40

20

20LOG

(R 2 /R 1 )

OPEN LOOP

ERROR AMP GAIN

20LOG

f LC = -------------------------------------------

f ESR = --------------------------------------------

1

2 π x LO x CO

1

2 π x ESR x C O

(EQ. 1)

0

-20

MODULATOR

GAIN

(V IN / Δ V OSC )

COMPENSATION

GAIN

The compensation network consists of the error amplifier

(internal to the ISL6520B) and the impedance networks Z IN

and Z FB . The goal of the compensation network is to provide

-40

-60

10

100

1K

F LC

10K

F ESR

100K

1M

CLOSED LOOP

GAIN

10M

a closed loop transfer function with the highest 0dB crossing

frequency (f 0dB ) and adequate phase margin. Phase margin

is the difference between the closed loop phase at f 0dB and

180 degrees. The equations below relate the compensation

network’s poles, zeros and gain to the components (R 1 , R 2 ,

R 3 , C 1 , C 2 , and C 3 ) in Figure 4. Use these guidelines for

locating the poles and zeros of the compensation network:

1. Pick Gain (R 2 /R 1 ) for desired converter bandwidth.

2. Place 1 ST Zero Below Filter’s Double Pole (~75% F LC ).

3. Place 2 ND Zero at Filter ’s Double Pole.

4. Place 1 ST Pole at the ESR Zero.

5. Place 2 ND Pole at Half the Switching Frequency.

6. Check Gain against Error Amplifier ’s Open-Loop Gain.

7. Estimate Phase Margin - Repeat if Necessary.

Compensation Break Frequency Equations

FREQUENCY (Hz)

FIGURE 5. ASYMPTOTIC BODE PLOT OF CONVERTER GAIN

Component Selection Guidelines

Output Capacitor Selection

An output capacitor is required to filter the output and supply

the load transient current. The filtering requirements are a

function of the switching frequency and the ripple current.

The load transient requirements are a function of the slew

rate (di/dt) and the magnitude of the transient load current.

These requirements are generally met with a mix of

capacitors and careful layout.

Modern components and loads are capable of producing

transient load rates above 1A/ns. High frequency capacitors

initially supply the transient and slow the current load rate

seen by the bulk capacitors. The bulk filter capacitor values

F Z1 = ------------------------------------

F P1 = ---------------------------------------------------------

2 π x R 2 x ? ---------------------- ?

F Z2 = -------------------------------------------------------

F P2 = ------------------------------------

1

2 π x R 2 x C 1

1

2 π x ( R 1 + R 3 ) x C 3

1

? C 1 x C 2 ?

? C 1 + C 2 ?

1

2 π x R 3 x C 3

are generally determined by the ESR (Effective Series

Resistance) and voltage rating requirements rather than

actual capacitance requirements.

High frequency decoupling capacitors should be placed as

close to the power pins of the load as physically possible. Be

(EQ. 2)

Figure 5 shows an asymptotic plot of the DC/DC converter’s

gain vs frequency. The actual Modulator Gain has a high gain

peak due to the high Q factor of the output filter and is not

shown in Figure 5. Using the above guidelines should give a

Compensation Gain similar to the curve plotted. The open

loop error amplifier gain bounds the compensation gain.

Check the compensation gain at F P2 with the capabilities of

the error amplifier. The Closed Loop Gain is constructed on

the graph of Figure 5 by adding the Modulator Gain (in dB) to

the Compensation Gain (in dB). This is equivalent to

multiplying the modulator transfer function to the

compensation transfer function and plotting the gain.

The compensation gain uses external impedance networks

Z FB and Z IN to provide a stable, high bandwidth (BW) overall

loop. A stable control loop has a gain crossing with

-20dB/decade slope and a phase margin greater than 45

degrees. Include worst case component variations when

determining phase margin.

6

careful not to add inductance in the circuit board wiring that

could cancel the usefulness of these low inductance

components. Consult with the manufacturer of the load on

specific decoupling requirements.

Use only specialized low-ESR capacitors intended for

switching-regulator applications for the bulk capacitors. The

bulk capacitor’s ESR will determine the output ripple voltage

and the initial voltage drop after a high slew-rate transient. An

aluminum electrolytic capacitor’s ESR value is related to the

case size with lower ESR available in larger case sizes.

However, the Equivalent Series Inductance (ESL) of these

capacitors increases with case size and can reduce the

usefulness of the capacitor to high slew-rate transient loading.

Unfortunately, ESL is not a specified parameter. Work with

your capacitor supplier and measure the capacitor’s

impedance with frequency to select a suitable component. In

most cases, multiple electrolytic capacitors of small case size

perform better than a single large case capacitor.

FN9083.3

July 23, 2007

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