LT3460 Ver la hoja de datos (PDF) - Linear Technology

Número de pieza

componentes Descripción

Fabricante

LT3460

1.3 MHz/650kHz Step-Up DC/DC Converter in SC70, ThinSOT and DFN

Linear Technology 

LT3460/LT3460-1

OPERATION

L1

22μH

D1

VIN

5V

5

1

C1

4.7μF

VIN

SW

R2

130k

LT3460

OFF ON 4 SHDN

3

FB

R1

GND

15k

2

C1: TAIYO YUDEN X5R JMK212BJ475KG

C2: TAIYO YUDEN X5R EMK316BJ105

D1: CENTRAL SEMICONDUCTOR CMDSH2-3

L1: MURATA LQH32CN-220 OR EQUIVALENT

CF

22pF

VOUT

12V

70mA

C2

1μF

3460 F02

Figure 2. 5V to 12V Step-Up Converter

The feedback loop gain T(s) = K3 • GP(s) • GC(s). If it

crosses over 0dB far before fZ, the phase margin will be

small. Figure 3 is the Bode plot of the feedback loop gain

measured from the converter shown in Figure 2 without

the feedforward capacitor CF. The result agrees with

the previous discussion: Phase margin of about 20° is

insufficient.

In order to improve the phase margin, a feed-forward

capacitor CF in Figure 2 can be used.

Without the feed-forward capacitor, the transfer function

from VOUT to FB is:

FB

VOUT

=

R1

R1+ R2

With the feed-forward capacitor CF, the transfer function

becomes:

FB

VOUT

=

R1

R1+ R2

•

s

s • R2 • CF + 1

•

R1• R2

R1+ R2

•

CF

+

1

The feed-forward capacitor CF generates a zero and a pole.

The zero always appears before the pole. The frequency

distance between the zero and the pole is determined

only by the ratio between VOUT and FB. To give maximum

phase margin, CF should be chosen so that the midpoint

frequency between the zero and the pole is at the cross

over frequency.

With CF = 20pF, the feedback loop Bode plot is reshaped

as shown in Figure 4. The phase margin is about 60°.

60

50

GAIN

40

30

20

10 PHASE

0

–10

–20

–30

–40

1

10

100

FREQUENCY (kHz)

Figure 3

90

45

0

–45

–90

–135

–180

–225

–270

–315

–360

1000

3460 F03

60

50 GAIN

40

30

20

10 PHASE

0

–10

–20

–30

–40

1

10

100

FREQUENCY (kHz)

Figure 4

90

45

0

–45

–90

–135

–180

–225

–270

–315

–360

1000

3460 F04

The feed-forward capacitor increases the gain at high

frequency. The feedback loop therefore needs to have

enough attenuation at the switching frequency to reject

the switching noise. Additional internal compensation

components have taken this into consideration.

For most of the applications of LT3460/LT3460-1, the

output capacitor ESR zero is at very high frequency and

can be ignored. If a low frequency ESR zero exists, for

example, when a high-ESR Tantalum capacitor is used at

the output, the phase margin may be enough even without

a feed-forward capacitor. In these cases, the feed-forward

capacitor should not be added because it may cause

the feedback loop to not have enough attenuation at the

switching frequency.

3460fb

6

Share Link: