LT3693EMSE-PBF LINER [Linear Technology], LT3693EMSE-PBF Datasheet - Page 13

LT3693EMSE-PBF

Manufacturer Part Number

LT3693EMSE-PBF

Description

36V, 3.5A, 2.4MHz Step-Down Switching Regulator

Manufacturer

LINER [Linear Technology]

Datasheet

1.LT3693EMSE-PBF.pdf (24 pages)

Current page: 13 of 24
Download datasheet (311Kb)

APPLICATIONS INFORMATION

Frequency Compensation

The LT3693 uses current mode control to regulate the

output. This simpliﬁ es loop compensation. In particular, the

LT3693 does not require the ESR of the output capacitor

for stability, so you are free to use ceramic capacitors to

achieve low output ripple and small circuit size. Frequency

compensation is provided by the components tied to the

and a resistor (R

tion, there may be lower value capacitor in parallel. This

capacitor (C

is used to ﬁ lter noise at the switching frequency, and is

required only if a phase-lead capacitor is used or if the

output capacitor has high ESR.

Loop compensation determines the stability and transient

performance. Designing the compensation network is a bit

complicated and the best values depend on the application

and in particular the type of output capacitor. A practical

approach is to start with one of the circuits in this data

sheet that is similar to your application and tune the com-

pensation network to optimize the performance. Stability

should then be checked across all operating conditions,

including load current, input voltage and temperature. The

LT1375 data sheet contains a more thorough discussion of

loop compensation and describes how to test the stabil-

ity using a transient load. Figure 2 shows an equivalent

circuit for the LT3693 control loop. The error ampliﬁ er is a

transconductance ampliﬁ er with ﬁ nite output impedance.

The power section, consisting of the modulator, power

switch and inductor, is modeled as a transconductance

ampliﬁ er generating an output current proportional to

the voltage at the V

integrates this current, and that the capacitor on the V

in two poles in the loop. In most cases a zero is required

and comes from either the output capacitor ESR or from

a resistor R

pin, as shown in Figure 2. Generally a capacitor (C

) integrates the error ampliﬁ er output current, resulting

) is not part of the loop compensation but

in series with C

) in series to ground are used. In addi-

pin. Note that the output capacitor

. This simple model works

)

well as long as the value of the inductor is not too high

and the loop crossover frequency is much lower than the

switching frequency. A phase lead capacitor (C

the feedback divider may improve the transient response.

Figure 3 shows the transient response when the load cur-

rent is stepped from 1A to 3A and back to 1A.

Figure 3. Transient Load Response of the LT3693 Front Page

Application as the Load Current is Stepped from 1A to 3A.

LT3693

OUT

CURRENT MODE

POWER STAGE

100mV/DIV

= 5V

= 5.3mho

1A/DIV

OUT

Figure 2. Model for Loop Response

525 mho

AMPLIFIER

ERROR

–

GND

0.8V

10 s/DIV

TANTALUM

POLYMER

ESR

3693 F03

LT3693

3693 F02

OUTPUT

) across

CERAMIC

3693f

LT3693EMSE-PBF LINER [Linear Technology], LT3693EMSE-PBF Datasheet - Page 13

LT3693EMSE-PBF

Related parts for LT3693EMSE-PBF