LTC4000_15 Datasheet, PDF(25/40 Page) Linear Technology – High Voltage High Current Controller for Battery Charging and Power Management

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LTC4000_15 Datasheet, PDF (25/40 Pages) Linear Technology – High Voltage High Current Controller for Battery Charging and Power Management

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LTC4000

Applications Information

GENERATOR OUTPUT

REGULATOR OUTPUT

WITH LARGE CC, SMALL RC

WITH REDUCED CC, SMALL RC

EFFECT OF INCREASED RC

FURTHER REDUCTION IN CC

MAY BE POSSIBLE

IMPROPER VALUES WILL

CAUSE OSCILLATIONS

4000 F13

Figure 13. Typical Output Transient Response at Various

Stability Level

If the regulator response is under damped with the initial

large value of CC, RC should be increased immediately before

larger values of CC are tried. This will normally bring about

the over damped starting condition for further iteration.

The optimum values for RC and CC normally means the

smallest value for CC and the largest value for RC which

still guarantee well damped response, and which result in

the largest loop bandwidth and hence loop settling that is

as rapid as possible. The reason for this approach is that

it minimizes the variations in output voltage caused by

input ripple voltage and output load transients.

A switching regulator which is grossly over damped will

never oscillate, but it may have unacceptably large output

transients following sudden changes in input voltage or

output loading. It may also suffer from excessive overshoot

problems on startup or short circuit recovery. To guarantee

acceptable loop stability under all conditions, the initial

values chosen for RC and CC should be checked under all

conditions of input voltage and load current. The simplest

way of accomplishing this is to apply load currents of

minimum, maximum and several points in between. At

each load current, input voltage is varied from minimum

to maximum while observing the settling waveform.

If large temperature variations are expected for the system,

stability checks should also be done at the temperature

extremes. There can be significant temperature varia-

tions in several key component parameters which affect

stability; in particular, input and output capacitor value

and their ESR, and inductor permeability. The external

converter parametric variations also need some consid-

eration especially the transfer function from the ITH/VC

pin voltage to the output variable (voltage or current). The

LTC4000 parameters that vary with temperature include

the transconductance and the output resistance of the

error amplifiers (A4-A7). For modest temperature varia-

tions, conservative over damping under worst-case room

temperature conditions is usually sufficient to guarantee

adequate stability at all temperatures.

One measure of stability margin is to vary the selected

values of both RC and CC by 2:1 in all four possible com-

binations. If the regulator response remains reasonably

well damped under all conditions, the regulator can be

considered fairly tolerant of parametric variations. Any

tendency towards an under damped (ringing) response

indicates that a more conservative compensation may

be needed.

For more information www.linear.com/LTC4000

4000fb

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