LTC4000_15 Datasheet, PDF(24/40 Page) Linear Technology – High Voltage High Current Controller for Battery Charging and Power Management

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LTC4000_15 Datasheet, PDF (24/40 Pages) Linear Technology – High Voltage High Current Controller for Battery Charging and Power Management

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LTC4000

Applications Information

SWITCHING

CONVERTER

GND

ITH

CLN

IOUT

CSP

LTC4000

CSN

GND BAT BGATE

VIN

10k

0.015ÂµF

50Î©

1000ÂµF

(OBSERVE

POLARITY)

1500pF

SCOPE

GROUND

CLIP

50Î©

GENERATOR

f = 50Hz

4000 F12

Figure 12. Empirical Loop Compensation Setup

Generator frequency is set at 50Hz. Lower frequencies

may cause a blinking scope display and higher frequen-

cies may not allow sufficient settling time for the output

transient. Amplitude of the generator output is typically

set at 5VP-P to generate a 100mAP-P load variation. For

lightly loaded outputs (IOUT < 100mA), this level may be

too high for small signal response. If the positive and

negative transition settling waveforms are significantly

different, amplitude should be reduced. Actual amplitude

is not particularly important because it is the shape of

the resulting regulator output waveform which indicates

loop stability.

A 2-pole oscilloscope filter with f = 10kHz is used to

block switching frequencies. Regulators without added

LC output filters have switching frequency signals at their

outputs which may be much higher amplitude than the

low frequency settling waveform to be studied. The filter

frequency is high enough for most applications to pass

the settling waveform with no distortion.

Oscilloscope and generator connections should be made

exactly as shown in Figure 12 to prevent ground loop er-

rors. The oscilloscope is synced by connecting the chan-

nel B probe to the generator output, with the ground clip

of the second probe connected to exactly the same place

of the generator should not be used because of ground

loop errors. It may also be necessary to isolate either

the generator or oscilloscope from its third wire (earth

ground) connection in the power plug to prevent ground

loop errors in the scope display. These ground loop errors

are checked by connecting channel A probe tip to exactly

the same point as the probe ground clip. Any reading on

channel A indicates a ground loop problem.

Once the proper setup is made, finding the optimum

values for the frequency compensation network is fairly

straightforward. Initially, CC is made large (â¥1Î¼F) and RC

is made small (â10k). This nearly always ensures that the

regulator will be stable enough to start iteration. Now, if

the regulator output waveform is single-pole over damped

(see the waveforms in Figure 13), the value of CC is re-

duced in steps of about 2:1 until the response becomes

slightly under damped. Next, RC is increased in steps of

2:1 to introduce a loop zero. This will normally improve

damping and allow the value of CC to be further reduced.

Shifting back and forth between RC and CC variations will

allow one to quickly find optimum values.

For more information www.linear.com/LTC4000

4000fb

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