LTC3803 Datasheet, PDF(10/12 Page) Linear Technology – Constant Frequency Current Mode Flyback DC/DC Controller in ThinSOT

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LTC3803 Datasheet, PDF (10/12 Pages) Linear Technology – Constant Frequency Current Mode Flyback DC/DC Controller in ThinSOT

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LTC3803

APPLICATIO S I FOR ATIO

Component selection is as follows:

Resistor RSTART should be made small enough to yield a

worst-case minimum charging current greater than the

maximum rated LTC3803 start-up current, to ensure there

is enough current to charge CVCC to the VCC turn-on thresh-

old. It should be made large enough to yield a worst-case

maximum charging current less than the minimum rated

LTC3803 supply current, so that in operation, most of the

LTC3803âs supply current is delivered through the third

winding. This results in the highest possible efficiency.

Capacitor CVCC should then be made large enough to avoid

the relaxation oscillation behavior described above. This is

complicated to determine theoretically as it depends on

the particulars of the secondary circuit and load behavior.

Empirical testing is recommended.

The third transformer winding should be designed so that

its output voltage, after accounting for the D2âs forward

voltage drop, exceeds the maximum VCC turn-off thresh-

old. Also, the third windingâs nominal output voltage

should be at least 0.5V below the minimum rated VCC

clamp voltage to avoid running up against the LTC3803âs

VCC shunt regulator, needlessly wasting power.

VCC SHUNT REGULATOR

In applications including a third transformer winding, the

internal VCC shunt regulator serves to protect the LTC3803

VIN

RVCC

CVCC

LTC3803

VCC

GND

3803 F03

Figure 3. Powering the LTC3803 Via the Internal Shunt Regulator

from overvoltage transients as the third winding is pow-

ering up.

In applications where a third transformer winding is unde-

sirable or unavailable, the shunt regulator allows the

LTC3803 to be powered through a single dropping resistor

from VIN to VCC, in conjunction with a bypass capacitor,

CVCC, that closely decouples VCC to GND (see Figure 3).

This simplicity comes at the expense of reduced efficiency

due to the static power dissipation in the RVCC dropping

resistor.

The shunt regulator can draw up to 25mA through the VCC

pin to GND to drop enough voltage across RVCC to regulate

VCC to around 9.5V. For applications where VIN is low

enough such that the static power dissipation in RVCC is

acceptable, using the VCC shunt regulator is the simplest

way to power the LTC3803.

EXTERNAL PREREGULATOR

The circuit in Figure 4 shows a third way to power the

LTC3803. An external series preregulator consisting of

series pass transistor Q1, Zener diode D1, and bias resis-

tor RB brings VCC to at least 7.6V nominal, well above the

maximum rated VCC turn-off threshold of 6.8V. Resistor

RSTART momentarily charges the VCC node up to the VCC

turn-on threshold, enabling the LTC3803.

VIN

8.2V

RSTART

CVCC

LTC3803

VCC

GND

3803 F04

Figure 4. Powering the LTC3803 with an External Preregulator

3803i

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