FAN4800I Fairchild Semiconductor, FAN4800I Datasheet - Page 13

FAN4800I

Manufacturer Part Number

FAN4800I

Description

The FAN4800 is a controller for power-factor-corrected, switched-mode power supplies

Manufacturer

Fairchild Semiconductor

Datasheet

1.FAN4800I.pdf (19 pages)

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FAN4800 Rev. 1.0.6

1.10 Example

For the application circuit shown in Figures 12 and 13,

with the oscillator running at:

solving for C

The dead time of the oscillator adds to the maximum

PWM duty cycle (it is an input to the duty cycle limiter).

With zero oscillator dead time, the maximum PWM duty

cycle is typically 47%. Take care not to make C

large, which could extend the maximum duty cycle

beyond 50%. This can be accomplished by using no

greater than a 390pF capacitor for C

2. PWM Section

2.1 Pulse Width Modulator (PWM)

The operation of the PWM section of the FAN4800 is

straightforward, but there are several points that should

be noted. Foremost among these is the inherent syn-

chronization of PWM with the PFC section of the device,

from which it also derives its basic timing. The PWM is

capable of current-mode or voltage-mode operation. In

current-mode applications, the PWM ramp (RAMP2) is

usually derived directly from a current sensing resistor or

current transformer in the primary of the output stage. it

is thereby representative of the current flowing in the

converter’s output stage. DC I

by-cycle current limiting, is typically connected to

RAMP2 in such applications. For voltage-mode opera-

tion and certain specialized applications, RAMP2 can be

connected to a separate RC timing network to generate

a voltage ramp against which V

these conditions, the use of voltage feed-forward from

the PFC bus can assist in line regulation accuracy and

response. As in current-mode operation, the DC I

input is used for output stage over-current protection.

No voltage error amplifier is included in the PWM stage

of the FAN4800, as this function is generally performed

on the output side of the PWM’s isolation boundary. To

facilitate the design of opto-coupler feedback circuitry, an

offset has been built into the PWM’s RAMP2 input that

allows V

ages below typical 0.9V.

2.2 PWM Current Limit

The DC I

current limiter for the PWM section. Should the input

voltage at this pin ever exceed 1V, the output flip-flop is

reset by the clock pulse at the start of the next PWM

power cycle. When the DC I

is 51.1kΩ, selecting standard components values.

LIMIT

to command a 0% duty cycle for input volt-

x R

pin is a direct input to the cycle-by-cycle

OSC

yields 1.96 x 10

100kHz

LIMIT

RAMP

, which provides cycle-

triggers the cycle-by-

is compared. Under

-4

. C

is 390pF and

LIMIT

(12)

too

cycle current, it also softly discharges the voltage of the

soft-start capacitor. It limits the PWM duty cycle mode

and the power dissipation is reduced during the dead-

short condition.

2.3 V

The V

PFC and inhibits the PWM if the voltage on V

than its nominal 2.25V. Once the voltage reaches 2.25V,

which corresponds to the PFC output capacitor being

charged to its rated boost voltage, the soft-start begins.

2.4 PWM Control (RAMP2)

When the PWM section is used in current mode, RAMP2

is generally used as the sampling point for a voltage,

representing the current in the primary of the PWM’s out-

put transformer. The voltage is derived either from a cur-

rent sensing resistor or a current transformer. In voltage

mode, RAMP2 is the input for a ramp voltage generated

by a second set of timing components (R

that have a minimum value of 0V and a peak value of

approximately 5V. In voltage mode, feed forward from

the PFC output bus is an excellent way to derive the tim-

ing ramp for the PWM stage.

2.5 Soft-Start (SS)

PWM startup is controlled by selection of the external

capacitor at soft-start. A current source of 20mA supplies

the charging current for the capacitor and startup of the

PWM begins at 0.9V. Startup delay can be programmed

by the following equation:

where C

It is important that the time constant of the PWM soft-

start allows the PFC time to generate sufficient output

power for the PWM section. The PWM startup delay

should be at least 5ms.

Solving for the minimum value of C

Use caution when using this minimum soft-start capaci-

tance value because it can cause premature charging of

the SS capacitor and activation of the PWM section if

at startup. The magnitude of V

both to line voltage and nominal PFC output voltage.

Typically, a 1.0µF soft-start capacitor allows time for V

and PFC

vation of the PWM section at line voltages between

90Vrms and 265Vrms.

DELAY

is in the hysteresis band of the V

is the desired startup delay.

OK Comparator

OK comparator monitors the DC output of the

OUT

is the required soft-start capacitance and the

to reach their nominal values prior to acti-

5ms

DELAY

20μA

0.9V

20μA

111nF

0.9V

at startup is related

RAMP2

OK comparator

www.fairchildsemi.com

, C

RAMP2

is less

(13)

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)

FAN4800I Fairchild Semiconductor, FAN4800I Datasheet - Page 13

FAN4800I

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