FA13842 Datasheet, PDF(13/15 Page) Fuji Electric – CMOS IC(For Switching Power Supply Control)

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FA13842 Datasheet, PDF (13/15 Pages) Fuji Electric – CMOS IC(For Switching Power Supply Control)

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FA13842, 13843, 13844, 13845

7. Feedback circuit

7-1 A method that does not use an internal ER AMP

A method that does not use an internal ER AMP is shown in

Fig. 18. Connect the FB terminal to GND and connect an

T1 D6

optocoupler to the COMP terminal of the ER AMP output for

feedback control.

MOSFET

It is possible to obtain a precise power supply output voltage,

because the output voltage is monitored directly on the

secondary side.

Be sure to connect the FB terminal to the GND in this case.

C11

PC2

R19

2.5V

R20

R21

PC2

There is the possibility of a malfunction occuring if the FB

terminal is open.

R18

R22

C12

7-2 A method using an internal ER AMP

A method using an internal ER AMP is shown in Fig. 19.

In the flyback circuit, the bias winding voltages of the

transformer are proportional to the secondary winding voltage.

Therefore, VCC is approximately proportional to the DC output

voltage on the secondary side.

VCC is divided by resistors and monitored at the FB terminal to

control the output voltage.

This feedback circuit consists of a minimal number of external

components. However, regulation of the DC output voltage is

poor because the output voltage is not monitored directly.

C10

R23

Fig. 18

T1 D6

8. Slope compensation

It is well known that a current mode converter that controls

peak current can oscillate irregularly when the inductor current

is continuous and the duty cycle is greater than 50%.

This irregular oscillation is called subharmonic oscillation.

The period of subharmonic oscillation is equal to the integral

number of the switching periods.

This phenomenon is shown in Fig. 20.

Lu indicates the positive slope of the inductor current. The

slope is determined by the input voltage and the primary

inductance value of the transformer. âLd indicates the

negative slope, which is determined by the rate of energy

discharge to the secondary side.

R26

C13

R25

2.5V

R24

R18

C10

MOSFET

Fig.19

Fig. 20 shows the inductor current waveform when T reveals

the oscillation period and Is reveals the control signal of the

peak inductor current. TON and TOFF vary even when having the

same T, Is, Lu and âLd.

If it is assumed in Fig. 21 that the inductor current varies â iL at

t0, the variation â iLâ of the inductor current at t1 is larger than

â iL at t0. Thereafter, this inductor current variation gradually

increases, and as a result, subharmonic oscillation occurs.

-Ld

TON TOFF

Fig. 20

âiL

Fig. 21

Diverge

âiLÂ´

▷