FA551 Datasheet, PDF(16/22 Page) List of Unclassifed Manufacturers – CMOS IC For Switching Power Supply Control

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FA551 Datasheet, PDF (16/22 Pages) List of Unclassifed Manufacturers – CMOS IC For Switching Power Supply Control

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FA551X

3. The startup period

The start up period from the time the power is on to the time the

IC is turn to on is approximately given by:

( ) tstart-up = âC2 Ï« R1 Ï« In

1â

16.5

................................. (11)

Where:

R1: Startup resistor [â¦]

C2: Capacitor between VCC and GND pin [F]

Vac: Effective value of AC input voltage [V]

È2ËËÏ« Vac ..... (Connecting a startup resistor before rectification)

V1=

È2ËËÏ« Vac ....... (Connecting a startup resistor after rectification)

To shorten the start-up period, the capacitor C2 or resistor R1

should be decreased. But in some case, such as when the

load current of the power supply is changed rapidly, you may

want to prolong the hold time of the Vcc voltage over the off

threshold. In this case the capacitor C2 cannot be decreased

and the resistor R1 should be decreased. But loss of the

resistor R1 increases.

In such case, the circuit shown in Fig. 23 is effective to shorten

start-up period without increasing the loss of the resistor R1.

The capacitor C2 is decreased to shorten the start-up period

and, after the IC starts up, Vcc voltage supplied from C3 to

prolong the hold time of the Vcc voltage.

The start-up period of this circuit also is approximately given by

the expression in (11)

4. Setting soft start period and OFF latch delay

independently

Figure 24 shows a circuit for setting the soft start period and

OFF latch delay independently. In this circuit, capacitance CS

determines the soft start period, and capacitance CL

determines the OFF latch delay. If the overload shutdown or

overvoltage shutdown functions raise the CS pin voltage to

around 5V, zener diode Zn becomes conductive to charge

capacitor CL. The OFF latch delay can be thus prolonged by

capacitance CL.

5. Overvoltage protection using the VCC pin

These ICs contain an overvoltage protection function detecting

the Vcc voltage using internal ZD (See item 5 in âDescription of

each circuitâ). If Vcc voltage exceed 31.8V, the current of 14mA

flows through the internal ZD and the overvoltage protection

function operates.

After this protection function operates, the IC continues to

consume the large current if high voltage continues to be

applied to the Vcc pin. Mind that total IC loss does not exceed

the rating. If the voltage source applied to Vcc pin has relatively

high impedance and cannot supply the current of 14mA,

overvoltage protection function does not operate. But the

internal ZD maintains the Vcc voltage 32V or less and protects

the IC.

R1 D1

VCC

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Fig. 22 Startup circuit (3)

VCC

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D1 D2

C2 C3

Fig. 23 Startup circuit (4)

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GND

Fig. 24 Independent setting of soft start period and OFF latch

deley

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