NCP1201 ON Semiconductor, NCP1201 Datasheet - Page 11

NCP1201

Manufacturer Part Number

NCP1201

Description

Current Mode Controller Fixed Frequency Operation

Manufacturer

ON Semiconductor

Datasheet

1.NCP1201.pdf (19 pages)

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= 468.3 mW. If a resistor is installed between the mains and

the diode, you further force the dissipation to migrate from

the package to the resistor. The resistor value should be

carefully selected to account for low−line startup.

(1.07 V by default), the peak current cannot exceed

0.9 V/R

Mains

Our power contribution example drops to 223 V x 2.1 m

When FB pin voltage level is above the skip cycle threshold

Figure 28. A Simple Diode Naturally Reduces the

3. Permanently force the V

with an auxiliary winding. It will automatically

disconnect the internal startup source and the IC

will be fully self−supplied from this winding.

Again, the total power drawn from the mains will

significantly decrease. By using this approach,

user need to make sure the auxiliary voltage never

exceeds the 16 V limit for all line conditions.

sense

. When the IC enters the skip cycle mode, the

Average Voltage on Pin 8

Cbulk

Figure 29. Feedback Pin Voltage and Modes of Operation

level above VCC

Normal Current Mode Operation

p(min)

Skip Cycle Operation

http://onsemi.com

OFF

= 333 mV / R

NCP1201

Skipping Cycle Mode

the output power demand drops below a preset level. This is

accomplished by monitoring the FB pin. In normal

operation, FB pin imposes a peak current according to the

load value. If the load demand decreases, the internal loop

asks for less peak current. When this set−point reaches the

skip mode threshold level, 1.07 V, the IC prevents the

current from decreasing further down and starts to blank the

output pulses, i.e. the controller enters the so−called Skip

Cycle Mode, also named Controlled Burst Operation. The

power transfer now depends upon the width of the pulse

bunches, Figure 29.

Lp, primary inductance = 1.0 mH

length of 20 ms over a recurrent period of 100 ms, then the

total power transfer reduced to 1.2 W x 0.2 = 240 mW.

place, a look at the operation mode versus the FB pin voltage

level shown below, immediately gives the necessary insight.

peak current cannot go below V

current limit reduction scheme, the skip cycle takes place at

a lower peak current, which guarantees noise free operation.

sense

The NCP1201 automatically skips switching cycles when

Suppose we have the following component values:

The theoretical power transfer is therefore:

If the controller enters Skip Cycle Mode with a pulse packet

To better understand how this Skip Cycle Mode takes

(skip) = 200 mA (or 333 mV/R

, switching frequency = 60 kHz

L p

4.2 V, FB Pin Open

2.97 V, Upper Dynamic Range

1.07 V

I p 2

F sw + 1.2 W

SKIP

sense

/3.3. By using the peak

)

(eq. 4)

NCP1201 ON Semiconductor, NCP1201 Datasheet - Page 11

NCP1201

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