NCP1203GEVB ON Semiconductor, NCP1203GEVB Datasheet - Page 8

NCP1203GEVB

Manufacturer Part Number

NCP1203GEVB

Description

EVAL BOARD FOR NCP1203G

Manufacturer

ON Semiconductor

Datasheets

1.NCP1200P100G.pdf (16 pages)

2.NCP1203GEVB.pdf (3 pages)

3.NCP1203GEVB.pdf (14 pages)

Specifications of NCP1203GEVB

Design Resources

NCP1203GEVB BOM NCP1203GEVB Gerber Files NCP1203 EVB Schematic

Main Purpose

AC/DC, Primary Side

Outputs And Type

1, Isolated

Voltage - Output

19V

Current - Output

Voltage - Input

85 ~ 230VAC

Regulator Topology

Flyback

Frequency - Switching

60kHz

Board Type

Fully Populated

Utilized Ic / Part

NPC1200

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Power - Output

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

For Use With/related Products

NCP1203G

Other names

NCP1203GEVBOS

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Skipping Cycle Mode

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

accomplished by monitoring the FB pin. In normal

operation, pin 2 imposes a peak current accordingly to the

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

asks for less peak current. When this setpoint reaches a

determined level, the IC prevents the current from

decreasing further down and starts to blank the output

pulses: the IC 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 18 ).

Suppose we have the following component values:

Lp, primary inductance = 1 mH

Ip skip = 300 mA (or 350 mV / Rsense)

The theoretical power transfer is therefore:

10 ms over a recurrent period of 100 ms, then the total power

transfer is: 2.2 . 0.1 = 220 mW.

a look at the operation mode versus the FB level

immediately gives the necessary insight:

@ Lp @ Ip

The NCP1200 automatically skips switching cycles when

If this IC enters skip cycle mode with a bunch length of

To better understand how this skip cycle mode takes place,

3. Permanently force the V

, switching frequency = 48 kHz

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. Make sure the auxiliary

voltage never exceeds the 16 V limit.

Figure 17. Feedback Voltage Variations

@ Fsw + 2.2 W

Normal Current Mode Operation

Skip Cycle Operation

min

= 350 mV / R

sense

level above V

CCH

http://onsemi.com

with

4.8 V

3.8 V

1.4 V

default), the peak current cannot exceed 1 V/Rsense. When

the IC enters the skip cycle mode, the peak current cannot go

below Vpin1 / 4 (Figure 19). The user still has the flexibility

to alter this 1.4 V by either shunting pin 1 to ground through

a resistor or raising it through a resistor up to the desired

level.

When FB is above the skip cycle threshold (1.4 V by

Figure 19. The skip cycle takes place at low peak

currents which guarantees noise free operation

Figure 18. Output pulses at various power levels

Max Peak

Current

(X = 5 ms/div) P1<P2<P3

Skip Cycle

Current Limit

NCP1203GEVB ON Semiconductor, NCP1203GEVB Datasheet - Page 8

NCP1203GEVB

Specifications of NCP1203GEVB

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